WO2023220994A1 - Cooking apparatus - Google Patents

Abstract

A cooking apparatus (400). The cooking apparatus (400) comprises a liquid storage tank (410); a refrigeration assembly (420) for refrigerating liquid in the liquid storage tank (410); and a heating assembly (430) for heating the liquid in the liquid storage tank (410), a common element (440) being provided between the refrigeration assembly (420) and the heating assembly (430).

Description

Translated fromChinese

一种烹饪装置a cooking device技术领域Technical field

本说明书涉及烹饪设备技术领域，特别涉及一种烹饪装置。This specification relates to the technical field of cooking equipment, and in particular to a cooking device.

背景技术Background technique

现代主义烹调出现了一种新式烹调和保存食物的方式——真空低温烹调；真空低温烹调可以让厨师或用户能够存储他们所做的食物，而后再次加热并且毫不损害食物任何微妙的风味和质地；运用真空低温烹调法，用户可以把食物加热到想要的准确温度以及所希望的精确时间，同样重要的是，加热可以十分均匀，所以食物的每个部分都能达到相同的温度，这需要精确控制中心温度，从而控制食物的风味和质地。Modernist cooking has given rise to a new way of cooking and preserving food - sous vide; sous vide allows chefs or users to store the food they have cooked and then reheat it without compromising any of the food's subtle flavors and textures With sous vide, users can heat food to the exact temperature they want and for the exact time they want, and equally importantly, the heating can be very even so every part of the food reaches the same temperature, which requires Precisely control the core temperature to control the flavor and texture of your food.

从上述真空低温烹调的原理可以得知，温度和时间是影响食物风味和质地的核心因素，为追求食物的风味和质地以及保证烹饪结果的可重复性，需要确保真空低温烹调装置能提供一个温度稳定和均匀的低温烹饪环境且在一段较长时间内保持该烹饪环境中温度的稳定性和均匀性，这一直是真空低温烹调装置面临的技术难点。From the above principles of sous vide cooking, we can know that temperature and time are the core factors that affect the flavor and texture of food. In order to pursue the flavor and texture of food and ensure the repeatability of cooking results, it is necessary to ensure that the sous vide cooking device can provide a temperature Stable and uniform low-temperature cooking environment and maintaining the stability and uniformity of temperature in the cooking environment over a long period of time have always been technical difficulties faced by sous vide cooking devices.

发明内容Contents of the invention

本说明书的实施例提供一种烹饪装置，所述烹饪装置包括：储液箱；制冷组件，对所述储液箱中的液体进行制冷；加热组件，对所述储液箱中的液体进行加热；所述制冷组件和所述加热组件之间具有共用元件。An embodiment of the present specification provides a cooking device, which includes: a liquid storage tank; a refrigeration component for cooling the liquid in the liquid storage tank; and a heating component for heating the liquid in the liquid storage tank. ; There are common elements between the refrigeration component and the heating component.

在一些实施例中，所述制冷组件包括制冷管路，所述加热组件包括加热管路；所述制冷管路和所述加热管路用于将所述储液箱中的液体引出所述储液箱，并在所述液体制冷和加热后送回储液箱。In some embodiments, the refrigeration component includes a refrigeration pipeline, and the heating component includes a heating pipeline; the refrigeration pipeline and the heating pipeline are used to lead the liquid in the liquid storage tank out of the storage tank. liquid tank and returns the liquid to the liquid storage tank after cooling and heating.

在一些实施例中，所述制冷管路与所述加热管路之间具有共用管路；所述共用元件至少包括所述共用管路。In some embodiments, there is a common pipeline between the refrigeration pipeline and the heating pipeline; the common element at least includes the common pipeline.

在一些实施例中，所述共用元件还包括与所述共用管路连通的热量导体；所述热量导体上设有通槽，所述通槽形成所述共用管路的至少部分。In some embodiments, the common component further includes a thermal conductor connected to the common pipeline; the thermal conductor is provided with a through slot, and the through slot forms at least part of the common pipeline.

在一些实施例中，所述热量导体的一端与所述共用管路连通，另一端与所述储液箱的进液口连通。In some embodiments, one end of the heat conductor is connected to the common pipeline, and the other end is connected to the liquid inlet of the liquid storage tank.

在一些实施例中，所述共用元件包括泵体，所述泵体用于驱动所述制冷管路和所述加热管路中的液体流动。In some embodiments, the common component includes a pump body, which is used to drive liquid flow in the refrigeration pipeline and the heating pipeline.

在一些实施例中，所述制冷管路和所述加热管路之间具有共用管路，所述泵体与所述共用管路连通。In some embodiments, there is a common pipeline between the refrigeration pipeline and the heating pipeline, and the pump body is connected to the common pipeline.

在一些实施例中，所述共用管路包括泵进液管和泵出液管；所述泵进液管与所述储液箱的出液口连通，所述泵出液管与所述储液箱的进液口连通。In some embodiments, the common pipeline includes a pump liquid inlet pipe and a pump liquid outlet pipe; the pump liquid inlet pipe is connected to the liquid outlet of the liquid storage tank, and the pump liquid outlet pipe is connected to the liquid storage tank. The liquid inlet of the liquid tank is connected.

在一些实施例中，所述泵出液管与所述热量导体的一端连接，所述热量导体的另一端与所述储液箱的进液口连通。In some embodiments, the pump liquid pipe is connected to one end of the heat conductor, and the other end of the heat conductor is connected to the liquid inlet of the liquid storage tank.

在一些实施例中，所述热量导体的形状包括立方体状或柱状。In some embodiments, the shape of the heat conductor includes a cube shape or a column shape.

在一些实施例中，所述通槽在所述热量导体内呈蛇形或螺旋形分布。In some embodiments, the slots are distributed in a serpentine or spiral shape within the heat conductor.

在一些实施例中，所述通槽的入口和出口设置在所述热量导体的两侧。In some embodiments, the inlet and outlet of the through slot are disposed on both sides of the heat conductor.

在一些实施例中，所述热量导体包括第一表面和第二表面；所述第一表面设有加热元件，所述第二表面设有制冷元件。In some embodiments, the heat conductor includes a first surface and a second surface; the first surface is provided with a heating element and the second surface is provided with a cooling element.

在一些实施例中，所述加热元件包括发热片，所述发热片贴附在所述第一表面上。In some embodiments, the heating element includes a heating sheet attached to the first surface.

在一些实施例中，所述制冷元件包括制冷片、散热片以及风扇；所述制冷片贴附在所述第二表面上，所述散热片贴附在所述制冷片的外侧，所述风扇设置在所述散热片的外侧。In some embodiments, the refrigeration element includes a refrigeration fin, a heat sink and a fan; the refrigeration fin is attached to the second surface, the heat sink is attached to the outside of the refrigeration fin, and the fan arranged on the outside of the heat sink.

在一些实施例中，所述第一表面朝向所述储液箱，所述第二表面背离所述储液箱。In some embodiments, the first surface faces the reservoir and the second surface faces away from the reservoir.

在一些实施例中，所述烹饪装置还包括设置在所述储液箱内的进液管和出液管；所述进液管与所述储液箱的进液口连通，所述出液管与所述储液箱的出液口连通。In some embodiments, the cooking device further includes a liquid inlet pipe and a liquid outlet pipe arranged in the liquid storage tank; the liquid inlet pipe is connected to the liquid inlet of the liquid storage tank, and the liquid outlet The tube is connected with the liquid outlet of the liquid storage tank.

在一些实施例中，所述进液管和/或所述出液管的末端设置在所述储液箱的最小液位线之下。In some embodiments, the ends of the liquid inlet pipe and/or the liquid outlet pipe are disposed below the minimum liquid level line of the liquid storage tank.

在一些实施例中，所述储液箱的进液口和/或出液口设置在所述储液箱的最大液位线之上。In some embodiments, the liquid inlet and/or the liquid outlet of the liquid storage tank are disposed above the maximum liquid level line of the liquid storage tank.

在一些实施例中，所述烹饪装置还包括主机，所述制冷组件与所述加热组件设置在所述主机上。In some embodiments, the cooking device further includes a host, and the refrigeration component and the heating component are disposed on the host.

在一些实施例中，所述烹饪装置还包括控制组件，用于控制所述制冷组件和/或所述加热组件对所述储液箱中的液体进行加热或制冷。In some embodiments, the cooking device further includes a control component for controlling the refrigeration component and/or the heating component to heat or cool the liquid in the liquid storage tank.

在一些实施例中，所述烹饪装置还包括设置在所述储液箱中的温度传感器，用于检测所述储液箱中液体的温度；所述控制组件根据所述温度传感器的检测结果控制所述制冷组件和所述加热组件。In some embodiments, the cooking device further includes a temperature sensor disposed in the liquid storage tank for detecting the temperature of the liquid in the liquid storage tank; the control component controls according to the detection result of the temperature sensor. The refrigeration component and the heating component.

本说明书实施例还提供一种管路组件，包括共用管路和热量导体；所述热量导体与所述共用管路连通，且所述热量导体的内部设有通槽，所述通槽形成所述共用管路的至少部分；所述热量导体的外表面设有加热元件和/或制冷元件。Embodiments of this specification also provide a pipeline assembly, including a common pipeline and a heat conductor; the heat conductor is connected to the common pipeline, and a through groove is provided inside the heat conductor, and the through groove forms the At least part of the common pipeline; the outer surface of the heat conductor is provided with heating elements and/or refrigeration elements.

在一些实施例中，所述管路组件包括泵体，所述泵体用于驱动所述共用管路中的液体流动。In some embodiments, the pipeline assembly includes a pump body, and the pump body is used to drive the liquid flow in the common pipeline.

在一些实施例中，所述共用管路包括泵进液管和泵出液管，所述泵进液管和泵出液管分别与所述泵体的入口和出口连接。In some embodiments, the common pipeline includes a pump inlet pipe and a pump outlet pipe, which are respectively connected to the inlet and outlet of the pump body.

在一些实施例中，所述热量导体包括第一表面和第二表面；所述第一表面上设有加热元件，所述第二表面上设有制冷元件。In some embodiments, the heat conductor includes a first surface and a second surface; a heating element is disposed on the first surface, and a cooling element is disposed on the second surface.

在一些实施例中，所述加热元件包括发热片，所述发热片贴附在所述第一表面上；所述制冷元件包括制冷片、散热片以及风扇；所述制冷片贴附在所述第二表面上，所述散热片贴附在所述制冷片的外侧，所述风扇设置在所述散热片的外侧。In some embodiments, the heating element includes a heating piece attached to the first surface; the cooling element includes a cooling piece, a heat sink and a fan; the cooling piece is attached to the first surface. On the second surface, the heat sink is attached to the outside of the cooling fin, and the fan is arranged on the outside of the heat sink.

本说明书一些实施例还提供一种烹饪装置，所述烹饪装置包括储液箱、循环管路、加热装置以及制冷装置；所述循环管路的两端均与所述储液箱连通，所述加热装置用于对所述循环管路中的液体进行加热，所述制冷装置用于对所述循环管路中的液体进行制冷；所述烹饪装置具有预约模式和烹饪模式；当所述烹饪装置处于预约模式时，制冷装置通过循环管路对所述储液箱中的液体进行制冷；当所述烹饪装置处于烹饪模式时，加热装置通过所述循环管路对所述储液箱中的液体进行加热。Some embodiments of this specification also provide a cooking device, which includes a liquid storage tank, a circulation pipeline, a heating device, and a refrigeration device; both ends of the circulation pipeline are connected to the liquid storage tank, and the The heating device is used to heat the liquid in the circulation pipeline, and the refrigeration device is used to refrigerate the liquid in the circulation pipeline; the cooking device has a reservation mode and a cooking mode; when the cooking device When the cooking device is in the cooking mode, the heating device cools the liquid in the liquid storage tank through the circulation pipeline. Apply heat.

在一些实施例中，所述烹饪装置的预约模式和烹饪模式通过所述烹饪装置的交互界面设置；当预先设置的预约模式达到预设时间时，所述烹饪装置从所述预约模式切换至所述烹饪模式。In some embodiments, the reservation mode and cooking mode of the cooking device are set through the interactive interface of the cooking device; when the preset reservation mode reaches the preset time, the cooking device switches from the reservation mode to the preset mode. Describe the cooking mode.

在一些实施例中，所述循环管路包括设置在热量导体内部的通槽，所述通槽的一端与所述储液箱的出液口连通，所述通道的另一端与所述储液箱的进液口连通。In some embodiments, the circulation pipeline includes a through groove disposed inside the heat conductor, one end of the through groove is connected to the liquid outlet of the liquid storage tank, and the other end of the channel is connected to the liquid storage tank. The liquid inlet of the tank is connected.

在一些实施例中，所述热量导体包括第一表面和第二表面；所述加热装置包括设置在所述第一表面上的加热元件，所述制冷装置包括设置在所述第二表面上的制冷元件。In some embodiments, the heat conductor includes a first surface and a second surface; the heating device includes a heating element disposed on the first surface, and the refrigeration device includes a heating element disposed on the second surface. Refrigeration components.

在一些实施例中，所述加热元件包括发热片，所述发热片贴附在所述第一表面上。In some embodiments, the heating element includes a heating sheet attached to the first surface.

在一些实施例中，所述制冷元件包括制冷片、散热片以及风扇；所述制冷片贴附在所述第二表面上，所述散热片贴附在所述制冷片的外侧，所述风扇设置在所述散热片的外侧。In some embodiments, the refrigeration element includes a refrigeration fin, a heat sink and a fan; the refrigeration fin is attached to the second surface, the heat sink is attached to the outside of the refrigeration fin, and the fan arranged on the outside of the heat sink.

在一些实施例中，所述循环管路、加热装置以及制冷装置，设置在所述储液箱的外侧。In some embodiments, the circulation pipeline, heating device and refrigeration device are arranged outside the liquid storage tank.

附图说明Description of the drawings

本申请将以示例性实施例的方式进一步说明，这些示例性实施例将通过附图进行详细描述。这些实施例并非限制性的，在这些实施例中，相同的编号表示相同的结构，其中：The application will be further described by way of example embodiments, which will be described in detail by means of the accompanying drawings. These embodiments are not limiting. In these embodiments, the same numbers represent the same structures, where:

图1是根据本说明书一些实施例所示的烹饪装置的示例性框架图；Figure 1 is an exemplary schematic diagram of a cooking device according to some embodiments of the present specification;

图2是根据本说明书一些实施例所示的烹饪装置的示例性硬件和/或软件示例图；Figure 2 is an exemplary hardware and/or software example diagram of a cooking device according to some embodiments of the present specification;

图3是根据本说明书一些实施例所示的烹饪装置的另一示例性框架图；Figure 3 is another exemplary schematic diagram of a cooking device according to some embodiments of this specification;

图4是根据本说明书一些实施例所示的烹饪装置的示例性结构图；Figure 4 is an exemplary structural diagram of a cooking device according to some embodiments of this specification;

图5是根据本说明书一些实施例所示的烹饪装置的示例性装配图；Figure 5 is an exemplary assembly diagram of a cooking device according to some embodiments of the present specification;

图6是根据本说明书一些实施例所示的热量导体的示例性剖视图。Figure 6 is an exemplary cross-sectional view of a thermal conductor in accordance with some embodiments of the present specification.

具体实施方式Detailed ways

为了更清楚地说明本说明书实施例的技术方案，下面将对实施例描述中所需要使用的附图作简单的介绍。显而易见地，下面描述中的附图仅仅是本说明书的一些示例或实施例，对于本领域的普通技术人员来讲，在不付出创造性劳动的前提下，还可以根据这些附图将本说明书应用于其它类似情景。除非从语言环境中显而易见或另做说明，图中相同标号代表相同结构或操作。In order to explain the technical solutions of the embodiments of this specification more clearly, the accompanying drawings needed to be used in the description of the embodiments will be briefly introduced below. Obviously, the drawings in the following description are only some examples or embodiments of this specification. For those of ordinary skill in the art, without exerting any creative efforts, this specification can also be applied to other applications based on these drawings. Other similar scenarios. Unless obvious from the locale or otherwise stated, the same reference numbers in the figures represent the same structure or operation.

应当理解，本文使用的“系统”、“装置”、“单元”和/或“模组”是用于区分不同级别的不同组件、元件、部件、部分或装配的一种方法。然而，如果其他词语可实现相同的目的，则可通过其他表达来替换所述词语。It should be understood that the terms "system", "apparatus", "unit" and/or "module" as used herein are a means of distinguishing between different components, elements, parts, portions or assemblies at different levels. However, said words may be replaced by other expressions if they serve the same purpose.

如本说明书和权利要求书中所示，除非上下文明确提示例外情形，“一”、“一个”、“一种”和/或“该”等词并非特指单数，也可包括复数。一般说来，术语“包括”与“包含”仅提示包括已明确标识的步骤和元素，而这些步骤和元素不构成一个排它性的罗列，方法或者设备也可能包含其它的步骤或元素。As shown in this specification and claims, words such as "a", "an", "an" and/or "the" do not specifically refer to the singular and may include the plural unless the context clearly indicates an exception. Generally speaking, the terms "comprising" and "comprising" only imply the inclusion of clearly identified steps and elements, and these steps and elements do not constitute an exclusive list. The method or apparatus may also include other steps or elements.

本说明书中使用了流程图用来说明根据本说明书的实施例的系统所执行的操作。应当理解的是，前面或后面操作不一定按照顺序来精确地执行。相反，可以按照倒序或同时处理各个步骤。同时，也可以将其他操作添加到这些过程中，或从这些过程移除某一步或数步操作。Flowcharts are used in this specification to illustrate operations performed by systems according to embodiments of this specification. It should be understood that preceding or following operations are not necessarily performed in exact order. Instead, the steps can be processed in reverse order or simultaneously. At the same time, you can add other operations to these processes, or remove a step or steps from these processes.

本说明书中一个或多个实施例中的烹饪装置可以是根据预设烹饪程序执行烹饪操作，可控地调节烹饪参数对食材进行烹饪的烹饪设备。在一些实施例中，烹饪装置可以包括但不限于低温慢煮装置、蒸煮装置、电饭煲等，或其任意组合。其中，低温慢煮装置可以包括但不限于低温慢煮棒、低温慢煮机等。在一些实施例中，低温慢煮装置可以是指采用低温烹调方法对食材进行烹饪的烹饪设备。例如，可以利用抽真空机将装有食材的真空袋抽真空，然后将抽真空后装有食材的真空袋整体放入装有液体的储液箱中，通过加热组件对储液箱中的液体进行加热，从而完成食材的低温慢煮。食材的低温慢煮可以指食材在低温下(例如，大约60℃)进行较长时间(例如，2小时以上)的温煮。下面以低温慢煮装置为例对本说明书中一个或多个实施例进行示例性说明。The cooking device in one or more embodiments of this specification may be a cooking device that performs cooking operations according to a preset cooking program and controllably adjusts cooking parameters to cook ingredients. In some embodiments, the cooking device may include, but is not limited to, a low-temperature cooking device, a steaming device, a rice cooker, etc., or any combination thereof. Among them, low-temperature slow-cooking devices may include, but are not limited to, low-temperature slow-cooking sticks, low-temperature slow-cooking machines, etc. In some embodiments, the low-temperature cooking device may refer to a cooking device that uses a low-temperature cooking method to cook ingredients. For example, a vacuum machine can be used to evacuate a vacuum bag containing food, and then the entire vacuum bag containing food can be placed into a liquid storage tank containing liquid, and the liquid in the liquid storage tank can be heated by a heating component. Heating is performed to complete low-temperature slow cooking of ingredients. Low-temperature slow-cooking of food materials may refer to warm cooking of food materials at a low temperature (for example, about 60° C.) for a longer period of time (for example, more than 2 hours). One or more embodiments in this specification will be illustratively described below by taking a low-temperature slow-cooking device as an example.

图1是根据本说明书一些实施例所示的烹饪装置的示例性框架图。Figure 1 is an exemplary schematic diagram of a cooking device according to some embodiments of the present specification.

在一些实施例中，烹饪装置100可以单独使用。在一些实施例中，烹饪装置100也可以与温度探针、抽真空机、真空袋或其他烹饪装置配套使用。在一些实施例中，烹饪装置100还可以与便携设备(例如，手机、手表、电脑)联用，在便携设备上实现对烹饪装置100的控制。例如，烹饪装置100可以通过云服务器与其他烹饪装置或便携设备联用，进行数据发送或同步，从而达到数据共用的目的。共用的数据可以通过烹饪装置100的显示组件进行显示。在一些实施例中，烹饪装置100还可以将与烹饪装置100运行相关的装置信息发送到设备管理平台，通过设备管理平台监测烹饪装置100是否具备正常运行的能力。装置信息可以包括装置状态信息(例如，装置开机时间、装置关机时间、装置使用频率)、硬件状态信息(例如，硬件故障信息)、通信状态信息(例如，通信故障信息)、电池状态信息(例如，电池电量)等中的一种或多种。在一些实施例中，烹饪装置100可以进行联网设置，联网后的烹饪装置100可以从服务器、便携设备或者其他烹饪装置获取菜谱，并在烹饪装置100上进行浏览。当烹饪装置100断网后，则浏览本地存储的菜谱。In some embodiments,cooking device 100 may be used alone. In some embodiments, thecooking device 100 may also be used with a temperature probe, a vacuum machine, a vacuum bag, or other cooking devices. In some embodiments, thecooking device 100 can also be used in conjunction with a portable device (eg, a mobile phone, a watch, a computer) to control thecooking device 100 on the portable device. For example, thecooking device 100 can be used with other cooking devices or portable devices through a cloud server to send or synchronize data, thereby achieving the purpose of data sharing. The shared data may be displayed via a display component of thecooking device 100 . In some embodiments, thecooking device 100 can also send device information related to the operation of thecooking device 100 to the equipment management platform, and use the equipment management platform to monitor whether thecooking device 100 has the ability to operate normally. The device information may include device status information (for example, device power-on time, device power-off time, device usage frequency), hardware status information (for example, hardware fault information), communication status information (for example, communication fault information), battery status information (for example, , battery level), etc., one or more. In some embodiments, thecooking device 100 can be set up with a network. Thenetworked cooking device 100 can obtain recipes from a server, a portable device or other cooking devices, and browse them on thecooking device 100 . When thecooking device 100 is disconnected from the Internet, locally stored recipes are browsed.

在一些实施例中，烹饪装置100可以包括储液模块110、加热模块121、制冷模块122、处理控制模块130、检测模块140、信息输入/输出模块150以及存储器160。In some embodiments, thecooking device 100 may include a liquid storage module 110, a heating module 121, a refrigeration module 122, a process control module 130, a detection module 140, an information input/output module 150, and a memory 160.

储液模块110可以用于存储液体。在一些实施例中，储液模块110可以包括储液箱，液体储存在储液箱中。储液箱可以是具有顶部开口的箱体，液体通过顶部开口注入到储液箱中。储液箱的顶部还可以设置有与顶部开口匹配的箱体盖，以实现对储液箱的密封。在一些实施例中，烹饪装置100可以包括设置在储液模块110与加热模块121和/或制冷模块122之间的液体循环系统(也称为烹饪装置100的大循环系统)。烹饪装置100的大循环系统可以由储液模块110的液体循环系统以及加热模块121和/或制冷模块122的循环管路组成。烹饪装置100的大循环系统能够实现储液箱与烹饪装置100的主机(加热模块121和/或制冷模块122设置在主机中)之间的液体循环。在一些实施例中，储液箱可以包括进液口和出液口，储液箱的进液口和出液口分别与主机的出口和入口连通以与加热模块121和/或制冷模块122的循环管路连通，从而实现液体在储液箱和主机之间的循环流动。在一些实施例中，储液箱的进液口和出液口可以设置在储液箱相同和/或不同侧壁上。在一些实施例中，储液箱的进液口和出液口可以设置在储液箱的最大液位线之上，以防止储液箱中的液体从储液箱的进液口和/或出液口溢出。The liquid storage module 110 may be used to store liquid. In some embodiments, the liquid storage module 110 may include a liquid storage tank in which liquid is stored. The liquid storage tank may be a tank with a top opening through which liquid is injected into the liquid storage tank. The top of the liquid storage tank can also be provided with a tank cover matching the top opening to achieve sealing of the liquid storage tank. In some embodiments, thecooking device 100 may include a liquid circulation system (also referred to as a large circulation system of the cooking device 100) disposed between the liquid storage module 110 and the heating module 121 and/or the refrigeration module 122. The large circulation system of thecooking device 100 may be composed of a liquid circulation system of the liquid storage module 110 and a circulation pipeline of the heating module 121 and/or the refrigeration module 122 . The large circulation system of thecooking device 100 can realize liquid circulation between the liquid storage tank and the main body of the cooking device 100 (the heating module 121 and/or the refrigeration module 122 are arranged in the main body). In some embodiments, the liquid storage tank may include a liquid inlet and a liquid outlet. The liquid inlet and liquid outlet of the liquid storage tank are respectively connected with the outlet and the inlet of the host to communicate with the heating module 121 and/or the refrigeration module 122 . The circulation pipeline is connected to realize the circulation flow of liquid between the liquid storage tank and the host machine. In some embodiments, the liquid inlet and the liquid outlet of the liquid storage tank may be disposed on the same and/or different side walls of the liquid storage tank. In some embodiments, the liquid inlet and outlet of the liquid storage tank may be disposed above the maximum liquid level line of the liquid storage tank to prevent the liquid in the liquid storage tank from flowing out of the liquid inlet and/or the liquid storage tank. The liquid outlet is overflowing.

在一些实施例中，储液箱内的液体可以包括但不限于水或其他液体。其他液体可以包括可食用液体(例如，饮料，咖啡等饮品)。在一些实施例中，储液模块110可以与烹饪装置100的其他模块连通。例如，储液模块110可以与加热模块121和/或制冷模块122连通，以实现储液箱内液体的加热和/或制冷。In some embodiments, the liquid in the liquid storage tank may include, but is not limited to, water or other liquids. Other liquids may include edible liquids (eg, beverages, coffee, etc.). In some embodiments, the liquid storage module 110 may communicate with other modules of thecooking device 100 . For example, the liquid storage module 110 can be connected with the heating module 121 and/or the refrigeration module 122 to achieve heating and/or cooling of the liquid in the liquid storage tank.

加热模块121可以用于对液体加热。在一些实施例中，加热模块121可以包括加热组件。加热组件可以是指能够对液体和/或储液箱进行加热的元器件。在一些实施例中，加热模块121可以包括直接对储液箱进行加热的加热元器件(例如，加热底座)。例如，加热模块121可以包括设置 在储液箱底部的加热底座，加热底座能够对储液箱直接加热。在一些实施例中，加热模块121也可以包括直接对储液箱内液体进行加热的加热元器件(例如，加热管、加热丝、加热棒等)。例如，加热模块121可以包括设置于储液箱内的加热棒，加热棒能够直接对储液箱内的液体进行加热。Heating module 121 may be used to heat liquids. In some embodiments, heating module 121 may include a heating component. The heating component may refer to a component capable of heating the liquid and/or the liquid storage tank. In some embodiments, the heating module 121 may include a heating element (eg, a heating base) that directly heats the reservoir. For example, the heating module 121 may include a heating base disposed at the bottom of the liquid storage tank, and the heating base can directly heat the liquid storage tank. In some embodiments, the heating module 121 may also include heating elements (for example, heating tubes, heating wires, heating rods, etc.) that directly heat the liquid in the liquid storage tank. For example, the heating module 121 may include a heating rod disposed in the liquid storage tank, and the heating rod can directly heat the liquid in the liquid storage tank.

在一些实施例中，为了使储液箱内液体的加热更为均匀，加热模块121可以包括加热管路。在一些实施例中，加热管路可以包括连接于储液模块110和加热模块121之间的管道。在一些实施例中，加热管路也可以包括设置在主机中的管道。在一些实施例中，加热模块121可以设置在主机中，加热模块121的加热管路作为主机的液体循环系统的一部分。在一些实施例中，加热模块121包括加热管路时，加热模块121的加热组件可以是设置在加热管路中的加热管，液体在加热管路中流过加热管时，加热管发热将热量传递给液体，然后液体将热量带回储液箱，储液箱中的液体通过在加热管路和储液箱之间循环流动，实现储液箱内液体的加热。具体地，加热管路的一端(加热管路入口)与储液箱的出液口连通，加热管路的另一端(加热管路出口)与储液箱的进液口连通，储液箱内的液体从储液箱的出液口通过加热管路的入口流入加热管路，并从加热管路的出口通过储液箱的进液口流回至储液箱，从而实现储液箱内液体的循环流动。在一些实施例中，加热模块121包括加热管路时，加热模块121的加热组件也可以是设置在加热管路中的加热元器件。在一些实施例中，加热组件可以直接对加热管路中的液体进行加热，加热管路中的某部分管道为加热管，循环流动过程中，位于加热管段内的液体一直处于被加热状态，并在循环流动的作用下把热量带回储液箱中。在一些实施例中，加热组件也可以通过对加热管路的管壁进行加热的方式从而实现对加热管路中的液体进行加热，加热组件可以是在加热管路的某一部分管道的管壁上设置的散热片，散热片散热发出的热量通过管道传递给管道中的液体。在一些实施例中，加热组件可以直接将热量传递给加热管路中的液体，液体将能量带回储液箱。在一些实施例中，加热组件也可以间接的将热量传递给加热管路中的液体，例如，加热组件可以将能量传递给热量导体，热量导体作为热量传递元件将加热组件的热量传递给加热管路中的液体。In some embodiments, in order to heat the liquid in the liquid storage tank more uniformly, the heating module 121 may include a heating pipeline. In some embodiments, the heating pipeline may include a pipe connected between the liquid storage module 110 and the heating module 121 . In some embodiments, the heating pipeline may also include pipes disposed in the host machine. In some embodiments, the heating module 121 may be disposed in the host, and the heating pipeline of the heating module 121 serves as a part of the liquid circulation system of the host. In some embodiments, when the heating module 121 includes a heating pipe, the heating component of the heating module 121 may be a heating pipe disposed in the heating pipe. When the liquid flows through the heating pipe in the heating pipe, the heating pipe generates heat and transfers heat. To the liquid, the liquid then brings the heat back to the liquid storage tank. The liquid in the liquid storage tank circulates between the heating pipe and the liquid storage tank to heat the liquid in the liquid storage tank. Specifically, one end of the heating pipeline (heating pipeline inlet) is connected to the liquid outlet of the liquid storage tank, and the other end of the heating pipeline (heating pipeline outlet) is connected to the liquid inlet of the liquid storage tank. The liquid flows from the outlet of the liquid storage tank through the inlet of the heating pipe into the heating pipe, and flows back from the outlet of the heating pipe through the liquid inlet of the liquid storage tank to the liquid storage tank, thereby realizing the liquid in the liquid storage tank. circular flow. In some embodiments, when the heating module 121 includes a heating pipeline, the heating component of the heating module 121 may also be a heating element disposed in the heating pipeline. In some embodiments, the heating component can directly heat the liquid in the heating pipe. Some pipes in the heating pipe are heating pipes. During the circulation process, the liquid located in the heating pipe section is always heated, and The heat is brought back to the liquid storage tank under the action of circulating flow. In some embodiments, the heating component can also heat the liquid in the heating pipeline by heating the wall of the heating pipeline. The heating component can be on the wall of a certain part of the heating pipeline. A heat sink is provided, and the heat emitted by the heat sink is transferred to the liquid in the pipe through the pipe. In some embodiments, the heating assembly can transfer heat directly to the liquid in the heating line, and the liquid carries the energy back to the liquid storage tank. In some embodiments, the heating component can also indirectly transfer heat to the liquid in the heating pipe. For example, the heating component can transfer energy to a heat conductor, and the heat conductor serves as a heat transfer element to transfer the heat of the heating component to the heating pipe. Liquids in the road.

通过加热管路对液体进行加热，加热后的液体流回储液箱后能够与储液箱中的液体进行充分的热量交换，液体在循环流动和热量交换的过程中可以使加热模块121的加热功率(即，加热模块121产生的热量)稳定的释放到液体中，从而提高储液箱内液体温度的稳定性。The liquid is heated through the heating pipeline. After the heated liquid flows back to the liquid storage tank, it can fully exchange heat with the liquid in the liquid storage tank. The liquid can heat the heating module 121 during the process of circulating flow and heat exchange. Power (ie, heat generated by the heating module 121) is stably released into the liquid, thereby improving the stability of the temperature of the liquid in the liquid storage tank.

在一些实施例中，加热模块121与处理控制模块130可以通信连接，以实现处理控制模块130与加热模块121之间的信息指令的传输。这里的信息指令可以包括但不限于控制指令(例如，加热组件的启动指令、停止指令等)、数据指令(例如，加热组件的加热功率)等。In some embodiments, the heating module 121 and the processing control module 130 may be communicatively connected to realize the transmission of information instructions between the processing control module 130 and the heating module 121 . The information instructions here may include, but are not limited to, control instructions (eg, start instructions, stop instructions of the heating component, etc.), data instructions (eg, heating power of the heating component), etc.

制冷模块122可以用于对液体进行制冷。在一些实施例中，制冷模块122可以包括制冷组件。制冷组件可以是指能够对液体和/或储液箱进行制冷的元器件。在一些实施例中，制冷模块122可以包括直接对储液箱进行制冷的制冷元器件(例如，制冷底座)。例如，制冷模块122可以包括设置在储液箱底部的制冷底座，制冷底座能够对储液箱直接制冷。在一些实施例中，制冷模块122也可以包括直接对储液箱内液体进行制冷的制冷元器件(例如，制冷片等)。例如，制冷模块122可以包括设置于储液箱内的制冷片，制冷片能够直接对储液箱内的液体进行制冷。Refrigeration module 122 may be used to cool liquids. In some embodiments, refrigeration module 122 may include refrigeration components. Refrigeration components may refer to components capable of refrigeration of liquids and/or liquid storage tanks. In some embodiments, the refrigeration module 122 may include a refrigeration component (eg, a refrigeration base) that directly cools the liquid storage tank. For example, the refrigeration module 122 may include a refrigeration base disposed at the bottom of the liquid storage tank, and the refrigeration base can directly cool the liquid storage tank. In some embodiments, the refrigeration module 122 may also include a refrigeration component (for example, a refrigeration plate, etc.) that directly cools the liquid in the liquid storage tank. For example, the refrigeration module 122 may include a refrigeration piece disposed in the liquid storage tank, and the refrigeration piece can directly cool the liquid in the liquid storage tank.

在一些实施例中，制冷模块122对储液箱中的液体进行制冷时，制冷模块122可以包括制冷管路。在一些实施例中，制冷管路可以是连接于储液模块110和制冷模块122之间的管道。在一些实施例中，制冷管路也可以包括设置在主机中的管道。在一些实施例中，制冷模块122可以设置在主机中，制冷模块122的制冷管路作为主机的液体循环系统的一部分。在一些实施例中，制冷模块122包括制冷管路时，制冷组件可以是设置在制冷管路中的制冷管，液体在制冷管路中流过制冷管时进行制冷，制冷后的液体通过制冷管路流回储液箱，实现储液箱内液体的制冷。在一些实施例中，制冷模块122包括制冷管路时，制冷组件也可以是设置在制冷管路中的制冷元器件。在一些实施例中，制冷组件可以直接对制冷管路中的液体进行加热，制冷管路中的某部分管道为制冷管，循环流动过程中，位于制冷管段内的液体一直处于被制冷状态，并在循环流动的作用下把热量带回储液箱中。在一些实施例中，制冷组件也可以通过对制冷管路的管壁进行制冷的方式从而实现对制冷管路中的液体进行制冷，制冷组件可以是在制冷管路的某一部分管道的管壁上设置的制冷片，制冷片散热发出的热量通过管道传递给管道中的液体。在一些实施例中，制冷组件可以直接将热量传递给制冷管路中的液体，液体将能量带回储液箱。在一些实施例中，制冷组件也可以间接的将热量传递给制冷管路中的液体，例如，制冷组件可以将能量传递给热量导体，热量导体作为热量传递元件将制冷组件的热量传递给制冷管路中的液体。In some embodiments, when the refrigeration module 122 refrigerates the liquid in the liquid storage tank, the refrigeration module 122 may include a refrigeration pipeline. In some embodiments, the refrigeration pipeline may be a pipeline connected between the liquid storage module 110 and the refrigeration module 122 . In some embodiments, the refrigeration pipeline may also include pipelines disposed in the main machine. In some embodiments, the refrigeration module 122 may be disposed in the host, and the refrigeration pipeline of the refrigeration module 122 serves as a part of the liquid circulation system of the host. In some embodiments, when the refrigeration module 122 includes a refrigeration pipeline, the refrigeration component may be a refrigeration pipe disposed in the refrigeration pipeline. The liquid is refrigerated when flowing through the refrigeration pipe in the refrigeration pipeline, and the cooled liquid passes through the refrigeration pipeline. Flows back to the liquid storage tank to achieve cooling of the liquid in the liquid storage tank. In some embodiments, when the refrigeration module 122 includes a refrigeration pipeline, the refrigeration component may also be a refrigeration component disposed in the refrigeration pipeline. In some embodiments, the refrigeration component can directly heat the liquid in the refrigeration pipeline. Some pipes in the refrigeration pipeline are refrigeration pipes. During the circulation process, the liquid located in the refrigeration pipe section is always in a refrigerated state, and The heat is brought back to the liquid storage tank under the action of circulating flow. In some embodiments, the refrigeration component can also refrigerate the liquid in the refrigeration pipeline by cooling the pipe wall of the refrigeration pipeline. The refrigeration component can be installed on the pipe wall of a certain part of the refrigeration pipeline. The refrigeration fins are installed, and the heat emitted by the refrigeration fins is transferred to the liquid in the pipes through the pipes. In some embodiments, the refrigeration component can transfer heat directly to the liquid in the refrigeration line, and the liquid carries the energy back to the reservoir. In some embodiments, the refrigeration component can also indirectly transfer heat to the liquid in the refrigeration pipeline. For example, the refrigeration component can transfer energy to the heat conductor, and the heat conductor serves as a heat transfer element to transfer the heat of the refrigeration component to the refrigeration pipe. Liquids in the road.

在一些实施例中，制冷模块122通过对储液箱中的液体进行制冷，可以实现烹饪装置100对储液箱内食材的保鲜。在一些实施例中，使用者将食材放入储液箱后可能不会立即启动烹饪装置 100进行烹饪，而是要在一定时间(例如，5小时、8小时、1天)后才开始烹饪过程，那么这段时间内就需要对储液箱中的食材进行冷藏以防止食材发生变质或营养流失。基于此，为了保证储液箱内食材的新鲜度，制冷模块122可以对储液箱内的液体进行制冷，以使储液箱内液体温度处于适于保鲜的冷藏温度。在一些实施例中，适于保鲜的冷藏温度可以位于2°-10°。优选地，适于保鲜的冷藏温度可以位于2°-5°。In some embodiments, the refrigeration module 122 cools the liquid in the liquid storage tank, so that thecooking device 100 can keep the food in the liquid storage tank fresh. In some embodiments, the user may not start thecooking device 100 for cooking immediately after putting the ingredients into the liquid storage tank, but may start the cooking process after a certain period of time (eg, 5 hours, 8 hours, 1 day). , then the ingredients in the storage tank need to be refrigerated during this period to prevent the ingredients from deteriorating or losing nutrients. Based on this, in order to ensure the freshness of the food in the liquid storage tank, the refrigeration module 122 can refrigerate the liquid in the liquid storage tank so that the temperature of the liquid in the liquid storage tank is at a refrigeration temperature suitable for preservation. In some embodiments, the refrigeration temperature suitable for preservation may be between 2° and 10°. Preferably, the refrigeration temperature suitable for preservation can be between 2° and 5°.

在一些实施例中，烹饪装置100可以具有预约模式。预约模式可以实现烹饪装置100的预约功能。预约功能可以是指预先设定装置模式的功能。与烹饪装置100的预约功能有关的参数可以包括预约时间、预约温度等。在一些实施例中，烹饪装置100具有预约模式时，烹饪装置100可以包括制冷模块122。使用者可以通过交互界面(例如，手机界面、烹饪装置100的主机界面)输入预约信息，预约信息输入后烹饪装置100在预约模式下开始工作。在一些实施例中，预约信息可以包括但不限于预约时间、预约温度(例如，烹饪过程中的烹饪温度、烹饪之前的冷藏温度等)等。使用者通过交互界面输入预约信息后，烹饪装置100开始启动预约模式。烹饪装置100在预约模式下，处理控制模块130可以控制制冷模块122开始工作，制冷组件对储液箱内的液体进行制冷，以使储液箱中液体温度处于冷藏温度。当检测模块140检测到制冷组件的制冷时间达到预约时间时，处理控制模块130可以控制制冷组件停止工作。同时，处理控制模块130还可以控制加热模块121的加热组件开始工作，加热组件对储液箱中的液体进行加热，烹饪装置100开始烹饪过程。In some embodiments, thecooking device 100 may have a reservation mode. The reservation mode can realize the reservation function of thecooking device 100 . The reservation function may refer to a function of setting a device mode in advance. Parameters related to the reservation function of thecooking device 100 may include reservation time, reservation temperature, and the like. In some embodiments, thecooking device 100 may include a refrigeration module 122 when thecooking device 100 has a reservation mode. The user can input reservation information through an interactive interface (for example, a mobile phone interface, a host interface of the cooking device 100). After the reservation information is input, thecooking device 100 starts working in the reservation mode. In some embodiments, the reservation information may include, but is not limited to, reservation time, reservation temperature (for example, cooking temperature during cooking, refrigeration temperature before cooking, etc.), etc. After the user inputs the reservation information through the interactive interface, thecooking device 100 starts to activate the reservation mode. When thecooking device 100 is in the reservation mode, the processing control module 130 can control the refrigeration module 122 to start working, and the refrigeration component refrigerates the liquid in the liquid storage tank so that the temperature of the liquid in the liquid storage tank is at the refrigeration temperature. When the detection module 140 detects that the cooling time of the refrigeration component reaches the preset time, the processing control module 130 may control the refrigeration component to stop working. At the same time, the processing control module 130 can also control the heating component of the heating module 121 to start working. The heating component heats the liquid in the liquid storage tank, and thecooking device 100 starts the cooking process.

在一些实施例中，烹饪装置100可以具有预约模式和烹饪模式。烹饪装置100处于预约模式时，制冷模块122处于工作状态，加热模块121处于不工作状态；烹饪装置100处于烹饪模式时，制冷模块122处于不工作状态，加热模块121处于工作状态。在一些实施例中，烹饪装置100处于预约模式时，制冷组件对储液箱内的液体进行制冷；烹饪装置100处于烹饪模式时，加热组件对储液箱内的液体进行加热。在一些实施例中，制冷组件的制冷时间未达到预约时间时，处理控制模块130可以控制烹饪装置100的工作模式为预约模式；制冷组件的制冷时间达到预约时间时，处理控制模块130可以控制烹饪装置100的工作模式从预约模式切换为烹饪模式。In some embodiments, thecooking device 100 may have a reservation mode and a cooking mode. When thecooking device 100 is in the reservation mode, the refrigeration module 122 is in the working state and the heating module 121 is in the inactive state; when thecooking device 100 is in the cooking mode, the refrigeration module 122 is in the inactive state and the heating module 121 is in the working state. In some embodiments, when thecooking device 100 is in the reservation mode, the refrigeration component cools the liquid in the liquid storage tank; when thecooking device 100 is in the cooking mode, the heating component heats the liquid in the liquid storage tank. In some embodiments, when the refrigeration time of the refrigeration component does not reach the preset time, the processing control module 130 can control the working mode of thecooking device 100 to be the preset mode; when the refrigeration time of the refrigeration component reaches the preset time, the processing control module 130 can control the cooking The operating mode of thedevice 100 is switched from the reservation mode to the cooking mode.

在一些实施例中，烹饪装置100包括预约模式时，烹饪装置100也可以包括加热模块121而不包括制冷模块122。例如，使用者通过交互界面输入预约信息后，烹饪装置100开始启动预约模式，在预约模式下，加热模块121处于不工作状态，当检测模块140检测到当前时间达到预约时间时，处理控制模块130可以控制加热模块121的加热组件开始工作，加热组件对储液箱中的液体进行加热，烹饪装置100开始烹饪过程。In some embodiments, when thecooking device 100 includes the reservation mode, thecooking device 100 may also include the heating module 121 but not the refrigeration module 122 . For example, after the user inputs reservation information through the interactive interface, thecooking device 100 starts to activate the reservation mode. In the reservation mode, the heating module 121 is in an inactive state. When the detection module 140 detects that the current time reaches the reservation time, the processing control module 130 The heating component of the heating module 121 can be controlled to start working, the heating component heats the liquid in the liquid storage tank, and thecooking device 100 starts the cooking process.

在一些实施例中，制冷模块122与处理控制模块130可以通信连接，以实现处理控制模块130与制冷模块122之间的信息指令的传输。这里的信息指令可以包括但不限于启动指令、停止指令等。In some embodiments, the refrigeration module 122 and the processing control module 130 may be communicatively connected to realize the transmission of information instructions between the processing control module 130 and the refrigeration module 122 . The information instructions here may include but are not limited to start instructions, stop instructions, etc.

处理控制模块130可以与烹饪装置100中其他模块相连接。在一些实施例中，处理控制模块130可以控制烹饪装置100中其他模块(例如，加热模块121、制冷模块122、检测模块140、信息输入/输出模块150)的运行状态。例如，处理控制模块130可以向加热模块121(和/或制冷模块122)发送控制指令以控制加热模块121(和/或制冷模块122)。以处理控制模块130控制加热模块121作为示例性说明，处理控制模块130可以控制加热模块121的工作状态。加热模块121的工作状态可以包括但不限于加热装置的启动或停止、加热模块121的加热功率等。例如，处理控制模块130可以向加热模块121发送启动指令(或停止指令)以使加热模块121启动(或停止)加热。在一些实施例中，处理控制模块130可以向加热模块121发送控制指令，以使加热模块121的加热管路启动(即，开始液体循环)。The process control module 130 may be connected to other modules in thecooking device 100 . In some embodiments, the processing control module 130 can control the operating status of other modules in the cooking device 100 (eg, heating module 121, refrigeration module 122, detection module 140, information input/output module 150). For example, the process control module 130 may send control instructions to the heating module 121 (and/or the refrigeration module 122) to control the heating module 121 (and/or the refrigeration module 122). Taking the process control module 130 controlling the heating module 121 as an example, the process control module 130 can control the working state of the heating module 121 . The working status of the heating module 121 may include, but is not limited to, starting or stopping the heating device, the heating power of the heating module 121, etc. For example, the process control module 130 may send a start instruction (or a stop instruction) to the heating module 121 to cause the heating module 121 to start (or stop) heating. In some embodiments, the process control module 130 may send control instructions to the heating module 121 to activate the heating pipeline of the heating module 121 (ie, start liquid circulation).

在一些实施例中，处理控制模块130可以用于控制烹饪装置100的工作状态。例如，处理控制模块130可以向烹饪装置100发送启动指令(或停止指令)以使烹饪装置100处于启动(或停止)烹饪状态。在一些实施例中，处理控制模块130也可以用于控制烹饪装置100的工作模式。例如，处理控制模块130可以通过控制加热模块121和制冷模块122的工作状态，从而控制烹饪装置100的工作模式在预约模式和烹饪模式之间进行切换。在一些实施例中，处理控制模块130还可以用于控制烹饪装置100的工作时间。例如，当烹饪装置100的工作时间达到预设工作时间时，处理控制模块130可以向烹饪装置100发送控制指令以关闭烹饪装置100，从而避免烹饪时间过长。In some embodiments, the process control module 130 may be used to control the operating status of thecooking device 100 . For example, the processing control module 130 may send a start instruction (or stop instruction) to thecooking device 100 to put thecooking device 100 in a start (or stop) cooking state. In some embodiments, the process control module 130 may also be used to control the operating mode of thecooking device 100 . For example, the processing control module 130 can control the working status of the heating module 121 and the cooling module 122 to control the working mode of thecooking device 100 to switch between the reservation mode and the cooking mode. In some embodiments, the process control module 130 may also be used to control the operating time of thecooking device 100 . For example, when the working time of thecooking device 100 reaches the preset working time, the processing control module 130 may send a control instruction to thecooking device 100 to shut down thecooking device 100 to avoid excessive cooking time.

在一些实施例中，处理控制模块130可以用于控制烹饪装置100的各个模块之间的数据通信。例如，处理控制模块130可以控制其他模块对存储器160的访问。在一些实施例中，处理控制模块130可以处理来自烹饪装置100的其他模块(例如，检测模块140、信息输入/输出模块150)的数据。例如，处理控制模块130可以对检测模块140中温度传感器检测的液体温度进行处理。在 一些实施例中，处理控制模块130处理后的数据可以存储到存储器160中。在一些实施例中，处理控制模块130也可以处理来自信息输入/输出模块150的指令或操作。In some embodiments, the processing control module 130 may be used to control data communications between various modules of thecooking device 100 . For example, processing control module 130 may control access to memory 160 by other modules. In some embodiments, the processing control module 130 may process data from other modules of the cooking device 100 (eg, detection module 140, information input/output module 150). For example, the processing control module 130 may process the liquid temperature detected by the temperature sensor in the detection module 140 . In some embodiments, the data processed by the processing control module 130 may be stored in the memory 160. In some embodiments, processing control module 130 may also process instructions or operations from information input/output module 150.

检测模块140可以用于检测与烹饪装置100有关的信息。与烹饪装置100有关的信息可以是与烹饪装置100的各个模块相关的信息和/或与烹饪装置100的烹饪过程有关的信息。在一些实施例中，与烹饪装置100有关的信息可以包括但不限于温度信息、位置信息、状态信息、时间信息、输入/输出信息等中的一种或多种。其中，温度信息可以是储液模块110中液体的温度信息。位置信息可以是烹饪装置100的各个模块中所包括的元器件(例如，储液箱、循环管路、储液箱中的液体等)的位置信息。状态信息可以是烹饪装置100的各个模块的通信状态信息、工作状态信息等。时间信息可以是与时间相关的参数信息，例如，烹饪装置100的工作时长、烹饪模式的烹饪时间、预约模式的预约时间等。输入/输出模块信息可以是用户输入的信息(或者烹饪装置100从其他设备获取的信息)以及烹饪装置100通过显示装置输出的信息。The detection module 140 may be used to detect information related to thecooking device 100 . The information related to thecooking device 100 may be information related to various modules of thecooking device 100 and/or information related to the cooking process of thecooking device 100 . In some embodiments, information related to thecooking device 100 may include, but is not limited to, one or more of temperature information, location information, status information, time information, input/output information, and the like. The temperature information may be the temperature information of the liquid in the liquid storage module 110 . The position information may be position information of components included in each module of the cooking device 100 (eg, liquid storage tank, circulation pipeline, liquid in the liquid storage tank, etc.). The status information may be communication status information, working status information, etc. of each module of thecooking device 100 . The time information may be parameter information related to time, for example, the working time of thecooking device 100, the cooking time of the cooking mode, the reservation time of the reservation mode, etc. The input/output module information may be information input by the user (or information obtained by thecooking device 100 from other devices) and information output by thecooking device 100 through the display device.

在一些实施例中，检测模块140与处理控制模块130可以通信连接。检测模块140检测到的与烹饪装置100有关的信息可以传递给处理控制模块130进行数据处理。In some embodiments, the detection module 140 and the processing control module 130 may be communicatively connected. The information related to thecooking device 100 detected by the detection module 140 may be passed to the processing control module 130 for data processing.

在一些实施例中，检测模块140可以包括传感器。传感器可以检测与烹饪装置100有关的信息。例如，温度传感器可以检测储液箱内液体的温度信息。又例如，位置传感器可以检测被测对象的位置信息。传感器检测的与烹饪装置100有关的信息可以传递至处理控制模块130并进行数据处理，以使处理控制模块130能够更好的控制其他模块的运行状态。In some embodiments, detection module 140 may include a sensor. Sensors may detect information related to thecooking device 100 . For example, a temperature sensor can detect the temperature information of the liquid in the tank. For another example, a position sensor can detect the position information of the object being measured. The information related to thecooking device 100 detected by the sensor can be transmitted to the processing control module 130 and data processed, so that the processing control module 130 can better control the operating status of other modules.

在一些实施例中，检测模块140可以包括温度传感器。在一些实施例中，温度传感器可以检测工作在预约模式下的烹饪装置100的储液箱中液体的温度。烹饪装置100处于预约模式时，制冷模块122对储液箱中的液体进行制冷，温度传感器可以检测储液箱中的液体的当前温度(也即是，液体的冷藏温度)，并将检测结果传递至处理控制模块130。处理控制模块130对温度传感器检测的液体冷藏温度进行分析处理，并根据分析结果向制冷模块122发送相应的控制指令。例如，温度传感器检测到的储液箱中的液体的温度较高，该温度下不能实现对储液箱中的食材进行保鲜时，处理控制模块130可以向制冷模块122发送相应的控制指令，来调节制冷组件的工作状态或功率。In some embodiments, detection module 140 may include a temperature sensor. In some embodiments, the temperature sensor may detect the temperature of the liquid in the liquid storage tank of thecooking device 100 operating in the scheduled mode. When thecooking device 100 is in the reservation mode, the refrigeration module 122 refrigerates the liquid in the liquid storage tank. The temperature sensor can detect the current temperature of the liquid in the liquid storage tank (that is, the refrigeration temperature of the liquid) and transmit the detection result. to the processing control module 130. The processing control module 130 analyzes and processes the liquid refrigeration temperature detected by the temperature sensor, and sends corresponding control instructions to the refrigeration module 122 according to the analysis results. For example, when the temperature of the liquid in the liquid storage tank detected by the temperature sensor is relatively high and the food in the liquid storage tank cannot be kept fresh at this temperature, the processing control module 130 can send corresponding control instructions to the refrigeration module 122 to prevent Adjust the working status or power of the refrigeration components.

在一些实施例中，温度传感器也可以检测工作在烹饪模式下的烹饪装置100的储液箱中液体的温度。烹饪装置100处于烹饪模式时，加热模块121对储液箱中的液体进行加热，温度传感器可以检测储液箱中的液体的当前温度(也即是，液体的烹饪温度)，并将检测结果传递至处理控制模块130。处理控制模块130可以对温度传感器检测的液体温度进行分析处理，并根据处理结果向加热模块121发送相应的控制指令。例如，温度传感器检测到的储液箱中的液体烹饪温度过高，处理控制模块130可以向加热模块121发送相应的控制指令，来降低加热组件的加热功率。In some embodiments, the temperature sensor may also detect the temperature of the liquid in the liquid storage tank of thecooking device 100 operating in the cooking mode. When thecooking device 100 is in the cooking mode, the heating module 121 heats the liquid in the liquid storage tank. The temperature sensor can detect the current temperature of the liquid in the liquid storage tank (that is, the cooking temperature of the liquid) and transmit the detection result. to the processing control module 130. The processing control module 130 can analyze and process the liquid temperature detected by the temperature sensor, and send corresponding control instructions to the heating module 121 according to the processing results. For example, if the temperature sensor detects that the cooking temperature of the liquid in the liquid storage tank is too high, the processing control module 130 can send corresponding control instructions to the heating module 121 to reduce the heating power of the heating component.

在一些实施例中，检测模块140可以包括压力传感器。压力传感器可以检测被测对象的压力值。这里的被测对象可以是动力装置(例如，泵体)、储液箱、加热/制冷管路等。在一些实施例中，压力传感器可以检测动力装置的内部压力、液体流经的管路的内部压力、储液箱中的液压等。在一些实施例中，压力传感器也可以检测被测对象(例如，储液箱或其他配件)的在位状态。例如，压力传感器可以用于检测液体流经的管路内部是否堵塞，或者检测液体流经的管路是否漏液。在一些实施例中，压力传感器可以是电阻应变片压力传感器、半导体应变片压力传感器、压阻式压力传感器、电感式压力传感器、电容式压力传感器、谐振式压力传感器、光纤压力传感器、电容式加速度传感器等中的一种或多种。In some embodiments, detection module 140 may include a pressure sensor. The pressure sensor can detect the pressure value of the measured object. The objects to be tested here can be power devices (for example, pump bodies), liquid storage tanks, heating/cooling pipelines, etc. In some embodiments, the pressure sensor can detect the internal pressure of the power plant, the internal pressure of the pipeline through which the liquid flows, the hydraulic pressure in the liquid storage tank, etc. In some embodiments, the pressure sensor can also detect the presence status of the measured object (for example, a liquid tank or other accessory). For example, a pressure sensor can be used to detect whether the inside of a pipeline through which liquid flows is clogged, or whether a pipeline through which liquid flows through is leaking. In some embodiments, the pressure sensor may be a resistive strain gauge pressure sensor, a semiconductor strain gauge pressure sensor, a piezoresistive pressure sensor, an inductive pressure sensor, a capacitive pressure sensor, a resonant pressure sensor, an optical fiber pressure sensor, a capacitive acceleration sensor. One or more types of sensors, etc.

在一些实施例中，检测模块140可以包括位置传感器。位置传感器可以检测被测对象的位置信息。这里的被测对象可以包括储液箱、储液箱中的液体、主机、储液箱和主机之间的连接结构(例如，加热/制冷管路)等。在一些实施例中，位置传感器可以是由两个物体接触挤压而产生信号的接触式传感器。例如，位置传感器可以是行程开关、二维矩阵式位置传感器。在一些实施例中，位置传感器也可以是由两个物体接近到预设距离而产生信号的接近式传感器。例如，位置传感器可以是电磁式、光电式、差动变压器式、电涡流式、电容式、干簧管、超声波式、霍尔式等接近式传感器。在一些实施例中，可以使用光电式位置传感器对储液箱是否设置在预设的位置上进行检测。在一些实施例中，可以利用光电式位置传感器来检测储液箱中的液体的液位线。在一些实施例中，储液箱中液体的液位线可以在储液箱的最大液位线以下，以防止储液箱中的液体外溢。在一些实施例中，检测模块140还可以包括更多个不同类型的传感器，例如，流量传感器、流速传感器等。In some embodiments, detection module 140 may include a position sensor. The position sensor can detect the position information of the object being measured. The objects to be measured here may include the liquid storage tank, the liquid in the liquid storage tank, the host machine, the connection structure between the liquid storage tank and the host machine (for example, heating/cooling pipelines), etc. In some embodiments, the position sensor may be a contact sensor that generates a signal when two objects are pressed into contact. For example, the position sensor can be a travel switch or a two-dimensional matrix position sensor. In some embodiments, the position sensor may also be a proximity sensor that generates a signal when two objects approach a preset distance. For example, the position sensor can be an electromagnetic, photoelectric, differential transformer, eddy current, capacitive, reed switch, ultrasonic, Hall, or other proximity sensor. In some embodiments, a photoelectric position sensor may be used to detect whether the liquid storage tank is placed at a preset position. In some embodiments, a photoelectric position sensor may be used to detect the liquid level of the liquid in the liquid storage tank. In some embodiments, the liquid level line of the liquid in the liquid storage tank may be below the maximum liquid level line of the liquid storage tank to prevent the liquid in the liquid storage tank from overflowing. In some embodiments, the detection module 140 may also include more sensors of different types, such as flow sensors, flow rate sensors, etc.

信息输入/输出模块150可以用于输入或输出信号、数据或信息。信息输入/输出模块150可以与烹饪装置100中其他模块进行连接或通信。烹饪装置100中的其他模块可以通过信息输入/输出模块150实现连接或通信。信息输入/输出模块150可以是有线的USB接口、串行通信接口、并行 通信口，或是无线的蓝牙、红外、无线射频识别(Radio-frequency identification,RFID)、无线局域网鉴别与保密基础结构(Wlan Authentication and Privacy Infrastructure,WAPI)、通用分组无线业务(General Packet Radio Service,GPRS)、码分多址(Code Division Multiple Access,CDMA)等，或其任意组合。在一些实施例中，信息输入/输出模块150可以连接网络，并通过网络获取信息。例如，信息输入/输出模块150可以通过网络从检测模块140中获取温度传感器检测的液体温度并将液体温度进行输出。在一些实施例中，信息输入/输出模块150可以包括VCC、GND、RS-232、RS-485(例如，RS485-A，RS485-B)和通用网络接口等，或其任意组合。在一些实施例中，信息输入/输出模块150可以采用一种或多种编码方式对传输的信号进行编码处理。所述编码方式可以包括相位编码、不归零制码、差分曼彻斯特码等，或其任意组合。The information input/output module 150 may be used to input or output signals, data or information. The information input/output module 150 can connect or communicate with other modules in thecooking device 100 . Other modules in thecooking device 100 can be connected or communicated through the information input/output module 150 . The information input/output module 150 can be a wired USB interface, a serial communication interface, a parallel communication port, or a wireless Bluetooth, infrared, radio frequency identification (Radio-frequency identification, RFID), wireless LAN identification and security infrastructure ( Wlan Authentication and Privacy Infrastructure (WAPI), General Packet Radio Service (GPRS), Code Division Multiple Access (CDMA), etc., or any combination thereof. In some embodiments, the information input/output module 150 can connect to a network and obtain information through the network. For example, the information input/output module 150 can obtain the liquid temperature detected by the temperature sensor from the detection module 140 through the network and output the liquid temperature. In some embodiments, the information input/output module 150 may include VCC, GND, RS-232, RS-485 (eg, RS485-A, RS485-B), universal network interface, etc., or any combination thereof. In some embodiments, the information input/output module 150 may use one or more encoding methods to encode the transmitted signal. The coding method may include phase coding, non-return-to-zero coding, differential Manchester coding, etc., or any combination thereof.

存储器160可以存储烹饪装置100的数据/信息。在一些实施例中，存储器160可以存储与烹饪装置100有关的预设信息(例如，预设温度、预设时间等)。在一些实施例中，存储器160可以存储烹饪装置100的预约模式信息。预约模式信息可以包括但不限于预约模式中的预设冷藏温度、预约时间等。在一些实施例中，存储器160也可以存储烹饪装置100的烹饪模式信息。烹饪模式信息可以包括烹饪模式中的烹饪时间、烹饪温度、温度阈值等。在一些实施例中，存储器160可以包括高速随机存取存储器、非易失性存储器等。非易失性存储器可以是一个或多个磁盘存储设备、闪存设备等或其他非易失性固态存储设备。在一些实施例中，存储器160还可以包括远离处理器的存储器，例如，经由烹饪装置100的射频电路或外部端口以及通信网络访问的网络附加存储器。在一些实施例中，通信网络可以是因特网、内部网、局域网(LAN)、广域网(WLAN)、存储局域网(SAN)等，或其组合。The memory 160 may store data/information of thecooking device 100 . In some embodiments, the memory 160 may store preset information related to the cooking device 100 (eg, preset temperature, preset time, etc.). In some embodiments, memory 160 may store reservation mode information forcooking device 100 . The reservation mode information may include but is not limited to the preset refrigeration temperature, reservation time, etc. in the reservation mode. In some embodiments, the memory 160 may also store cooking mode information of thecooking device 100 . The cooking mode information may include cooking time, cooking temperature, temperature threshold, etc. in the cooking mode. In some embodiments, memory 160 may include high-speed random access memory, non-volatile memory, or the like. Non-volatile memory may be one or more disk storage devices, flash memory devices, etc., or other non-volatile solid-state storage devices. In some embodiments, memory 160 may also include memory remote from the processor, such as network-attached memory accessed via radio frequency circuitry or external ports ofcooking device 100 and a communications network. In some embodiments, the communication network may be the Internet, an intranet, a local area network (LAN), a wide area network (WLAN), a storage area network (SAN), etc., or a combination thereof.

需要注意的是，以上对于烹饪装置的描述，仅为描述方便，并不能把本说明书的一个或多个实施例限制在所举实施例范围之内。可以理解，对于本领域的技术人员来说，在了解该系统的原理后，可能在不背离这一原理的情况下，对各个模块进行各种修正或改变，然而，这些修正和改变仍在本说明书的范围之内。It should be noted that the above description of the cooking device is only for convenience of description and does not limit one or more embodiments of this specification to the scope of the illustrated embodiments. It can be understood that for those skilled in the art, after understanding the principle of the system, various modifications or changes may be made to each module without departing from this principle. However, these modifications and changes are still subject to the present invention. within the scope of the manual.

图2是根据本说明书一些实施例所示的烹饪装置的示例性硬件和/或软件示例图。Figure 2 is an exemplary hardware and/or software example diagram of a cooking device according to some embodiments of the present specification.

在一些实施例中，烹饪装置100可以包括控制组件210、处理器220、传感器230、输入/输出组件240、显示组件250、电源组件260以及内部通信总线270。In some embodiments, thecooking device 100 may include acontrol component 210 , a processor 220 ,sensors 230 , an input/output component 240 , adisplay component 250 , apower supply component 260 , and aninternal communication bus 270 .

控制组件210可以用于控制烹饪装置100的各个组件之间的数据通信。例如，控制组件210可以控制其他组件对存储器(例如，存储器160)的访问。在一些实施例中，控制组件210可以控制烹饪装置100的组件(例如，传感器230、显示组件250、电源组件260、制冷组件、加热组件)的工作状态。例如，控制组件210可以控制制冷组件和/或加热组件对储液箱中的液体进行制冷或加热。在一些实施例中，控制组件210也可以控制烹饪装置100的工作模式。例如，控制组件210可以控制烹饪装置100在预约模式和烹饪模式之间进行切换。在一些实施例中，控制组件210可以设置在烹饪装置100的处理控制模块(例如，处理控制模块130)中。在一些实施例中，控制组件210可以包括外围设备接口。外围设备接口可以用于连接控制组件210和外围设备，以实现控制组件210和外围设备的通信。Control component 210 may be used to control data communications between various components ofcooking device 100 . For example,control component 210 may control other components' access to memory (eg, memory 160). In some embodiments, thecontrol component 210 can control the working status of components of the cooking device 100 (eg,sensor 230,display component 250,power supply component 260, refrigeration component, heating component). For example, thecontrol component 210 can control the refrigeration component and/or the heating component to cool or heat the liquid in the liquid storage tank. In some embodiments, thecontrol assembly 210 may also control the operating mode of thecooking device 100 . For example, thecontrol component 210 may control thecooking device 100 to switch between the reservation mode and the cooking mode. In some embodiments,control component 210 may be provided in a process control module (eg, process control module 130) ofcooking device 100. In some embodiments,control component 210 may include a peripheral device interface. The peripheral device interface may be used to connect thecontrol component 210 and peripheral devices to implement communication between thecontrol component 210 and the peripheral devices.

处理器220可以对烹饪装置100中其他模块/组件的数据进行处理。例如，处理器可以对检测模块140中传感器检测的相关数据(例如，温度传感器检测的液体温度、位置传感器检测的储液箱中液体的液位线的位置数据)进行数据处理。在一些实施例中，烹饪装置100的处理控制模块(例如，处理控制模块130)可以为处理器220。在一些实施例中，处理器220可以包括微控制器、微处理器、精简指令集计算机(RISC)、专用集成电路(ASIC)、应用特定指令集处理器(ASIP)、中央处理器(CPU)、图形处理单元(GPU)、物理处理单元(PPU)、微控制器单元、数字信号处理器(DSP)、现场可编程门阵列(FPGA)、高级精简指令集计算机(ARM)、可编程逻辑器件以及能够执行一个或多个功能的任何电路和处理器等，或其任意组合。The processor 220 may process data from other modules/components in thecooking device 100 . For example, the processor may perform data processing on relevant data detected by the sensor in the detection module 140 (for example, the temperature of the liquid detected by the temperature sensor, the position data of the liquid level line of the liquid in the liquid storage tank detected by the position sensor). In some embodiments, the process control module (eg, process control module 130) of thecooking device 100 may be the processor 220. In some embodiments, processor 220 may include a microcontroller, a microprocessor, a reduced instruction set computer (RISC), an application specific integrated circuit (ASIC), an application specific instruction set processor (ASIP), a central processing unit (CPU) , graphics processing unit (GPU), physical processing unit (PPU), microcontroller unit, digital signal processor (DSP), field programmable gate array (FPGA), advanced reduced instruction set computer (ARM), programmable logic device and any circuits, processors, etc. capable of performing one or more functions, or any combination thereof.

传感器230可以用于检测被测对象(例如，液体、储液箱、管路等)的信息。传感器230可以设置于烹饪装置100的检测模块(例如，检测模块140)中。在一些实施例中，传感器230可以包括一个或多个不同类型的传感器，例如，温度传感器、压力传感器、位置传感器等。不同类型的传感器可以检测不同被测对象对应的类型信息(例如，温度信息、压力信息、位置信息等)。传感器检测的被测对象的信息可以转换为可供检测的电信号并发送至处理器220进行处理。数据处理的结果可以传递至控制组件210，以使控制组件210能够根据处理结果控制烹饪装置100的其他模块/组件的运行状态。关于传感器的更多内容可以参见图1及其相关描述。Thesensor 230 may be used to detect information of a measured object (eg, liquid, liquid storage tank, pipeline, etc.). Thesensor 230 may be provided in a detection module (eg, the detection module 140) of thecooking device 100. In some embodiments,sensors 230 may include one or more different types of sensors, such as temperature sensors, pressure sensors, position sensors, etc. Different types of sensors can detect types of information corresponding to different measured objects (for example, temperature information, pressure information, position information, etc.). The information of the measured object detected by the sensor can be converted into an electrical signal that can be detected and sent to the processor 220 for processing. The results of the data processing may be passed to thecontrol component 210 so that thecontrol component 210 can control the operating status of other modules/components of thecooking device 100 according to the processing results. More information about the sensor can be found in Figure 1 and its associated description.

输入/输出组件(I/O组件)240可以用于输入或输出信号、数据或信息。输入/输出组件240 可以设置在烹饪装置100的信息输入/输出模块(例如，信息输入/输出模块150)中。输入/输出组件240可以提供烹饪装置100的输入/输出外设与控制组件210的外围设备接口之间的接口。在一些实施例中，输入/输出外设可以是显示组件250、位置传感器、灯光组件以及其他输入/控制设备。在一些实施例中，I/O组件240可以包括与输入/输出外设对应的控制器，例如，显示控制器、位置传感器控制器、灯光控制器以及一个或多个其他输入控制器。在一些实施例中，I/O组件240中的一个或多个控制器可以接收/发送来自/去往输入/输出外设的电信号。其中，一个或多个其他输入控制器可以接收/发送来自/去往其他输入/控制设备的电信号。在一些实施例中，其他输入/控制设备可以包括物理按钮(例如，按压按钮、摇杆按钮或触摸按钮等)、滑块开关、操纵杆等。在一些实施例中，其他输入/控制设备也可以包括用于紧急停止烹饪的物理按钮。在一些实施例中，其他输入/控制设备还可以包括自锁键，例如，儿童锁等防误操作作用的按键。Input/output components (I/O components) 240 may be used to input or output signals, data, or information. The input/output component 240 may be provided in an information input/output module (eg, information input/output module 150) of thecooking device 100. The input/output component 240 may provide an interface between the input/output peripherals of thecooking device 100 and the peripheral device interface of thecontrol component 210 . In some embodiments, input/output peripherals may bedisplay components 250, position sensors, lighting components, and other input/control devices. In some embodiments, I/O component 240 may include controllers corresponding to input/output peripherals, such as display controllers, position sensor controllers, lighting controllers, and one or more other input controllers. In some embodiments, one or more controllers in I/O component 240 may receive/send electrical signals from/to input/output peripherals. Wherein, one or more other input controllers may receive/send electrical signals from/to other input/control devices. In some embodiments, other input/control devices may include physical buttons (eg, push buttons, rocker buttons, or touch buttons, etc.), slider switches, joysticks, and the like. In some embodiments, other input/control devices may also include physical buttons for emergency stopping of cooking. In some embodiments, other input/control devices may also include self-locking keys, such as child locks and other keys that prevent misoperation.

显示组件250可以显示烹饪装置100的信息/数据。例如，显示组件250可以显示烹饪装置100的菜谱信息。又例如，显示组件250可以显示烹饪装置100中液体的温度信息(例如，冷藏温度、烹饪温度)。在一些实施例中，显示组件250可以包括显示屏。显示屏可以提供烹饪装置100与用户之间的输出接口，显示屏能够将电子文件通过特定的传输设备显示到屏幕上再反射到人眼。在一些实施例中，显示屏也可以作为使用者与烹饪装置100之间进行信息交互的交互界面。使用者可以在交互界面上输入与烹饪装置100有关的信息，例如，预约模式下的预约信息、烹饪模式下的烹饪信息等。在一些实施例中，显示屏可以设置于烹饪装置100的主机上。例如，显示屏可以设置在主机的最高位置处，且显示屏所在的平面与主机的中轴线呈一定角度(例如，40度)，以便于使用者的操作(例如，输入信息)和接收信息。在一些实施例中，显示屏可以包括阴极射线管显示器(CRT)、等离子显示器(PDP)、液晶显示器(LCD)等。在一些实施例，显示组件250也可以包括触摸屏，触摸屏可以提供设备与用户之间的输入/输出接口。在一些实施例中，触摸屏可以包括电阻屏、表面声波屏、红外触摸屏、光学触摸屏、电容屏或者纳米膜等感应式显示装置。Display component 250 may display information/data ofcooking device 100 . For example, thedisplay component 250 may display recipe information of thecooking device 100 . As another example, thedisplay component 250 may display temperature information (eg, refrigeration temperature, cooking temperature) of the liquid in thecooking device 100 . In some embodiments,display component 250 may include a display screen. The display screen can provide an output interface between thecooking device 100 and the user, and the display screen can display electronic files on the screen through a specific transmission device and then reflect them to human eyes. In some embodiments, the display screen can also serve as an interactive interface for information interaction between the user and thecooking device 100 . The user can input information related to thecooking device 100 on the interactive interface, such as reservation information in reservation mode, cooking information in cooking mode, etc. In some embodiments, the display screen may be provided on the main body of thecooking device 100 . For example, the display screen can be set at the highest position of the host, and the plane where the display screen is located is at a certain angle (for example, 40 degrees) to the central axis of the host to facilitate the user's operation (for example, inputting information) and receiving information. In some embodiments, the display screen may include a cathode ray tube display (CRT), a plasma display (PDP), a liquid crystal display (LCD), or the like. In some embodiments, thedisplay assembly 250 may also include a touch screen, which may provide an input/output interface between the device and the user. In some embodiments, the touch screen may include a resistive screen, a surface acoustic wave screen, an infrared touch screen, an optical touch screen, a capacitive screen or a nanofilm or other inductive display device.

电源组件260可以为烹饪装置100的各种组件(例如，显示组件250、灯光组件等)提供电力。在一些实施例中，电源组件260可以包括电源管理系统、一个或多个电源(例如，电池或者交流电(AC))、充电系统、电源故障检测电路、电源转换器或逆变器、电源状态指示器(例如，发光二极管(LED))等。在一些实施例中，电源组件260还可以包括电能生成、管理和分布相关联的其他任何组件。Thepower supply assembly 260 may provide power to various components of the cooking device 100 (eg,display assembly 250, lighting assembly, etc.). In some embodiments,power component 260 may include a power management system, one or more power sources (eg, battery or alternating current (AC)), charging system, power failure detection circuitry, power converter or inverter, power status indication device (e.g., light emitting diode (LED)), etc. In some embodiments,power component 260 may also include any other components associated with the generation, management, and distribution of electrical energy.

内部通信总线270可以实现烹饪装置100中各组件间的数据通信。例如，处理器220可以通过内部通信总线270将数据发送到存储器160或输入/输出组件240等其它硬件中。在一些实施例中，内部通信总线270可以为工业标准(ISA)总线、扩展工业标准(EISA)总线、视频电子标准(VESA)总线、外部部件互联标准(PCI)总线等。Theinternal communication bus 270 enables data communication between components in thecooking device 100 . For example, processor 220 may send data to other hardware such as memory 160 or input/output components 240 viainternal communication bus 270 . In some embodiments, theinternal communication bus 270 may be an Industry Standard (ISA) bus, an Extended Industry Standard (EISA) bus, a Video Electronics Standard (VESA) bus, a Peripheral Component Interconnect Standard (PCI) bus, or the like.

在一些实施例中，烹饪装置100还可以包括其他硬件/软件设备，例如，灯光组件、触控组件和触觉反馈组件等。灯光组件可以是可视化元件。在一些实施例中，灯光组件可以包括用于提示烹饪装置100的烹饪状态和设备状态的可视化元件。在一些实施例中，灯光组件也可以包括用于指示电源、CPU、液体流经管路、加热(或制冷)等组件状态的指示灯或者故障状态报警灯。在一些实施例中，灯光组件也可以包括用于在环境光线不良时，便于观察烹饪装置100的结构或者组件状态的可视化照明元件。触控组件可以检测使用者与显示组件250或者其他触敏设备(例如，触摸按钮、触摸板)的接触。例如，使用者在显示屏上输入烹饪装置100的预约信息时，触控组件可以检测使用者与显示屏的接触。触觉反馈组件可以包括用于生成指令的软件部件，以响应于用户与烹饪装置100的交互。在一些实施例中，触觉反馈组件可以包括一个或多个触觉输出发生器，一个或者多个触觉输出发生器能够在烹饪装置100的一个或多个位置处产生触觉输出。In some embodiments, thecooking device 100 may also include other hardware/software devices, such as lighting components, touch components, tactile feedback components, etc. Light components can be visual components. In some embodiments, the lighting assembly may include visual elements for prompting the cooking status and equipment status of thecooking device 100 . In some embodiments, the lighting assembly may also include indicator lights or fault status alarm lights for indicating the status of components such as power supply, CPU, liquid flow through pipelines, heating (or cooling), etc. In some embodiments, the lighting assembly may also include a visual lighting element used to facilitate observation of the structure or component status of thecooking device 100 when the ambient light is poor. The touch component can detect the user's contact with thedisplay component 250 or other touch-sensitive devices (eg, touch buttons, touch pads). For example, when the user inputs the reservation information of thecooking device 100 on the display screen, the touch component can detect the user's contact with the display screen. The tactile feedback component may include software components for generating instructions in response to user interaction with thecooking device 100 . In some embodiments, the haptic feedback component may include one or more tactile output generators capable of generating tactile output at one or more locations of thecooking device 100 .

需要说明的是，烹饪装置100包括的硬件和/或软件设备仅为描述方便，并不能把本说明书限制在所举实施例范围之内。可以理解，对于本领域的技术人员来说，在了解系统的原理后，可能在不背离这一原理的情况下，对各个硬件和/或软件进行添加、删减或组合，例如，烹饪装置100可以包括用于输入烹饪参数(例如，目标温度、加热功率、温度阈值等)的文本输入组件，然而这些改变均在本说明书的保护范围之内。It should be noted that the hardware and/or software devices included in thecooking device 100 are only for convenience of description and do not limit this description to the scope of the embodiments. It can be understood that for those skilled in the art, after understanding the principle of the system, it is possible to add, delete or combine various hardware and/or software without departing from this principle, for example, the cooking device 100 A text input component for inputting cooking parameters (eg, target temperature, heating power, temperature threshold, etc.) may be included, however these changes are within the scope of this specification.

在一些实施例中，烹饪装置100中通过设置制冷模块122(例如，制冷组件)，制冷组件能够对储液箱中的液体进行制冷，从而实现烹饪装置100能够在烹饪过程开始之前对食材进行冷藏处理，保证食材的新鲜度。In some embodiments, by providing a refrigeration module 122 (eg, a refrigeration component) in thecooking device 100, the refrigeration component can refrigerate the liquid in the liquid storage tank, so that thecooking device 100 can refrigerate the ingredients before starting the cooking process. Processing to ensure the freshness of ingredients.

在一些实施例中，烹饪装置100利用制冷模块122和/或加热模块121对储液箱中的液体进行制冷或加热时，制冷模块122和加热模块121可以是相互独立的模块，例如，制冷组件的制冷管 路和加热组件的加热管路是彼此独立的管路。制冷模块122通过制冷管路对储液箱中的液体进行制冷。加热模块121通过加热管路对储液箱中的液体进行加热。In some embodiments, when thecooking device 100 uses the refrigeration module 122 and/or the heating module 121 to cool or heat the liquid in the liquid storage tank, the refrigeration module 122 and the heating module 121 may be independent modules, for example, refrigeration components. The refrigeration pipeline and the heating pipeline of the heating component are independent pipelines. The refrigeration module 122 cools the liquid in the liquid storage tank through the refrigeration pipeline. The heating module 121 heats the liquid in the liquid storage tank through the heating pipeline.

在一些实施例中，烹饪装置100利用制冷模块122和/或加热模块121对储液箱中的液体进行制冷或加热时，制冷模块122和加热模块121之间也可以具有共用元件。共用元件可以是指在制冷过程和加热过程中都发挥作用的元件。共用元件可以用于加热组件对储液箱中液体的加热以及制冷组件对储液箱中液体的制冷。在一些实施例中，共用元件可以包括循环管路、泵送装置、热量导体、散热片等。例如，共用元件包括循环管路时，循环管路可以作为共用管路，以使加热组件和制冷组件能够通过共用管路对储液箱中液体的进行加热或制冷。在一些实施例中，加热组件和制冷组件之间的共用元件能够简化烹饪装置100中的元器件并对烹饪装置100的结构设计进行优化，同时还能提高烹饪装置100内部空间的利用率。关于共用元件的更多内容具体参见图3-图6及其相关描述。In some embodiments, when thecooking device 100 uses the refrigeration module 122 and/or the heating module 121 to cool or heat the liquid in the liquid storage tank, there may also be shared components between the refrigeration module 122 and the heating module 121 . A common element can refer to an element that plays a role in both the cooling process and the heating process. The common element can be used for the heating component to heat the liquid in the liquid storage tank and the refrigeration component to cool the liquid in the liquid storage tank. In some embodiments, common elements may include circulation lines, pumping devices, heat conductors, heat sinks, etc. For example, when the common component includes a circulation pipeline, the circulation pipeline can be used as a common pipeline, so that the heating component and the refrigeration component can heat or cool the liquid in the liquid storage tank through the common pipeline. In some embodiments, sharing components between the heating component and the cooling component can simplify the components in thecooking device 100 and optimize the structural design of thecooking device 100, while also improving the utilization of the internal space of thecooking device 100. For more information on shared components, see Figures 3-6 and their related descriptions.

图3是根据本说明书一些实施例所示的烹饪装置的另一示例性框架图。如图3所示，烹饪装置300可以包括储液箱310、制冷组件320和加热组件330。其中，储液箱310可以分别与制冷组件320和加热组件330连通。例如，储液箱310可以通过对应的管路(例如，制冷管路和加热管路)分别与制冷组件320和加热组件330连通。在一些实施例中，储液箱310可以存储液体。制冷组件320可以对储液箱310中的液体进行制冷。加热组件330可以对储液箱310中的液体进行加热。在一些实施例中，制冷组件320和加热组件330之间可以具有共用元件340。共用元件340可以是在制冷组件320的制冷过程中以及加热组件330的加热过程中都发挥作用的元件。在一些实施例中，共用元件340可以包括共用管路、热量导体、泵体、散热片等中的一种或多种。Figure 3 is another exemplary schematic diagram of a cooking device according to some embodiments of the present specification. As shown in FIG. 3 , thecooking device 300 may include a liquid storage tank 310 , a refrigeration component 320 and a heating component 330 . The liquid storage tank 310 can be connected with the refrigeration component 320 and the heating component 330 respectively. For example, the liquid storage tank 310 may be connected to the refrigeration component 320 and the heating component 330 respectively through corresponding pipelines (eg, refrigeration pipelines and heating pipelines). In some embodiments, reservoir 310 may store liquid. The refrigeration component 320 can refrigerate the liquid in the liquid storage tank 310 . The heating assembly 330 can heat the liquid in the liquid storage tank 310 . In some embodiments, there may be a common element 340 between the refrigeration assembly 320 and the heating assembly 330. The common element 340 may be an element that plays a role in both the cooling process of the refrigeration component 320 and the heating process of the heating component 330 . In some embodiments, the common component 340 may include one or more of common pipes, heat conductors, pump bodies, heat sinks, and the like.

在一些实施例中，制冷组件320和加热组件330可以通过对储液箱310制冷和加热的方式对储液箱310内的液体进行制冷和加热。在一些实施例中，制冷组件320可以包括能够对储液箱310进行制冷的制冷装置，加热组件330包括能够对储液箱310进行加热的加热装置，制冷装置和加热装置之间可以具有共用元件340。在一些实施例中，共用元件340可以包括散热片。在一些实施例中，加热装置可以包括散热片，散热片通过散热对储液箱310进行加热，然后储液箱310将热量传递给储液箱310中的液体，实现储液箱310中液体的加热。制冷装置可以包括制冷片、散热片和风扇，制冷片对储液箱310进行制冷，制冷后的储液箱310与储液箱310中的液体进行热量传递，从而实现储液箱310中液体的制冷。在制冷片对储液箱310进行制冷的过程中，散热片能够给制冷片散热，风扇能够辅助散热片给制冷片散热，以加快制冷片的散热速度。因此，基于以上描述可知，散热片可以在制冷组件320的制冷过程中发挥散热作用，也可以在加热组件330的加热过程中发挥加热作用，因此，散热片可以作为共用元件340。In some embodiments, the refrigeration component 320 and the heating component 330 can cool and heat the liquid in the liquid storage tank 310 by cooling and heating the liquid storage tank 310 . In some embodiments, the refrigeration component 320 may include a refrigeration device capable of cooling the liquid storage tank 310, and the heating component 330 may include a heating device capable of heating the liquid storage tank 310. There may be shared elements between the refrigeration device and the heating device. 340. In some embodiments, common element 340 may include a heat sink. In some embodiments, the heating device may include a heat sink. The heat sink heats the liquid storage tank 310 by dissipating heat, and then the liquid storage tank 310 transfers the heat to the liquid in the liquid storage tank 310 to realize the heating of the liquid in the liquid storage tank 310. heating. The refrigeration device may include refrigeration fins, heat sinks and fans. The refrigeration fins refrigerate the liquid storage tank 310. The cooled liquid storage tank 310 transfers heat to the liquid in the liquid storage tank 310, thereby realizing the cooling of the liquid in the liquid storage tank 310. Refrigeration. When the refrigeration fin cools the liquid storage tank 310, the radiator fin can dissipate heat to the refrigeration fin, and the fan can assist the radiator fin in dissipating heat to the refrigeration fin to speed up the heat dissipation of the refrigeration fin. Therefore, based on the above description, it can be known that the heat sink can play a heat dissipation role during the cooling process of the refrigeration component 320 and can also play a heating role during the heating process of the heating component 330. Therefore, the heat sink can serve as the common component 340.

在一些实施例中，制冷组件320和/或加热组件330也可以利用液体循环方式对储液箱310中的液体进行制冷或加热。在一些实施例中，制冷组件320可以包括制冷管路，制冷管路与储液箱310连通。储液箱310中的液体可以在泵送装置的作用下泵出至制冷管路，并在制冷管路中制冷后泵送回储液箱310。在一些实施例中，储液箱310可以具有进液口和出液口。储液箱310的进液口和出液口分别设置在储液箱310的侧壁上，储液箱310的内部空间通过进液口和出液口与储液箱310的外部连通。在一些实施例中，制冷管路的一端可以与储液箱310的出液口连通，制冷管路的另一端与储液箱310的进液口连通。储液箱310中的液体通过储液箱310的出液口从制冷管路的一端流入制冷管路，并在制冷管路中进行制冷，制冷后的液体从制冷管路的另一端通过储液箱310的进液口流回储液箱，从而实现储液箱310中的液体的制冷。In some embodiments, the refrigeration component 320 and/or the heating component 330 can also use liquid circulation to cool or heat the liquid in the liquid storage tank 310 . In some embodiments, the refrigeration assembly 320 may include a refrigeration pipeline communicating with the liquid storage tank 310 . The liquid in the liquid storage tank 310 can be pumped out to the refrigeration pipeline under the action of the pumping device, and is pumped back to the liquid storage tank 310 after being cooled in the refrigeration pipeline. In some embodiments, the liquid storage tank 310 may have a liquid inlet and a liquid outlet. The liquid inlet and liquid outlet of the liquid storage tank 310 are respectively provided on the side walls of the liquid storage tank 310. The internal space of the liquid storage tank 310 is connected to the outside of the liquid storage tank 310 through the liquid inlet and the liquid outlet. In some embodiments, one end of the refrigeration pipeline may be connected to the liquid outlet of the liquid storage tank 310 , and the other end of the refrigeration pipeline may be connected to the liquid inlet of the liquid storage tank 310 . The liquid in the liquid storage tank 310 flows into the refrigeration pipeline from one end of the refrigeration pipeline through the liquid outlet of the liquid storage tank 310, and is refrigerated in the refrigeration pipeline. The cooled liquid passes through the liquid storage tank from the other end of the refrigeration pipeline. The liquid inlet of the tank 310 flows back to the liquid storage tank, thereby realizing cooling of the liquid in the liquid storage tank 310 .

同理，加热组件330可以包括加热管路，加热管路与储液箱310连通。储液箱310中的液体可以在泵送装置的作用下泵出至加热管路，并在加热管路中加热后泵送回储液箱310。在一些实施例中，加热管路的一端可以与储液箱310的出液口连通，加热管路的另一端与储液箱310的进液口连通。储液箱310中的液体通过储液箱310的出液口从加热管路的一端流入加热管路，并在加热管路中进行加热，加热后的液体从加热管路的另一端通过储液箱310的进液口流回储液箱，从而实现储液箱310中的液体的加热。Similarly, the heating assembly 330 may include a heating pipeline, and the heating pipeline is connected to the liquid storage tank 310 . The liquid in the liquid storage tank 310 can be pumped out to the heating pipeline under the action of the pumping device, and can be pumped back to the liquid storage tank 310 after being heated in the heating pipeline. In some embodiments, one end of the heating pipeline may be connected to the liquid outlet of the liquid storage tank 310 , and the other end of the heating pipeline may be connected to the liquid inlet of the liquid storage tank 310 . The liquid in the liquid storage tank 310 flows into the heating pipe from one end of the heating pipe through the liquid outlet of the liquid storage tank 310, and is heated in the heating pipe. The heated liquid passes through the liquid storage tank from the other end of the heating pipe. The liquid inlet of the tank 310 flows back to the liquid storage tank, thereby realizing heating of the liquid in the liquid storage tank 310 .

在一些实施例中，制冷组件320和/或加热组件330利用液体循环方式对储液箱310中的液体进行制冷或加热，制冷管路和加热管路之间可以具有共用管路。共用元件340可以至少包括共用管路。共用管路可以是在制冷组件320的制冷过程中以及加热组件330的加热过程中都发挥作用的管路。在一些实施例中，制冷组件320的制冷管路与加热组件330的加热管路可以是同一管路，此时，整个制冷管路/加热管路可以视为共用管路。液体可以在共用管路(也是，制冷管路和加热管路)中进行制冷或加热。In some embodiments, the refrigeration component 320 and/or the heating component 330 uses a liquid circulation method to refrigerate or heat the liquid in the liquid storage tank 310, and there may be a common pipeline between the refrigeration pipeline and the heating pipeline. The common element 340 may include at least a common pipeline. The common pipeline may be a pipeline that plays a role in both the cooling process of the refrigeration component 320 and the heating process of the heating component 330 . In some embodiments, the refrigeration pipeline of the refrigeration component 320 and the heating pipeline of the heating component 330 may be the same pipeline. In this case, the entire refrigeration pipeline/heating pipeline may be regarded as a common pipeline. Liquids can be cooled or heated in a common pipeline (that is, a refrigeration pipeline and a heating pipeline).

在一些实施例中，制冷管路与加热管路也可以是具有共用管路的不同管路。也可以理解为，制冷管路/加热管路由共用管路和非共用管路组成。在一些实施例中，共用管路可以是制冷管路/加热管路中与储液箱310的进液口和/或出液口相连的部分管路(也叫端部管路)。此时，储液箱310中的液体可以经共用管路流出，进而流至制冷管路/加热管路的非共用管路，和/或制冷管路/加热管路的非共用管路中的液体可以流至共用管路并经共用管路流回储液箱310。在一些实施例中，共用管路也可以是不与储液箱310的进液口和/或出液口相连的部分管路(也叫非端部管路)。此时，储液箱310中的液体可以经制冷管路(或加热管路)的非共用管路流出，进而流至共用管路，和/或共用管路中液体可以流至制冷管路(或加热管路)的非共用管路并经非共用管路流回储液箱310。制冷管路与加热管路是具有共用管路的不同管路时，共用管路的端部可以具有两个通口，两个通口分别与制冷管路和加热管路相连。在一些实施例中，制冷管路与加热管路是具有共用管路的不同管路时，液体可以在共用管路中进行制冷或加热。在一些实施例中，制冷管路与加热管路是具有共用管路的不同管路时，液体也可以在制冷管路和加热管路的非共用管路中进行制冷或加热。In some embodiments, the refrigeration pipeline and the heating pipeline may also be different pipelines with a common pipeline. It can also be understood that the refrigeration pipeline/heating pipeline is composed of shared pipelines and non-shared pipelines. In some embodiments, the common pipeline may be a portion of the refrigeration pipeline/heating pipeline connected to the liquid inlet and/or the liquid outlet of the liquid storage tank 310 (also called an end pipeline). At this time, the liquid in the liquid storage tank 310 can flow out through the common pipeline, and then flow to the non-shared pipeline of the refrigeration pipeline/heating pipeline, and/or the non-shared pipeline of the refrigeration pipeline/heating pipeline. The liquid can flow to the common pipe and flow back to the liquid storage tank 310 through the common pipe. In some embodiments, the common pipeline may also be a partial pipeline (also called a non-end pipeline) that is not connected to the liquid inlet and/or the liquid outlet of the liquid storage tank 310 . At this time, the liquid in the liquid storage tank 310 can flow out through the non-shared pipeline of the refrigeration pipeline (or heating pipeline), and then flow to the shared pipeline, and/or the liquid in the shared pipeline can flow to the refrigeration pipeline ( or heating pipe) and flows back to the liquid storage tank 310 through the non-shared pipeline. When the refrigeration pipeline and the heating pipeline are different pipelines with a common pipeline, the end of the common pipeline may have two openings, and the two openings are connected to the refrigeration pipeline and the heating pipeline respectively. In some embodiments, when the refrigeration pipeline and the heating pipeline are different pipelines with a common pipeline, the liquid can be cooled or heated in the common pipeline. In some embodiments, when the refrigeration pipeline and the heating pipeline are different pipelines with a shared pipeline, the liquid can also be refrigerated or heated in the non-shared pipelines of the refrigeration pipeline and the heating pipeline.

在一些实施例中，制冷组件320和/或加热组件330利用液体循环方式对储液箱310中的液体进行制冷或加热时，制冷管路和加热管路之间也可以不具有共用管路，即，制冷管路和加热管路是彼此独立的两个管路。这种情况下，共用元件340可以设置在制冷管路和加热管路之间。在一些实施例中，制冷组件320可以包括与制冷管路连通的第一热量导体，以及用于给第一热量导体制冷的制冷装置。制冷装置对第一热量导体制冷，制冷后的第一热量导体与制冷管路中的液体进行热量传递，从而对制冷管路中的液体制冷，进而实现储液箱310中的液体的制冷。加热组件330可以包括与加热管路连通的第二热量导体，以及用于给第二热量导体制冷的加热装置。加热装置对第二热量导体加热，加热后的第二热量导体与加热管路中的液体进行热量传递，从而对加热管路中的液体加热，进而实现储液箱310中的液体的加热。在一些实施例中，共用元件340可以设置在第一热量导体和第二热量导体之间。仅作为示例，共用元件340可以包括散热片。散热片设置于第一热量导体和第二热量导体。In some embodiments, when the refrigeration component 320 and/or the heating component 330 uses liquid circulation to cool or heat the liquid in the liquid storage tank 310, there may not be a common pipeline between the refrigeration pipeline and the heating pipeline. That is, the refrigeration pipeline and the heating pipeline are two independent pipelines. In this case, the common element 340 may be provided between the cooling line and the heating line. In some embodiments, the refrigeration assembly 320 may include a first heat conductor in communication with the refrigeration pipeline, and a refrigeration device for cooling the first heat conductor. The refrigeration device cools the first heat conductor, and the cooled first heat conductor transfers heat to the liquid in the refrigeration pipeline, thereby cooling the liquid in the refrigeration pipeline, thereby achieving cooling of the liquid in the liquid storage tank 310 . The heating assembly 330 may include a second heat conductor in communication with the heating pipeline, and a heating device for cooling the second heat conductor. The heating device heats the second heat conductor, and the heated second heat conductor transfers heat to the liquid in the heating pipe, thereby heating the liquid in the heating pipe, thereby heating the liquid in the liquid storage tank 310 . In some embodiments, the common element 340 may be disposed between the first thermal conductor and the second thermal conductor. By way of example only, common element 340 may include a heat sink. The heat sink is disposed on the first heat conductor and the second heat conductor.

在一些实施例中，制冷管路和加热管路之间不具有共用管路时，共用元件340可以包括泵体。泵体用于将储液箱310中的液体泵出至制冷管路或加热管路，并驱动制冷管路或加热管路中的液体流动。在一些实施例中，泵体可以分别与制冷管路和加热管路连通，泵体择一的将储液箱中的液体泵出至制冷管路或加热管路。例如，制冷组件320对储液箱310中的液体进行制冷时，泵体可以将储液箱310中的液体泵出至制冷管路，制冷后的液体在泵体的作用下再泵回至储液箱310，从而实现储液箱310中液体的制冷。又例如，加热组件330对储液箱310中的液体进行加热时，泵体可以将储液箱310中的液体泵出至加热管路，加热后的液体在泵体的作用下再泵回至储液箱310，从而实现储液箱310中液体的加热。In some embodiments, when there is no common pipeline between the refrigeration pipeline and the heating pipeline, the common component 340 may include a pump body. The pump body is used to pump the liquid in the liquid storage tank 310 to the refrigeration pipeline or the heating pipeline, and drive the flow of the liquid in the refrigeration pipeline or the heating pipeline. In some embodiments, the pump body can be connected to the refrigeration pipeline and the heating pipeline respectively, and the pump body selectively pumps the liquid in the liquid storage tank to the refrigeration pipeline or the heating pipeline. For example, when the refrigeration component 320 refrigerates the liquid in the liquid storage tank 310, the pump body can pump the liquid in the liquid storage tank 310 to the refrigeration pipeline, and the cooled liquid is pumped back to the storage tank under the action of the pump body. liquid tank 310, thereby achieving cooling of the liquid in the liquid storage tank 310. For another example, when the heating component 330 heats the liquid in the liquid storage tank 310, the pump body can pump the liquid in the liquid storage tank 310 to the heating pipeline, and the heated liquid is pumped back to the heating pipe under the action of the pump body. The liquid storage tank 310 is used to heat the liquid in the liquid storage tank 310 .

图4是根据本说明书一些实施例所示的烹饪装置的示例性结构图。图5是根据本说明书一些实施例所示的烹饪装置的示例性装配图。图6是根据本说明书一些实施例所示的热量导体的示例性剖视图。Figure 4 is an exemplary structural diagram of a cooking device according to some embodiments of this specification. Figure 5 is an exemplary assembly diagram of a cooking device according to some embodiments of the present specification. Figure 6 is an exemplary cross-sectional view of a thermal conductor in accordance with some embodiments of the present specification.

参见图4-图5，烹饪装置400可以包括储液箱410、制冷组件420和加热组件430。制冷组件420可以对储液箱410中的液体进行制冷。加热组件430可以对储液箱410中的液体进行加热。制冷组件420和加热组件430之间可以具有共用元件440。在一些实施例中，共用元件440可以至少包括共用管路441。Referring to FIGS. 4-5 , thecooking device 400 may include aliquid storage tank 410 , arefrigeration component 420 and a heating component 430 . Therefrigeration component 420 can refrigerate the liquid in theliquid storage tank 410 . The heating assembly 430 can heat the liquid in theliquid storage tank 410 . There may be a common element 440 between therefrigeration assembly 420 and the heating assembly 430. In some embodiments, the common element 440 may include at least a common pipeline 441 .

参见图4-图6，在一些实施例中，共用元件440还可以包括与共用管路441连通的热量导体442。热量导体442可以是能够进行热量传递的导体。制冷组件420和加热组件430可以通过热量导体442对热量导体442中的液体进行制冷或加热。制冷组件420(或加热组件430)通过对热量导体442进行制冷(或加热)，制冷(或加热)后的热量导体442与热量导体442中的液体进行热量传递，从而实现热量导体442中的液体的制冷(或加热)。在一些实施例中，热量导体442可以与共用管路441连通。从储液箱410中引出的液体可以通过管路(例如，共用管路441)流入热量导体442中，并在热量导体442中进行制冷或加热。进一步地，制冷或加热后的液体能够通过管路送回至储液箱410。在一些实施例中，热量导体442的内部可以设有通槽4421(如图6所示)，通槽4421形成共用管路441的至少部分。在一些实施例中，通槽4421可以是热量导体442内部开设的管路。例如，通槽4421可以是具有弯曲结构的管路。所述管路可以形成共用管路441的至少部分，也即是，共用管路441可以包括通槽4421。Referring to FIGS. 4-6 , in some embodiments, the common element 440 may also include aheat conductor 442 connected to the common pipeline 441 .Thermal conductor 442 may be a conductor capable of heat transfer. Therefrigeration component 420 and the heating component 430 can cool or heat the liquid in theheat conductor 442 through theheat conductor 442 . The refrigeration component 420 (or the heating component 430) cools (or heats) theheat conductor 442, and the cooled (or heated)heat conductor 442 conducts heat transfer with the liquid in theheat conductor 442, thereby realizing the liquid in theheat conductor 442. refrigeration (or heating). In some embodiments,thermal conductor 442 may be in communication with common conduit 441 . The liquid drawn from theliquid storage tank 410 can flow into theheat conductor 442 through a pipeline (for example, the common pipeline 441), and is cooled or heated in theheat conductor 442. Further, the refrigerated or heated liquid can be returned to theliquid storage tank 410 through the pipeline. In some embodiments, the interior of theheat conductor 442 may be provided with a through slot 4421 (as shown in FIG. 6 ), and the throughslot 4421 forms at least part of the common pipeline 441 . In some embodiments, theslot 4421 may be a pipeline opened inside theheat conductor 442 . For example, thechannel 4421 may be a pipe with a curved structure. The pipeline may form at least part of the common pipeline 441 , that is, the common pipeline 441 may include a throughgroove 4421 .

在一些实施例中，热量导体442的一端与共用管路441连通，另一端与储液箱410的进液口411连通。在一些实施例中，热量导体442内部的通槽4421可以具有通槽入口4422和通槽出口 4423。其中，通槽入口4422与共用管路441连通，通槽出口4423与储液箱410的进液口411连通。储液箱410中的液体可以通过出液口412流入共用管路441，并经通槽入口4422流入通槽4421，液体在通槽4421中进行制冷或加热。进一步的，经过制冷或加热的液体通过通槽出口4423和储液箱410的进液口411流回储液箱410，实现储液箱410中液体的制冷或加热。In some embodiments, one end of theheat conductor 442 is connected to the common pipeline 441 and the other end is connected to theliquid inlet 411 of theliquid storage tank 410 . In some embodiments, thechannel 4421 inside thethermal conductor 442 may have achannel inlet 4422 and achannel outlet 4423. Among them, thechannel inlet 4422 is connected to the common pipeline 441, and thechannel outlet 4423 is connected to theliquid inlet 411 of theliquid storage tank 410. The liquid in theliquid storage tank 410 can flow into the common pipeline 441 through theliquid outlet 412 and into the throughgroove 4421 through the throughgroove inlet 4422. The liquid is cooled or heated in the throughgroove 4421. Further, the refrigerated or heated liquid flows back to theliquid storage tank 410 through thechannel outlet 4423 and theliquid inlet 411 of theliquid storage tank 410, thereby realizing cooling or heating of the liquid in theliquid storage tank 410.

在一些实施例中，通槽4421的入口4422和出口4423可以设置在热量导体442的两侧。热量导体442的两侧可以指垂直于热量导体442高度方向(图4中z方向)的两个侧壁。在一些实施例中，通槽4421的入口4422和出口4423可以设置在热量导体324中相对的两个侧壁上。例如，通槽4421的入口4422和出口4423可以设置在热量导体324垂直于热量导体324的高度方向(图4中的z方向)的两个侧壁上。在一些实施例中，通槽4421的入口4422和出口4423也可以设置在热量导体442的其他位置，例如，入口4422和出口4423都设置在热量导体442垂直于其高度方向(图4中的z方向)的一个侧壁上(如上侧)。In some embodiments, theinlet 4422 and theoutlet 4423 of theslot 4421 may be disposed on both sides of theheat conductor 442 . The two sides of theheat conductor 442 may refer to two side walls perpendicular to the height direction of the heat conductor 442 (the z direction in FIG. 4 ). In some embodiments, theinlet 4422 and theoutlet 4423 of the throughslot 4421 may be disposed on two opposite side walls of the heat conductor 324 . For example, theinlet 4422 and theoutlet 4423 of the throughslot 4421 may be disposed on two side walls of the heat conductor 324 perpendicular to the height direction of the heat conductor 324 (the z direction in FIG. 4 ). In some embodiments, theinlet 4422 and theoutlet 4423 of the throughslot 4421 can also be disposed at other positions of theheat conductor 442. For example, theinlet 4422 and theoutlet 4423 are both disposed at a position perpendicular to the height direction of the heat conductor 442 (z in Figure 4 direction) on one side wall (such as the upper side).

在一些实施例中，为了便于在热量导体442的内部开设通槽4421，热量导体442的形状可以包括但不限于立方体或柱状。在一些实施例中，热量导体442的内部不设置通槽4421时，热量导体442的形状也可以是片状。例如，热量导体442可以是设置在管路的管壁上的金属片。In some embodiments, in order to facilitate opening the throughslot 4421 inside theheat conductor 442, the shape of theheat conductor 442 may include but is not limited to a cube or a columnar shape. In some embodiments, when the through-slot 4421 is not provided inside theheat conductor 442, the shape of theheat conductor 442 may also be sheet-shaped. For example, theheat conductor 442 may be a metal sheet disposed on the wall of the pipeline.

在一些实施例中，为了便于在热量导体442的内部设置通槽4421，热量导体442可以具有一定的厚度。热量导体442的厚度可以指热量导体442沿x轴方向(如图4所示)的长度。在一些实施例中，为了保证通槽4421在热量导体324的内部具有合适的总长度，热量导体442可以具有一定的横截面积。热量导体442的横截面积可以指热量导体442中垂直于其厚度方向(图4中x方向)的表面(图4中平行于yz平面的表面)的面积。在一些实施例中，热量导体442的厚度和/或横截面积可以根据实际需求进行设定，在此不做进一步限定。In some embodiments, in order to facilitate the placement of the through-slot 4421 inside theheat conductor 442, theheat conductor 442 may have a certain thickness. The thickness of thethermal conductor 442 may refer to the length of thethermal conductor 442 along the x-axis direction (as shown in FIG. 4 ). In some embodiments, in order to ensure that the throughslot 4421 has an appropriate overall length inside the heat conductor 324, theheat conductor 442 may have a certain cross-sectional area. The cross-sectional area of thethermal conductor 442 may refer to the area of the surface of thethermal conductor 442 perpendicular to its thickness direction (the x direction in FIG. 4) (the surface parallel to the yz plane in FIG. 4). In some embodiments, the thickness and/or cross-sectional area of theheat conductor 442 can be set according to actual requirements and is not further limited here.

在一些实施例中，热量导体442的材质可以影响热量导体442与液体之间的热量传递效率，从而影响液体在热量导体442中进行制冷/加热的效果。在一些实施例中，热量导体442的材质可以包括金属(例如，铜、铝、铁)、合金(例如，铝合金)、不锈钢等材料。In some embodiments, the material of theheat conductor 442 may affect the heat transfer efficiency between theheat conductor 442 and the liquid, thereby affecting the cooling/heating effect of the liquid in theheat conductor 442. In some embodiments, the material of theheat conductor 442 may include metal (eg, copper, aluminum, iron), alloy (eg, aluminum alloy), stainless steel, and other materials.

在一些实施例中，参见图6，通槽4421在热量导体442内可以呈蛇形分布。这种分布方式可以使通槽4421具有较长的总长度，从而增加液体在通槽4421内进行制冷或加热的时间，进而增加液体与热量导体442之间进行热传递的传递能量。同时，通槽4421在热量导体442内呈蛇形或螺旋形分布，还能提高热量导体442内部结构的利用率。在一些实施例中，通槽4421在热量导体442内的分布方式也可以为其他适于实用的分布方式，例如，螺旋形分布。通槽4421在热量导体442内呈螺旋形分布时，螺旋形可以具有螺旋轴线，通槽4421沿螺旋轴线的延伸方向环绕螺旋轴线旋转以形成螺旋形。螺旋轴线延伸方向可以是与热量导体442的高度方向(图4中z方向)、厚度方向(图4中x方向)、宽度方向(图4中y方向)中任一方向平行的方向。In some embodiments, referring to FIG. 6 , theslots 4421 may be distributed in a serpentine shape within thethermal conductor 442 . This distribution method can make the throughgroove 4421 have a longer total length, thereby increasing the time for the liquid to be cooled or heated in the throughgroove 4421, thereby increasing the heat transfer energy between the liquid and theheat conductor 442. At the same time, theslots 4421 are distributed in a serpentine or spiral shape in theheat conductor 442, which can also improve the utilization rate of the internal structure of theheat conductor 442. In some embodiments, the distribution pattern of the throughslots 4421 in theheat conductor 442 can also be other distribution patterns suitable for practical use, such as spiral distribution. When the throughgrooves 4421 are distributed in a spiral shape in theheat conductor 442, the spiral shape may have a spiral axis, and the throughgrooves 4421 rotate around the spiral axis along the extending direction of the spiral axis to form a spiral shape. The extending direction of the spiral axis may be a direction parallel to any of the height direction (z direction in FIG. 4 ), thickness direction (x direction in FIG. 4 ), and width direction (y direction in FIG. 4 ) of theheat conductor 442 .

在一些实施例中，共用管路441可以包括泵进液管4411和泵出液管4412。泵进液管4411与储液箱410的出液口412连通，泵出液管4412与储液箱410的进液口411连通。In some embodiments, the common pipeline 441 may include a pumpliquid inlet pipe 4411 and a pumpliquid outlet pipe 4412. The pumpliquid inlet pipe 4411 is connected with theliquid outlet 412 of theliquid storage tank 410 , and the pumpliquid outlet pipe 4412 is connected with theliquid inlet 411 of theliquid storage tank 410 .

在一些实施例中，如图4和图5所示，泵出液管4412可以通过热量导体442与储液箱410的进液口411连通。此时，按照液体流动方向而言，热量导体442可以设置在泵出液管4412和储液箱410的进液口411之间。在一些实施例中，泵出液管4412可以与热量导体442的一端(设有通槽入口4422的一端)连通，热量导体442的另一端(设有通槽出口4423的一端)与储液箱410的进液口411连通。泵出液管4412依次通过热量导体442上的通槽入口4422和通槽出口4423与储液箱410的进液口411连通。In some embodiments, as shown in FIGS. 4 and 5 , thepump liquid pipe 4412 may be connected to theliquid inlet 411 of theliquid storage tank 410 through aheat conductor 442 . At this time, in terms of the liquid flow direction, theheat conductor 442 may be disposed between thepump liquid pipe 4412 and theliquid inlet 411 of theliquid storage tank 410 . In some embodiments, thepump liquid pipe 4412 can be connected to one end of the heat conductor 442 (the end with the slot inlet 4422), and the other end of the heat conductor 442 (the end with the slot outlet 4423) is connected to the liquid storage tank. Theliquid inlet 411 of 410 is connected. The pumpliquid outlet pipe 4412 is connected to theliquid inlet 411 of theliquid storage tank 410 through theslot inlet 4422 and theslot outlet 4423 on theheat conductor 442 in sequence.

在一些实施例中，泵出液管4412也可以直接与储液箱410的进液口411连通。例如，烹饪装置400不包括热量导体442时，泵出液管4412可以直接与储液箱410的进液口411连通。烹饪装置400不包括热量导体442时，可以把共用管路441的某部分管道设置成制冷管和加热管，使得液体流经制冷管或加热管时能被制冷或加热，从而实现对储液箱410中的液体进行制冷或加热。In some embodiments, thepump liquid pipe 4412 can also be directly connected to theliquid inlet 411 of theliquid storage tank 410 . For example, when thecooking device 400 does not include theheat conductor 442, thepump liquid pipe 4412 can be directly connected to theliquid inlet 411 of theliquid storage tank 410. When thecooking device 400 does not include theheat conductor 442, some parts of the common pipeline 441 can be set as refrigeration pipes and heating pipes, so that the liquid can be cooled or heated when flowing through the refrigeration pipe or the heating pipe, thereby realizing the control of the liquid storage tank. The liquid in 410 is refrigerated or heated.

在一些实施例中，泵进液管4411和泵出液管4412可以分别与泵体450连接。泵进液管4411和泵出液管4412分别与泵体450的入口和出口连通。泵体450可以用于将储液箱410中的液体泵出并驱动液体在管路中流动。在一些实施例中，泵体450可以设置在储液箱410的外侧。例如，如图4和图5所示，按照液体流动方向而言，泵体450可以设置在储液箱410的出液口412和热量导体442之间。在一些实施例中，泵体450也可以设置在储液箱410的内侧。例如，泵体450设置于储液箱410的内侧时，泵体450可以分别作用于储液箱410中的进液管413和出液管414，以实现液体在管路中的循环流动。在一些实施例中，储液箱410中的进液管413和出液管414分别与储液箱410的进液口411和出液口412连通。关于储液箱410中的进液管413和出液管414的更多描 述可以参考本说明书的其他地方。In some embodiments, the pumpliquid inlet pipe 4411 and the pumpliquid outlet pipe 4412 can be connected to thepump body 450 respectively. The pumpliquid inlet pipe 4411 and the pumpliquid outlet pipe 4412 are respectively connected with the inlet and outlet of thepump body 450. Thepump body 450 can be used to pump out the liquid in theliquid storage tank 410 and drive the liquid to flow in the pipeline. In some embodiments, thepump body 450 may be disposed outside theliquid storage tank 410 . For example, as shown in FIGS. 4 and 5 , thepump body 450 may be disposed between theliquid outlet 412 of theliquid storage tank 410 and theheat conductor 442 in terms of the liquid flow direction. In some embodiments, thepump body 450 can also be disposed inside theliquid storage tank 410 . For example, when thepump body 450 is disposed inside theliquid storage tank 410, thepump body 450 can act on theliquid inlet pipe 413 and theliquid outlet pipe 414 in theliquid storage tank 410 respectively to achieve circular flow of liquid in the pipeline. In some embodiments, theliquid inlet pipe 413 and theliquid outlet pipe 414 in theliquid storage tank 410 are respectively connected with theliquid inlet 411 and theliquid outlet 412 of theliquid storage tank 410 . For more description about theliquid inlet pipe 413 and theliquid outlet pipe 414 in theliquid storage tank 410, please refer to other places in this specification.

在一些实施例中，继续参见图4-5，共用元件440可以包括泵体450。泵体450可以用于驱动制冷组件420的制冷管路和加热组件430的加热管路中的液体流动。例如，与泵体450的入口和出口分别连通的泵进液管4411和泵出液管4412可以通过制冷管路(和/或加热管路)分别与储液箱410的出液口412和进液口411连通，从而将储液箱410中的液体泵出并驱动液体在制冷管路(和/或加热管路)中流动。In some embodiments, continuing with reference to FIGS. 4-5 , common element 440 may includepump body 450 . Thepump body 450 can be used to drive the liquid flow in the refrigeration pipeline of therefrigeration assembly 420 and the heating pipeline of the heating assembly 430 . For example, the pumpliquid inlet pipe 4411 and the pumpliquid outlet pipe 4412 that are respectively connected with the inlet and outlet of thepump body 450 can be connected with theliquid outlet 412 and the liquid inlet of theliquid storage tank 410 through the refrigeration pipeline (and/or the heating pipeline). Theliquid port 411 is connected, thereby pumping out the liquid in theliquid storage tank 410 and driving the liquid to flow in the refrigeration pipeline (and/or heating pipeline).

在一些实施例中，制冷组件420的制冷管路和加热组件430的加热管路之间可以具有共用管路441。泵体450可以与共用管路441连通。这里的泵体450与共用管路441的连通可以指密封连通。此时，泵体450和共用管路441都作为制冷组件420与加热组件430之间的共用元件440。在一些实施例中，共用管路441的一端可以与储液箱410的出液口412连通，共用管路441的另一端与泵体450连通。例如，共用管路441的另一端可以通过泵进液口4411与泵体450的连通。泵体450处于工作状态时，泵体450可以将储液箱410中的液体通过出液口412泵出至共用管路441，并驱动液体在共用管路441中流动，液体在流动过程中可以进行制冷/或加热，制冷/或加热后的液体被泵送回储液箱410。在一些实施例中，液体在流动过程中的制冷/或加热过程可以在共用管路441中进行。在一些实施例中，液体在流动过程中的制冷/或加热过程也可以在热量导体442中进行。In some embodiments, there may be a common pipeline 441 between the refrigeration pipeline of therefrigeration assembly 420 and the heating pipeline of the heating assembly 430 . Thepump body 450 can be connected with the common pipeline 441. The communication between thepump body 450 and the common pipeline 441 here may refer to sealed communication. At this time, thepump body 450 and the common pipeline 441 serve as the common component 440 between therefrigeration component 420 and the heating component 430 . In some embodiments, one end of the common pipeline 441 may be connected to theliquid outlet 412 of theliquid storage tank 410 , and the other end of the common pipeline 441 may be connected to thepump body 450 . For example, the other end of the common pipeline 441 can be connected to thepump body 450 through thepump liquid inlet 4411. When thepump body 450 is in working state, thepump body 450 can pump the liquid in theliquid storage tank 410 to the common pipeline 441 through theliquid outlet 412, and drive the liquid to flow in the common pipeline 441. During the flow process, the liquid can Cooling/or heating is performed, and the cooled/or heated liquid is pumped back to theliquid storage tank 410 . In some embodiments, the cooling/or heating process of the liquid during flow may be performed in the common pipeline 441 . In some embodiments, the cooling/or heating process of the liquid during flow can also be performed in theheat conductor 442.

在一些实施例中，共用元件440包括泵体450时，制冷管路和加热管路之间可也可以不具有共用管路441(也即是，制冷管路和加热管路是彼此独立的两个管路)。在一些实施例中，制冷管路和加热管路是彼此独立的两个管路时，泵体450可以分别与制冷管路和加热管路连通。在一些实施例中，泵体450可以包括第一进液管和第一出液管，以及第二进液管和第二出液管，其中，第一进液管和第一出液管通过制冷管路分别与储液箱410的出液口412和进液口411连通，第二进液管和第二出液管通过加热管路分别与储液箱410的出液口412和进液口411连通。泵体450可以择一的将储液箱410中的液体泵出至制冷管路或加热管路。在一些实施例中，制冷组件420对储液箱410中的液体进行制冷时，泵体450可以将储液箱410中的液体泵出至制冷管路，制冷后的液体在泵体450的作用下再泵回至储液箱410。仅作为示例，制冷管路中可以设置制冷元器件，例如，制冷管，利用制冷管对制冷管路中的液体进行制冷，从而实现储液箱410中液体的制冷。在一些实施例中，加热组件420对储液箱410中的液体进行加热时，泵体450可以将储液箱410中的液体泵出至加热管路，加热后的液体在泵体450的作用下再泵回至储液箱410。仅作为示例，加热管路中可以设置加热元器件，例如，加热管，利用加热管对加热管路中的液体进行加热，从而实现储液箱410中液体的加热。In some embodiments, when the common component 440 includes thepump body 450, there may or may not be a common pipeline 441 between the refrigeration pipeline and the heating pipeline (that is, the refrigeration pipeline and the heating pipeline are independent of each other). pipeline). In some embodiments, when the refrigeration pipeline and the heating pipeline are two independent pipelines, thepump body 450 can be connected to the refrigeration pipeline and the heating pipeline respectively. In some embodiments, thepump body 450 may include a first liquid inlet pipe and a first liquid outlet pipe, as well as a second liquid inlet pipe and a second liquid outlet pipe, wherein the first liquid inlet pipe and the first liquid outlet pipe pass through The refrigeration pipeline is connected to theliquid outlet 412 and theliquid inlet 411 of theliquid storage tank 410 respectively. The second liquid inlet pipe and the second liquid outlet pipe are respectively connected to theliquid outlet 412 and liquid inlet of theliquid storage tank 410 through the heating pipeline.Port 411 is connected. Thepump body 450 can selectively pump the liquid in theliquid storage tank 410 to the refrigeration pipeline or the heating pipeline. In some embodiments, when therefrigeration component 420 refrigerates the liquid in theliquid storage tank 410, thepump body 450 can pump the liquid in theliquid storage tank 410 to the refrigeration pipeline. The cooled liquid acts on thepump body 450. Then pump it back to theliquid storage tank 410. As an example only, refrigeration components, such as refrigeration pipes, may be provided in the refrigeration pipeline, and the refrigeration pipes are used to cool the liquid in the refrigeration pipeline, thereby achieving cooling of the liquid in theliquid storage tank 410 . In some embodiments, when theheating assembly 420 heats the liquid in theliquid storage tank 410, thepump body 450 can pump the liquid in theliquid storage tank 410 to the heating pipeline. The heated liquid acts on thepump body 450. Then pump it back to theliquid storage tank 410. For example only, a heating element, such as a heating pipe, may be provided in the heating pipe. The heating pipe is used to heat the liquid in the heating pipe, thereby heating the liquid in theliquid storage tank 410 .

在一些实施例中，继续参照图4-5，液体在热量导体442中进行制冷或加热时，制冷组件420的制冷元件和加热组件430的加热元件可以设置在热量导体442的表面。制冷元件和加热元件与热量导体442的表面直接接触(例如，贴附在热量导体442的表面)。制冷元件工作时，制冷元件输出的能量(或热量)通过热量导体442传递给液体，从而实现液体在热量导体442中的制冷。加热元件工作时，加热元件输出的能量(或热量)通过热量导体442传递给液体，从而实现液体在热量导体442中的加热。In some embodiments, continuing to refer to FIGS. 4-5 , when the liquid is cooled or heated in theheat conductor 442 , the cooling element of therefrigeration assembly 420 and the heating element of the heating assembly 430 may be disposed on the surface of theheat conductor 442 . The cooling element and the heating element are in direct contact with the surface of the heat conductor 442 (eg, attached to the surface of the heat conductor 442). When the refrigeration element is working, the energy (or heat) output by the refrigeration element is transferred to the liquid through theheat conductor 442, thereby realizing cooling of the liquid in theheat conductor 442. When the heating element is working, the energy (or heat) output by the heating element is transferred to the liquid through theheat conductor 442, so that the liquid is heated in theheat conductor 442.

在一些实施例中，参见图5，热量导体442可以包括第一表面4424和第二表面4425，第一表面4424设有加热元件，第二表面4425设有制冷元件。在一些实施例中，热量导体442的第一表面4424和第二表面4425可以是相对的两个表面。例如，第一表面4424和第二表面4425可以是热量导体442上垂直于热量导体442的厚度方向(图4中的x方向)的两个表面。在一些实施例中，烹饪装置400包括储液箱410时，第一表面4424可以朝向储液箱410，第二表面4425背离储液箱410。In some embodiments, referring to Figure 5, theheat conductor 442 may include afirst surface 4424 provided with a heating element and asecond surface 4425 provided with a cooling element. In some embodiments, thefirst surface 4424 and thesecond surface 4425 of thethermal conductor 442 may be opposing surfaces. For example, thefirst surface 4424 and thesecond surface 4425 may be two surfaces on theheat conductor 442 that are perpendicular to the thickness direction of the heat conductor 442 (the x direction in FIG. 4 ). In some embodiments, when thecooking device 400 includes theliquid storage tank 410 , thefirst surface 4424 may face theliquid storage tank 410 and thesecond surface 4425 may face away from theliquid storage tank 410 .

在一些实施例中，参见图4-图5，加热元件可以包括发热片431，发热片431贴附在热量导体442的第一表面4424上。烹饪装置400需要对储液箱410中的液体进行加热(例如，烹饪装置400处于烹饪模式)时，发热片431可以通电进行发热，热量导体442将发热片431发出的热量传递给液体，从而对热量导体442中的液体进行加热。在一些实施例中，发热片431上可以具有用于通电的电极4311。In some embodiments, referring to FIGS. 4-5 , the heating element may include a heating sheet 431 attached to thefirst surface 4424 of theheat conductor 442 . When thecooking device 400 needs to heat the liquid in the liquid storage tank 410 (for example, thecooking device 400 is in the cooking mode), the heating piece 431 can be energized to generate heat, and theheat conductor 442 transfers the heat generated by the heating piece 431 to the liquid, thereby heating the liquid. The liquid in thethermal conductor 442 is heated. In some embodiments, the heating sheet 431 may have anelectrode 4311 for energizing.

在一些实施例中，制冷元件可以包括制冷片421、散热片422以及风扇423。在一些实施例中，制冷片421可以是半导体制冷片。半导体制冷片通电时，半导体制冷片的一面(也称为制冷面)可以变冷而另一面(也称为变热面)变热，由此，半导体制冷片可以利用制冷面对与制冷面接触的物体(例如，热量导体442)进行制冷。在一些实施例中，制冷片421的制冷面可以贴附在热量导体442的第二表面4425上。烹饪装置400需要对储液箱410中的液体进行制冷(例如，烹饪装置 400处于预约模式)时，制冷片421可以通电进行工作，制冷片421的制冷面对热量导体442进行制冷，热量导体442将制冷片421的热量传递给液体，从而实现热量导体442中的液体的制冷。在一些实施例中，制冷片421上可以具有用于通电的电极4211。In some embodiments, the cooling element may include coolingfins 421,heat sinks 422, andfans 423. In some embodiments, therefrigeration piece 421 may be a semiconductor refrigeration piece. When the semiconductor refrigeration chip is energized, one side of the semiconductor refrigeration chip (also called the cooling surface) can become cold and the other side (also called the heating surface) can become hot. Therefore, the semiconductor refrigeration chip can use the cooling surface to contact the cooling surface. An object (e.g., heat conductor 442) is cooled. In some embodiments, the cooling surface of thecooling plate 421 can be attached to thesecond surface 4425 of theheat conductor 442. When thecooking device 400 needs to cool the liquid in the liquid storage tank 410 (for example, thecooking device 400 is in the reservation mode), therefrigeration piece 421 can be energized to work, and the cooling surface of therefrigeration piece 421 cools theheat conductor 442, and theheat conductor 442 The heat of therefrigeration piece 421 is transferred to the liquid, thereby achieving cooling of the liquid in theheat conductor 442 . In some embodiments, thecooling plate 421 may have anelectrode 4211 for energizing.

在一些实施例中，制冷片421在制冷过程中，制冷片421的变热面的热量会较多，可以利用散热片422对制冷片421的变热面进行散热，从而保证制冷片421能够正常工作。风扇423可以辅助散热片422对制冷片421进行散热，将制冷片421的变热面的热量排出。在一些实施例中，散热片422可以设置在制冷片421的外侧，风扇423设置在散热片422的外侧。制冷片421的外侧可以是制冷片421的变热面所在的一侧。散热片422的外侧可以是散热片422背离制冷片421的一侧。在垂直于热量导体442的第二表面4425且由第二表面4425向外延伸的方向上，热量导体442的第二表面4425依次设置制冷片421、散热片422和风扇423。在一些实施例中，烹饪装置400包括储液箱410时，制冷片421的外侧可以是制冷片421背离储液箱410的一侧。散热片422的外侧可以是散热片422背离储液箱410的一侧。In some embodiments, during the cooling process of therefrigeration piece 421, the heat changing surface of therefrigeration piece 421 will have more heat. Theheat sink 422 can be used to dissipate heat from the heating surface of therefrigeration piece 421, thereby ensuring that therefrigeration piece 421 can function normally. Work. Thefan 423 can assist theheat sink 422 in dissipating heat from the coolingfin 421 and dissipating the heat from the heating surface of the coolingfin 421 . In some embodiments, theheat sink 422 may be disposed outside the coolingfin 421 , and thefan 423 may be disposed outside theheat sink 422 . The outside of therefrigeration fin 421 may be the side where the heating surface of therefrigeration fin 421 is located. The outside of theheat sink 422 may be the side of theheat sink 422 facing away from the coolingfin 421 . In a direction perpendicular to thesecond surface 4425 of theheat conductor 442 and extending outward from thesecond surface 4425, thesecond surface 4425 of theheat conductor 442 is sequentially provided withcooling fins 421,heat sinks 422 andfans 423. In some embodiments, when thecooking device 400 includes aliquid storage tank 410 , the outside of therefrigeration piece 421 may be the side of therefrigeration piece 421 facing away from theliquid storage tank 410 . The outside of theheat sink 422 may be the side of theheat sink 422 facing away from theliquid storage tank 410 .

在一些实施例中，参见图4，烹饪装置400还可以包括设置在储液箱410内的进液管413和出液管414，进液管413与储液箱410的进液口411连通，出液管414与储液箱410的出液口412连通。在一些实施例中，进液管413的一端与储液箱410的进液口411连通，另一端(也叫末端)可以伸入储液箱410中的液体中。出液管414的一端与储液箱410的出液口412连通，另一端(也叫末端)伸入储液箱410中的液体。烹饪装置400的泵体450工作时，可以将储液箱410中的液体通过出液管414泵出至管路，以及将管路中的液体通过进液管413泵回至储液箱410。In some embodiments, referring to FIG. 4 , thecooking device 400 may also include aliquid inlet pipe 413 and aliquid outlet pipe 414 disposed in theliquid storage tank 410 , and theliquid inlet pipe 413 is connected with theliquid inlet 411 of theliquid storage tank 410 . Theliquid outlet pipe 414 is connected with theliquid outlet 412 of theliquid storage tank 410 . In some embodiments, one end of theliquid inlet pipe 413 is connected to theliquid inlet 411 of theliquid storage tank 410 , and the other end (also called the end) can extend into the liquid in theliquid storage tank 410 . One end of theliquid outlet pipe 414 is connected to theliquid outlet 412 of theliquid storage tank 410, and the other end (also called the end) extends into the liquid in theliquid storage tank 410. When thepump body 450 of thecooking device 400 is working, the liquid in theliquid storage tank 410 can be pumped out to the pipeline through theliquid outlet pipe 414, and the liquid in the pipeline can be pumped back to theliquid storage tank 410 through theliquid inlet pipe 413.

在一些实施例中，为了保证液体能够在储液箱410和管路之间的泵出/泵回，进液管413和/或出液管414的末端可以设置在储液箱410的最小液位线之下。In some embodiments, in order to ensure that liquid can be pumped out/pumped back between theliquid storage tank 410 and the pipeline, the ends of theliquid inlet pipe 413 and/or theliquid outlet pipe 414 can be set at the minimum liquid level of theliquid storage tank 410. below the bit line.

在一些实施例中，为了防止储液箱410中的液体从储液箱410的进液口411和/或出液口412溢出，储液箱410的进液口411和/或出液口412可以设置在储液箱410的最大液位线之上。In some embodiments, in order to prevent the liquid in theliquid storage tank 410 from overflowing from theliquid inlet 411 and/or theliquid outlet 412 of theliquid storage tank 410, theliquid inlet 411 and/or theliquid outlet 412 of theliquid storage tank 410 It can be set above the maximum liquid level line of theliquid storage tank 410.

在一些实施例中，管路组件(例如，加热管路、制冷管路、共用管路441)可以设置在储液箱410的侧面。例如，参见图4，管路组件设置在储液箱410平行于储液箱410高度方向(z方向)的表面一侧。在一些实施例中，烹饪装置400还可以包括主机，制冷组件420和加热组件430可以设置在主机上。在一些实施例中，主机与储液箱410之间可以以可拆卸的方式连接。在一些实施例中，储液箱410中的液体可以在泵体450的作用下进入到主机中，并在主机的制冷组件420/加热组件430中进行制冷/加热，再通过泵体450将制冷/加热的液体送回到储液箱410，制冷/加热的液体与储液箱410中的液体混合，从而实现对储液箱410中的液体的制冷/加热。In some embodiments, pipeline components (eg, heating pipelines, refrigeration pipelines, common pipelines 441 ) may be disposed on the side of theliquid storage tank 410 . For example, referring to FIG. 4 , the pipeline assembly is disposed on a surface side of theliquid storage tank 410 that is parallel to the height direction (z direction) of theliquid storage tank 410 . In some embodiments, thecooking device 400 may further include a host, on which therefrigeration component 420 and the heating component 430 may be disposed. In some embodiments, the host computer and theliquid storage tank 410 may be detachably connected. In some embodiments, the liquid in theliquid storage tank 410 can enter the host machine under the action of thepump body 450, and be refrigerated/heated in therefrigeration component 420/heating component 430 of the host machine, and then be refrigerated through thepump body 450. The heated liquid is returned to theliquid storage tank 410, and the cooled/heated liquid is mixed with the liquid in theliquid storage tank 410, thereby achieving cooling/heating of the liquid in theliquid storage tank 410.

在一些实施例中，主机与储液箱410之间可以以前后形式或左右形式排布。例如，主机与储液箱410之间以前后形式排布时，主机可以对接在储液箱410的较大尺寸的侧面(例如，图4中平行于yz平面的侧面)上，储液箱410的进液口411和出液口412可以设置在储液箱410的对接面上。In some embodiments, the host computer and theliquid storage tank 410 may be arranged in a front-to-back or left-to-right manner. For example, when the main machine and theliquid storage tank 410 are arranged in a front-to-back manner, the main machine can be docked on a larger side of the liquid storage tank 410 (for example, the side parallel to the yz plane in Figure 4), and theliquid storage tank 410 Theliquid inlet 411 and theliquid outlet 412 can be provided on the docking surface of theliquid storage tank 410.

在一些实施例中，烹饪装置400还可以包括控制组件，例如控制组件210。在一些实施例中，控制组件210可以控制制冷组件420和/或加热组件430对储液箱410中的液体进行制冷或加热。在一些实施例中，控制组件210中可以设有控制面板，控制面板可以用于控制制冷组件420和加热组件430的工作状态。控制面板中可以设有用来连接制冷元件(例如，制冷片421)的电极4211的接插口，以及用来连接加热元件(例如，加热片431)的电极4311的接插口。控制组件210可以通过控制控制面板中与电极4211对应的接插口来给制冷片421通电，从而控制制冷片421对储液箱410中的液体进行制冷。控制组件210也可以通过控制控制面板中与电极4311对应的接插口给加热片431通电，从而控制加热片431对储液箱410中的液体进行加热。在一些实施例中，制冷片421通电时，加热片431断电；加热片431通电时，制冷片421断电。在一些实施例中，控制组件210也可以控制烹饪装置400的工作模式。例如，控制组件210可以控制烹饪装置400在预约模式和烹饪模式之间进行切换。在一些实施例中，控制组件210也可以控制烹饪装置400在不同工作模式下的工作时间，例如，预约模式下的预约时间、烹饪模式下的烹饪时间等。在一些实施例中，控制组件210还可以控制烹饪装置400在不同工作模式下的液体的温度，例如，预约模式下的制冷温度、烹饪模式下的烹饪温度等。关于控制组件210的更多描述可以参考图2及其相关内容。In some embodiments,cooking device 400 may also include a control component, such ascontrol component 210. In some embodiments, thecontrol component 210 can control therefrigeration component 420 and/or the heating component 430 to cool or heat the liquid in theliquid storage tank 410 . In some embodiments, thecontrol assembly 210 may be provided with a control panel, and the control panel may be used to control the working status of therefrigeration assembly 420 and the heating assembly 430 . The control panel may be provided with a socket for connecting theelectrodes 4211 of the cooling element (eg, the cooling plate 421), and a socket for connecting theelectrodes 4311 of the heating element (eg, the heating plate 431). Thecontrol component 210 can energize thecooling chip 421 by controlling the socket corresponding to theelectrode 4211 in the control panel, thereby controlling thecooling chip 421 to cool the liquid in theliquid storage tank 410 . Thecontrol component 210 can also energize the heating chip 431 by controlling the socket corresponding to theelectrode 4311 in the control panel, thereby controlling the heating chip 431 to heat the liquid in theliquid storage tank 410 . In some embodiments, when thecooling piece 421 is powered on, the heating piece 431 is powered off; when the heating piece 431 is powered on, thecooling piece 421 is powered off. In some embodiments, thecontrol assembly 210 may also control the operating mode of thecooking device 400 . For example, thecontrol component 210 may control thecooking device 400 to switch between the reservation mode and the cooking mode. In some embodiments, thecontrol component 210 can also control the working time of thecooking device 400 in different working modes, for example, the scheduled time in the scheduled mode, the cooking time in the cooking mode, etc. In some embodiments, thecontrol component 210 can also control the temperature of the liquid of thecooking device 400 in different working modes, for example, the cooling temperature in the reservation mode, the cooking temperature in the cooking mode, etc. For more description about thecontrol component 210, please refer to FIG. 2 and its related contents.

在一些实施例中，烹饪装置400还可以包括设置在储液箱410中的温度传感器，温度传感器用于检测储液箱410中的液体的温度。控制组件210可以根据温度传感器的检测结果控制制冷组件420和加热组件430。在一些实施例中，温度传感器可以检测烹饪装置400在预约模式下的液体的温度，控制组件210根据温度传感器的检测结果控制制冷组件420。例如，温度传感器检测的储 液箱410中液体的温度较高(例如，高于5度)时，可以表示食材在储液箱410的液体环境中无法得到保鲜或保鲜效果较差，这会降低使用者对预约模式的体验感，此时，控制组件210可以控制制冷组件420继续进行工作或者以更大的功率进行工作。In some embodiments, thecooking device 400 may further include a temperature sensor disposed in theliquid storage tank 410 , and the temperature sensor is used to detect the temperature of the liquid in theliquid storage tank 410 . Thecontrol component 210 can control therefrigeration component 420 and the heating component 430 according to the detection results of the temperature sensor. In some embodiments, the temperature sensor can detect the temperature of the liquid of thecooking device 400 in the reservation mode, and thecontrol component 210 controls therefrigeration component 420 according to the detection result of the temperature sensor. For example, when the temperature of the liquid in theliquid storage tank 410 detected by the temperature sensor is relatively high (for example, higher than 5 degrees), it may indicate that the food cannot be kept fresh in the liquid environment of theliquid storage tank 410 or the freshness preservation effect is poor, which will reduce The user has a sense of experience in the reservation mode. At this time, thecontrol component 210 can control therefrigeration component 420 to continue working or to work with greater power.

在一些实施例中，温度传感器也可以检测烹饪装置400在烹饪模式下的液体的温度，控制组件210根据温度传感器的检测结果控制加热组件430。例如，温度传感器检测的储液箱410中液体的温度较低(例如，低于预设烹饪温度)时，控制组件210可以控制加热组件430继续进行工作。In some embodiments, the temperature sensor can also detect the temperature of the liquid of thecooking device 400 in the cooking mode, and thecontrol component 210 controls the heating component 430 according to the detection result of the temperature sensor. For example, when the temperature of the liquid in theliquid storage tank 410 detected by the temperature sensor is relatively low (for example, lower than a preset cooking temperature), thecontrol component 210 may control the heating component 430 to continue working.

在一些实施例中，为了使温度传感器检测的液体的温度更为准确，温度传感器可以设置在储液箱410的内部。优选地，为了使温度传感器检测的液体温度值更贴近储液箱410内液体的平均温度值，温度传感器可以位于储液箱410中液体的中心位置。在其他实施例中，温度传感器也可以位于其他位置，例如，储液箱410的出液口412、进液口411、进液管413、出液管414、共用管路441的进/出水口等。In some embodiments, in order to make the temperature of the liquid detected by the temperature sensor more accurate, the temperature sensor may be disposed inside theliquid storage tank 410 . Preferably, in order to make the liquid temperature value detected by the temperature sensor closer to the average temperature value of the liquid in theliquid storage tank 410 , the temperature sensor may be located at the center of the liquid in theliquid storage tank 410 . In other embodiments, the temperature sensor may also be located at other locations, such as theliquid outlet 412,liquid inlet 411,liquid inlet pipe 413,liquid outlet pipe 414, or the inlet/outlet of the common pipeline 441 of theliquid storage tank 410. wait.

本说明书的一些实施例还提供一种管路组件。管路组件可以应用于烹饪装置和其他装置。其他装置可以包括但不限于饮水机、热水器、以及其他液体存储或泵送装置等。在一些实施例中，管路组件可以包括共用管路和热量导体。热量导体与共用管路连通，且热量导体的内部可以设有通槽，通槽形成共用管路的至少部分。热量导体可以通过通槽与共用管路连通。例如，热量导体通过通槽的入口和/或出口与共用管路连通。在一些实施例中，热量导体的外表面可以设有加热元件和/或制冷元件。加热元件与制冷元件可以位于热量导体的同一表面或不同表面(例如，相对设置的两个表面)。热量导体可以将加热元件/制冷元件输出的热量传递给热量导体内部的液体，从而实现加热元件和/或制冷元件对管路组件中的液体的加热/制冷。在一些实施例中，关于热量导体以及热量导体内的通槽的更多内容可以参见本说明书其他地方。Some embodiments of the present specification also provide a pipeline assembly. Pipe assemblies can be used in cooking appliances and other appliances. Other devices may include, but are not limited to, water dispensers, water heaters, and other liquid storage or pumping devices. In some embodiments, the tubing assembly may include common tubing and thermal conductors. The heat conductor is connected to the common pipeline, and a through slot can be provided inside the heat conductor, and the through slot forms at least part of the common pipeline. Thermal conductors can be connected to common pipes through slots. For example, the heat conductor is connected to the common pipe through the inlet and/or outlet of the slot. In some embodiments, the outer surface of the thermal conductor may be provided with heating elements and/or cooling elements. The heating element and the cooling element may be located on the same surface of the heat conductor or on different surfaces (eg, two opposite surfaces). The heat conductor can transfer the heat output by the heating element/cooling element to the liquid inside the heat conductor, thereby realizing the heating/cooling of the liquid in the pipeline assembly by the heating element and/or the refrigeration element. In some embodiments, more information about thermal conductors and slots within thermal conductors can be found elsewhere in this specification.

在一些实施例中，管路组件还可以包括泵体，泵体用于驱动共用管路中的液体流动。例如，泵体可以驱动液体在热量导体和共用管路之间循环流动。在一些实施例中，共用管路可以包括泵进液管和泵出液管，泵进液管和泵出液管分别与泵体的入口和出口连接。泵体通过泵体的入口和出口分别作用于泵进液管和泵出液管，进而驱动管路组件中液体的流动。在一些实施例中，关于泵体、泵进液管和泵出液管的更多内容可以参见本说明书其他地方。In some embodiments, the pipeline assembly may further include a pump body, which is used to drive the flow of liquid in the common pipeline. For example, a pump can circulate liquid between a heat conductor and a common pipe. In some embodiments, the common pipeline may include a pump inlet pipe and a pump outlet pipe, which are respectively connected to the inlet and outlet of the pump body. The pump body acts on the pump inlet pipe and the pump outlet pipe respectively through the inlet and outlet of the pump body, thereby driving the flow of liquid in the pipeline assembly. In some embodiments, more information about the pump body, pump inlet pipe, and pump outlet pipe can be found elsewhere in this specification.

在一些实施例中，热量导体可以包括第一表面和第二表面。第一表面上可以设有加热元件，第二表面上设有制冷元件。第一表面和第二表面可以是热量导体上相对设置的两个表面。在一些实例中，加热元件可以包括发热片，发热片贴附在热量导体的第一表面上。制冷元件可以包括制冷片、散热片和风扇。制冷片贴附在热量导体的第二表面上，散热片贴附在制冷片的外侧，风扇设置在散热片的外侧。在一些实施例中，关于加热元件和制冷元件的更多内容可以参见本说明书其他地方。In some embodiments, the thermal conductor may include a first surface and a second surface. A heating element may be provided on the first surface and a cooling element may be provided on the second surface. The first surface and the second surface may be two opposite surfaces on the heat conductor. In some examples, the heating element may include a heating plate attached to the first surface of the heat conductor. Refrigeration elements may include cooling fins, heat sinks, and fans. The refrigeration fin is attached to the second surface of the heat conductor, the heat sink is attached to the outside of the refrigeration fin, and the fan is arranged on the outside of the heat sink. In some embodiments, more information regarding heating elements and cooling elements can be found elsewhere in this specification.

在一些实施例中，烹饪装置可以包括储液箱、循环管路、加热装置以及制冷装置。其中，循环管路、加热装置以及制冷装置可以设置在储液箱的外侧。在一些实施例中，循环管路的两端可以均与所述储液箱连通。例如，循环管路的一端通过储液箱的进液口与储液箱连通，另一端通过储液箱的出液口与储液箱连通。加热装置可以用于对循环管路中的液体进行加热。加热装置可以包括能够对循环管路中的液体进行加热的元器件(例如，加热片、加热管)。制冷装置可以用于对循环管路中的液体进行制冷。制冷装置可以包括能够对循环管路中的液体进行制冷的元器件(例如，制冷片、制冷管)。在一些实施例中，烹饪装置可以具有预约模式和烹饪模式；当烹饪装置处于预约模式时，制冷装置通过循环管路对储液箱中的液体进行制冷；当烹饪装置处于烹饪模式时，加热装置通过循环管路对储液箱中的液体进行加热。In some embodiments, the cooking device may include a liquid storage tank, a circulation pipeline, a heating device, and a refrigeration device. Wherein, the circulation pipeline, heating device and refrigeration device can be arranged outside the liquid storage tank. In some embodiments, both ends of the circulation pipeline may be connected to the liquid storage tank. For example, one end of the circulation pipeline is connected to the liquid storage tank through the liquid inlet of the liquid storage tank, and the other end is connected to the liquid storage tank through the liquid outlet of the liquid storage tank. The heating device can be used to heat the liquid in the circulation line. The heating device may include components capable of heating the liquid in the circulation pipeline (for example, heating sheets, heating tubes). The refrigeration device can be used to refrigerate the liquid in the circulation pipeline. The refrigeration device may include components that can refrigerate the liquid in the circulation pipeline (for example, refrigeration plates, refrigeration tubes). In some embodiments, the cooking device may have a reservation mode and a cooking mode; when the cooking device is in the reservation mode, the refrigeration device cools the liquid in the liquid storage tank through the circulation pipeline; when the cooking device is in the cooking mode, the heating device The liquid in the storage tank is heated through the circulation line.

在一些实施例中，烹饪装置的预约模式和烹饪模式可以通过烹饪装置的交互界面进行设置；当预先设置的预约模式达到预设时间时，烹饪装置能够从预约模式切换至烹饪模式。例如，当预先设置的预约模式达到预设时间时，控制组件能够控制烹饪装置从预约模式切换至烹饪模式。In some embodiments, the reservation mode and cooking mode of the cooking device can be set through the interactive interface of the cooking device; when the preset reservation mode reaches the preset time, the cooking device can switch from the reservation mode to the cooking mode. For example, when the preset reservation mode reaches a preset time, the control component can control the cooking device to switch from the reservation mode to the cooking mode.

在一些实施例中，循环管路可以包括设置在热量导体内部的通槽，通槽的一端(也叫通槽的入口)与储液箱的出液口连通，通槽的另一端(也叫通槽的出口)与储液箱的进液口连通。在一些实施例中，热量导体可以包括第一表面和第二表面；加热装置包括设置在第一表面上的加热元件，制冷装置包括设置在第二表面上的制冷元件。在一些实施例中，加热元件可以包括发热片，发热片贴附在热量导体的第一表面上。制冷元件可以包括制冷片、散热片以及风扇；制冷片贴附在热量导体的第二表面上，散热片贴附在制冷片的外侧，风扇设置在散热片的外侧。在一些实施例中，关于烹饪装置以及烹饪装置的结构、部件等内容已在上文做出描述，在此不再赘述。In some embodiments, the circulation pipeline may include a through groove disposed inside the heat conductor. One end of the through groove (also called the inlet of the through groove) is connected to the liquid outlet of the liquid storage tank, and the other end of the through groove (also called the inlet of the through groove) is connected with the liquid outlet of the liquid storage tank. The outlet of the slot) is connected to the liquid inlet of the liquid storage tank. In some embodiments, the heat conductor may include a first surface and a second surface; the heating device includes a heating element disposed on the first surface, and the cooling device includes a refrigeration element disposed on the second surface. In some embodiments, the heating element may include a heating sheet attached to the first surface of the heat conductor. The refrigeration element may include a refrigeration fin, a heat sink and a fan; the refrigeration fin is attached to the second surface of the heat conductor, the heat sink is attached to the outside of the refrigeration fin, and the fan is arranged on the outside of the heat sink. In some embodiments, the cooking device and the structure and components of the cooking device have been described above and will not be described again here.

上文已对基本概念做了描述，显然，对于本领域技术人员来说，上述详细披露仅仅作为示例，而并不构成对本说明书的限定。虽然此处并没有明确说明，本领域技术人员可能会对本说明书 进行各种修改、改进和修正。该类修改、改进和修正在本说明书中被建议，所以该类修改、改进、修正仍属于本说明书示范实施例的精神和范围。The basic concepts have been described above. It is obvious to those skilled in the art that the above detailed disclosure is only an example and does not constitute a limitation of this specification. Although not explicitly stated here, those skilled in the art may make various modifications, improvements and corrections to this specification. Such modifications, improvements, and corrections are suggested in this specification, and therefore such modifications, improvements, and corrections remain within the spirit and scope of the exemplary embodiments of this specification.

同时，本说明书使用了特定词语来描述本说明书的实施例。如“一个实施例”、“一实施例”、和/或“一些实施例”意指与本说明书至少一个实施例相关的某一特征、结构或特点。因此，应强调并注意的是，本说明书中在不同位置两次或多次提及的“一实施例”或“一个实施例”或“一个替代性实施例”并不一定是指同一实施例。此外，本说明书的一个或多个实施例中的某些特征、结构或特点可以进行适当的组合。At the same time, this specification uses specific words to describe the embodiments of this specification. For example, "one embodiment," "an embodiment," and/or "some embodiments" means a certain feature, structure, or characteristic related to at least one embodiment of this specification. Therefore, it should be emphasized and noted that “one embodiment” or “an embodiment” or “an alternative embodiment” mentioned twice or more at different places in this specification does not necessarily refer to the same embodiment. . In addition, certain features, structures or characteristics in one or more embodiments of this specification may be appropriately combined.

此外，本领域技术人员可以理解，本说明书的各方面可以通过若干具有可专利性的种类或情况进行说明和描述，包括任何新的和有用的工序、机器、产品或物质的组合，或对他们的任何新的和有用的改进。相应地，本说明书的各个方面可以完全由硬件执行、可以完全由软件(包括固件、常驻软件、微码等)执行、也可以由硬件和软件组合执行。以上硬件或软件均可被称为“数据块”、“模块”、“引擎”、“单元”、“组件”或“系统”。此外，本说明书的各方面可能表现为位于一个或多个计算机可读介质中的计算机产品，该产品包括计算机可读程序编码。Furthermore, those skilled in the art will appreciate that aspects of the specification may be illustrated and described in several patentable categories or circumstances, including any new and useful process, machine, product, or combination of matter, or combination thereof. any new and useful improvements. Accordingly, various aspects of this specification may be entirely executed by hardware, may be entirely executed by software (including firmware, resident software, microcode, etc.), or may be executed by a combination of hardware and software. The above hardware or software may be referred to as "data block", "module", "engine", "unit", "component" or "system". Additionally, aspects of this specification may be represented by a computer product including computer-readable program code located on one or more computer-readable media.

计算机存储介质可能包含一个内含有计算机程序编码的传播数据信号，例如在基带上或作为载波的一部分。该传播信号可能有多种表现形式，包括电磁形式、光形式等，或合适的组合形式。计算机存储介质可以是除计算机可读存储介质之外的任何计算机可读介质，该介质可以通过连接至一个指令执行系统、装置或设备以实现通讯、传播或传输供使用的程序。位于计算机存储介质上的程序编码可以通过任何合适的介质进行传播，包括无线电、电缆、光纤电缆、RF、或类似介质，或任何上述介质的组合。Computer storage media may contain a propagated data signal embodying the computer program code, such as at baseband or as part of a carrier wave. The propagated signal may have multiple manifestations, including electromagnetic form, optical form, etc., or a suitable combination. Computer storage media may be any computer-readable media other than computer-readable storage media that enables communication, propagation, or transfer of a program for use in connection with an instruction execution system, apparatus, or device. Program code located on a computer storage medium may be transmitted via any suitable medium, including radio, electrical cable, fiber optic cable, RF, or similar media, or a combination of any of the foregoing.

本说明书各部分操作所需的计算机程序编码可以用任意一种或多种程序语言编写，包括面向对象编程语言如Java、Scala、Smalltalk、Eiffel、JADE、Emerald、C++、C#、VB.NET、Python等，常规程序化编程语言如C语言、Visual Basic、Fortran 2003、Perl、COBOL 2002、PHP、ABAP，动态编程语言如Python、Ruby和Groovy，或其他编程语言等。该程序编码可以完全在用户计算机上运行、或作为独立的软件包在用户计算机上运行、或部分在用户计算机上运行部分在远程计算机运行、或完全在远程计算机或服务器上运行。在后种情况下，远程计算机可以通过任何网络形式与用户计算机连接，比如局域网(LAN)或广域网(WAN)，或连接至外部计算机(例如通过因特网)，或在云计算环境中，或作为服务使用如软件即服务(SaaS)。The computer program coding required to operate each part of this manual can be written in any one or more programming languages, including object-oriented programming languages such as Java, Scala, Smalltalk, Eiffel, JADE, Emerald, C++, C#, VB.NET, Python etc., conventional procedural programming languages such as C language, Visual Basic, Fortran 2003, Perl, COBOL 2002, PHP, ABAP, dynamic programming languages such as Python, Ruby and Groovy, or other programming languages. The program code may run entirely on the user's computer, as a stand-alone software package, or partially on the user's computer and partially on a remote computer, or entirely on the remote computer or server. In the latter case, the remote computer can be connected to the user computer via any form of network, such as a local area network (LAN) or a wide area network (WAN), or to an external computer (e.g. via the Internet), or in a cloud computing environment, or as a service Use software as a service (SaaS).

此外，除非权利要求中明确说明，本说明书所述处理元素和序列的顺序、数字字母的使用、或其他名称的使用，并非用于限定本说明书流程和方法的顺序。尽管上述披露中通过各种示例讨论了一些目前认为有用的发明实施例，但应当理解的是，该类细节仅起到说明的目的，附加的权利要求并不仅限于披露的实施例，相反，权利要求旨在覆盖所有符合本说明书实施例实质和范围的修正和等价组合。例如，虽然以上所描述的系统组件可以通过硬件设备实现，但是也可以只通过软件的解决方案得以实现，如在现有的服务器或移动设备上安装所描述的系统。In addition, unless explicitly stated in the claims, the order of the processing elements and sequences, the use of numbers and letters, or the use of other names in this specification are not intended to limit the order of the processes and methods in this specification. Although the foregoing disclosure discusses by various examples some embodiments of the invention that are presently considered useful, it is to be understood that such details are for purposes of illustration only and that the appended claims are not limited to the disclosed embodiments. To the contrary, rights The claims are intended to cover all modifications and equivalent combinations consistent with the spirit and scope of the embodiments of this specification. For example, although the system components described above can be implemented through hardware devices, they can also be implemented through software-only solutions, such as installing the described system on an existing server or mobile device.

同理，应当注意的是，为了简化本说明书披露的表述，从而帮助对一个或多个发明实施例的理解，前文对本说明书实施例的描述中，有时会将多种特征归并至一个实施例、附图或对其的描述中。但是，这种披露方法并不意味着本说明书对象所需要的特征比权利要求中提及的特征多。实际上，实施例的特征要少于上述披露的单个实施例的全部特征。Similarly, it should be noted that, in order to simplify the expression disclosed in this specification and thereby help understand one or more embodiments of the invention, in the previous description of the embodiments of this specification, multiple features are sometimes combined into one embodiment. accompanying drawings or descriptions thereof. However, this method of disclosure does not imply that the subject matter of the description requires more features than are mentioned in the claims. In fact, embodiments may have less than all features of a single disclosed embodiment.

一些实施例中使用了描述成分、属性数量的数字，应当理解的是，此类用于实施例描述的数字，在一些示例中使用了修饰词“大约”、“近似”或“大体上”来修饰。除非另外说明，“大约”、“近似”或“大体上”表明所述数字允许有±20％的变化。相应地，在一些实施例中，说明书和权利要求中使用的数值参数均为近似值，该近似值根据个别实施例所需特点可以发生改变。在一些实施例中，数值参数应考虑规定的有效数位并采用一般位数保留的方法。尽管本说明书一些实施例中用于确认其范围广度的数值域和参数为近似值，在具体实施例中，此类数值的设定在可行范围内尽可能精确。In some embodiments, numbers are used to describe the quantities of components and properties. It should be understood that such numbers used to describe the embodiments are modified by the modifiers "about", "approximately" or "substantially" in some examples. Grooming. Unless otherwise stated, "about," "approximately," or "substantially" means that the stated number is allowed to vary by ±20%. Accordingly, in some embodiments, the numerical parameters used in the specification and claims are approximations that may vary depending on the desired features of the individual embodiment. In some embodiments, numerical parameters should account for the specified number of significant digits and use general digit preservation methods. Although the numerical ranges and parameters used to identify the breadth of ranges in some embodiments of this specification are approximations, in specific embodiments, such numerical values are set as accurately as is feasible.

针对本说明书引用的每个专利、专利申请、专利申请公开物和其他材料，如文章、书籍、说明书、出版物、文档等，特此将其全部内容并入本说明书作为参考。与本说明书内容不一致或产生冲突的申请历史文件除外，对本说明书权利要求最广范围有限制的文件(当前或之后附加于本说明书中的)也除外。需要说明的是，如果本说明书附属材料中的描述、定义、和/或术语的使用与本说明书所述内容有不一致或冲突的地方，以本说明书的描述、定义和/或术语的使用为准。Each patent, patent application, patent application publication and other material, such as articles, books, instructions, publications, documents, etc. cited in this specification is hereby incorporated by reference into this specification in its entirety. Application history documents that are inconsistent with or conflict with the content of this specification are excluded, as are documents (currently or later appended to this specification) that limit the broadest scope of the claims in this specification. It should be noted that if there is any inconsistency or conflict between the descriptions, definitions, and/or the use of terms in the accompanying materials of this manual and the content described in this manual, the descriptions, definitions, and/or the use of terms in this manual shall prevail. .

最后，应当理解的是，本说明书中所述实施例仅用以说明本说明书实施例的原则。其他的变形也可能属于本说明书的范围。因此，作为示例而非限制，本说明书实施例的替代配置可视为与 本说明书的教导一致。相应地，本说明书的实施例不仅限于本说明书明确介绍和描述的实施例。Finally, it should be understood that the embodiments described in this specification are only used to illustrate the principles of the embodiments of this specification. Other variations may also fall within the scope of this specification. Accordingly, by way of example and not limitation, alternative configurations of the embodiments of this specification may be considered consistent with the teachings of this specification. Accordingly, the embodiments of this specification are not limited to those expressly introduced and described in this specification.

Claims (34)

Translated fromChinese

一种烹饪装置，其特征在于，所述烹饪装置包括：A cooking device, characterized in that the cooking device includes:储液箱；liquid storage tank;制冷组件，对所述储液箱中的液体进行制冷；A refrigeration component to refrigerate the liquid in the liquid storage tank;加热组件，对所述储液箱中的液体进行加热；A heating component to heat the liquid in the liquid storage tank;所述制冷组件和所述加热组件之间具有共用元件。There are common elements between the refrigeration component and the heating component.根据权利要求1所述的烹饪装置，其特征在于，所述制冷组件包括制冷管路，所述加热组件包括加热管路；所述制冷管路和所述加热管路用于将所述储液箱中的液体引出所述储液箱，并在所述液体制冷和加热后送回储液箱。The cooking device according to claim 1, wherein the refrigeration component includes a refrigeration pipeline, and the heating component includes a heating pipeline; the refrigeration pipeline and the heating pipeline are used to store the liquid. The liquid in the tank is led out of the liquid storage tank and returned to the liquid storage tank after the liquid is cooled and heated.根据权利要求2所述的烹饪装置，其特征在于，所述制冷管路与所述加热管路之间具有共用管路；所述共用元件至少包括所述共用管路。The cooking device according to claim 2, characterized in that there is a common pipeline between the refrigeration pipeline and the heating pipeline; the common component at least includes the common pipeline.根据权利要求3所述的烹饪装置，其特征在于，所述共用元件还包括与所述共用管路连通的热量导体；所述热量导体上设有通槽，所述通槽形成所述共用管路的至少部分。The cooking device according to claim 3, wherein the common component further includes a heat conductor connected to the common pipe; the heat conductor is provided with a through groove, and the through groove forms the common pipe. At least part of the road.根据权利要求4所述的烹饪装置，其特征在于，所述热量导体的一端与所述共用管路连通，另一端与所述储液箱的进液口连通。The cooking device according to claim 4, wherein one end of the heat conductor is connected to the common pipeline, and the other end is connected to the liquid inlet of the liquid storage tank.根据权利要求2所述的烹饪装置，其特征在于，所述共用元件包括泵体，所述泵体用于驱动所述制冷管路和所述加热管路中的液体流动。The cooking device according to claim 2, characterized in that the common element includes a pump body, the pump body is used to drive the flow of liquid in the refrigeration pipeline and the heating pipeline.根据权利要求6所述的烹饪装置，其特征在于，所述制冷管路和所述加热管路之间具有共用管路，所述泵体与所述共用管路连通。The cooking device according to claim 6, characterized in that there is a common pipeline between the refrigeration pipeline and the heating pipeline, and the pump body is connected to the common pipeline.根据权利要求4所述的烹饪装置，其特征在于，所述共用管路包括泵进液管和泵出液管；所述泵进液管与所述储液箱的出液口连通，所述泵出液管与所述储液箱的进液口连通。The cooking device according to claim 4, wherein the common pipeline includes a pump liquid inlet pipe and a pump liquid outlet pipe; the pump liquid inlet pipe is connected to the liquid outlet of the liquid storage tank, and the The pump liquid outlet pipe is connected with the liquid inlet of the liquid storage tank.根据权利要求8所述的烹饪装置，其特征在于，所述泵出液管与所述热量导体的一端连接，所述热量导体的另一端与所述储液箱的进液口连通。The cooking device according to claim 8, wherein the pump liquid pipe is connected to one end of the heat conductor, and the other end of the heat conductor is connected to the liquid inlet of the liquid storage tank.根据权利要求4所述的烹饪装置，其特征在于，所述热量导体的形状包括立方体状或柱状。The cooking device according to claim 4, wherein the shape of the heat conductor includes a cube shape or a column shape.根据权利要求4所述的烹饪装置，所述通槽在所述热量导体内呈蛇形或螺旋形分布。The cooking device according to claim 4, wherein the through grooves are distributed in a serpentine or spiral shape within the heat conductor.根据权利要求4所述的烹饪装置，其特征在于，所述通槽的入口和出口设置在所述热量导体的两侧。The cooking device according to claim 4, characterized in that the inlet and outlet of the through slot are arranged on both sides of the heat conductor.根据权利要求4所述的烹饪装置，其特征在于，所述热量导体包括第一表面和第二表面；所述第一表面设有加热元件，所述第二表面设有制冷元件。The cooking device according to claim 4, wherein the heat conductor includes a first surface and a second surface; the first surface is provided with a heating element, and the second surface is provided with a cooling element.根据权利要求13所述的烹饪装置，其特征在于，所述加热元件包括发热片，所述发热片贴附在所述第一表面上。The cooking device according to claim 13, wherein the heating element includes a heating sheet attached to the first surface.根据权利要求13所述的烹饪装置，其特征在于，所述制冷元件包括制冷片、散热片以及风扇；所述制冷片贴附在所述第二表面上，所述散热片贴附在所述制冷片的外侧，所述风扇设置在所述散热片的外侧。The cooking device according to claim 13, wherein the refrigeration element includes a refrigeration fin, a heat sink and a fan; the refrigeration fin is attached to the second surface, and the heat sink is attached to the second surface. The fan is arranged outside the cooling fin.根据权利要求13所述的烹饪装置，其特征在于，所述第一表面朝向所述储液箱，所述第二表面背离所述储液箱。The cooking device of claim 13, wherein the first surface faces the liquid storage tank and the second surface faces away from the liquid storage tank.根据权利要求2所述的烹饪装置，其特征在于，所述烹饪装置还包括设置在所述储液箱内 的进液管和出液管；所述进液管与所述储液箱的进液口连通，所述出液管与所述储液箱的出液口连通。The cooking device according to claim 2, characterized in that the cooking device further includes a liquid inlet pipe and a liquid outlet pipe arranged in the liquid storage tank; the liquid inlet pipe and the inlet of the liquid storage tank The liquid port is connected, and the liquid outlet pipe is connected with the liquid outlet of the liquid storage tank.根据权利要求17所述的烹饪装置，其特征在于，所述进液管和/或所述出液管的末端设置在所述储液箱的最小液位线之下。The cooking device according to claim 17, wherein the ends of the liquid inlet pipe and/or the liquid outlet pipe are arranged below the minimum liquid level line of the liquid storage tank.根据权利要求2所述的烹饪装置，其特征在于，所述储液箱的进液口和/或出液口设置在所述储液箱的最大液位线之上。The cooking device according to claim 2, wherein the liquid inlet and/or the liquid outlet of the liquid storage tank are arranged above the maximum liquid level line of the liquid storage tank.根据权利要求1所述的烹饪装置，其特征在于，所述烹饪装置还包括主机，所述制冷组件与所述加热组件设置在所述主机上。The cooking device according to claim 1, wherein the cooking device further includes a main machine, and the refrigeration component and the heating component are provided on the main machine.根据权利要求1所述的烹饪装置，其特征在于，所述烹饪装置还包括控制组件，用于控制所述制冷组件和/或所述加热组件对所述储液箱中的液体进行加热或制冷。The cooking device according to claim 1, further comprising a control component for controlling the refrigeration component and/or the heating component to heat or cool the liquid in the liquid storage tank. .根据权利要求21所述的烹饪装置，其特征在于，所述烹饪装置还包括设置在所述储液箱中的温度传感器，用于检测所述储液箱中液体的温度；所述控制组件根据所述温度传感器的检测结果控制所述制冷组件和所述加热组件。The cooking device according to claim 21, characterized in that the cooking device further includes a temperature sensor disposed in the liquid storage tank for detecting the temperature of the liquid in the liquid storage tank; the control component is based on The detection result of the temperature sensor controls the refrigeration component and the heating component.一种管路组件，其特征在于，包括共用管路和热量导体；A pipeline assembly, characterized by including a common pipeline and a heat conductor;所述热量导体与所述共用管路连通，且所述热量导体的内部设有通槽，所述通槽形成所述共用管路的至少部分；The heat conductor is connected to the common pipeline, and a through groove is provided inside the heat conductor, and the through groove forms at least part of the common pipeline;所述热量导体的外表面设有加热元件和/或制冷元件。The outer surface of the heat conductor is provided with heating elements and/or cooling elements.根据权利要求23所述的管路组件，其特征在于，所述管路组件包括泵体，所述泵体用于驱动所述共用管路中的液体流动。The pipeline assembly according to claim 23, characterized in that the pipeline assembly includes a pump body, and the pump body is used to drive the liquid flow in the common pipeline.根据权利要求24所述的管路组件，其特征在于，所述共用管路包括泵进液管和泵出液管，所述泵进液管和泵出液管分别与所述泵体的入口和出口连接。The pipeline assembly according to claim 24, characterized in that the common pipeline includes a pump inlet pipe and a pump outlet pipe, and the pump inlet pipe and the pump outlet pipe are respectively connected to the inlet of the pump body. and outlet connection.根据权利要求23所述的管路组件，其特征在于，所述热量导体包括第一表面和第二表面；所述第一表面上设有加热元件，所述第二表面上设有制冷元件。The pipeline assembly according to claim 23, wherein the heat conductor includes a first surface and a second surface; a heating element is provided on the first surface, and a cooling element is provided on the second surface.根据权利要求26所述的管路组件，其特征在于，所述加热元件包括发热片，所述发热片贴附在所述第一表面上；所述制冷元件包括制冷片、散热片以及风扇；所述制冷片贴附在所述第二表面上，所述散热片贴附在所述制冷片的外侧，所述风扇设置在所述散热片的外侧。The pipeline assembly according to claim 26, wherein the heating element includes a heating plate attached to the first surface; the cooling element includes a cooling plate, a heat sink and a fan; The refrigeration fin is attached to the second surface, the heat sink is attached to the outside of the refrigeration fin, and the fan is arranged on the outside of the heat sink.一种烹饪装置，其特征在于，所述烹饪装置包括储液箱、循环管路、加热装置以及制冷装置；所述循环管路的两端均与所述储液箱连通，所述加热装置用于对所述循环管路中的液体进行加热，所述制冷装置用于对所述循环管路中的液体进行制冷；A cooking device, characterized in that the cooking device includes a liquid storage tank, a circulation pipeline, a heating device and a refrigeration device; both ends of the circulation pipeline are connected to the liquid storage tank, and the heating device is To heat the liquid in the circulation pipeline, the refrigeration device is used to refrigerate the liquid in the circulation pipeline;所述烹饪装置具有预约模式和烹饪模式；The cooking device has a reservation mode and a cooking mode;当所述烹饪装置处于预约模式时，制冷装置通过循环管路对所述储液箱中的液体进行制冷；When the cooking device is in the reservation mode, the refrigeration device refrigerates the liquid in the liquid storage tank through the circulation pipeline;当所述烹饪装置处于烹饪模式时，加热装置通过所述循环管路对所述储液箱中的液体进行加热。When the cooking device is in the cooking mode, the heating device heats the liquid in the liquid storage tank through the circulation pipeline.根据权利要求28所述的烹饪装置，其特征在于，所述烹饪装置的预约模式和烹饪模式通过所述烹饪装置的交互界面设置；当预先设置的预约模式达到预设时间时，所述烹饪装置从所述预约模式切换至所述烹饪模式。The cooking device according to claim 28, wherein the reservation mode and cooking mode of the cooking device are set through an interactive interface of the cooking device; when the preset reservation mode reaches a preset time, the cooking device Switch from the reservation mode to the cooking mode.根据权利要求28所述的烹饪装置，其特征在于，所述循环管路包括设置在热量导体内部的通槽，所述通槽的一端与所述储液箱的出液口连通，所述通道的另一端与所述储液箱的进液口连通。The cooking device according to claim 28, wherein the circulation pipeline includes a through groove provided inside the heat conductor, one end of the through groove is connected to the liquid outlet of the liquid storage tank, and the channel The other end is connected with the liquid inlet of the liquid storage tank.根据权利要求30所述的烹饪装置，其特征在于，所述热量导体包括第一表面和第二表面； 所述加热装置包括设置在所述第一表面上的加热元件，所述制冷装置包括设置在所述第二表面上的制冷元件。The cooking device according to claim 30, wherein the heat conductor includes a first surface and a second surface; the heating device includes a heating element disposed on the first surface, and the refrigeration device includes a heating element disposed on the first surface. A refrigeration element on said second surface.根据权利要求31所述的烹饪装置，其特征在于，所述加热元件包括发热片，所述发热片贴附在所述第一表面上。The cooking device according to claim 31, wherein the heating element includes a heating sheet attached to the first surface.根据权利要求31所述的烹饪装置，其特征在于，所述制冷元件包括制冷片、散热片以及风扇；所述制冷片贴附在所述第二表面上，所述散热片贴附在所述制冷片的外侧，所述风扇设置在所述散热片的外侧。The cooking device according to claim 31, wherein the refrigeration element includes a refrigeration fin, a heat sink and a fan; the refrigeration fin is attached to the second surface, and the heat sink is attached to the second surface. The fan is arranged outside the cooling fin.根据权利要求28所述的烹饪装置，其特征在于，所述循环管路、加热装置以及制冷装置，设置在所述储液箱的外侧。The cooking device according to claim 28, characterized in that the circulation pipeline, heating device and refrigeration device are arranged outside the liquid storage tank.

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