CN204256667U - Wearable smart machine - Google Patents

Abstract

The utility model provides a kind of wearable smart machine, it comprises device Host and display, described display and device Host link together, and movable relative to device Host, display can be made to depart from or partly depart from the field range of user time movable.After adopting said structure, when user needs focus one's attention on or need sight line open, user makes display depart from by pressing, moving display or partly departs from the field range of user, do not affect sight line, when display departs from or part departs from the field range of user, the function of display can not be provided to user, also can not the notice of dispersion user, and owing to being that display is still got well and device Host links together, therefore display is also not easy to lose.

Description

Wearable smart machine

Technical field:

The utility model relates to wearable smart machine field, is specifically a kind of wearable smart machine.

Background technology:

Along with the development of science and technology, people no longer meet the mobile intelligent terminal of hand-held, as mobile phone, panel computer etc., and then develop many wearable smart machines, as intelligent watch, intelligent glasses etc.Google is proposed a Google glasses, it comprises the wide strip computer processor device be arranged on the right side of picture frame, the camera that glasses front suspends, eyeglass are equipped with a miniature display screen, can by the display above data projection to eyes of user, to realize a kind of wearable overhead intelligent terminal, it possess display, shooting, data processing and upload, the function such as download, any function of intelligent terminal can be realized in theory.

But this equipment comes because a lot of reasons fails popularization, mainly because display is positioned at the drawing axis of people all the time, this will block the sight line of people or the notice of dispersion people more or less, needing the occasion of significant attention or sight line, during as driven, having on Google's glasses and perhaps can cause dangerous generation.

Utility model content:

The technical matters that the utility model solves overcomes existing technological deficiency, provides a kind of and can not stop the sight line of people or the wearable smart machine of dispersion people notice in some occasions.

The technical scheme that the utility model provides is: the utility model provides a kind of wearable smart machine, it comprises device Host and display, described display and device Host link together, and movable relative to device Host, display can be made time movable to depart from or partly depart from the field range of user.

Described device Host is connected on a wearable support, or described display is connected on a wearable support, or described device Host and display are connected on same wearable support.

After adopting said structure, display is connected on device Host, but it is movable relative to device Host, display can be made time movable to depart from or partly depart from the field range of user, when user needs focus one's attention on or need sight line open, user is by pressing, move display display is departed from or partly departs from the field range of user, do not affect sight line, when display departs from or part departs from the field range of user, the function of display can not be provided to user, also can not the notice of dispersion user, and due to be display still good and device Host link together, therefore display is also not easy to lose.

As preferably, described wearable support is eyeglasses frame, wear-type support, supra-aural support or the helmet.The wearable support of indication refers to and may be worn on head and the arbitrary headset equipment provided support for described equipment herein, glasses are a kind of conventional headset equipments, eyeglasses frame is that the eyeglass of glasses provides support, also eyeglasses frame can be utilized in this article as the support of wearable smart machine, earphone bracket is also a kind of headset equipment, also can provide support for wearable smart machine herein, the helmet, as headset equipment, can certainly provide support for wearable smart machine herein.Theoretically, any headset equipment can provide support for wearable smart machine herein.

Described display is movable relative to device Host to be referred to, display is scalable relative to device Host, slip or bending.No matter be stretch, slide or bend, can movable display be realized, thus display is departed from or partly departs from the field range of user.

As one preferably, described display is scalable relative to device Host to be referred to, described display is connected with device Host by a stretching structure, stretching structure is when stretching out, display enters into the field range of user, stretching structure is when retracting, and display departs from or partly departs from the field range of user.Described stretching structure can be the structure that spring, fence type expansion bracket, cylinder etc. realize Telescopic, can be that electric expansion also can for manual telescopic.Stretching structure connects over the display, and during retraction, haul the drawing axis that display departs from user, i.e. the field range of user, when stretching out, display gets back to the field range of user, provides the function of display to user.

As one preferably, described display slidably refers to relative to device Host, described display is connected with device Host by slide construction, when display skids off device Host, display enters into user's field range, when display slips into device Host, display departs from or partly departs from the field range of user.Adopt this structure, display and device Host establish slide rail and slide block respectively, display and device Host are slidably connected, when display skids off, enter into user's field range, when sliding back to, display departs from or partly departs from the field range of user, and the direction of described slip can be vertical with the direction of visual lines of user, also can be provided with certain angle, even sliding trace can be camber line, as long as realize described function.

As one preferably, described display is flexible relative to device Host refers to that described display and device Host are rotationally connected, or described display is connected with device Host by elastic connection structure.Namely display is flexible relative to device Host can refer to that display and device Host are rotationally connected, and can refer to that again display is connected with device Host by flexible connecting structure, make display flexible relative to device Host by bending flexible connecting structure.

Described flexible connecting structure comprises spring, shell fragment or flexible link belt.Flexible connecting structure certainly do not limit to yet with above-mentioned mention several, but as long as self flexible structure can be called flexible connecting structure, described flexible connecting structure also comprises tool flexible connecting structure springy, one end of flexible connecting structure connects over the display, the other end is connected on device Host, namely display can be bent certain angle relative to device Host by curved dynamic flexible connecting structure, makes display leave original position, namely leaves the visual field of user.

As improvement, described device Host be also provided with at display retraction device Host or slip into device Host or can display be stopped after bending relative to device Host, prevent the first position limiting structure that display resets because of unexpected, described display is provided with the second position limiting structure coordinated with the first position limiting structure.Display provides the state of Presentation Function to be the duty of display at the drawing axis of user to user, display retraction device Host slip into device Host or relative to device Host bending or turn to and be affixed with device Host time be retracted state, described first position limiting structure and the second position limiting structure coordinate, prevent display under retracted state, depart from retracted state because of accident.

Described first position limiting structure and the second position limiting structure adopt magnetic be connected or adopt the mode clamping of buckle draw-in groove, or adopt VELCRO bonding, or adopt the mode grafting of slot plug.Employing magnet connects, and namely the first position limiting structure and the second position-limit mechanism are respectively two blocks of magnet that can attract each other, or one of them is magnet, and another is can by the object of attraction.When display retraction device Host, sorption display, prevents user from causing because of carelessness resetting, makes display can keep the state of retraction device Host, only have user to apply certain power, display just can be made to reset.When display and device Host are slidably connected, also when display slides to device Host, suction can be provided, prevent display from resetting.When display connection flexible relative to device Host, when the another side that display is bent to display presses close to device Host, suction is provided, holds display, prevent display from resetting.

Adopt the mode clamping of buckle draw-in groove, on device Host and display both one of establish draw-in groove, another establishes buckle, can retract at display equally, slide back to or bending time the spacing of certain dynamics is provided, make display keep retracting, sliding back to or bending state, prevent display from resetting.

Employing VELCRO is bonding, the one side of same display is provided with VELCRO public access face, the one side of device Host is provided with the female junction of VELCRO, display is connected on device Host by VELCRO, display retract, slide back to or bending time the spacing of certain dynamics is provided, make display keep retracting, sliding back to or bending state, prevent display from resetting, namely depart from retracted state.

Adopt slot be connected with the mode of plug with the mode of buckle draw-in groove roughly the same, display retract, slide back to or bending time the spacing of certain dynamics is provided, make display keep retracting, sliding back to or bending state, prevent display from resetting, namely depart from retracted state.

Described display and device Host are rotationally connected and comprise, and establish rotation axis between described device Host and display, described device Host by rotation axis and described display hinged.Rotation axis can be arranged separately, also can be a part for device Host or display, adopts this common structure be rotationally connected, realizes display and be rotationally connected relative to device Host.

Described display and device Host are rotationally connected and comprise, it also comprises a turret, described turret is provided with the first rotation axis and the second rotation axis, and described device Host is rotationally connected by the first rotation axis and turret, and described display is rotationally connected by the second rotation axis and turret.Adopt this structure, can display be realized equally flexible relative to device Host, namely be rotationally connected.

The axes normal or parallel of described first rotation axis and the second rotation axis.When first rotation axis is vertical with the second rotation axis, display is vertical relative to the rotation direction of device Host with turret relative to the rotation direction of turret, display can be realized like this relative to device Host not just rotation planar, but the rotation of 3 D stereo, facilitate display to turn to suitable position and device Host is affixed.When described first rotation axis is parallel with the second rotation axis, display can planar rotate relative to device Host.

Described device Host also comprises the first interface be electrically connected with the circuit in display, described display is also provided with second interface that can be electrically connected with the circuit in device Host, described first interface and the second interface, by the rotation of display relative to device Host, are connected or are separated.Adopt this structure, when display makes display leave the user visual field relative to device Host rotation, first interface is separated with the second interface, such display is also because power down loses Presentation Function, can save the electricity consumption of display, when display rotates back into the position residing for duty, display returns to the user visual field, first interface and the second orifice, display works again.

As preferably, described first interface and the second interface, one of them comprises at least one conductive contact, another comprises at least one electroconductive elastic sheet corresponding with conductive contact position, described conductive contact is electrically connected with the circuit in device Host or display, described electroconductive elastic sheet is electrically connected with the circuit in device Host or display, and when display is connected on device Host, each electroconductive elastic sheet contacts with the conductive contact corresponding with its position and conducting.Adopt electroconductive elastic sheet and conductive contact as the electric connection mode of first interface and the second interface, only need the linkage interface of display and device Host is contacted with each other, and use shell fragment, the junction of conductive contact and electroconductive elastic sheet can be made to have certain elastic force, can not delamination or loose contact.

As preferably, described first interface and the second interface, one of them comprises the conduction groove that at least one conductive material is made, another comprises at least one conductive bumps corresponding with groove location, described conduction groove is electrically connected with the circuit in device Host or display, described conductive bumps is electrically connected with the circuit in device Host or display, and when display is connected on device Host, each conductive bumps to be embedded in the conduction groove corresponding with it and mutual conduction.Adopt this electric connection mode, not only provide the electrical connection of first interface and the second interface, but also a kind of locator meams is provided, when conductive bumps is embedded in conduction groove, can provide the resistance of certain side direction, prompting user slides into correct position, prevents user partially sliding.

As improvement, when display and device Host are by slide or flexible or when being connected by elastic connection structure, display and device Host are electrically connected by connecting line.Adopt this structure, if when needing electrical connection between display and device Host, directly can make the circuit in display and the electrical connection of the circuit in device Host by connecting line, connecting line is soft, therefore can not affect the slip between display and device Host, flexible or by spring, shell fragment or have flexible rubber strip and connect.

As improvement, described device Host is clipped on wearable support by clamping device.Described clamping device can be hook, clip etc. and device Host can be made to be clamped on eyeglasses frame or wear-type support and stablize motionless any clamping device.

Described display be provided with can with the first wireless transport module of device Host or third party device wireless connections.

Described device Host be provided with can with the second wireless transport module of display or third party device wireless connections.After adopting aforesaid way, display can by wirelessly transmitting data between the first wireless transport module and device Host or third party device, described device Host also can by wirelessly transmitting data between the second wireless transport module and display or third party device, and described first wireless transport module and the second wireless transport module can adopt WIFI module or the wireless transport module such as bluetooth or wireless radio frequency modules.

Described display is connected with described device Host optics.

Described device Host is connected with described display optics by photoconduction prism, or described device Host is docked by light path with described display.Described display can be connected by optics with device Host and to receive display, and if display is projection-type display screen, so display projects on projection-type display screen by projection or photoconduction prism by device Host.

Accompanying drawing illustrates:

Accompanying drawing 1 is the structural representation of the wearable smart machine of the utility model;

Accompanying drawing 2 is the structural representation of device Host;

Accompanying drawing 3 is the structural representation of display;

Accompanying drawing 4 is the structural representation of one of embodiment;

Accompanying drawing 5 is the structural representation of embodiment two;

Accompanying drawing 6 is the structural representation after two displays of embodiment bend;

Accompanying drawing 7 is the structural representation of embodiment three;

Accompanying drawing 8 is the structural representation that the display of embodiment three slides back to device Host;

Accompanying drawing 9 is the structural representation of embodiment four;

Accompanying drawing 10 is the structural representation of embodiment five;

Accompanying drawing 11 is the structural representation of embodiment six.

As shown in the figure: 100, eyeglasses frame, 200, device Host, 300. display, 210, power supply, 220, central processing unit, 230, storer, 240, display interface device module, 310, display screen, 320, driver module, 331, grab, 251, draw-in groove, 252, first magnetic devices, 332, second magnetic devices, 253, chute, 333, slide block, 400, wear-type support, 500, turret, 510 first rotation axiss, 520, second rotation axis, 600, telescoping mechanism, 700, flexible link belt, 340, projection screen, 270 projectoscope projection mouths.

Embodiment:

Below in conjunction with the drawings and specific embodiments, the utility model is elaborated:

As Figure 1-Figure 11, the utility model provides wearable smart machine, it comprises device Host 200 and display 300, described display 300 links together with device Host 200, and movable relative to device Host 200, display 300 can be made to depart from time movable or part departs from the field range of user.Display 300 is movable with device Host 200, when display 300 is movable, can be located at the front, the visual field of user, also can depart from or partly depart from the field range of user.

Described display 300 can have polytype, if display packing adopts conventional electronical display LCD screen, then display can refer to electronical display LCD screen, if display packing projects glass screen with certain refractive index by laser projection device, reflex in eyes of user, then display both can refer to whole display equipment, described glass screen can be referred to again, if display packing directly to be projected on eyes of user retina by image by devices such as optical fiber to show, then described display refers to this image projection apparatus.Namely be no matter the display packing of which kind of type, as long as after being separated with device Host, in user's sight line, would not all can be described as the display described by the application by exhibitive equipment.

Described wearable support can be eyeglasses frame, wear-type support or the helmet.The described support hung on ear also belongs to the wear-type support described in the application.What describe in Fig. 1 is that described in eyeglasses frame 100, Figure 11, wearable support is wear-type support 400, and the similar ear frame of wear-type support, is worn on the head or hangs on ear.

Power supply 210, central processing unit 220 is generally comprised in device Host 200; storer 230; display interface device module 240; these devices and module are all located in device Host; the function of main frame is provided, also can comprises other module in certain device Host, as wireless transport module, usb interface module etc.; but as long as device Host 200 device of data processing function is provided, all belong to the application's protection domain.Generally comprise in display 300, display screen 310, driver module 320 etc.; also driver module 320 can not be comprised; display has polytype display, as the various ways such as LCD screen, projection screen, but as long as rise display function then all within the application's protection domain.

Device Host 200 and display 300 directly pass through electrical signal for transmission picture signal by wireless or connecting line transmission of electric signals, certain device Host 200 also can carry out image signal transmission with display 300 by light signal, and so device Host is connected by light path with display.

Described display 300 is movable relative to device Host 200 to be referred to, display 300 is scalable relative to device Host 200, slip or bending.

One of embodiment:

As shown in Figure 4, display 300 is connected with device Host 200 by telescoping mechanism 600, in the present embodiment, telescoping mechanism is spring, but telescoping mechanism also can be cylinder, fence type expansion bracket etc. has the structure of Telescopic, the telescoping mechanism described in the application should be, device Host 200 described in the present embodiment is also provided with after display 300 retracts device Host 200, display 300 can be stopped, prevent display 300 because of unexpected the first position limiting structure departing from retracted state, described display 300 is provided with the second position limiting structure coordinated with the first position limiting structure.In the present embodiment, display 300 establishes grab 331, device Host is established draw-in groove 251, under the state that display 300 is retracted, grab is stuck on draw-in groove, prevents display from resetting, and when user needs to reset, only needs grab to depart from draw-in groove.In the present embodiment; described display be also provided with in running order under; namely display is in user's field range; when providing Presentation Function to user; for the position limiting structure preventing display from loosening; as adopted the form of postive stop baffle, adopt the form etc. of slot and jack, as long as the position limiting structure preventing display from loosening under display is in duty then all should within the application's protection domain.

Embodiment two:

As shown in Figure 5, Figure 6, display 300 is connected with device Host by a flexible link belt, described flexible link belt can be rubber strip, silicone band or strap etc., device Host 200 is also provided with the first magnetic devices 252, display 300 is provided with the second magnetic devices 332, when display bends rotation 270 degree to the another side of device Host, display by first time property device and the second magnetic devices be adsorbed on device Host, described absorption affinity arrive greatly can not due to accident the first magnetic devices is separated with the second magnetic devices.In this syndeton, display is electrically connected by connecting line with device Host.Described display is also provided with a plug 340, described device Host is also provided with a socket 260, when display works, duty is kept for making display, then display is plugged on device Host by the cooperation of plug and slot, and stablizes motionless, prevents from departing from because of accident.

Embodiment three:

As shown in Figure 7, Figure 8, display 300 and device Host 200 are slidably connected by slide block 333 and chute 253, in the present embodiment, chute is located on device Host, and slide block is established over the display, and chute is arc chute, when display skids off, display is positioned at front, the user visual field, and when display slides back to device Host along chute, display departs from or partly departs from the field range of user.In the present embodiment, display and device Host also can be electrically connected by connecting line.

Embodiment four:

As shown in Figure 9, a turret 500 is established between display 300 and device Host 200, turret 500 is provided with two rotation axiss: the first rotation axis 510 and the second rotation axis 520, display 300 is rotationally connected with turret by the first rotation axis 510, device Host 200 is rotationally connected with turret by the second rotation axis 520, the axis of the first rotation axis and the axis being parallel of the second rotation axis in the present embodiment, display 300 and device Host 200 are rotationally connected in this embodiment, and display can do 270 degree of rotations relative to device Host.

Embodiment five:

As shown in Figure 10, display 300 and device Host 200 are rotationally connected by turret 500, turret 500 is provided with two rotation axiss: the first rotation axis 510 and the second rotation axis 520, display 300 is rotationally connected with turret by the first rotation axis 510, device Host 200 is rotationally connected with turret by the second rotation axis 520, the axis of the first rotation axis 510 and the axes normal of the second rotation axis 520 in the present embodiment, so display 300 can do three-dimensional rotation relative to device Host 200, namely can first laterally rotate, rotate upward again, thus the top of device Host 200 can be turned to.Device Host can be against.

In above-described embodiment, described device Host can be provided with at display retraction device Host or slip into device Host or can display be stopped after bending relative to device Host, prevent display from departing from the first position limiting structure of retracted state because of accident, described display is provided with the second position limiting structure coordinated with the first position limiting structure.Connect as adopted magnet or adopt the mode clamping of buckle draw-in groove, or adopting VELCRO bonding, or adopting the mode grafting of slot plug.The mode of certain above-mentioned stop display includes but not limited to above several mode, as long as stop described in its application that the structure of display all should within the application's protection domain.

Embodiment six:

As shown in figure 11, be the wearable smart machine of a wear-type support, device Host 200 is connected on wear-type support 400, and display 300 is rotatably connected on device Host by rotation axis.

In above-described embodiment one to six, the electrical connection of described display and device Host all can adopt the mode of connecting line, also can adopt the mode of device Host being established and first interface, display being established the second interface:

Described device Host also comprises the first interface be electrically connected with the circuit in display, described display is also provided with second interface that can be electrically connected with the circuit in device Host, described first interface and the second interface, by the rotation of display relative to device Host, are connected or are separated.Adopt this structure, when display makes display leave the user visual field relative to device Host rotation, first interface is separated with the second interface, such display is also because power down loses Presentation Function, can save the electricity consumption of display, when display rotates back into initial position, display returns to the user visual field, first interface and the second orifice, display works again.

As preferably, described first interface and the second interface, one of them comprises at least one conductive contact, another comprises at least one electroconductive elastic sheet corresponding with conductive contact position, described conductive contact is electrically connected with the circuit in device Host or display, described electroconductive elastic sheet is electrically connected with the circuit in device Host or display, and when display is connected on device Host, each electroconductive elastic sheet contacts with the conductive contact corresponding with its position and conducting.Adopt electroconductive elastic sheet and conductive contact as the electric connection mode of first interface and the second interface, only need the linkage interface of display and device Host is contacted with each other, and use shell fragment, the junction of conductive contact and electroconductive elastic sheet can be made to have certain elastic force, can not delamination or loose contact.

As preferably, described first interface and the second interface, one of them comprises the conduction groove that at least one conductive material is made, another comprises at least one conductive bumps corresponding with groove location, described conduction groove is electrically connected with the circuit in device Host or display, described conductive bumps is electrically connected with the circuit in device Host or display, and when display is connected on device Host, each conductive bumps to be embedded in the conduction groove corresponding with it and mutual conduction.Adopt this electric connection mode, not only provide the electrical connection of first interface and the second interface, but also a kind of locator meams is provided, when conductive bumps is embedded in conduction groove, can provide the resistance of certain side direction, prompting user slides into correct position, prevents user partially sliding.

Embodiment seven:

Described display be provided with can with the first wireless transport module of device Host or third party device wireless connections, described device Host is also provided with can with the second wireless transport module of display or third party device wireless connections.Mechanical connection between device Host and display can adopt mode or the combination of the removable connection of above-mentioned any one.Described first wireless transport module and the second wireless transport module all adopt WIFI module.

Certain display also can not be electrically connected with device Host.Wearable smart machine described in the application includes but not limited to above-described embodiment or combination, but as long as display and device Host link together, and both can relative motion all should within the application's protection domain.

Claims (22)

1. a wearable smart machine, it comprises device Host and display, it is characterized in that: described display and device Host link together, and movable relative to device Host, display can be made time movable to depart from or partly depart from the field range of user.

2. wearable smart machine according to claim 1, it is characterized in that: described device Host is connected on a wearable support, or described display is connected on a wearable support, or described device Host and display are connected in same Wearable support.

3. wearable smart machine according to claim 2, is characterized in that: described wearable support is eyeglasses frame, wear-type support, supra-aural support or the helmet.

4. wearable smart machine according to claim 1, is characterized in that: described display is movable relative to device Host to be referred to, display is scalable relative to device Host, slip or bending.

5. wearable smart machine according to claim 4, it is characterized in that: described display is scalable relative to device Host to be referred to, described display is connected with device Host by a stretching structure, stretching structure is when stretching out, display enters into the field range of user, stretching structure is when retracting, and display departs from or partly departs from the field range of user.

6. wearable smart machine according to claim 4, it is characterized in that: described display slidably refers to relative to device Host, described display is connected with device Host by slide construction, when display skids off device Host, display enters into user's field range, when display slips into device Host, display departs from or partly departs from the field range of user.

7. wearable smart machine according to claim 4, is characterized in that: described display is flexible relative to device Host refers to that described display and device Host are rotationally connected, or described display is connected with device Host by flexible connecting structure.

8. wearable smart machine according to claim 7, is characterized in that: described flexible connecting structure comprises spring, shell fragment or has flexible link belt.

9. the wearable smart machine according to claim 5 or 6 or 7, it is characterized in that: described device Host be also provided with at display retraction device Host or slip into device Host or can display be stopped after bending relative to device Host, prevent display because of the first position limiting structure of unexpected reset, described display is provided with the second position limiting structure coordinated with the first position limiting structure.

10. wearable smart machine according to claim 9, it is characterized in that: described first position limiting structure and the second position limiting structure adopt magnetic be connected or adopt the mode clamping of buckle draw-in groove, or adopt VELCRO bonding, or adopt the mode grafting of slot plug.

11. wearable smart machines according to claim 7, is characterized in that: described display and device Host are rotationally connected and comprise, establish rotation axis between described device Host and display, described device Host by rotation axis and described display hinged.

12. wearable smart machines according to claim 7, it is characterized in that: described display and device Host are rotationally connected and comprise, it also comprises a turret, described turret is provided with the first rotation axis and the second rotation axis, described device Host is rotationally connected by the first rotation axis and turret, and described display is rotationally connected by the second rotation axis and turret.

13. wearable smart machines according to claim 12, is characterized in that: the axes normal or parallel of described first rotation axis and the second rotation axis.

14. wearable smart machines according to claim 1, it is characterized in that: described device Host also comprises the first interface be electrically connected with the circuit in display, described display is also provided with second interface that can be electrically connected with the circuit in device Host, described first interface and the second interface, by the activity of display relative to device Host, are connected or are separated.

15. wearable smart machines according to claim 14, it is characterized in that: described first interface and the second interface, one of them comprises at least one conductive contact, another comprises at least one electroconductive elastic sheet corresponding with conductive contact position, described conductive contact is electrically connected with the circuit in device Host or display, described electroconductive elastic sheet is electrically connected with the circuit in device Host or display, display turn to user within sweep of the eye time, each electroconductive elastic sheet contacts with the conductive contact corresponding with its position and conducting.

16. wearable smart machines according to claim 14, it is characterized in that: described first interface and the second interface, one of them comprises the conduction groove that at least one conductive material is made, another comprises at least one conductive bumps corresponding with groove location, described conduction groove is electrically connected with the circuit in device Host or display, described conductive bumps is electrically connected with the circuit in device Host or display, display turn to user within sweep of the eye time, each conductive bumps to be embedded in the conduction groove corresponding with it and mutual conduction.

17. wearable smart machines according to claim arbitrary in claim 1-8, is characterized in that: described display and device Host are electrically connected by connecting line.

18. wearable smart machines according to claim 2, is characterized in that: described device Host is clipped on wearable support by clamping device.

19. wearable smart machines according to claim arbitrary in claim 1-8,11-16, is characterized in that: described display is connected with described device Host optics.

20. wearable smart machines according to claim 19, is characterized in that: described device Host is connected with described display optics by photoconduction prism, or described device Host is docked by light path with described display.

21. wearable smart machines according to claim arbitrary in claim 1-8,11-16, is characterized in that: described display be provided with can with the first wireless transport module of device Host or third party device wireless connections.

22. wearable smart machines according to claim arbitrary in claim 1-8,11-16, is characterized in that: described device Host be provided with can with the second wireless transport module of display or third party device wireless connections.