CN204945491U - Wear-type holographic intelligent glasses - Google Patents

Abstract

The utility model discloses a kind of wear-type holographic intelligent glasses, comprising: for described wear-type holographic intelligent eyeglasses-wearing is worn unit in user's head; Wear unit described in being connected to and be placed in the main structure unit in eyes of user front; The inside of described main structure unit is provided with for the optical unit of imaging and the display unit for showing imaging; Described main structure unit is also provided with for regulating described optical unit and/or display unit to adapt to the interpupillary distance of eyes of user and dioptric structure regulon; The below of described main structure unit is provided with the first sensing unit for sensing user limb motion and facial muscle movements; Described display unit is also for changing display mode and content according to user's limb motion of the first sensing unit senses and/or facial muscle movements.The utility model can be adapted to custom or the demand of user self, and provides effective solution to the individual difference of user, and the use sense improving user is subject to.

Description

Wear-type holographic intelligent glasses

Technical field

The utility model relates to intelligent glasses technical field, particularly relates to wear-type holographic intelligent glasses.

Background technology

Intelligent glasses, refer to as smart mobile phone, there is independently operating system, the program that can be provided by software houses such as user installation software, game, by voice or action manipulated adding schedule, digital map navigation, interactive with good friend, take pictures and video, launch the functions such as video calling with friend, and the general name of such class glasses of wireless network access can be realized by mobile communication network.Existing head-wearing type intelligent glasses or only providing one loads the structure of smart mobile phone, or provide incomplete holography to experience.Majority can not carry out omnibearing observation to adapt to custom or the demand of user self to user, and existing head-wearing type intelligent glasses are all unified specification, fixed sturcture, effective solution is not had to the individual difference of user yet, causes the use sense of user by poor.

Utility model content

The utility model embodiment provides a kind of wear-type holographic intelligent glasses, is subject in order to the use sense improving user, and these wear-type holographic intelligent glasses comprise:

For described wear-type holographic intelligent eyeglasses-wearing is worn unit in user's head;

Wear unit described in being connected to and be placed in the main structure unit in eyes of user front;

The inside of described main structure unit is provided with for the optical unit of imaging and the display unit for showing imaging; Described main structure unit is also provided with for regulating described optical unit and/or display unit to adapt to the interpupillary distance of eyes of user and dioptric structure regulon;

The below of described main structure unit is provided with the first sensing unit for sensing user limb motion and facial muscle movements;

Described display unit is also for changing display mode and content according to user's limb motion of the first sensing unit senses and/or facial muscle movements.

In an embodiment, described first sensing unit comprises as one of lower unit or combination:

For with the first smooth TOF unit of light flight time measurement mode sensing user limb motion and facial muscle movements;

For with the first structured light unit of structural light measurement mode sensing user limb motion and facial muscle movements;

For adopting the first stereoscopic vision unit of one or more image unit sensing user limb motion and facial muscle movements;

For with the pressure sensor unit of pressure survey mode sensing user facial muscle movements.

In an embodiment, the front end of described main structure unit is provided with for obtaining video, photo, one of the stereo scene information of environment or the second sensing unit of combination;

Described display unit is also for showing video that the second sensing unit obtains, photo, one of the stereo scene information of environment or combination.

In an embodiment, described second sensing unit comprises as one of lower unit or combination:

For obtaining video, photo, one of the stereo scene information of environment or the second smooth TOF unit of combination in light flight time measurement mode;

For obtaining video, photo, one of the stereo scene information of environment or the second structured light unit of combination in structural light measurement mode;

For adopting the second stereoscopic vision unit of one of stereo scene information of one or more image unit capture video, photo, environment or combination.

In an embodiment, be also provided with as one of lower unit or combination in described main structure unit:

Input block, for carrying out information input for user;

Acoustics unit, for audio plays;

Microphone unit, for gathering audio frequency.

In an embodiment, described microphone unit comprises the microphone of multiple positional symmetry, and the identical audio frequency that the microphone of described multiple positional symmetry collects by described microphone unit is as effective audio frequency.

In an embodiment, described structure regulon comprises adjusting knob, and described adjusting knob is used for optical unit and/or display unit described in manual adjustments.

In an embodiment, the inside of described main structure unit is provided with interpupillary distance for sensing user eyes and dioptric 3rd sensing unit;

Described structure regulon automatically adjusts to described optical unit and/or display unit specifically for the interpupillary distance of the eyes of user according to the 3rd sensing unit senses and diopter.

In an embodiment, described 3rd sensing unit is the combination of image unit and infrared light supply; Or described 3rd sensing unit is the combination of image unit, infrared light supply and infrared semi-transparent eyeglass.

In an embodiment, the 3rd sensing unit is also for the change of sensing user eyes;

Described display unit also changes display mode and content for the change of the eyes of user according to the 3rd sensing unit senses.

In an embodiment, the scene of described structure regulon also for showing according to described display unit regulates described optical unit and/or display unit to change the distance of imaging to eyes of user.

In an embodiment, described in wear unit and comprise:

For the gripping mechanism of each removable section of clamping head wearing unit;

And/or, wear unit each several part relative to linkage that is folding or movement for making.

In the utility model embodiment, first sensing unit is located at the below of main structure unit, user's limb motion and facial muscle movements can be sensed, display unit can change display mode and content according to user's limb motion of the first sensing unit senses and/or facial muscle movements, thus by realizing display mode and content-adaptive to the omnibearing observation of user in the custom of user self or demand, and, optical unit and/or display unit can be regulated by structure regulon with the interpupillary distance and the diopter that adapt to eyes of user, thus provide effective solution to the individual difference of user, further raising intelligence degree, and provide perfect holography to experience for user, the use sense improving user is subject to.

Accompanying drawing explanation

In order to be illustrated more clearly in the utility model embodiment 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, accompanying drawing in the following describes is only embodiments more of the present utility model, 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.In the accompanying drawings:

Fig. 1 is the structural representation of wear-type holographic intelligent glasses in the utility model embodiment;

Fig. 2 is the exemplary plot of optical unit in the utility model embodiment;

Fig. 3 is the schematic diagram that in the utility model embodiment, human eye watches display unit displayed content by optical unit;

Fig. 4 is the instantiation figure of wear-type holographic intelligent glasses in the utility model embodiment;

Fig. 5 is the schematic diagram of the 3rd sensing unit in the utility model embodiment;

Fig. 6 is the schematic diagram of the 3rd sensing unit in the utility model embodiment;

Fig. 7 is the schematic diagram of main structure unit laminating face in the utility model embodiment;

Fig. 8 is the instantiation figure of wear-type holographic intelligent glasses in the utility model embodiment;

Fig. 9 is the exemplary plot of microphone unit in the utility model embodiment.

Embodiment

For making the object of the utility model embodiment, technical scheme and advantage clearly understand, below in conjunction with accompanying drawing, the utility model embodiment is described in further details.At this, schematic description and description of the present utility model for explaining the utility model, but not as to restriction of the present utility model.

Inventor finds, existing head-wearing type intelligent glasses are general only establishes camera in glasses front end, is used for taking picture or the video in user front, cannot the limb motion of perception user and facial muscle movements; And if limb motion and the facial muscle movements of user can be found, according to these motion adjustment display mode of glasses and content, this will improve Consumer's Experience greatly; And, the structure of existing head-wearing type intelligent glasses is fixed, and different human eyes has different interpupillary distances and diopter, and the image definition that such as a twenty-twenty people and near-sighted people see is just different, if fixed sturcture, then user not necessarily can be made to experience best viewing effect; Based on this, a kind of wear-type holographic intelligent glasses are provided in the utility model embodiment, to be adapted to custom or the demand of user self, are adapted to the individual difference of user, be subject to provide best user's use sense.

Fig. 1 is the structural representation of wear-type holographic intelligent glasses in the utility model embodiment, and as shown in Figure 1, these wear-type holographic intelligent glasses can comprise:

For wear-type holographic intelligent eyeglasses-wearing is worn unit 101 in user's head;

Be connected to and wear unit 101 and the main structure unit 102 being placed in eyes of user front;

The inside of main structure unit 102 is provided with for the optical unit 103 of imaging and the display unit 104 for showing imaging; Main structure unit 102 is also provided with for regulating optical unit 103 and/or display unit 104 to adapt to the interpupillary distance of eyes of user and dioptric structure regulon 105;

The below of main structure unit 102 is provided with the first sensing unit 106 for sensing user limb motion and facial muscle movements;

Display unit 104 also changes display mode and content for user's limb motion of sensing according to the first sensing unit 106 and/or facial muscle movements.

Structure can be learnt as shown in Figure 1, in the utility model embodiment, first sensing unit is located at the below of main structure unit, user's limb motion can be sensed, such as human body gesture motion etc., user's face muscular movement can also be sensed, display unit can change display mode and content according to user's limb motion of the first sensing unit senses and/or facial muscle movements, what such as can realize with user is effectively mutual, thus by realizing display mode and content-adaptive to the omnibearing observation of user in the custom of user self or demand.Wherein, limb motion comprises the motion at the position such as hand, pin of people; Facial muscle movements comprises the action at the position such as face, mouth of people, the facial expression change etc. for people can be embodied, such as, concrete, first sensing unit can sense the motion of user's mouth and health, state and position, can utilize the travel distance and speed etc. of the first sensing unit senses user.First sensing unit can also sense in one's hands or finger enters into control area, Virtual Space time, trigger display unit carries out corresponding display mode and content change according to the motion of hand or finger, state and position.

During concrete enforcement, the first sensing unit can have multiple concrete implementation, such as, can comprise as one of lower unit or combination: for the first smooth TOF unit of light flight time measurement mode sensing user limb motion and facial muscle movements; For with the first structured light unit of structural light measurement mode sensing user limb motion and facial muscle movements; For adopting the first stereoscopic vision unit of one or more image unit sensing user limb motion and facial muscle movements; For with the pressure sensor unit of pressure survey mode sensing user facial muscle movements.Image unit wherein can adopt common camera, can gather image by common camera, and wear-type holographic intelligent glasses can record the image that these gather, share and playback.Above-mentioned first smooth TOF unit, the first structured light unit, image unit and pressure sensor unit are only citing, and those skilled in the art can also adopt other equipment that can realize corresponding function as the concrete facilities and equipments of the first sensing unit as required.In embodiment, the first sensing unit can establish multiple subelement, and detect the motion of user's different parts respectively, the use sense better can being understood user by the use of these subelements is subject to, and promotes Consumer's Experience.The subelement such as wherein detecting user's head movement can be nine axle sensing units, can respond to the multi-direction movement of the helmet and omnibearing rotation, also be connected with external hardware device by radio connection.

Optical unit and/or display unit can be regulated by structure regulon with the interpupillary distance and the diopter that adapt to eyes of user, thus provide effective solution to the individual difference of user, further raising intelligence degree, and provide perfect holography to experience for user, the use sense improving user is subject to.Wherein, optical unit can be an entirety, also can be separated into two optical units in left and right, as shown in Figure 2, establishes two optical units 103 in left and right in main structure unit 102.

Fig. 3 is the schematic diagram that in the utility model embodiment, human eye watches display unit displayed content by optical unit.As shown in Figure 3, in embodiment, after user wears wear-type holographic intelligent glasses, display unit imaging in user's eye can be seen by optical unit.Due to the individual difference of user, the eyes interpupillary distance of different user is different, and eyesight is also different, if the structure of fixed optics unit and display unit, possibly each user cannot be made can to see imaging clearly.Based on this, structure regulon can be set on main structure unit to regulate optical unit and/or display unit.In embodiment, structure regulon can be adjusting knob, and this adjusting knob is used for manual adjustments optical unit and/or display unit, to be adapted to interpupillary distance and the diopter of eyes of user.

Such as can arranging above main structure unit and regulate optical unit and/or display unit to adapt to the adjusting knob of the interpupillary distance of eyes of user, the spacing between right and left eyes optical unit can be made to change as rotated this adjusting knob.And for example can arranging in the side of main structure unit and regulate optical unit and/or display unit to adapt to the dioptric adjusting knob of eyes of user, the distance between eyes and optical unit can be made to change as rotated this adjusting knob.Make relative position due to optical unit and display unit to change imaging effect can be made to change, therefore only can change the position of optical unit, also can the position of a change display unit, or the position of optical unit and display unit can be changed simultaneously.The setting position of adjusting knob in the optional position of main structure unit, can be not limited to top or the both sides of main structure unit.

Embodiment above describes structure regulon and manually adjusts optical unit and/or display unit, in embodiment, structure regulon can also adjust optical unit and/or display unit automatically to adapt to interpupillary distance and the diopter of eyes of user, improves the intelligence degree of glasses further.Fig. 4 is the instantiation figure of wear-type holographic intelligent glasses in the utility model embodiment.As shown in Figure 4, in this example, the inside of the main structure unit 102 of wear-type holographic intelligent glasses is provided with for sensing user eyes interpupillary distance and dioptric 3rd sensing unit 401.After the 3rd sensing unit senses to the interpupillary distance and diopter of eyes of user, structure regulon automatically adjusts to optical unit and/or display unit according to the interpupillary distance of eyes of user and diopter, to be adapted to interpupillary distance and the diopter of eyes of user.Through overregulating, can the using state of more accurate discrimination user, different use to see per family formed by display unit clearly as.During concrete enforcement, the 3rd sensing unit can be the combination of image unit and infrared light supply; Or, can be the combination of image unit, infrared light supply and infrared semi-transparent eyeglass.As shown in Figure 5, the first sensing unit is the combination of image unit 111 and infrared light supply 112; Optical unit 103 and display unit 104 is also show in Fig. 5.As shown in Figure 6, the first sensing unit is the combination of image unit 111, infrared light supply 112 and infrared semi-transparent eyeglass 601, also shows optical unit 103 and display unit 104 in Fig. 6.Wherein image unit 111 and infrared light supply 112 form a built-in camera module 110.Built-in camera module 110 can directly be observed (as shown in Figure 5) human eye, built-in camera module 110 can also be observed (as shown in Figure 6) by infrared semi-transparent eyeglass 601 pairs of human eyes, infrared semi-transparent eyeglass 601 is exactly a kind of reflects infrared light, and the eyeglass of visible ray can be had an X-rayed, utilize infrared semi-transparent eyeglass 601 not affect user's normal observation display unit displayed content, and ensure that image unit 111 has splendid shooting angle.

In another embodiment, the 3rd sensing unit can also be used for the change of sensing user eyes; Display unit can also be used for changing display mode and content according to the change of the eyes of user of the 3rd sensing unit senses.Such as, the 3rd sensing can sensing user eyes concern position, know that user cries or laughed at by eyes of user change, display unit can utilize the change information of these eyes of user to change display mode and content.

In addition, in embodiment, except regulating optical unit and/display unit according to the diopter of eyes of user, structure regulon can also regulate optical unit and/or display unit to change the distance of imaging to eyes of user according to the scene of display unit display, like this when displayed scene switches, user can be made to see rapidly and to make wearing of user feel more comfortable by the image after switching clearly.

Also show in wear-type holographic intelligent glasses in Fig. 4, the front end of main structure unit 102 is provided with the example for obtaining video, photo, one of the stereo scene information of environment or the second sensing unit 402 of combination.After second sensing unit gets the video in user front, photo, one of the stereo scene information of environment or combination, display unit can show these videos, photo, one of the stereo scene information of environment or combination.During concrete enforcement, second sensing unit also can have multiple concrete implementation, such as, can comprise as one of lower unit or combination: for obtaining video, photo, one of the stereo scene information of environment or the second smooth TOF unit of combination in light flight time measurement mode; For obtaining video, photo, one of the stereo scene information of environment or the second structured light unit of combination in structural light measurement mode; For adopting the second stereoscopic vision unit of one of stereo scene information of one or more image unit capture video, photo, environment or combination.Image unit wherein can adopt common camera, can gather image by common camera, and wear-type holographic intelligent glasses can record the image that these gather, share and playback.In a further embodiment, image unit can also adopt depth camera, can be taken by depth camera to the moving object in surrounding enviroment and not movable scenery.Two depth camera are adopted to carry out taking the scene information that can obtain solid; Adopt multiple depth camera to carry out shooting and can obtain panoramic scene information.Above-mentioned second smooth TOF unit, the second structured light unit and image unit are only citing, and those skilled in the art can also adopt other equipment that can realize corresponding function as the concrete facilities and equipments of the second sensing unit as required.In embodiment, the shooting of 3D video can be carried out at front-end configuration second sensing unit of main structure unit, or the taking pictures of photo, or the acquisition of environmental perspective scene information, and realize the real-time video with other equipment.When carrying out real-time video with miscellaneous equipment, the video captured by the second sensing unit can be real-time transmitted to other equipment, such as other wear-type holographic intelligent glasses.When showing the video of transmission in other wear-type holographic intelligent glasses, visual angle effect process can also be carried out according to the change at different user visual angle to video.Wherein visual angle effect process can be completed by the wear-type holographic intelligent glasses of capture video or receiver, video, or can have been come by the server that video is transferred to another wear-type holographic intelligent glasses from wear-type holographic intelligent glasses.In main structure unit, the first sensing unit, the second sensing unit, the 3rd sensing unit can be all adjustable, also can be uncontrollable, and when regulating, can be manual adjustments, also can be automatic adjustment.Each sensing unit can comprise one or more cameras, can shooting angle can be the various angles such as 60 °, 90 °, 120 °, be not limited to concrete angle.

In embodiment, display unit can be an entirety, also can be separated into two display units in left and right.Main structure unit is placed in the suitable position of user at the moment, and user can see head mounted display imaging in user's eye.Main structure unit face of can fitting wears face of also can not fitting, as shown in Figure 7, when fit face time its radian design meet ergonomics.

In order to the actual demand making the display mode of display unit and content more can cater to user, further intellectualized reconstruction can also be done to wear-type holographic intelligent glasses in embodiment, the unit that some can realize other function is set in main structure unit.Fig. 8 is the instantiation figure of wear-type holographic intelligent glasses in the utility model embodiment, as shown in Figure 8, in this example, in main structure unit 102, input block 801 can also be set, for carrying out information input for user, thus user is allowed to have better operating experience.Input block can be such as button, touch-screen etc., can be placed in user-friendly position on main structure unit; Button or the touch-screen position of placing can on right side, also can up and down, and the position of placement exists various possibility.The touch manner of touch-screen for singly referring to or the various interactive mode such as two fingers, can be changed according to the different operating mode of the dimensions such as scene, angle, content.Button and touch-screen also can be combined, such as, near touch-screen, establish return key, acknowledgement key etc.Input block can also be the sensing apparatus of some sensing apparatus, such as dummy keyboard, digital hand etc.; Input block can also be the screen of some external equipments, such as mobile phone; Or input block can be even aforesaid first sensing unit, and the first sensing unit can carry out information input by sensing user limb action; Or aforesaid 3rd sensing unit, the 3rd sensing unit can carry out information input etc. by the change of sensing user eyes.As shown in Figure 8, in main structure unit 102, also can establish acoustics unit 802, for audio plays, to be supplied to the good hearing experience of user.Such as can establish the sender of one or more loudspeaker at main structure unit, multiple sender can provide around tonequality.At least two buttons controlling acoustics unit can also be established at main structure unit in embodiment, such as, near touch-screen, establish two buttons, control volume plus-minus.Again as shown in Figure 8, in main structure unit 102, microphone unit 803 can also being provided with, for gathering audio frequency, being convenient to realize user interaction process.

When residing for user, neighbourhood noise is larger, the impact of neighbourhood noise when the arrangement position of microphone can be utilized to avoid gathering audio frequency.Such as, microphone unit can comprise the microphone of multiple positional symmetry, and the identical audio frequency that the microphone of the plurality of positional symmetry collects by microphone unit is as effective audio frequency.Fig. 9 is the exemplary plot of microphone unit in the utility model embodiment, and as shown in Figure 9, can see by looking up wear-type holographic intelligent glasses, microphone unit comprises four microphones 901, from four station acquisition sound, and the positional symmetry of four microphones.Only when four microphones collect identical audio frequency, sound is just effective, can not disturb like this by surrounding enviroment.The position of microphone unit can be fixed on main structure unit, also can be mobile.

In embodiment, to wear unit can be movable also can be Immobile, can be dismountable also can be non-removable.If dismountable, can include accordingly for the gripping mechanism of each removable section of clamping head wearing unit.Wear in unit and can comprise linkage, for making the relatively folding or relative movement of wearing between the different piece in unit.

In sum, in the utility model embodiment, first sensing unit is located at the below of main structure unit, user's limb motion and facial muscle movements can be sensed, display unit can change display mode and content according to user's limb motion of the first sensing unit senses and/or facial muscle movements, thus by realizing display mode and content-adaptive to the omnibearing observation of user in the custom of user self or demand, and, optical unit and/or display unit can be regulated by structure regulon with the interpupillary distance and the diopter that adapt to eyes of user, thus provide effective solution to the individual difference of user, further raising intelligence degree, and provide perfect holography to experience for user, the use sense improving user is subject to.

In addition, the wear-type holographic intelligent glasses of the utility model embodiment also extend many functions, such as on main structure unit, different azimuth arranges more sensing unit, also input block, acoustics unit, microphone unit etc. are set on main structure unit, these all improve the function of wear-type holographic intelligent glasses, user operation is flexible, and intelligence degree reaches higher level.

Above-described specific embodiment; the purpose of this utility model, technical scheme and beneficial effect are further described; be understood that; the foregoing is only specific embodiment of the utility model; and be not used in restriction protection domain of the present utility model; all within spirit of the present utility model and principle, any amendment made, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (12)

1. wear-type holographic intelligent glasses, is characterized in that, comprising:

For described wear-type holographic intelligent eyeglasses-wearing is worn unit in user's head;

Wear unit described in being connected to and be placed in the main structure unit in eyes of user front;

The inside of described main structure unit is provided with for the optical unit of imaging and the display unit for showing imaging; Described main structure unit is also provided with for regulating described optical unit and/or display unit to adapt to the interpupillary distance of eyes of user and dioptric structure regulon;

The below of described main structure unit is provided with the first sensing unit for sensing user limb motion and facial muscle movements;

Described display unit is also for changing display mode and content according to user's limb motion of the first sensing unit senses and/or facial muscle movements.

2. wear-type holographic intelligent glasses as claimed in claim 1, is characterized in that, described first sensing unit comprises as one of lower unit or combination:

For with the first smooth TOF unit of light flight time measurement mode sensing user limb motion and facial muscle movements;

For with the first structured light unit of structural light measurement mode sensing user limb motion and facial muscle movements;

For adopting the first stereoscopic vision unit of one or more image unit sensing user limb motion and facial muscle movements;

For with the pressure sensor unit of pressure survey mode sensing user facial muscle movements.

3. wear-type holographic intelligent glasses as claimed in claim 1, is characterized in that, the front end of described main structure unit is provided with for obtaining video, photo, one of the stereo scene information of environment or the second sensing unit of combination;

Described display unit is also for showing video that the second sensing unit obtains, photo, one of the stereo scene information of environment or combination.

4. wear-type holographic intelligent glasses as claimed in claim 3, is characterized in that, described second sensing unit comprises as one of lower unit or combination:

For obtaining video, photo, one of the stereo scene information of environment or the second smooth TOF unit of combination in light flight time measurement mode;

For obtaining video, photo, one of the stereo scene information of environment or the second structured light unit of combination in structural light measurement mode;

For adopting the second stereoscopic vision unit of one of stereo scene information of one or more image unit capture video, photo, environment or combination.

5. wear-type holographic intelligent glasses as claimed in claim 1, is characterized in that, are also provided with as one of lower unit or combination in described main structure unit:

Input block, for carrying out information input for user;

Acoustics unit, for audio plays;

Microphone unit, for gathering audio frequency.

6. wear-type holographic intelligent glasses as claimed in claim 5, it is characterized in that, described microphone unit comprises the microphone of multiple positional symmetry, and the identical audio frequency that the microphone of described multiple positional symmetry collects by described microphone unit is as effective audio frequency.

7. wear-type holographic intelligent glasses as claimed in claim 1, it is characterized in that, described structure regulon comprises adjusting knob, and described adjusting knob is used for optical unit and/or display unit described in manual adjustments.

8. wear-type holographic intelligent glasses as claimed in claim 1, is characterized in that, the inside of described main structure unit is provided with interpupillary distance for sensing user eyes and dioptric 3rd sensing unit;

Described structure regulon automatically adjusts to described optical unit and/or display unit specifically for the interpupillary distance of the eyes of user according to the 3rd sensing unit senses and diopter.

9. wear-type holographic intelligent glasses as claimed in claim 8, it is characterized in that, described 3rd sensing unit is the combination of image unit and infrared light supply; Or described 3rd sensing unit is the combination of image unit, infrared light supply and infrared semi-transparent eyeglass.

10. wear-type holographic intelligent glasses as claimed in claim 8, it is characterized in that, the 3rd sensing unit is also for the change of sensing user eyes;

Described display unit also changes display mode and content for the change of the eyes of user according to the 3rd sensing unit senses.

11. wear-type holographic intelligent glasses as claimed in claim 1, is characterized in that, the scene of described structure regulon also for showing according to described display unit regulates described optical unit and/or display unit to change the distance of imaging to eyes of user.

12. wear-type holographic intelligent glasses as claimed in claim 1, is characterized in that, described in wear unit and comprise:

For the gripping mechanism of each removable section of clamping head wearing unit;

And/or, wear unit each several part relative to linkage that is folding or movement for making.