CN113819538B

Movatterモバイル変換

Info

Publication number: CN113819538B
Application number: CN202111028652.2A
Authority: CN
Inventors: 胡志刚; 耿宝寒; 朱百发; 孙帅辉
Original assignee: Qingdao Haier Air Conditioner Gen Corp Ltd; Qingdao Haier Air Conditioning Electric Co Ltd; Haier Smart Home Co Ltd
Current assignee: Qingdao Haier Air Conditioner Gen Corp Ltd; Qingdao Haier Air Conditioning Electric Co Ltd; Haier Smart Home Co Ltd
Priority date: 2021-09-02
Filing date: 2021-09-02
Publication date: 2022-09-06
Anticipated expiration: 2041-09-02
Also published as: CN113819538A; WO2023029609A9; WO2023029609A1

Abstract

The application relates to the technical field of intelligent household appliances and discloses a method for treating residual water of a dehumidifying device. The dehumidifying apparatus water tank shelf is provided with a moisture absorption module in which a heating member is provided, and the method for treating residual water of a dehumidifying apparatus includes: obtaining the current module humidity of the moisture absorption module; in the process of controlling the heating component to heat, obtaining the current environment humidity; and under the condition that the current module humidity is less than or equal to the current environment humidity or the current module humidity is less than or equal to the first set humidity, the heating component is turned off. By adopting the method for treating the residual water of the dehumidifying device, the residual time of the water in the moisture absorption module can be reduced, the possibility of generating peculiar smell is reduced, and the use experience of a user is improved. The application also discloses a device and an intelligent dehumidifier for treating the residual water of the dehumidifying device.

Description

Translated fromChinese

用于处理除湿装置的残留水的方法、装置和智能除湿机Method, device and intelligent dehumidifier for treating residual water of dehumidifier

技术领域technical field

本申请涉及智能家电技术领域，例如涉及一种用于处理装置的残留水的方法、装置和智能除湿机。The present application relates to the technical field of smart home appliances, for example, to a method, a device and an intelligent dehumidifier for treating residual water in a device.

背景技术Background technique

目前，除湿机通常包括冷却模块和水箱，冷却模块下设置接水盘，在接水盘的对应与水箱的位置开设有排水口，该排水口通常是缺口式的，空气经过冷却模块后，空气中水分在冷却模块上冷凝，冷凝水被接水盘收集，接水盘冷凝水的水位上升到排水口，经过排水口流入水箱。在需要更换水箱或清洁水箱的情况下，可将水箱自水箱搁板上取下，此时除湿机进入保护模式：冷却模块停止工作。在移除水箱后，冷却模块上的冷凝水会继续向接水盘滴落，导致接水盘的排水口仍有少量的水流出，滴落多到水箱搁板或地上，降低用户的使用体验。At present, dehumidifiers usually include a cooling module and a water tank. A water receiving tray is set under the cooling module, and a drainage port is opened at the position corresponding to the water tank. The drainage port is usually notched. After the air passes through the cooling module, the air The middle water is condensed on the cooling module, the condensed water is collected by the water receiving tray, the water level of the condensed water in the water receiving tray rises to the drain port, and flows into the water tank through the drain port. When the water tank needs to be replaced or cleaned, the water tank can be removed from the water tank shelf, at this time the dehumidifier enters the protection mode: the cooling module stops working. After the water tank is removed, the condensed water on the cooling module will continue to drip to the water receiving tray, resulting in a small amount of water still flowing out of the drain port of the water receiving tray, and more dripping onto the water tank shelf or the ground, reducing the user experience. .

为此，可在接水盘的排水口处设置吸湿模块，吸收自接水盘的排水口溢出的残留水，减少滴落到水箱搁板或地上的残留水，提高用户的使用体验。To this end, a moisture absorption module can be installed at the drain outlet of the water receiving tray to absorb the residual water overflowing from the drain outlet of the water receiving tray, reduce the residual water dripping onto the water tank shelf or the ground, and improve the user experience.

在实现本公开实施例的过程中，发现相关技术中至少存在如下问题：In the process of implementing the embodiments of the present disclosure, it is found that at least the following problems exist in the related art:

水分在吸湿模块中长期残留后，将会产生异味，降低用户的使用体验。After the moisture remains in the moisture absorption module for a long time, it will produce peculiar smell and reduce the user's experience.

发明内容SUMMARY OF THE INVENTION

为了对披露的实施例的一些方面有基本的理解，下面给出了简单的概括。所述概括不是泛泛评述，也不是要确定关键/重要组成元素或描绘这些实施例的保护范围，而是作为后面的详细说明的序言。In order to provide a basic understanding of some aspects of the disclosed embodiments, a brief summary is given below. This summary is not intended to be an extensive review, nor to identify key/critical elements or delineate the scope of protection of these embodiments, but rather serves as a prelude to the detailed description that follows.

本公开实施例提供了一种用于处理除湿装置的残留水的方法、装置和智能除湿机，以解决长期残留在吸湿模块中的水分容易产生异味的技术问题。Embodiments of the present disclosure provide a method, a device, and an intelligent dehumidifier for treating residual water in a dehumidification device, so as to solve the technical problem that the moisture remaining in the moisture absorption module for a long time is prone to produce peculiar smell.

在一些实施例中，除湿装置的水箱搁板的设置吸湿模块，所述吸湿模块中设置加热部件，用于处理除湿装置的残留水的方法包括：获得所述吸湿模块的当前模块湿度；在控制所述加热部件进行加热的过程中，获得当前环境湿度；在所述当前模块湿度小于或等于所述当前环境湿度的情况下，或者，在所述当前模块湿度小于或等于第一设定湿度的情况下，关闭所述加热部件。In some embodiments, a moisture absorption module is set on the water tank shelf of the dehumidification device, and a heating component is set in the moisture absorption module, and the method for processing the residual water of the dehumidification device includes: obtaining the current module humidity of the moisture absorption module; During the heating process of the heating component, the current ambient humidity is obtained; in the case that the current module humidity is less than or equal to the current ambient humidity, or, when the current module humidity is less than or equal to the first set humidity In this case, the heating element is turned off.

可选地，控制所述加热部件进行加热的过程，包括：在所述当前模块湿度大于所述当前环境湿度，且控制所述加热部件进行加热以使所述当前模块湿度小于或等于当前环境湿度的情况下，根据环境湿度与模块湿度的对应关系，确定与所述当前环境湿度对应的预设模块湿度；其中，所述预设模块湿度与所述当前环境湿度正相关；如果所述当前模块湿度大于所述预设模块湿度，则降低所述加热部件的加热功率；如果所述当前模块湿度大于所述预设模块湿度，则提高所述加热部件的加热功率。Optionally, the process of controlling the heating component to perform heating includes: when the current module humidity is greater than the current ambient humidity, and controlling the heating component to perform heating so that the current module humidity is less than or equal to the current ambient humidity In the case of , the preset module humidity corresponding to the current ambient humidity is determined according to the corresponding relationship between the ambient humidity and the module humidity; wherein, the preset module humidity is positively correlated with the current ambient humidity; if the current module humidity If the humidity is greater than the preset module humidity, the heating power of the heating component is reduced; if the current module humidity is greater than the preset module humidity, the heating power of the heating component is increased.

可选地，根据环境湿度与模块湿度的对应关系，确定与所述当前环境湿度对应的预设模块湿度，包括：根据环境湿度与模块湿度-时间曲线的对应关系，确定与当前环境湿度相对应的当前模块湿度-时间曲线；获得自移除所述水箱至当前时刻的当前时长；根据所述当前模块湿度-时间曲线，确定与所述当前时长对应的所述预设模块湿度。Optionally, determining the preset module humidity corresponding to the current environmental humidity according to the corresponding relationship between the ambient humidity and the module humidity includes: determining the preset module humidity corresponding to the current environmental humidity according to the corresponding relationship between the environmental humidity and the module humidity-time curve The current module humidity-time curve is obtained; the current duration from the removal of the water tank to the current moment is obtained; the preset module humidity corresponding to the current duration is determined according to the current module humidity-time curve.

可选地，所述环境湿度与所述模块湿度-时间曲线的对应关系是通过如下方式确定的：在每个环境湿度下，获得与每个环境湿度对应的冷凝水流量-时间曲线；根据冷凝水流量与模块湿度的对应关系，确定与每个冷凝水流量-时间曲线对应的模块湿度-时间曲线；其中，所述冷凝水流量与所述模块湿度正相关。Optionally, the corresponding relationship between the ambient humidity and the module humidity-time curve is determined in the following manner: under each ambient humidity, obtain a condensed water flow-time curve corresponding to each ambient humidity; The corresponding relationship between the water flow rate and the module humidity determines the module humidity-time curve corresponding to each condensate water flow rate-time curve; wherein the condensate water flow rate is positively correlated with the module humidity.

可选地，降低所述加热部件的加热功率，包括：降低所述加热部件持续加热的持续加热功率；或者，降低所述加热部件的加热时长与断电时长的比值。Optionally, reducing the heating power of the heating component includes: reducing the continuous heating power of the heating component for continuous heating; or, reducing the ratio of the heating duration to the power-off duration of the heating component.

可选地，提高所述加热部件的加热功率，包括：提高所述加热部件持续加热的持续加热功率；或者，提高所述加热部件的加热时长与断电时长的比值。Optionally, increasing the heating power of the heating component includes: increasing the continuous heating power of the heating component for continuous heating; or, increasing the ratio of the heating duration to the power-off duration of the heating component.

可选地，在所述当前模块湿度小于或等于所述当前环境湿度的情况下，或者，在所述当前模块湿度小于或等于第一设定湿度的情况下，关闭所述加热部件，包括：如果所述当前环境湿度大于或等于所述第一设定湿度，则在所述当前模块湿度小于或等于所述当前环境湿度的情况下，关闭所述加热部件；如果所述当前环境湿度小于或等于所述第一设定湿度，则在所述当前模块湿度小于或等于所述第一设定湿度的情况下，关闭所述加热部件。Optionally, when the current module humidity is less than or equal to the current ambient humidity, or, when the current module humidity is less than or equal to a first set humidity, turning off the heating component includes: If the current ambient humidity is greater than or equal to the first set humidity, the heating component is turned off when the current module humidity is less than or equal to the current ambient humidity; if the current ambient humidity is less than or equal to the current ambient humidity If the humidity is equal to the first set humidity, when the current module humidity is less than or equal to the first set humidity, the heating component is turned off.

可选地，控制所述加热部件进行加热，包括：在所述当前模块湿度大于或等于第二设定湿度的情况下，控制所述加热部件进行加热；其中，所述第二设定湿度大于所述第一设定湿度和所述当前环境湿度。Optionally, controlling the heating component to perform heating includes: when the current module humidity is greater than or equal to a second set humidity, controlling the heating component to perform heating; wherein the second set humidity is greater than or equal to the first set humidity and the current ambient humidity.

在一些实施例中，除湿装置的水箱搁板的设置吸湿模块，所述吸湿模块中设置湿度传感器和加热部件，用于处理除湿装置的残留水的装置包括第一获得模块、第二获得模块和控制模块；所述第一获得模块被配置为在移除所述水箱后，获得所述吸湿模块的当前模块湿度；所述第二获得模块被配置为在控制所述加热部件进行加热的过程中，获得当前环境湿度；所述控制模块被配置为在所述当前模块湿度小于或等于所述当前环境湿度的情况下，或者，在所述当前模块湿度小于或等于第一设定湿度的情况下，关闭所述加热部件。In some embodiments, a moisture absorption module is provided on the water tank shelf of the dehumidification device, a humidity sensor and a heating component are arranged in the moisture absorption module, and the device for processing the residual water of the dehumidification device includes a first obtaining module, a second obtaining module, and a control module; the first obtaining module is configured to obtain the current module humidity of the moisture absorption module after the water tank is removed; the second obtaining module is configured to control the heating component to perform heating in the process , to obtain the current ambient humidity; the control module is configured to, when the current module humidity is less than or equal to the current ambient humidity, or, when the current module humidity is less than or equal to the first set humidity , turn off the heating element.

在一些实施例中，用于处理除湿装置的残留水的装置，包括处理器和存储有程序指令的存储器，所述处理器被配置为在执行所述程序指令时，执行前述实施例提供的用于处理除湿装置的残留水的方法。In some embodiments, a device for treating residual water in a dehumidification device includes a processor and a memory storing program instructions, the processor is configured to, when executing the program instructions, execute the functions provided in the preceding embodiments. A method for treating residual water in a dehumidifier.

在一些实施例中，智能除湿机包括：In some embodiments, the smart dehumidifier includes:

水箱搁板；water tank shelf;

水箱，活动设置在所述水箱搁板上；a water tank, which is movably arranged on the shelf of the water tank;

吸湿模块，设置于所述水箱搁板，所述吸湿模块包括加热部件；a moisture absorption module, which is arranged on the water tank shelf, and the moisture absorption module includes a heating component;

前述实施例提供的用于处理除湿装置的残留水的装置，用于对所述加热部件进行控制。The device for treating the residual water of the dehumidifying device provided in the foregoing embodiments is used to control the heating component.

本公开实施例提供的用于处理除湿装置的残留水的方法、装置和智能除湿机，可以实现以下技术效果：The method, device and intelligent dehumidifier for treating residual water in a dehumidification device provided by the embodiments of the present disclosure can achieve the following technical effects:

在移除水箱后，吸湿模块吸收除湿装置的残留水，之后控制吸湿模块中的加热部件进行加热，使吸湿模块中的水分蒸发，直至吸湿模块中的湿度降低至当前环境湿度以下或第一设定湿度以下，实现对吸湿模块的干燥，减少了水分在吸湿模块中的残留时长，降低产生异味的可能性，提高用户的使用体验。After the water tank is removed, the moisture absorption module absorbs the residual water of the dehumidification device, and then controls the heating component in the moisture absorption module to heat, so that the moisture in the moisture absorption module evaporates, until the humidity in the moisture absorption module drops below the current ambient humidity or the first setting Below the constant humidity, the drying of the moisture absorption module is realized, the residual time of moisture in the moisture absorption module is reduced, the possibility of peculiar smell is reduced, and the user experience is improved.

以上的总体描述和下文中的描述仅是示例性和解释性的，不用于限制本申请。The foregoing general description and the following description are exemplary and explanatory only and are not intended to limit the application.

附图说明Description of drawings

一个或一个以上实施例通过与之对应的附图进行示例性说明，这些示例性说明和附图并不构成对实施例的限定，附图中具有相同参考数字标号的元件视为类似的元件，并且其中：One or more embodiments are exemplified by the accompanying drawings, which do not constitute a limitation on the embodiments, and elements with the same reference numerals in the drawings are regarded as similar elements, and where:

图1是本公开实施例提供的一种除湿装置的示意图；1 is a schematic diagram of a dehumidification device provided by an embodiment of the present disclosure;

图2是本公开实施例提供的一种用于处理除湿装置的残留水的方法的示意图；2 is a schematic diagram of a method for treating residual water in a dehumidification device provided by an embodiment of the present disclosure;

图3是本公开实施例提供的一种用于处理除湿装置的残留水的方法的示意图；3 is a schematic diagram of a method for treating residual water in a dehumidification device provided by an embodiment of the present disclosure;

图4是本公开实施例提供的一种用于处理除湿装置的残留水的装置的示意图；4 is a schematic diagram of a device for treating residual water in a dehumidification device provided by an embodiment of the present disclosure;

图5是本公开实施例提供的一种用于处理除湿装置的残留水的装置的示意图；5 is a schematic diagram of a device for treating residual water in a dehumidification device provided by an embodiment of the present disclosure;

图6是本公开实施例提供的一种用于处理除湿装置的残留水的装置的示意图。FIG. 6 is a schematic diagram of a device for treating residual water of a dehumidification device provided by an embodiment of the present disclosure.

具体实施方式Detailed ways

为了能够更加详尽地了解本公开实施例的特点与技术内容，下面结合附图对本公开实施例的实现进行详细阐述，所附附图仅供参考说明之用，并非用来限定本公开实施例。在以下的技术描述中，为方便解释起见，通过多个细节以提供对所披露实施例的充分理解。然而，在没有这些细节的情况下，一个或一个以上实施例仍然可以实施。在其它情况下，为简化附图，熟知的结构和装置可以简化展示。In order to understand the features and technical contents of the embodiments of the present disclosure in more detail, the implementation of the embodiments of the present disclosure will be described in detail below with reference to the accompanying drawings, which are for reference only and are not intended to limit the embodiments of the present disclosure. In the following technical description, for the convenience of explanation, numerous details are provided to provide a thorough understanding of the disclosed embodiments. However, one or more embodiments may be practiced without these details. In other instances, well-known structures and devices may be shown simplified in order to simplify the drawings.

本公开实施例的说明书和权利要求书及上述附图中的术语“第一”、“第二”等是用于区别类似的对象，而不必用于描述特定的顺序或先后次序。应该理解这样使用的数据在适当情况下可以互换，以便这里描述的本公开实施例的实施例。此外，术语“包括”和“具有”以及他们的任何变形，意图在于覆盖不排他的包含。The terms "first", "second" and the like in the description and claims of the embodiments of the present disclosure and the above-mentioned drawings are used to distinguish similar objects, and are not necessarily used to describe a specific order or sequence. It should be understood that the data so used may be interchanged under appropriate circumstances for the purposes of implementing the embodiments of the disclosure described herein. Furthermore, the terms "comprising" and "having", and any variations thereof, are intended to cover non-exclusive inclusion.

除非另有说明，术语“多个”表示两个以上。Unless stated otherwise, the term "plurality" means two or more.

本公开实施例中，字符“/”表示前后对象是一种“或”的关系。例如，A/B表示：A或B。In the embodiment of the present disclosure, the character "/" indicates that the preceding and following objects are in an "or" relationship. For example, A/B means: A or B.

术语“和/或”是一种描述对象的关联关系，表示可以存在三种关系。例如，A和/或B，表示：A或B，或，A和B这三种关系。The term "and/or" is an associative relationship describing objects, indicating that three relationships can exist. For example, A and/or B, means: A or B, or, A and B three relationships.

图1是本公开实施例提供的一种除湿装置的示意图。结合图1所示，该除湿装置包括冷却模块11、接水盘12、水箱搁板15和水箱16，接水盘12和水箱搁板15通过支持部连接，使接水盘12和水箱搁板15之间形成容置空间，水箱16活动地设置在该容置空间中。FIG. 1 is a schematic diagram of a dehumidification device provided by an embodiment of the present disclosure. 1, the dehumidification device includes acooling module 11, awater receiving tray 12, awater tank shelf 15 and awater tank 16. Thewater receiving tray 12 and thewater tank shelf 15 are connected by a support part, so that thewater receiving tray 12 and the water tank shelf are connected An accommodating space is formed between 15, and thewater tank 16 is movably arranged in the accommodating space.

接水盘上开设排水口13，水箱搁板15设置有水池，吸湿模块14设置在水池中，吸湿模块14中设置加热部件，加热部件可调节吸湿模块14的温度。The water receiving tray is provided with adrain port 13 , thewater tank shelf 15 is provided with a pool, themoisture absorption module 14 is arranged in the pool, and a heating component is arranged in themoisture absorption module 14 , and the heating component can adjust the temperature of themoisture absorption module 14 .

排水口13与吸湿模块14可相对设置。Thewater outlet 13 and themoisture absorption module 14 may be disposed opposite to each other.

该除湿装置可设置在除湿机内，或者，该除湿装置还可设置在空调内。The dehumidifying device may be arranged in a dehumidifier, or the dehumidifying device may also be arranged in an air conditioner.

图2是本公开实施例提供的一种用于处理除湿装置的残留水的方法的示意图。在除湿装置设置在除湿机内部的情况下，该用于处理除湿装置的残留水的方法可由除湿机的控制器执行，或者，由单独控制除湿装置的独立控制器执行；在除湿装置设置在空调内部的情况下，该用于处理除湿装置的残留水的方法可由空调的控制器执行，或者，由单独控制除湿装置的独立控制器执行。FIG. 2 is a schematic diagram of a method for treating residual water in a dehumidification device provided by an embodiment of the present disclosure. In the case where the dehumidifier is provided inside the dehumidifier, the method for treating the residual water of the dehumidifier may be performed by a controller of the dehumidifier, or may be performed by an independent controller that controls the dehumidifier independently; when the dehumidifier is provided in the air conditioner In the internal case, the method for treating the residual water of the dehumidification device may be executed by a controller of the air conditioner, or by an independent controller that independently controls the dehumidification device.

本公开实施例以将该用于处理除湿装置的方法应用于图1中所示的除湿装置进行示例性说明，该除湿装置的水箱搁板上设置吸湿模块，吸湿模块中设置加湿部件。结合图2所示，用于处理除湿装置的残留水的方法包括：The embodiment of the present disclosure is exemplified by applying the method for processing a dehumidification device to the dehumidification device shown in FIG. 1 , a moisture absorption module is provided on the water tank shelf of the dehumidification device, and a humidification component is provided in the moisture absorption module. With reference to Figure 2, the method for treating the residual water of the dehumidification device includes:

S201、获得吸湿模块的当前模块湿度。S201. Obtain the current module humidity of the moisture absorption module.

在需要清空水箱中积存的冷凝水或需要对水箱进行清洁时，可将水箱在除湿装置内移除。在除湿机工作过程中，移除水箱后除湿装置进入保护模式，使冷却模块，例如蒸发器，停止工作，此时除湿装置的冷却模块上的冷凝水仍继续滴落，导致除湿装置的接水盘中冷凝水通过排水口继续向水箱搁板或地面滴落。在冷凝水滴落的过程中，设置在水箱搁板上的吸湿模块与排水口相对，可吸收自接水盘的排水口滴落的水。The water tank can be removed in the dehumidifier when it is necessary to empty the condensate accumulated in the water tank or to clean the water tank. During the operation of the dehumidifier, after the water tank is removed, the dehumidifier enters the protection mode, so that the cooling module, such as the evaporator, stops working. Condensed water in the pan continues to drip onto the tank shelf or floor through the drain. During the dripping process of the condensed water, the moisture absorption module arranged on the shelf of the water tank is opposite to the drain port, and can absorb the water dripping from the drain port of the water receiving tray.

吸湿模块中设置有吸湿材料，利用吸湿材料吸收自排水口滴落的水。在吸湿模块吸收自排水口低落的水之后，吸湿模块的湿度(吸湿模块中吸湿材料的湿度)上升。A hygroscopic material is arranged in the hygroscopic module, and the hygroscopic material is used to absorb the water dripping from the water outlet. After the hygroscopic module absorbs the water falling from the water outlet, the humidity of the hygroscopic module (the humidity of the hygroscopic material in the hygroscopic module) rises.

吸湿模块可设置湿度传感器，可通过湿度传感器获得吸湿模块中吸湿材料的当前模块湿度。The moisture absorption module can be provided with a humidity sensor, and the current module humidity of the moisture absorption material in the moisture absorption module can be obtained through the humidity sensor.

S202、在控制加热部件进行加热的过程中，获得当前环境湿度。S202, in the process of controlling the heating component to heat, obtain the current ambient humidity.

可通过设置在除湿装置的进风口处的湿度传感器获得当前环境湿度，或者，通过设置在除湿装置的应用环境中的湿度传感器获得当前环境湿度。The current ambient humidity can be obtained through a humidity sensor disposed at the air inlet of the dehumidification device, or the current ambient humidity can be obtained through a humidity sensor disposed in the application environment of the dehumidification device.

在控制加热部件进行加热的过程中，吸湿模块的温度上升，吸湿模块中的水分蒸发，由吸湿材料进入空气中。这里的加热部件可以是利用电阻进行加热的部件，还可以是利用红外进行加热的部件，本公开实施例对加热部件的具体类型不做具体限定，具有加热功能的部件均属于本公开实施例中的加热部件。In the process of controlling the heating component to heat, the temperature of the moisture absorption module rises, the moisture in the moisture absorption module evaporates, and the moisture absorption material enters the air. The heating component here may be a component heated by resistance, or a component heated by infrared. The specific type of the heating component is not specifically limited in the embodiment of the present disclosure, and the components with heating function belong to the embodiment of the present disclosure. heating element.

可控制加热部件恒功率(加热部件的加热功率恒定)加热，还可控制加热部件恒温度(加热过程中吸湿模块的温度恒定)加热。The heating part can be controlled with constant power (the heating power of the heating part is constant) for heating, and the heating part can also be controlled with constant temperature (the temperature of the moisture absorption module is constant during the heating process) for heating.

或者，在当前模块湿度大于当前环境湿度，且控制加热部件进行加热以使当前模块湿度小于或等于当前环境湿度的情况下，控制加热部件进行加热的过程，可包括：根据环境湿度与模块湿度的对应关系，确定与当前环境湿度对应的预设模块湿度；其中，预设模块湿度与当前环境湿度正相关；如果当前模块湿度大于预设模块湿度，则降低加热部件的加热功率；如果当前模块湿度小于预设模块湿度，则提高加热部件的加热功率。Alternatively, when the current module humidity is greater than the current ambient humidity, and the heating component is controlled to perform heating so that the current module humidity is less than or equal to the current ambient humidity, the process of controlling the heating component to perform heating may include: according to the difference between the ambient humidity and the module humidity. Corresponding relationship, determine the preset module humidity corresponding to the current ambient humidity; wherein, the preset module humidity is positively correlated with the current ambient humidity; if the current module humidity is greater than the preset module humidity, reduce the heating power of the heating component; if the current module humidity If the humidity is lower than the preset module humidity, the heating power of the heating element will be increased.

可通过试验的方式获得环境湿度与模块湿度的对应关系，例如，在移除水箱之后，且吸湿模块的加热部件满足停止加热的条件的情况下，记录不同环境湿度下，设定时长后吸湿模块的湿度，将该吸湿模块的湿度确定为与当前环境湿度相对应的预设模块湿度，或者，可多次试验获得多个湿度，并计算出平均湿度，将该平均湿度确定为与环境湿度相对应的预设模块湿度，其中，设定时长可以是单位时长；或者，在移除水箱后，记录不同环境湿度下，设定时长后吸湿模块的湿度增加量，将湿度增加量与当前环境湿度的湿度和确定为与当前环境湿度相对应的预设模块湿度，或者，将湿度增加量与第一设定湿度的湿度和确定为与当前环境湿度相对应的预设模块湿度，或者，可相同环境湿度下，多次试验获得多个湿度增加量，并计算出多个湿度增加量的平均湿度增加量，可将平均湿度增加量与当前环境湿度的湿度和确定为与当前环境相对应的预设模块湿度，或者，将平均湿度增加量与第一设定湿度的湿度和确定为与当前环境相对应的预设模块湿度。The corresponding relationship between the ambient humidity and the module humidity can be obtained through experiments. For example, after removing the water tank and the heating part of the moisture absorption module meets the conditions for stopping heating, record the moisture absorption module under different ambient humidity and set the time period. The humidity of the hygroscopic module is determined as the preset module humidity corresponding to the current environmental humidity, or a plurality of humidity can be obtained through multiple tests, and the average humidity is calculated, and the average humidity is determined as the humidity corresponding to the environmental humidity. The corresponding preset module humidity, where the set duration can be a unit duration; or, after removing the water tank, record the humidity increase of the moisture absorption module after the set duration under different ambient humidity, and compare the humidity increase with the current ambient humidity. The humidity sum is determined as the preset module humidity corresponding to the current ambient humidity, or the humidity increase amount and the humidity sum of the first set humidity are determined as the preset module humidity corresponding to the current ambient humidity, or they can be the same Under the ambient humidity, multiple experiments are performed to obtain multiple humidity increments, and the average humidity increment of the multiple humidity increments is calculated. The module humidity is set, or, the humidity sum of the average humidity increase and the first set humidity is determined as the preset module humidity corresponding to the current environment.

环境湿度与模块湿度的对应关系可预存在数据库中，在获得当前环境湿度之后，通过查询数据库，即可获得与当前环境湿度相对应的预设模块湿度。The corresponding relationship between the ambient humidity and the module humidity can be pre-stored in the database, and after obtaining the current ambient humidity, the preset module humidity corresponding to the current ambient humidity can be obtained by querying the database.

如果当前模块湿度等于预设模块湿度，则不对加热部件的加热功率进行调整。可通过如下方式降低加热部件的加热功率：降低加热部件持续加热的持续加热功率；或者，或者，降低加热部件的加热时长与断电时长的比值；可通过如下方式提高加热部件的加热功率：提高加热部件持续加热的持续加热功率；或者，提高加热部件的加热时长与断电时长的比值。If the current module humidity is equal to the preset module humidity, the heating power of the heating element will not be adjusted. The heating power of the heating element can be reduced by the following methods: reducing the continuous heating power of the heating element for continuous heating; or, alternatively, reducing the ratio of the heating period of the heating element to the power-off period; increasing the heating power of the heating element by increasing the The continuous heating power for the continuous heating of the heating component; or, increasing the ratio of the heating time of the heating component to the power-off time.

环境湿度越高，除湿装置的冷却模块上冷凝水的量越大，在移除水箱后，自接水盘的排水口滴落的水量越大，吸湿模块吸收的水分越多，在利用加热部件对吸湿模块加热的过程中，吸湿模块一边吸收自排水口滴落的水分，一边使水分蒸发，将水分释放到空气中。在这个过程中，如果加湿部件的加热功率过高，将导致吸湿模块干燥的速度过快，即，使吸湿模块的材料湿度过快地降低至环境湿度以下，此时加热部件停止加热，吸湿模块冷却，由于接水盘中的冷凝水持续滴落，吸湿模块的材料湿度继续上升，需再次启动加热部件，这时加热部件由冷却状态再次升温，该升温过程对吸湿模块中水分的蒸发过程影响不大，导致浪费了一定的能源；如果加湿部件的加热功率过低，将导致吸湿模块无法较快了干燥，甚至在冷凝水流量过大的情况下，吸湿模块无法充分吸收自排水口滴落的冷凝水。The higher the ambient humidity is, the greater the amount of condensed water on the cooling module of the dehumidifier. After the water tank is removed, the greater the amount of water dripping from the drain port of the water-receiving pan, the more moisture the moisture absorption module absorbs. In the process of heating the moisture absorption module, the moisture absorption module absorbs the water dripping from the water outlet, and at the same time evaporates the moisture and releases the moisture into the air. During this process, if the heating power of the humidification part is too high, the drying speed of the moisture absorption module will be too fast, that is, the humidity of the material of the moisture absorption module will drop below the ambient humidity too quickly. At this time, the heating part stops heating, and the moisture absorption module Cooling, due to the continuous dripping of condensed water in the water receiving tray, the material humidity of the moisture absorption module continues to rise, and the heating part needs to be restarted. At this time, the heating part heats up again from the cooling state, and the heating process affects the evaporation process of the moisture in the moisture absorption module. If the heating power of the humidification component is too low, the moisture absorption module will not be able to dry quickly, and even when the condensate water flow is too large, the moisture absorption module cannot fully absorb the dripping from the drain of condensed water.

如果当前模块湿度大于预设模块湿度，则降低加热部件的加热功率，以降低当前模块湿度，避免过快地加热；如果当前模块湿度小于预设模块湿度，则提高加热部件的加热功率，以提高当前模块湿度，使吸湿模块充分吸收自排水口滴落的冷凝水。这样可以使当前模块湿度跟随预设模块湿度，即，使加热部件的加热功率与冷却模块上产生的冷凝水流量相对应，一方面使吸湿模块维持使水分蒸发的温度，减少吸湿模块由冷却状态升温的过程，有利于节省能源，另一方面可以使吸湿模块及时蒸发水分，及时吸收自排水口滴落的冷凝水。If the current module humidity is greater than the preset module humidity, reduce the heating power of the heating components to reduce the current module humidity and avoid overheating; if the current module humidity is lower than the preset module humidity, increase the heating power of the heating components to increase the The current module humidity, so that the moisture absorption module can fully absorb the condensed water dripping from the drain. In this way, the current module humidity can follow the preset module humidity, that is, the heating power of the heating element corresponds to the flow rate of condensed water generated on the cooling module, on the one hand, the moisture absorption module can maintain the temperature at which water evaporates, and the moisture absorption module can be reduced from the cooling state. The heating process is conducive to saving energy. On the other hand, the moisture absorption module can evaporate the water in time and absorb the condensed water dripping from the drain in time.

进一步地，根据环境湿度与模块湿度的对应关系，确定与当前环境湿度对应的预设模块湿度，可包括：根据环境湿度与模块湿度-时间曲线的对应关系，确定与当前环境湿度相对应的当前模块湿度-时间曲线；获得自移除水箱至当前时刻的当前时长；根据当前模块湿度-时间曲线，确定与当前时长对应的预设模块湿度。Further, determining the preset module humidity corresponding to the current environmental humidity according to the corresponding relationship between the environmental humidity and the module humidity may include: determining the current environmental humidity corresponding to the current environmental humidity according to the corresponding relationship between the environmental humidity and the module humidity-time curve. Module humidity-time curve; obtain the current duration from the removal of the water tank to the current moment; determine the preset module humidity corresponding to the current duration according to the current module humidity-time curve.

在移除水箱后，除湿装置停止除湿，例如除湿装置的冷却模块停止工作。在冷却模块停止工作之前，冷却模块上存在一些未滑落至接水盘的冷凝水，这些冷凝水在冷却模块停止工作后，会继续滑落至接水盘，并且环境湿度越大，在冷却模块停止工作后，由冷却模块滑落至接水盘的冷凝水越多；另外，在冷却装置停止工作之后，冷却装置的温度还是比较低，空气经过冷凝装置，空气中的水分还会继续在冷却装置上冷凝，并且，环境湿度越大，在冷却装置上冷凝的水分越多。在移除水箱，冷却模块停止工作后，环境湿度越大，由冷却模块上滑落至接水盘的冷凝水越多。After the water tank is removed, the dehumidifier stops dehumidification, eg, the cooling module of the dehumidifier stops working. Before the cooling module stops working, there is some condensed water on the cooling module that does not slide down to the water receiving tray. After the cooling module stops working, the condensed water will continue to slide down to the water receiving tray. After working, the more condensed water slides down from the cooling module to the water receiving tray; in addition, after the cooling device stops working, the temperature of the cooling device is still relatively low, the air passes through the condensing device, and the moisture in the air will continue to condense on the cooling device. , and the higher the ambient humidity, the more moisture condenses on the cooling device. After the water tank is removed and the cooling module stops working, the higher the ambient humidity, the more condensed water that slides down from the cooling module to the water tray.

在移除水箱，冷却模块停止工作后，由冷却模块上滑落至接水盘的冷凝水逐渐减少，并且，环境湿度越大，由冷却模块上滑落至接水盘的冷凝水减少的越快。After the water tank is removed and the cooling module stops working, the condensed water sliding from the cooling module to the water receiving tray gradually decreases, and the higher the ambient humidity, the faster the condensed water sliding from the cooling module to the water receiving tray decreases.

前述模块湿度-时间曲线是在移除水箱后，模块湿度随时间的变化情况。可通过试验的方式获得环境湿度与模块湿度-时间曲线的对应关系。The aforementioned module humidity-time curve is the change of module humidity with time after the water tank is removed. The corresponding relationship between ambient humidity and module humidity-time curve can be obtained through experiments.

例如，在移除水箱之后，且前一时刻吸湿模块的加热部件满足停止加热的条件的情况下，记录当前时刻吸湿模块的模块湿度，记录多组模块湿度-时刻的数据并构成模块湿度-时间曲线；或者，在移除水箱之后，记录在前一时刻至当前时刻的时间段内，吸湿模块的湿度增加量，并计算湿度增加量与当前环境湿度的湿度和，或者，计算湿度增加量与第一设定湿度的湿度和，记录多组湿度和-时刻的数据并构成模块湿度-时间曲线。当然，可在同一湿度情况下多次试验，获得模块湿度的平均湿度，将平均湿度-时刻的数据构成模块湿度-时间曲线，或者，获得湿度增加量的平均湿度增加量，并获得平均湿度增加量与当前环境湿度的湿度和，或，平均湿度增加量与第一设定湿度的湿度和，将湿度和-时刻的数据构成模块湿度-时间曲线。For example, after the water tank is removed and the heating component of the moisture absorption module at the previous moment meets the conditions for stopping heating, record the module humidity of the moisture absorption module at the current moment, record the data of multiple groups of module humidity-time and form the module humidity-time curve; or, after removing the water tank, record the humidity increase of the moisture absorption module in the time period from the previous moment to the current moment, and calculate the humidity sum of the humidity increase and the current ambient humidity, or, calculate the humidity increase and First set the humidity sum of humidity, record multiple sets of humidity sum-time data and form a module humidity-time curve. Of course, multiple tests can be performed under the same humidity condition to obtain the average humidity of the module humidity, and the average humidity-time data can be formed into a module humidity-time curve, or, the average humidity increase of the humidity increase can be obtained, and the average humidity increase can be obtained. The humidity sum of the humidity and the current ambient humidity, or, the average humidity increase and the humidity sum of the first set humidity, and the humidity sum-time data constitutes a module humidity-time curve.

当前环境湿度与模块湿度-时间曲线的对应关系可预存在数据库中，在获得当前环境湿度后，通过查询数据库，即可获得与当前环境湿度相对应的当前模块湿度-时间曲线。The corresponding relationship between the current ambient humidity and the module humidity-time curve can be pre-stored in the database. After obtaining the current ambient humidity, the current module humidity-time curve corresponding to the current ambient humidity can be obtained by querying the database.

这样可获得更加符合情况的预设模块湿度，进而调整加热部件的加热功率，使当前模块湿度跟随预设模块湿度，吸湿模块可更加及时地吸收自排水口滴落的冷凝水，并且进一步减少出现吸湿模块中水分蒸发过快的现象，有利于节省能源。In this way, a more suitable preset module humidity can be obtained, and then the heating power of the heating components can be adjusted so that the current module humidity follows the preset module humidity, and the moisture absorption module can absorb the condensed water dripping from the drain port in a more timely manner, and further reduce the occurrence of The phenomenon that the moisture in the moisture absorption module evaporates too quickly is conducive to saving energy.

可选地，环境湿度与模块湿度-时间曲线的对应关系是通过如下方式确定的：在每个环境湿度下，获得与每个环境湿度对应的冷凝水流量-时间曲线；根据冷凝水流量与模块湿度的对应关系，确定与每个冷凝水流量-时间曲线对应的模块湿度-时间曲线；其中，模块湿度与模块湿度正相关。Optionally, the corresponding relationship between the ambient humidity and the module humidity-time curve is determined in the following manner: under each ambient humidity, obtain a condensed water flow-time curve corresponding to each ambient humidity; The corresponding relationship of the humidity, determine the module humidity-time curve corresponding to each condensate water flow-time curve; wherein, the module humidity is positively correlated with the module humidity.

可通过试验的方式获得环境湿度与模块湿度-时间曲线的对应关系，例如，在不同环境湿度下，记录在移除水箱后，随时间变化的冷凝水流量，利用多组冷凝水流量-时间数据构成冷凝水流量-时间曲线。这样也可获得环境湿度与模块湿度-时间曲线的对应关系。The corresponding relationship between ambient humidity and module humidity-time curve can be obtained through experiments. For example, under different ambient humidity, record the condensate water flow rate that changes with time after removing the water tank, and use multiple sets of condensate water flow rate-time data Constitute the condensate flow-time curve. In this way, the corresponding relationship between ambient humidity and module humidity-time curve can also be obtained.

S203、在当前模块湿度小于或等于当前环境湿度的情况下，或者，在当前模块湿度小于或等于第一设定湿度的情况下，关闭加热部件。S203 , when the current module humidity is less than or equal to the current ambient humidity, or when the current module humidity is less than or equal to the first set humidity, turn off the heating component.

可选地，在当前模块湿度小于或等于当前环境湿度的情况下，或者，在当前模块湿度小于或等于第一设定湿度的情况下，关闭加热部件，包括：如果当前环境湿度大于或等于第一设定湿度，则在当前模块湿度小于或等于当前环境湿度的情况下，关闭加热部件；如果当前环境湿度小于或等于第一设定湿度，则在当前模块湿度小于或等于第一设定湿度的情况下，关闭加热部件。Optionally, when the current module humidity is less than or equal to the current ambient humidity, or, when the current module humidity is less than or equal to the first set humidity, turning off the heating component includes: if the current ambient humidity is greater than or equal to the first set humidity Once the humidity is set, when the current module humidity is less than or equal to the current ambient humidity, turn off the heating component; if the current ambient humidity is less than or equal to the first set humidity, then when the current module humidity is less than or equal to the first set humidity case, turn off the heating element.

在当前环境湿度大于或等于第一设定湿度的情况下，当前模块湿度小于或等于当前环境湿度，即为吸湿模块中加热部件停止加热的条件；在当前环境湿度小于或等于第一设定湿度的情况下，当前模块湿度小于或等于第一设定湿度，即为吸湿模块中加热部件停止加热的条件。When the current ambient humidity is greater than or equal to the first set humidity, the current module humidity is less than or equal to the current ambient humidity, which is the condition for the heating component in the moisture absorption module to stop heating; when the current ambient humidity is less than or equal to the first set humidity In the case of , the current module humidity is less than or equal to the first set humidity, which is the condition for the heating component in the moisture absorption module to stop heating.

如果当前环境湿度过低，即当前环境湿度小于或等于第一设定湿度，此时在当前模块湿度小于或等于第一设定湿度的情况下，便停止加热，有利于减少加热部件温度过高导致的对吸湿模块的损害。如果当前环境湿度过高，即当前环境湿度大于或等于第一设定湿度，此时在当前模块湿度小于或等于当前环境湿度的情况下，便停止加热，减少在当前模块湿度低于当前环境湿度后，吸湿模块对空气中水分的吸收量，可降低加热部件消耗的能量。If the current ambient humidity is too low, that is, the current ambient humidity is less than or equal to the first set humidity, at this time, when the current module humidity is less than or equal to the first set humidity, the heating will be stopped, which is beneficial to reduce the overheating of the heating components resulting damage to the absorbent module. If the current ambient humidity is too high, that is, the current ambient humidity is greater than or equal to the first set humidity, at this time, when the current module humidity is less than or equal to the current ambient humidity, the heating will be stopped, and the current module humidity will be reduced when the current module humidity is lower than the current ambient humidity. After that, the absorption of moisture in the air by the moisture absorption module can reduce the energy consumed by the heating components.

图3是本公开实施例提供的一种用于处理除湿装置的残留水的方法的示意图。FIG. 3 is a schematic diagram of a method for treating residual water in a dehumidification device provided by an embodiment of the present disclosure.

在除湿装置设置在除湿机内部的情况下，该用于处理除湿装置的残留水的方法可由除湿机的控制器执行，或者，由单独控制除湿装置的独立控制器执行；在除湿装置设置在空调内部的情况下，该用于处理除湿装置的残留水的方法可由空调的控制器执行，或者，由单独控制除湿装置的独立控制器执行。In the case where the dehumidifier is provided inside the dehumidifier, the method for treating the residual water of the dehumidifier may be performed by a controller of the dehumidifier, or may be performed by an independent controller that controls the dehumidifier independently; when the dehumidifier is provided in the air conditioner In the internal case, the method for treating the residual water of the dehumidification device may be executed by a controller of the air conditioner, or by an independent controller that independently controls the dehumidification device.

本公开实施例以该用于处理除湿装置的方法应用于图1中所示的除湿装置进行示例性说明，结合图3所示，用于处理除湿装置的残留水的方法包括：The embodiment of the present disclosure is exemplified by applying the method for treating a dehumidifier to the dehumidifier shown in FIG. 1 . With reference to FIG. 3 , the method for treating the residual water of the dehumidifier includes:

S301、获得吸湿材料的当前模块湿度。S301. Obtain the current module humidity of the hygroscopic material.

S302、在当前模块湿度大于或等于第二设定湿度的情况下，控制加热部件进行加热。S302 , when the current module humidity is greater than or equal to the second set humidity, control the heating component to perform heating.

S303、获得当前环境湿度。S303, obtaining the current environmental humidity.

S304、在当前模块湿度小于或等于当前环境湿度的情况下，或者，在当前模块湿度小于或等于第一设定湿度的情况下，关闭加热部件。S304. Turn off the heating component when the current module humidity is less than or equal to the current ambient humidity, or when the current module humidity is less than or equal to the first set humidity.

其中，第二设定湿度大于第一设定湿度和当前环境湿度。Wherein, the second set humidity is greater than the first set humidity and the current ambient humidity.

图4是本公开实施例提供的一种用于处理除湿装置的残留水的装置的示意图。该用于处理除湿装置的残留水的装置可由软件、硬件或二者结合的形式实现，在除湿装置设置在除湿机内部的情况下，该用于处理除湿装置的残留水的装置可在除湿机的控制器内实现，或者，在单独控制除湿装置的独立控制器内实现；在除湿装置设置在空调内部的情况下，该用于处理除湿装置的残留水的方法可在空调的控制器内实现，或者，在单独控制除湿装置的独立控制器内实现。FIG. 4 is a schematic diagram of a device for treating residual water of a dehumidification device provided by an embodiment of the present disclosure. The device for treating the residual water of the dehumidifier can be implemented in the form of software, hardware or a combination of the two. In the case that the dehumidifier is arranged inside the dehumidifier, the device for treating the residual water of the dehumidifier can be used in the dehumidifier. In the controller of the dehumidifier, or in an independent controller that independently controls the dehumidification device; in the case where the dehumidification device is arranged inside the air conditioner, the method for treating the residual water of the dehumidification device can be realized in the controller of the air conditioner. , or, implemented in a separate controller that controls the dehumidifier individually.

本公开实施例以将该用于处理除湿装置的装置应用于图1所示的除湿装置进行示例性说明，结合图4所示，用于处理除湿装置的残留水的装置包括第一获得模块41、第二获得模块42和控制模块43，其中，第一获得模块41被配置为在移除水箱后，获得吸湿材料的当前模块湿度；第二获得模块42被配置为在控制加热部件进行加热的过程中，获得当前环境湿度；控制模块43被配置为在当前模块湿度小于或等于当前环境湿度的情况下，或者，在当前模块湿度小于或等于第一设定湿度的情况下，关闭加热部件。In the embodiment of the present disclosure, the device for processing a dehumidification device is applied to the dehumidification device shown in FIG. 1 for exemplary illustration. With reference to FIG. 4 , the device for processing the residual water of the dehumidification device includes a first obtainingmodule 41 . , the second obtainingmodule 42 and thecontrol module 43, wherein the first obtainingmodule 41 is configured to obtain the current module humidity of the hygroscopic material after the water tank is removed; the second obtainingmodule 42 is configured to control the heating component for heating During the process, the current ambient humidity is obtained; thecontrol module 43 is configured to turn off the heating component when the current module humidity is less than or equal to the current ambient humidity, or when the current module humidity is less than or equal to the first set humidity.

可选地，控制加热部件进行加热的过程，包括：在当前模块湿度大于当前环境湿度，且控制加热部件进行加热以使当前模块湿度小于或等于当前环境湿度的情况下，根据环境湿度与模块湿度的对应关系，确定与当前环境湿度对应的预设模块湿度；其中，预设模块湿度与当前环境湿度正相关；如果当前模块湿度大于预设模块湿度，则降低加热部件的加热功率；如果当前模块湿度大于预设模块湿度，则提高加热部件的加热功率。Optionally, the process of controlling the heating component to perform heating includes: when the current module humidity is greater than the current environmental humidity, and the heating component is controlled to perform heating so that the current module humidity is less than or equal to the current environmental humidity, according to the environmental humidity and the module humidity. The corresponding relationship between , determines the preset module humidity corresponding to the current ambient humidity; wherein, the preset module humidity is positively correlated with the current ambient humidity; if the current module humidity is greater than the preset module humidity, the heating power of the heating component is reduced; if the current module humidity If the humidity is higher than the preset module humidity, the heating power of the heating element will be increased.

可选地，根据环境湿度与模块湿度的对应关系，确定与当前环境湿度对应的预设模块湿度，包括：根据环境湿度与模块湿度-时间曲线的对应关系，确定与当前环境湿度相对应的当前模块湿度-时间曲线；获得自移除水箱至当前时刻的当前时长；根据当前模块湿度-时间曲线，确定与当前时长对应的预设模块湿度。Optionally, determining the preset module humidity corresponding to the current environmental humidity according to the corresponding relationship between the environmental humidity and the module humidity includes: determining the current environmental humidity corresponding to the current environmental humidity according to the corresponding relationship between the environmental humidity and the module humidity-time curve. Module humidity-time curve; obtain the current duration from the removal of the water tank to the current moment; determine the preset module humidity corresponding to the current duration according to the current module humidity-time curve.

可选地，环境湿度与模块湿度-时间曲线的对应关系是通过如下方式确定的：在每个环境湿度下，获得与每个环境湿度对应的冷凝水流量-时间曲线；根据冷凝水流量与模块湿度的对应关系，确定与每个冷凝水流量-时间曲线对应的模块湿度-时间曲线；其中，冷凝水流量与模块湿度正相关。Optionally, the corresponding relationship between the ambient humidity and the module humidity-time curve is determined in the following manner: under each ambient humidity, obtain a condensed water flow-time curve corresponding to each ambient humidity; The corresponding relationship of humidity, determine the module humidity-time curve corresponding to each condensate water flow-time curve; wherein, the condensate water flow is positively correlated with the module humidity.

可选地，控制加热部件进行加热，包括：在当前模块湿度大于或等于第二设定湿度的情况下，控制加热部件进行加热；其中，第二设定湿度大于第一设定湿度和当前环境湿度。Optionally, controlling the heating component to perform heating includes: when the current module humidity is greater than or equal to a second set humidity, controlling the heating component to perform heating; wherein the second set humidity is greater than the first set humidity and the current environment humidity.

可选地，降低加热部件的加热功率，包括：降低加热部件持续加热的持续加热功率；或者，降低加热部件的加热时长与断电时长的比值。Optionally, reducing the heating power of the heating component includes: reducing the continuous heating power of the heating component for continuous heating; or, reducing the ratio of the heating duration of the heating component to the power-off duration.

可选地，提高加热部件的加热功率，包括：提高加热部件持续加热的持续加热功率；或者，提高加热部件的加热时长与断电时长的比值。Optionally, increasing the heating power of the heating component includes: increasing the continuous heating power of the heating component for continuous heating; or, increasing the ratio of the heating duration of the heating component to the power-off duration.

图5是本公开实施例提供的一种用于处理除湿装置的残留水的装置的示意图。结合图5所示，控制模块43包括第一控制单元431和第二控制单元432，其中，第一控制单元431被配置为如果当前环境湿度大于或等于第一设定湿度，则在当前模块湿度小于或等于当前环境湿度的情况下，关闭加热部件；第二控制单元432被配置为如果当前环境湿度小于或等于第一设定湿度，则在当前模块湿度小于或等于第一设定湿度的情况下，关闭加热部件。FIG. 5 is a schematic diagram of a device for treating residual water in a dehumidification device provided by an embodiment of the present disclosure. With reference to FIG. 5 , thecontrol module 43 includes afirst control unit 431 and asecond control unit 432, wherein thefirst control unit 431 is configured to, if the current ambient humidity is greater than or equal to the first set humidity, When the current ambient humidity is less than or equal to the current ambient humidity, the heating component is turned off; thesecond control unit 432 is configured to, if the current ambient humidity is less than or equal to the first set humidity, then when the current module humidity is less than or equal to the first set humidity down, turn off the heating element.

在一些实施例中，用于处理除湿装置的残留水的装置包括处理器和存储有程序指令的存储器，处理器被配置为在执行程序指令时，执行前述实施例提供的用于处理除湿装置的残留水的方法。In some embodiments, the device for treating residual water of a dehumidifying device includes a processor and a memory storing program instructions, and the processor is configured to execute the method for treating the dehumidifying device provided in the foregoing embodiments when the program instructions are executed. method for residual water.

图6是本公开实施例提供的一种用于处理除湿装置的残留水的装置的示意图。结合图6所示，用于处理除湿装置的残留水的装置包括：FIG. 6 is a schematic diagram of a device for treating residual water of a dehumidification device provided by an embodiment of the present disclosure. With reference to Figure 6, the device for treating the residual water of the dehumidification device includes:

处理器(processor)61和存储器(memory)62，还可以包括通信接口(Communication Interface)63和总线64。其中，处理器61、通信接口63、存储器62可以通过总线64完成相互间的通信。通信接口63可以用于信息传输。处理器61可以调用存储器62中的逻辑指令，以执行前述实施例提供的用于处理除湿装置的残留水的方法。A processor (processor) 61 and a memory (memory) 62 may also include a communication interface (Communication Interface) 63 and abus 64 . Theprocessor 61 , thecommunication interface 63 , and thememory 62 can communicate with each other through thebus 64 . Thecommunication interface 63 may be used for information transmission. Theprocessor 61 can invoke the logic instructions in thememory 62 to execute the method for processing the residual water of the dehumidification device provided in the foregoing embodiments.

此外，上述的存储器62中的逻辑指令可以通过软件功能单元的形式实现并作为独立的产品销售或使用时，可以存储在一个计算机可读取存储介质中。In addition, the above-mentioned logic instructions in thememory 62 can be implemented in the form of software functional units and can be stored in a computer-readable storage medium when sold or used as an independent product.

存储器62作为一种计算机可读存储介质，可用于存储软件程序、计算机可执行程序，如本公开实施例中的方法对应的程序指令/模块。处理器61通过运行存储在存储器62中的软件程序、指令以及模块，从而执行功能应用以及数据处理，即实现上述方法实施例中的方法。As a computer-readable storage medium, thememory 62 can be used to store software programs and computer-executable programs, such as program instructions/modules corresponding to the methods in the embodiments of the present disclosure. Theprocessor 61 executes functional applications and data processing by running the software programs, instructions and modules stored in thememory 62, that is, to implement the methods in the above method embodiments.

存储器62可包括存储程序区和存储数据区，其中，存储程序区可存储操作系统、至少一个功能所需的应用程序；存储数据区可存储根据终端设备的使用所创建的数据等。此外，存储器62可以包括高速随机存取存储器，还可以包括非易失性存储器。Thememory 62 may include a storage program area and a storage data area, wherein the storage program area may store an operating system, an application program required for at least one function; the storage data area may store data created according to the use of the terminal device, and the like. Additionally,memory 62 may include high-speed random access memory, and may also include non-volatile memory.

本公开实施例提供了一种智能除湿机，包含前述实施例提供的用于处理除湿装置的残留水的装置。Embodiments of the present disclosure provide an intelligent dehumidifier, including the device provided in the foregoing embodiments for treating residual water in the dehumidifier.

本公开实施例提供了一种智能空调，包括前述实施例提供的用于处理除湿装置的残留水的装置。Embodiments of the present disclosure provide an intelligent air conditioner, including the device for treating residual water in a dehumidification device provided in the foregoing embodiments.

本公开实施例提供了一种计算机可读存储介质，存储有计算机可执行指令，计算机可执行指令设置为执行前述实施例提供的用于处理除湿装置的残留水方法。Embodiments of the present disclosure provide a computer-readable storage medium storing computer-executable instructions, where the computer-executable instructions are configured to execute the method for processing residual water in a dehumidification device provided by the foregoing embodiments.

本公开实施例提供了一种计算机程序产品，计算机程序产品包括存储在计算机可读存储介质上的计算机程序，计算机程序包括程序指令，当程序指令被计算机执行时，使计算机执行前述实施例提供的用于处理除湿装置的残留水的方法。Embodiments of the present disclosure provide a computer program product. The computer program product includes a computer program stored on a computer-readable storage medium. The computer program includes program instructions. A method for treating residual water in a dehumidifier.

上述的计算机可读存储介质可以是暂态计算机可读存储介质，也可以是非暂态计算机可读存储介质。The above-mentioned computer-readable storage medium may be a transient computer-readable storage medium, and may also be a non-transitory computer-readable storage medium.

本公开实施例的技术方案可以以软件产品的形式体现出来，该计算机软件产品存储在一个存储介质中，包括一个或一个以上指令用以使得一台计算机设备(可以是个人计算机，服务器，或者网络设备等)执行本公开实施例中方法的全部或部分步骤。而前述的存储介质可以是非暂态存储介质，包括：U盘、移动硬盘、只读存储器(Read-Only Memory，ROM)、随机读取存储器(Random Access Memory，RAM)、磁碟或者光盘等多种可以存储程序代码的介质，也可以是暂态存储介质。The technical solutions of the embodiments of the present disclosure may be embodied in the form of software products, and the computer software products are stored in a storage medium and include one or more instructions to enable a computer device (which may be a personal computer, a server, or a network equipment, etc.) to execute all or part of the steps of the methods in the embodiments of the present disclosure. The aforementioned storage medium may be a non-transitory storage medium, including: U disk, removable hard disk, read-only memory (Read-Only Memory, ROM), random access memory (Random Access Memory, RAM), magnetic disk or optical disk, etc. A medium that can store program codes, and can also be a transient storage medium.

以上描述和附图充分地示出了本公开的实施例，以使本领域的技术人员能够实践它们。其他实施例可以包括结构的、逻辑的、电气的、过程的以及其他的改变。实施例仅代表可能的变化。除非明确要求，否则单独的部件和功能是可选的，并且操作的顺序可以变化。一些实施例的部分和特征可以被包括在或替换其他实施例的部分和特征。而且，本申请中使用的用词仅用于描述实施例并且不用于限制权利要求。如在实施例以及权利要求的描述中使用的，除非上下文清楚地表明，否则单数形式的“一个”(a)、“一个”(an)和“所述”(the)旨在同样包括复数形式。另外，当用于本申请中时，术语“包括”(comprise)及其变型“包括”(comprises)和/或包括(comprising)等指陈述的特征、整体、步骤、操作、元素，和/或组件的存在，但不排除一个或一个以上其它特征、整体、步骤、操作、元素、组件和/或这些的分组的存在或添加。在没有更多限制的情况下，由语句“包括一个……”限定的要素，并不排除在包括要素的过程、方法或者设备中还存在另外的相同要素。本文中，每个实施例重点说明的可以是与其他实施例的不同之处，各个实施例之间相同相似部分可以互相参见。对于实施例公开的方法、产品等而言，如果其与实施例公开的方法部分相对应，那么相关之处可以参见方法部分的描述。The foregoing description and drawings sufficiently illustrate the embodiments of the present disclosure to enable those skilled in the art to practice them. Other embodiments may include structural, logical, electrical, process, and other changes. The examples are only representative of possible variations. Unless expressly required, individual components and functions are optional and the order of operations may vary. Portions and features of some embodiments may be included in or substituted for those of other embodiments. Also, the terms used in this application are used to describe the embodiments only and not to limit the claims. As used in the description of the embodiments and the claims, the singular forms "a" (a), "an" (an) and "the" (the) are intended to include the plural forms as well, unless the context clearly dictates otherwise. . Additionally, when used in this application, the term "comprise" and its variations "comprises" and/or including and/or the like refer to stated features, integers, steps, operations, elements, and/or The presence of a component does not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components and/or groupings of these. Without further limitation, an element qualified by the phrase "comprising a..." does not preclude the presence of additional identical elements in the process, method, or device that includes the element. Herein, each embodiment may focus on the differences from other embodiments, and the same and similar parts between the various embodiments may refer to each other. For the methods, products, etc. disclosed in the embodiments, if they correspond to the method section disclosed in the embodiments, reference may be made to the description of the method section for relevant parts.

本领域技术人员可以意识到，结合本文中所公开的实施例描述的各示例的单元及算法步骤，能够以电子硬件、或者计算机软件和电子硬件的结合来实现。这些功能究竟以硬件还是软件方式来执行，可以取决于技术方案的特定应用和设计约束条件。技术人员可以对每个特定的应用来使用不同方法以实现所描述的功能，但是这种实现不应认为超出本公开实施例的范围。技术人员可以清楚地了解到，为描述的方便和简洁，上述描述的系统、装置和单元的具体工作过程，可以参考前述方法实施例中的对应过程，在此不再赘述。Those skilled in the art can realize that the units and algorithm steps of each example described in conjunction with the embodiments disclosed herein can be implemented by electronic hardware, or a combination of computer software and electronic hardware. Whether these functions are performed in hardware or software may depend on the specific application and design constraints of the technical solution. Skilled artisans may use different methods for implementing the described functionality for each particular application, but such implementations should not be considered beyond the scope of the disclosed embodiments. A skilled person can clearly understand that, for the convenience and brevity of description, for the specific working process of the above-described systems, devices and units, reference may be made to the corresponding processes in the foregoing method embodiments, which will not be repeated here.

本文所披露的实施例中，所揭露的方法、产品(包括但不限于装置、设备等)，可以通过其它的方式实现。例如，以上所描述的装置实施例仅仅是示意性的，例如，单元的划分，可以仅仅为一种逻辑功能划分，实际实现时可以有另外的划分方式，例如多个单元或组件可以结合或者可以集成到另一个系统，或一些特征可以忽略，或不执行。另外，所显示或讨论的相互之间的耦合或直接耦合或通信连接可以是通过一些接口，装置或单元的间接耦合或通信连接，可以是电性，机械或其它的形式。作为分离部件说明的单元可以是或者也可以不是物理上分开的，作为单元显示的部件可以是或者也可以不是物理单元，即可以位于一个地方，或者也可以分布到多个网络单元上。可以根据实际的需要选择其中的部分或者全部单元来实现本实施例。另外，在本公开实施例中的各功能单元可以集成在一个处理单元中，也可以是各个单元单独物理存在，也可以两个或两个以上单元集成在一个单元中。In the embodiments disclosed herein, the disclosed methods and products (including but not limited to apparatuses, devices, etc.) may be implemented in other ways. For example, the apparatus embodiments described above are only illustrative. For example, the division of units may only be a logical function division. In actual implementation, there may be other division methods. For example, multiple units or components may be combined or may be Integration into another system, or some features can be ignored, or not implemented. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be through some interfaces, indirect coupling or communication connection of devices or units, and may be in electrical, mechanical or other forms. Units described as separate components may or may not be physically separated, and components shown as units may or may not be physical units, that is, may be located in one place, or may be distributed to multiple network units. This embodiment may be implemented by selecting some or all of the units according to actual needs. In addition, each functional unit in the embodiment of the present disclosure may be integrated into one processing unit, or each unit may exist physically alone, or two or more units may be integrated into one unit.

附图中的流程图和框图显示了根据本公开实施例的系统、方法和计算机程序产品的可能实现的体系架构、功能和操作。在这点上，流程图或框图中的每个方框可以代表一个模块、程序段或代码的一部分，模块、程序段或代码的一部分包含一个或一个以上用于实现规定的逻辑功能的可执行指令。在有些作为替换的实现中，方框中所标注的功能也可以以不同于附图中所标注的顺序发生。例如，两个连续的方框实际上可以基本并行地执行，它们有时也可以按相反的顺序执行，这可以依所涉及的功能而定。框图和/或流程图中的每个方框、以及框图和/或流程图中的方框的组合，可以用执行规定的功能或动作的专用的基于硬件的系统来实现，或者可以用专用硬件与计算机指令的组合来实现。The flowchart and block diagrams in the Figures illustrate the architecture, functionality, and operation of possible implementations of systems, methods and computer program products according to embodiments of the present disclosure. In this regard, each block in the flowchart or block diagrams may represent a module, segment, or portion of code, which comprises one or more executables for implementing the specified logical function(s) instruction. In some alternative implementations, the functions noted in the blocks may occur out of the order noted in the figures. For example, two blocks in succession may, in fact, be executed substantially concurrently, or the blocks may sometimes be executed in the reverse order, depending upon the functionality involved. Each block of the block diagrams and/or flowchart illustrations, and combinations of blocks in the block diagrams and/or flowchart illustrations, can be implemented in special purpose hardware-based systems that perform the specified functions or actions, or special purpose hardware implemented in combination with computer instructions.