CN115899966A - Wearable device - Google Patents
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- CN115899966A CN115899966A CN202211196011.2A CN202211196011A CN115899966A CN 115899966 A CN115899966 A CN 115899966A CN 202211196011 A CN202211196011 A CN 202211196011A CN 115899966 A CN115899966 A CN 115899966A
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- 210000004243 sweat Anatomy 0.000 claims description 72
- 230000028327 secretion Effects 0.000 claims description 59
- 238000001514 detection method Methods 0.000 claims description 14
- 201000010099 disease Diseases 0.000 claims description 3
- 208000037265 diseases, disorders, signs and symptoms Diseases 0.000 claims description 3
- 238000004891 communication Methods 0.000 description 10
- 238000010586 diagram Methods 0.000 description 3
- 230000036760 body temperature Effects 0.000 description 2
- 238000000034 method Methods 0.000 description 2
- 206010037660 Pyrexia Diseases 0.000 description 1
- 230000002159 abnormal effect Effects 0.000 description 1
- 230000004075 alteration Effects 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000000295 complement effect Effects 0.000 description 1
- 238000012937 correction Methods 0.000 description 1
- 238000011161 development Methods 0.000 description 1
- 238000003745 diagnosis Methods 0.000 description 1
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Abstract
The present disclosure provides a wearable device comprising a UWB module, a first temperature sensor, a second temperature sensor, and a control module; the UWB module is used for positioning whether a wearer of the wearable equipment enters a target area where the intelligent air conditioner is located; the first temperature sensor is used for acquiring a first temperature of the target area when a wearer of the wearable device enters the target area; the second temperature sensor is used for acquiring a second temperature of a wearer of the wearable device when the wearer enters the target area; and the control module is used for controlling the intelligent air conditioner according to the first temperature and the second temperature.
Description
Technical Field
The embodiment of the disclosure relates to the technical field of electronic equipment, in particular to wearable equipment.
Background
With the wide popularization of the internet of things, the intercommunication of everything is a trend of future development, how to more conveniently apply consumer electronics to smart homes brings convenience to consumers, and the direction of research of various large-brand merchants is always in the future.
In the related art, a consumer is generally required to install an application program on a mobile phone, and control each household electrical appliance, for example, control the intelligent air conditioner to be turned on and off, through the application program, or control the intelligent air conditioner using a dedicated remote controller, but the remote controller is easy to lose.
Disclosure of Invention
It is an object of the embodiments of the present disclosure to provide a new technical solution for a wearable device.
According to a first aspect of embodiments of the present disclosure, there is provided a wearable device comprising a UWB module, a first temperature sensor, a second temperature sensor, and a control module;
the UWB module is used for positioning whether a wearer of the wearable equipment enters a target area where the intelligent air conditioner is located;
the first temperature sensor is used for acquiring a first temperature of the target area when a wearer of the wearable device enters the target area;
the second temperature sensor is used for acquiring a second temperature of a wearer of the wearable device when the wearer enters the target area;
and the control module is used for controlling the intelligent air conditioner according to the first temperature and the second temperature.
Optionally, the wearable device further comprises a sweat detection sensor,
the sweat detection sensor is used for collecting sweat secretion data of a wearer of the wearable device when the wearer enters the target area;
the control module is used for controlling the intelligent air conditioner according to the first temperature, the second temperature and the sweat secretion data.
Optionally, the control module is configured to control the smart air conditioner according to the first temperature, the second temperature and the sweat secretion data, and specifically includes:
the control module is used for turning on the intelligent air conditioner and controlling the intelligent air conditioner to be in a warm air mode under the condition that the first temperature is smaller than or equal to a first temperature threshold value, the second temperature is smaller than or equal to the first temperature, and the change value of the sweat secretion data in a first set time period indicates that sweat secretion of the wearer is reduced.
Optionally, the control module is further configured to, when the smart air conditioner is in a warm air mode, if the first temperature is greater than the first temperature threshold, the second temperature is less than or equal to the first temperature, and a change value of the sweat secretion data within a second set time period indicates that sweat secretion of the wearer is reduced, turn off the smart air conditioner.
Optionally, the control module is configured to control the smart air conditioner according to the first temperature, the second temperature and the sweat secretion data, and specifically includes:
the control module is used for starting the intelligent air conditioner and controlling the intelligent air conditioner to be in a cold air mode under the condition that the first temperature is greater than or equal to a second temperature threshold value, the second temperature is greater than or equal to the first temperature, and the change value of the sweat secretion data in a first set time period indicates that sweat secretion of the wearer is increased.
Optionally, the control module is configured to, when the smart air conditioner is in a cool air mode, turn off the smart air conditioner if the first temperature is lower than a second temperature threshold, the second temperature is higher than or equal to the first temperature, and a change value of the sweat secretion data within a second set time period indicates that sweat secretion of the wearer is increased.
Optionally, the control module is further configured to, when the smart air conditioner is in an on state, turn off the smart air conditioner if the UWB module locates that the wearer of the wearable device is located outside the target area within a third set time period.
Optionally, the control module is further configured to, when the smart air conditioner is in an on state, control the smart air conditioner to be in a low power consumption mode if the UWB module locates that the wearer of the wearable device is located outside the target area within a fourth set time period.
Optionally, the control module is further configured to output a first prompt message if the second temperature is greater than the first temperature and a change value of the sweat secretion data within a fifth set period of time indicates that sweat secretion of the wearer is reduced; wherein the first prompt message is used to prompt the wearer to be in a disease state.
Optionally, the wearable device further comprises a display module,
the control module is further used for controlling the display module to display a control interface of the intelligent air conditioner under the condition that a wearer of the wearable device enters a target area where the intelligent air conditioner is located, so that the wearer can control the intelligent air conditioner based on the control interface.
One beneficial effect of the embodiment of the present disclosure lies in that wearable equipment includes the UWB module, a control module, first temperature sensor and second temperature sensor, whether the UWB module can fix a position the wearer of wearable equipment and get into the target area that intelligent air conditioner is located, under the condition that the wearer got into the target area, alright gather the first temperature in target area by first temperature sensor to and gather the second temperature of wearer by second temperature sensor, and then control the intelligent air conditioner by control module based on first temperature and second temperature. Therefore, wearable equipment can control the intelligent air conditioner in a self-adaptive mode through the position of a wearer, the ambient temperature and the human body temperature, manual control is not needed, operation is greatly complex, the problem that an external remote controller is prone to being lost is solved, and cost is saved.
Other features of the present description and advantages thereof will become apparent from the following detailed description of exemplary embodiments thereof, which proceeds with reference to the accompanying drawings.
Drawings
The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments of the specification and together with the description, serve to explain the principles of the specification.
Fig. 1 is a hardware configuration schematic diagram of a wearable device according to an embodiment of the present disclosure;
fig. 2 is a hardware configuration schematic diagram of a wearable device according to another embodiment of the present disclosure.
Detailed Description
Various exemplary embodiments of the present disclosure will now be described in detail with reference to the accompanying drawings. It should be noted that: the relative arrangement of parts and steps, numerical expressions and numerical values set forth in these embodiments do not limit the scope of the embodiments of the present disclosure unless specifically stated otherwise.
The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the disclosure, its application, or uses.
Techniques, methods, and apparatus known to those of ordinary skill in the relevant art may not be discussed in detail but are intended to be part of the specification where appropriate.
In all examples shown and discussed herein, any particular value should be construed as merely illustrative, and not limiting. Thus, other examples of the exemplary embodiments may have different values.
It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, further discussion thereof is not required in subsequent figures.
< wearable device embodiment >
Please refer to fig. 1, which is a schematic diagram of a hardware structure of a wearable device according to an embodiment of the present disclosure. As shown in fig. 1, the wearable device 20 includes a UWB (Ultra Wide Band) module 210, a first temperature sensor 220, a second temperature sensor 230, and a control module 240.
In this embodiment, the wearable device 20 may be applied to an environment including a plurality of smart air conditioners, for example, the environment may be a home of a wearer of the wearable device 20, where one smart air conditioner is installed in a main bed, one smart air conditioner is installed in a secondary bed, one smart air conditioner is installed in a study room, and one smart air conditioner is installed in a living room. And, each intelligent air conditioner is provided with UWB module and communication module.
In this embodiment, the wearable device 20 includes, for example and without limitation, a smart watch and a smart bracelet.
The UWB module 210 is configured to locate whether the wearer of the wearable device 20 enters a target area where the smart air conditioner is located.
In this embodiment, the smart air conditioner generally serves as a master device (base station), the wearable device 20 generally serves as a slave device, and the UWB module 210 of the wearable device 20 is configured to emit a UWB signal, where the UWB signal carries identification information of the wearable device 20, and it is known that the UWB signal originates from the wearable device 20 through the identification information. The UWB module of the smart air conditioner is configured to receive the UWB signal, and when the UWB signal transmitted by the UWB module 210 of the wearable device 20 is received, it may be determined that the wearer of the wearable device 20 enters the target area where the smart air conditioner is located.
Taking the smart air conditioner corresponding to the master sleeping position as an example, the UWB module 210 of the wearable device 20 emits UWB signals, and the UWB module of the smart air conditioner searches for the UWB signals in real time, and determines that the wearer enters the master sleeping position and notifies the wearable device 20 that the wearer has entered the master sleeping position when the UWB signals emitted by the UWB module 210 of the wearable device 20 are searched.
The first temperature sensor 220 is configured to acquire a first temperature of the target area when the wearer of the wearable device enters the target area.
The first temperature sensor 220 is used to detect the ambient temperature of the environment where the wearable device 20 is currently located.
In one example, in the case where the UWB module 210 locates that the wearer of the wearable device 20 enters the target area where the smart air conditioner is located, the first temperature sensor 220 may be notified to acquire the ambient temperature of the target area and transmit the acquired ambient temperature of the target area to the control module 240.
Continuing with the above example, in the event that UWB module 210 locates that the wearer of wearable device 20 enters the primary sleep, first temperature sensor 220 may begin to acquire the ambient temperature of the primary sleep and send the acquired ambient temperature of the primary sleep to control module 240.
In another example, referring to fig. 2, the wearable device 20 further includes a communication module 250, and the communication module 250 may be a short-range communication module, and the communication module 250 includes, for example and without limitation, a bluetooth module, a WIFI module, and a ZigBee module. In the case that the UWB module 210 locates that the wearer of the wearable device 20 enters the target area where the smart air conditioner is located, the first temperature sensor 220 may be notified to acquire the ambient temperature of the target area, and the acquired ambient temperature of the target area may be transmitted to the smart air conditioner through the communication module 250.
The second temperature sensor 230 is configured to acquire a second temperature of a wearer of the wearable device when the wearer enters the target area.
The second temperature sensor 230 is used for acquiring the skin temperature of the wearer of the wearable device 20, namely the body surface temperature.
In one example, in the case where the UWB module 210 locates that the wearer of the wearable device 20 enters the target area where the smart air conditioner is located, the second temperature sensor 230 may be notified to collect the body surface temperature of the wearer of the wearable device 20 and transmit the collected body surface temperature of the wearer to the control module 240.
Continuing with the above example, in the event that the UWB module 210 locates that the wearer of the wearable device 20 is entering the master sleep, the second temperature sensor 230 may begin to collect the body surface temperature of the wearer and send the collected body surface temperature of the wearer to the control module 240.
In another example, in the case that the UWB module 210 locates that the wearer of the wearable device 20 enters the target area where the smart air conditioner is located, the second temperature sensor 230 may be notified to collect the body surface temperature of the wearer and transmit the collected body surface temperature of the wearer to the smart air conditioner through the communication module 250.
The control module 240 is configured to control the smart air conditioner 10 according to the first temperature and the second temperature.
In one example, after the control module 240 receives the ambient temperature of the current environment in which the wearable device 20 is located and the body surface temperature of the wearer, the smart air conditioner is controlled based on the ambient temperature of the current environment and the body surface temperature of the wearer.
In another example, after the communication module of the smart air conditioner receives the ambient temperature of the current environment where the wearable device 20 is located and the body surface temperature of the wearer, which are sent by the wearable device 20, the smart air conditioner may be controlled based on the ambient temperature of the current environment where the wearable device 20 is located and the body surface temperature of the wearer.
In a specific embodiment, the control module 240 is configured to turn on the smart air conditioner and control the smart air conditioner to be in a warm air mode when the first temperature is less than or equal to a first temperature threshold and the second temperature is less than or equal to the first temperature.
The first temperature threshold may be a value set according to an actual application scenario and an actual demand, and the first temperature threshold may be 20 ℃.
Continuing with the above example, when the temperature of the main bed is less than or equal to 20 ℃, and the body surface temperature of the wearer is the same as or slightly lower than the temperature of the main bed, the control module 240 determines that the warm air of the intelligent air conditioner needs to be turned on, and at this time, the control module 240 controls the intelligent air conditioner to be turned on and turns on the warm air of the intelligent air conditioner.
In a specific embodiment, the control module 240 is configured to turn on the smart air conditioner and control the smart air conditioner to be in a cold air mode when the first temperature is greater than or equal to a second temperature threshold, and the second temperature is greater than or equal to the first temperature.
The second temperature threshold may be a value set according to an actual application scenario and an actual demand, and the second temperature threshold may be 25 ℃.
Continuing with the above example, when the temperature of the main bed is greater than or equal to 25 ℃, and the body surface temperature of the wearer is the same as or slightly higher than the temperature of the main bed, the control module 240 determines that the cold air of the intelligent air conditioner 10 needs to be turned on, and at this time, the control module 240 controls the intelligent air conditioner to be turned on and turns on the cold air of the intelligent air conditioner.
According to this disclosed embodiment, wearable equipment includes the UWB module, control module, first temperature sensor and second temperature sensor, whether the UWB module can fix a position the person of wearing wearable equipment and get into the target area at intelligent air conditioner place, under the condition that the person of wearing gets into the target area, alright gather the first temperature in target area by first temperature sensor to and gather the second temperature of person of wearing by second temperature sensor, and then control the intelligent air conditioner by control module based on first temperature and second temperature. Therefore, wearable equipment can control the intelligent air conditioner in a self-adaptive mode through the position of a wearer, the ambient temperature and the human body temperature, manual control is not needed, operation is greatly complex, the problem that an external remote controller is prone to being lost is solved, and cost is saved.
In one embodiment, referring to fig. 2, the wearable device 20 further includes a sweat detection sensor 260.
The sweat detection sensor 260 is configured to collect sweat secretion data of the wearer.
In this embodiment, the sweat detection sensor 260 may include a bio-impedance electrode (EDA/GSR) module, which can detect the sweat gland secretion state of the skin of the human body and perform a complementary correction with the skin temperature.
In one example, in the event UWB module 210 locates that the wearer of wearable device 20 enters a target area where a smart air conditioner is located, sweat detection sensor 260 may be notified to collect sweat secretion data of the wearer of wearable device 20 and send the collected sweat secretion data of the wearer to control module 240.
Continuing with the above example, in the event that UWB module 210 locates the wearer of wearable device 20 entering the master sleep, sweat detection sensor 260 may be notified to collect sweat secretion data of the wearer of wearable device 20 and send the collected sweat secretion data of the wearer to control module 240.
In another example, in the event UWB module 210 locates a wearer of wearable device 20 entering a target area where a smart air conditioner is located, sweat detection sensor 260 may be notified to collect sweat secretion data of the wearer and send the collected sweat secretion data of the wearer to the smart air conditioner through communication module 250.
The control module 240 is configured to control the smart air conditioner 10 according to the first temperature, the second temperature and the sweat secretion data.
In one example, after the control module 240 receives the ambient temperature of the environment in which the wearable device 20 is currently located, the body surface temperature of the wearer, and the sweat secretion data, the smart air conditioner is controlled based on the ambient temperature of the environment in which the wearable device 20 is currently located, the body surface temperature of the wearer, and the sweat secretion data.
In another example, after the communication module of the smart air conditioner receives the ambient temperature of the current environment where the wearable device 20 is located, the body surface temperature of the wearer, and the sweat secretion data sent by the wearable device 20, the smart air conditioner may be controlled based on the ambient temperature of the current environment where the wearable device 20 is located, the body surface temperature of the wearer, and the sweat secretion data.
In a specific embodiment, the control module 240 is configured to control the smart air conditioner according to the first temperature, the second temperature and the sweat secretion data, and specifically includes:
the control module 240 is configured to turn on the smart air conditioner and control the smart air conditioner to be in a warm air mode when the first temperature is less than or equal to a first temperature threshold, the second temperature is less than or equal to the first temperature, and a change value of the sweat secretion data within a first set time period indicates that sweat secretion of the wearer is reduced.
The first set time period may be a numerical value set according to an actual application scenario and an actual demand.
Continuing with the above example, when the ambient temperature is lower than a certain temperature, for example, in winter, when the temperature of the main bed is less than or equal to 20 ℃, the body surface temperature of the wearer is the same as or slightly lower than the temperature of the main bed, and the sweat secretion data indicates that the sweat secretion of the wearer is reduced, it is determined that the warm air of the intelligent air conditioner needs to be turned on, and at this time, the control module 240 controls the intelligent air conditioner to turn on and turns on the warm air of the intelligent air conditioner. It is understood that the smart air conditioners of the other bedrooms are all in the off state.
Meanwhile, the control module 240 is further configured to, when the smart air conditioner is in the warm air mode, if the first temperature is greater than the first temperature threshold, the second temperature is less than or equal to the first temperature, and a variation value of the sweat secretion data within a second set time period indicates that sweat secretion of the wearer is reduced, turn off the smart air conditioner.
Continuing with the above example, when the temperature of the main bed collected by the first temperature sensor 220 is greater than 20 ℃, the body surface temperature of the wearer collected by the second temperature sensor 230 is slightly lower than the temperature of the main bed, and the sweat detection sensor 260 detects that the sweat secretion of the human body of the wearer is reduced, it is determined that the smart air conditioner does not need to be turned on again, and the smart air conditioner is turned off.
In a specific embodiment, the control module 240 is configured to control the smart air conditioner according to the first temperature, the second temperature and the sweat secretion data, and specifically includes:
the control module 240 is configured to turn on the smart air conditioner and control the smart air conditioner to be in a cold air mode when the first temperature is greater than or equal to a second temperature threshold, the second temperature is greater than or equal to the first temperature, and a change value of the sweat secretion data in a first set time period indicates that sweat secretion of the wearer is increased.
Continuing with the above example, in the case where the ambient temperature is above a certain temperature, such as summer. When the temperature of the main lying is higher than or equal to 25 ℃, the body surface temperature of the wearer is the same as or slightly higher than the temperature of the main lying, the sweat detection sensor 260 detects that the sweat secretion of the human body of the wearer is increased, the cold air needing to be opened is judged, at the moment, the control module 240 controls the intelligent air conditioner to be started, and the cold air of the intelligent air conditioner is opened. It is understood that the smart air conditioners of the other bedrooms are all in the off state.
Meanwhile, the control module 240 is configured to, when the smart air conditioner is in the cool air mode, turn off the smart air conditioner if the first temperature is lower than a second temperature threshold, the second temperature is higher than or equal to the first temperature, and a change value of the sweat secretion data within a second set time period indicates that sweat secretion of the wearer is increased.
Continuing with the above example, when the temperature of the main bed collected by the first temperature sensor 220 is less than 25 ℃, the body surface temperature of the wearer collected by the second temperature sensor 230 is slightly higher than the temperature of the main bed, the sweat detection sensor 260 detects that the sweat secretion of the human body of the wearer increases, and if the sweat detection sensor determines that the intelligent air conditioner does not need to be turned on again, the intelligent air conditioner is turned off.
In an embodiment, the control module 240 is further configured to, when the smart air conditioner is in an on state, turn off the smart air conditioner if the UWB module 210 locates that the wearer of the wearable device 20 is outside the target area where the smart air conditioner is located within a third set time period.
The third set time period may be a value set according to an actual application scenario and an actual demand, and the third set time period may be 30 minutes.
Continuing the above example, in case the smart air conditioner of the master-bedroom is in the on state and the smart air conditioners of the other bedrooms are in the off state, if the wearer leaves the master-bedroom for a longer period of time (for example, more than 30 minutes is defined), the UWB module 210 of the wearable device 20 transmits the UWB signal, but the smart air conditioner of the master-bedroom may notify the wearable device 20 in case that the UWB signal transmitted by the UWB module 210 of the wearable device 20 is not received by the smart air conditioner of the master-bedroom for more than 30 minutes, for example, where the control module 240 controls the smart air conditioner 10 of the master-bedroom to be off and the smart air conditioners 10 of the other bedrooms to be on. Of course, the smart air conditioner may be automatically turned off when, for example, a UWB signal transmitted by the UWB module 210 of the wearable device 20 is not received for more than 30 minutes.
In an embodiment, the control module 240 is further configured to, when the smart air conditioner 10 is in an on state, control the smart air conditioner 10 to be in a low power consumption mode if the UWB module 210 locates that the wearer of the wearable device 20 is outside the target area where the smart air conditioner is located within a fourth set time period.
The fourth set time period may be a value set according to an actual application scenario and an actual demand, and the third set time period may be 10 minutes.
Continuing with the above example, in the case that the smart air conditioner for the master-bedroom is in the on state, and the smart air conditioners for the other bedrooms are in the off state, if the wearer simply goes to the other bedrooms to take things, and returns to the master-bedroom soon (within 10 minutes, for example), the UWB module 210 of the wearable device 20 transmits UWB signals, but the smart air conditioner for the master-bedroom may notify the wearable device 20 if the smart air conditioner for the master-bedroom does not receive the UWB signals transmitted by the UWB module 210 of the wearable device 20 within 10 minutes, for example, where the smart air conditioner for the master-bedroom may be in the standby low power consumption state after leaving the master-bedroom, and return to the master-bedroom and then operate normally again, so that energy is saved. Of course, the smart air conditioner may be automatically turned off when the UWB signal transmitted by the UWB module 210 of the wearable device 20 is not received within, for example, 10 minutes.
In one embodiment, the control module 240 is further configured to output a first prompt if the second temperature is greater than the first temperature and a change in the sweat secretion data over a fifth set period of time indicates a decrease in sweat secretion by the wearer; wherein the first prompt message is used to prompt the wearer to be in a disease state.
The fifth set time period may be a numerical value set according to an actual application scenario and an actual demand.
In this embodiment, when the body surface temperature of the wearer is too high and is significantly higher than the ambient temperature of the current environment, and sweat secretion is reduced, it is considered as an abnormal state, and it is predicted that the wearer may have a risk of a cold fever, and at this time, the wearable device 20 does not perform the switching function of the intelligent air conditioner, and sends out a continuous vibration alert to the motor, so that the wearer needs further diagnosis and treatment.
In one embodiment, the wearable device 20 further comprises a display module (not shown in the figures).
The control module 240 is further configured to control the display module to display a control interface of the smart air conditioner when a wearer of the wearable device 20 enters a target area where the smart air conditioner is located, so that the wearer controls the smart air conditioner based on the control interface.
In this embodiment, for other seasons in which the intelligent air conditioner does not need to be started, or when the wearer wishes to turn on or off the intelligent air conditioner at will, the display module of the wearable device may be controlled to display the control interface of the intelligent air conditioner for the main-lying mode after the wearer enters the main-lying mode based on the UWB module, and the wearer may operate the control interface of the wearable device 20 to turn on or turn off the intelligent air conditioner for the main-lying mode according to the needs of the wearer.
In the description herein, reference to the description of the terms "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the application. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.
While embodiments of the present application have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the application, the scope of which is defined by the claims and their equivalents.
Claims (10)
1. A wearable device, comprising a UWB module, a first temperature sensor, a second temperature sensor, and a control module;
the UWB module is used for positioning whether a wearer of the wearable equipment enters a target area where the intelligent air conditioner is located;
the first temperature sensor is used for acquiring a first temperature of the target area under the condition that a wearer of the wearable equipment enters the target area;
the second temperature sensor is used for acquiring a second temperature of a wearer of the wearable device when the wearer enters the target area;
and the control module is used for controlling the intelligent air conditioner according to the first temperature and the second temperature.
2. The wearable device of claim 1, further comprising a sweat detection sensor,
the sweat detection sensor to collect sweat secretion data of a wearer of the wearable device if the wearer enters the target area;
the control module is used for controlling the intelligent air conditioner according to the first temperature, the second temperature and the sweat secretion data.
3. The wearable device of claim 2, wherein the control module is configured to control the smart air conditioner based on the first temperature, the second temperature, and the sweat secretion data, and in particular comprises:
the control module is used for turning on the intelligent air conditioner and controlling the intelligent air conditioner to be in a warm air mode under the condition that the first temperature is smaller than or equal to a first temperature threshold value, the second temperature is smaller than or equal to the first temperature, and the change value of the sweat secretion data in a first set time period indicates that sweat secretion of the wearer is reduced.
4. The wearable device of claim 3,
the control module is further configured to, when the intelligent air conditioner is in a warm air mode, if the first temperature is greater than the first temperature threshold, the second temperature is less than or equal to the first temperature, and a change value of the sweat secretion data within a second set time period indicates that sweat secretion of the wearer is reduced, turn off the intelligent air conditioner.
5. The wearable device according to claim 2, wherein the control module is configured to control the smart air conditioner based on the first temperature, the second temperature, and the sweat secretion data, and further comprising:
the control module is used for starting the intelligent air conditioner and controlling the intelligent air conditioner to be in a cold air mode under the condition that the first temperature is greater than or equal to a second temperature threshold value, the second temperature is greater than or equal to the first temperature, and the change value of the sweat secretion data in a first set time period indicates that sweat secretion of the wearer is increased.
6. The wearable device of claim 5,
the control module is used for turning off the intelligent air conditioner under the condition that the intelligent air conditioner is in a cold air mode, if the first temperature is smaller than a second temperature threshold value, the second temperature is larger than or equal to the first temperature, and the change value of the sweat secretion data in a second set time period indicates that the sweat secretion of the wearer is increased.
7. Wearable device according to claim 3 or 5,
the control module is further configured to, when the intelligent air conditioner is in an on state, turn off the intelligent air conditioner if the UWB module locates that the wearer of the wearable device is located outside the target area within a third set time period.
8. Wearable device according to claim 3 or 5,
the control module is further configured to control the smart air conditioner to be in a low power consumption mode if the UWB module locates that the wearer of the wearable device is located outside the target area within a fourth set time period when the smart air conditioner is in the on state.
9. The wearable device of claim 2,
the control module is further used for outputting first prompt information when the second temperature is higher than the first temperature and the change value of the sweat secretion data in a fifth set time period indicates that sweat secretion of the wearer is reduced; wherein the first prompt message is used to prompt the wearer to be in a disease state.
10. The wearable device of claim 1, further comprising a display module,
the control module is further used for controlling the display module to display a control interface of the intelligent air conditioner under the condition that a wearer of the wearable device enters a target area where the intelligent air conditioner is located, so that the wearer can control the intelligent air conditioner based on the control interface.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202211196011.2A CN115899966A (en) | 2022-09-28 | 2022-09-28 | Wearable device |
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JP2001074292A (en) * | 1999-07-06 | 2001-03-23 | Daikin Ind Ltd | Air conditioner and physiological information unit |
CN103592975A (en) * | 2013-11-29 | 2014-02-19 | 深圳市金立通信设备有限公司 | Temperature regulating and controlling method, regulating and controlling device, sensing device and control device |
CN106679124A (en) * | 2016-12-28 | 2017-05-17 | 天津众阳科技有限公司 | System and method for achieving air conditioner temperature control through wearable device |
CN110513840A (en) * | 2019-08-23 | 2019-11-29 | 青岛海尔科技有限公司 | Temprature control method and system based on smart home operating system |
CN111473483A (en) * | 2020-03-02 | 2020-07-31 | 珠海格力电器股份有限公司 | Intelligent household control method and device, electronic equipment and computer readable medium |
CN211781793U (en) * | 2020-03-10 | 2020-10-27 | 维沃移动通信有限公司 | Wearable equipment and temperature control system |
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JP2001074292A (en) * | 1999-07-06 | 2001-03-23 | Daikin Ind Ltd | Air conditioner and physiological information unit |
CN103592975A (en) * | 2013-11-29 | 2014-02-19 | 深圳市金立通信设备有限公司 | Temperature regulating and controlling method, regulating and controlling device, sensing device and control device |
CN106679124A (en) * | 2016-12-28 | 2017-05-17 | 天津众阳科技有限公司 | System and method for achieving air conditioner temperature control through wearable device |
CN110513840A (en) * | 2019-08-23 | 2019-11-29 | 青岛海尔科技有限公司 | Temprature control method and system based on smart home operating system |
CN111473483A (en) * | 2020-03-02 | 2020-07-31 | 珠海格力电器股份有限公司 | Intelligent household control method and device, electronic equipment and computer readable medium |
CN211781793U (en) * | 2020-03-10 | 2020-10-27 | 维沃移动通信有限公司 | Wearable equipment and temperature control system |
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