CN104423429A - Wearable mobile terminal - Google Patents

Abstract

The invention discloses a wearable mobile terminal. The wearable mobile terminal comprises a main device, a display device and a second power supply module, wherein the main device and the display device are independent from each other; the second power supply module is connected with the main device; a first fixing part is arranged on the display device, wherein the display device comprises a touch screen, and a first power supply module which supplies power to the touch screen; a second fixing part is arranged on the main device, wherein the main device comprises a microprocessor for processing data, and a first data transmission module for sending the processed data to the touch screen; the second power supply module supplies power to the microprocessor and the first data transmission module. According to the wearable mobile terminal, the main device and the display device are independent from each other, the second power supply module is connected with the main device, so that a user can wear the main device and the second power supply module at the same part on the body and wear the main device and the display device at different parts when using the wearable mobile terminal, and as a result, the weight in wearing is reduced.

Description

A kind of Wearable mobile terminal

Technical field

The application relates to mobile device technical field, particularly relates to a kind of Wearable mobile terminal.

Background technology

Application wearable technology carries out intelligentized design to daily wearing, develops the equipment that can dress and be called " Wearable mobile terminal ", as glasses and various multi-function watch.Wearable technology all receives much concern in international computer academia and industry member always, and only because cost is high and technical sophistication, a lot of Wearable mobile terminal only rests on concept domains.

Along with the release etc. of the development of mobile Internet, technical progress and high-performance low-power-consumption process chip, part Wearable mobile terminal moves towards commercialization from generalities, and Wearable mobile terminal constantly spreads out of, as Google's glasses.The inside of Google's glasses is provided with a minisize pick-up head, and it further provided with wear-type display system, can by the small screen above data projection to user's right eye, and battery is also in implanted spectacle frame.

But by the research to existing Wearable mobile terminal, inventor finds, no matter be that spectacle dresses mobile terminal or wrist type wears mobile terminal, all there is weight sensitive problem.

Summary of the invention

In view of this, the embodiment of the present application provides a kind of Wearable mobile terminal, to solve the weight sensitive problem of existing Wearable mobile terminal.

To achieve these goals, the technical scheme that provides of the embodiment of the present application is as follows:

A kind of Wearable mobile terminal, comprising: main body device, display device and the second supply module be connected with described main body device, wherein, described main body device and described display device are separate two parts;

Described display device is provided with the first fixture, and described display device comprises touch-screen and the first supply module, described first supply module is used for powering for described touch-screen;

Described main body device is provided with the second fixture, and described main body device comprises microprocessor and first data transmission module; Described microprocessor is for the treatment of data, and described first data transmission module is for being sent to described touch-screen by the data after process;

Described second supply module is used for for described microprocessor and described first data transmission module for power supply.

Preferably, described main body device also comprises: bluetooth module;

Described Wearable mobile terminal also comprises: the bluetooth earphone communicated with described bluetooth module.

Preferably, described main body device also comprises: 2G wireless module and/or 3G wireless module.

Preferably, described main body device also comprises: for gathering the first sensor of electrical quantity corresponding to user's physiology physical sign parameters of wearing described Wearable mobile terminal, and the second sensor of the first kinematic parameter during for gathering the user movement wearing described Wearable mobile terminal;

Described microprocessor is used for described electrical quantity being converted to the user's physiology physical sign parameters wearing described Wearable mobile terminal, and for described first kinematic parameter being converted to the second kinematic parameter during the user movement wearing described Wearable mobile terminal.

Preferably, described user's physiology physical sign parameters comprises: at least one parameter in blood pressure, blood sugar, body temperature and heart rate;

Described first kinematic parameter comprises: acceleration of motion or movement locus;

Described second kinematic parameter comprises: at least one parameter in run duration, motion step number, movement velocity and energy ezpenditure.

Preferably, described first data transmission module is further used for described user's physiology physical sign parameters, described first kinematic parameter and described second kinematic parameter to be sent to remote monitoring center.

Preferably, described display device also comprises:

Data acquisition module and the second data transmission module; Wherein said second data transmission module is used for the data that described data acquisition module obtains to be sent in the microprocessor of described main body device.

Preferably, described data acquisition module comprises:

For gathering the 3rd sensor of electrical quantity corresponding to user's physiology physical sign parameters of wearing described Wearable mobile terminal, and the four-sensor of the 3rd kinematic parameter during for gathering the user movement wearing described Wearable mobile terminal;

Described microprocessor is used for described electrical quantity being converted to the user's physiology physical sign parameters wearing described Wearable mobile terminal, and for described 3rd kinematic parameter being converted to the 4th kinematic parameter during the user movement wearing described Wearable mobile terminal.

Preferably, described user's physiology physical sign parameters comprises: at least one parameter in blood pressure, blood sugar, body temperature and heart rate;

Described 3rd kinematic parameter comprises: acceleration of motion or movement locus;

Described 4th kinematic parameter comprises: at least one parameter in run duration, motion step number, movement velocity and energy ezpenditure.

Preferably, described first data module and described second data module comprise: BT module, WIFI module and/or UWB module.

Preferably,

If described display device is worn on arm, then described first fixture is rollable arc or wrist strap;

If described display device is as eyeglasses-wearing on eyes, then described first fixture is leg of spectacles.

Preferably,

If described main body device is worn on the footwear of user, then described second fixture is hasp and/or multiple fixing subsides;

If described main body device is worn on ankle, then described second fixture is rollable arc or wrist strap.

Preferably, described first supply module is used for outside energy to be converted to electric energy, and wherein said outside energy comprises energy or the wind energy of beat pulse generation.

Preferably, described first supply module comprises the solar cell be arranged in described touch-screen.

Preferably, described second supply module for adopting the mode of pressure-driven or vibratory drive, by electrostatic field, electromagnetic field or utilize piezoelectric generating electric energy.

Preferably, described second supply module is further used for Wind resource change is electric energy.

Preferably, described second supply module is directly connected with described main body device;

Or described second supply module is connected with described main body device by USB data line.

Preferably, described touch-screen is flexible touch screen.

The technical scheme provided from above the embodiment of the present application, the data after process, after process data, are sent to the touch screen display in display device by the microprocessor in main body device by first data transmission module.Due to two parts that main body device and display device are separate, second supply module is connected with main body device, so user is when using Wearable mobile terminal, can main body device and the second supply module be worn on the same position of user's body, and main body device and display device are worn on respectively the different parts of user's body, reduce the weight worn, thus solve the weight sensitive problem that in existing Wearable mobile terminal, main body device and display device integration cause.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present application or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, the accompanying drawing that the following describes is only some embodiments recorded in the application, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

The structural representation of a kind of Wearable mobile terminal that Fig. 1 provides for the embodiment of the present application;

A kind of schematic shapes of display device in the Wearable mobile terminal that Fig. 2 provides for the embodiment of the present application;

The another kind of schematic shapes of display device in the Wearable mobile terminal that Fig. 3 provides for the embodiment of the present application;

Another schematic shapes of display device in the Wearable mobile terminal that Fig. 4 provides for the embodiment of the present application;

The another kind of structural representation of display device in the Wearable mobile terminal that Fig. 5 provides for the embodiment of the present application;

In the Wearable mobile terminal that Fig. 6 provides for the embodiment of the present application, the one of main body device uses schematic diagram;

In the Wearable mobile terminal that Fig. 7 provides for the embodiment of the present application, the another kind of main body device uses schematic diagram;

A kind of schematic diagram of the second supply module in the Wearable mobile terminal that Fig. 8 provides for the embodiment of the present application;

The another kind of structural representation of main body device in the Wearable mobile terminal that Fig. 9 provides for the embodiment of the present application;

Another structural representation of main body device in the Wearable mobile terminal that Figure 10 provides for the embodiment of the present application.

Embodiment

First be described the Wearable mobile terminal of the embodiment of the present application, comprise: main body device, display device and the second supply module be connected with main body device, wherein, main body device and display device are separate two parts;

Display device is provided with the first fixture, and display device comprises touch-screen and the first supply module, the first supply module is used for powering for touch-screen;

Main body device is provided with the second fixture, and main body device comprises microprocessor and first data transmission module; Microprocessor is for the treatment of data, and first data transmission module is for being sent to touch-screen by the data after process;

Second supply module is used for for microprocessor and first data transmission module for power supply.

Main body device and the second supply module, when the Wearable mobile terminal using the embodiment of the present application to provide, can be worn on the same position of user's body, and main body device and display device are worn on respectively the different parts of user's body by user.This wearing mode, relative to when main body device and display device are worn on the same position of user's body in existing Wearable mobile terminal, reduces the weight that each position is worn, thus solves existing Wearable mobile terminal weight sensitive problem.

Technical scheme in the application is understood better in order to make those skilled in the art person, below in conjunction with the accompanying drawing in the embodiment of the present application, technical scheme in the embodiment of the present application is clearly and completely described, obviously, described embodiment is only some embodiments of the present application, instead of whole embodiments.Based on the embodiment in the application, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all should belong to the scope of the application's protection.

Refer to Fig. 1, it illustrates the structural representation of a kind of Wearable mobile terminal that the embodiment of the present application provides, can comprise: main body device 1, display device 2 and the second supply module 3 be connected with main body device 1.

Wherein, main body device 1 and display device 2 are separate two parts, therefore user is when wearing the Wearable mobile terminal that the embodiment of the present application provides, and main body device 1 and display device 2 can be worn on the different parts of health, thus reduce the weight worn at each position.

Display device 2 is provided with the first fixture, and display device 2 comprises touch-screen 21 and the first supply module 22, first supply module 22 for powering for touch-screen 21.

Main body device 1 is provided with the second fixture, and main body device 1 comprises microprocessor 11 and first data transmission module 12; Microprocessor 11 is for the treatment of data, and first data transmission module 12 is for being sent to touch-screen 21 by the data after process.

Second supply module 3 is for powering for microprocessor 11 and first data transmission module 12.

Be understandable that, user is when wearing Wearable mobile terminal, and the first fixture is for being fixed on user's body by display device 2.In actual design process, display device 2 can make bracelet shape, as shown in Fig. 2 or Fig. 3.Wherein Fig. 2 is the display device 2, Fig. 3 making closed-type circular bracelet shape is the display device 2 making semiclosed bracelet shape.When display device 2 adopts the shape shown in Fig. 2 or Fig. 3, display device 2 can be worn on arm by user, then the first fixture can be that rollable arc or wrist strap are to be fixed on display device 2 on arm.And touch-screen 21 and the first supply module 22 can be fixed on the first fixture.

Certainly, display device 2 also can make shape of glasses as shown in Figure 4, and the first fixture can be leg of spectacles, to be worn on the eyes of user by display device 2.First fixture can be the leg of spectacles directly hung on ear, also can adopt other forms, and as shown in Figure 4, the temporal leg of spectacles being directly stuck in user made by the first fixture.

When display device 2 makes the shape of glasses shown in Fig. 4, touch-screen 21 is fixed between two the first fixtures, and the first supply module 22 can be embedded at least one first fixture.

Touch-screen 21, as the display interface of Wearable mobile terminal, realizes man-machine interaction.In addition in order to increase display and the touch-control area of touch-screen 21, touch-screen 21 preferred flexible touch-screen.This flexible touch screen, employs PHOLED(phosphorescence organic light-emitting device, Phosphorescent Organic Light-EmittingDevice) technology, having low-power consumption, is that a kind of material by softness is made, the flexible display device of changeable type.When using flexible touch screen, when making display device 2 as shown in Figure 2 or Figure 3, flexible touch screen can form the surface of whole display device, installs touch-screen relative to existing Wearable mobile terminal on the part surface of display device, increases display and touch-control area.

First supply module 22 is when powering for touch-screen 21, first supply module 22 can be button cell, certain first supply module 22 can also be a Blast Furnace Top Gas Recovery Turbine Unit (TRT), and for outside energy is converted to electric energy, wherein outside energy comprises energy or the wind energy of beat pulse generation.Namely, when display device 2 is worn on arm or eyes by user, the first supply module 21 can collect the energy that beat pulse produces, and is electric energy by this energy conversion.

In addition the first supply module 21 also can collect the wind energy of environment residing for user, is electric energy by Wind resource change.Such as the first supply module 21 can include leaf fan and microgenerator, and when wind blows over leaf fan, wind promotes leaf fan and rotates, and leaf fan drives microgenerator to generate electricity again, thus is electric energy by Wind resource change.

Be understandable that: the first supply module 21 also can comprise the solar cell be arranged in touch-screen 21, and sun power is converted to electric energy by this solar cell, for touch-screen 21 is powered.

It should be noted that: the embodiment of the present application provides the feasible pattern of several first supply module 21 generating electric energy, and this several feasible pattern can use simultaneously or be used alone, but the embodiment of the present application does not limit and only adopts this cited several mode.

In the embodiment of the present application, microprocessor 11 in main body device 1 can process data, wherein data can be various video data, text data and voice data etc., these data can be pre-stored in microprocessor, after microprocessor 11 processes the data prestored, be sent on touch-screen 21 by first data transmission module 12, shown by touch-screen 21.

Certainly, the data that microprocessor 11 processes can also be that display device 2 is sent in microprocessor 11.In a kind of feasible pattern of the embodiment of the present application, display device 2 also comprises data acquisition module 23 and the second data transmission module 24, as shown in Figure 5.Wherein data acquisition module 23 can comprise: camera and/or microphone, image captured by camera and video data can be sent in microprocessor 11 by the second data transmission module 24, by microprocessor 11, it is processed again, as carried out the operations such as editing to image and video.

Certainly, data acquisition module can also comprise: the 3rd sensor and four-sensor, wherein the 3rd sensor is for gathering electrical quantity corresponding to user's physiology physical sign parameters of wearing described Wearable mobile terminal, 3rd sensor can comprise flexible member, detect the deformation of this flexible member, obtain the electrical quantity corresponding to deformation, as resistance or electric capacity.

Four-sensor is for gathering the 3rd kinematic parameter during the user movement wearing described Wearable mobile terminal.3rd kinematic parameter comprises: acceleration of motion or movement locus.

Particularly: four-sensor can be acceleration transducer, the acceleration of motion of the three-dimensional produced time this acceleration transducer can respond to user movement.Certain four-sensor can also receive the movement locus that satellite location signal determines user.

Microprocessor 11 is further used for electrical quantity to be converted to the user's physiology physical sign parameters wearing Wearable mobile terminal, and for the first kinematic parameter being converted to the second kinematic parameter during the user movement wearing Wearable mobile terminal.

Wherein user's physiology physical sign parameters can comprise: at least one parameter in blood pressure, blood sugar, body temperature and heart rate.Microprocessor 11 can obtain blood pressure according to the corresponding relation between electrical quantity and blood pressure parameter, also can obtain blood sugar according to the corresponding relation between electrical quantity and glycemic parameters.Certain microprocessor 11 also can obtain heart rate according to the corresponding relation between electrical quantity and hrv parameter.Microprocessor 11, when conversion draws this user's physiological characteristic parameter of body temperature, can utilize the determination relation existed between electrical quantity and environment temperature, obtain the body temperature of user.

Second kinematic parameter comprises: at least one parameter in run duration, motion step number, movement velocity and energy ezpenditure.Microprocessor 11, after obtaining acceleration of motion, can obtain the motion step number of unit interval according to this acceleration of motion.Then obtain movement velocity and move distance by motion step number, and the user's weight that combination pre-enters extrapolates energy ezpenditure.Certain microprocessor 11 also can obtain above-mentioned second kinematic parameter according to movement locus, and the present embodiment is no longer set forth.

In a kind of feasible pattern of the embodiment of the present application, first data transmission module 12 and the second data transmission module 24 can comprise: BT(Bluetooth, bluetooth) module, WIFI(Wireless Fidelity, wireless network transmissions) module and UWB(Ultra Wideband, carrierfree communication) module.

When the data volume of transmission is in preset data weight range between main body device 1 and display device 2, between main body device 1 and display device 2, adopt BT module transfer data; When data volume exceedes preset data weight range, between main body device 1 and display device 2, adopt WIFI module or UWB module transfer data.Wherein preset data amount can be current BT module the maximum amount of data that can once transmit, certainly, the value of this preset data amount also can be set by designer, this present embodiment is not limited.

In the another kind of feasible pattern of the embodiment of the present application, first data transmission module 12 and the second data transmission module 24 also can comprise in BT module, module and UWB module any one, adopt single module transfer data.When the maximum amount of data that the data volume transmitted once is transmitted more than BT module, data gradation is transmitted.

In another feasible pattern of the embodiment of the present application, first data transmission module 12 and the second data transmission module 24 also can comprise combination in any module in BT module, module and UWB module, are no longer set forth this present embodiment.

Be understandable that: if main body device is worn on the footwear of user, then the second fixture is hasp, and main body device can be clipped on upper of a shoe by hasp by main body device, as shown in Figure 6.Second fixture also can be multiple fixing subsides, and main body device also can be pasted onto on flap by multiple note that admittedly pushes up, and figure as shown with 7.Certain second fixture can comprise hasp and fixing note simultaneously, and user can random stationary body device.

If main body device is worn on ankle, then the second fixture is rollable arc or wrist strap, and now main body device can make closed-type circular pin ring or semiclosed pin ring, and shape can consult the shape of the display device shown in Fig. 2 or Fig. 3.

In the embodiment of the present application, the second supply module 3 can be accumulator or button cell, thinks that microprocessor 21 and first data transmission module 22 are powered.

Certainly, the second supply module 3 can also adopt other modes, specifically may be used for the mode adopting pressure-driven or vibratory drive, by electrostatic field, electromagnetic field or utilize piezoelectric generating electric energy.Such as using nano wire as piezoelectric, when user movement, nano wire is bent generation current, and 1,000,000 nano wires integrate and can form nano generator, provide electric energy.Second supply module 3 also can be provided with the elastoplast pipe 31 of liquid electrode shown in Fig. 8, is placed in footwear, can generation current be also that the microprocessor 21 of main body device 1 and first data transmission module 22 are powered when user movement.

Second supply module 3 can also be provided with a coil, will greatly as electrostatic field or electromagnetic field.When user movement, the electrostatic field in coil and electromagnetic field change produce electric energy.

In addition, the second supply module 3 can also be further used for the wind energy collecting environment residing for user, is electric energy by Wind resource change.Such as the second supply module 3 can include leaf fan and microgenerator, and when wind blows over leaf fan, wind promotes leaf fan and rotates, and leaf fan drives microgenerator to generate electricity again, thus is electric energy by Wind resource change.

In the embodiment of the present application, the second supply module 3 can directly be connected with main body device 1, such as, the second supply module 3 can be integrated in main body device 1.Certain second supply module 3 can also pass through USB(Universal Serial BUS, USB (universal serial bus)) data line is connected with main body device 1, is that microprocessor 21 in main body device 1 and first data transmission module 22 are powered by USB data line.

Application technique scheme, the data after process, after process data, are sent to display on the touch-screen 21 in display device 2 by the microprocessor 11 in main body device 1 by first data transmission module 12.Because main body device 1 and display device 2 are separate two parts, second supply module 3 is connected with main body device 1, so user is when using Wearable mobile terminal, can main body device 1 and the second supply module 3 be worn on the same position of user's body, and main body device 1 and display device 2 are worn on respectively the different parts of user's body, reduce the weight worn, thus solve the weight sensitive problem that in existing Wearable mobile terminal, main body device and display device integration cause.

Refer to Fig. 9, it illustrates the another kind of structural representation of main body device in a kind of Wearable mobile terminal that the embodiment of the present application provides, on the main body device basis of the mobile terminal of Wearable shown in Fig. 1, can also comprise: bluetooth module 14, corresponding Wearable mobile terminal also comprises the bluetooth earphone communicated with bluetooth module 14, and user can be communicated with other users by bluetooth earphone.

In addition, in the main body device shown in Fig. 1 or Fig. 9, main body device can also comprise 2G(2nd-generation, second generation mobile communication technology) wireless module and/or 3G(3rd-generation, G mobile communication) wireless module, main body device 1 uses this 2G wireless module or 3G wireless module and base station to carry out data communication.

Refer to Figure 10, it illustrates the another kind of structural representation of main body device in a kind of Wearable mobile terminal that the embodiment of the present application provides, on the main body device basis of the mobile terminal of Wearable shown in Fig. 1, can also comprise: first sensor 15 and the second sensor 16.

Wherein, first sensor 15 is for gathering electrical quantity corresponding to user's physiology physical sign parameters of wearing Wearable mobile terminal.This first sensor 15 can comprise flexible member, detects the deformation of this flexible member, obtains the electrical quantity corresponding to deformation, as resistance or electric capacity.

Second sensor 16 is for gathering the first kinematic parameter during the user movement wearing Wearable mobile terminal.First kinematic parameter comprises: acceleration of motion or movement locus.

Particularly: the second sensor 16 can be the acceleration of motion of acceleration transducer, the three-dimensional produced time this acceleration transducer can respond to user movement.Certain second sensor 16 can also receive the movement locus that satellite location signal determines user.

Microprocessor 11 is further used for electrical quantity to be converted to the user's physiology physical sign parameters wearing Wearable mobile terminal, and for the first kinematic parameter being converted to the second kinematic parameter during the user movement wearing Wearable mobile terminal.

Wherein user's physiology physical sign parameters can comprise: at least one parameter in blood pressure, blood sugar, body temperature and heart rate.Microprocessor 11 can obtain blood pressure according to the corresponding relation between electrical quantity and blood pressure parameter, also can obtain blood sugar according to the corresponding relation between electrical quantity and glycemic parameters.Certain microprocessor 11 also can obtain heart rate according to the corresponding relation between electrical quantity and hrv parameter.Microprocessor 11, when conversion draws this user's physiological characteristic parameter of body temperature, can utilize the determination relation existed between electrical quantity and environment temperature, obtain the body temperature of user.

Second kinematic parameter comprises: at least one parameter in run duration, motion step number, movement velocity and energy ezpenditure.Microprocessor 11, after obtaining acceleration of motion, can obtain the motion step number of unit interval according to this acceleration of motion.Then obtain movement velocity and move distance by motion step number, and the user's weight that combination pre-enters extrapolates energy ezpenditure.Certain microprocessor 11 also can obtain above-mentioned second kinematic parameter according to movement locus, and the present embodiment is no longer set forth.

First data transmission module 12 is further used for user's physiology physical sign parameters, the first kinematic parameter and the second kinematic parameter to be sent to remote monitoring center.

In the main body device that the embodiment of the present application provides, electrical quantity can be converted to user's physiological characteristic parameter by microprocessor 11, except measuring ability also add data-handling capacity, relative to the existing Wearable mobile terminal that there is medical treatment and detect, process without the need to electrical quantity being delivered on mobile phone or computer.

In addition, the main body device shown in Figure 10 can also comprise the function that other body-building equipments existing and Medical Devices possess, and its specific implementation process is identical with the existing equipment with this function, and the present embodiment will not enumerate.Main body device shown in Figure 10 also can comprise: bluetooth module, 2G wireless module and 3G wireless module, the embodiment of the present application is no longer set forth.

In this instructions, each embodiment adopts the mode of going forward one by one to describe, and what each embodiment stressed is the difference with other embodiments, between each embodiment identical similar portion mutually see.

It should be noted that, in this article, such as " be greater than " or " exceeding " or " higher than " or " being less than " or " lower than " etc. and so on relationship description, all can be understood as " be greater than and be not equal to " or " be less than and be not equal to ", also can be understood as " being more than or equal to " or " being less than or equal to ", and not necessarily require or imply that be necessary for restriction or intrinsic a kind of situation.

In addition, in this article, the such as relational terms of " first " and " second " etc. and so on is only used for an entity or operation to separate with another entity or operational zone, and not necessarily requires or imply the relation that there is any this reality between these entities or operation or sequentially.And, in this article, term " comprises ", " comprising " or its any other variant are intended to contain comprising of nonexcludability, thus makes to comprise a series of equipment and not only comprise those key elements, but also comprises the intrinsic key element of other equipment of clearly not listing.When not more restrictions, the key element limited by statement " comprising ... ", and be not precluded within process, method, article or the equipment comprising described key element and also there is other identical element.

It should be noted that, the above is only a part of preferred embodiment of technical scheme, those skilled in the art are fully understood or realizes the application, instead of whole embodiments, General Principle as defined herein when not departing from the spirit or scope of the application, can realize in other embodiments.Therefore; based on above embodiment; for those skilled in the art; do not departing from the application's principle, under not making creative work prerequisite, multiple apparent amendment and retouching can also made; by the every other embodiment that these amendments and retouching obtain; can be applied to technical scheme, these do not affect the realization of the application, all should belong to the protection domain of the application.Therefore, the application can not be restricted to these embodiments shown in this article, but will meet the widest scope consistent with principle disclosed herein and features of novelty.

Claims (18)

1. a Wearable mobile terminal, is characterized in that, comprising: main body device, display device and the second supply module be connected with described main body device, and wherein, described main body device and described display device are separate two parts;

Described display device is provided with the first fixture, and described display device comprises touch-screen and the first supply module, described first supply module is used for powering for described touch-screen;

Described main body device is provided with the second fixture, and described main body device comprises microprocessor and first data transmission module; Described microprocessor is for the treatment of data, and described first data transmission module is for being sent to described touch-screen by the data after process;

Described second supply module is used for for described microprocessor and described first data transmission module for power supply.

2. Wearable mobile terminal according to claim 1, is characterized in that, described main body device also comprises: bluetooth module;

Described Wearable mobile terminal also comprises: the bluetooth earphone communicated with described bluetooth module.

3. Wearable mobile terminal according to claim 1, is characterized in that, described main body device also comprises: 2G wireless module and/or 3G wireless module.

4. Wearable mobile terminal according to claim 1, it is characterized in that, described main body device also comprises: for gathering the first sensor of electrical quantity corresponding to user's physiology physical sign parameters of wearing described Wearable mobile terminal, and the second sensor of the first kinematic parameter during for gathering the user movement wearing described Wearable mobile terminal;

Described microprocessor is used for described electrical quantity being converted to the user's physiology physical sign parameters wearing described Wearable mobile terminal, and for described first kinematic parameter being converted to the second kinematic parameter during the user movement wearing described Wearable mobile terminal.

5. Wearable mobile terminal according to claim 4, is characterized in that, described user's physiology physical sign parameters comprises: at least one parameter in blood pressure, blood sugar, body temperature and heart rate;

Described first kinematic parameter comprises: acceleration of motion or movement locus;

Described second kinematic parameter comprises: at least one parameter in run duration, motion step number, movement velocity and energy ezpenditure.

6. Wearable mobile terminal according to claim 5, is characterized in that, described first data transmission module is further used for described user's physiology physical sign parameters, described first kinematic parameter and described second kinematic parameter to be sent to remote monitoring center.

7. Wearable mobile terminal according to claim 1, is characterized in that, described display device also comprises:

Data acquisition module and the second data transmission module; Wherein said second data transmission module is used for the data that described data acquisition module obtains to be sent in the microprocessor of described main body device.

8. Wearable mobile terminal according to claim 7, is characterized in that, described data acquisition module comprises:

For gathering the 3rd sensor of electrical quantity corresponding to user's physiology physical sign parameters of wearing described Wearable mobile terminal, and the four-sensor of the 3rd kinematic parameter during for gathering the user movement wearing described Wearable mobile terminal;

Described microprocessor is used for described electrical quantity being converted to the user's physiology physical sign parameters wearing described Wearable mobile terminal, and for described 3rd kinematic parameter being converted to the 4th kinematic parameter during the user movement wearing described Wearable mobile terminal.

9. Wearable mobile terminal according to claim 8, is characterized in that, described user's physiology physical sign parameters comprises: at least one parameter in blood pressure, blood sugar, body temperature and heart rate;

Described 3rd kinematic parameter comprises: acceleration of motion or movement locus;

Described 4th kinematic parameter comprises: at least one parameter in run duration, motion step number, movement velocity and energy ezpenditure.

10. Wearable mobile terminal according to claim 9, is characterized in that, described first data module and described second data module comprise: BT module, WIFI module and/or UWB module.

11. Wearable mobile terminals according to claim 1 to 10 any one, is characterized in that,

If described display device is worn on arm, then described first fixture is rollable arc or wrist strap;

If described display device is as eyeglasses-wearing on eyes, then described first fixture is leg of spectacles.

12. Wearable mobile terminals according to claim 1 to 10 any one, is characterized in that,

If described main body device is worn on the footwear of user, then described second fixture is hasp and/or multiple fixing subsides;

If described main body device is worn on ankle, then described second fixture is rollable arc or wrist strap.

13. Wearable mobile terminals according to claim 1 to 10 any one, is characterized in that, described first supply module is used for outside energy to be converted to electric energy, and wherein said outside energy comprises the energy or wind energy that beat pulse produces.

14. Wearable mobile terminals according to claim 13, is characterized in that, described first supply module comprises the solar cell be arranged in described touch-screen.

15. Wearable mobile terminals according to claim 1 to 10 any one, is characterized in that, described second supply module for adopting the mode of pressure-driven or vibratory drive, by electrostatic field, electromagnetic field or utilize piezoelectric generating electric energy.

16. Wearable mobile terminals according to claim 15, is characterized in that, it is electric energy that described second supply module is further used for Wind resource change.

17. Wearable mobile terminals according to claim 16, is characterized in that, described second supply module is directly connected with described main body device;

Or described second supply module is connected with described main body device by USB data line.

18. Wearable mobile terminals according to claim 1 to 10 any one, it is characterized in that, described touch-screen is flexible touch screen.