CN111023394A - Control method, control device, remote controller, air conditioner body and air conditioner - Google Patents

Abstract

The invention provides a control method, a control device, a remote controller, an air conditioner body and an air conditioner, relates to the technical field of air conditioners, operates on the remote controller side, and comprises the following steps: and when the remote controller is in a working state or a dormant state, judging whether the remote controller receives an operation signal sent by the air conditioner body, and if not, closing the remote controller. According to the control method, the control device, the remote controller, the air conditioner body and the air conditioner, whether the air conditioner body operates or not is judged by judging whether the remote controller receives the operation signal of the air conditioner body or not, and when the air conditioner body is in a power-off state, the remote controller is turned off, so that electricity is saved, and unnecessary loss of the remote controller is prevented; and, this application control process is simple, when the remote controller detects out that the air conditioner body is in the shutdown state, no longer gets into other complicated judgement processes such as dormancy state, directly closes the remote controller, and accurate quick opening and closing state to the remote controller is controlled.

Description

Control method, control device, remote controller, air conditioner body and air conditioner

Technical Field

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

Background

Along with the improvement of the intelligence degree of devices such as the mobile phone and the air conditioner, the association degree of the air conditioner and the mobile phone is higher and higher. Most of electronic devices such as mobile phones and flat panels have an infrared emitting device and a remote controller, and can perform various functions such as opening and switching modes of an air conditioner. However, the original remote controller of the air conditioner cannot be cancelled at present, and when a user turns off the air conditioner through electronic equipment such as a mobile phone and a flat panel, the remote controller is always in an on state, so that the loss of electric quantity and the service life of the remote controller is caused.

Similarly, for some air conditioner models, the remote controllers of a plurality of air conditioners can be used interchangeably, and when a certain air conditioner is controlled by the plurality of remote controllers, at least one remote controller is inevitably in an open state all the time, so that the loss of the electric quantity and the service life of the remote controller is caused.

Disclosure of Invention

The invention solves the problem that when the existing air conditioner is controlled by a plurality of remote control devices, the remote controller is always in an open state, which causes the loss of electric quantity and the service life of the remote controller.

In order to solve the above problem, the present invention provides a control method, operating on a remote controller side, including:

and when the remote controller is in a working state or a dormant state, judging whether the remote controller receives an operation signal sent by the air conditioner body, and if not, closing the remote controller.

The invention judges whether the air conditioner body operates by judging whether the remote controller receives the operation signal of the air conditioner body, and when the air conditioner body is in the shutdown state, the remote controller is turned off, thereby saving more electricity and preventing unnecessary loss of the remote controller. And, this application control process is simple, when the remote controller detects out that the air conditioner body is in the shutdown state, no longer gets into other complicated judgement processes such as dormancy state, directly closes the remote controller, and accurate quick opening and closing state to the remote controller is controlled.

Optionally, when the remote controller is in the working state or the dormant state, the remote controller sends a detection signal to the air conditioner body, and determines whether the remote controller receives the operation signal sent by the air conditioner body, if not, the remote controller is turned off; the remote controller actively sends a detection signal to the air conditioner body, so that the remote controller has autonomy on self control, does not depend on the running state of the air conditioner, and is simpler and more convenient in control process and control method.

Optionally, when the remote controller receives the operation signal sent by the air conditioner body, judging again at a first interval to determine whether the remote controller receives the operation signal sent by the air conditioner body until the remote controller is turned off; continuous multiple judgments are formed, so that the remote controller can judge for multiple times in the opening state, and the timeliness and accuracy of judgment and control are improved.

Optionally, when the remote controller is in the sleep state, determining a value of the first duration according to a continuous duration of the remote controller entering the sleep state; the value of the first time length is different according to the difference of the continuous duration, and the interval time is determined according to the time length of the remote controller entering the sleep state, so that the method is more reasonable.

Optionally, the method further comprises: when the remote controller is in a working state or a dormant state, the remote controller is turned off when a turn-off signal sent by the air conditioner body is received; the remote controller can be closed at the first time when the air conditioner body is shut down, so that the air conditioner body and the remote controller are consistent in operation.

Optionally, the method further comprises: when the remote controller is in a working state, judging whether the remote controller is displaced within a second time length range, and if not, controlling the remote controller to enter a dormant state; if so, judging whether the remote controller is displaced within a second time length range again until the remote controller enters the dormant state;

and/or when the remote controller is in the dormant state, if the remote controller is confirmed to be displaced, the remote controller is controlled to enter a working state, the state of the remote controller is controlled through whether the remote controller is displaced, and the remote controller is converted into the dormant state when not used, so that electricity and energy are saved; when the remote controller moves, the remote controller enters a working state, and a user can use the remote controller in the fastest time.

Optionally, the specific implementation of the displacement of the remote controller includes:

and when the displacement distance of the remote controller is within a preset distance range and/or the displacement maximum speed value of the remote controller is within a preset speed range, confirming that the remote controller is displaced, and judging whether the remote controller moves according to the displacement distance and the displacement speed of the remote controller, so that the method is directly and effectively.

Optionally, the method further comprises: when a setting instruction of the user for the preset distance range and/or the preset speed range is received, the numerical value of the preset distance range and/or the preset speed range is determined according to the setting instruction, the awakening range is continuously corrected, and the using failure times of the remote controller are reduced.

Optionally, the method further comprises: when the remote controller is in a working state, detecting a temperature value of an environment where the remote controller is located, judging whether the remote controller is displaced in a second time length range or whether the temperature value is in a preset temperature range, and if the remote controller is not displaced in the second time length range and the temperature value is not in the preset temperature range, controlling the remote controller to enter the dormant state; if the remote controller is displaced in the second time length range or the temperature value is within the preset temperature range, judging whether the remote controller is displaced in the second time length range or the temperature value is within the preset temperature range again until the remote controller enters the dormant state;

and/or when the remote controller is in the dormant state, if the remote controller is confirmed to be displaced or a signal that the temperature value of the environment is within the preset temperature range is received, controlling the remote controller to enter the working state.

When a user takes the remote controller for operation and control, the temperature sensor can detect the palm temperature, and when the user uses the temperature sensor, the temperature sensor can sensitively detect the change of the temperature, so that the user can be assisted to judge to use the remote controller.

The invention also provides a control method, which runs on the air conditioner body side and comprises the following steps: the air conditioner body receives a detection signal when in a starting state and sends an operation signal to a remote controller, or the air conditioner body discontinuously sends the operation signal to the remote controller when in the starting state;

and/or the air conditioner body does not send the running signal to the remote controller when in the shutdown state;

and/or sending a closing signal to the remote controller when the air conditioner body is shut down, selecting data transmission between the air conditioner body and the remote controller according to actual requirements, and adjusting the state of the remote controller according to the signal sent by the air conditioner body.

Optionally, the method further includes receiving a displacement signal and/or a temperature value of an environment where the remote controller is located, determining whether the displacement signal is received within a second time length range or whether the temperature value is within a preset temperature range, and if not, sending a sleep signal to the remote controller; if so, judging whether the displacement signal is received in a second time length range or whether the temperature value is in the preset temperature range again until the dormancy signal is sent to the remote controller;

and/or sending a working signal to the remote controller when receiving the displacement signal sent by the remote controller or receiving the signal of the temperature value within the preset temperature range.

The invention also provides an intelligent control device of the remote controller, which comprises:

the first receiving unit is used for receiving an operation signal and/or a closing signal sent by the air conditioner body;

the control unit is used for judging whether the remote controller receives the operation signal sent by the air conditioner body or not, and if not, closing the remote controller;

and/or the control unit is also used for closing the remote controller when the remote controller receives the closing signal.

Optionally, the control unit is further configured to determine whether the remote controller is displaced within a second duration range when the remote controller is in a working state, and if not, control the remote controller to enter a sleep state; if so, judging whether the remote controller is displaced within a second time length range again until the remote controller enters the dormant state;

and/or when the remote controller is in the dormant state, if the remote controller is confirmed to be displaced, controlling the remote controller to enter a working state.

Optionally, the control unit is further configured to detect a temperature value of an environment where the remote controller is located when the remote controller is in an operating state, determine whether the remote controller is displaced within a second time length range or whether the temperature value is within a preset temperature range, and control the remote controller to enter the sleep state if the remote controller is not displaced within the second time length range and the temperature value is not within the preset temperature range; if the remote controller is displaced in the second time length range or the temperature value is within the preset temperature range, judging whether the remote controller is displaced in the second time length range or the temperature value is within the preset temperature range again until the remote controller enters the dormant state;

and/or when the remote controller is in the dormant state, if the remote controller is confirmed to be displaced or a signal that the temperature value of the environment is within the preset temperature range is received, controlling the remote controller to enter the working state.

The present invention also provides a computer-readable storage medium storing a computer program which, when read and executed by a processor, implements the control method of any one of the above.

The invention also provides a remote controller, which comprises a computer readable storage medium and a processor, wherein the computer readable storage medium is used for storing a computer program, and the computer program is read by the processor and runs to realize the control method of any one of the above items.

Optionally, the remote controller further comprises a temperature sensor and/or an acceleration sensor, the temperature sensor being arranged on the housing of the remote controller.

Optionally, the number of the temperature sensors is at least two, and the two temperature sensors are respectively arranged on the left side and the right side of the lower half part of the housing.

The invention also provides an air conditioner body, which is characterized by comprising a computer readable storage medium and a processor, wherein the computer readable storage medium is used for storing a computer program, and the computer program is read by the processor and runs to realize the control method of any one of the above items.

The invention also provides an air conditioner which comprises the remote controller and/or the air conditioner body.

The remote controller intelligent control device, the remote controller and the air conditioner reasonably control the remote controller, have small structural improvement, judge whether the air conditioner body operates by judging whether the remote controller receives the operation signal of the air conditioner body, and turn off the remote controller when the air conditioner body is in a power-off state, so that more electricity is saved, and unnecessary loss of the remote controller is prevented.

Drawings

FIG. 1 is a first flowchart of a control method according to an embodiment of the present invention;

FIG. 2 is a flowchart illustrating a control method according to a second embodiment of the present invention;

fig. 3 is a flowchart illustrating a control method for controlling the remote controller in an operating state according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of a left temperature sensor in the remote controller according to the embodiment of the present invention;

fig. 5 is a schematic diagram of a right temperature sensor in the remote controller according to the embodiment of the invention.

Detailed Description

When a user starts the air conditioner body and selects functions, the air conditioner body needs to be controlled through a remote control device, and most of the remote controls are mobile remote controls. For an air conditioner body, the remote controllers can be controlled through a plurality of same remote controllers or a plurality of remote controllers with different types and different types which can be identified, and can also be controlled through electronic equipment such as a mobile phone with the function of controlling the air conditioner at present, when the air conditioner body is controlled by different remote controllers or other electronic equipment, a certain remote controller is inevitably always in a power-on state until a user finds out again to be turned off, the power consumption and the service life of the remote controller are seriously lost for a few hours and a few months, and even the remote controller is damaged.

The invention provides a control method, a control device, a remote controller and an air conditioner body, so that when the air conditioner body is closed, the remote controller can be correspondingly closed.

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

In the description of the present invention, it should be noted that terms such as "first" and "second" in the embodiments are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature.

The present invention provides a control method, shown in fig. 1, including:

when the remote controller is in a working state or a dormant state, judging whether the remote controller receives an operation signal sent by the air conditioner body, if the remote controller receives the operation signal sent by the air conditioner body, indicating that the air conditioner body is still in operation, and a user still needs to control the air conditioner body through the remote controller, so that the remote controller is kept in an open state, specifically, the remote controller can be in the working state or the dormant state; if the remote controller does not receive the operation signal sent by the air conditioner body in the working state or the dormant state, the air conditioner body is in the closed state, and the remote controller is not needed to be controlled before the user opens the air conditioner body again, so that the remote controller is closed.

It should be noted that the working state of the remote controller refers to a state in which a user can directly control the air conditioner body, generally, the display background is bright, and the user can immediately send a control instruction to the air conditioner body after pressing a control button; the sleep state refers to a standby state that the remote controller enters for power saving, generally showing that the display background is dark, and a user needs to wake up the remote controller to be in the working state and then sends a control instruction to the air conditioner body through the remote controller.

The air conditioner main body according to the present embodiment is an air conditioner main body that performs functions such as cooling and heating, separately from a remote controller or the like. The air conditioner described in this embodiment can be considered as an air conditioner system, and includes a plurality of devices such as an air conditioner body and a remote controller.

This embodiment judges whether the air conditioner body operates through the running signal that the remote controller received the air conditioner body, when the air conditioner body was in the power off state, closes the remote controller, and the power saving prevents that the remote controller from carrying out the unnecessary loss more. And, this application control process is simple, when the remote controller detects out that the air conditioner body is in the shutdown state, no longer gets into other complicated judgement processes such as dormancy state, directly closes the remote controller, and accurate quick opening and closing state to the remote controller is controlled.

Preferably, the remote controller can send a detection signal to the air conditioner body, and when the air conditioner body is in an operating state, the remote controller receives the detection signal sent by the remote controller and sends an operating signal to the remote controller, and when the remote controller receives the operating signal, the remote controller keeps the remote controller in an open state; when the air conditioner body is in the shutdown state, the detection signal sent by the remote controller cannot be received, and further the operation signal cannot be sent to the remote controller, or the air conditioner body still receives the detection signal sent by the remote controller in the shutdown state, but the operation signal cannot be sent to the remote controller, and the remote controller closes the remote controller without receiving the operation signal.

Specifically, as shown in fig. 2, when the remote controller receives an operation signal sent by the air conditioner body, whether the remote controller receives the operation signal sent by the air conditioner body is judged again at a first interval, and then continuous detection and judgment are formed until the remote controller is closed, so that the remote controller is judged for multiple times in an open state, and timeliness and accuracy of judgment and control are improved.

Preferably, when the remote controller is in the working state, the first duration is a preset fixed value, preferably within a range of 0.5 to 3 hours. When the remote controller is in a working state, the remote controller indicates that the remote controller is in a state that a user uses more currently, and further the judging time can be longer, if the judging time is once every 2 hours, the remote controller is prevented from being still started after the air conditioner body is shut down.

And when the remote controller is in the dormant state, determining the numerical value of the first time length according to the continuous duration of the remote controller entering the dormant state from the moment of entering the dormant state, wherein the data of the first time length are different according to different continuous duration. It should be noted that the continuous duration refers to a continuous duration when the remote controller enters the sleep state, and when the remote controller exits the sleep state and enters the operating state or the off state, the continuous duration returns to zero until the remote controller enters the sleep state for timing again. Specifically, the data of the first duration increases according to an increase in the continuous duration. For example, the detection is not performed as soon as the sleep state is entered, and the detection is not always in the detection state, but the detection time is determined according to the continuous duration of the entry into the sleep state. When the air conditioner enters the dormant state for the first time, if the continuous duration of the dormant state lasts for half an hour, starting first detection, and detecting whether the air conditioner body still operates, wherein the first duration is 0.5 hour; after another hour, the second test is started, and then the tests are carried out once in one hour, wherein the first time length is 1 hour. Generally speaking, the selectivity is more when the device is just in the dormant state, and the device tends to be stable after one hour, so that one detection in one hour is reasonable.

Specifically, the remote controller can actively send a detection signal to the air conditioner body by adopting the remote controller, and can be controlled to be closed by receiving a closing signal sent by the air conditioner body besides receiving an operation signal. When the air conditioner body receives a shutdown signal sent by a remote control device such as a remote controller or a mobile phone and the like to shut down or shuts down through other conditions such as power failure and the like, a shutdown signal is sent to the remote controller, and when the remote controller receives the shutdown signal sent by the air conditioner body, the remote controller is shut down. By the method, the remote controller can be sequentially turned off when the air conditioner body is turned off, so that the remote controller can be turned off at the first time, and the occurrence of missed judgment and misjudgment is prevented.

Preferably, in order to better improve the accuracy of judgment, the two schemes are integrated, the air conditioner body sends a closing signal to the remote controller when the air conditioner body is shut down, and the remote controller is closed; when the remote controller does not receive the closing signal, judging whether the remote controller receives an operation signal sent by the air conditioner body, and if the remote controller receives the operation signal sent by the air conditioner body, keeping the remote controller in an opening state; and if the remote controller does not receive the running signal sent by the air conditioner body in the working state or the dormant state, closing the remote controller.

The embodiment of the invention provides a method for closing and controlling a remote controller according to the running state of an air conditioner body, so that the remote controller can be closed in time when needing to be closed, thereby reducing energy consumption and prolonging the service life of the remote controller.

Preferably, when the remote controller is not closed, the remote controller is mostly in a standby state, so that the background brightness is higher, the air conditioner body is in a state of directly sending a control command, the power consumption is higher, and the requirement of energy conservation advocated in the state at present is not met. In order to implement energy saving design for the remote controller, the present embodiment further provides a control method for controlling the remote controller to automatically enter the sleep state when the remote controller does not need to work.

Specifically, referring to fig. 3, when the remote controller is in a working state (including entering the working state), it is determined whether the remote controller is displaced within the second duration range, and if the remote controller is not displaced, the remote controller is controlled to enter a sleep state; if the remote controller does not displace within the second time length range, whether the remote controller displaces within the second time length range is judged again, and continuous judgment is formed until the remote controller enters a dormant state.

For example, when the remote controller is in a working state, the first judgment result is that the remote controller moves within the second duration range, which indicates that the remote controller is in a used state; judging again, and if the result of judging again is that the remote controller is still moved within the second duration range, the remote controller is still in a used state; and judging again, namely before the remote controller does not move within the second time length range, continuously judging by the remote controller until the judgment result shows that the remote controller does not move within the second time length range.

Specifically, the occurrence of the displacement may be determined by whether or not a displacement signal is generated, which is a displacement signal generated by the displacement of the remote controller. The displacement signal can be generated in the remote controller, or generated when the air conditioner body detects and judges that the remote controller moves, and various selections can be made according to the setting of the air conditioner body.

After the user opens the air conditioner body through the remote controller, when the air conditioner is in the running state, the remote controller is also in the working state. If the remote controller is not used for a period of time, generally speaking, the user can place the remote controller at a certain position without operation, so that whether the remote controller is moved is judged to judge whether the remote controller is used, the judgment process is simple, and the judgment is direct and effective. If the remote controller does not move when standing within the second time length range, the remote controller can be basically judged to be not used, and the remote controller is controlled to enter a dormant state; firstly, the display screen is turned off, and secondly, the function is suspended and needs to be awakened to use. Preferably, the second period of time is in the range of 10 to 15 seconds.

More specifically, when the remote controller is in a dormant state, if the displacement signal sent by the remote controller is received, the remote controller is waken up to control the remote controller to enter a working state. If the user uses the air conditioner, the air conditioner function is switched, the air conditioner immediately exits from the dormant state and enters into the working state.

Generally speaking, the remote controller is used for controlling, so that the infrared transmitting device of the remote controller is aligned with the air conditioner display lamp panel, and the remote controller is generally placed on a table, a tea table, a sofa or a bed, and has speed and displacement data when being used. And generating a displacement signal when the displacement distance of the remote controller is within a preset distance range and/or the maximum displacement speed value of the remote controller is within a preset speed range.

The displacement distance of the remote controller is a displacement distance occurring in a short time, preferably 3 seconds. When the remote controller starts to move and moves after the time of 3 seconds, the displacement distance is calculated or recalculated according to the displacement performed within 3 seconds, and misjudgment of the judgment of the embodiment caused by some non-manually controlled displacements is prevented. In addition, the maximum speed of displacement refers to the maximum value of the speed values of the remote controller at all times during the moving process.

Preferably, the preset distance range is 30 to 120cm, and the remote controller is determined to be used when the displacement distance of the remote controller is determined to be within the range. The moving speed of the user for controlling the air conditioner by taking the remote controller can be approximately equal to walking and shaking the arm, the speed value is in the range of 0.5-1.2 m/s, the preset speed range is 0.5-1.2 m/s, and the remote controller is judged to be used when the maximum displacement speed value of the remote controller is in the preset speed range.

Preferably, the recent displacement distance and the displacement maximum speed value can be displayed in the display area of the remote controller, and the preset distance range and the preset speed range can be modified according to real-time data when a user uses the remote controller, namely, the judgment condition can be modified according to specific use conditions in the use process. When a setting instruction of a user for the preset distance range and/or the preset speed range is received, the numerical value of the preset distance range and/or the preset speed range is determined according to the setting instruction, if the user feels that the range of 30-120 cm is not suitable for the requirement of the user for the preset distance range in the use process, the numerical value can be modified to be suitable for the range of the user, the awakening range is continuously modified, and the using failure frequency of the remote controller is reduced. The same modification procedure applies to the modification of the preset speed range.

Preferably, in the using process, if the maximum displacement speed value and the displacement distance are not within the preset range, but actually, when the remote controller is used for controlling the air conditioner, the air conditioner cannot be controlled at this time, and the user experience is affected. This embodiment sets up remedial device and precautionary measure in order preventing this kind of condition on the remote controller, is equipped with the automatic key of awakening up on the remote controller, directly awakens up the remote controller in order to control the air conditioner, and direct control remote controller changes operating condition into by the dormancy state when the air conditioner body receives the remedial signal. Therefore, when the remote controller is moved but not wakened up, the remote controller can be wakened up directly to control the air conditioner.

On the basis of the above embodiment, it is determined that the user is inaccurate to exit the sleep state by using the remote controller only by using the displacement distance and the maximum displacement speed value, and specifically, when the remote controller is in the working state, the method further includes detecting a temperature value of an environment where the remote controller is located, determining whether the remote controller receives a displacement signal within a second time length range or whether the temperature value is within a preset temperature range, and if not, controlling the remote controller to enter the sleep state; if so, judging whether the remote controller receives the displacement signal within a second time length range or whether the temperature value is within a preset temperature range again until the remote controller enters a dormant state;

and/or when the remote controller is in a dormant state, if a displacement signal sent by the remote controller or a signal with a temperature value within a preset temperature range is received, controlling the remote controller to enter a working state.

Specifically, the preset temperature range refers to a temperature range where a human hand holds the remote controller, and generally, the temperature of the palm of the human hand is stable within a range of 30.0 to 35.0 ℃, and is 7 to 8 ℃ higher than the ambient temperature. Therefore, the temperature sensor is added on the remote controller and can detect the contact temperature of the remote controller and the outside, when a user takes the remote controller to operate and control, the temperature sensor can detect the palm temperature, and when the user uses the remote controller, the temperature sensor can sensitively detect the temperature change so as to assist in judging that the user uses the remote controller. Considering the error of the temperature sensor, when the temperature detected by the remote controller is 30-35 ℃, the user is judged to use the remote controller, so that the user can conveniently exit the sleep state of the remote controller in time to enter the working state.

Similarly, the process of judging the temperature value of the environment can be carried out in the remote controller or the air conditioner body. When the judgment process is carried out in the air conditioner body, the air conditioner body generates a signal that the temperature value of the environment is within the preset temperature range, and sends the generated signal to the remote controller. When the remote controller is in a dormant state, if a displacement signal sent by the remote controller is received or a signal that the temperature value of the environment is within a preset temperature range is received, the remote controller is controlled to enter a working state.

Specifically, on the basis of the above embodiment, when the air conditioner body receives a detection signal transmitted by the remote controller through an infrared signal in the power-on state, the air conditioner body sends an operation signal to the remote controller according to the detection signal and the operation state of the air conditioner body.

Or, optionally, the air conditioner body may also intermittently send an operation signal to the remote controller in the on state, and the air conditioner body sends the operation signal to the remote controller at intervals regardless of whether the detection signal is received. And selecting a sending mode of the air conditioner body according to actual requirements.

Specifically, when the air conditioner body is in the shutdown state, the detection signal can be continuously received, or the detection signal can not be received, and no matter whether the detection signal is received, the operation signal is not sent to the remote controller, so that the remote controller is ensured to be closed when the air conditioner body is shut down.

Optionally, the air conditioner body sends a closing signal to the remote controller at a shutdown time, and the remote controller closes the remote controller when receiving the closing signal. The consistency of the operation of the air conditioner body and the remote controller can be achieved.

Specifically, the air conditioner body also receives the displacement signal and/or the temperature value of the environment where the remote controller is located, judges whether the displacement signal is received or the temperature value is within a second time length range or not, and sends a sleep signal to the remote controller if the displacement signal is not received or the temperature value is within a preset temperature range; if so, judging whether the displacement signal is received in the second time length range or whether the temperature value is in the preset temperature range again until a sleep signal is sent to the remote controller;

and/or sending a working signal to the remote controller when receiving a displacement signal sent by the remote controller or receiving a signal of which the temperature value is within a preset temperature range.

On the basis of the above embodiment, the present invention also provides a computer-readable storage medium storing a computer program which, when read and executed by a processor, implements the control method described in any one of the above.

Specifically, the embodiment further provides an intelligent control device for a remote controller, which includes a first receiving unit, where the first receiving unit is used for receiving an operation signal and/or a closing signal sent by an air conditioner body;

the control unit is used for judging whether the remote controller receives an operation signal sent by the air conditioner body or not, and if not, closing the remote controller;

and/or the control unit is further adapted to switch off the remote control when the remote control receives a switch-off signal.

Preferably, the control unit is further configured to determine whether the remote controller receives the displacement signal within the second duration range when the remote controller enters the operating state, and if not, control the remote controller to enter the sleep state; if so, judging whether the remote controller receives the displacement signal within the second duration range again until the remote controller enters a dormant state;

and/or the control unit is also used for controlling the remote controller to enter a working state when the remote controller is in a dormant state and a displacement signal sent by the remote controller is received.

Preferably, the control unit is further configured to detect a temperature value of an environment where the remote controller is located when the remote controller enters a working state, determine whether the remote controller receives the displacement signal within a second time length range or whether the temperature value is within a preset temperature range, and control the remote controller to enter a sleep state if the temperature value is not within the preset temperature range; if so, judging whether the remote controller receives the displacement signal within a second time length range or whether the temperature value is within a preset temperature range again until the remote controller enters a dormant state;

and/or the control unit is also used for controlling the remote controller to enter a working state when the remote controller is in a dormant state and a displacement signal sent by the remote controller or a signal with a temperature value within a preset temperature range is received.

On the basis of the foregoing embodiments, this embodiment further provides a remote controller, which includes a computer-readable storage medium storing a computer program and a processor, where the computer program is read by the processor and executed to implement the control method according to any one of the foregoing embodiments.

More specifically, as shown in fig. 4 and 5, the remote controller further includes a temperature sensor disposed on the housing of the remote controller. And, temperature sensor has two at least, including left temperature sensor 1 and right temperature sensor 2, two temperature sensor sets up respectively the left and right sides of the shell the latter half.

Because the remote controller keys are arranged at the middle part and the lower part of the main body of the remote controller, a user can hold the middle lower part of the main body most conveniently when using the remote controller, so that the temperature sensors are arranged at the lower edge 1/4-1/3 of the side margin of the main body, the palm temperature can be better detected, and the temperature sensors are arranged at the two sides for being used by the left hand and the right hand respectively. This auxiliary function plays a role when speed and displacement value detect uncontrollably, increases the precision of detection control, promotes user experience and feels.

The embodiment of the invention also provides an air conditioner body, which comprises a computer readable storage medium and a processor, wherein the computer readable storage medium is used for storing a computer program, and the computer program is read by the processor and runs to realize the control method.

More specifically, the present embodiment further provides an air conditioner, including the remote controller according to any one of the foregoing embodiments, and/or including the air conditioner body described above.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one skilled in the art without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (20)

1. A control method, operating on a remote controller side, includes:

and when the remote controller is in a working state or a dormant state, judging whether the remote controller receives an operation signal sent by the air conditioner body, and if not, closing the remote controller.

2. The control method according to claim 1, wherein when the remote controller is in the operating state or the sleep state, the remote controller sends a detection signal to the air conditioner body to determine whether the remote controller receives the operation signal sent by the air conditioner body, and if not, the remote controller is turned off.

3. The control method according to claim 1 or 2, wherein when the remote controller receives the operation signal transmitted from the air conditioner body, it is determined again at a first interval whether the remote controller receives the operation signal transmitted from the air conditioner body until the remote controller is turned off.

4. The control method of claim 3, wherein the value of the first duration is determined based on a continuous duration of time that the remote control enters the sleep state while the remote control is in the sleep state.

5. The control method according to claim 1, further comprising:

and when the remote controller is in a working state or a dormant state and receives a closing signal sent by the air conditioner body, closing the remote controller.

6. The control method according to claim 1, 2 or 5, further comprising:

when the remote controller is in a working state, judging whether the remote controller is displaced within a second time length range, and if not, controlling the remote controller to enter a dormant state; if so, judging whether the remote controller is displaced within a second time length range again until the remote controller enters the dormant state;

and/or when the remote controller is in the dormant state, if the remote controller is confirmed to be displaced, controlling the remote controller to enter a working state.

7. The control method of claim 6, wherein the specific implementation of the displacement of the remote controller comprises:

and when the displacement distance of the remote controller is within a preset distance range and/or the displacement maximum speed value of the remote controller is within a preset speed range, confirming that the remote controller is displaced.

8. The control method according to claim 7, further comprising:

and when a setting instruction of the preset distance range and/or the preset speed range is received, determining the numerical value of the preset distance range and/or the preset speed range according to the setting instruction.

9. The control method according to claim 6, further comprising:

when the remote controller is in a working state, detecting a temperature value of an environment where the remote controller is located, judging whether the remote controller is displaced in a second time length range or whether the temperature value is in a preset temperature range, and if the remote controller is not displaced in the second time length range and the temperature value is not in the preset temperature range, controlling the remote controller to enter the dormant state; if the remote controller is displaced in the second time length range or the temperature value is within the preset temperature range, judging whether the remote controller is displaced in the second time length range or the temperature value is within the preset temperature range again until the remote controller enters the dormant state;

and/or when the remote controller is in the dormant state, if the remote controller is confirmed to be displaced or a signal that the temperature value of the environment is within the preset temperature range is received, controlling the remote controller to enter the working state.

10. A control method, characterized by operating on an air conditioner body side, comprising:

the air conditioner body receives a detection signal when in a starting state and sends an operation signal to a remote controller, or the air conditioner body discontinuously sends the operation signal to the remote controller when in the starting state;

and/or the air conditioner body does not send the running signal to the remote controller when in the shutdown state;

and/or sending a closing signal to the remote controller when the air conditioner body is shut down.

11. The control method according to claim 10, further comprising:

receiving a displacement signal and/or a temperature value of the environment where the remote controller is located, judging whether the displacement signal is received or not within a second time length range or whether the temperature value is within a preset temperature range or not, and if not, sending a sleep signal to the remote controller; if so, judging whether the displacement signal is received in a second time length range or whether the temperature value is in the preset temperature range again until the dormancy signal is sent to the remote controller;

and/or sending a working signal to the remote controller when receiving the displacement signal sent by the remote controller or receiving the signal of the temperature value within the preset temperature range.

12. The utility model provides a remote controller intelligent control device which characterized in that includes:

the first receiving unit is used for receiving an operation signal and/or a closing signal sent by the air conditioner body;

the control unit is used for judging whether the remote controller receives the operation signal sent by the air conditioner body or not, and if not, closing the remote controller;

and/or the control unit is also used for closing the remote controller when the remote controller receives the closing signal.

13. The remote controller intelligent control device of claim 12, wherein the control unit is further configured to determine whether the remote controller is displaced within a second duration range when the remote controller is in an operating state, and if not, control the remote controller to enter a sleep state; if so, judging whether the remote controller is displaced within a second time length range again until the remote controller enters the dormant state;

and/or when the remote controller is in the dormant state, if the remote controller is confirmed to be displaced, controlling the remote controller to enter a working state.

14. The remote controller intelligent control device according to claim 13, wherein the control unit is further configured to detect a temperature value of an environment in which the remote controller is located when the remote controller is in an operating state, determine whether the remote controller is displaced within a second time period or whether the temperature value is within a preset temperature range, and control the remote controller to enter the sleep state if the remote controller is not displaced within the second time period and the temperature value is not within the preset temperature range; if the remote controller is displaced in the second time length range or the temperature value is within the preset temperature range, judging whether the remote controller is displaced in the second time length range or the temperature value is within the preset temperature range again until the remote controller enters the dormant state;

and/or when the remote controller is in the dormant state, if the remote controller is confirmed to be displaced or a signal that the temperature value of the environment is within the preset temperature range is received, controlling the remote controller to enter the working state.

15. A computer-readable storage medium, characterized in that it stores a computer program which, when read and executed by a processor, implements the control method according to any one of claims 1-9 and/or implements the control method according to any one of claims 10-11.

16. A remote controller comprising a computer-readable storage medium storing a computer program and a processor, the computer program being read and executed by the processor to implement the control method of any one of claims 1 to 9.

17. The remote control of claim 16, further comprising a temperature sensor and/or an acceleration sensor, the temperature sensor being disposed on a housing of the remote control.

18. The remote controller according to claim 17, wherein there are at least two of said temperature sensors, and two of said temperature sensors are respectively disposed on left and right sides of a lower half portion of said housing.

19. An air conditioner body characterized by comprising a processor and a computer-readable storage medium storing a computer program which, when read and executed by the processor, implements the control method according to any one of claims 10 to 11.

20. An air conditioner characterized by comprising a remote controller according to any one of claims 16 to 18 and/or comprising an air conditioner body according to claim 19.

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