WO2021238108A1

WO2021238108A1 - Dehumidification control method and apparatus, and dehumidification device

Info

Publication number: WO2021238108A1
Application number: PCT/CN2020/130645
Authority: WO
Inventors: 杜亮; 李文博; 陈会敏; 李海军; 吴洪金
Original assignee: 青岛海尔空调器有限总公司; 海尔智家股份有限公司
Priority date: 2020-05-27
Filing date: 2020-11-20
Publication date: 2021-12-02
Also published as: CN111706964B; CN111706964A

Abstract

The present invention provides a dehumidification control method and apparatus, and a dehumidification device. The present invention comprises: providing different dehumidification modes according to the climate features of different regions; after detecting a region where a dehumidification device is located and the current season time, automatically switching to a dehumidification mode corresponding to the current region where the dehumidification device is located; and after monitoring that the temperature and humidity parameters of the current environment meet the temperature and humidity parameter set values corresponding to the current dehumidification mode, entering a low-frequency operation mode. The present invention meets different dehumidification requirements of the users in different regions, and improves a dehumidification effect.

Description

Dehumidification control method, device and dehumidification equipment

This application is based on a Chinese patent application with an application number of 202010460930.0 and an application date of May 27, 2020, and claims the priority of the Chinese patent application. The entire content of the Chinese patent application is hereby incorporated into this application by reference.

Technical field

The invention belongs to the field of dehumidification technology, and in particular relates to a dehumidification control method, device and dehumidification equipment.

Background technique

my country has a vast territory, and the climatic environment between the south and the north is quite different. The southern region (such as the middle and lower reaches of the Yangtze River and Taiwan) will enter the rainy season every summer (such as June to July), that is, the weather will continue to be cloudy and rainy. The air humidity is high and the temperature is high. And every spring (e.g., March-April) South China will appear in southern my country. The weather is cloudy, sunny, very humid, with light rain or heavy fog during the period. After the surface of cold objects encounters warm and humid air currents, they begin to appear on the surface. Congealed.

Users in the above-mentioned areas usually use corresponding equipment for dehumidification. For example, air conditioners and dehumidifiers with dehumidification function, but current dehumidification methods cannot provide precise dehumidification solutions suitable for actual environments according to different regions, resulting in poor dehumidification effects.

Summary of the invention

In view of this, the purpose of the present invention is to provide a dehumidification control method, device and dehumidification equipment to implement different dehumidification solutions according to the different needs of different regions, so as to achieve precise control of the dehumidification process in different regions. The technical solutions are as follows:

In one aspect, the present invention provides a dehumidification control method, including:

Get the current geographical area and current season time of the dehumidification equipment;

When it is determined that the current geographic area belongs to a preset area, and the current season time is in the dehumidification season corresponding to the preset area, operating in a dehumidification mode corresponding to the preset area;

Acquiring actual temperature and humidity information of the environment where the dehumidification equipment is located;

When the actual temperature and humidity information reaches the temperature and humidity parameter setting value corresponding to the currently running dehumidification mode, the low-frequency operation mode is entered.

Optionally, the process of determining whether the current geographical area belongs to a preset area and whether the current season is in the corresponding dehumidification season includes:

Judging whether the geographic area where the dehumidification equipment is currently located is a preset area, wherein the preset area includes a first preset area and a second preset area;

If the current geographic area belongs to the first preset area, determining whether the current season time belongs to the first preset dehumidification season corresponding to the first preset area;

If the current season time belongs to the first preset dehumidification season, the operation is in the dehumidification mode corresponding to the first preset area;

If the current geographic area belongs to the second preset area, determining whether the current season time belongs to the preset dehumidification season corresponding to the second preset area;

If the current season time belongs to the second preset dehumidification season, run the dehumidification mode corresponding to the second preset area;

If the current geographic area does not belong to the first preset area and the second preset area, it runs in a dehumidification mode corresponding to a common area.

Optionally, when the actual temperature and humidity information reaches the temperature and humidity parameter setting value corresponding to the currently running dehumidification mode, entering the low-frequency operation mode includes:

The dehumidification equipment is operating in a dehumidification mode corresponding to the first preset area, and the humidity of the environment in which the dehumidification equipment is located reaches the first humidity target value corresponding to the currently operating dehumidification mode, and enters the low-frequency operation mode, so that all The humidity of the environment where the dehumidification equipment is located is maintained within a preset range of the first target humidity value.

The dehumidification equipment operates in a dehumidification mode corresponding to the second preset area, and detects that the humidity of the environment in which the dehumidification equipment is located first reaches the second humidity target value corresponding to the current dehumidification mode, and enters the low-frequency operation mode, So that the humidity of the environment where the dehumidification device is located is maintained within the preset range of the second humidity target value, and the temperature of the environment where the dehumidification device is located is maintained at the current temperature;

The dehumidification equipment is operating in the dehumidification mode corresponding to the second preset area, and it is detected that the temperature of the environment in which the dehumidification equipment is located first reaches the temperature target value corresponding to the current dehumidification mode, and enters the low-frequency operation mode, so that The humidity of the environment where the dehumidification device is located is maintained within a preset range of current humidity, and the temperature of the environment where the dehumidification device is located is maintained within the preset range of the temperature target value.

When the dehumidification equipment is operating in the dehumidification mode corresponding to the common area, and it is detected that the humidity of the environment where the dehumidification equipment is located first reaches the humidity setting value, it enters the low-frequency operation mode to make the environment where the dehumidification equipment is located Keep the humidity within the preset range of the humidity setting value;

When the dehumidification equipment is operating in the dehumidification mode corresponding to the common area, and it is detected that the temperature of the environment where the dehumidification equipment is located first reaches the temperature setting value, it enters the low-frequency operation mode, so that the environment where the dehumidification equipment is located The temperature is kept within the preset range of the temperature setting value.

Optionally, the method further includes:

After receiving the operation instruction of the preset dehumidification mode, directly switch to the preset dehumidification mode, and when it is detected that the actual temperature and humidity information of the environment in which the dehumidification equipment is located reaches the temperature corresponding to the preset dehumidification mode When the humidity parameter is set, it enters the low-frequency operation mode.

On the other hand, the present invention also provides a dehumidification control device, including:

The first obtaining module is used to obtain the geographical area where the dehumidification equipment is currently located;

The second acquisition module is used to acquire the current season time;

The dehumidification mode determination module is configured to switch to the dehumidification corresponding to the preset area when it is determined that the current geographic area belongs to a preset area and the current season time is in the dehumidification season corresponding to the preset area model;

The low-frequency mode switching module is configured to enter the low-frequency operation mode when it is detected that the actual temperature and humidity information of the environment in which the dehumidification device is located reaches the temperature and humidity parameter setting value corresponding to the currently running dehumidification mode.

Optionally, the dehumidification mode determination module includes:

The region judgment sub-module is used to determine whether the geographic region where the dehumidification equipment is currently located is a preset region, wherein the preset region includes a first preset region and a second preset region;

The first seasonal time judging submodule is used to judge whether the current seasonal time belongs to the first preset corresponding to the first preset area when the current geographic area belongs to the first preset area Dehumidification season

The first dehumidification mode determination sub-module is configured to operate the dehumidification mode corresponding to the first preset region when the current season time belongs to the first preset dehumidification season;

The second season time judging submodule is used for judging whether the current season time belongs to the preset dehumidification season corresponding to the second preset area when the current geographic area belongs to the second preset area ；

The second dehumidification mode determination sub-module is configured to operate in the dehumidification mode corresponding to the second preset area when the current season time belongs to the second preset dehumidification season;

The third dehumidification mode determination submodule is configured to operate in a dehumidification mode corresponding to a common area when the current geographic area does not belong to the first preset area and the second preset area.

Optionally, the low frequency mode switching module includes:

The first low-frequency mode switching sub-module is used for when the dehumidification equipment is currently operating in the dehumidification mode corresponding to the first preset area, and the humidity of the environment in which the dehumidification equipment is located reaches the first dehumidification mode corresponding to the currently operating dehumidification mode. When the humidity target value is reached, enter a low-frequency operation mode, so that the humidity of the environment where the dehumidification device is located is maintained within the preset range of the first humidity target value;

The second low-frequency mode switching sub-module is used for when the dehumidification equipment is operating in the dehumidification mode corresponding to the second preset area, and it is detected that the humidity of the environment in which the dehumidification equipment is located first reaches the level corresponding to the current dehumidification mode At the second humidity target value, enter the low-frequency operation mode, so that the humidity of the environment where the dehumidification device is located is maintained within the preset range of the second humidity target value, and the temperature of the environment where the dehumidification device is located is maintained at the current temperature;

The third low-frequency mode switching sub-module is configured to enter when the dehumidification equipment is in the second preset area and it is detected that the temperature of the environment where the dehumidification equipment is located first reaches the temperature target value corresponding to the current dehumidification mode A low-frequency operation mode, so that the humidity of the environment where the dehumidification device is located is maintained within the preset range of current humidity, and the temperature of the environment where the dehumidification device is located is maintained within the preset range of the temperature target value;

The fourth low-frequency mode switching sub-module is used to enter the low-frequency operation mode when the dehumidification equipment is operating in the dehumidification mode corresponding to the common area, and it is detected that the humidity of the environment in which the dehumidification equipment is located first reaches the humidity setting value , So that the humidity of the environment where the dehumidification equipment is located is maintained within the preset range of the humidity setting value.

The fifth low-frequency mode switching sub-module is used to enter the low-frequency operation mode when the dehumidification equipment is operating in the dehumidification mode corresponding to the common area, and it is detected that the temperature of the environment in which the dehumidification equipment is located first reaches the temperature setting value , So as to keep the temperature of the environment where the dehumidification equipment is located within the preset range of the temperature setting value.

In another aspect, the present invention also provides a dehumidification device, a memory, and a processor, wherein the memory stores program instructions that can be called and executed by the processor;

The processor executes the program instructions to implement the following steps:

Get the geographic area where the initial device is currently located, and get the current season time;

When it is determined that the current geographical area belongs to a preset area, and the current season time is in the dehumidification season corresponding to the preset area, switch to the dehumidification mode corresponding to the preset area;

The dehumidification control method provided by the present invention obtains the geographical area where the dehumidification equipment is located and the current season time. If the geographical area belongs to a preset area and the current season time belongs to the corresponding dehumidification season, switch to the dehumidification mode corresponding to the preset area . Then, obtain the actual temperature and humidity information of the environment where the dehumidification equipment is located, and if the actual temperature and humidity information of the current environment reaches the temperature and humidity parameter setting value corresponding to the current dehumidification mode, switch from the current dehumidification mode to the low-frequency operation mode. It can be seen from the above content that the program provides different dehumidification modes for the climate characteristics of different regions, and after detecting the region where the dehumidification equipment is located and the current season time, it will automatically switch to the corresponding dehumidification equipment and the current region. Dehumidification mode, and enter the low-frequency operation mode after monitoring that the temperature and humidity parameters of the current environment meet the set values of the temperature and humidity parameters corresponding to the current dehumidification mode. Meet the different dehumidification needs of users in different regions, and improve the dehumidification effect.

Description of the drawings

In order to explain the embodiments of the present invention or the technical solutions in the prior art more clearly, the following will briefly introduce the drawings that need to be used in the description of the embodiments or the prior art. Obviously, the drawings in the following description are For some of the embodiments of the present invention, those of ordinary skill in the art can obtain other drawings based on these drawings without creative work.

Fig. 1 is a flowchart of a dehumidification control method provided by an embodiment of the present application;

Figure 2 is a schematic diagram of a dehumidification control system provided by an embodiment of the present application;

Figure 3 is a flowchart of another dehumidification control method provided by an embodiment of the present application;

Figure 4 is a schematic diagram of a dehumidification control device provided by an embodiment of the present application;

FIG. 5 is a schematic diagram of a dehumidification mode determination module provided by an embodiment of the present application;

Fig. 6 is a schematic diagram of a low frequency mode switching module provided by an embodiment of the present application.

Detailed ways

In order to make the objectives, technical solutions, and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be described clearly and completely in conjunction with the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments It is a part of the embodiments of the present invention, but not all of the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those of ordinary skill in the art without creative work shall fall within the protection scope of the present invention.

Existing dehumidification control schemes cannot provide precise dehumidification schemes for the dehumidification needs of different regions. For example, traditional dehumidification schemes will result in poor dehumidification effects in areas during the rainy season, and low temperatures after dehumidification in "Hui Nantian" areas. In order to solve this technical problem, the present invention provides an embodiment of a dehumidification control method. Please refer to FIG. 1, which shows a flow chart of a dehumidification control method provided by an embodiment of the present application. The method is used to control the operation mode of the dehumidification equipment.

As shown in Figure 1, the method includes the following steps:

S110: Acquire the current geographic area and current season time of the dehumidification equipment.

In the embodiment of the present application, the dehumidification device may be an air conditioner with a dehumidification function, or a dehumidifier. Among them, the working principle of air conditioner dehumidification is that the indoor heat exchanger of the air conditioner is in a low temperature state. When the water vapor in the indoor return air passes through the indoor heat exchanger, the temperature is reduced to the dew point temperature under the cooling effect of the indoor heat exchanger. , The water vapor in the air is condensed into water, thereby reducing the moisture content in the indoor air, thereby reducing the indoor humidity.

In an application scenario, the dehumidification equipment has an intelligent control function. For example, as shown in Figure 2, the dehumidification equipment 1 is connected to the server 2, and the client 3 bound to the dehumidification equipment 1 (for example, the APP installed on the mobile terminal device) ) Is also connected to server 2.

In this application scenario, the user can set the geographic area where the dehumidification device is currently located through the APP bound to the dehumidification device and store it in the server. When the dehumidification equipment is powered on, it obtains the current geographic area and the current season time from the server connected to it; of course, the dehumidification equipment can also obtain the current season time from its own timing module.

S120: When it is determined that the current geographic area belongs to the preset area, and the current season time is in the dehumidification season corresponding to the preset area, run in the dehumidification mode corresponding to the preset area.

When the dehumidification equipment determines that the current geographical area belongs to the preset area, and the current season time is in the dehumidification season corresponding to the preset area, the initial equipment operates in the dehumidification mode corresponding to the preset area.

In an embodiment of the present application, if the dehumidification equipment is currently located in an area with the characteristics of the rainy season, and the current season is in the rainy season (such as June to July), the dehumidification equipment operates in the rainy season dehumidification mode corresponding to the feature of the rainy season .

In another embodiment of the present application, if the dehumidification equipment is currently located in a region with the characteristics of "Huinantian" and the current season is in the "Huinantian" season (such as March-April), the dehumidification equipment is operating in the "Huinantian" season. Nantian dehumidification mode corresponding to the seasonal characteristics of "Nantian".

Whether it is the rainy season dehumidification mode or the Nantian dehumidification mode, the dehumidification is carried out at the maximum gear at the beginning. The difference is that the conditions for switching from the current dehumidification mode to the low-frequency operation mode are different.

S130: Acquire actual temperature and humidity information of the environment where the dehumidification equipment is located.

The temperature and humidity parameters of the environment where the dehumidification equipment is located are collected through the corresponding sensors set on the dehumidification equipment. For example, the humidity sensor is used to collect the return air humidity of the dehumidification equipment, and the temperature sensor is used to collect the return air temperature of the dehumidification equipment.

S140: When the actual temperature and humidity information reaches the temperature and humidity parameter setting value corresponding to the currently running dehumidification mode, enter the low frequency operation mode.

In an embodiment of the present application, the dehumidification equipment is currently operating in the rainy season dehumidification mode. Since the rainy season is characterized by high air humidity and high temperature, it is only necessary to monitor the humidity in the current environment. If the humidity of the current environment reaches the rainy season The first humidity target value corresponding to the dehumidification mode is switched from the rainy season dehumidification mode to the low-frequency operation mode.

In another embodiment of the present application, the dehumidification equipment is currently operating in the Huinantian dehumidification mode, because the "Huinantian" season is characterized by cloudy, sunny and very humid, that is, the temperature in the "huinantian" area is not high and the humidity is very high. Moreover, dehumidification will also reduce the temperature of the environment. Therefore, in order to avoid returning to Nantian users from making the environment temperature too low when using dehumidification equipment for dehumidification, it is necessary to monitor the humidity and temperature at the same time. If the humidity of the current environment first reaches the second humidity target value corresponding to the Huinantian dehumidification mode, the low-frequency operation mode is entered. If the temperature of the current environment first reaches the temperature target value corresponding to the Huinantian dehumidification mode, it will enter the low-frequency operation mode.

In the embodiment of the present application, the target value corresponding to the temperature and humidity can be set through the APP bound to the dehumidification device. For another example, the user can also set the temperature and humidity target value through the control panel or remote control of the dehumidification device, which is not limited in this application.

The dehumidification control method provided in this embodiment obtains the geographical area where the dehumidification equipment is located and the current season time. If the geographical area belongs to the preset area and the current season time belongs to the corresponding dehumidification season, switch to the dehumidification corresponding to the preset area model. Then, obtain the actual temperature and humidity information of the environment where the dehumidification equipment is located, and if the actual temperature and humidity information of the current environment reaches the temperature and humidity parameter setting value corresponding to the current dehumidification mode, switch from the current dehumidification mode to the low-frequency operation mode. It can be seen from the above content that the program provides different dehumidification modes for the climate characteristics of different regions, and after detecting the region where the dehumidification equipment is located and the current season time, it will automatically switch to the corresponding dehumidification equipment and the current region. Dehumidification mode, and enter the low-frequency operation mode after monitoring that the temperature and humidity parameters of the current environment meet the set values of the temperature and humidity parameters corresponding to the current dehumidification mode. Meet the different dehumidification needs of users in different regions, and improve the dehumidification effect.

Please refer to FIG. 3, which shows a flowchart of another dehumidification control method provided by an embodiment of the present application. This embodiment will introduce in detail the dehumidification modes corresponding to different regions. As shown in Figure 3, the method includes the following steps:

S210: Acquire the current geographical area and the current season time of the dehumidification equipment.

S220: Determine whether the current geographic area is a preset area, and whether the current season time is a dehumidification season corresponding to the preset area.

In an embodiment of the present application, the preset area includes the Meiyu season area with the characteristics of the rainy season (ie, the first preset area) and the Huinantian area with the feature of "Hui Nantian" (ie, the second preset area). The corresponding dehumidification season in the Meiyu season is summer (e.g., June to July), and the dehumidification season for one in the Huinantian area is spring (e.g., March-April).

If the current geographical area of the dehumidification equipment belongs to the rainy season area, and the current season time belongs to the rainy season time, determine that the current area and time meet the characteristics of the rainy season, and execute S230 to run in the rainy season dehumidification mode.

If the current geographical area of the dehumidification equipment belongs to the Huinantian seasonal region, and the current season time belongs to the Huinantian seasonal time, it is determined that the current region and time meet the characteristics of the Huinantian, and execute S240 to run in the Huinantian dehumidification mode.

If the current geographic area of the dehumidification equipment does not belong to either the rainy season area or the Huinantian area, it is determined that the current area belongs to a common area and S270 is executed.

In other embodiments of the present application, it is possible to first determine whether the current season time is in a possible dehumidification season, and if so, then determine whether the current geographic area is in the preset area corresponding to the current dehumidification season. The specific judgment process is the same as the above content, and will not be repeated here.

S230: Dehumidify at the maximum gear and detect the humidity of the current environment. When the detected humidity reaches the first humidity target value, enter the low-frequency operation mode.

In the rainy season dehumidification mode, the dehumidification equipment dehumidifies at the maximum gear and detects whether the current environment humidity reaches the first humidity target value. If the first humidity target value is reached, the dehumidification equipment switches from the rainy season dehumidification mode to low frequency operation Mode to keep the current environment within the preset range of the first humidity target value.

S240: Dehumidify at the maximum gear, and detect whether the temperature and humidity of the current environment reach the set value corresponding to the Nantian dehumidification mode.

In the Huinantian dehumidification mode, the dehumidification equipment dehumidifies at the maximum gear and detects whether the humidity and temperature of the current environment reach the set value corresponding to the Huinantian dehumidification mode. Among them, the humidity setting value corresponding to the Huinantian dehumidification mode is called the second humidity target value, and the temperature setting value corresponding to the Huinantian dehumidification mode is called the temperature target value.

S250: If it is detected that the humidity of the current environment reaches the second humidity target value first, enter the low frequency operation mode.

When it is detected that the humidity of the current environment reaches the second humidity target value first, the dehumidification device switches from the Nantian dehumidification mode to the low-frequency operation mode to keep the humidity of the current environment within the preset range of the second humidity target value.

S260: If it is detected that the temperature of the current environment reaches the temperature target value first, enter the low frequency operation mode.

If the temperature of the current environment reaches the corresponding temperature target value first, the dehumidification equipment will switch from the Nantian dehumidification mode to the low-frequency operation mode, so that the humidity of the current environment maintains the current humidity value and the temperature of the current environment remains at the preset temperature target value Within the range, so as to avoid continued dehumidification to cause the current environmental temperature to drop.

Among them, the temperature target value can be set according to actual requirements, for example, the system default value of the temperature target value is 15°C.

S270: Obtain the operating parameters set by the user, run in the mode corresponding to the operating parameters, and detect whether the actual temperature and humidity information of the current environment reaches the set value corresponding to the current mode.

The operating parameters set by the user include but are not limited to air volume, wind direction, gear position, etc.

In an embodiment of the present application, it is determined that the current area of the dehumidification equipment is a common area, and the dehumidification equipment can operate according to the operating parameters set by the user.

In another embodiment of the present application, it is determined that the current area of the dehumidification equipment is a common area, and if the user has not set the operating parameters, the dehumidification equipment can operate according to the default dehumidification operating parameters of the system.

In this application scenario, after the dehumidification equipment is running, it obtains the temperature and humidity information of the current environment, and detects whether the current temperature and humidity reach the corresponding set value.

S280: If it is detected that the humidity of the current environment reaches the corresponding humidity set value first, the low frequency operation mode is entered.

In the case of setting the temperature and humidity values at the same time, when it is detected that the humidity of the current environment reaches the humidity setting value first, the dehumidification equipment enters the low frequency operation mode to keep the humidity of the current environment at the preset humidity setting value Within range.

S290: If it is detected that the temperature of the current environment reaches the corresponding temperature set value first, enter the low frequency operation mode.

When the temperature and humidity values are set at the same time, when it is detected that the temperature of the current environment reaches the temperature set value first, the dehumidification equipment enters the low-frequency operation mode to keep the current environment temperature at the preset temperature set value. Set within the range. At the same time, the humidity is maintained within the preset range of the current humidity, thereby avoiding the current environment temperature from being too low.

The dehumidification control method provided in this embodiment provides different dehumidification modes for regions in the rainy season, regions in the southern sky, and ordinary regions. Determine which dehumidification mode the device is currently operating in based on the area where the equipment is currently located and the current season time. In addition, after monitoring that the temperature and humidity parameters of the current environment meet the setting values of the temperature and humidity parameters corresponding to the current dehumidification mode, it enters the low-frequency operation mode, thereby meeting the different dehumidification needs of users in different regions and improving the dehumidification effect.

In another application scenario of the present application, a specific dehumidification mode may be set on the control panel or remote control of the dehumidification equipment, such as a button corresponding to the dehumidification mode in the rainy season, and the dehumidification mode in South China. For example, when the user touches a corresponding button on the remote control, the remote control generates a corresponding operation instruction of the dehumidification mode and sends it to the dehumidification equipment, and the dehumidification equipment directly switches to the corresponding dehumidification mode after receiving the operation instruction.

Corresponding to the foregoing embodiment of the dehumidification control method, the present application also provides an embodiment of the dehumidification control device.

Refer to Figure 4, which shows that the device is used to control the dehumidification operation state of the dehumidification equipment. As shown in Figure 4, the device includes:

The first obtaining module 110 is used to obtain the geographic area where the dehumidification equipment is currently located.

The second obtaining module 120 is used to obtain the current season time.

The dehumidification mode determination module 130 is configured to switch to the dehumidification mode corresponding to the preset area when it is determined that the current geographic area belongs to the preset area and the current season time is in the dehumidification season corresponding to the preset area.

In an embodiment of the present application, as shown in FIG. 5, the dehumidification mode determination module 130 includes:

The area judgment sub-module 131 is used to judge whether the geographic area where the dehumidification equipment is currently located is a preset area, where the preset area includes a first preset area and a second preset area;

The first season time judging submodule 132 is used for judging whether the current season time belongs to the first preset dehumidification season corresponding to the first preset area when the current geographic area belongs to the first preset area.

The first dehumidification mode determination sub-module 133 is configured to operate the dehumidification mode corresponding to the first preset region when the current season time belongs to the first preset dehumidification season;

The second season time judging submodule 134 is used for judging whether the current season time belongs to the preset dehumidification season corresponding to the second preset area when the current geographic area belongs to the second preset area;

The second dehumidification mode determination submodule 135 is configured to operate the dehumidification mode corresponding to the second preset region when the current season time belongs to the second preset dehumidification season.

The third dehumidification mode determination sub-module 136 is configured to operate in the dehumidification mode corresponding to the general area and does not belong to the first preset area and the second preset area in the current geographic area.

The low-frequency mode switching module 140 is configured to enter the low-frequency operation mode when the actual temperature and humidity information of the environment in which the dehumidification equipment is located reaches the temperature and humidity parameter setting value corresponding to the currently running dehumidification mode.

In an embodiment of the present application, as shown in FIG. 6, the low frequency mode switching module 140 includes:

The first low-frequency mode switching sub-module 141 is used for when the dehumidification equipment is currently operating in the dehumidification mode corresponding to the first preset area, and the humidity of the environment where the dehumidification equipment is located reaches the first humidity target value corresponding to the currently operating dehumidification mode At the time, the low-frequency operation mode is entered to keep the humidity of the environment in which the dehumidification equipment is located within the preset range of the first humidity target value.

The second low-frequency mode switching sub-module 142 is used for when the dehumidification equipment is operating in the dehumidification mode corresponding to the second preset area, and it is detected that the humidity of the environment where the dehumidification equipment is located first reaches the second humidity target value corresponding to the current dehumidification mode When the time, the low-frequency operation mode is entered, so that the humidity of the environment where the dehumidification device is located is maintained within the preset range of the second humidity target value, and the temperature of the environment where the dehumidification device is located is maintained at the current temperature.

The third low-frequency mode switching sub-module 143 is used to enter when the dehumidification equipment is operating in the dehumidification mode corresponding to the second preset area and it is detected that the temperature of the environment where the dehumidification equipment is located first reaches the temperature target value corresponding to the current dehumidification mode Low-frequency operation mode to keep the humidity of the environment where the dehumidification equipment is located within the preset range of current humidity, and the temperature of the environment where the dehumidification equipment is located within the preset range of the temperature target value.

The fourth low-frequency mode switching sub-module 144 is used to enter the low-frequency operation mode when the dehumidification equipment is operating in the dehumidification mode corresponding to the common area, and it is detected that the humidity of the environment where the dehumidification equipment is located first reaches the humidity setting value, so as to make the dehumidification equipment The humidity of the environment is kept within the preset range of the humidity setting value.

The fifth low-frequency mode switching sub-module 145 is used to enter the low-frequency operation mode when the dehumidification equipment is operating in the dehumidification mode corresponding to the common area and it is detected that the temperature of the environment where the dehumidification equipment is located first reaches the temperature setting value, so as to make the dehumidification equipment The temperature of the environment is kept within the preset range of the temperature setting.

In other application scenarios of the present application, a specific dehumidification mode is set on the control panel or remote control of the dehumidification equipment, such as a button corresponding to the dehumidification mode in the rainy season, and the dehumidification mode in the southern sky. For example, when the user touches a corresponding button on the remote control, the remote control generates a corresponding operation instruction of the dehumidification mode and sends it to the dehumidification equipment, and the dehumidification equipment directly switches to the corresponding dehumidification mode after receiving the operation instruction.

The dehumidification control device provided in this embodiment provides different dehumidification modes according to the climate characteristics of different regions, and after detecting the region where the dehumidification equipment is located and the current season time, it automatically switches to the same location as the current location of the dehumidification equipment. Corresponding dehumidification mode, and enter the low-frequency operation mode after monitoring that the temperature and humidity parameters of the current environment meet the set values of the temperature and humidity parameters corresponding to the current dehumidification mode. Meet the different dehumidification needs of users in different regions, and improve the dehumidification effect.

On the other hand, the present application also provides a dehumidification control system, as shown in Figure 2, the system includes a dehumidification device 1, a server 2, and a client 3 bound to the dehumidification device.

The dehumidification equipment 1 and the server 2 communicate through the Internet, and the client 3 and the server 2 communicate through the Internet. The user can set the geographic area where the dehumidification device 1 is located through the client 3, and the client 1 sends the geographic area where the dehumidification device 1 is currently located to the server 2 for storage. When the dehumidification equipment 1 is operating in the dehumidification state, it obtains the current geographic area corresponding to itself from the server 2 and executes the aforementioned dehumidification control method.

The present application provides a dehumidification device. The dehumidification device includes a processor and a memory, and the memory stores a program that can run on the processor. When the processor runs the program stored in the memory, any one of the aforementioned dehumidification control methods is implemented.

The present application also provides a processor, which implements any of the aforementioned dehumidification control methods when the processor runs the program stored in the memory.

The present application also provides a storage medium executable by the dehumidification device, the storage medium stores a program, and when the program is executed by a processor in the dehumidification device, any one of the above-mentioned dehumidification control methods is implemented.

For the foregoing method embodiments, for the sake of simple description, they are all expressed as a series of action combinations, but those skilled in the art should know that the present invention is not limited by the described sequence of actions, because according to the present invention, Some steps can be performed in other order or at the same time. Secondly, those skilled in the art should also know that the embodiments described in the specification are all preferred embodiments, and the actions and modules involved are not necessarily required by the present invention.

It should be noted that the technical features recorded in the various embodiments in this specification can be substituted or combined with each other. Each embodiment focuses on the differences from other embodiments, and the same and similar parts between the various embodiments are mutually exclusive. Just see. For the device embodiment, since it is basically similar to the method embodiment, the description is relatively simple, and for related parts, please refer to the part of the description of the method embodiment.

The steps in the method of each embodiment of the present application can be adjusted, merged, and deleted in order according to actual needs.

The modules and sub-modules in the devices and terminals in the embodiments of the present application can be combined, divided, and deleted according to actual needs.

In the several embodiments provided in this application, it should be understood that the disclosed terminal, device, and method may be implemented in other ways. For example, the terminal embodiments described above are only illustrative. For example, the division of modules or sub-modules is only a logical function division. In actual implementation, there may be other division methods, for example, multiple sub-modules or modules may be combined. Or it can be integrated into another module, or some features can be ignored or not implemented. In addition, the displayed or discussed mutual coupling or direct coupling or communication connection may be indirect coupling or communication connection through some interfaces, devices or modules, and may be in electrical, mechanical or other forms.

The modules or sub-modules described as separate components may or may not be physically separate, and the components as modules or sub-modules may or may not be physical modules or sub-modules, that is, they may be located in one place or distributed to Multiple network modules or sub-modules. Some or all of the modules or sub-modules may be selected according to actual needs to achieve the objectives of the solutions of the embodiments.

In addition, the functional modules or sub-modules in the various embodiments of the present application may be integrated into one processing module, or each module or sub-module may exist alone physically, or two or more modules or sub-modules may be integrated in In one module. The above-mentioned integrated modules or sub-modules can be implemented in the form of hardware or software function modules or sub-modules.

Finally, it should be noted that in this article, relational terms such as first and second are only used to distinguish one entity or operation from another entity or operation, and do not necessarily require or imply these entities. Or there is any such actual relationship or sequence between operations. Moreover, the terms "including", "including" or any other variants thereof are intended to cover non-exclusive inclusion, so that a process, method, article, or device that includes a series of elements includes not only those elements, but also those that are not explicitly listed Other elements of, or also include elements inherent to this process, method, article or equipment. If there are no more restrictions, the element defined by the sentence "including a..." does not exclude the existence of other identical elements in the process, method, article, or equipment that includes the element.

The foregoing description of the disclosed embodiments enables those skilled in the art to implement or use the present invention. Various modifications to these embodiments will be obvious to those skilled in the art, and the general principles defined herein can be implemented in other embodiments without departing from the spirit or scope of the present invention. Therefore, the present invention will not be limited to the embodiments shown in this document, but should conform to the widest scope consistent with the principles and novel features disclosed in this document.

The above are only the preferred embodiments of the present invention. It should be pointed out that for those of ordinary skill in the art, without departing from the principle of the present invention, several improvements and modifications can be made, and these improvements and modifications are also It should be regarded as the protection scope of the present invention.

Claims

A dehumidification control method, characterized in that it comprises:

Get the current geographical area and current season time of the dehumidification equipment;

When it is determined that the current geographic area belongs to a preset area, and the current season time is in the dehumidification season corresponding to the preset area, operating in a dehumidification mode corresponding to the preset area;

Acquiring actual temperature and humidity information of the environment where the dehumidification equipment is located;

When the actual temperature and humidity information reaches the temperature and humidity parameter setting value corresponding to the currently running dehumidification mode, the low-frequency operation mode is entered.
The method according to claim 1, wherein the process of determining whether the current geographic area belongs to a preset area and whether the current season time is in the corresponding dehumidification season comprises:

Judging whether the geographic area where the dehumidification equipment is currently located is a preset area, wherein the preset area includes a first preset area and a second preset area;

If the current geographic area belongs to the first preset area, determining whether the current season time belongs to the first preset dehumidification season corresponding to the first preset area;

If the current season time belongs to the first preset dehumidification season, the operation is in the dehumidification mode corresponding to the first preset area;

If the current geographic area belongs to the second preset area, determining whether the current season time belongs to the preset dehumidification season corresponding to the second preset area;

If the current season time belongs to the second preset dehumidification season, run the dehumidification mode corresponding to the second preset area;

If the current geographic area does not belong to the first preset area and the second preset area, it runs in a dehumidification mode corresponding to a common area.
The method according to claim 2, wherein when the actual temperature and humidity information reaches the temperature and humidity parameter setting value corresponding to the currently running dehumidification mode, entering the low frequency operation mode, comprising:

The dehumidification equipment is operating in a dehumidification mode corresponding to the first preset area, and the humidity of the environment in which the dehumidification equipment is located reaches the first humidity target value corresponding to the currently operating dehumidification mode, and enters the low-frequency operation mode, so that all The humidity of the environment where the dehumidification equipment is located is maintained within a preset range of the first target humidity value.
The method according to claim 2, wherein when the actual temperature and humidity information reaches the temperature and humidity parameter setting value corresponding to the currently running dehumidification mode, entering the low frequency operation mode, comprising:

The dehumidification equipment operates in a dehumidification mode corresponding to the second preset area, and detects that the humidity of the environment in which the dehumidification equipment is located first reaches the second humidity target value corresponding to the current dehumidification mode, and enters the low-frequency operation mode, So that the humidity of the environment where the dehumidification device is located is maintained within the preset range of the second humidity target value, and the temperature of the environment where the dehumidification device is located is maintained at the current temperature;

The dehumidification equipment is operating in the dehumidification mode corresponding to the second preset area, and it is detected that the temperature of the environment in which the dehumidification equipment is located first reaches the temperature target value corresponding to the current dehumidification mode, and enters the low-frequency operation mode, so that The humidity of the environment where the dehumidification device is located is maintained within a preset range of current humidity, and the temperature of the environment where the dehumidification device is located is maintained within the preset range of the temperature target value.
The method according to claim 2, wherein when the actual temperature and humidity information reaches the temperature and humidity parameter setting value corresponding to the currently running dehumidification mode, entering the low frequency operation mode comprises:

When the dehumidification equipment is operating in the dehumidification mode corresponding to the common area, and it is detected that the humidity of the environment where the dehumidification equipment is located first reaches the humidity setting value, it enters the low-frequency operation mode to make the environment where the dehumidification equipment is located Keep the humidity within the preset range of the humidity setting value;

When the dehumidification equipment is operating in the dehumidification mode corresponding to the common area, and it is detected that the temperature of the environment where the dehumidification equipment is located first reaches the temperature setting value, it enters the low-frequency operation mode, so that the environment where the dehumidification equipment is located The temperature is kept within the preset range of the temperature setting value.
The method according to claim 1, wherein the method further comprises:

After receiving the operation instruction of the preset dehumidification mode, directly switch to the preset dehumidification mode, and when it is detected that the actual temperature and humidity information of the environment in which the dehumidification equipment is located reaches the temperature corresponding to the preset dehumidification mode When the humidity parameter is set, it enters the low-frequency operation mode.
A dehumidification control device, characterized in that it comprises:

The first obtaining module is used to obtain the geographical area where the dehumidification equipment is currently located;

The second acquisition module is used to acquire the current season time;

The dehumidification mode determination module is configured to switch to the dehumidification corresponding to the preset area when it is determined that the current geographic area belongs to a preset area and the current season time is in the dehumidification season corresponding to the preset area model;

The low-frequency mode switching module is configured to enter the low-frequency operation mode when it is detected that the actual temperature and humidity information of the environment in which the dehumidification device is located reaches the temperature and humidity parameter setting value corresponding to the currently running dehumidification mode.
The device according to claim 7, wherein the dehumidification mode determination module comprises:

The region judgment sub-module is used to determine whether the geographic region where the dehumidification equipment is currently located is a preset region, wherein the preset region includes a first preset region and a second preset region;

The first seasonal time judging submodule is used to judge whether the current seasonal time belongs to the first preset corresponding to the first preset area when the current geographic area belongs to the first preset area Dehumidification season

The first dehumidification mode determination sub-module is configured to operate the dehumidification mode corresponding to the first preset region when the current season time belongs to the first preset dehumidification season;

The second season time judging submodule is used for judging whether the current season time belongs to the preset dehumidification season corresponding to the second preset area when the current geographic area belongs to the second preset area ；

The second dehumidification mode determination sub-module is configured to operate in the dehumidification mode corresponding to the second preset area when the current season time belongs to the second preset dehumidification season;

The third dehumidification mode determination submodule is configured to operate in a dehumidification mode corresponding to a common area when the current geographic area does not belong to the first preset area and the second preset area.
The device according to claim 8, wherein the low frequency mode switching module comprises:

The first low-frequency mode switching sub-module is used for when the dehumidification equipment is currently operating in the dehumidification mode corresponding to the first preset area, and the humidity of the environment in which the dehumidification equipment is located reaches the first dehumidification mode corresponding to the currently operating dehumidification mode. When the humidity target value is reached, enter a low-frequency operation mode, so that the humidity of the environment where the dehumidification device is located is maintained within the preset range of the first humidity target value;

The second low-frequency mode switching sub-module is used for when the dehumidification equipment is operating in the dehumidification mode corresponding to the second preset area, and it is detected that the humidity of the environment in which the dehumidification equipment is located first reaches the level corresponding to the current dehumidification mode At the second humidity target value, enter the low-frequency operation mode, so that the humidity of the environment where the dehumidification device is located is maintained within the preset range of the second humidity target value, and the temperature of the environment where the dehumidification device is located is maintained at the current temperature;

The third low-frequency mode switching sub-module is configured to enter when the dehumidification equipment is in the second preset area and it is detected that the temperature of the environment where the dehumidification equipment is located first reaches the temperature target value corresponding to the current dehumidification mode A low-frequency operation mode, so that the humidity of the environment where the dehumidification device is located is maintained within the preset range of current humidity, and the temperature of the environment where the dehumidification device is located is maintained within the preset range of the temperature target value;

The fourth low-frequency mode switching sub-module is used to enter the low-frequency operation mode when the dehumidification equipment is operating in the dehumidification mode corresponding to the common area, and it is detected that the humidity of the environment in which the dehumidification equipment is located first reaches the humidity setting value , So that the humidity of the environment where the dehumidification equipment is located is kept within the preset range of the humidity setting value;

The fifth low-frequency mode switching sub-module is used to enter the low-frequency operation mode when the dehumidification equipment is operating in the dehumidification mode corresponding to the common area, and it is detected that the temperature of the environment in which the dehumidification equipment is located first reaches the temperature setting value , So as to keep the temperature of the environment where the dehumidification equipment is located within the preset range of the temperature setting value.
A dehumidification equipment, characterized by a memory and a processor, wherein the memory stores program instructions that can be called and executed by the processor;

The processor executes the program instructions to implement the following steps:

Get the geographic area where the initial device is currently located, and get the current season time;

When it is determined that the current geographical area belongs to a preset area, and the current season time is in the dehumidification season corresponding to the preset area, switch to the dehumidification mode corresponding to the preset area;

Acquiring actual temperature and humidity information of the environment where the dehumidification equipment is located;

When the actual temperature and humidity information reaches the temperature and humidity parameter setting value corresponding to the currently running dehumidification mode, the low-frequency operation mode is entered.