CN103982978A

CN103982978A - Wearable equipment, air conditioner control device, air conditioner control method and air conditioner

Info

Publication number: CN103982978A
Application number: CN201410174267.2A
Authority: CN
Inventors: 樊奇; 刘炎炎
Original assignee: Midea Group Wuhan Refrigeration Equipment Co Ltd; Guangdong Midea Group Wuhu Air Conditioning Equipment Co Ltd
Current assignee: Midea Group Wuhan Refrigeration Equipment Co Ltd; Guangdong Midea Group Wuhu Air Conditioning Equipment Co Ltd
Priority date: 2014-04-25
Filing date: 2014-04-25
Publication date: 2014-08-13
Anticipated expiration: 2034-04-25
Also published as: CN103982978B

Abstract

The invention provides wearable equipment, an air conditioner control device, an air conditioner control method and an air conditioner. The wearable equipment comprises a detection unit, a calculation unit, a conversion unit and a sending unit, wherein the detection unit is used for detecting the breathing frequency, body temperature and/or infrared heat generating amount of a user, the calculation unit is connected with the detection unit, and is used for converting the infrared heat generating amount into the heat radiating amount of the user, and calculating the difference between the heat radiating amount and the standard heat radiating amount, the conversion unit is connected with the detection unit and the calculation unit, and is used for converting the difference value into a heat radiating signal, and converting the breathing frequency and/or body temperature into a body function signal, and the sending unit is connected with the conversion unit, and is used for sending the heat radiating signal and/or the body function signal to the outside. By adopting the technical scheme, the running temperature of the air conditioner is adjusted according to the detected body condition information of the user, so the temperature adjusting of the air conditioner is more accurate, and then the temperature is suitable for different populations with different body conditions.

Description

Wearable device, air conditioner controlling device, air-conditioner control method and air-conditioner

Technical field

The present invention relates to air-conditioner technical field, in particular to a kind of wearable device, a kind of air conditioner controlling device, a kind of air-conditioner control method and a kind of air-conditioner.

Background technology

At present, young man starts to bear the responsibility of looking after old man and children gradually, but owing to lacking experience, the reasons such as work fatigue, can not well look after old man and children, smart mobile phone simultaneously, the universal young man of allowing of the electronic products such as computer spends in more time and efforts to play games and the aspect such as online, lack necessary patience and energy to looking after old man and children's torso, especially cannot understand accurately especially old man and children's health in the length of one's sleep in night, because old man and children react sensitive not to the cold and hot of self health or other situations such as abnormal, cause many old men and children due to the improper flu that causes of air-conditioner temperature adjustment at night, the diseases such as heating.

In addition, there is part air-conditioner to be equipped with sleep curve, automatically regulate the temperature of air-conditioner according to sleep curve, but existing air-conditioner sleep Curve Technique is accurate not, be difficult to bring into play it for the different user of physique and improve the effect of sleeping, cannot form effective treatment to the special population such as old man and children.

Therefore, how to become technical problem urgently to be resolved hurrily at present according to the temperature of user's health control and regulation air-conditioner.

Summary of the invention

The present invention is intended at least solve one of technical problem existing in prior art or correlation technique.

For this reason, one object of the present invention has been to propose to detect the wearable device of wearer's body situation.

Another object of the present invention is to have proposed a kind of air conditioner controlling device.

Another object of the present invention is to have proposed a kind of air-conditioner control method.

A further object of the present invention is to have proposed a kind of air-conditioner.

For achieving the above object, embodiment according to a first aspect of the invention, has proposed a kind of wearable device, comprising: detecting unit, for detection of user's respiratory rate, body temperature and/or exothermal infrared amount; Computing unit, is connected to described detecting unit, described exothermal infrared amount is converted to described user's heat dissipation capacity, calculates the difference of described heat dissipation capacity and standard heat-emission; Converting unit, is connected to described detecting unit and described computing unit, and described difference is converted to heat radiation signal, and described respiratory rate and/or described body temperature are converted to physical function signal; Transmitting element, is connected to described converting unit, for send described heat radiation signal and/or described physical function signal to outside.

Wearable device according to an embodiment of the invention, by detecting user's respiratory rate, body temperature and/or exothermal infrared amount, can know accurately the health information such as user's respiratory rate, body temperature and/or body surface heat dissipation capacity, and user's health information is converted into heat radiation signal and/or physical function signal sends to outside, for the running temperature of control and regulation air-conditioner and/or monitoring wearer's health provide foundation accurately.Certainly, heat radiation signal and physical function signal can be served as wearer's health information.

Wherein, wearable device can use bluetooth, WIFI (WIreless FIdelity, Wireless Fidelity) etc. will dispel the heat signal and/or physical function signal of technology send to outside, can automatically detect by one or more sensors user's respiratory rate, body temperature and/or infrared ray heat dissipation capacity, for example: serviceability temperature sensor detects body temperature, use vibrating sensor to detect respiratory rate (palmic rate), use the temperature of infrared thermometer detection wearer body surface to detect exothermal infrared amount.Certainly, one skilled in the art will appreciate that herein and be not used in concrete restriction.

In addition, wearable device according to the above embodiment of the present invention, can also have following additional technical characterictic:

According to one embodiment of present invention, described wearable device, also comprise: can connect or adsorb the first component and the second component that connect by buckle, wherein, described detecting unit, described computing unit, described converting unit and described transmitting element are arranged in described first component and/or second component, and in the time that described first component and described second component are connected to each other, described detecting unit, described computing unit, described converting unit and described transmitting element are powered.

Wearable device according to an embodiment of the invention, by wearable device being designed to can connect or adsorb the button shape connecting by buckle, small volume is conveniently worn and is not affected sleep on the one hand, can use on the other hand buckle to connect or adsorb to connect as power switch, easy to use.For example: power supply unit is arranged in first component, described detecting unit, described computing unit, described converting unit and described transmitting element are arranged in second component, in the time that first component is connected with second component, first component is powered to second component by the mode of wired connection or wireless connections, to detect wearer's health information.

According to one embodiment of present invention, also comprise: timing unit, be connected to described detecting unit, after being used for controlling described detecting unit and being powered, carry out work taking the scheduled time as the cycle, and/or control described detecting unit, described computing unit, described converting unit and described transmitting element and be powered taking the scheduled time as the cycle.

Wearable device according to an embodiment of the invention, by the health information taking the scheduled time as cycle detection user, compared with the real-time health information that detects user, although the real-time of health information and accuracy can decline to some extent, can significantly save power consumption.

Certainly, in the time detecting taking the scheduled time as the cycle, the real-time of user's body condition information is relevant with the length of the scheduled time with accuracy, if shorter (for example 1 minute) that the scheduled time arranges, can in ensureing real-time and accuracy, save power consumption, as preferred embodiment comparatively, can also power to wearable device with the scheduled time, can save equally power consumption.

Embodiment according to a second aspect of the invention, has proposed a kind of air conditioner controlling device, comprising: receiving element, the heat radiation signal sending for the wearable device receiving described in above-described embodiment any one; Control module, is connected to described receiving element, and the described heat radiation signal receiving according to described receiving element controls to adjust the running temperature of described air-conditioner.

Air conditioner controlling device according to an embodiment of the invention, the heat radiation signal sending according to the wearable device receiving, the running temperature of control and regulation air-conditioner, realize the running temperature that regulates air-conditioner according to user's health information, make the adjusting of air-conditioner running temperature more accurate, effectively ensure user's comfort level, compared with carrying the running temperature of sleep curve or manual adjustments air-conditioner in prior art, regulate the running temperature of air-conditioner according to user's heat dissipating body signal controlling, make the running temperature of air-conditioner regulate the different different crowd of adaptation physique, improve the accuracy that air-conditioner running temperature regulates.

Certainly,, as preferred embodiment comparatively, can open (connection) at wearable device time, the intelligent thermoregulating pattern that transmitted signal is synchronously opened air-conditioner simultaneously, so that air-conditioner is according to the running temperature of user's heat dissipating body signal controlling air-conditioner.

According to one embodiment of present invention, described control module comprises: the first processing unit, is connected to described receiving element, for described heat radiation signal being converted to the difference of heat dissipation capacity and standard heat-emission; The first judging unit, is connected to described the first processing unit, for judging whether described difference is greater than the first predetermined threshold, and judges whether described difference is greater than the second predetermined threshold; Performance element, be connected to described the first judging unit, for in the time judging that described difference is greater than described the first predetermined threshold, reduce the running temperature of described air-conditioner, or in the time that described difference is less than or equal to described the first predetermined threshold and is greater than the second predetermined threshold, keep the running temperature of described air-conditioner, or in the time that described difference is less than or equal to described the second predetermined threshold, improve the running temperature of described air-conditioner, wherein, described the first predetermined threshold is greater than described the second predetermined threshold.

Air conditioner controlling device according to an embodiment of the invention, due to the heat radiation signal heat dissipation capacity that is wearer's body and the difference of standard heat-emission, therefore, this difference can reflect the cold and hot situation (comfortable situation) of wearer's body, for example: the first predetermined threshold is 5, the second predetermined threshold is-5, in the time that this difference is greater than the first predetermined threshold, the heat dissipation capacity that shows wearer's body is greater than standard heat-emission, if cannot dissipating in time, the heat in wearer's body will feel hot, therefore, control the running temperature that reduces air-conditioner, to ensure wearer's comfort level, in the time that this difference is less than or equal to the second predetermined threshold, the heat dissipation capacity that shows wearer's body is less than standard heat-emission, and the shortage of heat in wearer's body will feel cold to maintain standard heat-emission, therefore, control the running temperature that improves air-conditioner, to ensure wearer's comfort level, certainly, be less than or equal to the first predetermined threshold in this difference, and while being greater than the second predetermined threshold, show that now heat dissipation capacity and the standard heat-emission of user's body are comparatively approaching, therefore do not need to regulate the temperature of air-conditioner, also keep the temperature of air-conditioner.

Certainly, as another kind of embodiment, also can be judged by wearable device the relation of this difference and the first predetermined threshold and the second predetermined threshold, be sent to air-conditioner to generate control instruction, air-conditioner regulates running temperature according to the control instruction receiving.

According to one embodiment of present invention, the physical function signal that described receiving element sends for receiving described wearable device, also comprise: the second processing unit, be connected to described receiving element, for described heat radiation signal being converted to the difference of described heat dissipation capacity and described standard heat-emission, and generate heat dissipation capacity difference curve, and/or described physical function signal is converted to respiratory rate figure and/or temperature curve; Output unit, is connected to described the second processing unit, for exporting described heat dissipation capacity difference curve, described respiratory rate figure and/or described temperature curve.

Air conditioner controlling device according to an embodiment of the invention, the heat radiation signal that wearable device is sent and physical function signal are converted to heat dissipation capacity difference curve, respiratory rate figure and/or the temperature curve line output of going forward side by side, and can monitor more accurately wearer's health.For example: on the display screen of air-conditioner, show, make guardian can judge accurately old man and children's health according to heat dissipation capacity difference curve, respiratory rate figure and/or temperature curve.Certainly, as preferred embodiment comparatively, heat dissipation capacity difference curve, respiratory rate figure and/or temperature curve can be sent to the enterprising line output of computer and/or mobile phone and show, make young man in playing games or surfing the Net, still can pay close attention to old man and children's health information.

According to one embodiment of present invention, also comprise: the second judging unit, is connected to described the second processing unit, for judging whether the absolute value of described difference is greater than the 3rd predetermined threshold; Tip element, is connected to described the second judging unit, in the time that the absolute value of judging described difference is greater than described the 3rd predetermined threshold, carries out alarm.

Air conditioner controlling device according to an embodiment of the invention, by in the time that the absolute value of the heat dissipation capacity of wearer's body and the difference of standard heat-emission is greater than the 3rd threshold value, carry out alarm, making guardian that (for example: have a fever or kick quilt off) time can occur extremely wearer processes in time, also temperature that can manual adjustments air-conditioner, avoids because wearer feels the insensitive diseases such as cat fever that cause to the abnormal conditions of self.Certainly, the mode of prompting can be one or more, for example: sound and/or light and/or word.

Embodiment according to a third aspect of the invention we, has proposed a kind of air-conditioner control method, comprising: receive the heat radiation signal that in above-described embodiment, the wearable device described in any one sends; According to the described heat radiation signal receiving, control to adjust the running temperature of described air-conditioner.

Air-conditioner control method according to an embodiment of the invention, the heat radiation signal sending according to the wearable device receiving, the running temperature of control and regulation air-conditioner, realize the running temperature that regulates air-conditioner according to user's health information, make the adjusting of air-conditioner running temperature more accurate, effectively ensure user's comfort level, compared with carrying the running temperature of sleep curve or manual adjustments air-conditioner in prior art, regulate the running temperature of air-conditioner according to user's heat dissipating body signal controlling, make the running temperature of air-conditioner regulate the different different crowd of adaptation physique, improve the accuracy that air-conditioner running temperature regulates.

According to one embodiment of present invention, the heat radiation signal receiving described in described basis, the concrete steps that control to adjust the running temperature of described air-conditioner are: the difference that described heat radiation signal is converted to heat dissipation capacity and standard heat-emission; Judge whether described difference is greater than the first predetermined threshold, and judge whether described difference is greater than the second predetermined threshold; In the time judging that described difference is greater than described the first predetermined threshold, reduce the running temperature of described air-conditioner, or in the time that described difference is less than or equal to described the first predetermined threshold and is greater than the second predetermined threshold, keep the running temperature of described air-conditioner, or in the time that described difference is less than or equal to described the second predetermined threshold, improve the running temperature of described air-conditioner, wherein, described the first predetermined threshold is greater than described the second predetermined threshold.

Air-conditioner control method according to an embodiment of the invention, due to the heat radiation signal heat dissipation capacity that is wearer's body and the difference of standard heat-emission, therefore, this difference can reflect the cold and hot situation (comfortable situation) of wearer's body, for example: the first predetermined threshold is 5, the second predetermined threshold is-5, in the time that this difference is greater than the first predetermined threshold, the heat dissipation capacity that shows wearer's body is greater than standard heat-emission, if cannot dissipating in time, the heat in wearer's body will feel hot, therefore, control the running temperature that reduces air-conditioner, to ensure wearer's comfort level, in the time that this difference is less than or equal to the second predetermined threshold, the heat dissipation capacity that shows wearer's body is less than standard heat-emission, and the shortage of heat in wearer's body will feel cold to maintain standard heat-emission, therefore, control the running temperature that improves air-conditioner, to ensure wearer's comfort level, certainly, be less than or equal to the first predetermined threshold in this difference, and while being greater than the second predetermined threshold, show that now heat dissipation capacity and the standard heat-emission of user's body are comparatively approaching, therefore do not need to regulate the temperature of air-conditioner, also keep the temperature of air-conditioner.

According to one embodiment of present invention, also comprise: receive the physical function signal that described wearable device sends; Described heat radiation signal is converted to the difference of described heat dissipation capacity and described standard heat-emission, and generates difference curve and/or described physical function signal is converted to respiratory rate figure and/or temperature curve; Export described heat dissipation capacity difference curve, described respiratory rate figure and/or described temperature curve.

Air-conditioner control method according to an embodiment of the invention, the heat radiation signal that wearable device is sent and physical function signal are converted to heat dissipation capacity difference curve, respiratory rate figure and/or the temperature curve line output of going forward side by side, and can monitor more accurately wearer's health.For example: on the display screen of air-conditioner, show, make guardian can judge accurately old man and children's health according to heat dissipation capacity difference curve, respiratory rate figure and/or temperature curve.Certainly, as preferred embodiment comparatively, heat dissipation capacity difference curve, respiratory rate figure and/or temperature curve can be sent to the enterprising line output of computer and/or mobile phone and show, make young man in playing games or surfing the Net, still can pay close attention to old man and children's health information.

According to one embodiment of present invention, also comprise: whether the absolute value that judges described difference is greater than the 3rd predetermined threshold; In the time that the absolute value of judging described difference is greater than described the 3rd predetermined threshold, carry out alarm.

Air-conditioner control method according to an embodiment of the invention, by in the time that the absolute value of the heat dissipation capacity of wearer's body and the difference of standard heat-emission is greater than the 3rd threshold value, carry out alarm, making guardian that (for example: have a fever or kick quilt off) time can occur extremely wearer processes in time, also temperature that can manual adjustments air-conditioner, avoids because wearer feels the insensitive diseases such as cat fever that cause to the abnormal conditions of self.Certainly, the mode of prompting can be one or more, for example: sound and/or light and/or word.

Embodiment according to a forth aspect of the invention, has proposed a kind of air-conditioner, comprising: the air conditioner controlling device as described in any one in above-described embodiment.

Air-conditioner according to an embodiment of the invention, by add the control device of air-conditioner in air-conditioner, make air-conditioner to regulate accurately running temperature according to user's health information, improve thermoregulator accuracy, ensure user's comfort level, can adapt to the different different crowd of physique simultaneously.

Additional aspect of the present invention and advantage in the following description part provide, and part will become obviously from the following description, or recognize by practice of the present invention.

Brief description of the drawings

Above-mentioned and/or additional aspect of the present invention and advantage accompanying drawing below combination is understood becoming the description of embodiment obviously and easily, wherein:

Fig. 1 shows the structural representation of wearable device according to an embodiment of the invention;

Fig. 2 A to Fig. 2 B shows the concrete structure schematic diagram of wearable device according to an embodiment of the invention;

Fig. 3 shows the structural representation of air conditioner controlling device according to an embodiment of the invention;

Fig. 4 shows the structural representation that wearable device is connected with air conditioner controlling device according to an embodiment of the invention;

Fig. 5 shows the schematic flow diagram of air-conditioner control method according to an embodiment of the invention;

Fig. 6 shows the schematic diagram of air-conditioner control method idiographic flow according to an embodiment of the invention.

Detailed description of the invention

In order more clearly to understand above-mentioned purpose of the present invention, feature and advantage, below in conjunction with the drawings and specific embodiments, the present invention is further described in detail.It should be noted that, in the situation that not conflicting, the feature in the application's embodiment and embodiment can combine mutually.

A lot of details are set forth in the following description so that fully understand the present invention; but; the present invention can also adopt other to be different from other modes described here and implement, and therefore, protection scope of the present invention is not subject to the restriction of following public specific embodiment.

Fig. 1 shows the structural representation of wearable device according to an embodiment of the invention.

As shown in Figure 1, wearable device 100 according to an embodiment of the invention, comprising: detecting unit 102, for detection of user's respiratory rate, body temperature and/or exothermal infrared amount; Computing unit 104, is connected to described detecting unit 102, described exothermal infrared amount is converted to described user's heat dissipation capacity, calculates the difference of described heat dissipation capacity and standard heat-emission; Converting unit 106, is connected to described detecting unit 102 and described computing unit 104, and described difference is converted to heat radiation signal, and described respiratory rate and/or described body temperature are converted to physical function signal; Transmitting element 108, is connected to described converting unit 106, for send described heat radiation signal and/or described physical function signal to outside.

By detecting user's respiratory rate, body temperature and/or exothermal infrared amount, can know accurately the health information such as user's respiratory rate, body temperature and/or body surface heat dissipation capacity, and user's health information is converted into heat radiation signal and/or physical function signal sends to outside, for the running temperature of control and regulation air-conditioner and/or monitoring wearer's health provide foundation accurately.Certainly, heat radiation signal and physical function signal can be served as wearer's health information.

Wherein, wearable device 100 can use will dispel the heat signal and/or physical function signal of the technology such as bluetooth, WIFI to send to outside, can automatically detect by one or more sensors user's respiratory rate, body temperature and/or infrared ray heat dissipation capacity, for example: serviceability temperature sensor detects body temperature, use vibrating sensor to detect respiratory rate (palmic rate), use the temperature of infrared thermometer detection wearer body surface to detect exothermal infrared amount.Certainly, one skilled in the art will appreciate that herein and be not used in concrete restriction.

Fig. 2 A to Fig. 2 B shows the concrete structure schematic diagram of wearable device according to an embodiment of the invention.

As shown in Fig. 2 A (Fig. 2 B), wearable device 100 according to an embodiment of the invention, also comprise: can connect or adsorb the first component 202 and the second component 204 that connect by buckle, wherein, described detecting unit 102, described computing unit 104, described converting unit 106 and described transmitting element 108 are arranged in described first component 202 and/or second component 204, and in the time that described first component 202 and described second component 204 are connected to each other, described detecting unit 102, described computing unit 104, described converting unit 106 and described transmitting element 108 are powered.

By wearable device 100 being designed to can connect or adsorb the button shape connecting by buckle, small volume is conveniently worn and is not affected sleep on the one hand, can use on the other hand buckle connection or absorption connection as power switch, easy to use.For example: power supply unit is arranged in first component 202, described detecting unit 102, described computing unit 104, described converting unit 106 and described transmitting element 108 are arranged in second component 204, in the time that first component 202 is connected with second component 204, first component 202 is powered to second component 204 by the mode of wired connection or wireless connections, to detect wearer's health information.Wherein, Fig. 2 A is that wearable device does not connect, and Fig. 2 B is that wearable device buckle or absorption connect, and certainly, the pin of first component 202 can be through being connected with second component 204 buckles or absorption after clothing.

According to one embodiment of present invention, also comprise: timing unit 110, be connected to described detecting unit 102, be used for controlling after described detecting unit 102 is powered and carry out work taking the scheduled time as the cycle, and/or control described detecting unit 102, described computing unit 104, described converting unit 106 and described transmitting element 108 and be powered taking the scheduled time as the cycle.

By the health information taking the scheduled time as cycle detection user, compared with the real-time health information that detects user, although the real-time of health information and accuracy can decline to some extent, can significantly save power consumption.

Certainly, in the time detecting taking the scheduled time as the cycle, the real-time of user's body condition information is relevant with the length of the scheduled time with accuracy, if shorter (for example 1 minute) that the scheduled time arranges, can in ensureing real-time and accuracy, save power consumption, as preferred embodiment comparatively, can also power to wearable device 100 with the scheduled time, can save equally power consumption.

Fig. 3 shows the structural representation of air conditioner controlling device according to an embodiment of the invention.

As shown in Figure 3, air conditioner controlling device 300 according to an embodiment of the invention, comprising: receiving element 302, the heat radiation signal sending for the wearable device receiving described in above-described embodiment any one; Control module 304, is connected to described receiving element 302, and the described heat radiation signal receiving according to described receiving element 302 controls to adjust the running temperature of described air-conditioner.

According to one embodiment of present invention, described control module 304 comprises: the first processing unit 3042, is connected to described receiving element 302, for described heat radiation signal being converted to the difference of heat dissipation capacity and standard heat-emission; The first judging unit 3044, is connected to described the first processing unit 3042, for judging whether described difference is greater than the first predetermined threshold, and judges whether described difference is greater than the second predetermined threshold; Performance element 3046, be connected to described the first judging unit 3044, for in the time judging that described difference is greater than described the first predetermined threshold, reduce the running temperature of described air-conditioner, or in the time that described difference is less than or equal to described the first predetermined threshold and is greater than the second predetermined threshold, keep the running temperature of described air-conditioner, or in the time that described difference is less than or equal to described the second predetermined threshold, improve the running temperature of described air-conditioner, wherein, described the first predetermined threshold is greater than described the second predetermined threshold.

Due to the heat radiation signal heat dissipation capacity that is wearer's body and the difference of standard heat-emission, therefore, this difference can reflect the cold and hot situation (comfortable situation) of wearer's body, for example: the first predetermined threshold is 5, the second predetermined threshold is-5, in the time that this difference is greater than the first predetermined threshold, the heat dissipation capacity that shows wearer's body is greater than standard heat-emission, if cannot dissipating in time, the heat in wearer's body will feel hot, therefore, control the running temperature that reduces air-conditioner, to ensure wearer's comfort level; In the time that this difference is less than or equal to the second predetermined threshold, the heat dissipation capacity that shows wearer's body is less than standard heat-emission, and the shortage of heat in wearer's body will feel cold to maintain standard heat-emission, therefore, control the running temperature that improves air-conditioner, to ensure wearer's comfort level; Certainly, be less than or equal to the first predetermined threshold in this difference, and while being greater than the second predetermined threshold, show that now heat dissipation capacity and the standard heat-emission of user's body are comparatively approaching, therefore do not need to regulate the temperature of air-conditioner, also keep the temperature of air-conditioner.

Certainly, as another kind of embodiment, also can be judged by wearable device 100 relation of this difference and the first predetermined threshold and the second predetermined threshold, be sent to air-conditioner to generate control instruction, air-conditioner regulates running temperature according to the control instruction receiving.

According to one embodiment of present invention, the physical function signal that described receiving element 302 sends for receiving described wearable device 100, also comprise: the second processing unit 306, be connected to described receiving element 302, for described heat radiation signal being converted to the difference of described heat dissipation capacity and described standard heat-emission, and generate heat dissipation capacity difference curve, and/or described physical function signal is converted to respiratory rate figure and/or temperature curve; Output unit 308, is connected to described the second processing unit 306, for exporting described heat dissipation capacity difference curve, described respiratory rate figure and/or described temperature curve.

The heat radiation signal that wearable device 100 is sent and physical function signal are converted to heat dissipation capacity difference curve, respiratory rate figure and/or the temperature curve line output of going forward side by side, and can monitor more accurately wearer's health.For example: on the display screen of air-conditioner, show, make guardian can judge accurately old man and children's health according to heat dissipation capacity difference curve, respiratory rate figure and/or temperature curve.Certainly, as preferred embodiment comparatively, heat dissipation capacity difference curve, respiratory rate figure and/or temperature curve can be sent to the enterprising line output of computer and/or mobile phone and show, make young man in playing games or surfing the Net, still can pay close attention to old man and children's health information.

According to one embodiment of present invention, also comprise: the second judging unit 310, is connected to described the second processing unit 306, for judging whether the absolute value of described difference is greater than the 3rd predetermined threshold; Tip element 312, is connected to described the second judging unit 310, in the time that the absolute value of judging described difference is greater than described the 3rd predetermined threshold, carries out alarm.

By in the time that the absolute value of the heat dissipation capacity of wearer's body and the difference of standard heat-emission is greater than the 3rd threshold value, carry out alarm, making guardian that (for example: have a fever or kick quilt off) time can occur extremely wearer processes in time, also temperature that can manual adjustments air-conditioner, avoids because wearer feels the insensitive diseases such as cat fever that cause to the abnormal conditions of self.Certainly, the mode of prompting can be one or more, for example: sound and/or light and/or word.

Fig. 4 shows the structural representation that wearable device is connected with air conditioner controlling device according to an embodiment of the invention.

As shown in Figure 4, when wearable device is connected with air conditioner controlling device according to an embodiment of the invention, collecting unit 404 (corresponding to the detecting unit 102 in Fig. 1) gathers user 402 health information (respiratory rate, body temperature and/or exothermal infrared amount), user 402 health information is sent to analytic unit 406 (computing unit 104 in correspondence and Fig. 1), the user's 402 that analytic unit 406 collects collecting unit 404 exothermal infrared amount is converted to heat dissipation capacity, and calculate the difference of heat dissipation capacity and standard heat-emission, this difference is sent to central processing unit 408 (corresponding to the converting unit 106 in Fig. 1), this difference is converted to heat radiation signal by central processing unit 408, by user 402 respiratory rate, body temperature is converted to physical function signal, wherein, collecting unit 402 is also connected with timing module 410 (corresponding to the timing unit 110 in Fig. 1) with central controller 408, timing module 410 is controlled collecting unit 404 and gathers taking the scheduled time as the cycle user 402 health information, the heat radiation signal converting and physical function signal are sent to signal generator 410 (corresponding to the transmitting element 108 in Fig. 1) by central processing unit 408, signal generator 410 sends heat radiation signal and physical function signal to outside.

Signal generator 410 sends heat radiation signal to conditioning control unit 412 (corresponding to the control module 304 in Fig. 3), conditioning control unit 412 is according to the running temperature of heat radiation Signal Regulation air-conditioner, to ensure user 402 comfort level, signal generator 410 transmission heat radiation signals and physical function signal are to alert device 414 (corresponding to the second judging unit 310 and Tip element 312 in Fig. 3), alert device 414, in the time that user 402 heat dissipation capacity and standard heat-emission have big difference, is sent alarm.

Fig. 5 shows the schematic flow diagram of air-conditioner control method according to an embodiment of the invention.

As shown in Figure 5, air-conditioner control method according to an embodiment of the invention, comprising: step 502, receives the heat radiation signal that in above-described embodiment, the wearable device described in any one sends; Step 504, according to the described heat radiation signal receiving, controls to adjust the running temperature of described air-conditioner.

The heat radiation signal sending according to the wearable device receiving, the running temperature of control and regulation air-conditioner, realize the running temperature that regulates air-conditioner according to user's health information, make the adjusting of air-conditioner running temperature more accurate, effectively ensure user's comfort level, compared with carrying the running temperature of sleep curve or manual adjustments air-conditioner in prior art, regulate the running temperature of air-conditioner according to user's heat dissipating body signal controlling, make the running temperature of air-conditioner regulate the different different crowd of adaptation physique, improve the accuracy that air-conditioner running temperature regulates.

The heat radiation signal that wearable device is sent and physical function signal are converted to heat dissipation capacity difference curve, respiratory rate figure and/or the temperature curve line output of going forward side by side, and can monitor more accurately wearer's health.For example: on the display screen of air-conditioner, show, make guardian can judge accurately old man and children's health according to heat dissipation capacity difference curve, respiratory rate figure and/or temperature curve.Certainly, as preferred embodiment comparatively, heat dissipation capacity difference curve, respiratory rate figure and/or temperature curve can be sent to the enterprising line output of computer and/or mobile phone and show, make young man in playing games or surfing the Net, still can pay close attention to old man and children's health information.

Embodiment according to a forth aspect of the invention, has proposed a kind of air-conditioner (not shown), comprising: the air conditioner controlling device 300 as described in any one in above-described embodiment.

By add the control device 300 of air-conditioner in air-conditioner, make air-conditioner to regulate accurately running temperature according to user's health information, improve thermoregulator accuracy, ensure user's comfort level, can adapt to the different different crowd of physique simultaneously.

As shown in Figure 6, air-conditioner control method idiographic flow according to an embodiment of the invention, wearable device, taking button as example, comprising:

Step 602, the first component of button is connected with second component, opens acquisition function.

Step 604, button gathers wearer's health information, and wherein, health information comprises: respiratory rate, body temperature and/or exothermal infrared amount.

Step 606, health information is converted to health signal, is specially: exothermal infrared amount is converted to heat dissipation capacity, and the difference of calculating heat dissipation capacity and standard heat-emission generates heat radiation signal, and respiratory rate and body temperature are converted to physical function signal.

Step 608, button sends heat radiation signal to air-conditioner, the running temperature of control and regulation air-conditioner.

Step 610, judges whether the difference (heat radiation signal) of heat dissipation capacity and standard heat-emission is greater than first threshold, and this difference performs step 612 while being greater than first threshold, otherwise execution step 614.

Step 612, in the time that the difference (heat radiation signal) of heat dissipation capacity and standard heat-emission is greater than first threshold, shows that wearer feels hot, reduces the running temperature of air-conditioner.

Step 614, judges whether the difference (heat radiation signal) of heat dissipation capacity and standard heat-emission is greater than Second Threshold, and this difference performs step 616 while being greater than Second Threshold, otherwise execution step 618.

Step 616, is less than or equal to first threshold in the difference (heat radiation signal) of heat dissipation capacity and standard heat-emission, and while being greater than Second Threshold, shows that wearer feels comfortable, keeps the running temperature of air-conditioner.

Step 618, is less than or equal to Second Threshold in the difference (heat radiation signal) of heat dissipation capacity and standard heat-emission, shows that wearer feels cold, improves the running temperature of air-conditioner.

Step 620, button sends health signal to awareness apparatus (can be arranged on air-conditioner or other display equipment), to monitor wearer's health information.

Step 622, health signal is converted to health curve, shows (or renewal), wherein, heat radiation signal is converted to the heat dissipation capacity difference curve of heat dissipation capacity and standard heat-emission, and physical function signal is converted to respiratory rate figure and/or temperature curve.

Step 624, whether the difference (heat dissipation capacity difference curve) that judges heat dissipation capacity and standard heat-emission is greater than predetermined threshold value, the difference (heat dissipation capacity difference curve) of heat dissipation capacity and standard heat-emission performs step 626 while being greater than predetermined threshold value, otherwise execution step 628.

Step 626, in the time that the difference (heat dissipation capacity difference curve) of heat dissipation capacity and standard heat-emission is greater than predetermined threshold value, shows that extremely (having a fever or kicking quilt off), alarm may appear in wearer's health.

Step 628, judges whether to arrive Preset Time, gathers wearer's health information taking Preset Time as the cycle, and arrive Preset Time and perform step 604, otherwise execution step 630.

Step 630, judges whether to close button, if do not close button, performs step 628, otherwise finishes to gather wearer's health information.

More than be described with reference to the accompanying drawings technical scheme of the present invention, by technical scheme of the present invention, according to the user's who detects health information, regulate the running temperature of air-conditioner, make the temperature adjusting of air-conditioner more accurate, can adapt to the different different crowd of physique simultaneously.

The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for a person skilled in the art, the present invention can have various modifications and variations.Within the spirit and principles in the present invention all, any amendment of doing, be equal to replacement, improvement etc., within all should being included in protection scope of the present invention.

Claims

1. a wearable device, is characterized in that, comprising:

Detecting unit, for detection of user's respiratory rate, body temperature and/or exothermal infrared amount;

Computing unit, is connected to described detecting unit, described exothermal infrared amount is converted to described user's heat dissipation capacity, calculates the difference of described heat dissipation capacity and standard heat-emission;

Converting unit, is connected to described detecting unit and described computing unit, and described difference is converted to heat radiation signal, and described respiratory rate and/or described body temperature are converted to physical function signal;

Transmitting element, is connected to described converting unit, for send described heat radiation signal and/or described physical function signal to outside.

2. wearable device according to claim 1, it is characterized in that, described wearable device, also comprise: can connect or adsorb the first component and the second component that connect by buckle, wherein, described detecting unit, described computing unit, described converting unit and described transmitting element are arranged in described first component and/or second component, and in the time that described first component and described second component are connected to each other, described detecting unit, described computing unit, described converting unit and described transmitting element are powered.

3. wearable device according to claim 1 and 2, it is characterized in that, also comprise: timing unit, be connected to described detecting unit, after being used for controlling described detecting unit and being powered, carry out work taking the scheduled time as the cycle, and/or control described detecting unit, described computing unit, described converting unit and described transmitting element and be powered taking the scheduled time as the cycle.

4. an air conditioner controlling device, is characterized in that, comprising:

Receiving element, for receiving the heat radiation signal sending according to the wearable device described in claims 1 to 3 any one;

Control module, is connected to described receiving element, and the described heat radiation signal receiving according to described receiving element controls to adjust the running temperature of described air-conditioner.

5. air conditioner controlling device according to claim 4, is characterized in that, described control module comprises:

The first processing unit, is connected to described receiving element, for described heat radiation signal being converted to the difference of heat dissipation capacity and standard heat-emission;

The first judging unit, is connected to described the first processing unit, for judging whether described difference is greater than the first predetermined threshold, and judges whether described difference is greater than the second predetermined threshold;

Performance element, be connected to described the first judging unit, for in the time judging that described difference is greater than described the first predetermined threshold, reduce the running temperature of described air-conditioner, or in the time that described difference is less than or equal to described the first predetermined threshold and is greater than the second predetermined threshold, keep the running temperature of described air-conditioner, or in the time that described difference is less than or equal to described the second predetermined threshold, improve the running temperature of described air-conditioner, wherein, described the first predetermined threshold is greater than described the second predetermined threshold.

6. according to the air conditioner controlling device described in claim 4 or 5, it is characterized in that, the physical function signal that described receiving element sends for receiving described wearable device, also comprises:

The second processing unit, be connected to described receiving element, for described heat radiation signal is converted to the difference of described heat dissipation capacity and described standard heat-emission, and generate heat dissipation capacity difference curve, and/or described physical function signal is converted to respiratory rate figure and/or temperature curve;

Output unit, is connected to described the second processing unit, for exporting described heat dissipation capacity difference curve, described respiratory rate figure and/or described temperature curve.

7. air conditioner controlling device according to claim 6, is characterized in that, also comprises:

The second judging unit, is connected to described the second processing unit, for judging whether the absolute value of described difference is greater than the 3rd predetermined threshold;

Tip element, is connected to described the second judging unit, in the time that the absolute value of judging described difference is greater than described the 3rd predetermined threshold, carries out alarm.

8. an air-conditioner control method, is characterized in that, comprising:

Receive the heat radiation signal sending according to the wearable device described in any one in claims 1 to 3;

According to the described heat radiation signal receiving, control to adjust the running temperature of described air-conditioner.

9. air-conditioner control method according to claim 8, is characterized in that, the heat radiation signal receiving described in described basis, and the concrete steps that control to adjust the running temperature of described air-conditioner are:

Described heat radiation signal is converted to the difference of heat dissipation capacity and standard heat-emission;

Judge whether described difference is greater than the first predetermined threshold, and judge whether described difference is greater than the second predetermined threshold;

In the time judging that described difference is greater than described the first predetermined threshold, reduce the running temperature of described air-conditioner, or in the time that described difference is less than or equal to described the first predetermined threshold and is greater than the second predetermined threshold, keep the running temperature of described air-conditioner, or in the time that described difference is less than or equal to described the second predetermined threshold, improve the running temperature of described air-conditioner, wherein, described the first predetermined threshold is greater than described the second predetermined threshold.

10. air-conditioner control method according to claim 8 or claim 9, is characterized in that, also comprises:

Receive the physical function signal that described wearable device sends;

Described heat radiation signal is converted to the difference of described heat dissipation capacity and described standard heat-emission, and generates difference curve and/or described physical function signal is converted to respiratory rate figure and/or temperature curve;

Export described heat dissipation capacity difference curve, described respiratory rate figure and/or described temperature curve.

11. air-conditioner control methods according to claim 10, is characterized in that, also comprise:

Whether the absolute value that judges described difference is greater than the 3rd predetermined threshold;

In the time that the absolute value of judging described difference is greater than described the 3rd predetermined threshold, carry out alarm.

12. 1 kinds of air-conditioners, is characterized in that, comprising:

Air conditioner controlling device as described in any one in claim 4 to 7.