CN206248918U - Augmented reality intelligent glasses and its screen adjusting device - Google Patents

Abstract

The utility model discloses a kind of augmented reality intelligent glasses and its screen adjusting device, it is related to Intelligent worn device technical field.The augmented reality intelligent glasses include host shell and imaging housing, and the screen adjusting device includes the first connector and rotating shaft；The body of first connector is placed in the host shell, and the first end of the first connector is first lug, and the first lug puts in the imaging housing rear end from the host shell front end, and the first lug is provided with circular hole；The central cylindrical portion of the rotating shaft is arranged in the circular hole in the first lug, is coordinated with the circular hole cylinder gap；The host shell front end coordinates with the imaging housing rear end in circular arc gap.The utility model realizes the left and right of imaging screen main body and adjusts up and down, and the rotation eyeball that solves the problems, such as to have to causes eye strain to adapt to screen position.When extraneous outdoor scene need to be watched, can easily be moved into as screen main body.

Description

Augmented reality intelligent glasses and its screen adjusting device

Technical field

The utility model is related to Intelligent worn device technical field, specifically, is related to a kind of wear-type augmented reality intelligence Can glasses and its screen adjusting device.

Background technology

With virtual reality (Virtual Reality, abbreviation VR), augmented reality (Augmented Reality, abbreviation AR) and mixed reality (Mixed Reality, abbreviation MR) technology development, increasing Intelligent worn device starts to be people Be familiar with.Wherein, the most familiar to people is intelligent glasses, and Google's intelligent glasses and association such as at present on the market are intelligent Glasses.

Generally, the structure of the intelligent glasses as depicted in figs. 1 and 2, including mirror holder 1a, main frame 2a and display screen 3a. Wherein, the main frame 2a is fixed on the mirror holder 1a, and the main frame 2a and display screen 3a are electrically connected, display screen 3a and people The position of eye is corresponding.Ophthalmic len frame different for Design of glasses frame, as shown in Figure 1, or as shown in Fig. 2 only have one Individual framework, for supporting described main frame 2a and display screen 3a.

According to image-forming principle, main frame 2a is presented virtual image in screen, and the virtual image is transmitted into user's eye, when When image focuses on the central recessed position in human eye retina, imaging now is most clear for a user.

However, in existing intelligent glasses, as shown in FIG., display mirror curtain 3a is generally arranged on mirror by the way of fixation On frame, thus display screen 3a can not be adjusted according to the position of human eye of user.Enter if necessary to the position to display mirror curtain 3a Row adjustment, then need integrated regulation mirror holder to realize, and after mirror holder adjustment, can bring asking for usage comfort to user Topic, so being caused using upper puzzlement to user.

Thus, industry has been invented and some can make screen body parallel to the device that is adjusted as screen position Move left and right, it is or movable, by adjusting screen position, allow in screen the virtual image for presenting just to be transmitted into user In eye.But due to the difference of the physical traits such as user's wearing mode different and respective head dummy, shape of face, imaging screen can be caused not In the parallel position in the front of eyeball, may be on the upper side or on the lower side, user eyeball need to be moved up or down, and be worn for a long time Words, it is easy to cause people's kopiopia, influence user's eyesight, and human eye is had undesirable effect.

In addition, when user sees clear real-world scene, the virtual image that imaging screen is presented can be interfered to user, because And user need to move the parallel adjusting means of screen, but imaging screen is generally cuboid, parallel to human eye direction distance compared with It is long, it is difficult to allow imaging screen not block the human eye visual field, have a strong impact on user and comfortably experience degree.

The content of the invention

The technical problems to be solved in the utility model is, in view of the shortcomings of the prior art, there is provided a kind of augmented reality intelligence Energy glasses and its screen adjusting device, can enable screen left and right, move up and down, so that user cosily, clearly observes To the virtual image that imaging screen is presented, and screen is easily removed when needing human eye is blocked.

In order to solve the above-mentioned technical problem, according to one side of the present utility model, the utility model provides a kind of using In the screen adjusting device of augmented reality glasses, the augmented reality glasses include host shell and imaging housing, wherein, it is described Screen adjusting device includes the first connector and rotating shaft；

The body of first connector is placed in the host shell, and the first end of the first connector is first lug, The first lug puts in the imaging housing rear end from the host shell front end, and the first lug is provided with circular hole；

The central cylindrical portion of the rotating shaft is arranged in the circular hole in the first lug, with the circular hole cylinder gap Coordinate；

The host shell front end coordinates with the imaging housing rear end in circular arc gap.

Further, the screen adjusting device also includes the second connector；The body of second connector is placed in institute State in imaging housing, one end of second connector includes two the second lugs corresponding with the two ends of the rotating shaft, described The two ends of two the second lugs respectively with the rotating shaft are fixedly connected, for driving the rotating shaft to rotate；

Sunk part between described two second lugs coordinates with the first lug gap of first connector.

Preferably, first boss is provided with the first lug of first connector, in the institute of second connector The sunk part stated between two the second lugs is provided with second boss；When second connector drives the rotating shaft to rotate, When the second boss contacts the first boss, the rotating shaft is stopped the rotation.

Preferably, the rotating shaft includes bolt and nut, is respectively equipped with two the second lugs of second connector Groove, the head of the bolt and the nut are located in corresponding groove respectively, and the cylinder of the bolt is located at two second Sunk part between lug.

Preferably, the bolt is hex bolts, and the nut is hexagonal (hexagon)nut.

Further, the body of the first connector being placed in the host shell passes through position retaining mechanism and the master Casing body is connected；

The host shell is stretched out at second end of first connector, used as upper and lower adjustment end；

Moved up and down by stirring the upper and lower adjustment end, the rear end of imaging shell is transported around host shell front end circumference It is dynamic, so as to adjust the upper-lower position as screen.

Preferably, the position retaining mechanism includes the raised line being arranged on the first connector body and is correspondingly arranged In the groove on host shell.Preferably, the raised line and corresponding groove are arranged in circular arc.

Preferably, extreme position mechanism, the upper downward for limiting first connector are set in the host shell Whole end moves up and down scope.

Further, the extreme position mechanism includes the positive stop lug boss being arranged on host shell.

Preferably, the adjustment end up and down of first connector is provided with multiple projections.

The utility model additionally provides a kind of augmented reality glasses, including mirror holder, main frame main body and screen imaging main body；Institute Main frame main body is stated including host shell and main frame, the main frame is arranged in the host shell, the host shell with it is described Mirror holder is connected；The screen imaging main body includes imaging housing, imaging main frame and screen, the imaging main frame and the screen phase Connection, the imaging main frame is placed in the imaging housing, and the screen is exposed outside imaging housing, is into relative to human eye one side As region；The main frame main body and screen imaging main body are connected by said display adjusting apparatus so that screen can with left and right, on Lower movement.

Further, nose support support is provided with the mirror holder, the end of the nose support support is provided with nose support, used In the position on face of adjustment mirror holder.

Further, the augmented reality intelligent glasses also include Lens assembly, and the Lens assembly includes eyeglass, mirror Piece holder and fitting, the eyeglass holder are fixed on the centre of the eyeglass by fitting, wherein, the eyeglass folder The edge of gripping member protrudes the fitting.

The utility model can not only be implemented as the left and right adjusting as screen main body, can also realize adjusting up and down.User Left and right can be carried out according to own characteristic, adjusted up and down, make screen imaging part and eyeball centering, solved in the prior art not Not rotate eyeball and cause the problem of eye strain adapting to screen position.Also, when needing viewing extraneous, according to this reality With new technical scheme, can easily be moved into as screen main body, from the visual field without stopping eyes, improve user's body Test.

Brief description of the drawings

Fig. 1 is a kind of dimensional structure diagram of intelligent glasses in the prior art；

Fig. 2 is the dimensional structure diagram of another intelligent glasses in the prior art；

Fig. 3 is the dimensional structure diagram of augmented reality eyeglasses embodiment described in the utility model；

Fig. 4 is X shown in Fig. 3₁-X₁To partial cutaway schematic view；

Fig. 5 is X shown in Fig. 3₂-X₂To partial cutaway schematic view；

Fig. 6 is the dimensional structure diagram of the first connector and the second connector；

Fig. 7 moves left and right schematic diagram for augmented reality intelligent glasses embodiment described in the utility model；

Fig. 8 is Y-Y shown in Fig. 3 to generalized section；

Fig. 9 is Z-Z shown in Fig. 3 to generalized section；

Figure 10 moves up and down schematic diagram for augmented reality eyeglasses embodiment described in the utility model

Figure 11 is the dimensional structure diagram of eyeglass in embodiment described in the utility model.

Specific embodiment

As shown in figure 3, being the dimensional structure diagram of augmented reality intelligent glasses embodiment described in the utility model.This reality Include mirror holder 1, main frame main body and screen imaging main body with the new augmented reality glasses.Wherein, include described in main frame main body Host shell 20 and the main frame 21 (not shown in Fig. 3, refer to Fig. 4) for being built in host shell 20.The host shell 20 is One hollow structure, built-in main frame 21 and other subsidiary components.The host shell 20 is connected with the mirror holder 1.

Screen imaging main body is by screen imaging housing 30, screen imaging main frame (not shown in Fig. 3) and 32 groups of screen of imaging Into.Wherein, the imaging main frame is built in the imaging housing 30, and is connected with the screen 32.Being imaged screen 32 is One exposed rectangular structure, is imaging region with respect to human eye one side.

The front end of the host shell 20 coordinates with the imaging rear end of housing 30 in circular arc gap.

Main frame main body and screen imaging main body are connected by screen adjusting device so that screen 32 can with left and right, move up and down.

Specifically as shown in figs. 4 through 10, Fig. 4 is X shown in Fig. 3₁-X₁To generalized section, Fig. 5 is X shown in Fig. 3₂-X₂To section Schematic diagram；Fig. 6 is the dimensional structure diagram of the first connector and the second connector.Fig. 8, Figure 10 are Y-Y shown in Fig. 3 to section Schematic diagram, Fig. 9 is Z-Z shown in Fig. 3 to generalized section.

As shown in figure 4, the screen adjusting device includes the first connector 4 and rotating shaft 6.Wherein, first connector 4 Body 40 be placed in the host shell 20, the first end of the first connector 4 is first lug 41.The first lug 41 from The front end of the host shell 20 puts in imaging housing 30 rear end, and the first lug 41 is provided with circular hole 410.The rotating shaft 6 central cylindrical portion is arranged in the circular hole 410 in the first lug 41, is coordinated with the circular hole cylinder gap.First Connector 4 is fixed in host shell 20, it is impossible in X-X to movement, so, when two ends and the imaging housing 30 of rotating shaft 6 are fixed When, by being pushed into as housing 30, the rear end of imaging housing 30 can be made 6 to rotate around the shaft.As shown in fig. 7, solid line is original Position, dotted line is the position after rotating.6 rotated around the shaft by making the rear end of imaging housing 30, so as to change screen 32 with The left and right of human eye and front and rear distance.

Preferably, the screen adjusting device also includes the second connector 5.Refer to Fig. 4,5,6 and Fig. 8.Described second The body of connector 5 is placed in the imaging housing 30, and one end of second connector 5 includes two with the rotating shaft 6 Corresponding second lug 51 in two ends, two ends of described two second lugs 51 respectively with the rotating shaft 6 are fixedly connected, for driving The rotating shaft 6 rotates；The first lug 41 of sunk part 52 between described two second lugs 51 and first connector 4 Gap coordinates.By the second connector 5, the rear end of imaging housing 30 is set 6 to rotate around the shaft.

As shown in figure 4, the angle in order to be defined as rear end 6 rotations around the shaft as housing 30, in first connector 4 First lug 41 be provided with first boss 410, the depression between described two second lugs 51 of second connector 5 Part 52 is provided with second boss 520, when second connector 5 drives the rotating shaft 6 to rotate, when the second boss 520 When contacting the first boss 410, the rotating shaft 6 is stopped the rotation, make user needs left and right adjustment screen when, can be at certain angle Adjusted in the range of degree.

As shown in Figure 5 and Figure 8, as a specific embodiment, the rotating shaft 6 is made up of bolt 61 and nut 62.It is described Groove 510 is respectively equipped with two the second lugs 51 of the second connector 5, the head of the bolt 61 and the nut point 62 are other In corresponding groove 510, the cylinder of the bolt 61 is located in the sunk part 52 between two the second lugs 51, and recessed The cylinder of part 52 is fallen into coordinate.Wherein, the bolt 61 is hex bolts, and the nut 62 corresponds to hexagonal (hexagon)nut.

Further exist, the body 40 of the first connector 4 being placed in the host shell 20 by position retaining mechanism 8 with The host shell 20 is connected.As shown in figure 9, for Z-Z shown in Fig. 3 to generalized section.Wherein, the structure in circle is position One concrete structure of retaining mechanism 8.The position retaining mechanism 8 includes being arranged at 40 on the body of the first connector 4 Raised line 401 and the groove 201 being correspondingly arranged on host shell 20.When on the body of the first connector 4 40 inlay card of raised line 401 exists When in the groove 201, the first connector 4 is fixed on the host shell 20, can not move up and down.First connector The host shell 20 is stretched out at 4 the second end 42, used as upper and lower adjustment end；By stirring the upper and lower adjustment end, by described Raised line 401 on body 40 is extracted from the groove 201, and the position that can be connected with rotating shaft with the first lug 41 is branch Point, moves up and down the body 40 of the first connector 4, so as to the rear end of imaging shell 30 can be made to be transported around the front end circumference of host shell 20 It is dynamic, reach adjustment current as the upper-lower position of screen.As shown in figure 8, the schematic diagram before being adjusted up and down for screen, Figure 10 is screen Schematic diagram after curtain adjustment downwards.

Because the body 40 of first connector 4 is in circular motion, thus, it is arranged at the groove 201 on host shell 20 Arranged in circular arc, as shown in Fig. 8, Figure 10.

Position is moved up and down in order to limit the body 40 of the first connector 4, extreme position machine is set in the host shell Structure, one specific implementation structure is the positive stop lug boss 202 set on host shell 20 as shown in Figure 10.According to described spacing The position on host shell 20 of boss 202, it may be determined that the maximum angle scope that screen is adjusted up and down, as shown in FIG., being can The maximum angle scope of adjustment.

Further, as shown in figure 8, being provided with multiple salient points 420 in the adjustment end up and down 42 of first connector.Can User is navigated to handling position by sense of touch, be conveniently adjusted the upper-lower position of imaging screen.

Wherein, the main frame 21 is connected by the flexible PCB 9 with imaging screen main frame, and the rear end of host shell 20 is in Concave surface arcuation 203, imaging host shell 30 rear end is in convex surface arcuation 303, the two just cambered surface cooperation, in upper and lower or left and right adjustment During screen, the flexible PCB or cable being hidden in housing are can't see, play attractive in appearance and protective effect.

Two nose support supports, 11, two nose supports 12 are provided with the mirror holder 1 for adjusting position of the mirror holder 1 on face Put.In addition, in order to the mirror holder can also install eyeglass additional, for the user for some calibration eyeglasses that have defective vision, need to use The eyeglass for being adapted to the number of degrees is provided.

Wherein, installing the structure of eyeglass additional can have various, be a specific Lens assembly 13 as shown in Fig. 3 and Figure 11 Schematic diagram.The Lens assembly 13 includes that eyeglass 131, eyeglass holder 132 and left and right two fittings 133 (certainly, are abutted Part 133 can also make one or the more, herein as a example by two).Wherein, left and right two fittings 133 are individually fixed in mirror The two ends of piece holder 132, the edge of eyeglass holder 132 protrudes the fitting 133.

When needing to install eyeglass, rotation eyeglass 131 to horizontal direction so that left and right fitting 133 respectively with it is left, The phase low pressure of right nose support support 11, fixes eyeglass 131 and does not fall off using the radian of nose support support 11.

During dismounting eyeglass, rotation eyeglass 131 makes left or right fitting 133 be separated with corresponding nose support support 11, i.e., to inclination Gap of the eyeglass 131 between left nose support support and right nose support support can be taken out.

Preferred embodiment of the present utility model is the foregoing is only, the utility model is not limited to, for this area For technical staff, the utility model can have various changes and change.All institutes within spirit of the present utility model and principle Any modification, equivalent substitution and improvements of work etc., should be included within protection domain of the present utility model.

Claims (14)

1. a kind of screen adjusting device for augmented reality intelligent glasses, the augmented reality intelligent glasses include host shell With imaging housing, it is characterised in that：The screen adjusting device includes the first connector and rotating shaft；

The body of first connector is placed in the host shell, and the first end of the first connector is first lug, described First lug puts in the imaging housing rear end from the host shell front end, and the first lug is provided with circular hole；

The central cylindrical portion of the rotating shaft is arranged in the circular hole in the first lug, is matched somebody with somebody with the circular hole cylinder gap Close；

The host shell front end coordinates with the imaging housing rear end in circular arc gap.

2. the screen adjusting device of augmented reality intelligent glasses is used for as claimed in claim 1, it is characterised in that：The screen Adjusting apparatus also include the second connector；

The body of second connector is placed in the imaging housing, one end of second connector include two with it is described Corresponding second lug in two ends of rotating shaft, two ends of described two second lugs respectively with the rotating shaft are fixedly connected, for band The dynamic rotating shaft rotation；

Sunk part between described two second lugs coordinates with the first lug gap of first connector.

3. the screen adjusting device of augmented reality intelligent glasses is used for as claimed in claim 2, it is characterised in that：Described The first lug of a connection piece is provided with first boss, the depression between described two second lugs of second connector Part is provided with second boss；

It is described when the second boss contacts the first boss when second connector drives the rotating shaft to rotate Rotating shaft is stopped the rotation.

4. the screen adjusting device of augmented reality intelligent glasses is used for as claimed in claim 2, it is characterised in that：The rotating shaft Including bolt and nut, groove, the head of the bolt and institute are respectively equipped with two the second lugs of second connector State nut to be located in corresponding groove respectively, the cylinder of the bolt is located at the sunk part between two the second lugs.

5. the screen adjusting device of augmented reality intelligent glasses is used for as claimed in claim 4, it is characterised in that：The bolt It is hex bolts, the nut is hexagonal (hexagon)nut.

6. the screen adjusting device of augmented reality intelligent glasses is used for as claimed in claim 1, it is characterised in that：It is placed in described The body of the first connector in host shell is connected by position retaining mechanism with the host shell；

The host shell is stretched out at second end of first connector, used as upper and lower adjustment end；

Moved up and down by stirring the upper and lower adjustment end, make the rear end of imaging shell around host shell front end circular motion, from And adjust as the upper-lower position of screen.

7. the screen adjusting device of augmented reality intelligent glasses is used for as claimed in claim 6, it is characterised in that：The position Retaining mechanism includes the raised line being arranged on the first connector body and the groove being correspondingly arranged on host shell.

8. the screen adjusting device of augmented reality intelligent glasses is used for as claimed in claim 7, it is characterised in that：The raised line Arranged in circular arc with corresponding groove.

9. the screen adjusting device of augmented reality intelligent glasses is used for as claimed in claim 6, it is characterised in that：In the master Extreme position mechanism is set in casing body, and the adjustment end up and down for limiting first connector moves up and down scope.

10. the screen adjusting device of augmented reality intelligent glasses is used for as claimed in claim 9, it is characterised in that：The limit Position mechanism includes the positive stop lug boss being arranged on host shell.

11. screen adjusting device for augmented reality intelligent glasses as described in claim 6-10 is any, it is characterised in that： The adjustment end up and down of first connector is provided with multiple projections.

A kind of 12. augmented reality intelligent glasses, including mirror holder, main frame main body and screen imaging main body；

The main frame main body includes host shell and main frame, and the main frame is arranged in the host shell, the host shell It is connected with the mirror holder；

The screen imaging main body includes imaging housing, imaging main frame and screen, and the imaging main frame is connected with the screen, The imaging main frame is placed in the imaging housing, and the screen is exposed outside imaging housing, is imaging area with respect to human eye one side Domain；

It is characterized in that：The main frame main body and screen imaging main body adjust dress by any described screens of claim 1-11 Put connection so that screen can with left and right, move up and down.

13. augmented reality intelligent glasses as claimed in claim 12, it is characterised in that：Nose support branch is provided with the mirror holder Frame, nose support is provided with the end of the nose support support, the position on face for adjusting mirror holder.

14. augmented reality intelligent glasses as claimed in claim 13, it is characterised in that：Also include Lens assembly, the eyeglass Component includes eyeglass, eyeglass holder and fitting, and the eyeglass holder is fixed on the centre of the eyeglass by fitting, Wherein, the edge of the eyeglass holder protrudes the fitting.