CN109375377A - A kind of intelligent glasses - Google Patents

Abstract

The invention discloses a kind of intelligent glasses, the eyeglass that links together including two and the bracket for being separately positioned on two lens sides, the mounting box connecting with the bracket is equipped with below each bracket, and the mounting box extends along the length direction of the bracket, display device is equipped in the mounting box, the side close to eyeglass is provided with the first reflecting mirror in the mounting box, and close to the side of eyeglass, corresponding be provided with projects hole on mounting box, the light that the display device issues projects on eyeglass after the reflection of the first reflecting mirror from projection hole.The present invention is by being arranged display device and reflection component below bracket, and after the light that issues of display device directly passes through the reflection of the first reflecting mirror, and projection hole projects on eyeglass, to reduce the longitudinal size and weight of glasses.

Description

A kind of intelligent glasses

Technical field

The present invention relates to field of display technology, more particularly to a kind of intelligent glasses.

Background technique

Display portion on existing AR, VR and MR glasses/helmet is all display, the electricity by shell and installation inside the shell Road plate is constituted, and existing AR, VR and MR glasses/helmet is resulted in there are problems that longitudinal size is excessive and preponderance in this way.

Summary of the invention

To solve the problems, such as that existing AR, VR and MR glasses/helmet is excessive there are longitudinal size or preponderance, the present invention mention Small, the light-weight intelligent glasses for a kind of longitudinal size.

The technical solution of the present invention is as follows: a kind of intelligent glasses are provided, the eyeglass and difference to link together including two The bracket of two lens sides is set, which is characterized in that the mounting box connecting with the bracket is equipped with below each bracket, and The mounting box extends along the length direction of the bracket, and display device is equipped in the mounting box, and the mounting box is interior close The side of eyeglass is provided with the first reflecting mirror, and close to the side of eyeglass, corresponding be provided with projects hole, the display on mounting box The light that device issues projects on eyeglass after the reflection of the first reflecting mirror from projection hole.

Concavees lens and/or convex lens are provided in optical path between the display device and the first reflecting mirror, and described recessed Lens and/or convex lens can slidably reciprocate along the optical path between display device and the first reflecting mirror.

The focusing knob that can be slided along the stent length direction, the concavees lens and/or convex lens are provided on the bracket It is connect with focusing knob, makes the concavees lens and/or convex lens anti-with first along display device by sliding the focusing knob The optical path penetrated between mirror slidably reciprocates.

Each bracket is by dividing the first part formed along the stent length direction and second part is constituted, and described A part is arranged close to eyeglass；Each mounting box is by dividing the first shell and second formed along the mounting box length direction Shell is constituted, and the first part of first shell and bracket connects, and the second part of the second housing and bracket connects, institute Projection hole is stated to be arranged on the first shell.

The upper surface of the bracket is equipped with the sliding slot extended along the stent length direction, and focusing knob is mounted on the sliding slot Interior, the upper end of concavees lens and/or convex lens is together with the lower surface bonds of focusing knob.

The other side in the mounting box is equipped with the second reflecting mirror and third reflecting mirror of angled setting, the display dress The light for setting sending first projects on the first reflecting mirror after the second reflecting mirror, the reflection of third reflecting mirror, then anti-through the first reflecting mirror After penetrating, projected on eyeglass from projection hole.

Concavees lens and/or convex lens are provided in optical path between the display device and the second reflecting mirror, and described recessed Lens and/or convex lens can slidably reciprocate along the optical path between display device and the second reflecting mirror.

The focusing knob that can be slided along the stent length direction, the concavees lens and/or convex lens are provided on the bracket It is connect with focusing knob, makes the concavees lens and/or convex lens anti-with second along display device by sliding the focusing knob The optical path penetrated between mirror slidably reciprocates.

Second reflecting mirror is vertically arranged with third reflecting mirror.

Each bracket is by dividing the first part formed along the stent length direction and second part is constituted, and described A part is arranged close to eyeglass；Each mounting box is by dividing the first shell and second formed along the mounting box length direction Shell is constituted, and the first part of first shell and bracket connects, and the second part of the second housing and bracket connects, institute Projection hole is stated to be arranged on the first shell.

The present invention is by being arranged display device and reflection component below bracket, and the light that display device issues is direct After being reflected by the first reflecting mirror, projection hole is projected on eyeglass, to reduce the longitudinal size and weight of glasses.

Detailed description of the invention

Fig. 1 is the external structure of glasses in the first embodiment of the invention.

Fig. 2 is the optical cable of glasses in the first embodiment of the invention.

Fig. 3 is the light path principle figure of glasses in the first embodiment of the invention.

Fig. 4 is the optical cable of glasses in second of embodiment of the invention.

Fig. 5 is the light path principle figure of glasses in second of embodiment of the invention.

Specific embodiment

As shown in Figure 1, the intelligent glasses proposed in the first embodiment of the invention, are used for AR, VR or MR, the intelligent glasses Including two eyeglasses to link together 1, it is separately positioned on the bracket 2 and lens hanger 3 of two 1 sides of eyeglass, two mirrors Piece 1 is mounted on lens hanger 3, and two brackets 2 are connect with the both ends of lens hanger 3 respectively.

As shown in Figure 1, being equipped with the mounting box 4 connecting with the bracket 2 below each bracket 2, and mounting box 4 is along the length of bracket Direction is spent to extend.As shown in Figures 2 and 3, it is equipped with display device 8 in mounting box, is arranged in mounting box in the side close to eyeglass There is the first reflecting mirror 5, and corresponding be provided with projects hole 411 close to the side of eyeglass on mounting box.The light warp that display device 8 issues After the reflection of first reflecting mirror 5, project on eyeglass 1 from projection hole 411 (it should be noted that the display device on the left side issued Light can only correspond on the eyeglass for projecting the left side, and the light that the display device on the left side issues can only correspond to the eyeglass for projecting the left side On).In this way by being arranged display device and reflection component (the first reflecting mirror) below bracket, and display device sending After light directly passes through the reflection of the first reflecting mirror, projected on eyeglass from projection hole, to reduce the longitudinal size and weight of glasses.

Display device 8 is display or projector, and the other side in mounting box can be set in display device 8, can also The centre in mounting box is arranged in.

After in light projection to eyeglass 1, then pass through eyeglass 1 and be reflected into human eye 24, so that human eye sees image.Eyeglass 1 can To be that (such as simple glass, simple glass also have reflectivity) is made in common translucent material, non-transparent material is made and (such as pastes Attached reflective membrane or translucent semi reflective film), it is also possible to polarization structure, to picture is projected on eyeglass, then by mirror Piece is reflected into human eye and watches for user.When using common translucent material, glasses external world real scene can be through eyeglass and and mirror The image of on piece reflection is mixed together into user's eyes, meets AR, MR environment.When using non-transparent material, it can cover Ambient intake, provides VR use environment for user.

Eyeglass be it is replaceable, different eyeglasses can be used in AR, MR and VR environment.

In addition, AR, MR or VR glasses in the prior art are expensive, several hundred dollars are generally required, the reason is that Its used eyeglass integrated level requirement is very high, and cost of manufacture is expensive.And the present invention realizes AR, MR by above-mentioned structure setting Or VR effect only needs existing common eyeglass, greatly reduces cost.

Each bracket is by dividing the first part 21 formed along the stent length direction and second part 22 is constituted, and first 21 are divided to be arranged close to eyeglass 1.Each mounting box along the mounting box length direction by dividing outside the first shell 41 and second formed Shell 42 is constituted, and the first shell 41 is connect with the first part 21 of bracket, and second housing 42 is connect with the second part 22 of bracket, is thrown Perforation 411 is arranged on the first shell 41.In the present embodiment, the first part 21 of the first shell 41 and bracket is integrally formed, the The second part 22 of two shells 42 and bracket is integrally formed.

As shown in Figures 2 and 3, concavees lens 9 and/or convex are provided in the optical path between display device 8 and the first reflecting mirror 5 Lens 10, and concavees lens 9 and/or convex lens 10 can slidably reciprocate along the optical path between display device 8 and the first reflecting mirror 5. When concavees lens and/or convex lens slidably reciprocate in the optical path between display device and the second reflecting mirror, thus it is possible to vary concavees lens And/or convex lens and the direct distance of display device, thus to change the clarity and size that project the picture on eyeglass.Separately Outside, for having the user of myopia or long sight that can make by adjusting the clarity and size of the picture projected on eyeglass It obtains near-sighted or long sight user and does not have to band spectacles or spectacles for long sight it is seen that clear picture, use are very convenient.

As shown in Fig. 2, being provided on bracket can be long along the bracket in order to facilitate the sliding of concavees lens 9 and/or convex lens 10 The focusing knob 11 of direction sliding is spent, concavees lens 9 and/or convex lens 10 are connect with focusing knob 11, are made by sliding focusing knob 11 Concavees lens 9 and/or convex lens 10 slidably reciprocate along the optical path between display device 8 and the first reflecting mirror 5.

The upper surface of bracket is equipped with the sliding slot 23 extended along the stent length direction, and focusing knob 11 is mounted on the sliding slot 23 Interior, the upper end of concavees lens 9 and/or convex lens 10 is together with the lower surface bonds of focusing knob 23.In the present embodiment, sliding slot 23 is set It sets on the upper surface of the first part 21 of bracket.

As shown in Figure 4 and Figure 5, in second of embodiment, the other side second equipped with angled setting in mounting box is anti- Penetrate mirror 6 and third reflecting mirror 7.The light that display device 8 issues first projects the after the second reflecting mirror 6, third reflecting mirror 7 reflect On one reflecting mirror 5, then after the reflection of the first reflecting mirror 5, projected on eyeglass 1 from projection hole 411.In this way by by display device It is arranged below bracket with reflection component (the first reflecting mirror, the second reflecting mirror and third reflecting mirror), and display device issues Light directly pass through the second reflecting mirror, third reflecting mirror, the first reflecting mirror reflection after, from projection hole project on eyeglass, thus Reduce the longitudinal size and weight of glasses.

After in light projection to eyeglass 1, then pass through eyeglass 1 and be reflected into human eye 24, so that human eye sees image.Eyeglass 1 can To be common light transmission, non-transparent material, it is also possible to polarization structure, to picture is projected on eyeglass, then by lens reflecting It is watched to human eye for user.When using common translucent material, glasses external world real scene can through eyeglass and with it is anti-on eyeglass It penetrates image to be mixed together into the user visual field, meets AR, MR environment.When using non-transparent material, ambient can be covered Intake, provides VR use environment for user.

In addition, AR, MR or VR glasses in the prior art are expensive, several hundred dollars are generally required, the reason is that Its used eyeglass integrated level requirement is very high, and cost of manufacture is expensive.And the present invention realizes AR, MR by above-mentioned structure setting Or VR effect only needs existing common eyeglass, greatly reduces cost.

As shown in figure 5, the second reflecting mirror 6 is vertically arranged with third reflecting mirror 7 in the present embodiment, and display device 8 is sent out Light out is projected on the second reflecting mirror 6 with 45 degree of incidence angles, and such light is understood after the reflection of third reflecting mirror 7 and projects second The light of reflecting mirror 6 is parallel.Display device 8 can be set in the two sides of mounting box, also can be set in the centre of mounting box.

As shown in figure 4, second housing is made of frame 421 and the outer cover connecting with frame 421 422, frame 421 and bracket Second part 22 be integrally formed.Interlayer 43 is provided between first shell 41 and second housing.First reflecting mirror 5 and third are anti- It penetrates mirror 7 to be arranged in the first shell 41, display device 8 and the second reflecting mirror 6 are arranged in second housing.

As shown in Figure 4 and Figure 5, concavees lens 9 and/or convex are provided in the optical path between display device 8 and the second reflecting mirror 6 Lens 10, and concavees lens 9 and/or convex lens 10 can slidably reciprocate along the optical path between display device 8 and the second reflecting mirror 6, Concavees lens and/or convex lens are provided in optical path in its effect and the first embodiment between display device and the first reflecting mirror Mirror is the same.

As shown in figure 4, the upper surface of the second part 22 of bracket is equipped with prolongs along the stent length direction in the present embodiment The sliding slot 23 stretched, focusing knob 11 are mounted in the sliding slot 23, under the upper end of concavees lens 9 and/or convex lens 10 and focusing knob 11 Surface bonds together.

Display device is different from the display module of common the ratio of width to height, and the ratio of width to height of the display device display scale is higher, X-axis More pixels are compressed, width is narrower, is conducive to picture compression, later can be by picture after the projection of above-mentioned reflection component Uniformly it is expanded to eyeglass.Digital content is adjusted to be more conducive to project the picture knot on the glasses by display device by software Structure, compressed content, the picture deformation after avoiding projection project more precisely (trapezoidal in similar projection instrument with complete picture Correction).

The present invention can substantially reduce the longitudinal size and weight of AR, VR, MR glasses, and at low cost, practical value is higher, more It is readily produced, and display effect, display precision are able to maintain or even exceed existing product, and display area is bigger.

Above specific embodiment is only to the design illustrated the present invention, and those skilled in the art are in this hair Various deformation and variation can be made under bright design, these deformations and variation are included within protection scope of the present invention.

Claims (10)

1. a kind of intelligent glasses including two eyeglasses to link together (1) and are separately positioned on two lens sides Bracket (2), which is characterized in that the mounting box (4) connecting with the bracket is equipped with below each bracket, and the mounting box is along the branch The length direction of frame extends, and is equipped with display device (8) in the mounting box, is arranged in the mounting box in the side close to eyeglass There are the first reflecting mirror (5), and corresponding be provided with projects hole (411) close to the side of eyeglass on mounting box, the display device hair Light out projects on eyeglass after the reflection of the first reflecting mirror from projection hole.

2. intelligent glasses according to claim 1, which is characterized in that the display device (8) and the first reflecting mirror (5) it Between optical path on be provided with concavees lens (9) and/or convex lens (10), and the concavees lens and/or convex lens can be filled along display The optical path set between the first reflecting mirror slidably reciprocates.

3. intelligent glasses according to claim 2, which is characterized in that being provided on the bracket (2) can be long along the bracket The focusing knob (11) of direction sliding is spent, the concavees lens (9) and/or convex lens (10) are connect with focusing knob, by described in sliding Focusing knob makes the concavees lens and/or the convex lens slidably reciprocate along the optical path between display device and the first reflecting mirror.

4. intelligent glasses according to any one of claim 1 to 3, which is characterized in that each bracket (2) should by edge The first part to be formed (21) is divided in stent length direction and second part (22) is constituted, and the first part (21) is close to eyeglass (1) it is arranged；Each mounting box (4) is by dividing the first shell (41) and second housing that are formed along the mounting box length direction (42) it constitutes, the first part of first shell and bracket connects, and the second part of the second housing and bracket connects, institute Projection hole (411) is stated to be arranged on the first shell.

5. intelligent glasses according to claim 3, which is characterized in that the upper surface of the bracket (2) is equipped with along the branch The sliding slot (23) that frame length direction extends, focusing knob (11) is mounted in the sliding slot, concavees lens (9) and/or convex lens (10) Upper end is together with the lower surface bonds of focusing knob.

6. intelligent glasses according to claim 1, which is characterized in that it is in angle that the other side in the mounting box (4), which is equipped with, Spend the second reflecting mirror (6) and third reflecting mirror (7) of setting, the light of the display device (8) sending is first through the second reflecting mirror, the It projects on the first reflecting mirror (5) after the reflection of three reflecting mirrors, then after the reflection of the first reflecting mirror, is projected from projection hole (411) On eyeglass.

7. intelligent glasses according to claim 6, which is characterized in that the display device (8) and the second reflecting mirror (6) it Between optical path on be provided with concavees lens (9) and/or convex lens (10), and the concavees lens and/or convex lens can be filled along display The optical path set between the second reflecting mirror slidably reciprocates.

8. intelligent glasses according to claim 7, which is characterized in that being provided on the bracket (2) can be long along the bracket The focusing knob (11) of direction sliding is spent, the concavees lens (9) and/or convex lens (10) are connect with focusing knob, by described in sliding Focusing knob slides the concavees lens and/or convex lens back and forth along the optical path between display device (8) and the second reflecting mirror (6) It is dynamic.

9. intelligent glasses according to claim 6, which is characterized in that second reflecting mirror (6) and third reflecting mirror (7) It is vertically arranged.

10. intelligent glasses according to any one of claims 6 to 9, which is characterized in that each bracket (2) is by edge The first part to be formed is divided in the stent length direction and second part (42) is constituted, and the first part is arranged close to eyeglass； Each mounting box (4) is by dividing the first shell (41) formed and second housing (42) structure along the mounting box length direction At, first part's connection of first shell and bracket, the second part connection of the second housing and bracket, the projection Hole (411) is arranged on the first shell.