CN117091245A

CN117091245A - Control method, control device, storage medium, temperature and humidity adjusting device and system

Info

Publication number: CN117091245A
Application number: CN202210509116.2A
Authority: CN
Inventors: 翁健峰; 赵成; 刘维亮; 梁泰铭; 陆建明
Original assignee: GD Midea Environment Appliances Manufacturing Co Ltd
Current assignee: GD Midea Environment Appliances Manufacturing Co Ltd
Priority date: 2022-05-11
Filing date: 2022-05-11
Publication date: 2023-11-21

Abstract

The invention provides a control method, a device, a storage medium, a temperature and humidity adjusting device and a system, wherein the control method comprises the following steps: acquiring the ambient temperature and the ambient humidity of the environment where the temperature regulating device is positioned; determining the temperature change rate of the ambient temperature when the ambient temperature reaches a target temperature value in the first stage; determining that the ambient humidity reaches a target humidity value in the first stage, and determining the humidity change rate of the ambient humidity; and determining the operation strategy of the temperature regulating device in the second stage according to the comparison result of the temperature change rate and the humidity change rate.

Description

Control method, control device, storage medium, temperature and humidity adjusting device and system

Technical Field

The invention relates to the technical field of control, in particular to a control method, a control device, a storage medium, a temperature and humidity adjusting device and a temperature and humidity adjusting system.

Background

At present, equipment interconnection and intercommunication are realized through a scene linkage mode, and the mode can only set a starting and stopping relation and cannot realize finer adjustment and control, so that the adjustment of environmental parameters realized by a scene linkage control strategy cannot meet the requirements of comfort of users.

Disclosure of Invention

The present invention aims to solve at least one of the technical problems existing in the prior art or related art.

To this end, a first aspect of the present invention is to provide one of control methods.

In a second aspect of the invention, a second control method is provided.

A third aspect of the present invention is to provide one of the control devices.

A fourth aspect of the present invention is to provide a second control device.

A fifth aspect of the present invention is to provide a third control device.

A sixth aspect of the present invention is to provide a readable storage medium.

A seventh aspect of the present invention is to provide a temperature adjusting device.

An eighth aspect of the present invention is to provide a humidity adjustment device.

A ninth aspect of the present invention is to provide a control system.

In view of this, according to a first aspect of the present invention, there is provided a control method for a humidity adjustment device, comprising: acquiring the ambient temperature and the ambient humidity of the environment where the temperature regulating device is positioned; determining the temperature change rate of the ambient temperature when the ambient temperature reaches a target temperature value in the first stage; determining that the ambient humidity reaches a target humidity value in the first stage, and determining the humidity change rate of the ambient humidity; and determining the operation strategy of the temperature regulating device in the second stage according to the comparison result of the temperature change rate and the humidity change rate.

According to the technical scheme, the control method is provided, the control method is operated, the rapid adjustment of the environmental parameters can be achieved, the operation strategy of the next stage is predicted in the adjustment process, the matching degree between the environmental humidity and the environmental temperature is improved in the process of adjusting the environmental humidity and the environmental temperature to the target temperature value and the target humidity value, and the comfort experience of the user in the adjustment process of the environmental temperature and the environmental humidity is improved.

Specifically, the temperature change rate and the humidity change rate in the first stage are determined, so that the change condition of the temperature and the humidity in the first stage is determined according to the comparison result of the temperature change rate and the humidity change rate, whether the temperature is adjusted too quickly or the humidity is adjusted too quickly is further known, and the operation strategy in the second stage is determined based on the temperature change rate and the humidity change rate. By adjusting the operation strategy, the matching degree between the temperature and the humidity in the temperature adjustment and humidity adjustment processes is improved, and the occurrence probability of wet cooling, wet heating, dry cooling or dry heating is reduced, so that the comfort of a user is ensured.

In addition, the control method provided by the application has the following additional technical characteristics.

In the above technical solution, determining an operation strategy of the temperature adjusting device in the second stage according to a comparison result of the temperature change rate and the humidity change rate includes: determining that the temperature change rate is greater than or equal to the humidity change rate, and in the second stage, delaying the first time length to send a target temperature value of the second stage; and/or determining that the temperature change rate is greater than or equal to the humidity change rate, and in a second stage, turning down the operating range of the thermostat.

In the technical scheme, if the temperature change rate is greater than or equal to the humidity change rate, the temperature change is considered to be faster, and at the moment, the target temperature value of the second stage is sent by delaying the first time length under the second stage so as to delay the operation of the temperature regulating device, thereby creating the control effect of waiting for the humidity to rise.

In addition, if the temperature change rate is greater than or equal to the humidity change rate, the temperature change is considered to be faster, and at this time, the operating gear of the temperature adjusting device is adjusted down in the second stage so as to reduce the influence degree of the temperature adjusting device on the ambient temperature, thereby delaying the speed of increasing the ambient temperature and creating the control effect of waiting for the humidity to increase.

Through the technical scheme, the unmatched degree of the environment humidity and the environment temperature can be shortened in the second stage, so that the comfort of a user is ensured.

In one of the technical solutions, the difference between the temperature change rate and the humidity change rate is related to the first duration, specifically, the longer the first duration is in the case that the difference between the temperature change rate and the humidity change rate is larger, whereas the shorter the first duration is in the case that the difference between the temperature change rate and the humidity change rate is smaller.

In any of the above solutions, determining an operation strategy of the temperature adjusting device in the second stage according to a comparison result of the temperature change rate and the humidity change rate includes: and determining that the temperature change rate is smaller than the humidity change rate, and in the second stage, adjusting up the operating gear of the temperature regulating device.

In the technical scheme, under the condition that the temperature change rate is smaller than the humidity change rate, the temperature change is considered to be slower, and at the moment, the operating gear of the temperature regulating device is adjusted to be higher in the second stage so as to strengthen the influence degree of the temperature regulating device on the ambient temperature, thereby increasing the speed of increasing the ambient temperature and further creating the control effect of waiting for the temperature to increase.

In one embodiment, the operating gear of the thermostat may be divided in advance, so that in the first phase, the thermostat is controlled to operate according to a default operating gear, and in the second phase, the thermostat is adjusted up or down based on the default operating gear.

In any of the above technical solutions, the method further includes: determining a temperature change value of the ambient temperature and a second time length corresponding to the temperature change value in the first stage; and determining the temperature change rate according to the temperature change value and the second time period.

In this technical solution, a determination solution of a temperature change rate is provided, where a temperature change value of an ambient temperature may be understood as a difference between an ambient temperature initially detected in a first stage and a target temperature value corresponding to the first stage, a corresponding second period of time may be understood as a period of time taken for the ambient temperature to reach the target temperature value corresponding to the first stage from the ambient temperature initially detected in the first stage, and the temperature change rate may be understood as an absolute ratio of the temperature change value to the second period of time.

In any of the above technical solutions, the method further includes: determining a humidity change value of the ambient humidity and a third duration corresponding to the humidity change value in the first stage; and determining the humidity change rate according to the humidity change value and the third duration.

In this technical solution, a determination solution of a humidity change rate is provided, where the humidity change value of the ambient humidity may be understood as a difference between the ambient humidity initially detected in the first stage and the target humidity value corresponding to the first stage, and the third duration may be understood as a duration taken by the ambient humidity from the ambient humidity initially detected in the first stage to the target humidity value corresponding to the first stage, and the humidity change rate may be understood as an absolute ratio of the humidity change value to the third duration.

In any of the above technical solutions, the method further includes: receiving a set temperature value and a set humidity value; the first stage and the second stage are determined based on the ambient temperature, the ambient humidity, the set temperature value, and the set humidity value.

In this technical solution, a possible determination manner of the first stage and the second stage is given, specifically, a temperature difference required to be adjusted from the ambient temperature to the set temperature may be determined according to the ambient temperature and the set temperature value, and a plurality of stages may be obtained based on the temperature difference.

Similarly, the humidity difference required to be adjusted from the ambient humidity to the set humidity value may be determined according to the ambient humidity and the set humidity value, and the target humidity value of each stage may be determined according to the number of stages obtained by dividing.

In one of the technical schemes, in order to ensure comfortable experience of users, the target humidity value and the target temperature value of each stage are matched, and meet the requirements of temperature and humidity in a human body comfort zone.

In any of the above technical solutions, the method further includes: determining human body feeling evaluation according to the ambient temperature and the ambient humidity; under the condition that the human body feel is evaluated as dry, cold or wet, hot, in the second stage, controlling the temperature regulating device to operate according to the operating gear in the first stage; under the condition that the human body feeling is evaluated as dry heat, in the second stage, delaying the first time to send a target temperature value in the second stage; and/or in the second stage, the operation gear of the temperature regulating device is turned down; in the case where the human body feel is evaluated as wet-cold, the operating range of the temperature adjusting device is adjusted up in the second stage.

In the technical scheme, a control strategy of the temperature adjusting device under the dry-cold, wet-hot, dry-hot and wet-cold scenes is provided, and when the temperature is dry-cold or wet-hot, the operation gear in the first stage is maintained so as to maintain the temperature adjusting speed, and at the moment, the humidity is not increased, so that the requirement of a user on a warm environment is ensured, and the time of the user in a cold environment or the time of the user in a wet-hot environment is reduced.

In the second stage, the target temperature value of the second stage is sent in a delayed first time length under the condition of dry heat; and/or in the second phase, the operating gear of the temperature regulating device is turned down to wait for the rise of the humidity, so as to ensure the matching degree of the temperature and the humidity.

In any of the above technical solutions, the method further includes: acquiring the current season; and controlling the temperature regulating device to operate according to the operation gear in the first stage based on the current season being winter.

In this technical solution, the current season is obtained, and in the case of winter, the user's demand for temperature is preferentially ensured, specifically by operating according to the operating gear under the first phase, so as to ensure a rapid rise in ambient temperature.

In one of the technical schemes, the current season is winter, and the temperature regulating device is controlled to operate according to the operation gear in the first stage until the ambient temperature rises to more than 18 ℃.

In one of the solutions, in order to ensure the user's demand for temperature, in the case of winter in the current season, the heating gear of the thermostat is turned up in the second phase.

According to a second aspect of the present application, there is provided a control method for a humidity adjustment device, comprising: acquiring the ambient temperature and the ambient humidity of the environment where the humidity adjusting device is located; determining the temperature change rate of the ambient temperature when the ambient temperature reaches a target temperature value in the first stage; determining that the ambient humidity reaches a target humidity value in the first stage, and determining the humidity change rate of the ambient humidity; and determining the operation strategy of the humidity regulating device in the second stage according to the comparison result of the temperature change rate and the humidity change rate.

In the above technical solution, determining an operation strategy of the humidity adjustment device in the second stage according to a comparison result of the temperature change rate and the humidity change rate includes: determining that the temperature change rate is greater than or equal to the humidity change rate, and in the second stage, adjusting the operating gear of the humidity adjusting device; and determining that the temperature change rate is smaller than the humidity change rate, and in the second stage, turning down the operating gear of the humidity adjusting device.

In the technical scheme, if the temperature change rate is greater than or equal to the humidity change rate, the temperature change is considered to be faster, and at the moment, the operating gear of the humidity adjusting device is adjusted to be higher under the second stage, so that the influence degree of the humidity adjusting device on the environment humidity is enhanced, the matching degree between the temperature and the humidity is improved, the occurrence probability of wet cooling, wet heating, dry cooling or dry heating is reduced, and the comfort of a user is ensured.

In addition, if the temperature change rate is smaller than the humidity change rate, the temperature change is considered to be slower, and at this time, the operating gear of the humidity control device is adjusted down in the second stage so as to reduce the influence degree of the humidity control device on the ambient humidity, thereby delaying the speed of the rise of the ambient humidity and creating the control effect of waiting for the rise of the temperature.

In any of the above technical solutions, the method further includes: determining human body feeling evaluation according to the ambient temperature and the ambient humidity; under the condition that the human body feel is evaluated as dry, cold or wet and hot, controlling the humidity adjusting device to operate according to the operating gear in the first stage in the second stage; under the condition that the human body feel is evaluated as dry heat, in the second stage, the operation gear of the humidity adjusting device is adjusted to be high; in the case where the human body feeling is evaluated as wet-cold, the operation gear of the humidity control apparatus is turned down in the second stage.

In the technical scheme, a control strategy of the temperature regulating device under the conditions of dry cooling, wet heating, dry heating and wet cooling is provided, and when the temperature is dry cooling or wet heating, the operation gear operation in the first stage is maintained so as to maintain the adjustment speed of humidity, and at the moment, the temperature is not waited to rise.

And under the condition of dry heat, the operating gear of the humidity adjusting device is adjusted to strengthen the influence degree of the humidity adjusting device on the ambient humidity, improve the humidity value in the environment and improve the ambient experience of the dry heat.

And under the condition of wet cooling, the running gear of the humidity adjusting device is lowered, the influence degree of the humidity adjusting device on the ambient humidity is weakened, the humidity change speed in the environment is delayed, the rise of the ambient temperature is waited, and the wet cooling environment experience is improved.

According to a third aspect of the present application, there is provided a control apparatus for a temperature adjustment apparatus, comprising: the first acquisition unit is used for acquiring the ambient temperature and the ambient humidity of the environment where the temperature regulating device is located; a first determining unit, configured to determine that the ambient temperature reaches a target temperature value in the first stage, and a temperature change rate of the ambient temperature; the second determining unit is used for determining that the ambient humidity reaches a target humidity value in the first stage and the humidity change rate of the ambient humidity; and the first control unit is used for determining the operation strategy of the temperature regulating device in the second stage according to the comparison result of the temperature change rate and the humidity change rate.

The technical scheme of the application provides a control device, and the temperature regulating device with the control device can realize rapid regulation of environmental parameters, and forecast the operation strategy of the next stage in the regulation process, so as to improve the matching degree between the environmental humidity and the environmental temperature in the process of regulating the environmental humidity and the environmental temperature to the target temperature value and the target humidity value, and improve the comfort experience of users in the regulation process of the environmental temperature and the environmental humidity.

The control device provided by the application has the following additional technical characteristics.

In the above technical solution, the first control unit is specifically configured to: determining that the temperature change rate is greater than or equal to the humidity change rate, and in the second stage, delaying the first time length to send a target temperature value of the second stage; and/or determining that the temperature change rate is greater than or equal to the humidity change rate, and in a second stage, turning down the operating range of the thermostat.

In any of the above solutions, the first control unit is specifically configured to: and determining that the temperature change rate is smaller than the humidity change rate, and in the second stage, adjusting up the operating gear of the temperature regulating device.

In any of the foregoing solutions, the first determining unit is specifically configured to: determining a temperature change value of the ambient temperature and a second time length corresponding to the temperature change value in the first stage; and determining the temperature change rate according to the temperature change value and the second time period.

In any of the foregoing solutions, the second determining unit is specifically configured to: determining a humidity change value of the ambient humidity and a third duration corresponding to the humidity change value in the first stage; and determining the humidity change rate according to the humidity change value and the third duration.

In any of the foregoing solutions, the first obtaining unit is specifically configured to: receiving a set temperature value and a set humidity value; the first stage and the second stage are determined based on the ambient temperature, the ambient humidity, the set temperature value, and the set humidity value.

In any of the above solutions, the first control unit is further configured to: determining human body feeling evaluation according to the ambient temperature and the ambient humidity; under the condition that the human body feel is evaluated as dry, cold or wet, hot, in the second stage, controlling the temperature regulating device to operate according to the operating gear in the first stage; under the condition that the human body feeling is evaluated as dry heat, in the second stage, delaying the first time to send a target temperature value in the second stage; and/or in the second stage, the operation gear of the temperature regulating device is turned down; in the case where the human body feel is evaluated as wet-cold, the operating range of the temperature adjusting device is adjusted up in the second stage.

In any of the above solutions, the first control unit is further configured to: acquiring the current season; and controlling the temperature regulating device to operate according to the operation gear in the first stage based on the current season being winter.

According to a fourth aspect of the present invention, there is provided a control apparatus for a humidity adjustment apparatus, comprising: the second acquisition unit is used for acquiring the ambient temperature and the ambient humidity of the environment where the humidity adjusting device is located; a third determining unit, configured to determine that the ambient temperature reaches the target temperature value in the first stage, and a temperature change rate of the ambient temperature; a fourth determining unit, configured to determine that the ambient humidity reaches the target humidity value in the first stage, and a humidity change rate of the ambient humidity; and the second control unit is used for determining the operation strategy of the humidity adjusting device in the second stage according to the comparison result of the temperature change rate and the humidity change rate.

The technical scheme of the application provides a control device, and the humidity adjusting device with the control device can realize quick adjustment of environmental parameters, and forecast the operation strategy of the next stage in the adjustment process, so as to improve the matching degree between the environmental humidity and the environmental temperature in the process of adjusting the environmental humidity and the environmental temperature to the target temperature value and the target humidity value, and improve the comfort experience of users in the adjustment process of the environmental temperature and the environmental humidity.

In addition, the control device provided by the application has the following additional technical characteristics.

In the above technical solution, the second control unit is specifically configured to: determining that the temperature change rate is greater than or equal to the humidity change rate, and in the second stage, adjusting the operating gear of the humidity adjusting device; and determining that the temperature change rate is smaller than the humidity change rate, and in the second stage, turning down the operating gear of the humidity adjusting device.

In the above technical solution, the third determining unit is specifically configured to: determining a temperature change value of the ambient temperature and a second time length corresponding to the temperature change value in the first stage; and determining the temperature change rate according to the temperature change value and the second time period.

In any of the foregoing solutions, the fourth determining unit is specifically configured to: determining a humidity change value of the ambient humidity and a third duration corresponding to the humidity change value in the first stage; and determining the humidity change rate according to the humidity change value and the third duration.

In any of the foregoing solutions, the second obtaining unit is further configured to: receiving a set temperature value and a set humidity value; the first stage and the second stage are determined based on the ambient temperature, the ambient humidity, the set temperature value, and the set humidity value.

In any of the above solutions, the second control unit is further configured to: determining human body feeling evaluation according to the ambient temperature and the ambient humidity; under the condition that the human body feel is evaluated as dry, cold or wet and hot, controlling the humidity adjusting device to operate according to the operating gear in the first stage in the second stage; under the condition that the human body feel is evaluated as dry heat, in the second stage, the operation gear of the humidity adjusting device is adjusted to be high; in the case where the human body feeling is evaluated as wet-cold, the operation gear of the humidity control apparatus is turned down in the second stage.

According to a fifth aspect of the present invention, there is provided a control apparatus comprising: a controller and a memory, wherein the memory stores programs or instructions, and the controller, when executing the programs or instructions in the memory, performs the steps of the method as described above.

According to a sixth aspect of the present invention there is provided a readable storage medium having stored thereon a program or instructions which when executed by a processor performs the steps of a method as described in any of the above.

According to a seventh aspect of the present invention, there is provided a temperature adjusting apparatus comprising: such as the control device described above.

According to an eighth aspect of the present invention, there is provided a humidity adjustment apparatus comprising: such as the control device described above.

According to a ninth aspect of the present invention, there is provided a control system comprising: a temperature adjusting device; a humidity adjusting device; the control device is connected with the temperature adjusting device and the humidity adjusting device and is used for acquiring the ambient temperature and the ambient humidity of the environment where the temperature adjusting device and the humidity adjusting device are located; determining the temperature change rate of the ambient temperature when the ambient temperature reaches a target temperature value in the first stage; determining that the ambient humidity reaches a target humidity value in the first stage, and determining the humidity change rate of the ambient humidity; and determining the operation strategy of the temperature regulating device in the second stage according to the comparison result of the temperature change rate and the humidity change rate.

In the above technical solution, further includes: and the environment parameter sensor is used for acquiring the environment temperature and the environment humidity and sending the environment temperature and the environment humidity to the temperature regulating device and the humidity regulating device.

Additional aspects and advantages of the invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

Drawings

The foregoing and/or additional aspects and advantages of the application will become apparent and may be better understood from the following description of embodiments taken in conjunction with the accompanying drawings in which:

FIG. 1 shows one of the flow charts of the control method in the embodiment of the application;

FIG. 2 is a second flow chart of a control method according to an embodiment of the application;

FIG. 3 is a schematic diagram of a control flow of a warmer in an embodiment of the present application;

FIG. 4 shows a schematic diagram of warmer warming in an embodiment of the present application;

FIG. 5 is a schematic diagram showing a control flow of a home appliance in an on-line state according to an embodiment of the present application;

FIG. 6 is a second schematic diagram of a control flow of the home appliance in an on-line state according to the embodiment of the application;

FIG. 7 is a schematic diagram showing the range of values of humidity and temperature in a human comfort zone in an embodiment of the present application;

FIG. 8 is a schematic diagram showing a control flow of a humidifier according to an embodiment of the application;

FIG. 9 shows one of the schematic block diagrams of the control device in an embodiment of the present application;

fig. 10 shows a second schematic block diagram of the control device in an embodiment of the application.

Detailed Description

So that the manner in which the above recited aspects, features and advantages of the present application can be understood in detail, a more particular description of the application, briefly summarized below, may be had by reference to the appended drawings. It should be noted that, without conflict, the embodiments of the present application and features in the embodiments may be combined with each other.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application, however, the present application may be practiced in other ways than those described herein, and therefore the scope of the present application is not limited to the specific embodiments disclosed below.

As shown in fig. 1, according to an embodiment of the present application, there is provided a control method for a humidity adjustment device, including:

step 102, acquiring the ambient temperature and the ambient humidity of the environment in which the temperature regulating device is positioned;

104, determining that the ambient temperature reaches a target temperature value in the first stage, and determining the temperature change rate of the ambient temperature;

step 106, determining that the ambient humidity reaches a target humidity value in the first stage, and determining the humidity change rate of the ambient humidity;

and step 108, determining the operation strategy of the temperature regulating device in the second stage according to the comparison result of the temperature change rate and the humidity change rate.

The embodiment of the application provides a control method, by operating the control method, the quick adjustment of environmental parameters can be realized, and the operation strategy of the next stage is predicted in the adjustment process, so that the matching degree between the environmental humidity and the environmental temperature is improved in the process of adjusting the environmental humidity and the environmental temperature to the target temperature value and the target humidity value, and the comfort experience of users in the adjustment process of the environmental temperature and the environmental humidity is improved.

In the above embodiment, determining the operation strategy of the temperature adjustment device in the second stage according to the comparison result of the temperature change rate and the humidity change rate includes: determining that the temperature change rate is greater than or equal to the humidity change rate, and in the second stage, delaying the first time length to send a target temperature value of the second stage; and/or determining that the temperature change rate is greater than or equal to the humidity change rate, and in a second stage, turning down the operating range of the thermostat.

In this embodiment, if the temperature change rate is greater than or equal to the humidity change rate, the temperature change is considered to be faster, and at this time, the target temperature value of the second stage is transmitted by delaying the first period of time in the second stage, so as to delay the operation of the temperature adjustment device, thereby creating the control effect of waiting for the humidity to rise.

Through the embodiment, the degree of mismatching of the ambient humidity and the ambient temperature can be shortened in the second stage, so that the comfort of a user is ensured.

In one embodiment, the difference between the temperature change rate and the humidity change rate is related to the first time period, specifically, the longer the first time period is in the case where the difference between the temperature change rate and the humidity change rate is larger, whereas the shorter the first time period is in the case where the difference between the temperature change rate and the humidity change rate is smaller.

In any of the above embodiments, determining an operation strategy of the temperature adjustment device in the second stage according to a comparison result of the temperature change rate and the humidity change rate includes: and determining that the temperature change rate is smaller than the humidity change rate, and in the second stage, adjusting up the operating gear of the temperature regulating device.

In this embodiment, in the case where the rate of change of temperature is smaller than the rate of change of humidity, the temperature change is considered to be slow, and at this time, by adjusting up the operating range of the temperature adjustment device in the second stage, the degree of influence of the temperature adjustment device on the ambient temperature is enhanced, thereby increasing the speed of rise of the ambient temperature, thereby creating the control effect of waiting for the rise of the temperature.

In one embodiment, the operating gear of the thermostat may be pre-divided so that in a first phase the thermostat is controlled to operate in accordance with a default operating gear and in a second phase to be turned up or down based on the default operating gear.

In any of the foregoing embodiments, further comprising: determining a temperature change value of the ambient temperature and a second time length corresponding to the temperature change value in the first stage; and determining the temperature change rate according to the temperature change value and the second time period.

In this embodiment, a determination scheme of a temperature change rate is given, wherein a temperature change value of an ambient temperature may be understood as a difference between an ambient temperature initially detected in the first phase and a target temperature value corresponding to the first phase, a corresponding second period of time may be understood as a period of time taken for the ambient temperature to reach the target temperature value corresponding to the first phase from the ambient temperature initially detected in the first phase, and the temperature change rate may be understood as an absolute ratio of the temperature change value to the second period of time.

In any of the foregoing embodiments, further comprising: determining a humidity change value of the ambient humidity and a third duration corresponding to the humidity change value in the first stage; and determining the humidity change rate according to the humidity change value and the third duration.

In this embodiment, a determination scheme of a humidity change rate is given, where the humidity change value of the ambient humidity may be understood as a difference between the ambient humidity initially detected in the first phase and the target humidity value corresponding to the first phase, and the third duration may be understood as a duration taken by the ambient humidity from the ambient humidity initially detected in the first phase to the target humidity value corresponding to the first phase, and the humidity change rate may be understood as an absolute ratio of the humidity change value to the third duration.

In any of the foregoing embodiments, further comprising: receiving a set temperature value and a set humidity value; the first stage and the second stage are determined based on the ambient temperature, the ambient humidity, the set temperature value, and the set humidity value.

In this embodiment, a possible manner of determining the first stage and the second stage is given, specifically, a temperature difference required to be adjusted from the ambient temperature to the set temperature value may be determined from the ambient temperature and the set temperature value, and a plurality of stages may be obtained based on the temperature difference.

In one embodiment, to ensure a comfortable experience for the user, the target humidity value and the target temperature value for each stage are matched, meeting the requirements for temperature and humidity in the human comfort zone.

In any of the foregoing embodiments, further comprising: determining human body feeling evaluation according to the ambient temperature and the ambient humidity; under the condition that the human body feel is evaluated as dry, cold or wet, hot, in the second stage, controlling the temperature regulating device to operate according to the operating gear in the first stage; under the condition that the human body feeling is evaluated as dry heat, in the second stage, delaying the first time to send a target temperature value in the second stage; and/or in the second stage, the operation gear of the temperature regulating device is turned down; in the case where the human body feel is evaluated as wet-cold, the operating range of the temperature adjusting device is adjusted up in the second stage.

In this embodiment, a control strategy of the temperature adjusting device in the dry-cold, wet-hot, dry-hot and wet-cold scenes is given, and when in the dry-cold or wet-hot, the operation gear operation in the first stage is maintained so as to maintain the adjustment speed of the temperature, and at this time, the rise of humidity is not waited so as to ensure the user's need for a warm environment, and the duration of the user in a cold environment or the duration of the user in a wet-hot environment is reduced.

In any of the foregoing embodiments, further comprising: acquiring the current season; and controlling the temperature regulating device to operate according to the operation gear in the first stage based on the current season being winter.

In this embodiment, the current season is acquired, and in the case where the current season is winter, the user's demand for temperature is preferentially ensured, specifically by operating in accordance with the operating gear in the first stage, so as to ensure a rapid rise in the ambient temperature.

In one embodiment, the current season is winter, and the temperature regulating device is controlled to operate according to the operation gear in the first stage until the ambient temperature rises to above 18 ℃.

In one embodiment, to ensure the user's demand for temperature, in the case that the current season is winter, the heating gear of the thermostat is turned up in the second phase.

In one embodiment, as shown in fig. 2, the present invention provides a control method for a humidity adjustment device, including:

Step 202, acquiring the ambient temperature and the ambient humidity of the environment in which the humidity control device is located;

step 204, determining that the ambient temperature reaches a target temperature value in the first stage, and the temperature change rate of the ambient temperature;

step 206, determining that the ambient humidity reaches the target humidity value of the first stage, and the humidity change rate of the ambient humidity;

and step 208, determining the operation strategy of the humidity adjusting device in the second stage according to the comparison result of the temperature change rate and the humidity change rate.

In the above embodiment, determining the operation strategy of the humidity adjustment device in the second stage according to the comparison result of the temperature change rate and the humidity change rate includes: determining that the temperature change rate is greater than or equal to the humidity change rate, and in the second stage, adjusting the operating gear of the humidity adjusting device; and determining that the temperature change rate is smaller than the humidity change rate, and in the second stage, turning down the operating gear of the humidity adjusting device.

In this embodiment, if the temperature change rate is greater than or equal to the humidity change rate, the temperature change is considered to be faster, and at this time, by adjusting the operating gear of the humidity adjustment device in the second stage, the influence degree of the humidity adjustment device on the ambient humidity is enhanced, and the matching degree between the temperature and the humidity is enhanced, so that the occurrence probability of wet cooling, wet heating, dry cooling or dry heating is reduced, and the comfort of the user is ensured.

In any of the foregoing embodiments, further comprising: determining human body feeling evaluation according to the ambient temperature and the ambient humidity; under the condition that the human body feel is evaluated as dry, cold or wet and hot, controlling the humidity adjusting device to operate according to the operating gear in the first stage in the second stage; under the condition that the human body feel is evaluated as dry heat, in the second stage, the operation gear of the humidity adjusting device is adjusted to be high; in the case where the human body feeling is evaluated as wet-cold, the operation gear of the humidity control apparatus is turned down in the second stage.

In this embodiment, a control strategy of the thermostat in dry-cold, wet-hot, dry-hot and wet-cold scenarios is given, in which the operation gear operation in the first phase is maintained while dry-cold or wet-hot, so as to maintain the adjustment speed of humidity, while not waiting for the temperature to rise.

In one embodiment, the heating device is exemplified by a heater, and the heater can be connected to a network to perform control in an on-line state, or can be controlled in an off-line state, as shown in fig. 3, and in the off-line state, the control flow of the heater includes:

step 302, receiving a set temperature value;

step 304, the temperature and humidity detection device collects the temperature value in the environment;

step 306, judging that the temperature value is smaller than the set temperature value, if yes, executing step 308, and if no, executing step 310;

step 308, the warmer is operated at full power;

step 310, dynamically adjusting according to the judgment result that the temperature value is more than the set temperature value and is +0.5deg.C.

In this embodiment, the user sets the heating temperature through APP or sets the desired ambient temperature, i.e. the set temperature value, through the body, the sensor continuously monitors the ambient temperature and humidity data and sends the status to the heater in real time; in an off-line state, presetting a cold start algorithm for the warmer, wherein the algorithm is obtained by combining human comfort research by a research institute, and proper temperature and humidity are matched according to the human comfort; as shown in fig. 4, when the temperature does not reach the set temperature value, the warmer is operated at full power; if the heater cannot reach the set temperature value for a long time, the humidifier is adjusted according to the comfort; when the temperature reaches or exceeds the set temperature value, the warmer can dynamically control the equipment switch, and the temperature is kept in the interval of +/-0.5 ℃.

In one embodiment, in an on-line state, the heater and humidifier can be considered as an appliance, and the control logic thereof is as shown in fig. 5:

step 502, judging whether the household appliance is networked, if not, ending, and if yes, executing step 504;

step 504, reporting household appliance data;

step 506, judging whether to start the self-adaptive function, if yes, executing step 508, if no, ending;

step 508, adjusting the temperature of the warmer to a comfort temperature;

step 510, adjusting the humidity and the wind speed of the humidifier according to a cold start algorithm;

step 512, continuously monitors the adjustment.

In one embodiment, the above scheme can be applied to control over various products, and specifically, as shown in fig. 6, the method includes:

step 602, setting a target temperature;

step 604, ai issues a target value for temperature and humidity;

step 606, the warmer is executed according to the target, and the humidifier is executed according to the target;

step 608, judging whether the running time is longer than 1 minute, if yes, executing step 610, otherwise, repeatedly executing step 608;

step 610, judging the current situation and adjusting the strategy;

step 612, determining whether the duration of the cumulative operation is less than 5 minutes, if yes, executing step 604, otherwise, ending.

The user connects the warmer, the humidifier and the sensor to the account, and binds the warmer, the humidifier and the sensor through the APP interface. The temperature and humidity sensor is transferred through the heater and the humidifier, and the environmental state is reported to the IoT server through the data reporting link. And the user opens the self-adaptive function, and if the three types of equipment are not bound at the moment, the user is prompted to bind. At this point the AI server will send 18 c to the warmer or a preference temperature learned from the user's habits. And automatically turning on or off the humidifier according to a temperature-humidity algorithm.

Specifically, when the ambient temperature is equal to or lower than 13 ℃ or equal to or higher than 21 ℃, the following steps are executed:

the ambient humidity is less than or equal to 40%, and the mist quantity and the wind speed of the humidifier are high-grade;

the ambient humidity is more than 40% and less than or equal to 60%, and the mist quantity and the wind speed of the humidifier are both medium-grade;

the ambient humidity is more than 60%, and the mist quantity and the wind speed of the humidifier are low-grade;

the ambient humidity is greater than >80% and humidification is turned off.

Wherein, in the adjusting process, the ambient humidity is always kept between 40% and 60%. And different temperatures are matched with different humidities, and are calculated by the AI server.

In one embodiment, the adaptive algorithm is calculated in real time by continuously learning the current environmental state and predicting the timeliness after environmental control.

As shown in fig. 7, the range of values of humidity and temperature in the human comfort zone, specifically, the user sets the heating temperature through the APP page or the body, and the AI platform performs operations according to the acquired data, including: 1. temperature and humidity information 2 of an internal sensor, temperature and humidity 3 of an external sensor, temperature and humidity 4 of a current area and use habits of users of the warmer/humidifier.

After the user sets the heating temperature to 25 ℃, starting to calculate the temperature required by the user and the humidity target value required to be matched, sending a high-power operation mode and the calculated target temperature X ℃ to the warmer, judging whether the current temperature accords with the human comfort zone, and if the humidity is too high, opening the humidifier; if the humidity is lower than 40%, starting the maximum air quantity and the maximum humidifying quantity; if the air conditioner is located in the comfort zone, the middle wind gear and the humidification 2 gear are started.

The AI issues a target temperature and humidity and a gear, wherein the target temperature and humidity is not a numerical value set by a user, but a numerical value learned by matching the system through historical behavior habits and states which can be achieved by the environment; for example, the user sets 25 ℃, and the system sets the target temperature to be 35 ℃ at the highest, and the maximum power is operated, and then the target temperature is continuously adjusted. At this time, the buzzer of the machine will sound, and the digital display will be displayed first.

After receiving the instruction, the humidifier displays the set humidity for 3 seconds, and then displays the ambient temperature of the external sensor. Within 1 minute, the machine acts according to the instruction issued by the server, and the temperature and humidity change value of the temperature and humidity sensor is recorded and recorded every 2 seconds; after exceeding one minute, calculating the derivative (change rate) of the temperature and humidity change, if the human body comfort zone is wet and cold at the moment, stopping the humidifier, and waiting for the temperature to rise; if the human comfort zone is in damp and hot state, the humidifier executes medium fog and stroke, and if the medium fog and stroke are still not improved for one minute, the fog amount and the wind speed are continuously reduced until the humidifier stops.

The dynamic temperature and humidity regulating function of the local equipment can execute strategy regulation once every 1 minute, and the regulation can be carried out according to the actual state of the environment at this stage, and the total machine regulation is executed for 4 times.

The strategy after the machine self-adjustment can be synchronously given to the AI server in real time, and when the AI server focuses on the next adjustment of the target temperature and humidity, the AI server adjusts the target temperature according to the state that the humidity can be reached if the temperature and the humidity can not be reached, and finally the target temperature can be adjusted according to the temperature and the humidity set by the user after the AI server is adjusted to be high or the environment is diffused.

Every 5 minutes, the AI server adjusts the targets according to the actual conditions.

In one embodiment, the heating device is exemplified by a warmer, and a user sets a heating temperature through an APP or sets a desired ambient temperature (i.e., a set temperature value) through a body; the temperature and humidity detection device continuously monitors environmental temperature and humidity data and sends the state to the warmer in real time; in an off-line state, presetting a cold start algorithm for the warmer, wherein the algorithm is obtained by a research institute in combination with human comfort, and proper temperature and humidity are matched according to the human comfort; when the temperature does not reach the set target temperature, the heater is operated at full power; if the heater cannot reach the target temperature for a long time, the humidifier is adjusted according to the comfort; when the temperature reaches or exceeds the target temperature, the warmer can dynamically control the equipment switch, and the temperature is kept in the range of +/-0.5 ℃.

In the networking state, the AI platform performs operation according to the collected data, including: 1. temperature and humidity information 2 of an internal sensor, temperature and humidity 3 of an external sensor, temperature and humidity 4 of a current area and use habits of users of the warmer/humidifier.

After receiving the instruction, the warmer displays the set temperature for 3 seconds, and then displays the ambient temperature of the external sensor. Within 1 minute, the machine acts according to the instruction issued by the server, and the temperature and humidity change value of the temperature and humidity sensor is recorded and recorded every 2 seconds; after exceeding one minute, calculating the derivative (change rate) of the temperature and humidity change, and if the human body comfort interval is in dry cooling at the moment, heating continues to operate at high power without waiting for the rise of humidity; if the human comfort zone is in dry heat at this time, the warmer executes middle power and waits for the rising of humidity.

Wherein, every 5 minutes, the AI server adjusts the target according to the actual condition.

According to the embodiment of the application, the heater, the humidifier and the temperature and humidity sensor are connected, the algorithm after self-adaptive function learning is started, the cold start algorithm adjusting equipment with human comfort can be preferentially adopted, the heating can bring about loss of humidity, and the environmental humidity can be dynamically adjusted by taking the environmental temperature which can be achieved by the heater as a standard.

And calculating and learning user data with the heater and the humidifier simultaneously by utilizing big data, obtaining a temperature and humidity change curve after user behavior adjustment according to user adjustment and learning, then obtaining an optimal curve through model analysis, and completing individualized user data change and self-adjustment in human factor engineering by the temperature and humidity reported by the sensor.

After the AI platform calculates the temperature and humidity which can be achieved by the environment, an expected temperature and humidity relation value can be generated. The local equipment end can actively adjust the running state of the equipment according to the target value and the actual running state, can achieve regional autonomy under the off-line condition, can realize more accurate monitoring of the environmental temperature and humidity, and has reliable temperature-humidity linkage; fully playing big data, group wisdom and personalized thousands of people; the self-adaptive algorithm model can start training and correction in real time; the dependence on the equipment model is low, and the popularization and the landing are easy; and the distributed computation is highly reliable and high in performance, and bad experiences are avoided.

In one embodiment, the control logic of the heating device is described above, and the humidity adjusting device is exemplified by a humidifier, and in an offline state, as shown in fig. 8, the control flow of the humidifier is as follows:

step 802, receiving a set humidity value;

step 804, the temperature and humidity detection device collects humidity values in the environment;

step 806, determining that the humidity value is smaller than the set humidity value, if yes, executing step 808, if no, ending;

step 808, the humidifier is dynamically adjusted.

Setting a humidity value, namely the environment humidity wanted by a user, wherein the user sets the humidification humidity through an APP or sets the wanted environment humidity through a machine body; the sensor continuously monitors environmental temperature and humidity data and sends the state to the humidifier in real time; in an off-line state, the humidifier presets a cold start algorithm, and the algorithm is obtained by a research institute in combination with human comfort, and suitable temperature and humidity are matched according to the human comfort.

If the ambient temperature is maintained at 17 ℃ and is unchanged, the humidifier can adjust the ambient humidity according to the comfort, and the human comfort interval is kept. In the process, the target humidity of the humidifier is dynamically regulated, and the target humidity is regulated through gears and wind speed.

As shown in fig. 9, the present application provides a control device 900 for a temperature adjustment device, comprising: a first acquiring unit 902, configured to acquire an ambient temperature and an ambient humidity of an environment in which the temperature adjustment device is located; a first determining unit 904, configured to determine that the ambient temperature reaches a target temperature value in the first stage, and a temperature change rate of the ambient temperature; a second determining unit 906, configured to determine that the ambient humidity reaches the target humidity value in the first stage, and a humidity change rate of the ambient humidity; the first control unit 908 is configured to determine an operation strategy of the temperature adjustment device in the second stage according to a comparison result of the temperature change rate and the humidity change rate.

The embodiment of the application provides a control device, a temperature adjusting device with the control device can realize rapid adjustment of environmental parameters, and a next-stage operation strategy is predicted in the adjustment process, so that the matching degree between the environmental humidity and the environmental temperature is improved in the process of adjusting the environmental humidity and the environmental temperature to a target temperature value and a target humidity value, and the comfort experience of users in the adjustment process of the environmental temperature and the environmental humidity is improved.

In the above embodiment, the first control unit 908 is specifically configured to: determining that the temperature change rate is greater than or equal to the humidity change rate, and in the second stage, delaying the first time length to send a target temperature value of the second stage; and/or determining that the temperature change rate is greater than or equal to the humidity change rate, and in a second stage, turning down the operating range of the thermostat.

In any of the foregoing embodiments, the first control unit 908 is specifically configured to: and determining that the temperature change rate is smaller than the humidity change rate, and in the second stage, adjusting up the operating gear of the temperature regulating device.

In any of the foregoing embodiments, the first determining unit 904 is specifically configured to: determining a temperature change value of the ambient temperature and a second time length corresponding to the temperature change value in the first stage; and determining the temperature change rate according to the temperature change value and the second time period.

In any of the foregoing embodiments, the second determining unit 906 is specifically configured to: determining a humidity change value of the ambient humidity and a third duration corresponding to the humidity change value in the first stage; and determining the humidity change rate according to the humidity change value and the third duration.

In any of the foregoing embodiments, the first acquiring unit 902 is specifically configured to: receiving a set temperature value and a set humidity value; the first stage and the second stage are determined based on the ambient temperature, the ambient humidity, the set temperature value, and the set humidity value.

In any of the above embodiments, the first control unit 908 is further configured to: determining human body feeling evaluation according to the ambient temperature and the ambient humidity; under the condition that the human body feel is evaluated as dry, cold or wet, hot, in the second stage, controlling the temperature regulating device to operate according to the operating gear in the first stage; under the condition that the human body feeling is evaluated as dry heat, in the second stage, delaying the first time to send a target temperature value in the second stage; and/or in the second stage, the operation gear of the temperature regulating device is turned down; in the case where the human body feel is evaluated as wet-cold, the operating range of the temperature adjusting device is adjusted up in the second stage.

In any of the above embodiments, the first control unit 908 is further configured to: acquiring the current season; and controlling the temperature regulating device to operate according to the operation gear in the first stage based on the current season being winter.

As shown in fig. 10, the present application provides a control device 1000 for a humidity adjustment device, comprising: a second obtaining unit 1002, configured to obtain an ambient temperature and an ambient humidity of an environment in which the humidity adjustment device is located; a third determining unit 1004, configured to determine that the ambient temperature reaches the target temperature value of the first stage, and a temperature change rate of the ambient temperature; a fourth determining unit 1006, configured to determine that the ambient humidity reaches the target humidity value of the first stage, and a humidity change rate of the ambient humidity; and a second control unit 1008 for determining an operation strategy of the humidity adjusting device in the second stage according to the comparison result of the temperature change rate and the humidity change rate.

The embodiment of the application provides a control device, and a humidity adjusting device with the control device can realize quick adjustment of environmental parameters, and forecast the operation strategy of the next stage in the adjustment process, so as to improve the matching degree between the environmental humidity and the environmental temperature in the process of adjusting the environmental humidity and the environmental temperature to a target temperature value and a target humidity value, and improve the comfort experience of users in the adjustment process of the environmental temperature and the environmental humidity.

In the above embodiment, the second control unit 1008 is specifically configured to: determining that the temperature change rate is greater than or equal to the humidity change rate, and in the second stage, adjusting the operating gear of the humidity adjusting device; and determining that the temperature change rate is smaller than the humidity change rate, and in the second stage, turning down the operating gear of the humidity adjusting device.

In the above embodiment, the third determining unit 1004 is specifically configured to: determining a temperature change value of the ambient temperature and a second time length corresponding to the temperature change value in the first stage; and determining the temperature change rate according to the temperature change value and the second time period.

In any of the foregoing embodiments, the fourth determining unit 1006 is specifically configured to: determining a humidity change value of the ambient humidity and a third duration corresponding to the humidity change value in the first stage; and determining the humidity change rate according to the humidity change value and the third duration.

In any of the foregoing embodiments, the second obtaining unit 1002 is further configured to: receiving a set temperature value and a set humidity value; the first stage and the second stage are determined based on the ambient temperature, the ambient humidity, the set temperature value, and the set humidity value.

In any of the above embodiments, the second control unit 1008 is further configured to: determining human body feeling evaluation according to the ambient temperature and the ambient humidity; under the condition that the human body feel is evaluated as dry, cold or wet and hot, controlling the humidity adjusting device to operate according to the operating gear in the first stage in the second stage; under the condition that the human body feel is evaluated as dry heat, in the second stage, the operation gear of the humidity adjusting device is adjusted to be high; in the case where the human body feeling is evaluated as wet-cold, the operation gear of the humidity control apparatus is turned down in the second stage.

In one embodiment, the present invention provides a control apparatus comprising: a controller and a memory, wherein the memory stores programs or instructions, and the controller, when executing the programs or instructions in the memory, performs the steps of the method as described above.

In one embodiment, the present invention provides a readable storage medium having stored thereon a program or instructions which when executed by a processor performs the steps of a method as any one of the above.

In one embodiment, the present invention provides a temperature regulating device comprising: a control device as in any above.

In one embodiment, the present invention provides a humidity adjustment device comprising: a control device as in any above.

In one embodiment, the present invention provides a control system comprising: a temperature adjusting device; a humidity adjusting device; the control device is connected with the temperature adjusting device and the humidity adjusting device and is used for acquiring the ambient temperature and the ambient humidity of the environment where the temperature adjusting device and the humidity adjusting device are located; determining the temperature change rate of the ambient temperature when the ambient temperature reaches a target temperature value in the first stage; determining that the ambient humidity reaches a target humidity value in the first stage, and determining the humidity change rate of the ambient humidity; and determining the operation strategy of the temperature regulating device in the second stage according to the comparison result of the temperature change rate and the humidity change rate.

In the embodiment, the rapid adjustment of the environmental parameters can be realized, and the operation strategy of the next stage is predicted in the adjustment process, so that the matching degree between the environmental humidity and the environmental temperature is improved in the process of adjusting the environmental humidity and the environmental temperature to the target temperature value and the target humidity value, and the comfort experience of the user in the adjustment process of the environmental temperature and the environmental humidity is improved.

In the above embodiment, further comprising: and the environment parameter sensor is used for acquiring the environment temperature and the environment humidity and sending the environment temperature and the environment humidity to the temperature regulating device and the humidity regulating device.

In one embodiment, determining an operating strategy of the thermostat in the second phase based on a comparison of the rate of change of temperature and the rate of change of humidity includes: determining that the temperature change rate is greater than or equal to the humidity change rate, and in the second stage, delaying the first time length to send a target temperature value of the second stage; and/or determining that the temperature change rate is greater than or equal to the humidity change rate, and in a second stage, turning down the operating range of the thermostat.

In one embodiment, determining an operating strategy of the temperature regulating device in the second stage according to the comparison result of the temperature change rate and the humidity change rate includes: and determining that the temperature change rate is smaller than the humidity change rate, and in the second stage, adjusting up the operating gear of the temperature regulating device.

In one embodiment, determining an operating strategy of the humidity adjustment device in the second stage according to a comparison of the rate of change of temperature and the rate of change of humidity includes: determining that the temperature change rate is greater than or equal to the humidity change rate, and in the second stage, adjusting the operating gear of the humidity adjusting device; and determining that the temperature change rate is smaller than the humidity change rate, and in the second stage, turning down the operating gear of the humidity adjusting device.

In one of the embodiments, the control device is further configured to: receiving a set temperature value and a set humidity value; the first stage and the second stage are determined based on the ambient temperature, the ambient humidity, the set temperature value, and the set humidity value.

In one of the embodiments, the control device is further configured to: determining human body feeling evaluation according to the ambient temperature and the ambient humidity; under the condition that the human body feel is evaluated as dry, cold or wet, hot, in the second stage, controlling the temperature regulating device to operate according to the operating gear in the first stage; under the condition that the human body feeling is evaluated as dry heat, in the second stage, delaying the first time to send a target temperature value in the second stage; and/or in the second stage, the operation gear of the temperature regulating device is turned down; in the case where the human body feel is evaluated as wet-cold, the operating range of the temperature adjusting device is adjusted up in the second stage.

In one of the embodiments, the control device is further configured to: determining human body feeling evaluation according to the ambient temperature and the ambient humidity; under the condition that the human body feel is evaluated as dry, cold or wet and hot, controlling the humidity adjusting device to operate according to the operating gear in the first stage in the second stage; under the condition that the human body feel is evaluated as dry heat, in the second stage, the operation gear of the humidity adjusting device is adjusted to be high; in the case where the human body feeling is evaluated as wet-cold, the operation gear of the humidity control apparatus is turned down in the second stage.

In one of the embodiments, the control device is further configured to: acquiring the current season; and controlling the temperature regulating device to operate according to the operation gear in the first stage based on the current season being winter.

In one embodiment, 1, a target temperature and a target humidity are set; 2. dividing the current temperature to target temperature interval into a plurality of stages of target temperature and humidity; 3. obtaining the time reaching the first stage target temperature and humidity as a reference to predict the time reaching the second target temperature and humidity; 4. if the temperature rising rate and the humidity rising rate are the preset difference, the next stage of the rising rate needs to run in a low gear to wait for the preset time with slow rising rate; 5. if the temperature is required to be ensured to reach 18 degrees in winter, the warmer does not wait before 18 degrees (corresponding to other environmental requirements); 6. the current temperature and humidity state is at the temperature of dry heat (high temperature and low humidity), the temperature of next stage and the like, dry cold (low temperature and low humidity), no waiting in next stage, no waiting in wet heat (high temperature and high humidity), no waiting in next stage, wet cold (low temperature and high humidity), the humidity of next stage and the like.

In one embodiment, 1, the humidifier monitors whether the ambient temperature matches the current humidity, whether it is on or off; 2. acquiring the current temperature, acquiring corresponding humidity according to the current temperature, and adjusting the humidity to reach corresponding parameters (such as 40% humidity corresponding to 18 ℃, 45% humidity corresponding to 19 ℃, 45% humidity corresponding to 20 ℃), and the like); 3. in the regulation and control process, current humidity information is obtained; 4. judging that the current environment is in dry heat (high temperature and low humidity), increasing the humidification amount, closing or running the warmer in low gear, dry cooling (low temperature and low humidity), increasing the gear position of the warmer, increasing the humidification amount and wet heat (high temperature and high humidity), reducing the gear position of the warmer, wet cooling (low temperature and high humidity) after closing the humidifier for a preset time, closing the humidifier, and increasing the gear position of the warmer.

In one embodiment, stage one: when the temperature or the humidity does not reach the target, the warmer or the humidifier firstly judges the difference value between the current environment state and the target state to execute different operation gears so as to quickly reach the target parameter; stage two: when the temperature OR humidity reaches the target temperature OR the target humidity, a constant temperature and constant humidity state is started, when the temperature is higher than the target temperature by 1 ℃, medium power is started, when the temperature is lower than the target temperature by 1 ℃, high power is started again, and the process is repeated, so that the temperature is always kept within the target temperature range and is dithered. Is maintained in the comfort zone.

In one embodiment, 1, acquiring temperature and humidity data of preset time; 2. analyzing the data change type; 3. if the data is linear, namely the temperature and the humidity are increased by a basically unchanged numerical value, training is carried out by a first training model; 4. if the data is nonlinear, namely the temperature and humidity changes are increased and reduced, for example, the temperature suddenly changes due to sudden door opening or window opening in winter, training is carried out by using a second training model; 5. the first training model predicts the time required for reaching the target parameter according to the current data change trend, and regulates the gear and time of the equipment; 6. the second training model regulates and controls the operation strategy of the equipment in real time according to the difference value between the current numerical value and the target temperature and humidity; 7. collecting room information (classifying data generated in different areas such as bedrooms, living rooms, restaurants and the like so as to enable products to run corresponding training models in corresponding rooms), and enabling a user to feel environmental parameters suitable for the comfort requirements of the current user in any room; 8. in the first training model, if the user is detected to manually adjust the target parameter value in the running process, the identity and the parameters of the user are recorded, and the favorite target parameters of the user are automatically set when the user uses the user next time (the target parameters can also be set according to room information).

In the description of the present invention, the term "plurality" means two or more, unless explicitly defined otherwise, the orientation or positional relationship indicated by the terms "upper", "lower", etc. are based on the orientation or positional relationship shown in the drawings, merely for convenience of description of the present invention and to simplify the description, and do not indicate or imply that the apparatus or elements 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; the terms "coupled," "mounted," "secured," and the like are to be construed broadly, and may be fixedly coupled, detachably coupled, or integrally connected, for example; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances.

In the description of the present invention, the terms "one embodiment," "some embodiments," "particular embodiments," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In the present invention, the schematic representations of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, but various modifications and variations can be made to the present invention by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A control method for a temperature adjustment device, characterized by comprising:

acquiring the ambient temperature and the ambient humidity of the environment in which the temperature regulating device is positioned;

determining that the ambient temperature reaches a target temperature value of a first stage, and the temperature change rate of the ambient temperature;

determining that the ambient humidity reaches a target humidity value of a first stage, and the humidity change rate of the ambient humidity;

and determining the operation strategy of the temperature regulating device in the second stage according to the comparison result of the temperature change rate and the humidity change rate.

2. The control method according to claim 1, wherein determining an operation strategy of the temperature adjustment device in the second stage based on a comparison result of the temperature change rate and the humidity change rate includes:

determining that the temperature change rate is greater than or equal to the humidity change rate, and in the second stage, delaying a first time length to send a target temperature value of the second stage; and/or

And determining that the temperature change rate is greater than or equal to the humidity change rate, and adjusting down the operating gear of the temperature regulating device in the second stage.

3. The control method according to claim 1, wherein determining an operation strategy of the temperature adjustment device in the second stage based on a comparison result of the temperature change rate and the humidity change rate includes:

and determining that the temperature change rate is smaller than the humidity change rate, and in the second stage, adjusting up the operating gear of the temperature regulating device.

4. A control method according to any one of claims 1 to 3, characterized by further comprising:

determining a temperature change value of the ambient temperature and a second duration corresponding to the temperature change value in the first stage;

and determining the temperature change rate according to the temperature change value and the second duration.

5. A control method according to any one of claims 1 to 3, characterized by further comprising:

determining a humidity change value of the ambient humidity and a third duration corresponding to the humidity change value in the first stage;

and determining the humidity change rate according to the humidity change value and the third duration.

6. A control method according to any one of claims 1 to 3, characterized by further comprising:

receiving a set temperature value and a set humidity value;

and determining the first stage and the second stage according to the ambient temperature, the ambient humidity, the set temperature value and the set humidity value.

7. A control method according to any one of claims 1 to 3, characterized by further comprising:

determining a human body feeling evaluation according to the ambient temperature and the ambient humidity;

under the condition that the human body feeling is evaluated as dry, cold or wet, hot, controlling the temperature regulating device to operate according to the operating gear in the first stage in the second stage;

under the condition that the human body feeling is evaluated as dry heat, in the second stage, delaying a first time length to send a target temperature value of the second stage; and/or in the second stage, reducing the operating gear of the temperature regulating device;

and when the human body feeling is evaluated as wet and cold, in the second stage, the operating gear of the temperature regulating device is adjusted up.

8. A control method according to any one of claims 1 to 3, characterized by further comprising:

Acquiring the current season;

and controlling the temperature regulating device to operate according to the operation gear in the first stage based on the fact that the current season is winter.

9. A control method for a humidity adjustment device, comprising:

acquiring the ambient temperature and the ambient humidity of the environment where the humidity adjusting device is located;

and determining the operation strategy of the humidity regulating device in the second stage according to the comparison result of the temperature change rate and the humidity change rate.

10. The control method according to claim 9, wherein the determining an operation strategy of the humidity control apparatus in the second stage based on the comparison result of the temperature change rate and the humidity change rate includes:

determining that the temperature change rate is greater than or equal to the humidity change rate, and in the second stage, adjusting up the operating gear of the humidity adjustment device;

and determining that the temperature change rate is smaller than the humidity change rate, and adjusting down the operating gear of the humidity adjusting device in the second stage.

11. The control method according to claim 9 or 10, characterized by further comprising:

12. The control method according to claim 9 or 10, characterized by further comprising:

13. The control method according to claim 9 or 10, characterized by further comprising:

receiving a set temperature value and a set humidity value;

14. The control method according to claim 9 or 10, characterized by further comprising:

under the condition that the human body feeling is evaluated as dry, cold or wet, hot, controlling the humidity adjusting device to operate according to the operating gear in the first stage in the second stage;

Under the condition that the human body feeling is evaluated as dry heat, in the second stage, the operation gear of the humidity adjusting device is adjusted up;

and in the second stage, the operating gear of the humidity adjusting device is turned down under the condition that the human body feeling is evaluated as wet and cold.

15. A control device for a temperature adjustment device, comprising:

the first acquisition unit is used for acquiring the environment temperature and the environment humidity of the environment where the temperature regulating device is located;

a first determining unit, configured to determine that the ambient temperature reaches a target temperature value in a first stage, and a temperature change rate of the ambient temperature;

a second determining unit, configured to determine that the ambient humidity reaches a target humidity value in the first stage, where the humidity change rate of the ambient humidity is equal to the humidity change rate of the ambient humidity;

and the first control unit is used for determining the operation strategy of the temperature regulating device in the second stage according to the comparison result of the temperature change rate and the humidity change rate.

16. A control device for a humidity adjustment device, comprising:

the second acquisition unit is used for acquiring the environment temperature and the environment humidity of the environment where the humidity adjusting device is located;

A third determining unit, configured to determine that the ambient temperature reaches a target temperature value in the first stage, where the temperature change rate of the ambient temperature;

a fourth determining unit, configured to determine that the ambient humidity reaches a target humidity value in the first stage, where the humidity change rate of the ambient humidity is equal to the humidity change rate of the ambient humidity;

and the second control unit is used for determining the operation strategy of the humidity regulating device in the second stage according to the comparison result of the temperature change rate and the humidity change rate.

17. A control apparatus, characterized by comprising:

a controller and a memory, wherein the memory has stored therein a program or instructions which when executed by the controller performs the steps of the method according to any of claims 1 to 14.

18. A readable storage medium, characterized in that it has stored thereon a program or instructions which, when executed by a processor, implement the steps of the method according to any of claims 1 to 14.

19. A temperature adjustment device, characterized by comprising:

the control device of claim 15.

20. A humidity control apparatus, comprising:

The control device of claim 16.

21. A control system, comprising:

a temperature adjusting device;

a humidity adjusting device;

the control device is connected with the temperature adjusting device and the humidity adjusting device and is used for acquiring the ambient temperature and the ambient humidity of the environment where the temperature adjusting device and the humidity adjusting device are located; determining that the ambient temperature reaches a target temperature value of a first stage, and the temperature change rate of the ambient temperature; determining that the ambient humidity reaches a target humidity value of a first stage, and the humidity change rate of the ambient humidity; and determining the operation strategy of the temperature regulating device in the second stage according to the comparison result of the temperature change rate and the humidity change rate.

22. The control system of claim 21, further comprising: and the environment parameter sensor is used for acquiring the environment temperature and the environment humidity and sending the environment temperature and the environment humidity to the temperature regulating device and the humidity regulating device.