CN115264764A - Air conditioner and dehumidification method thereof, and computer readable storage medium - Google Patents

Abstract

Translated fromChinese

本申请提供一种空调器及其除湿方法、计算机可读存储介质，方法包括：确定蒸发器的内盘过热度，内盘过热度与蒸发器的内盘管温度相关联；根据内盘过热度，控制第一膨胀阀的开度大小，以改变蒸发器的内盘管温度进行除湿。本申请通过内盘过热度控制第一膨胀阀的开度大小，第一膨胀阀的开度大小改变后，使得流入蒸发器制冷剂的流量得到改变，不同流量的制冷剂在蒸发器内蒸发带走不同的热量，从而直接改变了蒸发器的内盘管温度，在除湿过程中实现了对内盘管温度的直接控制，提升了空调器除湿效果以及用户体验。

The present application provides an air conditioner, a dehumidification method thereof, and a computer-readable storage medium. The method includes: determining an inner disk superheat degree of an evaporator, where the inner disk superheat degree is associated with an inner coil temperature of the evaporator; The opening degree of an expansion valve is used to change the temperature of the inner coil of the evaporator for dehumidification. In the present application, the opening degree of the first expansion valve is controlled by the superheat degree of the inner disk. After the opening degree of the first expansion valve is changed, the flow rate of the refrigerant flowing into the evaporator is changed, and the refrigerant with different flow rates is evaporated and taken away in the evaporator. Different heat, which directly changes the temperature of the inner coil of the evaporator, realizes the direct control of the temperature of the inner coil during the dehumidification process, and improves the dehumidification effect of the air conditioner and the user experience.

Description

Translated fromChinese

空调器及其除湿方法、计算机可读存储介质Air conditioner, dehumidification method thereof, and computer-readable storage medium

技术领域technical field

本申请涉及空调技术领域，具体涉及一种空调器及其除湿方法、计算机可读存储介质。The present application relates to the technical field of air conditioning, and in particular to an air conditioner, a dehumidification method thereof, and a computer-readable storage medium.

背景技术Background technique

目前，空调器除了常规的制冷和制热模式外，一般还具有除湿和送风模式；除湿模式同制冷模式的控制方式类似，通过改变压缩机频率以及室内风机的转速进行除湿，例如，当室内环境湿度大于目标湿度时，增大压缩机的运行频率以降低室内环境湿度以实现除湿。然而，这种改变压缩机频率的除湿控制方案并不能直接控制内盘管温度，在除湿过程中容易出现除湿效果不理想的现象。At present, in addition to the conventional cooling and heating modes, air conditioners also generally have dehumidification and air supply modes; the control mode of the dehumidification mode is similar to that of the cooling mode. When the ambient humidity is greater than the target humidity, increase the operating frequency of the compressor to reduce the indoor ambient humidity to achieve dehumidification. However, this dehumidification control scheme of changing the frequency of the compressor cannot directly control the temperature of the inner coil, and unsatisfactory dehumidification effects are prone to occur during the dehumidification process.

发明内容Contents of the invention

本申请提供一种空调器及其除湿方法、计算机可读存储介质，旨在解决目前空调器除湿过程中除湿效果不理想的技术问题。The present application provides an air conditioner, its dehumidification method, and a computer-readable storage medium, aiming at solving the technical problem of unsatisfactory dehumidification effect in the dehumidification process of the current air conditioner.

第一方面，本申请提供一种空调器除湿方法，空调器包括蒸发器以及冷凝器，蒸发器入口与冷凝器出口连接的管线上设置有第一膨胀阀，方法包括：In a first aspect, the present application provides a dehumidification method for an air conditioner. The air conditioner includes an evaporator and a condenser. A first expansion valve is provided on the pipeline connecting the inlet of the evaporator and the outlet of the condenser. The method includes:

确定蒸发器的内盘过热度，内盘过热度与蒸发器的内盘管温度相关联；Determine the inner pan superheat of the evaporator, which correlates to the inner coil temperature of the evaporator;

根据内盘过热度，控制第一膨胀阀的开度大小，以改变蒸发器的内盘管温度进行除湿。According to the degree of superheat of the inner disk, the opening degree of the first expansion valve is controlled to change the temperature of the inner coil of the evaporator for dehumidification.

在一些实施例中，确定蒸发器的内盘过热度的步骤包括：In some embodiments, the step of determining the superheat of the inner pan of the evaporator includes:

获取蒸发器的内盘管温度以及室内的露点温度；Obtain the internal coil temperature of the evaporator and the dew point temperature in the room;

根据内盘管温度以及露点温度，确定内盘过热度。According to the temperature of the inner coil and the dew point temperature, determine the degree of superheat of the inner disc.

在一些实施例中，确定蒸发器的内盘过热度的步骤包括：In some embodiments, the step of determining the superheat of the inner pan of the evaporator includes:

获取蒸发器的内盘管温度以及制冷剂的低压饱和温度；Obtain the inner coil temperature of the evaporator and the low-pressure saturation temperature of the refrigerant;

根据内盘管温度以及低压饱和温度，确定内盘过热度。According to the temperature of the inner coil and the low pressure saturation temperature, determine the degree of superheat of the inner disc.

在一些实施例中，确定蒸发器的内盘过热度的步骤包括：In some embodiments, the step of determining the superheat of the inner pan of the evaporator includes:

获取蒸发器的内盘管温度以及制冷剂的防冻结保护温度；Obtain the inner coil temperature of the evaporator and the antifreeze protection temperature of the refrigerant;

根据内盘管温度以及防冻结保护温度，确定内盘过热度。According to the temperature of the inner coil and the temperature of the anti-freezing protection, determine the degree of superheat of the inner disc.

在一些实施例中，根据内盘过热度，控制第一膨胀阀的开度大小的步骤包括：In some embodiments, the step of controlling the opening of the first expansion valve according to the degree of superheat of the inner disk includes:

当内盘过热度小于第一预设值时，减小第一膨胀阀的开度；reducing the opening of the first expansion valve when the degree of superheat of the inner disk is less than a first preset value;

当内盘过热度大于第二预设值时，增大第一膨胀阀的开度；increasing the opening of the first expansion valve when the degree of superheat of the inner disk is greater than a second preset value;

当内盘过热度大于或等于第一预设值且小于或等于第二预设值时，保持第一膨胀阀的开度不变。When the degree of superheat of the inner disk is greater than or equal to the first preset value and less than or equal to the second preset value, the opening degree of the first expansion valve remains unchanged.

在一些实施例中，蒸发器出口与冷凝器入口连接的管线上设置有压缩机以及临近蒸发器出口的第二膨胀阀，方法还包括：In some embodiments, a compressor and a second expansion valve adjacent to the evaporator outlet are arranged on the pipeline connecting the evaporator outlet and the condenser inlet, and the method further includes:

确定压缩机的排气过热度；Determining the discharge superheat of the compressor;

根据压缩机的排气过热度，控制第二膨胀阀的开度大小。According to the exhaust superheat of the compressor, the opening degree of the second expansion valve is controlled.

在一些实施例中，确定压缩机的排气过热度的步骤包括：In some embodiments, the step of determining the discharge superheat of the compressor includes:

获取压缩机的排气温度以及排气压力；Obtain the discharge temperature and discharge pressure of the compressor;

根据排气压力确定对应的排气饱和温度；Determine the corresponding exhaust saturation temperature according to the exhaust pressure;

根据排气温度以及排气饱和温度，确定排气过热度。Determine the degree of superheat of the exhaust gas according to the exhaust gas temperature and the saturation temperature of the exhaust gas.

在一些实施例中，根据压缩机的排气过热度，控制第二膨胀阀的开度大小步骤包括：In some embodiments, the step of controlling the opening degree of the second expansion valve according to the degree of superheat of the exhaust gas of the compressor includes:

当排气过热度小于第三预设值时，减小第二膨胀阀的开度；reducing the opening of the second expansion valve when the degree of superheat of the exhaust gas is less than a third preset value;

当排气过热度大于第四预设值时，增大第二膨胀阀的开度；increasing the opening of the second expansion valve when the degree of superheat of the exhaust gas is greater than the fourth preset value;

当排气过热度大于或等于第三预设值且小于或等于第四预设值时，保持第二膨胀阀的开度不变。When the degree of superheat of the exhaust gas is greater than or equal to the third preset value and less than or equal to the fourth preset value, the opening degree of the second expansion valve remains unchanged.

第二方面，本申请提供一种空调器，包括：In a second aspect, the present application provides an air conditioner, including:

一个或多个处理器；one or more processors;

存储器；以及storage; and

一个或多个应用程序，其中一个或多个应用程序被存储于存储器中，并配置为由处理器执行以实现如第一方面所述的除湿方法。One or more application programs, wherein the one or more application programs are stored in the memory and configured to be executed by the processor to implement the dehumidification method as described in the first aspect.

第三方面，本申请提供一种计算机可读存储介质，其上存储有计算机程序，计算机程序被处理器进行加载，以执行如第一方面所述的除湿方法中的步骤。In a third aspect, the present application provides a computer-readable storage medium, on which a computer program is stored, and the computer program is loaded by a processor to execute the steps in the dehumidification method as described in the first aspect.

本申请通过内盘过热度控制第一膨胀阀的开度大小，第一膨胀阀的开度大小改变后，使得流入蒸发器制冷剂的流量得到改变，不同流量的制冷剂在蒸发器内蒸发带走不同的热量，从而直接改变了蒸发器的内盘管温度，在除湿过程中实现了对内盘管温度的直接控制，提升了空调器除湿效果以及用户体验。In this application, the opening of the first expansion valve is controlled by the superheat of the inner disk. After the opening of the first expansion valve is changed, the flow of refrigerant flowing into the evaporator is changed, and the refrigerant with different flow is evaporated and taken away in the evaporator. The different heat directly changes the temperature of the inner coil of the evaporator, realizes direct control of the temperature of the inner coil during the dehumidification process, and improves the dehumidification effect of the air conditioner and the user experience.

附图说明Description of drawings

为了更清楚地说明本申请实施例中的技术方案，下面将对实施例描述中所需要使用的附图作简单地介绍，显而易见地，下面描述中的附图仅仅是本发明的一些实施例，对于本领域技术人员来讲，在不付出创造性劳动的前提下，还可以根据这些附图获得其他的附图。In order to more clearly illustrate the technical solutions in the embodiments of the present application, the following will briefly introduce the drawings that need to be used in the description of the embodiments. Obviously, the drawings in the following description are only some embodiments of the present invention. For those skilled in the art, other drawings can also be obtained based on these drawings without any creative effort.

图1是本申请实施例中提供的空调器的一种结构示意图；Fig. 1 is a kind of structural representation of the air conditioner provided in the embodiment of the present application;

图2是本申请实施例中提供的空调器除湿方法的一种流程示意图；Fig. 2 is a schematic flow chart of the air conditioner dehumidification method provided in the embodiment of the present application;

图3是本申请实施例中提供的控制第二膨胀阀开度的一种流程示意图；Fig. 3 is a schematic flow chart of controlling the opening of the second expansion valve provided in the embodiment of the present application;

图4是本申请实施例中提供的确定排气过热度的一种流程示意图；Fig. 4 is a schematic flow chart for determining the superheat degree of exhaust gas provided in the embodiment of the present application;

图5是本申请实施例中提供的空调器的一种结构示意图。Fig. 5 is a schematic structural view of the air conditioner provided in the embodiment of the present application.

其中，10蒸发器，20冷凝器，30第一膨胀阀，40压缩机，50第二膨胀阀，60四通阀，70温湿度传感器，80吸气感温包，90低压传感器。Among them, 10 evaporator, 20 condenser, 30 first expansion valve, 40 compressor, 50 second expansion valve, 60 four-way valve, 70 temperature and humidity sensor, 80 suction temperature sensor, 90 low pressure sensor.

具体实施方式Detailed ways

下面将结合本申请实施例中的附图，对本申请实施例中的技术方案进行清楚、完整地描述，显然，所描述的实施例仅仅是本发明一部分实施例，而不是全部的实施例。基于本发明中的实施例，本领域技术人员在没有作出创造性劳动前提下所获得的所有其他实施例，都属于本发明保护的范围。The following will clearly and completely describe the technical solutions in the embodiments of the present application with reference to the accompanying drawings in the embodiments of the present application. Obviously, the described embodiments are only some of the embodiments of the present invention, not all of them. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative efforts fall within the protection scope of the present invention.

在本发明的描述中，需要理解的是，术语“中心”、“纵向”、“横向”、“长度”、“宽度”、“厚度”、“上”、“下”、“前”、“后”、“左”、“右”、“竖直”、“水平”、“顶”、“底”、“内”、“外”等指示的方位或位置关系为基于附图所示的方位或位置关系，仅是为了便于描述本发明和简化描述，而不是指示或暗示所指的装置或元件必须具有特定的方位、以特定的方位构造和操作，因此不能理解为对本发明的限制。此外，术语“第一”、“第二”仅用于描述目的，而不能理解为指示或暗示相对重要性或者隐含指明所指示的技术特征的数量。由此，限定有“第一”、“第二”的特征可以明示或者隐含地包括一个或者更多个所述特征。在本发明的描述中，“多个”的含义是两个或两个以上，除非另有明确具体的限定。In describing the present invention, it should be understood that the terms "center", "longitudinal", "transverse", "length", "width", "thickness", "upper", "lower", "front", " The orientation or positional relationship indicated by "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. is based on the orientation shown in the drawings Or positional relationship is only for the convenience of describing the present invention and simplifying the description, but does not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and therefore should not be construed as limiting the present invention. In addition, the terms "first" and "second" are used for descriptive purposes only, and cannot be interpreted as indicating or implying relative importance or implicitly specifying the quantity of indicated technical features. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of said features. In the description of the present invention, "plurality" means two or more, unless otherwise specifically defined.

在本申请中，“示例性”一词用来表示“用作例子、例证或说明”。本申请中被描述为“示例性”的任何实施例不一定被解释为比其它实施例更优选或更具优势。为了使本领域任何技术人员能够实现和使用本发明，给出了以下描述。在以下描述中，为了解释的目的而列出了细节。应当明白的是，本领域普通技术人员可以认识到，在不使用这些特定细节的情况下也可以实现本发明。在其它实例中，不会对公知的结构和过程进行详细阐述，以避免不必要的细节使本发明的描述变得晦涩。因此，本发明并非旨在限于所示的实施例，而是与符合本申请所公开的原理和特征的最广范围相一致。In this application, the word "exemplary" is used to mean "serving as an example, illustration or illustration". Any embodiment described in this application as "exemplary" is not necessarily to be construed as preferred or advantageous over other embodiments. The following description is given to enable any person skilled in the art to make and use the invention. In the following description, details are set forth for purposes of explanation. It should be understood that one of ordinary skill in the art would recognize that the present invention may be practiced without the use of these specific details. In other instances, well-known structures and procedures are not described in detail to avoid obscuring the description of the present invention with unnecessary detail. Thus, the present invention is not intended to be limited to the embodiments shown, but is to be accorded the widest scope consistent with the principles and features disclosed in this application.

本申请实施例提供一种空调器及其除湿方法、计算机可读存储介质，以下分别进行详细说明。Embodiments of the present application provide an air conditioner, a dehumidification method thereof, and a computer-readable storage medium, which will be described in detail below.

首先，参阅图1，图1示出了本申请实施例中空调器的一种结构示意图，其中，空调器包括蒸发器10、冷凝器20、压缩机40，蒸发器10入口与冷凝器20出口连接的管线上设置有第一膨胀阀30，图上所示的箭头为制冷模式下制冷剂的流向。First, referring to Fig. 1, Fig. 1 shows a schematic structural view of an air conditioner in an embodiment of the present application, wherein the air conditioner includes anevaporator 10, acondenser 20, acompressor 40, an inlet of theevaporator 10 and an outlet of thecondenser 20 The connected pipeline is provided with afirst expansion valve 30, and the arrow shown in the figure indicates the flow direction of the refrigerant in cooling mode.

其中，蒸发器10和冷凝器20分别位于室内以及室外，在空调进行制冷时，蒸发器10内流动的制冷剂蒸发吸热，从而降低内盘管的温度并对室内空气进行热交换，冷凝器20内流动的制冷剂液化放热，从而提升外盘管的温度并与室外空气进行热交换；在空调进行制热时，蒸发器10内流动的制冷剂液化放热，从而提升内盘管的温度并对室内空气进行升温，冷凝器20内流动的制冷剂蒸发吸热，从而降低外盘管的温度并与室外空气进行热交换。Wherein, theevaporator 10 and thecondenser 20 are respectively located indoors and outdoors. When the air conditioner is cooling, the refrigerant flowing in theevaporator 10 evaporates and absorbs heat, thereby reducing the temperature of the inner coil and exchanging heat with the indoor air. The refrigerant flowing in theevaporator 20 liquefies and releases heat, thereby increasing the temperature of the outer coil and exchanging heat with the outdoor air; The temperature of the indoor air is raised, and the refrigerant flowing in thecondenser 20 evaporates and absorbs heat, thereby reducing the temperature of the outer coil and exchanging heat with the outdoor air.

压缩机40在空调器管路中压缩驱动制冷剂，以便于将制冷剂从低压区抽取并经压缩后送到高压区冷却凝结，通过蒸发器10和冷凝器20在需要制热时将热量散发到室内侧，而在需要制冷时将热量散发到室外侧。示例性的，压缩机40可以为往复式压缩机、回转式压缩机，例如螺杆压缩机、离心压缩机等。Thecompressor 40 compresses and drives the refrigerant in the pipeline of the air conditioner, so that the refrigerant is extracted from the low-pressure area and compressed, then sent to the high-pressure area for cooling and condensation, and the heat is dissipated through theevaporator 10 and thecondenser 20 when heating is required to the indoor side, and dissipate heat to the outdoor side when cooling is required. Exemplarily, thecompressor 40 may be a reciprocating compressor, a rotary compressor, such as a screw compressor, a centrifugal compressor, and the like.

第一膨胀阀30用于根据内盘过热度控制蒸发器10内盘管的温度，当第一膨胀阀30的开度大小改变后，使得流入蒸发器10制冷剂的流量得到改变，不同流量的制冷剂在蒸发器10内蒸发带走不同的热量，从而直接改变了蒸发器10的内盘管温度，在除湿过程中实现了对内盘管温度的直接控制，提升了空调器除湿效果以及用户体验。Thefirst expansion valve 30 is used to control the temperature of the inner coil of theevaporator 10 according to the degree of superheat of the inner disk. When the opening of thefirst expansion valve 30 is changed, the flow rate of the refrigerant flowing into theevaporator 10 is changed. The agent evaporates in theevaporator 10 and takes away different heat, thereby directly changing the temperature of the inner coil of theevaporator 10, realizing direct control of the temperature of the inner coil during the dehumidification process, and improving the dehumidification effect of the air conditioner and user experience .

需要说明的是，内盘过热度可以通过多种方式计算得到，例如将内盘管温度与室内露点温度的差值为内盘过热度；又例如，将内盘管温度与制冷剂的低压饱和温度的差值作为内盘过热度；再例如，将内盘管温度与防冻结保护温度的差值作为内盘过热。It should be noted that the degree of superheat of the inner disk can be calculated in various ways. For example, the difference between the temperature of the inner coil and the indoor dew point temperature is used as the degree of superheat of the inner disk; The difference is taken as the superheat of the inner disk; for another example, the difference between the temperature of the inner coil and the antifreeze protection temperature is taken as the overheat of the inner disk.

由于第一膨胀阀30直接控制了内盘管的温度，虽然有利于进行空气除湿，然而可能存在内盘管温度过低而导致制冷剂未完全蒸发现象，使得压缩机40吸入液体最终导致压缩机40产生液击现象并缩短其使用寿命。Since thefirst expansion valve 30 directly controls the temperature of the inner coil, although it is beneficial to air dehumidification, the temperature of the inner coil may be too low, resulting in incomplete evaporation of the refrigerant, so that thecompressor 40 sucks liquid and eventually causes the compressor to 40 produces liquid hammer phenomenon and shortens its service life.

为此，在本申请的一些实施例中，空调器还包括第二膨胀阀50，第二膨胀阀50临近蒸发器10的出口设置，第二膨胀阀50根据压缩机40的排气过热度改变其的开度大小，其中排气过热度通过压缩机40排气压力对应的饱和温度与排气温度的差值计算得到。作为示例性的，当压缩机40的排气过热度过小说明压缩机40排出的制冷剂可能包含液体时，通过减小第二膨胀阀50的开度减小制冷剂的流量，使得制冷剂在蒸发器10内停留的时间延长，从而避免制冷剂未蒸发完全而存在液体的现象。For this reason, in some embodiments of the present application, the air conditioner further includes asecond expansion valve 50 , thesecond expansion valve 50 is arranged near the outlet of theevaporator 10 , and thesecond expansion valve 50 changes according to the degree of superheat of the exhaust gas of thecompressor 40 Its opening degree, wherein the degree of superheat of the exhaust gas is calculated by the difference between the saturation temperature corresponding to the exhaust pressure of thecompressor 40 and the exhaust gas temperature. As an example, when the exhaust superheat of thecompressor 40 is too small, indicating that the refrigerant discharged from thecompressor 40 may contain liquid, the flow rate of the refrigerant is reduced by reducing the opening of thesecond expansion valve 50, so that the refrigerant The residence time in theevaporator 10 is prolonged, thereby avoiding the phenomenon that the refrigerant is not completely evaporated and there is liquid.

可以理解的，上述关于空调器的说明描述仅为清楚说明本申请的验证过程，实际上空调器还可以包含其他部件，例如，空调器还可以包括储存制冷剂的储液罐、控制空调器切换制热以及制冷模式的四通阀60等；再例如，空调器还可以包括温湿度传感器70、吸气感温包80、低压传感器90等检测组件。It can be understood that the above description about the air conditioner is only to clearly illustrate the verification process of the present application. In fact, the air conditioner may also include other components. Four-way valves 60 in heating and cooling modes; as another example, the air conditioner may also include detection components such as a temperature andhumidity sensor 70 , an air suctiontemperature sensing package 80 , and alow pressure sensor 90 .

继续参阅图2，图2示出了本申请实施例中空调器除湿方法的一种流程示意图，除湿方法采用上述任一实施例的空调器，其中，空调器除湿方法包括：Continue to refer to FIG. 2. FIG. 2 shows a schematic flow chart of an air conditioner dehumidification method in an embodiment of the present application. The dehumidification method uses the air conditioner in any of the above embodiments, wherein the air conditioner dehumidification method includes:

步骤S210，确定蒸发器10的内盘过热度；Step S210, determining the degree of superheat of the inner disk of theevaporator 10;

具体的，内盘过热度是指与蒸发器10的内盘管温度相关联的过热度。在本申请的一些实施例中，确定蒸发器10的内盘过热度的步骤包括：Specifically, the degree of superheat of the inner coil refers to the degree of superheat associated with the temperature of the inner coil of theevaporator 10 . In some embodiments of the present application, the step of determining the degree of superheat of the inner pan of theevaporator 10 includes:

步骤S211，获取蒸发器10的内盘管温度以及室内的露点温度；Step S211, obtaining the inner coil temperature of theevaporator 10 and the indoor dew point temperature;

根据内盘管温度以及露点温度，确定内盘过热度。According to the temperature of the inner coil and the dew point temperature, determine the degree of superheat of the inner disc.

其中，内盘管温度可以通过内盘管温感温包测量得到，露点温度可以通过温湿度传感器70测量得到。在得到内盘管温度以及露点温度，则可以将内盘管温度与露点温度的差值作为内盘过热度，例如，当内盘管温度为10℃，露点温度为19℃，则内盘管过热度为9℃。Wherein, the temperature of the inner coil can be obtained by measuring the temperature sensor of the inner coil, and the dew point temperature can be obtained by measuring the temperature andhumidity sensor 70 . After obtaining the inner coil temperature and dew point temperature, the difference between the inner coil temperature and dew point temperature can be used as the inner coil superheat. For example, when the inner coil temperature is 10°C and the dew point temperature is 19°C, the inner coil overheat The heat is 9°C.

需要说明的是，由于内盘过热度与内盘管温度以及露点温度关联，且露点温度通常与室内温度接近，使得内盘管温度略低于露点温度即可实现除湿，因此采用与内盘管温度以及露点温度关联的内盘过热度进行除湿，这种除湿模式在保证除湿效果的同时还可以实现室内恒温除湿模式，避免室内温度大幅降低的现象。It should be noted that since the superheat of the inner disk is related to the temperature of the inner coil and the dew point temperature, and the dew point temperature is usually close to the indoor temperature, the dehumidification can be realized only when the temperature of the inner coil is slightly lower than the dew point temperature. Dehumidification is carried out based on the superheat of the inner disk associated with the dew point temperature. This dehumidification mode can not only ensure the dehumidification effect, but also realize the indoor constant temperature dehumidification mode, avoiding the phenomenon that the indoor temperature drops sharply.

在本申请的一些实施例中，确定蒸发器10的内盘过热度的步骤包括：In some embodiments of the present application, the step of determining the degree of superheat of the inner pan of theevaporator 10 includes:

步骤S212，获取蒸发器10的内盘管温度以及制冷剂的低压饱和温度；Step S212, obtaining the inner coil temperature of theevaporator 10 and the low pressure saturation temperature of the refrigerant;

根据内盘管温度以及低压饱和温度，确定内盘过热度。According to the temperature of the inner coil and the low pressure saturation temperature, determine the degree of superheat of the inner disc.

其中，制冷剂的低压饱和温度可以在检测蒸发器10压力后，通过查询数据表得到。在得到内盘管温度以及低压饱和温度，则可以将内盘管温度与低压饱和温度的差值作为内盘过热度，例如，当内盘管温度为10℃，低压饱和温度为5℃，则内盘管过热度为5℃。Wherein, the low-pressure saturation temperature of the refrigerant can be obtained by checking the data table after detecting the pressure of theevaporator 10 . After obtaining the inner coil temperature and low pressure saturation temperature, the difference between the inner coil temperature and the low pressure saturation temperature can be used as the inner coil superheat. For example, when the inner coil temperature is 10°C and the low pressure saturation temperature is 5°C, then the inner coil The superheat of the coil is 5°C.

需要说明的是，由于内盘过热度与内盘管温度以及制冷剂的低压饱和温度关联，且制冷剂的低压饱和温度通常与室内温度之间温差较大，在内盘过热度一定的情况下，内盘管温度与室内温度也具有较大的温差，因此采用与内盘管温度以及低压饱和温度关联的内盘过热度进行除湿，可以将内盘管的温度大幅降低从而提高除湿速度实现快速除湿模式。It should be noted that since the superheat of the inner disk is related to the temperature of the inner coil and the low-pressure saturation temperature of the refrigerant, and the temperature difference between the low-pressure saturation temperature of the refrigerant and the room temperature is usually large, when the superheat of the inner disk is constant, the inner There is also a large temperature difference between the coil temperature and the indoor temperature. Therefore, using the inner coil superheat associated with the inner coil temperature and low-pressure saturation temperature for dehumidification can greatly reduce the temperature of the inner coil to increase the dehumidification speed and realize the fast dehumidification mode.

在本申请的一些实施例中，确定蒸发器10的内盘过热度的步骤包括：In some embodiments of the present application, the step of determining the degree of superheat of the inner pan of theevaporator 10 includes:

步骤S213，获取蒸发器10的内盘管温度以及制冷剂的防冻结保护温度；Step S213, obtaining the temperature of the inner coil of theevaporator 10 and the antifreeze protection temperature of the refrigerant;

根据内盘管温度以及防冻结保护温度，确定内盘过热度。According to the temperature of the inner coil and the temperature of the anti-freezing protection, determine the degree of superheat of the inner disc.

其中，制冷剂的防冻结保护温度可以在查询存储设备内制冷剂的参数而得到。在得到内盘管温度以及防冻结保护温度，则可以将内盘管温度与防冻结保护温度的差值作为内盘过热度，例如，当内盘管温度为10℃，防冻结保护温度为-5℃，则内盘管过热度为15℃。Wherein, the antifreeze protection temperature of the refrigerant can be obtained by querying the parameters of the refrigerant in the storage device. After obtaining the inner coil temperature and the antifreeze protection temperature, the difference between the inner coil temperature and the antifreeze protection temperature can be used as the superheat of the inner coil. For example, when the inner coil temperature is 10°C, the antifreeze protection temperature is -5 °C, the superheat of the inner coil is 15 °C.

需要说明的是，由于内盘过热度与内盘管温度以及制冷剂的防冻结保护温度关联，且制冷剂的防冻结保护温度通常远低于室内温度，在内盘过热度一定的情况下，内盘管温度也远低于室内温度，因此采用与内盘管温度以及防冻结保护温度关联的内盘过热度进行除湿，可以将内盘管的温度大幅降低从而提高除湿速度并实现极速除湿模式。It should be noted that since the superheat of the inner disk is related to the temperature of the inner coil and the antifreeze protection temperature of the refrigerant, and the antifreeze protection temperature of the refrigerant is usually much lower than the room temperature, when the superheat of the inner disk is certain, the inner disk The temperature of the tube is also much lower than the room temperature, so using the superheat of the inner coil associated with the temperature of the inner coil and the anti-freeze protection temperature for dehumidification can greatly reduce the temperature of the inner coil to increase the dehumidification speed and realize the extremely fast dehumidification mode.

步骤S220，根据内盘过热度，控制第一膨胀阀30的开度大小，以改变蒸发器10的内盘管温度进行除湿。Step S220, according to the degree of superheat of the inner disk, the opening degree of thefirst expansion valve 30 is controlled to change the temperature of the inner coil of theevaporator 10 for dehumidification.

在确定内盘过热度后，即可控制第一膨胀阀30的开度大小，以改变蒸发器10的内盘管温度进行除湿。在本申请的一些实施例中，根据内盘过热度，控制第一膨胀阀30的开度大小的步骤包括：After the superheat degree of the inner disk is determined, the opening of thefirst expansion valve 30 can be controlled to change the temperature of the inner coil of theevaporator 10 for dehumidification. In some embodiments of the present application, the step of controlling the opening of thefirst expansion valve 30 according to the degree of superheat of the inner disk includes:

步骤S221，当内盘过热度小于第一预设值时，减小第一膨胀阀30的开度；Step S221, reducing the opening of thefirst expansion valve 30 when the degree of superheat of the inner disk is less than the first preset value;

步骤S222，当内盘过热度大于第二预设值时，增大第一膨胀阀30的开度；Step S222, increasing the opening degree of thefirst expansion valve 30 when the degree of superheat of the inner disk is greater than the second preset value;

步骤S223，当内盘过热度大于或等于第一预设值且小于或等于第二预设值时，保持第一膨胀阀30的开度不变。Step S223, when the degree of superheat of the inner disk is greater than or equal to the first preset value and less than or equal to the second preset value, keep the opening degree of thefirst expansion valve 30 unchanged.

其中，第一预设值、第二预设值可以根据有本领域技术人员的经验值进行设置，也可根据大量实验测试数据确定，对此不做限定。在本申请的一些实施例中，第一膨胀阀30的开度改变值可以通过内盘过热度、第一预设值和/或第二预设值计算得到，例如，第一膨胀阀30的开度改变值可以按如下公式计算：Wherein, the first preset value and the second preset value can be set according to the experience values of those skilled in the art, or can be determined according to a large amount of experimental test data, which is not limited. In some embodiments of the present application, the change value of the opening degree of thefirst expansion valve 30 can be obtained by calculating the superheat degree of the inner disk, the first preset value and/or the second preset value, for example, the opening degree of thefirst expansion valve 30 The degree change value can be calculated according to the following formula:

D1＝S-(S1+S2)/2D1＝S-(S1+S2)/2

其中，D1为第一膨胀阀30的开度改变值，S为内盘过热度，S1为第一预设值，S2为第二预设值。可以理解的，当D1小于0时，则第一膨胀阀30的开度减小D1的绝对值，D1大于0时，则第一膨胀阀30的开度增大D1的绝对值。在本申请的一些实施例中，第一膨胀阀30的开度每90s调节一次，调节范围为最小开度为88b至480b。Wherein, D1 is the change value of the opening degree of thefirst expansion valve 30 , S is the superheat degree of the inner disk, S1 is the first preset value, and S2 is the second preset value. It can be understood that when D1 is less than 0, the opening of thefirst expansion valve 30 decreases by the absolute value of D1, and when D1 is greater than 0, the opening of thefirst expansion valve 30 increases by the absolute value of D1. In some embodiments of the present application, the opening of thefirst expansion valve 30 is adjusted every 90 s, and the adjustment range is a minimum opening of 88b to 480b.

可以理解的，对于本申请的一些实施例，例如对于内盘过热度与内盘管温度以及露点温度关联的实施例，又例如对于内盘过热度与内盘管温度以及制冷剂的低压饱和温度关联的实施例，又例如对于内盘过热度与内盘管温度以及制冷剂的防冻结保护温度关联的实施例，上述不同实施例的第一预设值、第二预设值不一致，以适配于恒温除湿模式、快速除湿模式和极速除湿模式并提供多种除湿模式。It can be understood that, for some embodiments of the present application, for example, for the embodiment in which the degree of superheat of the inner disk is associated with the temperature of the inner coil and the dew point temperature, and for example, for the embodiment in which the degree of superheat of the inner disk is associated with the temperature of the inner coil and the low-pressure saturation temperature of the refrigerant For example, for an embodiment in which the degree of superheat of the inner disk is related to the temperature of the inner coil and the antifreeze protection temperature of the refrigerant, the first preset value and the second preset value of the above-mentioned different embodiments are inconsistent, so as to adapt to the constant temperature Dehumidification mode, fast dehumidification mode and extreme speed dehumidification mode and provide a variety of dehumidification modes.

本申请通过内盘过热度控制第一膨胀阀30的开度大小，第一膨胀阀30的开度大小改变后，使得流入蒸发器10制冷剂的流量得到改变，不同流量的制冷剂在蒸发器10内蒸发带走不同的热量，从而直接改变了蒸发器10的内盘管温度，由于内盘过热度与内盘管温度关联，在除湿过程中实现了对内盘管温度的直接控制，提升了空调器除湿效果以及用户体验。In this application, the opening degree of thefirst expansion valve 30 is controlled by the superheat degree of the inner disk. After the opening degree of thefirst expansion valve 30 is changed, the flow rate of the refrigerant flowing into theevaporator 10 is changed. The internal evaporation takes away different heat, thereby directly changing the temperature of the inner coil of theevaporator 10. Since the superheat of the inner coil is related to the temperature of the inner coil, the temperature of the inner coil is directly controlled during the dehumidification process, which improves the air conditioner. dehumidification effect and user experience.

由于第一膨胀阀30直接控制了内盘管的温度，虽然有利于进行空气除湿，然而可能存在内盘管温度过低而导致制冷剂未完全蒸发现象，例如对于内盘过热度与内盘管温度以及露点温度关联的实施例，又例如对于内盘过热度与内盘管温度以及制冷剂的防冻结保护温度关联的实施例，使得压缩机40吸入液体最终导致压缩机40产生液击现象并缩短其使用寿命。Since thefirst expansion valve 30 directly controls the temperature of the inner coil, although it is beneficial to air dehumidification, there may be a phenomenon that the temperature of the inner coil is too low, resulting in incomplete evaporation of the refrigerant, for example, the superheat of the inner coil and the temperature of the inner coil And the embodiment associated with the dew point temperature, and for example, the embodiment associated with the superheat of the inner disk and the temperature of the inner coil tube and the anti-freeze protection temperature of the refrigerant, so that thecompressor 40 sucks liquid and finally causes thecompressor 40 to produce a liquid hammer phenomenon and shorten its service life.

为此，参阅图3，图3示出了本申请实施例中控制第二膨胀阀50开度的一种流程示意图，在本申请的一些实施例中，空调器还包括第二膨胀阀50，第二膨胀阀50临近蒸发器10的出口设置，空调器除湿方法还包括：For this reason, referring to FIG. 3, FIG. 3 shows a schematic flow chart of controlling the opening degree of thesecond expansion valve 50 in the embodiment of the present application. In some embodiments of the present application, the air conditioner also includes thesecond expansion valve 50, Thesecond expansion valve 50 is arranged near the outlet of theevaporator 10, and the air conditioner dehumidification method also includes:

步骤S310，确定压缩机40的排气过热度；Step S310, determining the exhaust superheat of thecompressor 40;

压缩机40的排气过热度是指与压缩机40排气温度相关联的过热度。在本申请的一些实施例中，参阅图4，图4示出了本申请实施例中确定排气过热度的一种流程示意图，确定排气过热度的步骤包括：The discharge superheat of thecompressor 40 refers to the superheat associated with the discharge temperature of thecompressor 40 . In some embodiments of the present application, referring to FIG. 4, FIG. 4 shows a schematic flow chart of determining the superheat degree of the exhaust gas in the embodiment of the present application, and the step of determining the superheat degree of the exhaust gas includes:

步骤S410，获取压缩机40的排气温度以及排气压力；Step S410, acquiring the discharge temperature and discharge pressure of thecompressor 40;

步骤S420，根据排气压力确定对应的排气饱和温度；Step S420, determining the corresponding exhaust saturation temperature according to the exhaust pressure;

步骤S430，根据排气温度以及排气饱和温度，确定排气过热度。Step S430, determining the degree of superheat of the exhaust gas according to the exhaust gas temperature and the saturation temperature of the exhaust gas.

其中，压缩机40的排气温度可以通过吸气感温包80测量得到，压缩机40的排气压力可以通过低压传感器90测量得到，排气饱和温度可以根据排气压力查询对应的数据表而得到。在得到排气温度以及排气饱和温度，即可将排气温度以及排气饱和温度的差值作为排气过热度，例如，当压缩机40排气温度为40℃，压缩机40排气饱和温度为35℃，则排气过热度为5℃。Wherein, the discharge temperature of thecompressor 40 can be obtained by measuring thesuction temperature sensor 80, the discharge pressure of thecompressor 40 can be obtained by measuring thelow pressure sensor 90, and the discharge saturation temperature can be obtained by querying the corresponding data table according to the discharge pressure. get. After obtaining the exhaust gas temperature and the exhaust saturation temperature, the difference between the exhaust temperature and the exhaust saturation temperature can be used as the exhaust superheat degree. For example, when the exhaust temperature of thecompressor 40 is 40°C, the exhaust gas saturation If the temperature is 35°C, the superheat of the exhaust gas is 5°C.

步骤S320，根据压缩机40的排气过热度，控制第二膨胀阀50的开度大小。Step S320, controlling the opening degree of thesecond expansion valve 50 according to the degree of superheat of the exhaust gas of thecompressor 40 .

在确定压缩机40的排气过热度后，则可以控制第二膨胀阀50的开度大小。在本申请的一些实施例中，根据压缩机40的排气过热度，控制第二膨胀阀50的开度大小步骤包括：After the exhaust superheat degree of thecompressor 40 is determined, the opening degree of thesecond expansion valve 50 can be controlled. In some embodiments of the present application, according to the exhaust superheat of thecompressor 40, the step of controlling the opening of thesecond expansion valve 50 includes:

步骤S321，当排气过热度小于第三预设值时，减小第二膨胀阀50的开度；Step S321, reducing the opening of thesecond expansion valve 50 when the degree of superheat of the exhaust gas is less than the third preset value;

步骤S322，当排气过热度大于第四预设值时，增大第二膨胀阀50的开度；Step S322, increasing the opening degree of thesecond expansion valve 50 when the degree of superheat of the exhaust gas is greater than the fourth preset value;

步骤S323，当排气过热度大于或等于第三预设值且小于或等于第四预设值时，保持第二膨胀阀50的开度不变。Step S323, when the degree of superheat of the exhaust gas is greater than or equal to the third preset value and less than or equal to the fourth preset value, keep the opening degree of thesecond expansion valve 50 unchanged.

其中，第三预设值、第四预设值可以根据有本领域技术人员的经验值进行设置，也可根据大量实验测试数据确定，对此不做限定。当压缩机40的排气过热度过小(例如小于第三预设值)时，说明压缩机40排出的制冷剂可能包含液体，通过减小第二膨胀阀50的开度减小制冷剂的流量，使得制冷剂在蒸发器10内停留的时间延长，从而避免制冷剂未蒸发完全而存在液体的现象；而当压缩机40的排气过热度过大(例如大于第四预设值)时，则可以适当增大第二膨胀阀50的开度，从而加快制冷剂循环，提升制冷除湿效果。Wherein, the third preset value and the fourth preset value can be set according to the experience values of those skilled in the art, or can be determined according to a large amount of experimental test data, which is not limited. When the exhaust superheat of thecompressor 40 is too small (for example, less than the third preset value), it means that the refrigerant discharged from thecompressor 40 may contain liquid, and the opening degree of thesecond expansion valve 50 is reduced to reduce the The flow rate makes the refrigerant stay in theevaporator 10 for a longer time, thereby avoiding the phenomenon that the refrigerant is not completely evaporated and there is liquid; and when the superheat of the exhaust gas of thecompressor 40 is too large (for example, greater than the fourth preset value) , the opening of thesecond expansion valve 50 can be appropriately increased, thereby speeding up the cycle of the refrigerant and improving the effect of refrigeration and dehumidification.

在本申请的一些实施例中，第二膨胀阀50的开度改变值可以通过排气过热度、第三预设值和/或第四预设值计算得到，例如，第二膨胀阀50的开度改变值可以按如下公式计算：In some embodiments of the present application, the change value of the opening degree of thesecond expansion valve 50 can be obtained by calculating the degree of superheat of the exhaust gas, the third preset value and/or the fourth preset value, for example, the opening degree of thesecond expansion valve 50 The opening change value can be calculated according to the following formula:

D2＝(s-(S3+S4)/2)*2D2＝(s-(S3+S4)/2)*2

其中，D2为第二膨胀阀50的开度改变值，s为排气过热度，S1为第三预设值，S2为第四预设值。可以理解的，当D2小于0时，则第二膨胀阀50的开度减小D2的绝对值，D2大于0时，则第二膨胀阀50的开度增大D2的绝对值。在本申请的一些实施例中，第二膨胀阀50的开度每30s调节一次，调节范围为最小开度为88b至480b。Wherein, D2 is the change value of the opening degree of thesecond expansion valve 50 , s is the superheat degree of the exhaust gas, S1 is the third preset value, and S2 is the fourth preset value. It can be understood that when D2 is less than 0, the opening of thesecond expansion valve 50 decreases by the absolute value of D2, and when D2 is greater than 0, the opening of thesecond expansion valve 50 increases by the absolute value of D2. In some embodiments of the present application, the opening of thesecond expansion valve 50 is adjusted every 30 s, and the adjustment range is a minimum opening of 88b to 480b.

值得注意的是，上述关于空调器除湿方法的内容旨在清楚说明本申请的实施验证过程，本领域技术人员在本申请的指导下可以做出等同的修改设计，例如改变第一膨胀阀30开度改变值对应的计算公式，又例如改变第二膨胀阀50开度改变值对应的计算公式。It is worth noting that the above content about the dehumidification method of the air conditioner is intended to clearly illustrate the implementation and verification process of the application, and those skilled in the art can make equivalent modification designs under the guidance of the application, such as changing the opening of thefirst expansion valve 30 The calculation formula corresponding to the degree change value, and for example, changing the calculation formula corresponding to the opening degree change value of thesecond expansion valve 50 .

进一步的，为了更好实施本申请实施例中的除湿方法，在除湿方法基础之上，本申请实施例中还提供一种空调器，空调器包括：Further, in order to better implement the dehumidification method in the embodiment of the present application, on the basis of the dehumidification method, an air conditioner is also provided in the embodiment of the present application, and the air conditioner includes:

一个或多个处理器；one or more processors;

存储器；以及storage; and

一个或多个应用程序，其中一个或多个应用程序被存储于存储器中，并配置为由处理器执行上述任一项实施例的除湿方法中的步骤。One or more application programs, wherein the one or more application programs are stored in the memory and configured to be executed by the processor in the steps in the dehumidification method of any one of the above embodiments.

如图5所示，其示出了本申请实施例所涉及的空调器的结构示意图，具体来讲：As shown in Figure 5, it shows a schematic structural view of the air conditioner involved in the embodiment of the present application, specifically:

该空调器可以包括一个或者一个以上处理核心的处理器510、一个或一个以上计算机可读存储介质的存储器520。本领域技术人员可以理解，图5中示出的结构并不构成对除湿系统的限定，可以包括比图示更多或更少的部件，或者组合某些部件，或者不同的部件布置。其中：The air conditioner may include aprocessor 510 of one or more processing cores, and amemory 520 of one or more computer-readable storage media. Those skilled in the art can understand that the structure shown in Fig. 5 does not constitute a limitation to the dehumidification system, and may include more or less components than shown in the figure, or combine some components, or arrange different components. in:

处理器510是该系统的控制中心，利用各种接口和线路连接整个系统的各个部分，通过运行或执行存储在存储器520内的软件程序和/或模块，以及调用存储在存储器520内的数据，执行系统的各种功能和处理数据，从而对系统进行整体监控。可选的，处理器510可包括一个或多个处理核心；处理器510可以是中央处理单元(Central Processing Unit，CPU)，还可以是其他通用处理器、数字信号处理器(Digital Signal Processor，DSP)、专用集成电路(Application Specific Integrated Circuit，ASIC)、现成可编程门阵列(Field-Programmable Gate Array，FPGA)或者其他可编程逻辑器件、分立门或者晶体管逻辑器件、分立硬件组件等。通用处理器可以是微处理器或者该处理器也可以是任何常规的处理器等，优选的，处理器510可集成应用处理器和调制解调处理器，其中，应用处理器主要处理操作系统、用户界面和应用程序等，调制解调处理器主要处理无线通信。可以理解的是，上述调制解调处理器也可以不集成到处理器510中。Theprocessor 510 is the control center of the system, and uses various interfaces and lines to connect various parts of the entire system, by running or executing software programs and/or modules stored in thememory 520, and calling data stored in thememory 520, Execute various functions of the system and process data to monitor the system as a whole. Optionally, theprocessor 510 may include one or more processing cores; theprocessor 510 may be a central processing unit (Central Processing Unit, CPU), and may also be other general-purpose processors, digital signal processors (Digital Signal Processor, DSP ), Application Specific Integrated Circuit (ASIC), off-the-shelf programmable gate array (Field-Programmable Gate Array, FPGA) or other programmable logic devices, discrete gate or transistor logic devices, discrete hardware components, etc. The general-purpose processor can be a microprocessor or the processor can also be any conventional processor, etc., preferably, theprocessor 510 can integrate an application processor and a modem processor, wherein the application processor mainly processes the operating system, User interface and application programs, etc., modem processor mainly handles wireless communication. It can be understood that the foregoing modem processor may not be integrated into theprocessor 510 .

存储器520可用于存储软件程序以及模块，处理器510通过运行存储在存储器520的软件程序以及模块，从而执行各种功能应用以及数据处理。存储器520可主要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(比如声音播放功能、图像播放功能等)等；存储数据区可存储根据空调器的使用所创建的数据等。此外，存储器520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，例如至少一个磁盘存储器件、闪存器件、或其他易失性固态存储器件。相应地，存储器520还可以包括存储器控制器，以提供处理器510对存储器520的访问。Thememory 520 can be used to store software programs and modules, and theprocessor 510 executes various functional applications and data processing by running the software programs and modules stored in thememory 520 . Thememory 520 can mainly include a program storage area and a data storage area, wherein the program storage area can store an operating system, at least one application program required by a function (such as a sound playback function, an image playback function, etc.); Data created by the use of air conditioners, etc. In addition, thememory 520 may include a high-speed random access memory, and may also include a non-volatile memory, such as at least one magnetic disk storage device, flash memory device, or other volatile solid-state storage devices. Correspondingly, thememory 520 may further include a memory controller to provide theprocessor 510 with access to thememory 520 .

尽管未示出，空调器还可以包括显示单元等，在此不再赘述。具体在本实施例中，空调器中的处理器510会按照如下的指令，将一个或一个以上的应用程序的进程对应的可执行文件加载到存储器520中，并由处理器510来运行存储在存储器520中的应用程序，从而实现各种功能，如下：Although not shown, the air conditioner may further include a display unit, etc., which will not be repeated here. Specifically, in this embodiment, theprocessor 510 in the air conditioner will load the executable file corresponding to the process of one or more application programs into thememory 520 according to the following instructions, and theprocessor 510 will run the executable file stored in the The application program inmemory 520, thus realizes various functions, as follows:

确定蒸发器10的内盘过热度，内盘过热度与蒸发器10的内盘管温度相关联；determining the inner pan superheat of theevaporator 10, the inner pan superheat being correlated with the inner coil temperature of theevaporator 10;

根据内盘过热度，控制第一膨胀阀30的开度大小，以改变蒸发器10的内盘管温度进行除湿。According to the degree of superheat of the inner disk, the opening of thefirst expansion valve 30 is controlled to change the temperature of the inner coil of theevaporator 10 for dehumidification.

为此，本发明实施例提供一种计算机可读存储介质，该存储介质可以包括：只读存储器(Read Only Memory，ROM)、随机存取记忆体(Random Access Memory，RAM)、磁盘或光盘等。其上存储有计算机程序，计算机程序被处理器进行加载，以执行本发明实施例所提供的任一种除湿方法中的步骤。例如，计算机程序被处理器进行加载可以执行如下步骤：To this end, an embodiment of the present invention provides a computer-readable storage medium, which may include: a read-only memory (Read Only Memory, ROM), a random access memory (Random Access Memory, RAM), a magnetic disk or an optical disk, etc. . A computer program is stored thereon, and the computer program is loaded by a processor to execute the steps in any dehumidification method provided by the embodiments of the present invention. For example, when a computer program is loaded by a processor, the following steps may be performed:

确定蒸发器10的内盘过热度，内盘过热度与蒸发器10的内盘管温度相关联；determining the inner pan superheat of theevaporator 10, the inner pan superheat being correlated with the inner coil temperature of theevaporator 10;

根据内盘过热度，控制第一膨胀阀30的开度大小，以改变蒸发器10的内盘管温度进行除湿。According to the degree of superheat of the inner disk, the opening of thefirst expansion valve 30 is controlled to change the temperature of the inner coil of theevaporator 10 for dehumidification.

在上述实施例中，对各个实施例的描述都各有侧重，某个实施例中没有详述的部分，可以参见上文针对其他实施例的详细描述，此处不再赘述。In the above-mentioned embodiments, the descriptions of each embodiment have their own emphases. For the part that is not described in detail in a certain embodiment, refer to the detailed description of other embodiments above, and will not be repeated 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，而并不构成对本申请的限定。虽然此处并没有明确说明，本领域技术人员可能会对本申请进行各种修改、改进和修正。该类修改、改进和修正在本申请中被建议，所以该类修改、改进、修正仍属于本申请示范实施例的精神和范围。The basic concept has been described above, obviously, for those skilled in the art, the above detailed disclosure is only an example, and does not constitute a limitation to the present application. Although not expressly stated here, various modifications, improvements and amendments to this application may be made by those skilled in the art. Such modifications, improvements, and amendments are suggested in this application, so such modifications, improvements, and amendments still belong to the spirit and scope of the exemplary embodiments of this application.

同时，本申请使用了特定词语来描述本申请的实施例。如“一个实施例”、“一实施例”、和/或“一些实施例”意指与本申请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，本申请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。Meanwhile, the present application uses specific words to describe the embodiments of the present application. For example, "one embodiment", "an embodiment", and/or "some embodiments" refer to a certain feature, structure or characteristic related to at least one embodiment of the present application. Therefore, it should be emphasized and noted that two or more references to "an embodiment" or "an embodiment" or "an alternative embodiment" in different places in this specification do not necessarily refer to the same embodiment . In addition, certain features, structures or characteristics of one or more embodiments of the present application may be properly combined.

相应地，本申请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，本申请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。Correspondingly, various aspects of the present application 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 "block", "module", "engine", "unit", "component" or "system". Additionally, aspects of the present application may be embodied as a computer product comprising computer readable program code 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。A computer storage medium may contain a propagated data signal embodying a computer program code, for example, in baseband or as part of a carrier wave. The propagated signal may have various manifestations, including electromagnetic form, optical form, etc., or a suitable combination. A computer storage medium may be any computer-readable medium, other than a computer-readable storage medium, that can be used to communicate, propagate, or transfer a program for use by being coupled to an instruction execution system, apparatus, or device. Program code residing on a computer storage medium may be transmitted over any suitable medium, including radio, electrical cable, fiber optic cable, RF, or the like, or combinations of any of the foregoing.

本申请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 codes required for the operation of each part of this application 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, etc. The program code may run entirely on the user's computer, or as a stand-alone software package, or run partly on the user's computer and partly 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 through any form of network, such as a local area network (LAN) or wide area network (WAN), or to an external computer (such as through 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，本申请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，并非用于限定本申请流程和方法的顺序。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申请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 processing elements and sequences described in the application, the use of numbers and letters, or the use of other designations are not used to limit the order of the flow and methods of the application. While the foregoing disclosure has discussed by way of various examples some embodiments of the invention that are presently believed to be useful, it should be understood that such detail is for illustrative purposes only and that the appended claims are not limited to the disclosed embodiments, but rather, the claims The claims are intended to cover all modifications and equivalent combinations that fall within the spirit and scope of the embodiments of the application. For example, although the system components described above may be implemented by hardware devices, they may also be implemented by a software-only solution, such as installing the described system on an existing server or mobile device.

同理，应当注意的是，为了简化本申请披露的表述，从而帮助对一个或多个发明实施例的理解，前文对本申请实施例的描述中，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申请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。In the same way, it should be noted that in order to simplify the expression disclosed in the present application and help the understanding of one or more embodiments of the invention, in the foregoing description of the embodiments of the present application, sometimes multiple features are combined into one embodiment, drawings or descriptions thereof. This method of disclosure does not, however, imply that the subject matter of the application requires more features than are recited in the claims. Indeed, embodiment features are less than all features of a single foregoing disclosed embodiment.

以上对本申请实施例所提供的一种空调器及其除湿方法、计算机可读存储介质进行了详细介绍，本文中应用了具体个例对本发明的原理及实施方式进行了阐述，以上实施例的说明只是用于帮助理解本发明的方法及其核心思想；同时，对于本领域的技术人员，依据本发明的思想，在具体实施方式及应用范围上均会有改变之处，综上所述，本说明书内容不应理解为对本发明的限制。The air conditioner, its dehumidification method, and computer-readable storage medium provided by the embodiments of the present application have been described in detail above. In this paper, specific examples are used to illustrate the principle and implementation of the present invention. The description of the above embodiments It is only used to help understand the method of the present invention and its core idea; at the same time, for those skilled in the art, according to the idea of the present invention, there will be changes in the specific implementation and scope of application. In summary, this The content of the description should not be construed as limiting the present invention.

Claims (10)

1. A dehumidification method of an air conditioner is characterized in that the air conditioner comprises an evaporator and a condenser, a first expansion valve is arranged on a pipeline connecting an inlet of the evaporator and an outlet of the condenser, and the method comprises the following steps:

determining the superheat degree of an inner disc of the evaporator, wherein the superheat degree of the inner disc is related to the temperature of an inner coil of the evaporator;

and controlling the opening size of the first expansion valve according to the superheat degree of the inner coil so as to change the temperature of the inner coil of the evaporator for dehumidification.

2. The dehumidifying method of an air conditioner according to claim 1, wherein the step of determining the degree of superheat of the inner panel of the evaporator comprises:

acquiring the temperature of an inner coil of the evaporator and the indoor dew point temperature;

and determining the superheat degree of the inner coil according to the temperature of the inner coil and the dew point temperature.

3. The dehumidifying method of an air conditioner according to claim 1, wherein the step of determining the degree of superheat of the inner panel of the evaporator comprises:

acquiring the temperature of an inner coil of the evaporator and the low-pressure saturation temperature of the refrigerant;

and determining the superheat degree of the inner coil according to the temperature of the inner coil and the low-pressure saturation temperature.

4. The dehumidifying method of an air conditioner according to claim 1, wherein the step of determining the degree of superheat of the inner panel of the evaporator comprises:

acquiring the temperature of an inner coil of the evaporator and the anti-freezing protection temperature of the refrigerant;

and determining the superheat degree of the inner coil according to the temperature of the inner coil and the anti-freezing protection temperature.

5. The dehumidifying method of an air conditioner according to any one of claims 1 to 4, wherein the step of controlling the size of the opening degree of the first expansion valve according to the degree of superheat of the inner panel comprises:

when the superheat degree of the inner disc is smaller than a first preset value, the opening degree of the first expansion valve is reduced;

when the superheat degree of the inner disc is larger than a second preset value, the opening degree of the first expansion valve is increased;

and when the superheat degree of the inner disc is greater than or equal to the first preset value and less than or equal to a second preset value, keeping the opening degree of the first expansion valve unchanged.

6. A dehumidifying method of an air conditioner as claimed in claim 1, wherein a compressor and a second expansion valve are provided on a line connecting an outlet of the evaporator and an inlet of the condenser, the method further comprising:

determining the discharge superheat degree of the compressor;

and controlling the opening size of the second expansion valve according to the exhaust superheat degree of the compressor.

7. A dehumidification method according to claim 6, wherein said step of determining a discharge superheat of said compressor comprises:

acquiring the exhaust temperature and the exhaust pressure of the compressor;

determining a corresponding exhaust saturation temperature according to the exhaust pressure;

and determining the exhaust superheat degree according to the exhaust temperature and the exhaust saturation temperature.

8. The dehumidification method according to claim 6, wherein said controlling the opening size of said second expansion valve according to the discharge superheat of said compressor comprises:

when the exhaust superheat degree is smaller than a third preset value, reducing the opening degree of the second expansion valve;

when the exhaust superheat degree is larger than a fourth preset value, increasing the opening degree of the second expansion valve;

and when the exhaust superheat degree is greater than or equal to the third preset value and less than or equal to a fourth preset value, keeping the opening degree of the second expansion valve unchanged.

9. An air conditioner, comprising:

one or more processors;

a memory; and

one or more applications, wherein the one or more applications are stored in the memory and configured to be executed by the processor to implement the dehumidification method of any one of claims 1 to 8.

10. A computer-readable storage medium, having stored thereon a computer program which is loaded by a processor for performing the steps of the dehumidification method according to any one of claims 1 to 8.

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