CN205644548U - Controlling means of wearing formula equipment and have its wearing formula equipment - Google Patents

Abstract

The utility model provides a controlling means of wearing formula equipment and have its wearing formula equipment, wherein, the device includes: detect user's acceleration value's a detection module, judge the first judge module of user's sleep state according to user's acceleration value, a first judge module and a detection module link to each other, set up according to user's sleep state wearing formula equipment heart rate detection cycle and/or the cycle of sending set up the module, set up the module and link to each other with first judge module. The utility model discloses controlling means can set up heart rate detection cycle and the cycle of sending according to user's acceleration value, has improved the flexibility and the accuracy of control, has improved the human -computer interaction who dresses formula equipment to make the setting of wearing formula equipment more intelligent, it is simply convenient. The utility model also discloses a mobile terminal and air conditioner.

Description

The controlling device and there is its Wearable of Wearable

Technical field

This utility model relates to electronic technology field, controlling device and having its Wearable particularly to a kind of Wearable.

Background technology

At present, along with the development of electronic intelligence technology, various Wearable emerge in an endless stream, the most various Intelligent spire lamellas, intelligent glasses, intelligent watch etc..Along with the development of various Wearable, people the most constantly propose new functions expanding demand, as detected the heart rate of user by Wearable.But, in correlation technique, the function setting of Wearable is typically all fixing, heart rate detection cycle and transmission cycle such as Wearable all pre-set, causing motility and the accuracy reducing control, control mode is the most single, and reduces man-machine interaction.

Utility model content

One of technical problem that this utility model is intended to solve in correlation technique the most to a certain extent.

To this end, first purpose of the present utility model is to propose the control method of a kind of Wearable, this control method can improve motility and the accuracy of control, and improves the man-machine interaction of Wearable.

Second purpose of the present utility model is to propose the control device of a kind of Wearable.

3rd purpose of the present utility model is to propose a kind of Wearable.

4th purpose of the present utility model is to propose a kind of mobile terminal.

5th purpose of the present utility model is to propose a kind of air-conditioner.

For reaching above-mentioned purpose, this utility model first aspect proposes the control method of a kind of Wearable, comprises the following steps: the accekeration of detection user；Accekeration according to described user judges the sleep state of described user；And heart rate detection cycle and/or the transmission cycle of Wearable are set according to the sleep state of described user.

The control method of Wearable of the present utility model, the sleep state of user is determined by the accekeration of user, thus heart rate detection cycle and the transmission cycle of Wearable are set according to sleep state, improve motility and the accuracy of control, improve the man-machine interaction of Wearable, so that the setting of Wearable is more intelligent, simple and convenient.

Wherein, the described accekeration according to described user judges that the sleep state of described user specifically includes: obtain described user quantity of motion in preset time period according to the accekeration of described user；Judge that whether described user quantity of motion in preset time period is more than the first predetermined threshold value；If greater than described first predetermined threshold value, then judge that described user is in waking state.

Further, said method also includes: judge whether described user quantity of motion in preset time period is less than the second predetermined threshold value, and described second predetermined threshold value is less than described first predetermined threshold value；If less than described second predetermined threshold value, then judge that described user is in deep sleep.

Further, the described sleep state according to described user arranges the heart rate detection cycle of Wearable and specifically includes: if described user is in waking state, then arrange described Wearable with the first heart rate detection cycle；If described user is in deep sleep, then arranging described Wearable with the second heart rate detection cycle, wherein, the described second heart rate detection cycle is less than the described first heart rate detection cycle.

Further, said method also includes: the accekeration before the Current heart rate value of acquisition user and Preset Time；Described user's state in which is judged according to the accekeration before described Current heart rate value and Preset Time；And adjust instruction according to the temperature of described user's state in which described air-conditioner of generation, and adjust the instruction described air-conditioner of control according to described temperature.

Further, said method also includes: detects the body temperature of described user, and generates the temperature adjustment instruction of described air-conditioner according to described body temperature and described user's state in which.

For reaching above-mentioned purpose, this utility model second aspect proposes the control device of a kind of Wearable, including: the first detection module of the accekeration of detection user；Accekeration according to described user judges dormant first judge module of described user, and described first judge module is connected with described first detection module；And according to the sleep state of described user arrange Wearable the heart rate detection cycle and/or send the cycle module is set, the described module that arranges is connected with described first judge module.

The control device of Wearable of the present utility model, the sleep state of user is determined by the accekeration of user, thus heart rate detection cycle and the transmission cycle of Wearable are set according to sleep state, improve motility and the accuracy of control, improve the man-machine interaction of Wearable, so that the setting of Wearable is more intelligent, simple and convenient.

Wherein, described first judge module includes: acquiring unit, obtains described user quantity of motion in preset time period for the accekeration according to described user；Judging unit, for judging whether described user quantity of motion in preset time period is more than the first predetermined threshold value, and when more than described first predetermined threshold value, it is judged that described user is in waking state.

Further, described first judge module is additionally operable to judge that whether described user quantity of motion in preset time period is less than the second predetermined threshold value, described second predetermined threshold value is less than described first predetermined threshold value, and when less than described second predetermined threshold value, it is judged that described user is in deep sleep.

Further, when described user is in waking state, the described module that arranges is additionally operable to arrange described Wearable with the first heart rate detection cycle, and when described user is in deep sleep, the described module that arranges is additionally operable to arrange described Wearable with the second heart rate detection cycle, wherein, the described second heart rate detection cycle is less than the described first heart rate detection cycle.

Further, said apparatus also includes: acquisition module, the accekeration before the Current heart rate value and Preset Time obtaining user；Second judge module, for judging described user's state in which according to the accekeration before described Current heart rate value and Preset Time；And control module, adjust instruction for generating the temperature of described air-conditioner according to described user's state in which, and control described air-conditioner according to the adjustment instruction of described temperature.

Further, said apparatus also includes: the second detection module, for detecting the body temperature of described user, and generates the temperature adjustment instruction of described air-conditioner according to described body temperature and described user's state in which.

For reaching above-mentioned purpose, this utility model third aspect proposes a kind of Wearable, including: heartbeat detection device；Control device with above-mentioned Wearable.

According to the Wearable that the utility model proposes, the sleep state of user is determined by the accekeration of user, thus heart rate detection cycle and the transmission cycle of Wearable are set according to sleep state, improve motility and the accuracy of control, improve the man-machine interaction of Wearable, so that the setting of Wearable is more intelligent, promote the experience of user.

Wherein, described heartbeat detection device includes: illuminating part, for launching the light of preset wavelength；Launch acceptance division, for receiving the described light of human body reflection, and obtain the heart rate of human body according to the light of described reflection.

It addition, described heartbeat detection device can be heart rate detection sensor.

For reaching above-mentioned purpose, this utility model fourth aspect proposes a kind of mobile terminal, and it includes the control device of above-mentioned Wearable.This mobile terminal can determine the sleep state of user by the accekeration of user, thus heart rate detection cycle and the transmission cycle of Wearable are set according to sleep state, improve motility and the accuracy of control, improve the man-machine interaction of Wearable, so that the setting of Wearable is more intelligent, promote the experience of user.

For reaching above-mentioned purpose, this utility model the 5th aspect proposes a kind of air-conditioner, and it includes the control device of above-mentioned Wearable.This air-conditioner can determine the sleep state of user by the accekeration of user, thus heart rate detection cycle and the transmission cycle of Wearable are set according to sleep state, improve motility and the accuracy of control, improve the man-machine interaction of Wearable, so that the setting of Wearable is more intelligent, promote the experience of user.

Accompanying drawing explanation

This utility model above-mentioned and/or that add aspect and advantage will be apparent from easy to understand, wherein from the following description of the accompanying drawings of embodiments:

Fig. 1 is the flow chart of the control method of the Wearable according to one embodiment of this utility model；

Fig. 2 is the structural representation controlling device of the Wearable according to one embodiment of this utility model；

Fig. 3 is the structural representation controlling device of the Wearable according to another embodiment of this utility model；And

Fig. 4 is the structural representation controlling device of the Wearable according to this utility model further embodiment.

Reference:

The control device 10 of Wearable；First detection module 100, the first judge module 200, module 300, acquisition module 400, the second judge module 500, control module 600 and the second detection module 700 are set；Acquiring unit 201, it is judged that unit 202.

Detailed description of the invention

Of the present utility model embodiment is described below in detail, and the example of described embodiment is shown in the drawings, and the most same or similar label represents same or similar element or has the element of same or like function.The embodiment described below with reference to accompanying drawing is exemplary, it is intended to be used for explaining this utility model, and it is not intended that to restriction of the present utility model.

Describe the control method of Wearable, device and the Wearable proposed according to this utility model embodiment with reference to the accompanying drawings, describe the control method of the Wearable proposed according to this utility model embodiment the most with reference to the accompanying drawings.

Fig. 1 is the flow chart of the control method of the Wearable of one embodiment of this utility model.

As it is shown in figure 1, the control method of this Wearable comprises the following steps:

Step S101, the accekeration of detection user.

Wherein, the mode of the accekeration of detection user has a variety of, and the most directly by the accekeration of acceleration transducer detection user, this utility model is also not specifically limited.

Step S102, judges the sleep state of user according to the accekeration of user.

Wherein, in an embodiment of the present utility model, judge that according to the accekeration of user the sleep state of user specifically includes: obtain user's quantity of motion in preset time period according to the accekeration of user；Judge that whether user's quantity of motion in preset time period is more than the first predetermined threshold value；If greater than the first predetermined threshold value, then judge that user is in waking state.

Further, in an embodiment of the present utility model, the control method of this utility model embodiment also includes: judge whether user's quantity of motion in preset time period is less than the second predetermined threshold value, and the second predetermined threshold value is less than the first predetermined threshold value；If less than the second predetermined threshold value, then judge that user is in deep sleep.

It should be noted that can be configured according to practical situations in the first predetermined threshold value and the second predetermined threshold value.

It is to say, after reading accekeration, the control method of the embodiment of the present invention obtains the quantity of motion of user according to accekeration, to judge that according to quantity of motion the current state of user is such as in waking state or is in sleep state.Specifically, accekeration by acceleration transducer detection user, to judge user's state in which, the quantity of motion of a period of time such as can be obtained by accekeration, user's state in which is determined with the quantity of motion by judging a period of time, when quantity of motion is less than a certain setting value, then it is believed that user is in sleep state, wherein, sleep state can include again shallow state and the deep sleep of sleeping, or during more than a certain setting value, then it is believed that user is in waking state, wherein, waking state can include again rest state and kinestate.

Step S103, arranges heart rate detection cycle and/or the transmission cycle of Wearable according to the sleep state of user.

Wherein, in an embodiment of the present utility model, the heart rate detection cycle arranging Wearable according to the sleep state of user specifically includes: if user is in waking state, then arrange Wearable with the first heart rate detection cycle；If user is in deep sleep, then arranging Wearable with the second heart rate detection cycle, wherein, the second heart rate detection cycle was less than for the first heart rate detection cycle.

It is understood that when user is in waking state, repeatedly between read cycle can be T1, such as 5-25 minute, and when user is in deep sleep, repeatedly between read cycle can be T2, the T2 length less than T1, such as 4-15 minute, it can be preferably 5-10 minute.

For example, such as when user is in waking state, heart rate detection cycle and transmission cycle be 5 minutes once, when user is in sleep state, especially deep sleep, the metabolism of people can reduce, thus cause heart rate to reduce, therefore need not frequently carry out heart rate detection and transmission, the heart rate detection cycle can be set or heart rate sends cycle or heart rate detection cycle and transmission cycle, longer relative to waking state, as heart rate detection cycle and transmission cycle be 10 minutes once, thus realize the purpose arranged according to the condition intelligent of user.

Further, in an embodiment of the present utility model, the control method of this utility model embodiment also includes: the accekeration before the Current heart rate value of acquisition user and Preset Time；User's state in which is judged according to the accekeration before Current heart rate value and Preset Time；And adjust instruction according to the temperature of user's state in which generation air-conditioner, and adjust instruction control air-conditioner according to temperature.Wherein, Preset Time can be configured according to practical situations.

Wherein, the mode of the Current heart rate value obtaining user can have a variety of, is the most directly obtained the Current heart rate value of user by heart rate induction apparatus, or by launching the light of certain wavelength to obtain the heart rate of user；The most such as by interfering light or ultrasound to measure the flow velocity of blood in blood capillary, or directly obtaining the flow velocity of blood in blood capillary by velocity of blood flow sensor, thus obtained the heart rate of user by the flow velocity of blood, the present invention is also not specifically limited.

It is understood that when sleep state switches, the heart rate value of user can be read the most in real time, such as when shallow sleep state enter deep sleep time, read；When deep sleep become shallow sleep state time, read；When the shallow state of sleeping becomes waking state, read.

That is, after reading the heart rate value of user, user's state in which can be the most accurately judged according to the Current heart rate value of user and the accekeration before certain time, wherein, obtain the motion conditions of user according to the acceleration situation in a period of time before current time, thus obtain the source of Current heart rate value.

Further, it is judged that whether Current heart rate value is more than average heart rate, if Current heart rate value is more than average heart rate, then determine whether whether accekeration is more than preset value, and if accekeration is more than preset value, then judge that user is in waking state；If Current heart rate value is less than average heart rate, then determine whether that accekeration, whether less than setting threshold value, wherein, sets threshold value less than or equal to setting value；If accekeration is less than setting threshold value, then judge that user is in deep sleep.

In embodiment of the present utility model, if user is in waking state, then generates temperature and reduce instruction.When user is in waking state, Current heart rate value can exceed average heart rate, thus need the refrigerating capacity improving air-conditioner of correspondence, therefore generate temperature and reduce instruction, as increased the running frequency of compressor or reducing indoor design temperature etc., thus improve the refrigerating capacity of air-conditioner so that the operating of air-conditioning more hommization and intellectuality, improve accuracy and comfort level that air-conditioner operational factor adjusts.

For example, when Current heart rate value is far longer than average heart rate value and accekeration more than certain value, may determine that user is in the kinestate that intensity is higher, as at indoor body-building, thus need current room temperature is greatly lowered, then generate temperature and reduce instruction, to increase substantially the refrigerating capacity of air-conditioner or the heating capacity of air-conditioner is greatly lowered；When Current heart rate value only slightly larger than average heart rate and accekeration are also greater than certain value, may determine that user is in the rest state that intensity is relatively low, as done housework, thus have only to slightly reduce current room temperature, the most also generate temperature and reduce instruction, slightly to improve the refrigerating capacity of air-conditioner or slightly to reduce the heating capacity of air-conditioner.

Further, if user is in deep sleep, then generate temperature increase instruction.When user is in deep sleep, as entered sound sleep, the metabolism amount of people can reduce, thus cause heart rate to reduce, therefore generate temperature increase instruction, as reduced the running frequency of compressor or improving indoor design temperature etc., thus reduce the refrigerating capacity of air-conditioner or improve the heating capacity of air-conditioner, to coordinate the comfortableness of user so that the operating of air-conditioning more hommization and intellectuality, improve accuracy and comfort level that air-conditioner operational factor adjusts.It should be noted that when user be in shallow sleep state time, the current operating conditions of air-conditioner can be maintained, it is also possible to make to control further, repeat the most in detail at this.

For example, when Current heart rate value is far smaller than average heart rate value and accekeration less than certain value, may determine that user is in deep sleep, thus need significantly to raise current room temperature, then generate temperature and reduce instruction, the refrigerating capacity of air-conditioner is greatly lowered or improves the heating capacity of air-conditioner；When Current heart rate value is slightly lower than average heart rate value and accekeration is also less than certain value, may determine that user is in and shallow sleep state, thus have only to big slightly elevated current room temperature, the most also generate temperature and reduce instruction, slightly to reduce the refrigerating capacity of air-conditioner or to improve the heating capacity of air-conditioner.

Further, in an embodiment of the present utility model, the control method of this utility model embodiment also includes: the body temperature of detection user, and generates the temperature adjustment instruction of air-conditioner according to body temperature and user's state in which.

It is understood that the mode of the body temperature of detection user has a variety of, such as, by being close to the temperature sensor of user's skin surface or using ultrared apparatus for testing body temperature, this utility model is also not specifically limited.

And then, this utility model embodiment can improve, by the body temperature of detection user, the degree of accuracy controlled.For example, assume that user is in deep sleep, can go off to dreamland when sound sleep, if user enters bad dream, then the changes in heart rate of human body is more violent, Current heart rate value is caused to rise, and body temperature is not when having corresponding variable quantity, the setting change of indoor temperature can be the fastest, can be the most delayed, if heart rate quickly restores calm, the most also recover original control form, if heart rate rises very fast and continues, and accekeration is the biggest, then can control indoor temperature and set change soon, and then make operating more hommization and the intellectuality of air-conditioning.

In a specific embodiment of the present utility model, such as user is in waking state, then body temperature can raise, and Current heart rate value raises, and then beyond average heart rate, then need cooling operation, thus generate temperature and reduce instruction, to control the refrigerating capacity of air-conditioner raising air-conditioner；The most such as user is in and shallow sleeps state or deep sleep, especially into deep sleep, the metabolism amount of people can reduce, body temperature can reduce, and heart rate reduces, and then less than average heart rate, then need to improve indoor design temperature, thus generate temperature increase instruction, to control the refrigerating capacity of air-conditioner reduction air-conditioner or to improve the heating capacity of air-conditioner, promote the experience of user.

The control method of the Wearable according to this utility model embodiment, the sleep state of user is determined by the accekeration of user, thus heart rate detection cycle and the transmission cycle of Wearable are set according to sleep state, improve motility and the accuracy of control, improve the man-machine interaction of Wearable, so that the setting of Wearable is more intelligent, and according to heart rate value, air-conditioner can be controlled, make operating more hommization and the intellectuality of air-conditioning, improve accuracy and comfort level that air-conditioner operational factor adjusts, and then make the performance of air-conditioning more comfortable, more energy-conservation, promote the experience of user.

The control device of the Wearable proposed according to this utility model embodiment is described referring next to accompanying drawing.

Fig. 2 is the structural representation controlling device of the Wearable of one embodiment of this utility model.

As in figure 2 it is shown, the control device 10 of this Wearable includes: first detection module the 100, first judge module 200 and arrange module 300.

Wherein, first detection module 100 is for detecting the accekeration of user.First judge module 200 is connected 100 with first detection module, and the first judge module 200 for judging the sleep state of user according to the accekeration of user.Arrange module 300 to be connected with the first judge module 200, module 300 is set for arranging heart rate detection cycle and/or the transmission cycle of Wearable according to the sleep state of user.The control device 10 of this utility model embodiment can arrange heart rate detection cycle and transmission cycle according to the accekeration of user, improve motility and the accuracy of control, improve the man-machine interaction of Wearable, so that the setting of Wearable is more intelligent.

In embodiment of the present utility model, the mode of the accekeration of detection user has a variety of, and such as first detection module 100 can be acceleration transducer, directly by the accekeration of acceleration transducer detection user.

Alternatively, in an embodiment of the present utility model, with reference to shown in Fig. 3, the first judge module 200 includes: 201 judging units 202 of acquiring unit.

Wherein, acquiring unit 201 obtains user's quantity of motion in preset time period for the accekeration according to user.Judging unit 202 is used for judging whether user's quantity of motion in preset time period is more than the first predetermined threshold value, and when more than the first predetermined threshold value, it is judged that user is in waking state.

Further, in an embodiment of the present utility model, first judge module 200 is additionally operable to judge that whether user's quantity of motion in preset time period is less than the second predetermined threshold value, second predetermined threshold value is less than the first predetermined threshold value, and when less than the second predetermined threshold value, it is judged that user is in deep sleep.

It is to say, after reading accekeration, the control method of the embodiment of the present invention obtains the quantity of motion of user according to accekeration, to judge that according to quantity of motion the current state of user is such as in waking state or is in sleep state.Specifically, accekeration by acceleration transducer detection user, to judge user's state in which, the quantity of motion of a period of time such as can be obtained by accekeration, user's state in which is determined with the quantity of motion by judging a period of time, when quantity of motion is less than a certain setting value, then it is believed that user is in sleep state, wherein, sleep state can include again shallow state and the deep sleep of sleeping, or during more than a certain setting value, then it is believed that user is in waking state, wherein, waking state can include again rest state and kinestate.

It is to say, after reading accekeration, according to accekeration, the control device 10 of this utility model embodiment can judge that the current state of user is such as in waking state or is in deep sleep.Specifically, acceleration transducer judges whether user enters sound sleep, can be by judging the quantity of motion of a period of time, when quantity of motion is less than setting value, think that user is in sleep state, deep sleep, or during more than setting value, it is believed that user is in waking state.

Wherein, in an embodiment of the present utility model, when user is in waking state, arrange module 300 to be additionally operable to arrange Wearable with the first heart rate detection cycle, and when user is in deep sleep, arranging module 300 to be additionally operable to arrange Wearable with the second heart rate detection cycle, wherein, the second heart rate detection cycle was less than for the first heart rate detection cycle.

It is understood that when user is in waking state, repeatedly between read cycle can be T1, such as 5-25 minute, and when user is in deep sleep, repeatedly between read cycle can be T2, the T2 length less than T1, such as 4-15 minute, it can be preferably 5-10 minute.

For example, such as when user is in waking state, heart rate detection cycle and transmission cycle be 5 minutes once, when user is in sleep state, especially deep sleep, the metabolism of people can reduce, thus cause heart rate to reduce, therefore need not frequently carry out heart rate detection and transmission, the heart rate detection cycle can be set or heart rate sends cycle or heart rate detection cycle and transmission cycle, longer relative to waking state, as heart rate detection cycle and transmission cycle be 10 minutes once, thus realize the purpose arranged according to the condition intelligent of user.

It addition, in an embodiment of the present utility model, as shown in Figure 4, the device of this utility model embodiment also includes: acquisition module 400, the second judge module 500 and control module 600.

Wherein, the acquisition module 400 accekeration before the Current heart rate value and Preset Time obtaining user.Second judge module 500 is for judging user's state in which according to the accekeration before Current heart rate value and Preset Time.Control module 600 adjusts instruction for the temperature generating air-conditioner according to user's state in which, and controls air-conditioner according to temperature adjustment instruction.

Wherein, the mode of the Current heart rate value obtaining user can have a variety of, is the most directly obtained the Current heart rate value of user by heart rate induction apparatus, or by launching the light of certain wavelength to obtain the heart rate of user；The most such as by interfering light or ultrasound to measure the flow velocity of blood in blood capillary, or directly obtaining the flow velocity of blood in blood capillary by velocity of blood flow sensor, thus obtained the heart rate of user by the flow velocity of blood, the present invention is also not specifically limited.

It is understood that when sleep state switches, the heart rate value of user can be read the most in real time, such as when shallow sleep state enter deep sleep time, read；When deep sleep become shallow sleep state time, read；When the shallow state of sleeping becomes waking state, read.After reading the heart rate value of user, user's state in which can be determined whether according to the Current heart rate value of user and the accekeration before certain time.

Further, in an embodiment of the present utility model, as shown in Figure 4, the control device 10 of this utility model embodiment also includes: the second detection module 700.Second detection module 700 is for detecting the body temperature of user, and generates the temperature adjustment instruction of air-conditioner according to body temperature and user's state in which.

For example, user is in waking state, then body temperature can raise, and Current heart rate value raises, and then exceeds average heart rate, then needing cooling operation, thus generating temperature and reduce instruction, to control the refrigerating capacity of air-conditioner raising air-conditioner；The most such as user is in and shallow sleeps state or deep sleep, especially into deep sleep, the metabolism amount of people can reduce, body temperature can reduce, and heart rate reduces, and then less than average heart rate, then need to improve indoor design temperature, thus generate temperature increase instruction, to control the refrigerating capacity of air-conditioner reduction air-conditioner or to improve the heating capacity of air-conditioner, promote the experience of user.

It should be noted that the aforementioned explanation to the control method embodiment of Wearable is also applied for the control device of the Wearable of this embodiment, here is omitted.

Control device according to the Wearable that this utility model embodiment proposes, the sleep state of user is determined by the accekeration of user, thus heart rate detection cycle and the transmission cycle of Wearable are set according to sleep state, improve motility and the accuracy of control, improve the man-machine interaction of Wearable, so that the setting of Wearable is more intelligent, and according to heart rate value, air-conditioner can be controlled, make operating more hommization and the intellectuality of air-conditioning, improve accuracy and comfort level that air-conditioner operational factor adjusts, and then make the performance of air-conditioning more comfortable, more energy-conservation, promote the experience of user.

This utility model embodiment also proposed a kind of Wearable, and this Wearable includes the control device of the Wearable of heartbeat detection device and above-described embodiment proposition.

In embodiment of the present utility model, Wearable can be bracelet, watch etc..

Further, in an embodiment of the present utility model, heartbeat detection device includes: illuminating part and transmitting acceptance division.Wherein, illuminating part is for launching the light of preset wavelength.Launch acceptance division and be used for receiving the light of human body reflection, and obtain the heart rate of human body according to the light of reflection.It should be noted that preset wavelength can be configured according to practical situations.

In another embodiment of the present utility model, heartbeat detection device can be heart rate detection sensor.

The Wearable proposed according to this utility model embodiment, the sleep state of user is determined by the accekeration of user, thus heart rate detection cycle and the transmission cycle of Wearable are set according to sleep state, improve motility and the accuracy of control, improve the man-machine interaction of Wearable, so that the setting of Wearable is more intelligent, and according to heart rate value, air-conditioner can be controlled, make operating more hommization and the intellectuality of air-conditioning, improve accuracy and comfort level that air-conditioner operational factor adjusts, and then make the performance of air-conditioning more comfortable, more energy-conservation, promote the experience of user.

Additionally, this utility model embodiment also proposed a kind of mobile terminal, this mobile terminal includes the control device of the Wearable that above-described embodiment proposes.This mobile terminal can determine the sleep state of user by the accekeration of user, thus heart rate detection cycle and the transmission cycle of Wearable are set according to sleep state, improve motility and the accuracy of control, improve the man-machine interaction of Wearable, so that the setting of Wearable is more intelligent, and according to heart rate value, air-conditioner can be controlled, make operating more hommization and the intellectuality of air-conditioning, improve accuracy and comfort level that air-conditioner operational factor adjusts, and then make the performance of air-conditioning more comfortable, more energy-conservation, promote the experience of user.

And, this utility model embodiment also proposed a kind of air-conditioner, and this air-conditioner includes the control device of the Wearable that above-described embodiment proposes.This air-conditioner can determine the sleep state of user by the accekeration of user, thus heart rate detection cycle and the transmission cycle of Wearable are set according to sleep state, improve motility and the accuracy of control, improve the man-machine interaction of Wearable, so that the setting of Wearable is more intelligent, and according to heart rate value, air-conditioner can be controlled, make operating more hommization and the intellectuality of air-conditioning, improve accuracy and comfort level that air-conditioner operational factor adjusts, and then make the performance of air-conditioning more comfortable, more energy-conservation, promote the experience of user.

In description of the present utility model, it will be appreciated that, term " " center ", " longitudinally ", " laterally ", " length ", " width ", " thickness ", on " ", D score, " front ", " afterwards ", " left ", " right ", " vertically ", " level ", " push up ", " end " " interior ", " outward ", " clockwise ", " counterclockwise ", " axially ", " radially ", orientation or the position relationship of the instruction such as " circumferential " are based on orientation shown in the drawings or position relationship, it is for only for ease of description this utility model and simplifies description, rather than indicate or imply that the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore it is not intended that to restriction of the present utility model.

Additionally, term " first ", " second " are only used for describing purpose, and it is not intended that instruction or hint relative importance or the implicit quantity indicating indicated technical characteristic.Thus, define " first ", the feature of " second " can express or implicitly include at least one this feature.In description of the present utility model, " multiple " are meant that at least two, such as two, three etc., unless otherwise expressly limited specifically.

In this utility model, unless otherwise clearly defined and limited, term " is installed ", " being connected ", " connection ", the term such as " fixing " should be interpreted broadly, and connects for example, it may be fixing, it is also possible to be to removably connect, or integral；Can be to be mechanically connected, it is also possible to be electrical connection；Can be to be joined directly together, it is also possible to be indirectly connected to by intermediary, can be connection or the interaction relationship of two elements of two element internals, unless otherwise clear and definite restriction.For the ordinary skill in the art, above-mentioned term concrete meaning in this utility model can be understood as the case may be.

In this utility model, unless otherwise clearly defined and limited, fisrt feature second feature " on " or D score can be that the first and second features directly contact, or the first and second features are by intermediary mediate contact.And, fisrt feature second feature " on ", " top " and " above " but fisrt feature directly over second feature or oblique upper, or be merely representative of fisrt feature level height higher than second feature.Fisrt feature second feature " under ", " lower section " and " below " can be fisrt feature immediately below second feature or obliquely downward, or be merely representative of fisrt feature level height less than second feature.

In the description of this specification, the description of reference term " embodiment ", " some embodiments ", " example ", " concrete example " or " some examples " etc. means that the specific features, structure, material or the feature that combine this embodiment or example description are contained at least one embodiment of the present utility model or example.In this manual, the schematic representation of above-mentioned term is necessarily directed to identical embodiment or example.And, the specific features of description, structure, material or feature can be to combine in one or more embodiments in office or example in an appropriate manner.Additionally, in the case of the most conflicting, the feature of the different embodiments described in this specification or example and different embodiment or example can be combined and combine by those skilled in the art.

Although above it has been shown and described that embodiment of the present utility model, it is understandable that, above-described embodiment is exemplary, it is not intended that to restriction of the present utility model, above-described embodiment can be changed in the range of this utility model, revises, replace and modification by those of ordinary skill in the art.

Claims (11)

1. the control device of a Wearable, it is characterised in that including:

The first detection module of the accekeration of detection user；

Accekeration according to described user judges dormant first judge module of described user, and described first judge module is connected with described first detection module；And

Sleep state according to described user arrange Wearable the heart rate detection cycle and/or send the cycle module is set, the described module that arranges is connected with described first judge module.

2. the control device of Wearable as claimed in claim 1, it is characterised in that described first judge module includes:

Acquiring unit, obtains described user quantity of motion in preset time period for the accekeration according to described user；

Judging unit, for judging whether described user quantity of motion in preset time period is more than the first predetermined threshold value, and when more than described first predetermined threshold value, it is judged that described user is in waking state.

3. the control device of Wearable as claimed in claim 2, it is characterized in that, described first judge module is additionally operable to judge that whether described user quantity of motion in preset time period is less than the second predetermined threshold value, described second predetermined threshold value is less than described first predetermined threshold value, and when less than described second predetermined threshold value, it is judged that described user is in deep sleep.

4. the control device of Wearable as claimed in claim 3, it is characterized in that, when described user is in waking state, the described module that arranges is additionally operable to arrange described Wearable with the first heart rate detection cycle, and when described user is in deep sleep, the described module that arranges is additionally operable to arrange described Wearable with the second heart rate detection cycle, and wherein, the described second heart rate detection cycle is less than the described first heart rate detection cycle.

5. the control device of Wearable as claimed in claim 1, it is characterised in that also include:

Acquisition module, the accekeration before the Current heart rate value and Preset Time obtaining user；

Second judge module, for judging described user's state in which according to the accekeration before described Current heart rate value and Preset Time；And

Control module, adjusts instruction for generating the temperature of air-conditioner according to described user's state in which, and controls described air-conditioner according to the adjustment instruction of described temperature.

6. the control device of Wearable as claimed in claim 5, it is characterised in that also include:

Second detection module, for detecting the body temperature of described user, and generates the temperature adjustment instruction of described air-conditioner according to described body temperature and described user's state in which.

7. a Wearable, it is characterised in that including:

Heartbeat detection device；With

The control device of the Wearable as described in any one of claim 1-6.

8. Wearable as claimed in claim 7, it is characterised in that described heartbeat detection device includes:

Illuminating part, for launching the light of preset wavelength；

Launch acceptance division, for receiving the described light of human body reflection, and obtain the heart rate of human body according to the light of described reflection.

9. Wearable as claimed in claim 7, it is characterised in that described heartbeat detection device is heart rate detection sensor.

10. a mobile terminal, it is characterised in that including: the control device of the Wearable as described in any one of claim 1-6.

11. 1 kinds of air-conditioners, it is characterised in that including: the control device of the Wearable as described in any one of claim 1-6.