WO2018120716A1 - Comfortable sleep control method, air conditioner, and comfortable sleep control system - Google Patents

Abstract

A comfortable sleep control method for an air conditioner comprises: step S10 when an intelligent wearable apparatus is connected to an air conditioner and receives a comfortable sleep instruction, acquiring the number of times for which the intelligent wearable apparatus uploads data; and step S20 if the number of times for which the intelligent wearable apparatus uploads data satisfies a preset value, controlling the air conditioner to enter a comfortable sleep mode. Also disclosed is an air conditioner, and a comfortable sleep control system.

Description

 Sleep control method, air conditioner and sleep control system

Technical field

The invention relates to the field of smart home technology, in particular to a sleep control method for an air conditioner, an air conditioner and a sleep control system.

Background technique

Air conditioners usually require the user to press the power button before selecting the cooling, heating, sleep, air supply or dehumidification modes, and the specific temperature is set by the user himself. When the air conditioner runs according to the mode selected by the user. After the time, the user may feel that the temperature is too high or too low. At this time, the user needs to manually adjust the temperature again, which will reduce the user experience. In order to solve this problem, the existing air conditioner adopts a scheme that automatically controls the indoor ambient temperature based on the return air temperature of the indoor unit. The disadvantage of this technology is that the return air temperature does not truly reflect the user's temperature perception. If the indoor ambient temperature is controlled only by the return air temperature, and the comfort state cannot be accurately achieved, the comfort control is poor, which reduces the user experience.

Summary of the invention

The main object of the present invention is to provide a sleep control method for an air conditioner, an air conditioner, and a sleep control system, which are designed to control the air conditioner to enter a sleep mode according to the sleep instruction and the number of times the smart wearable device uploads data. In this way, the user can be provided with a suitable sleep environment in combination with the actual state of the user, thereby improving the user experience.

To achieve the above object, the present invention provides a sleep control method for an air conditioner, comprising the following steps:

When the air conditioner is connected to the smart wearable device and receives the sleep instruction, the number of times the smart wearable device uploads the data is obtained;

If the number of times the smart wearable device uploads data meets the predetermined number of times, the air conditioner is controlled to enter a sleep mode.

To achieve the above object, the present invention also provides a sleep control method for an air conditioner, comprising the following steps:

In the sleep mode, the state of the photosensor, the current time point, and/or the user state are acquired in real time or at a time;

Controlling the air conditioner to exit the sleep mode when the photosensitive sensor is in the lighting state and the duration of the lighting state is greater than the preset duration, the current time point is in the awake period, and/or the user state is in the active state;

Wherein, in the sleep mode, the body value is determined according to the ambient temperature of the user detected by the smart wearable device, and the operating parameter of the air conditioner is adjusted according to the body value.

To achieve the above object, the present invention also provides an air conditioner, the air conditioner comprising:

a first acquiring module, configured to acquire a smart wearable device when the air conditioner is connected, and obtain a number of times the smart wearable device uploads data when receiving the sleep instruction;

The first control module is configured to control the air conditioner to enter a sleep mode if the number of times the smart wearable device uploads data meets a predetermined number of times.

To achieve the above object, the present invention also provides an air conditioner, the air conditioner comprising:

The obtaining module is configured to acquire the state, the current time point and/or the user state of the photosensitive sensor in real time or timing in the sleep mode;

a control module, configured to control the air conditioner to exit the sleep mode when the photosensor is in a lighting state and the duration of the lighting state is greater than a preset duration, the current time point is in the awake period, and/or the user state is active ;

a determining module, configured to determine a body value according to a temperature of the user detected by the smart wearable device in the sleep mode;

And an adjustment module, configured to adjust an operating parameter of the air conditioner according to the body value.

The present invention also provides a sleep control system comprising the air conditioner as described above and a smart wearable device wirelessly connected to the air conditioner, the smart wearable device for uploading to the air conditioner data.

The sleep control method, the air conditioner and the sleep control system of the air conditioner provided by the present invention acquire the number of times the smart wearable device uploads data by connecting the smart wearable device to the air conditioner and receiving the sleep instruction. When the number of times the smart wearable device uploads data meets the predetermined number of times, the air conditioner is controlled to enter a sleep mode. In this way, not only can the sleep mode be quickly entered, but also various data uploaded by the smart wearable device can be utilized, so that the user can be provided with a suitable sleep environment in combination with the actual state of the user, thereby improving the user experience.

DRAWINGS

1 is a schematic flow chart of a first embodiment of a sleep control method for an air conditioner according to the present invention;

2 is a schematic flow chart of a second embodiment of a sleep control method for an air conditioner according to the present invention;

3 is a schematic flow chart of a third embodiment of a sleep control method for an air conditioner according to the present invention;

4 is a schematic flow chart of a fourth embodiment of a sleep control method for an air conditioner according to the present invention;

5 is a schematic flow chart of a fifth embodiment of a sleep control method for an air conditioner according to the present invention;

6 is a schematic diagram of functional modules of a first embodiment of an air conditioner according to the present invention;

Figure 7 is a schematic diagram of functional modules of a second embodiment of an air conditioner of the present invention;

8 is a schematic diagram of functional modules of a third embodiment of an air conditioner according to the present invention;

FIG. 9 is a schematic diagram of functional modules of an embodiment of the sleep control system of the present invention.

The implementation, functional features, and advantages of the present invention will be further described in conjunction with the embodiments.

detailed description

It is understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The invention provides a sleep control method for an air conditioner, an air conditioner and a sleep control system, and controls the air conditioner to enter a sleep mode by a sleep command and a number of times the smart wearable device uploads data. In this way, not only can the sleep mode be quickly entered, but also various data uploaded by the smart wearable device can be utilized, so that the user can be provided with a suitable sleep environment in combination with the actual state of the user, thereby improving the user experience.

Referring to FIG. 1, in the first embodiment, the sleep control method of the air conditioner includes the following steps:

Step S10: When the smart device is connected to the air conditioner and receives the sleep instruction, the number of times the smart wearable device uploads the data is obtained;

In this embodiment, the smart wearable device can be a smart bracelet, a smart watch, etc., and has various detection functions such as steps, activity, sleep, heart rate, body temperature, illumination, environmental noise, diet, etc., and wirelessly connects with the air conditioner. . When the smart wearable device is connected to the air conditioner, the above various related data detected by the smart wear device may be uploaded to the air conditioner in real time or at a time, and may be set according to actual conditions.

The sleep command is a one-button sleep command or a voice command collected through a microphone. Specifically, when the sleep command is a one-button sleep-off command, the physical or virtual remote control button of the air conditioner can be clicked or touched to automatically trigger the cooling or heating sleep mode; when the sleep command is through the microphone When the voice command is collected, such as "cooling and sleeping function", "heating and sleeping function", "entering cooling and sleeping", "entering heating and sleeping", etc., the portable mode function is turned on. At this time, smart The wearable device uploads various relevant data for detection and enters sleep mode. Of course, the air conditioner can also detect some other relevant parameters in order to combine the data uploaded by the smart wearable device, thereby providing a more sleepy environment for the user.

The microphone can be set on the air conditioner or the remote controller, or can be set on the smart wearable device, and can be set as needed.

Step S20: If the number of times the smart wearable device uploads data meets a predetermined number of times, the air conditioner is controlled to enter a sleep mode.

In this embodiment, the predetermined number of times may be set to three times. Of course, in other embodiments, other reasonable times may be set, which is not specifically limited by the present invention. When the number of times the smart wearable device uploads the data meets the predetermined number of times, the air conditioner operating parameter may be adjusted according to the specific data uploaded by the smart wearable device, thereby entering the cooling or heating sleep mode.

It should be understood that the smart wearable device may be in an unworn state and a wear state. When in the unworn state, the smart wear device detects the temperature in the vicinity of the user, and when the smart wear device wears the state, the user's body is detected. Table temperature. In the following embodiments, if the parameters such as the current time, the state of the photosensitive sensor signal, and the like are uploaded by the smart wearable device, it is not necessary to limit the specific wearing state of the smart wearable device. Therefore, the comparison of the present invention is not specifically limited.

The sleep control method of the air conditioner provided by the present invention acquires the number of times the smart wearable device uploads data when the smart wearable device is connected to the air conditioner and receives the sleep instruction, and the number of times the smart wearable device uploads the data satisfies The predetermined number of times controls the air conditioner to enter the sleep mode. In this way, not only can the sleep mode be quickly entered, but also various data uploaded by the smart wearable device can be utilized, so that the user can be provided with a suitable sleep environment in combination with the actual state of the user, thereby improving the user experience.

In the second embodiment, as shown in FIG. 2, on the basis of the foregoing FIG. 1, the step S20 further includes:

Step S30: When the smart device is connected to the air conditioner and receives a one-button power-on command, the number of times the smart wearable device uploads data is obtained;

In this embodiment, the one-button power-on command can be triggered by clicking or touching the physical or virtual remote control button of the air conditioner. Of course, the voice command can also be collected through the microphone set on the air conditioner, the remote controller or the smart wearable device, when receiving the voice command. When the "one-button cooling start", "one-button heating start" and other related instructions, the corresponding one-button boot mode is turned on.

Step S40: The state of the signal light is detected by the photosensitive sensor. If the state of the signal light is detected to be turned off from the light, and the number of times the smart wearable device uploads the data meets the predetermined number of times, the air conditioner is controlled to enter the sleep mode.

In this embodiment, the smart wearable device can be connected to the air conditioner, that is, the portable mode is automatically turned on. Of course, in other embodiments, the portable mode can also be manually turned on. When the portable mode is turned on, the smart wearable device uploads various relevant data for detection to the air conditioner.

The photosensitive sensor can be disposed on an air conditioner or a smart wearable device, which is not specifically limited in the present invention. The photosensor is in an illuminated state when the photosensor is in a light environment, and is in an extinguished state when the photosensor is in a dark environment.

When the portable mode is turned on, the detected data is uploaded to the air conditioner. If the air conditioner acquires the state of the light sensor of the light sensor, the state of the signal light changes from light to light, and the smart wearable device uploads data. If the number of times meets the predetermined number of times, the air conditioner operating parameters may be adjusted according to the specific data uploaded by the smart wearable device, thereby entering the cooling or heating sleep mode. This scenario is suitable for when the air conditioner is running in the cooling or heating mode, when the signal light is detected by the light sensor, it indicates that the user needs to enter the sleep state. Therefore, the operation can be adjusted according to the data uploaded by the smart wearable device. Enter the sleep mode after the parameter. In addition, in order to prevent misjudgment, it is also possible to determine the time when the state of the signal light of the photosensitive sensor changes from lighting to off. If the signal does not light up again within a predetermined time, such as 10 minutes, it can be determined that the user needs to enter a sleep state. You can run the sleep mode accordingly.

In the third embodiment, as shown in FIG. 3, on the basis of the foregoing FIG. 2, after the step S40, the method further includes:

Step S50: When the current time is obtained, if the current time meets the predetermined time range, the state of the signal light is detected to be turned off, and the number of times the smart wearable device uploads data meets the predetermined number of times, the air conditioner is controlled to enter. Sleep mode.

In this embodiment, the current time may be uploaded by the smart wearable device, or may be obtained by the air conditioner itself. If the current time is within a predetermined time range, such as 21:00-8:00 (the next day), it may be determined that the user needs to go to sleep. The status, therefore, according to the specific data uploaded by the smart wearable device, correspondingly adjust the air conditioner operating parameters, thereby entering the cooling or heating sleep mode.

Compared with the second embodiment, the present embodiment increases the current time parameter. Therefore, in combination with the current time and the state of the signal light, it is possible to more accurately determine whether the user needs to enter a sleep state, thereby providing a more comfortable sleep environment for the user. Thereby improving the user experience.

In the fourth embodiment, as shown in FIG. 4, on the basis of the foregoing FIG. 3, after the step S50, the method further includes:

Step S60: When the activity amount of the user is acquired, if the activity amount of the user is the static activity amount, the current time meets the predetermined time range, and the state of the signal light is detected to be turned off from the light, and the smart When the number of times the wearable device uploads data meets the predetermined number of times, the air conditioner is controlled to enter the sleep mode.

In this embodiment, the activity amount of the user can be detected by the acceleration sensor provided in the smart wearable device, and of course, the parameters such as the number of steps and the heart rate can be calculated. The present invention is not specifically limited thereto.

For example, when the acquired activity amount of the user is 58, the activity amount is in the static activity amount interval, and therefore, the possibility that the user is in an inactive state is high, and at this time, combined with the current time parameter and the state of the traffic light, further Accurately determine whether the user needs to enter a sleep state, thereby providing a more comfortable sleep environment for the user, thereby improving the user experience.

Therefore, the second to fourth embodiments are respectively determined whether the user needs to enter the sleep mode according to the state of the user, and the accuracy of determining whether the user needs to enter the sleep state is gradually improved. Therefore, not only the manual operation of the user but also the user can be avoided. According to the actual needs of the user, it is automatically determined whether to enter the sleep mode, which reflects the portable function, thereby improving the user experience.

The present invention also provides an air conditioner control method. Referring to FIG. 5, in the fifth embodiment, the air conditioner control method includes:

Step S70, acquiring the state, the current time point, and/or the user state of the photosensor in real time or timing in the sleep mode;

The photosensor is in an illuminated state when the photosensor is in a light environment, and is in an extinguished state when the photosensor is in a dark environment.

The time period of each day can be divided into an awake time period and a sleep time period. When the time point is in the awake time period, the user is considered to be in an awake state, and when the time point is in the sleep time period, the user is considered to be in a sleep state. The sleep time period can be set by the user, and the user adjusts according to his or her sleep habit; or the sleep time period can be set by the developer, and the air conditioner corrects according to the user's habit, for example, when the sleep is short, the user state is detected, The duration of the user's quiescent state is greater than the preset duration, the user is considered to be sleeping, and the time period during which the user sleeps is recorded, and the preset sleep time period is updated according to the time period recorded in the preset time interval.

The state of the user includes a stationary state and an active state, which can be detected by an acceleration sensor on the smart wearable device. When the acceleration detected by the acceleration sensor is zero or less than a preset value, the user is considered to be in a stationary state, and the acceleration is greater than zero. When changing, the user is considered to be active. When the user is switched from the quiescent state to the active state, the duration of the user being active is obtained, and when the duration of the user being active is less than the preset duration, the user is considered to be still in a sleep state. When the air conditioner is in the sleep mode, the air conditioner can be controlled to reduce the noise to avoid affecting the user's sleep.

Step S80, controlling the air conditioner to exit the sleep mode when the photosensitive sensor is in the lighting state and the duration of the lighting state is greater than the preset duration, the current time point is in the awake period, and/or the user state is active. In the sleep mode, the body value is determined according to the ambient temperature of the user detected by the smart wearable device, and the operating parameters of the air conditioner are adjusted according to the body value.

When the air conditioner exits the sleep mode, the control air conditioner operates according to the set operating parameter, and the operation may include setting the temperature and the wind speed, etc., the operating parameter may be an operating parameter of the air conditioner before entering the sleep mode, or The default operating parameter of the air conditioner set by the user; or, when the air conditioner exits the sleep mode, detecting the indoor temperature or receiving the ambient temperature detected by the smart wearable device, and obtaining the corresponding target operating parameter according to the indoor temperature and the ambient temperature of the user, according to Get the target running parameters to run.

In the sleep mode, the body value can be corrected by other parameters, such as the current time point and the number of motion steps of the user in the preset time interval, that is, the step of determining the body value according to the temperature of the user detected by the smart wearable device. The method includes: obtaining a correction value corresponding to a time period of the current time point and/or a motion step number; determining a body value according to the correction value and the ambient temperature of the user. That is, SMAV=KTa+L, where Ta is the temperature around the user, K is a constant value, and L can be determined by the correction value corresponding to the sleep duration (ie, the current time point) and/or the number of motion steps, and further correction values can be added. Corrections, such as skin temperature and sleep depth detected by the smart wearable device, will not be described again.

The air conditioner control method disclosed in this embodiment controls the air conditioner to enter a sleep mode after detecting a control command to enter a sleep mode, and the air conditioner establishes a connection with the smart wearable device, and calculates the timing in the current sleep mode. a value of the body sensation, wherein the value of the body sensation is determined according to a temperature of the user detected by the smart wearable device, and the operating parameter of the air conditioner is adjusted according to the value of the body sensation, and the user is detected by the smart wearable device. The temperature is adjusted by the air conditioner operating parameters to make the control of the air conditioner more accurate.

A sixth embodiment of the air conditioner control method of the present invention is proposed based on the fifth embodiment. In this embodiment, the air conditioner control method further includes the following steps:

Detecting a control command when the photosensor is in an off state, the current time point is in a sleep period, and/or the user state is at a standstill;

The air conditioner is controlled to exit the sleep mode when an instruction to exit the sleep mode is detected.

When the photosensor is in the off state, the current time point is in the sleep period, and/or the user state is in the quiescent state, the user may be in a sleep state, and the control command may be received at this time, and if an instruction to exit the sleep mode is received, Think the user is awake.

The control command for exiting the sleep mode may be sent to the air conditioner by a smart wearable device such as a wristband. For example, the user triggers an instruction to exit the sleep mode through a control on the smart wearable device, and the smart wear device forwards the control command to the air conditioner. Or, by means of voice control, triggering an instruction to exit the sleep mode, for example, when the smart wear device detects the voice signal, parsing the voice signal to obtain a control instruction corresponding to the voice signal, and correspondingly controlling the voice signal When the command is to exit the control command of the sleep mode, the control command for exiting the sleep mode is forwarded to the air conditioner; or the user air conditioner directly receives the voice signal, and the control command corresponding to the voice signal is the exit sleep mode. When the command is controlled, and the air conditioner establishes a connection with the smart wearable device, the air conditioner is controlled to exit the sleep mode. It can be understood that the user can also trigger the control command to exit the sleep mode by other means, such as a remote controller, which will not be repeated here.

In the technical solution disclosed in this embodiment, the air conditioner automatically exits the sleep mode, and the user can manually control the air conditioner to exit the sleep mode, so that the function of the air conditioner is more abundant.

Further, the seventh embodiment of the air conditioner control method of the present invention is proposed based on the sixth embodiment. In the embodiment, after the step of detecting the control command, the air conditioner control method further includes the following steps:

Obtaining a target operation mode corresponding to the mode switching instruction when receiving a mode switching instruction;

When the target operation mode is the preset mode, the air conditioner is controlled to exit the sleep mode and switch to the target operation mode.

The preset mode can be set by the developer. For example, the preset mode can be a strong mode. In the strong mode, the air conditioner can run the maximum wind speed or a large wind speed while running the preset temperature, the heating mode and the cooling mode. The preset mode corresponding to the strong mode is different; or the preset mode is a mode that contradicts the mode corresponding to the current sleep, for example, the current sleep mode is the cooling mode, and when the target operation mode is the heating mode, the sleep is exited. mode.

After switching to the target operation mode, it runs according to the set operation parameters, or re-acquires the operation parameters according to the operation parameter adjustment rules corresponding to the target operation mode, and runs according to the acquired operation parameters.

In the solution disclosed in this embodiment, the sleep mode is exited when the operation mode switching instruction is detected, so that the control of the air conditioner is more intelligent.

Further, the eighth embodiment of the air conditioner control method of the present invention is proposed based on the sixth or seventh embodiment. In the embodiment, after the step of detecting the control command, the air conditioner control method further includes the steps of:

Obtaining, according to the operation parameter adjustment instruction, a target operation parameter corresponding to the operation parameter adjustment instruction;

The air conditioner is controlled to operate in accordance with the target operating parameter.

The operating parameter may include a set temperature, a wind speed, and/or an air guiding strip angle. When receiving the operating parameter adjustment instruction, the air conditioner is controlled to operate according to the target operating parameter corresponding to the adjustment instruction, so that the user can automatically adjust according to the requirement. Manual adjustment of operating parameters during the process is more intelligent.

It can be understood that after the user adjusts the operating parameters, the sleep mode can still be run, so that the air conditioner still adjusts the operating parameters of the user's ambient temperature according to the smart wearable device, but the solution may directly follow the portable feeling after the user adjusts the operating parameters. After the operating parameter adjusted by the value is different from the operating parameter adjusted by the user, after the air conditioner is controlled to operate according to the target operating parameter, the air conditioner may be controlled to exit the sleep mode, so that the air conditioner operates according to the adjusted operating parameter of the user. Will not change.

The present invention also provides an air conditioner 1. Referring to FIG. 6, in the first embodiment, the air conditioner 1 includes:

The obtaining module 10 is configured to acquire the number of times the smart wearable device uploads data when the smart wear device is connected to the air conditioner and receives the sleep instruction;

In this embodiment, the smart wearable device can be a smart bracelet, a smart watch, etc., and has various detection functions such as steps, activity, sleep, heart rate, body temperature, illumination, environmental noise, diet, etc., and wirelessly connects with the air conditioner. . When the smart wearable device is connected to the air conditioner, the above various related data detected by the smart wear device may be uploaded to the air conditioner in real time or at a time, and may be set according to actual conditions.

The sleep command is a one-button sleep command or a voice command collected through a microphone. Specifically, when the sleep command is a one-button sleep-off command, the physical or virtual remote control button of the air conditioner can be clicked or touched to automatically trigger the cooling or heating sleep mode; when the sleep command is through the microphone When the voice command is collected, such as "cooling and sleeping function", "heating and sleeping function", "entering cooling and sleeping", "entering heating and sleeping", etc., the portable mode function is turned on. At this time, smart The wearable device uploads various relevant data for detection and enters sleep mode. Of course, the air conditioner can also detect some other relevant parameters in order to combine the data uploaded by the smart wearable device, thereby providing a more sleepy environment for the user.

The microphone can be set on the air conditioner or the remote controller, or can be set on the smart wearable device, and can be set as needed.

The control module 20 is configured to control the air conditioner to enter a sleep mode if the number of times the smart wearable device uploads data meets a predetermined number of times.

In this embodiment, the predetermined number of times may be set to three times. Of course, in other embodiments, other reasonable times may be set, which is not specifically limited by the present invention. When the number of times the smart wearable device uploads the data meets the predetermined number of times, the air conditioner operating parameter may be adjusted according to the specific data uploaded by the smart wearable device, thereby entering the cooling or heating sleep mode.

It should be understood that the smart wearable device may be in an unworn state and a wear state. When in the unworn state, the smart wear device detects the temperature in the vicinity of the user, and when the smart wear device wears the state, the user's body is detected. Table temperature. In the following embodiments, if the parameters such as the current time, the state of the photosensitive sensor signal, and the like are uploaded by the smart wearable device, it is not necessary to limit the specific wearing state of the smart wearable device. Therefore, the comparison of the present invention is not specifically limited.

The air conditioner provided by the present invention acquires the number of times the smart wearable device uploads data by connecting the smart wearable device to the air conditioner and receiving the sleep instruction, and if the number of times the smart wearable device uploads the data meets the predetermined number of times, the control is performed. The air conditioner enters a sleep mode. In this way, not only can the sleep mode be quickly entered, but also various data uploaded by the smart wearable device can be utilized, so that the user can be provided with a suitable sleep environment in combination with the actual state of the user, thereby improving the user experience.

In the second embodiment, on the basis of the foregoing FIG. 6, the obtaining module 10 is further configured to:

When the air conditioner is connected to the smart wearable device and receives a one-button power-on command, the number of times the smart wearable device uploads the data is obtained;

In this embodiment, the one-button power-on command can be triggered by clicking or touching the physical or virtual remote control button of the air conditioner. Of course, the voice command can also be collected through the microphone set on the air conditioner, the remote controller or the smart wearable device, when receiving the voice command. When the "one-button cooling start", "one-button heating start" and other related instructions, the corresponding one-button boot mode is turned on.

The control module 20 is further configured to detect a state of the signal light by using the photosensitive sensor, and if the state of the signal light is detected to be turned off from the light, and the number of times the smart wearable device uploads the data meets the predetermined number of times, the air conditioner is controlled to enter. Sleep mode.

In this embodiment, the smart wearable device can be connected to the air conditioner, that is, the portable mode is automatically turned on. Of course, in other embodiments, the portable mode can also be manually turned on. When the portable mode is turned on, the smart wearable device uploads various relevant data for detection to the air conditioner.

The photosensitive sensor can be disposed on an air conditioner or a smart wearable device, which is not specifically limited in the present invention. When the portable mode is turned on, the detected data is uploaded to the air conditioner. If the air conditioner acquires the state of the light sensor of the light sensor, the state of the signal light changes from light to light, and the smart wearable device uploads data. If the number of times meets the predetermined number of times, the air conditioner operating parameters may be adjusted according to the specific data uploaded by the smart wearable device, thereby entering the cooling or heating sleep mode. This scenario is suitable for when the air conditioner is running in the cooling or heating mode, when the signal light is detected by the light sensor, it indicates that the user needs to enter the sleep state. Therefore, the operation can be adjusted according to the data uploaded by the smart wearable device. Enter the sleep mode after the parameter. In addition, in order to prevent misjudgment, it is also possible to determine the time when the state of the signal light of the photosensitive sensor changes from lighting to off. If the signal does not light up again within a predetermined time, such as 10 minutes, it can be determined that the user needs to enter a sleep state. You can run the sleep mode accordingly.

In the third embodiment, on the basis of the above-mentioned FIG. 6, the control module 20 is further configured to:

When the current time is obtained, if the current time meets the predetermined time range, the state of the signal light is detected to be turned off, and the number of times the smart wearable device uploads data meets the predetermined number of times, the air conditioner is controlled to enter the sleep mode. .

In this embodiment, the current time may be uploaded by the smart wearable device, or may be obtained by the air conditioner itself. If the current time is within a predetermined time range, such as 21:00-8:00 (the next day), it may be determined that the user needs to go to sleep. The status, therefore, according to the specific data uploaded by the smart wearable device, correspondingly adjust the air conditioner operating parameters, thereby entering the cooling or heating sleep mode.

Compared with the second embodiment, the present embodiment increases the current time parameter. Therefore, in combination with the current time and the state of the signal light, it is possible to more accurately determine whether the user needs to enter a sleep state, thereby providing a more comfortable sleep environment for the user. Thereby improving the user experience.

In the fourth embodiment, on the basis of the above-mentioned FIG. 6, the control module 20 is further configured to:

When the activity amount of the user is obtained, if the activity amount of the user is the static activity amount, the current time meets the predetermined time range, the status of the signal light is detected to be turned off, and the smart wearable device uploads When the number of times of data satisfies a predetermined number of times, the air conditioner is controlled to enter a sleep mode.

In this embodiment, the activity amount of the user can be detected by the acceleration sensor provided in the smart wearable device, and of course, the parameters such as the number of steps and the heart rate can be calculated. The present invention is not specifically limited thereto.

For example, when the acquired activity amount of the user is 58, the activity amount is in the static activity amount interval, and therefore, the possibility that the user is in an inactive state is high, and at this time, combined with the current time parameter and the state of the traffic light, further Accurately determine whether the user needs to enter a sleep state, thereby providing a more comfortable sleep environment for the user, thereby improving the user experience.

Therefore, the second to fourth embodiments are respectively determined whether the user needs to enter the sleep mode according to the state of the user, and the accuracy of determining whether the user needs to enter the sleep state is gradually improved. Therefore, not only the manual operation of the user but also the user can be avoided. According to the actual needs of the user, it is automatically determined whether to enter the sleep mode, which reflects the portable function, thereby improving the user experience.

The present invention also provides an air conditioner. Referring to FIG. 7, in the fifth embodiment, the embodiment provides an air conditioner, and the air conditioner includes:

The acquiring module 10 is configured to acquire the state, the current time point, and/or the user state of the photosensor in real time or timing in the sleep mode;

The photosensor is in an illuminated state when the photosensor is in a light environment, and is in an extinguished state when the photosensor is in a dark environment.

The time period of each day can be divided into an awake time period and a sleep time period. When the time point is in the awake time period, the user is considered to be in an awake state, and when the time point is in the sleep time period, the user is considered to be in a sleep state. The sleep time period can be set by the user, and the user adjusts according to his or her sleep habit; or the sleep time period can be set by the developer, and the air conditioner corrects according to the user's habit, for example, when the sleep is short, the user state is detected, The duration of the user's quiescent state is greater than the preset duration, the user is considered to be sleeping, and the time period during which the user sleeps is recorded, and the preset sleep time period is updated according to the time period recorded in the preset time interval.

The state of the user includes a stationary state and an active state, which can be detected by an acceleration sensor on the smart wearable device. When the acceleration detected by the acceleration sensor is zero or less than a preset value, the user is considered to be in a stationary state, and the acceleration is greater than zero. When changing, the user is considered to be active. When the user is switched from the quiescent state to the active state, the duration of the user being active is obtained, and when the duration of the user being active is less than the preset duration, the user is considered to be still in a sleep state. When the air conditioner is in the sleep mode, the air conditioner can be controlled to reduce the noise to avoid affecting the user's sleep.

The control module 20 is configured to control the air conditioner to exit the sleep when the photosensitive sensor is in the lighting state and the duration of the lighting state is greater than the preset duration, the current time point is during the awake period, and/or the user state is active. mode;

The determining module 30 is configured to determine a body value according to a temperature of the user detected by the smart wearable device in the sleep mode;

The adjustment module 40 is configured to adjust an operating parameter of the air conditioner according to the body value.

When the air conditioner exits the sleep mode, the control air conditioner operates according to the set operating parameter, and the operation may include setting the temperature and the wind speed, etc., the operating parameter may be an operating parameter of the air conditioner before entering the sleep mode, or The default operating parameter of the air conditioner set by the user; or, when the air conditioner exits the sleep mode, detecting the indoor temperature or receiving the ambient temperature detected by the smart wearable device, and obtaining the corresponding target operating parameter according to the indoor temperature and the ambient temperature of the user, according to Get the target running parameters to run.

In the sleep mode, the fitness value can be corrected by other parameters, such as the current time point and the number of motion steps of the user in the preset time interval, that is, the determining module 30 includes: an obtaining unit, configured to acquire the current time point time a correction value corresponding to the segment and/or the number of motion steps; and a determining unit configured to determine a body value according to the correction value and the ambient temperature of the user. That is, SMAV=KTa+L, where Ta is the temperature around the user, K is a constant value, and L can be determined by the correction value corresponding to the sleep duration (ie, the current time point) and/or the number of motion steps, and further correction values can be added. Corrections, such as skin temperature and sleep depth detected by the smart wearable device, will not be described again.

In the air conditioner disclosed in this embodiment, after detecting the control command to enter the sleep mode, and the air conditioner establishes a connection with the smart wearable device, the air conditioner is controlled to enter a sleep mode, and the sense of walking is calculated in the current sleep mode. And the value of the user is determined according to the ambient temperature of the user detected by the smart wearable device, and the operating parameter of the air conditioner is adjusted according to the value of the portable device. The air conditioner operating parameters are adjusted to make the control of the air conditioner more accurate.

Further, a sixth embodiment of the air conditioner according to the present invention is proposed based on the fifth embodiment. Referring to FIG. 8, the air conditioner further includes a detecting module 50, wherein the photosensor is in an extinguished state, the current time point is in a sleep period, and / or when the user state is at a standstill, detecting a control command;

The control module 20 is further configured to control the air conditioner to exit the sleep mode when detecting an instruction to exit the sleep mode.

When the photosensor is in the off state, the current time point is in the sleep period, and/or the user state is in the quiescent state, the user may be in a sleep state, and the control command may be received at this time, and if an instruction to exit the sleep mode is received, Think the user is awake.

The control command for exiting the sleep mode may be sent to the air conditioner by the wristband. For example, the user triggers an instruction to exit the sleep mode through a control on the smart wearable device, and the smart wearable device forwards the control command to the air conditioner, or passes The voice control mode triggers an instruction to exit the sleep mode. For example, when the smart wearable device detects the voice signal, the voice signal is parsed to obtain a control command corresponding to the voice signal, and the control command corresponding to the voice signal is the exit control When the sleep mode control command is issued, the control command for exiting the sleep mode is forwarded to the air conditioner; or the user air conditioner directly receives the voice signal, and when the control command corresponding to the voice signal is the control command for exiting the sleep mode, After the air conditioner establishes a connection with the smart wearable device, the air conditioner is controlled to exit the sleep mode. It can be understood that the user can also trigger the control command to exit the sleep mode by other means, such as a remote controller, which will not be repeated here.

In the technical solution disclosed in this embodiment, the air conditioner automatically exits the sleep mode, and the user can manually control the air conditioner to exit the sleep mode, so that the function of the air conditioner is more abundant.

Further, a seventh embodiment of the air conditioner of the present invention is proposed based on the sixth embodiment. In this embodiment,

The acquiring module 10 is further configured to acquire a target operation mode corresponding to the mode switching instruction when receiving a mode switching instruction;

The control module 20 is further configured to control the air conditioner to exit the sleep mode and switch to the target operation mode when the target operation mode is the preset mode.

The preset mode can be set by the developer. For example, the preset mode can be a strong mode. In the strong mode, the air conditioner can run the maximum wind speed or a large wind speed while running the preset temperature, the heating mode and the cooling mode. The preset mode corresponding to the strong mode is different; or the preset mode is a mode that contradicts the mode corresponding to the current sleep, for example, the current sleep mode is the cooling mode, and when the target operation mode is the heating mode, the sleep is exited. mode.

After switching to the target operation mode, it runs according to the set operation parameters, or re-acquires the operation parameters according to the operation parameter adjustment rules corresponding to the target operation mode, and runs according to the acquired operation parameters.

In the solution disclosed in this embodiment, the sleep mode is exited when the operation mode switching instruction is detected, so that the control of the air conditioner is more intelligent.

Further, an eighth embodiment of the air conditioner of the present invention is proposed based on the sixth or seventh embodiment. In this embodiment,

The acquiring module 10 is further configured to: when receiving an operation parameter adjustment instruction, acquire a target operation parameter corresponding to the operation parameter adjustment instruction;

The control module 20 is further configured to control the air conditioner to operate according to the target operating parameter.

The operating parameter may include a set temperature, a wind speed, and/or an air guiding strip angle. When receiving the operating parameter adjustment instruction, the air conditioner is controlled to operate according to the target operating parameter corresponding to the adjustment instruction, so that the user can automatically adjust according to the requirement. Manual adjustment of operating parameters during the process is more intelligent.

It can be understood that after the user adjusts the operating parameters, the sleep mode can still be run, so that the air conditioner still adjusts the operating parameters of the user's ambient temperature according to the smart wearable device, but the solution may directly follow the portable feeling after the user adjusts the operating parameters. The operating parameter of the value adjustment is different from the operating parameter adjusted by the user, and the control module 20 is further configured to control the air conditioner to exit the sleep mode after the air conditioner operates according to the target operating parameter, so as to make the air conditioner The operation does not change according to the user-adjusted operating parameters.

The present invention also provides a sleep control system 100, which includes the air conditioner 1 as described above and a smart wearable device 2 wirelessly connected to the air conditioner, the smart wearable device 2 being used for the air conditioner Upload data.

In this embodiment, the smart wearable device can be a smart bracelet, a smart watch, etc., and has various detection functions such as steps, activity, sleep, heart rate, body temperature, illumination, environmental noise, diet, etc., and wirelessly connects with the air conditioner. . When the smart wearable device is connected to the air conditioner, the above various related data detected by the smart wear device may be uploaded to the air conditioner in real time or at a time, and may be set according to actual conditions.

The above are only the preferred embodiments of the present invention, and are not intended to limit the scope of the invention, and the equivalent structure or equivalent process transformations made by the description of the present invention and the drawings are directly or indirectly applied to other related technical fields. The same is included in the scope of patent protection of the present invention.

Claims (23)

1.  A sleep control method for an air conditioner, characterized in that the sleep control method of the air conditioner comprises the following steps:

   When the air conditioner is connected to the smart wearable device and receives the sleep instruction, the number of times the smart wearable device uploads the data is obtained;

   If the number of times the smart wearable device uploads data meets the predetermined number of times, the air conditioner is controlled to enter a sleep mode.
2. The sleep control method of an air conditioner according to claim 1, wherein the sleep command is a one-click sleep command or a voice command collected through a microphone.
3. The sleep control method of the air conditioner according to claim 1 or 2, wherein if the number of times the smart wearable device uploads data satisfies a predetermined number of times, the step of controlling the air conditioner to enter the sleep mode further includes :

   When the air conditioner is connected to the smart wearable device and receives a one-button power-on command, the number of times the smart wearable device uploads the data is obtained;

   The state of the signal light is detected by the photosensitive sensor. If the state of the signal light is detected to be turned off from the light, and the number of times the smart wearable device uploads the data satisfies the predetermined number of times, the air conditioner is controlled to enter the sleep mode.
4. The sleep control method of the air conditioner according to claim 3, wherein the sleep control method of the air conditioner further comprises the following steps:

   When the current time is obtained, if the current time meets the predetermined time range, the state of the signal light is detected to be turned off, and the number of times the smart wearable device uploads data meets the predetermined number of times, the air conditioner is controlled to enter the sleep mode. .
5. The sleep control method of the air conditioner according to claim 4, wherein the sleep control method of the air conditioner further comprises the following steps:

   When the activity amount of the user is obtained, if the activity amount of the user is the static activity amount, the current time meets the predetermined time range, the status of the signal light is detected to be turned off, and the smart wearable device uploads When the number of times of data satisfies a predetermined number of times, the air conditioner is controlled to enter a sleep mode.
6. A sleep control method for an air conditioner, characterized in that the sleep control method of the air conditioner comprises:

   In the sleep mode, the state of the photosensor, the current time point, and/or the user state are acquired in real time or at a time;

   Controlling the air conditioner to exit the sleep mode when the photosensitive sensor is in the lighting state and the duration of the lighting state is greater than the preset duration, the current time point is in the awake period, and/or the user state is in the active state;

   Wherein, in the sleep mode, the body value is determined according to the ambient temperature of the user detected by the smart wearable device, and the operating parameter of the air conditioner is adjusted according to the body value.
7. The sleep control method of the air conditioner according to claim 6, wherein the sleep control method of the air conditioner further comprises the steps of:

   Detecting a control command when the photosensor is in an off state, the current time point is in a sleep period, and/or the user state is at a standstill;

   The air conditioner is controlled to exit the sleep mode when an instruction to exit the sleep mode is detected.
8. The sleep control method of the air conditioner according to claim 7, wherein after the step of detecting the control command, the sleep control method of the air conditioner further comprises:

   Obtaining a target operation mode corresponding to the mode switching instruction when receiving a mode switching instruction;

   When the target operation mode is the preset mode, the air conditioner is controlled to exit the sleep mode and switch to the target operation mode.
9. The sleep control method of the air conditioner according to claim 7 or 8, wherein after the step of detecting the control command, the sleep control method of the air conditioner further comprises:

   Obtaining, according to the operation parameter adjustment instruction, a target operation parameter corresponding to the operation parameter adjustment instruction;

   The air conditioner is controlled to operate in accordance with the target operating parameter.
10. The sleep control method of the air conditioner according to claim 9, wherein after the step of controlling the air conditioner to operate according to the target operating parameter, the sleep control method of the air conditioner further comprises the steps of:

    The air conditioner is controlled to exit the sleep mode.
11. The sleep control method of the air conditioner according to any one of claims 6 to 8, wherein the step of determining the body value according to the temperature of the user detected by the smart wearable device comprises:

    Obtaining a correction value corresponding to a time period of the current time point and/or a number of motion steps;

    A body value is determined based on the correction value and the ambient temperature of the user.
12. An air conditioner, characterized in that the air conditioner comprises:

    The obtaining module is configured to acquire the smart wearable device when the air conditioner is connected, and obtain the number of times the smart wearable device uploads data when receiving the sleep instruction;

    And a control module, configured to control the air conditioner to enter a sleep mode if the number of times the smart wearable device uploads data meets a predetermined number of times.
13. The air conditioner according to claim 12, wherein the sleep command is a one-click sleep command or a voice command collected through a microphone.
14. The air conditioner according to claim 12 or 13, wherein the acquisition module is further configured to:

    When the air conditioner is connected to the smart wearable device and receives a one-button power-on command, the number of times the smart wearable device uploads the data is obtained;

    The control module is further configured to detect a state of the signal light by using the light sensor, and if the state of the signal light is detected to be turned off from the light, and the number of times the smart wearable device uploads the data meets the predetermined number of times, the air conditioner is controlled to enter the Shu Sleep mode.
15. The air conditioner according to claim 14, wherein the control module is further configured to:

    When the current time is obtained, if the current time meets the predetermined time range, the state of the signal light is detected to be turned off, and the number of times the smart wearable device uploads data meets the predetermined number of times, the air conditioner is controlled to enter the sleep mode. .
16. The air conditioner according to claim 15, wherein the control module is further configured to:

    When the activity amount of the user is obtained, if the activity amount of the user is the static activity amount, the current time meets the predetermined time range, the status of the signal light is detected to be turned off, and the smart wearable device uploads When the number of times of data satisfies a predetermined number of times, the air conditioner is controlled to enter a sleep mode.
17. An air conditioner, characterized in that the air conditioner comprises:

    The obtaining module is configured to acquire the state, the current time point and/or the user state of the photosensitive sensor in real time or timing in the sleep mode;

    a control module, configured to control the air conditioner to exit the sleep mode when the photosensor is in a lighting state and the duration of the lighting state is greater than a preset duration, the current time point is in the awake period, and/or the user state is active ;

    a determining module, configured to determine a body value according to a temperature of the user detected by the smart wearable device in the sleep mode;

    And an adjustment module, configured to adjust an operating parameter of the air conditioner according to the body value.
18. The air conditioner according to claim 17, wherein

    The air conditioner further includes a detecting module, configured to detect a control command when the photosensor is in an extinguished state, the current time point is in a sleep period, and/or the user state is in a stationary state;

    The control module is further configured to control the air conditioner to exit the sleep mode when detecting an instruction to exit the sleep mode.
19. The air conditioner according to claim 18, wherein

    The acquiring module is further configured to acquire a target operation mode corresponding to the mode switching instruction when receiving a mode switching instruction;

    The control module is further configured to control the air conditioner to exit the sleep mode and switch to the target operation mode when the target operation mode is the preset mode.
20. The air conditioner according to claim 18 or 19, wherein

    The acquiring module is further configured to: when receiving an operation parameter adjustment instruction, acquire a target operation parameter corresponding to the operation parameter adjustment instruction;

    The control module is further configured to control the air conditioner to operate according to the target operating parameter.
21. The air conditioner according to claim 20, wherein said air conditioner further comprises the steps of:

    The control module is further configured to control the air conditioner to exit the sleep mode after the air conditioner is operated according to the target operating parameter.
22. The air conditioner according to any one of claims 17 to 19, wherein the determining module comprises:

    An obtaining unit, configured to acquire a correction value corresponding to a time period of the current time point and/or a number of motion steps;

    And a determining unit, configured to determine a body value according to the correction value and the ambient temperature of the user.
23. A sleep control system, characterized in that the sleep control system includes the air conditioner according to any one of claims 12 to 16 or the air conditioner according to any one of claims 17 to 20 A smart wearable device wirelessly connected to the air conditioner, the smart wearable device for uploading data to the air conditioner.