CN115059999B - Control method and system for air conditioner remote controller - Google Patents

Abstract

The invention discloses a control method and a system of an air conditioner remote controller, wherein the method comprises the following steps: a conventional startup and shutdown control signal is sent and used for controlling the startup and shutdown of the air conditioner; an intelligent startup and shutdown control signal is sent and used for controlling a comfortable feedback set temperature value of the closed air conditioner at the same time of the previous day to start or close the opened air conditioner; transmitting a thermal feedback control signal, wherein the thermal feedback control signal is used for reducing the current temperature value of the air conditioner; transmitting a cold feedback control signal for raising a current temperature value of the air conditioner; and sending a comfort feedback control signal, wherein the comfort feedback control signal is used for setting the current temperature value of the air conditioner to a comfort feedback set temperature value. The temperature value can be started through comfortable feedback at the same time of the previous day of the air conditioner, the remote controller is not required to be frequently operated to adjust the temperature, and the problem that the temperature is tedious to adjust by a user is solved.

Description

Control method and system for air conditioner remote controller

Technical Field

The invention relates to the technical field of air conditioner remote controllers, in particular to a control method and a control system of an air conditioner remote controller.

Background

The cooling/heating effect feeling of the air conditioning system is related to other factors besides the cooling/heating effect of the air conditioner, and environmental conditions and personal characteristics cause 'experience difference', such as 'sunlight degree', 'personnel concentration', 'working state', 'psychological feeling', 'personnel age', 'working property', 'clothing quantity', and other external reasons. Thus, the same set temperature may be experienced as comfortable by someone and uncomfortable by someone.

When the air conditioning system is in normal operation, a user adjusts the set temperature, the temperature is higher than the user-adjusted temperature, and the temperature is lower than the user-reduced temperature, so that on one hand, the set temperature of the user cannot be recorded, and the user-adjusted temperature is complicated; on the other hand, the change of the set temperature requirement of different users and different external factors cannot be matched.

Disclosure of Invention

The invention aims to provide a control method and a control system for an air conditioner remote controller, which are used for solving the problems that the temperature of a user cannot be recorded and the temperature regulation of the user is complicated in the prior art.

The invention further aims to solve the problem that the prior art cannot be matched with the change of the set temperature requirement of different users and different external factors.

In order to achieve the above purpose, the invention is realized by adopting the following technical scheme:

one aspect of the invention discloses a control method of an air conditioner remote controller, comprising the following steps:

a conventional startup and shutdown control signal is sent and used for controlling the startup and shutdown of the air conditioner;

an intelligent startup and shutdown control signal is sent and used for controlling a comfortable feedback set temperature value of the closed air conditioner at the same time of the previous day to start or close the opened air conditioner;

transmitting a thermal feedback control signal, wherein the thermal feedback control signal is used for reducing the current temperature value of the air conditioner;

transmitting a cold feedback control signal for raising a current temperature value of the air conditioner;

and sending a comfort feedback control signal, wherein the comfort feedback control signal is used for setting the current temperature value of the air conditioner to a comfort feedback set temperature value.

Further, transmitting the comfort feedback control signal includes:

transmitting a comfort feedback control signal based on the received comfort feedback control touch signal, or

And when the air conditioner continuously runs for preset time and any one of the hot feedback control signal, the cold feedback control signal or the comfort feedback control signal is not received, automatically sending the comfort feedback control signal.

Further, after sending the intelligent on-off control signal, the method further comprises the following steps:

sending a temperature following control signal, wherein the temperature following control signal is used for controlling the temperature of an air conditioner from the current moment to the next moment, and the temperature expression of the next moment of the air conditioner is as follows: cn+1=cx+1+cn-Cx;

wherein Cn+1: the temperature value of the air conditioner at the next moment Cx+1: the temperature value of the air conditioner at the n+1 time of the previous day is a comfortable feedback set temperature value; the temperature value of the air conditioner at the nth time of the day before Cx is a comfortable feedback set temperature value; cn: the set temperature value of the air conditioner at the current moment.

Further, after sending the conventional on-off control signal, the method further comprises the following steps:

and sending a temperature rise and fall control signal, wherein the temperature rise and fall control signal is used for reducing the current temperature value of the air conditioner or increasing the current temperature value of the air conditioner.

Further, the method further comprises the following steps:

a mode selection control signal is sent and used for controlling the air conditioner to be in a refrigerating mode, a heating mode or an air supply mode; and/or

And sending a wind speed selection control signal, wherein the wind speed selection control signal is used for controlling the air conditioner to be at a high wind speed, a medium wind speed or a low wind speed.

Another aspect of the present application also discloses an air conditioner remote controller control system, including:

the conventional on-off key is used for sending a conventional on-off control signal which is used for controlling the on-off of the air conditioner;

the intelligent on-off key is used for sending an intelligent on-off control signal, and the intelligent on-off control signal is used for controlling the closed air conditioner to start or close the opened air conditioner by comfortable feedback set temperature values at the same time of the previous day;

the thermal feedback key is used for sending a thermal feedback control signal, and the thermal feedback control signal is used for reducing the current temperature value of the air conditioner;

the cold feedback key is used for sending a cold feedback control signal, and the cold feedback control signal is used for increasing the current temperature value of the air conditioner;

and the comfort feedback key is used for sending a comfort feedback control signal, and the comfort feedback control signal is used for setting the current temperature value of the air conditioner to a comfort feedback set temperature value.

Further, the method further comprises the following steps:

the temperature following key is used for sending a temperature following control signal, the temperature following control signal is used for controlling the temperature of an air conditioner from the current moment to the next moment, and the temperature expression of the next moment of the air conditioner is as follows: cn+1=cx+1+cn-Cx;

wherein Cn+1: the temperature value of the air conditioner at the next moment Cx+1: the temperature value of the air conditioner at the n+1 time of the previous day is a comfortable feedback set temperature value; the temperature value of the air conditioner at the nth time of the day before Cx is a comfortable feedback set temperature value; cn: the set temperature value of the air conditioner at the current moment.

Further, the method further comprises the following steps:

temperature up-down key: the temperature control device is used for sending a temperature rise and fall control signal, wherein the temperature rise and fall control signal is used for reducing the current temperature value of the air conditioner or increasing the current temperature value of the air conditioner.

Further, the method further comprises the following steps:

a mode selection key for transmitting a cooling mode control signal, a heating mode control signal or an air supply mode control signal;

the wind speed selection key is used for sending a wind speed selection control signal, and the wind speed selection control signal is used for controlling the air conditioner to be at a high wind speed, a medium wind speed or a low wind speed.

Further, the intelligent control device also comprises a display, wherein the display is electrically connected with a control circuit board, and the control circuit board is electrically connected with a mode selection key, an air speed selection key, a conventional on-off key, an intelligent on-off key, a thermal feedback key, a cold feedback key and a comfortable feedback key;

the display is used for displaying the current temperature value, mode information and wind speed information of the air conditioner.

According to the technical scheme, the embodiment of the invention has at least the following effects:

1. according to the method and the device, the comfort feedback set temperature value required to be recorded by a user at the current moment can be recorded by sending the comfort feedback control signal, and the comfort feedback set temperature value at the same moment of the previous day of the air conditioner can be started by sending the intelligent switch control signal; when the temperature needs to be regulated, the temperature can be regulated by a hot feedback control signal and a cold feedback control signal, and the temperature is convenient to regulate;

2. the method controls the temperature of the air conditioner from the current moment to the next moment through the temperature following control signal, defines a specific expression of the temperature at the next moment, reflects the set temperature change requirement of the current date and the previous day through the design, the remote controller can automatically match the change of the user on the set temperature requirement at different moments, and the problem that the remote controller is frequently operated due to the change of external factors is solved through automatic following adjustment.

Drawings

FIG. 1 is a flow chart of a method for controlling a remote control according to an embodiment of the present invention;

fig. 2 is a schematic diagram of a remote control system according to an embodiment of the present invention.

Wherein: 100. a display; 200. a mode selection key; 300. a wind speed selection key; 400. a conventional operation control zone; 401. a conventional on-off key; 402. a temperature control key; 500. an intelligent operation control area; 501. an intelligent on-off key; 502. comfort feedback key; 503. a thermal feedback key; 504. a cold feedback key; 505. the temperature follows the key.

Detailed Description

The invention is further described in connection with the following detailed description, in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

Example 1

As shown in fig. 1, the present application discloses a control method of an air conditioner remote controller, which includes the following steps:

step 100, a conventional on-off control signal is sent, and the conventional on-off control signal is used for controlling the on-off of the air conditioner.

And 200, sending an intelligent on-off control signal, wherein the intelligent on-off control signal is used for controlling the on-off air conditioner to start or close the on-off air conditioner by using a comfortable feedback set temperature value at the same time of the previous day.

Step 210, sending a thermal feedback control signal, where the thermal feedback control signal is used to reduce the current temperature value of the air conditioner. Step 220, a cold feedback control signal is sent, and the cold feedback control signal is used for increasing the current temperature value of the air conditioner. Step 230, sending a comfort feedback control signal, wherein the comfort feedback control signal is used for setting the current temperature value of the air conditioner to a comfort feedback set temperature value.

According to the control method designed in the application, a user can select to operate the steps 100 and 200 according to practical requirements. Step 200 is different from a conventional operation mode, and the comfort feedback set temperature value of the air conditioner at the same time of the previous day can be started by sending the intelligent on-off control signal, and the temperature value is used as the initial set temperature because the temperature change at the same time of the adjacent days is smaller, so that a user does not need to frequently operate a remote controller to adjust the temperature, and the problem of tedious temperature adjustment of the user is solved. The comfort feedback set temperature value which is required to be recorded by the user at the current moment can be recorded by sending the comfort feedback control signal. The temperature can be regulated by sending a thermal feedback control signal and a cold feedback control signal, and the temperature regulation device has the advantage of convenience in regulating the temperature.

In a further embodiment, step 200 further includes step 240, after sending the intelligent power on/off control signal, further includes: sending a temperature following control signal, wherein the temperature following control signal is used for controlling the temperature of an air conditioner from the current moment to the next moment, and the temperature expression of the next moment of the air conditioner is as follows:

Cn+1=Cx+1+Cn-Cx；

wherein Cn+1: the temperature value of the air conditioner at the next moment Cx+1: the temperature value of the air conditioner at the n+1 time of the previous day is a comfortable feedback set temperature value; the temperature value of the air conditioner at the nth time of the day before Cx is a comfortable feedback set temperature value; cn: the set temperature value of the air conditioner at the current moment.

The temperature following control signal is mainly used for following the change of sunlight, life work and rest and the like to the change of the demand of the set temperature, such as 12 pm, at lunch time, the set temperature of personnel leaving can be correspondingly high, 1 pm, at noon, the set temperature should be moderate, the rest is influenced by the overhigh temperature, and the overlow temperature can catch a cold; at 2 pm, in the working starting stage, at the same time, sunlight is in the strongest state, and the temperature is set to be low; real-time temperature differentiation requirements can be realized through temperature following, and the tedious process of frequently adjusting the temperature is reduced.

The "comfort feedback set temperature value" at each instant records the set temperature requirements at different instants. The method and the device adopt the mode of subtracting the comfortable feedback set temperature value at the nth time of the previous day from the set temperature value of the air conditioner at the current time of the current day and adding the comfortable feedback set temperature value at the (n+1) th time of the previous day, and reflect the set temperature change requirements of the current date and the previous day; the set temperature requirement changes caused by personnel changes, weather changes and the like; the temperature following can automatically match the change of the user on the set temperature requirement at different moments.

In this application, there is no sequential order between steps 210, 220, 230 and 240. When the operator uses the air conditioner at home on the same day, the operator can directly perform the operation of step 240, and if the operator has a short time at home, the operator can directly perform the operation of step 240 or can use any of the operations of step 210, step 220 and step 230.

If the temperature of the day is more abnormal than the temperature of the previous day, the operation of step 100 may be performed. The operation of step 100 further includes step 110 of sending a temperature ramp control signal for lowering the current temperature value of the air conditioner or raising the current temperature value of the air conditioner.

In a further embodiment, the operation procedure of lowering the current temperature of the air conditioner or raising the current temperature of the air conditioner is specifically:

the current temperature of the air conditioner is reduced by adopting a thermal feedback control signal, and the specific operation process is as follows:

if a primary thermal feedback control signal is sent within 0.5-2s, the temperature of the air conditioner can be controlled to be reduced by 0.5 ℃, if two thermal feedback control signals are sent within 0.5-2s, the temperature of the air conditioner can be controlled to be reduced by 2 ℃, and if three thermal feedback control signals are sent within 0.5-2s, the temperature of the air conditioner can be controlled to be reduced by 5 ℃.

The cold feedback control signal is adopted to raise the current temperature of the air conditioner, and the specific operation process is as follows:

if a cold feedback control signal is sent within 0.5-2s, the temperature of the air conditioner can be controlled to be increased by 0.5 ℃, if a cold feedback control signal is sent within 0.5-2s twice, the temperature of the air conditioner can be controlled to be increased by 2 ℃, and if a cold feedback control signal is sent within 0.5-2s three times, the temperature of the air conditioner can be controlled to be increased by 5 ℃.

In this embodiment, a plurality of temperature adjustment modes are designed, and adjustment of the temperature rise or fall of the air conditioner can be rapidly performed when the temperature difference is large. When the temperature difference is not large, the air conditioner temperature can be simply and conveniently adjusted.

The current temperature of the air conditioner is reduced or increased by adopting a temperature rise and fall control signal, and the specific operation process is as follows:

the temperature rise control signal includes a temperature rise control signal and a temperature fall control signal. Sending a temperature rise control signal indicates increasing the set temperature value once, and sending a temperature drop control signal indicates decreasing the set temperature value once, each time the temperature value is increased or decreased by 0.5 ℃.

In a further embodiment of the present application, there are two methods of transmitting the comfort feedback control signal.

The first method is that an operator sends the touch signal. At this time, the remote controller transmits a comfort feedback control signal according to the received comfort feedback control touch signal.

And the second method is that the remote controller automatically sends. When the air conditioner continuously runs for a preset time and any one of the hot feedback control signal, the cold feedback control signal or the comfort feedback control signal is not received, the remote controller automatically sends the comfort feedback control signal.

Through the design of the second method, the remote controller of the air conditioner can always record the comfortable feedback set temperature value when the air conditioner is in operation, and the temperature follow-up control is ensured to have enough use data.

In one embodiment of the present application, the method further includes step 10 of sending a mode selection control signal, where the mode selection control signal is used to control the air conditioner to be in a cooling mode, a heating mode or a blowing mode.

In this step, each time a mode selection control signal is transmitted, a different mode is selected. The mode selection control signal is sent for the first time, and the air conditioner is in a refrigeration mode. And the mode selection control signal is sent for the second time, the air conditioner is in a heating mode, the mode selection control signal is sent again, and the air conditioner is in an air supply mode.

And step 20, sending a wind speed selection control signal, wherein the wind speed selection control signal is used for controlling the air conditioner to be at a high wind speed, a medium wind speed or a low wind speed.

In this step, each time a wind speed selection control signal is transmitted, a different wind speed is selected. The wind speed selection control signal is sent for the first time, and the air conditioner is at a low wind speed or a high wind speed. And the wind speed selection control signal is sent for the second time, the air conditioner is at a medium wind speed, the wind speed selection control signal is sent again, and the air conditioner is at a high wind speed or a low wind speed.

In one embodiment of the present application, the following steps are also included to display temperature information, wind speed information, and mode information of the air conditioner.

Example 2

Based on the inventive concept of embodiment 1, this embodiment discloses a control method of an air conditioner remote controller, the method comprising:

the normal on-off key 401 is used for sending a normal on-off control signal, and the normal on-off control signal is used for controlling the on-off of the air conditioner.

The intelligent on-off key 501 is used for sending an intelligent on-off control signal, and the intelligent on-off control signal is used for controlling the on-off air conditioner to start or close the on-off air conditioner by comfortable feedback set temperature value at the same time of the previous day of the off air conditioner;

a thermal feedback key 503 for sending a thermal feedback control signal for lowering the current temperature value of the air conditioner.

A cold feedback key 504 for transmitting a cold feedback control signal for raising a current temperature value of the air conditioner.

The comfort feedback key 502 is configured to send a comfort feedback control signal, where the comfort feedback control signal is configured to set a current temperature value of the air conditioner to a comfort feedback set temperature value.

According to the remote controller system of the air conditioner, an operator can start the comfortable feedback set temperature value of the air conditioner at the same time of the previous day by operating the intelligent start-stop key 501, and the temperature value is used as the initial set temperature because the temperature change at the same time of the adjacent days is smaller, so that the user does not need to frequently operate the remote controller to adjust the temperature, and the problem that the user adjusts the temperature is complex is solved. The comfort feedback set temperature value that the user needs to record at the current moment can be recorded by operating the comfort feedback key 502. The temperature can be adjusted by operating the hot feedback key 503 and the cold feedback key 504, and the temperature adjustment is convenient.

In the present system, a normal operation control area 400 and an intelligent operation control area 500 are included, and the intelligent operation control area 500 includes an intelligent on-off key 501, a thermal feedback key 503, a cold feedback key 504, a comfort feedback key 502, and a temperature follow key 505. The normal operation control area 400 includes a normal on-off key 401 and a temperature control key 402.

The comfort feedback key 502 temperature following key 505 is used for sending a temperature following control signal, the temperature following control signal is used for controlling the temperature of the air conditioner from the current moment to the next moment, and the temperature expression of the next moment of the air conditioner is: cn+1=cx+1+cn-Cx;

wherein Cn+1: the temperature value of the air conditioner at the next moment Cx+1: the temperature value of the air conditioner at the n+1 time of the previous day is a comfortable feedback set temperature value; the temperature value of the air conditioner at the nth time of the day before Cx is a comfortable feedback set temperature value; cn: the set temperature value of the air conditioner at the current moment.

The temperature following control signal is mainly used for following the change of sunlight, life work and rest and the like to the change of the demand of the set temperature, such as 12 pm, at lunch time, the set temperature of personnel leaving can be correspondingly high, 1 pm, at noon, the set temperature should be moderate, the rest is influenced by the overhigh temperature, and the overlow temperature can catch a cold; at 2 pm, in the working starting stage, at the same time, sunlight is in the strongest state, and the temperature is set to be low; real-time temperature differentiation requirements can be realized through temperature following, and the tedious process of frequently adjusting the temperature is reduced.

The "comfort feedback set temperature value" at each instant records the set temperature requirements at different instants. The method and the device adopt the mode of subtracting the comfortable feedback set temperature value at the nth time of the previous day from the set temperature value of the air conditioner at the current time of the current day and adding the comfortable feedback set temperature value at the (n+1) th time of the previous day, and reflect the set temperature change requirements of the current date and the previous day; the set temperature requirement changes caused by personnel changes, weather changes and the like; the temperature following can automatically match the change of the user on the set temperature requirement at different moments.

In a further embodiment, the operation procedure of lowering the current temperature of the air conditioner or raising the current temperature of the air conditioner is specifically:

the current temperature of the air conditioner is reduced by adopting a thermal feedback control signal, and the specific operation process is as follows:

if the primary thermal feedback key 503 is operated within 0.5-2s, the temperature of the air conditioner can be controlled to be reduced by 0.5 ℃, if the secondary thermal feedback key 503 is operated within 0.5-2s, the temperature of the air conditioner can be controlled to be reduced by 2 ℃, and if the tertiary thermal feedback key 503 is operated within 0.5-2s, the temperature of the air conditioner can be controlled to be reduced by 5 ℃.

The cold feedback control signal is adopted to raise the current temperature of the air conditioner, and the specific operation process is as follows:

if the one-time cold feedback key 504 is operated within 0.5-2s, the temperature of the air conditioner may be controlled to be raised by 0.5 deg.c, if the two-time cold feedback key 504 is operated within 0.5-2s, the temperature of the air conditioner may be controlled to be raised by 2 deg.c, and if the three-time cold feedback key 504 is operated within 0.5-2s, the temperature of the air conditioner may be controlled to be raised by 5 deg.c.

In this embodiment, a plurality of temperature adjustment modes are designed, and adjustment of the temperature rise or fall of the air conditioner can be rapidly performed when the temperature difference is large. When the temperature difference is not large, the air conditioner temperature can be simply and conveniently adjusted.

The temperature control key 402 is used for reducing or increasing the current temperature of the air conditioner, and the specific operation process is as follows:

operating the temperature control key 402 up once indicates increasing the set temperature value once and down indicates decreasing the set temperature value once, each time increasing or decreasing the temperature value once by 0.5 deg.c.

In one embodiment of the present application, a mode selection key 200 is further included, and each time the mode selection key 200 is operated, a different mode is selected. The mode selection key 200 is operated for the first time, and the air conditioner is in the cooling mode. The operation mode selection key 200 is operated for the second time, the air conditioner is in the heating mode, the operation mode selection key 200 is operated again, and the air conditioner is in the air supply mode.

In one embodiment of the present application, the air conditioning system further includes an air speed selection key 300, and the air speed selection key 300 is used to send an air speed selection control signal to control the air conditioner to be at a high air speed, a medium air speed or a low air speed.

In an embodiment, each time the wind speed selection key 300 is operated, a different wind speed is selected. The wind speed selection key is operated for the first time, and the air conditioner is at low wind speed or high wind speed. And operating the wind speed selection key for the second time, wherein the air conditioner is at a medium wind speed, operating the wind speed selection key again, and the air conditioner is at a high wind speed or a low wind speed.

In one embodiment of the present application, the air conditioning system further includes a display 100, where the display 100 is electrically connected to a control circuit board, and the control circuit board is electrically connected to the mode selection key 200, the wind speed selection key, the normal on/off key 401, the intelligent on/off key 501, the thermal feedback key 503, the cold feedback key 504, and the comfort feedback key 502; the display 100 is used for displaying the current temperature value, mode information and wind speed information of the air conditioner.

Example 3

Based on the same inventive concept as embodiment 1, a computer-readable storage medium having stored thereon a computer program which, when executed by a processor, implements the steps of the method of any of the first aspects is disclosed in an embodiment of the invention.

It will be appreciated by those skilled in the art that embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment, or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems) and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flowchart illustrations and/or block diagrams, and combinations of flows and/or blocks in the flowchart illustrations and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

It will be appreciated by those skilled in the art that the present invention can be carried out in other embodiments without departing from the spirit or essential characteristics thereof. Accordingly, the above disclosed embodiments are illustrative in all respects, and not exclusive. All changes that come within the scope of the invention or equivalents thereto are intended to be embraced therein.

Claims (7)

1. A control method of an air conditioner remote controller, comprising:

a conventional startup and shutdown control signal is sent and used for controlling the startup and shutdown of the air conditioner;

an intelligent startup and shutdown control signal is sent and used for controlling the start of a comfortable feedback set temperature value of the closed air conditioner at the same time of the previous day;

transmitting a thermal feedback control signal, wherein the thermal feedback control signal is used for reducing the current temperature value of the air conditioner;

transmitting a cold feedback control signal for raising a current temperature value of the air conditioner;

sending a comfort feedback control signal, the comfort feedback control signal being configured to set a current temperature value of an air conditioner to a comfort feedback set temperature value, the sending the comfort feedback control signal comprising: when the air conditioner continuously runs for a preset time and any one of a hot feedback control signal, a cold feedback control signal or a comfortable feedback control signal is not received, automatically sending the comfortable feedback control signal;

after sending the intelligent on-off control signal, the method further comprises the following steps:

sending a temperature following control signal, wherein the temperature following control signal is used for controlling the temperature of an air conditioner from the current moment to the next moment, and the temperature expression of the next moment of the air conditioner is as follows: cn+1=cx+1+cn-Cx;

wherein Cn+1: the temperature value of the air conditioner at the next moment Cx+1: the temperature value of the air conditioner at the n+1 time of the previous day is a comfortable feedback set temperature value; the temperature value of the air conditioner at the nth time of the day before Cx is a comfortable feedback set temperature value; cn: the set temperature value of the air conditioner at the current moment.

2. The method for controlling an air conditioner remote control according to claim 1, further comprising, after transmitting the normal on-off control signal:

and sending a temperature rise and fall control signal, wherein the temperature rise and fall control signal is used for reducing the current temperature value of the air conditioner or increasing the current temperature value of the air conditioner.

3. The control method of an air conditioner remote control according to claim 1, further comprising:

a mode selection control signal is sent and used for controlling the air conditioner to be in a refrigerating mode, a heating mode or an air supply mode; and/or

And sending a wind speed selection control signal, wherein the wind speed selection control signal is used for controlling the air conditioner to be at a high wind speed, a medium wind speed or a low wind speed.

4. An air conditioner remote control system, comprising:

the conventional on-off key is used for sending a conventional on-off control signal which is used for controlling the on-off of the air conditioner;

the intelligent on-off key is used for sending an intelligent on-off control signal, and the intelligent on-off control signal is used for controlling the start of the comfortable feedback set temperature value of the closed air conditioner at the same time of the previous day;

the thermal feedback key is used for sending a thermal feedback control signal, and the thermal feedback control signal is used for reducing the current temperature value of the air conditioner;

the cold feedback key is used for sending a cold feedback control signal, and the cold feedback control signal is used for increasing the current temperature value of the air conditioner;

the comfortable feedback key is used for sending a comfortable feedback control signal, the comfortable feedback control signal is used for setting the current temperature value of the air conditioner to be a comfortable feedback set temperature value, and sending the comfortable feedback control signal comprises: when the air conditioner continuously runs for a preset time and any one of a hot feedback control signal, a cold feedback control signal or a comfortable feedback control signal is not received, automatically sending the comfortable feedback control signal;

the temperature following key is used for sending a temperature following control signal, the temperature following control signal is used for controlling the temperature of an air conditioner from the current moment to the next moment, and the temperature expression of the next moment of the air conditioner is as follows: cn+1=cx+1+cn-Cx;

wherein Cn+1: the temperature value of the air conditioner at the next moment Cx+1: the temperature value of the air conditioner at the n+1 time of the previous day is a comfortable feedback set temperature value; the temperature value of the air conditioner at the nth time of the day before Cx is a comfortable feedback set temperature value; cn: the set temperature value of the air conditioner at the current moment.

5. The remote control system of air conditioner of claim 4, further comprising:

temperature up-down key: the temperature control device is used for sending a temperature rise and fall control signal, wherein the temperature rise and fall control signal is used for reducing the current temperature value of the air conditioner or increasing the current temperature value of the air conditioner.

6. The remote control system of air conditioner of claim 4, further comprising:

a mode selection key for transmitting a cooling mode control signal, a heating mode control signal or an air supply mode control signal;

the wind speed selection key is used for sending a wind speed selection control signal, and the wind speed selection control signal is used for controlling the air conditioner to be at a high wind speed, a medium wind speed or a low wind speed.

7. The remote control system of air conditioner of claim 6, further comprising a display, wherein the display is electrically connected to a control circuit board, and wherein the control circuit board is electrically connected to a mode selection key, an air speed selection key, a normal on-off key, an intelligent on-off key, a thermal feedback key, a cold feedback key, and a comfort feedback key;

the display is used for displaying the current temperature value, mode information and wind speed information of the air conditioner.