CN207937712U - A kind of augmented reality glasses - Google Patents

Abstract

The utility model discloses a kind of augmented reality glasses, including lens body and optical module, the optical module is connected in the lens body, the optical module is arranged in the outside of the lens body, at least one end of the optical module is rotatably connected in any temple of the lens body, the relatively described temple damping rotary of the optical module.The augmented reality glasses of the utility model, optical module is arranged in the outside of lens body, at least one end of optical module is rotatably connected in any temple of lens body, make optical module with respect to temple damping rotary, so as to easily adjust the position of optical module in slewing area, precisely matching augmented reality image and human eye sight are experienced with obtaining preferable augmented reality.

Description

A kind of augmented reality glasses

Technical field

The utility model is related to wearable device technical field, more particularly to a kind of augmented reality glasses.

Background technology

With the continuous development of augmented reality, augmented reality class wearable device rapid emergence, for example, augmented reality eye The terminal devices such as mirror.Augmented reality glasses use optical module to be placed in user at the moment to provide augmented reality scene, in order to improve The structure design of the experience of terminal user, optical module is also required to increasingly exquisiteness, and for the ease of using, optical components sector needs It to be adapted to the eyes of different people by adjusting position, makes virtual imaging that can be presented on the front of glasses just, improves The experience that user wears.

In order to easily use augmented reality glasses, the position of optical module is adjusted so that user obtains preferably increasing Strong reality scene effect, it is desirable to provide a kind of optical assembly structure of the convenient adjusting of energy, to improve application effect of products and user Experience.

Utility model content

In view of prior art augmented reality glasses convenient adjusting the problem of, it is proposed that a kind of enhancing of the utility model is existing Real glasses, to overcome the above problem or to solve the above problems at least partly.

To achieve the goals above, the utility model uses following technical solution：

A kind of augmented reality glasses, including lens body and optical module, the optical module are connected to the glasses master On body, the optical module is arranged in the outside of the lens body, and at least one end of the optical module is rotatably connected on institute It states in any temple of lens body, the relatively described temple damping rotary of the optical module.

Optionally, the optical module is the L-type structure that component one and component two are constituted, the component one and the temple Damping rotary connects, and is arranged along on the outside of the temple；The component two include optical element, and the optical element along The eyeglass setting adjacent with the temple.

Optionally, the component one is connect by interconnecting piece with the temple damping rotary, and the interconnecting piece includes：First Shaft, the first cushion rubber, the first pressing gasket, check washer, the second cushion rubber and trip bolt；

The first rotating shaft is fixed on the outside of the component one, is provided with axis hole in the temple, the first rotating shaft from The axis hole is pierced by, and sequentially passes through first cushion rubber, the first pressing gasket, check washer and the second cushion rubber, the fastening Screw screws in the end of the first rotating shaft in an axial direction, locks first cushion rubber, the first pressing gasket, check washer and second Cushion rubber.

Optionally, the component one is connect by interconnecting piece with the temple damping rotary, and the interconnecting piece includes：First Shaft, cushion rubber and the first butterfly card mat piece；The first rotating shaft is fixed on one outside of the component, and axis is provided in the temple Hole, the first rotating shaft are passed through from the axis hole, and sequentially pass through the cushion rubber and the first butterfly card mat piece, and described first Shaft end is provided with the first buckle, cushion rubber described in snap lock described in the first butterfly card mat piece clamping.

Optionally, the component one further includes rotation section, and the rotation section divides the component one for leading portion and back segment, institute It states leading portion to connect with the component two, the back segment is connect with the temple lateral wall damping rotary, and the leading portion and described Back segment is connected by the rotation section damping rotary.

Optionally, the rotation section includes：Rotating connector and the second shaft；Second shaft is fixed on the leading portion On, the rotating connector is set in second shaft to be interference fitted with second shaft, the rotating connector End is fixedly connected with the back segment, and position limiting structure, the limit are provided between second shaft and the rotating connector Structure limits the rotating connector and is rotated within a predetermined range around second shaft.

Optionally, the rotation section includes：Second shaft, first rotating shaft component, the second rotating assembly, spring, second are pressed Pressure pad piece and the second butterfly card mat piece；The first rotating shaft component and second rotating assembly be separately fixed at the back segment and On the leading portion, axis hole is both provided on the first rotating shaft component and second rotating assembly, second shaft passes through After the axis hole of the first rotating shaft component and second rotating assembly, continue to sequentially pass through the spring, second pressing Gasket and the second butterfly card mat piece, second shaft end are provided with the second buckle, the second butterfly card mat piece card Tight second buckle is to fasten the first rotating shaft component, second rotating assembly, the spring and second pressing The face that gasket, the first rotating shaft component and second rotating assembly contact with each other is damping friction face.

Optionally, the rotation section includes：Second shaft and snap-in structure；Second shaft is fixed on the back segment On, the snap-in structure is fixed on the leading portion, and the snap-in structure includes multiple claws, and multiple claws engage institute It states the second shaft to be interference fitted with second shaft, second shaft and/or the claw are self-lubricating material.

Optionally, the rotation section includes：Second shaft and silica gel sliding slot；Second shaft is fixed on the leading portion On, the silica gel sliding slot setting is in the rear in section, and the silica gel sliding slot is made of the axis hole of multiple connections, second shaft It is interference fitted across one of silica gel sliding slot axis hole and the axis hole, and second shaft can be under external force It slides along the silica gel sliding slot, is interference fitted with axis hole described in any one.

Optionally, the silica gel sliding slot is provided with parallel two, and second shaft is from two silica gel sliding slots pair Neat axis hole passes through, and is interference fitted with the axis hole.

Optionally, the length of the augmented reality glasses is less than or equal to 190mm, the width of the augmented reality glasses is less than It is less than or equal to 160mm equal to 140mm, the temple length.

Optionally, the quality of the augmented reality glasses is less than or equal to 100g.

In conclusion the utility model has the beneficial effects that：

Optical module is arranged in the outside of lens body the augmented reality glasses of the utility model, and optical module is extremely Few one end is rotatably connected in any temple of lens body, makes optical module with respect to temple damping rotary, so as to convenient Ground adjusts the position of optical module in slewing area, precisely matches augmented reality image and human eye sight, preferable to obtain Augmented reality is experienced.

Description of the drawings

Fig. 1 is the vertical view of the utility model augmented reality glasses；

Fig. 2 is the side view of the utility model augmented reality glasses；

Fig. 3 is the optical module and lens body connection structure shown in the utility model augmented reality eyeglasses embodiment one；

Fig. 4 is the optical module and lens body connection structure shown in the utility model augmented reality eyeglasses embodiment two；

Fig. 5 is that the leading portion of the optical module shown in the utility model augmented reality eyeglasses embodiment three connect knot with back segment Structure；

Fig. 6 is the sectional view of optical module shown in Fig. 5；

Fig. 7 is that the leading portion of the optical module shown in the utility model augmented reality eyeglasses embodiment four connect knot with back segment Structure；

Fig. 8 is the sectional view of optical module shown in Fig. 7；

Fig. 9 is that the leading portion of the optical module shown in the utility model augmented reality eyeglasses embodiment five connect knot with back segment Structure；

Figure 10 is another side view of the utility model augmented reality glasses；

Figure 11 is the adjusting angular range schematic diagram of the utility model augmented reality glasses；

Figure 12 is that the leading portion of the optical module shown in the utility model augmented reality eyeglasses embodiment six connect knot with back segment Structure；

Figure 13 is silica gel sliding slot schematic cross-section in Figure 12；

Figure 14 is the vertical view of the utility model augmented reality eyeglasses embodiment six.

Specific implementation mode

It is new to this practicality below in conjunction with attached drawing to keep the purpose of this utility model, technical solution and advantage clearer Type embodiment is described in further detail.

The technical concept of the utility model is：Optical module damping rotary is connected to the outside of lens body, so as to By rotating optical module, to adjust the position of augmented reality image, preferably be adapted to the head size and eye of different wearers Eyeball position provides the augmented reality experience of wearer.

Fig. 1 is the vertical view of the utility model augmented reality glasses, and Fig. 2 is the side view of the utility model augmented reality glasses Figure.

The utility model discloses a kind of augmented reality glasses, as depicted in figs. 1 and 2, including lens body 100 and optics Component 200.Optical module 200 is connected in lens body 100, and optical module 200 is arranged in the outside of lens body 100.Eye The outside of mirror main body 100 refers to side of the lens body 100 backwards to user head when wearing.Optical module 200 is at least One end is rotatably connected in any temple of lens body 100.Optical module 200 is with respect to temple damping rotary.

As shown in Fig. 1 vertical views, one end of optical module 200 is connected on the outside of the temple of lens body 100, optical module 200 can be rotated up in vertical paper side.In this way, user is when wearing the augmented reality glasses, so that it may in eyes Upper and lower is adjusted up optical module 200, makes the augmented reality image that optical module 200 provides and sight accurate match.For example, Fig. 2 shows optical modules 200 to be pivotally lowered into schematic diagram at (2) position from (1) position.

In some embodiments of the utility model, optical module 200 can also have multi-terminal link lens body 100.Example Such as, optical module 200 is positioned across to the structure of two pieces of eyeglasses, the both ends of optical module 200 is allowed to connect respectively with two temples It connects.

In some embodiments of the utility model, optical module 200 is the L-type that component 1 and component 2 220 are constituted Structure, as shown in Figure 1.Component 1 is connect with temple damping rotary, and is arranged along on the outside of temple.Component 2 220 includes light Element is learned, and optical element is arranged along the eyeglass adjacent with temple.Optical element is used for providing augmented reality field to user Scape may include the optical mirror slips such as prism, can also include transparent or semitransparent display, not do detailed restriction herein.

Embodiment one

Fig. 3 is the optical module and lens body connection structure shown in the utility model augmented reality eyeglasses embodiment one. As shown in figure 3, component 1 is connect by interconnecting piece with temple damping rotary, interconnecting piece includes：First rotating shaft 301, the first glue The 302, first pressing of circle gasket 303, check washer 304, the second cushion rubber 305 and trip bolt 306.

First rotating shaft 301 is fixed on one 210 outside of component, and axis hole is provided in the temple of lens body 100.First rotating shaft 301 are pierced by from the axis hole of temple, and sequentially pass through the first cushion rubber 302, first pressing gasket 303, check washer 304 and the second glue Circle 305, trip bolt 306 screw in the end of first rotating shaft 301 in an axial direction, the first cushion rubber 302, first of locking press gasket 303, Check washer 304 and the second cushion rubber 305, the fastening force provided by trip bolt 306, to make the structures such as first rotating shaft 301 exist Frictional force is generated when rotation, to generate damping.

First pressing gasket 303 is flat metallic gasket, and for providing sealing effect, intensity is high, and durable, service life is long. Check washer 304 is to be threaded or the metal gasket of the conical surface, for preventing trip bolt 306 from loosening.First cushion rubber 302 is located at Between lens body 100 and first presses gasket 303, the second cushion rubber 305 is between check washer 304 and trip bolt 306. First cushion rubber 302 and the second cushion rubber 305 are while providing elastic force, moreover it is possible to avoid the gasket and lens body 100 of metal material Or the friction of trip bolt 306 generates noise, realizes that mute rotation is adjusted, and promote the service life of first rotating shaft 301.

Embodiment two

Fig. 4 is the optical module and lens body connection structure shown in the utility model augmented reality eyeglasses embodiment two.

As shown in figure 4, component 1 is connect by interconnecting piece with temple damping rotary, interconnecting piece includes：First rotating shaft 401, cushion rubber 402 and the first butterfly card mat piece 403.First rotating shaft 401 is fixed on one 210 outside of component, and axis is provided in temple Hole, first rotating shaft 401 are passed through from axis hole, and sequentially pass through cushion rubber 402 and the first butterfly card mat piece 403,401 end of first rotating shaft It is provided with the first buckle 4011,403 clamping of the first butterfly card mat piece buckle 4011 locks cushion rubber 402.

In the embodiment two, realized using first rotating shaft 401 between optical module 200 and the temple of lens body 100 Rotation connection, and since there are cushion rubbers 402, under the elastic force and friction force effect of cushion rubber 402, optical module 200 and temple Between form damping rotary, rotation adjusts comfortable feel.Also, damping force is relied on, optical module 200 can be arbitrary what is turned to Position is hovered, and to be adapted to the eye position of different users, provides good augmented reality experience.

Embodiment three

Fig. 5 is that the leading portion of the optical module shown in the utility model augmented reality eyeglasses embodiment three connect knot with back segment Structure.Fig. 6 is the sectional view of optical module shown in Fig. 5.

As shown in figure 5, component 1 further includes rotation section, one 210 points by component of rotation section is leading portion 211 and back segment 212 (reference can be made to Fig. 1).Leading portion 211 is connect with component 2 220, and back segment 212 is connect with temple lateral wall damping rotary, and leading portion 211 It is connected by rotation section damping rotary with back segment 212.

As shown in Figure 5 and Figure 6, the rotation section between leading portion 211 and back segment 212 includes：Second shaft 501 and rotation connection Part 502.Second shaft 501 is fixed on leading portion 211.Rotating connector 502 is set in the second shaft 501, and with second turn Axis 501 is interference fitted.The end of rotating connector 502 is fixedly connected with back segment 212.Second shaft 501 and rotating connector 502 it Between be provided with position limiting structure, position limiting structure limits rotating connector and is rotated within a predetermined range around the second shaft 501.

In some embodiments of the utility model, sheet metal process or metal injection may be used in rotating connector 502 Forming technology processing and fabricating, rotating connector 502 and the second shaft 501 are interference fitted to generate damping.Second shaft 501 It is locked on leading portion 211 by screw 501, rotating connector 502 is locked at by screw 504 on back segment 212.

In some embodiments of the utility model, the position limiting structure between the second shaft 501 and rotating connector 502, The shaft shoulder in the second shaft 502 may be used to realize.

Example IV

Fig. 7 is that the leading portion of the optical module shown in the utility model augmented reality eyeglasses embodiment four connect knot with back segment Structure.Fig. 8 is the sectional view of optical module shown in Fig. 7.

As shown in Figure 7 and Figure 8, the rotation section between the leading portion 211 and back segment 212 of optical module 200 includes：Second shaft 701, first rotating shaft component 702, the second rotating assembly 703, spring 704, second press gasket 705 and the second butterfly card mat piece 706.First rotating shaft component 702 and the second rotating assembly 703 are separately fixed on back segment 212 and leading portion 211.First rotating shaft component 702 and second are both provided with axis hole on rotating assembly 703.Second shaft 701 passes through first rotating shaft component 702 and the second shaft group After the axis hole of part 703, continue to sequentially pass through the pressing gasket 705 of spring 704, second and the second butterfly card mat piece 706.Second shaft 701 ends are provided with the second buckle 7011.Second butterfly card mat piece, 706 clamping second buckle 7011, to fasten first rotating shaft group Part 702, the second rotating assembly 703, spring 704 and second press gasket 705.First rotating shaft component 702 and the second rotating assembly 703 faces to contact with each other are damping friction face.

It is provided with threaded hole on first rotating shaft component 702 and the second rotating assembly 703, first rotating shaft component 702 is by passing through The screw 707 of threaded hole is fixed on back segment 212.Second rotating assembly 703 is fixed on leading portion by screw 708 and screw 709 On 211.Second shaft 701 sequentially passes through 704 He of axis hole and spring of first rotating shaft component 702 and the second rotating assembly 703 Second pressing gasket 705.Locking is realized in 706 clamping of the buckle 7011 of second shaft, 701 end and the second butterfly card mat piece. Under the elastic force effect of spring 704, first rotating shaft component 702 and the second rotating assembly 703 are pressed together.When rotation is adjusted, Damping is realized by the frictional resistance between first rotating shaft component 702 and the second rotating assembly 703.

Embodiment five

Fig. 9 is that the leading portion of the optical module shown in the utility model augmented reality eyeglasses embodiment five connect knot with back segment Structure.

As shown in figure 9, the rotation section between leading portion 211 and back segment 212 includes：Second shaft 901 and snap-in structure 902. Second shaft 902 is fixed on back segment 212.Snap-in structure 902 is fixed on leading portion 211.Snap-in structure 902 includes multiple claws 9021, it is 2 claws 9021 in embodiment illustrated in fig. 9.However, the quantity of claw 9021 is not limited to this, can be arranged more To improve the fastness of engaging.Multiple claws 9021 engage the second shaft 901, and are interference fitted with the second shaft 901.Second Shaft 901 and/or claw 9021 are self-lubricating material.

Snap-in structure 902 is assembled with shaft 901 by the way of clamping, easy to operate simple.Also, shaft 901 and card At least one party uses self-lubricating material in pawl 9021, damping rotary can be made to adjust more smooth, operating handle is comfortable.

By setting the component 1 of optical module 200 to segmental structure, the opposite of leading portion 211 and back segment 212 is utilized Rotation, can further expand the adjustable extent of augmented reality image.Figure 10 is the another of the utility model augmented reality glasses Side view diagram, the side view show leading portion 211 and are rotated down with respect to back segment 212, are adjusted to (2) ' position from (1) ' position The schematic diagram at place.

Figure 11 is the adjusting angular range schematic diagram of the utility model augmented reality glasses.The schematic shows glasses masters Two-stage rotation between body 100 and optical module 200 and between the leading portion of optical module 100 211 and back segment 212 is adjusted.

The augmented reality glasses of the utility model have two-stage rotation shaft regulated, including：Lens body 100 and optical module The first order between 200 is rotation shaft regulated and the second level between 200 leading portion 211 of optical module and back segment 212 is rotation shaft regulated. As shown in figure 11, it when optical module 200 keeps straight configuration, is rotated and is adjusted by first order shaft, can so that optics is first It is arbitrarily adjusted between extreme position shown in part extreme position and the ends B shown in the ends A.

After carrying out rotation adjusting using first order shaft, it can also be rotated and be adjusted by second level shaft again, continued pair Augmented reality image position carries out precise fine-adjustment.For example, the extreme position shown in A, is rotated using second level shaft and is adjusted, made Optical element is arbitrarily adjusted between the position shown in C1 and C2.The extreme position shown in B is rotated by second level shaft and is adjusted Section, makes arbitrarily to adjust between optical element position shown in D1 and D2.

The angular range that the rotation of first order shaft is adjusted is φ, for example, realizing the angular range tune of φ=30 ° in Figure 11 Section.Meanwhile rotating and adjusting by second level shaft, it can further expand the angle of regulation range, i.e., from the angle of original A-B Degree range is expanded to the angular range of C1-D1.In this way, during wearing, user can be rotated by first order shaft and be adjusted Section carries out coarse adjustment, adjusts to after Position Approximate, recycles shaft rotation in the second level to adjust and realizes precise fine-adjustment, so that enhancing Reality imagery reaches the optimum position for meeting user's demand.

Embodiment six

Figure 12 is that the leading portion of the optical module shown in the utility model augmented reality eyeglasses embodiment six connect knot with back segment Structure.Figure 13 is silica gel sliding slot schematic cross-section in Figure 12.Figure 14 is the vertical view of the utility model augmented reality eyeglasses embodiment six Figure.

In the embodiment six, the leading portion 211 and back segment 212 of optical module 100 not only can be as shown in Figure 10, realize Rotation is adjusted, and can also realize slidable adjustment.As shown in Figure 12 and Figure 13, the rotation section packet between leading portion 211 and back segment 212 It includes：Second shaft 1201 and silica gel sliding slot 1202.Second shaft 1201 is fixed on by screw 1203 on leading portion 211.Silica gel sliding slot 1202 are arranged on back segment 212.Silica gel sliding slot 1202 is made of the axis hole 12021 of multiple connections, as shown in figure 13, silica gel sliding slot In 1202, the i.e. corresponding axis hole 12021 of each circular arc.Second shaft 1201 passes through one of silica gel sliding slot 1202 axis Hole 12021, and be interference fitted with axis hole 12021.To realize that the damping rotary between leading portion 211 and back segment 212 connects, before making Section 211 can be rotated relative to back segment 212 according to shown in curve arrow in Figure 12, realize that the rotation of augmented reality image is adjusted.

Also, the second shaft 1201 can also be slided along silica gel sliding slot 1202 under external force, slide into any one axis hole 12021, and be interference fitted with any one axis hole.In this way, push-and-pull operation can be realized according to direction shown in hollow arrow in Figure 12, So that leading portion 211 is slided with respect to back segment 212, realizes the slidable adjustment of augmented reality image.

Preferably, silica gel sliding slot 1202 is provided with parallel two, and the second shaft 1201 is right from two silica gel sliding slots 1202 Neat axis hole 12021 passes through, and is interference fitted with axis hole 12021.Pass through two parallel silica gel sliding slots 1202 and the second shaft 1201 cooperations, can prevent the second shaft 1201 from swinging, and improve the stability that rotation is adjusted.Certainly, the number of silica gel sliding slot 1202 It measures without being limited thereto, may be set to be more a plurality of, details are not described herein.

Preferably, silica gel sliding slot 1202 and the plastic casing of back segment 212 are made by two-component injection technique.Double-material injection-molding work Skill makes two kinds of materials of silica gel and plastic cement be firmly combined with, and the present embodiment augmented reality glasses is made to have longer service life.

As shown in Figure 14 vertical views, when wearing, the optical element being arranged on component 2 220 provides augmented reality image. In paper, by pushing and pulling leading portion 211, adjusting of the augmented reality image in eyes left and right directions may be implemented.In vertical paper side Upwards, the rotation by 200 back segment 212 of optical module relative to lens body 100 and 200 leading portion 211 of optical module relatively after The rotation of section 212, may be implemented adjusting of the augmented reality image in eyes upper and lower directions.

In the various embodiments described above of the utility model, the length of augmented reality glasses is less than or equal to 190mm, augmented reality The width of glasses is less than or equal to 140mm, the temple length of augmented reality glasses is less than or equal to 160mm.

In the various embodiments described above of the utility model, the quality of augmented reality glasses is less than or equal to 100g, to meet eye The lighting requirement of mirror, improves wearing comfort.

Above description is only a specific implementation of the present invention, under the above-mentioned introduction of the utility model, this field Technical staff can carry out other improvement or deformation on the basis of the above embodiments.It will be understood by those skilled in the art that Above-mentioned specific descriptions only preferably explain the purpose of this utility model, and the scope of protection of the utility model should be with claim Protection domain subject to.

Claims (13)

1. a kind of augmented reality glasses, including lens body and optical module, the optical module are connected to the lens body On, which is characterized in that the optical module is arranged in the outside of the lens body, and at least one end of the optical module rotates It is connected in any temple of the lens body, the relatively described temple damping rotary of the optical module, the optical module For the L-type structure that component one and component two are constituted, the component one is connect with the temple damping rotary, and along the temple Outside is arranged；The component two includes optical element, and the optical element is arranged along the eyeglass adjacent with the temple.

2. augmented reality glasses according to claim 1, which is characterized in that the component one passes through interconnecting piece and the mirror Leg damping rotary connects, and the interconnecting piece includes：First rotating shaft, the first cushion rubber, the first pressing gasket, check washer, the second glue Circle and trip bolt；

The first rotating shaft is fixed on the outside of the component one, is provided with axis hole in the temple, and the first rotating shaft is from described Axis hole is pierced by, and sequentially passes through first cushion rubber, the first pressing gasket, check washer and the second cushion rubber, the trip bolt The end of the first rotating shaft is screwed in an axial direction, locks first cushion rubber, the first pressing gasket, check washer and the second glue Circle.

3. augmented reality glasses according to claim 1, which is characterized in that the component one passes through interconnecting piece and the mirror Leg damping rotary connects, and the interconnecting piece includes：First rotating shaft, cushion rubber and the first butterfly card mat piece；The first rotating shaft is fixed In one outside of the component, it is provided with axis hole in the temple, the first rotating shaft is passed through from the axis hole, and sequentially passes through institute Cushion rubber and the first butterfly card mat piece are stated, the first rotating shaft end is provided with the first buckle, the first butterfly card mat piece Cushion rubber described in snap lock described in clamping.

4. according to claim 1-3 any one of them augmented reality glasses, which is characterized in that the component one further includes rotation Portion, the rotation section divide the component one for leading portion and back segment, and the leading portion is connect with the component two, the back segment and institute The connection of temple lateral wall damping rotary is stated, and the leading portion is connected with the back segment by the rotation section damping rotary.

5. augmented reality glasses according to claim 4, which is characterized in that the rotation section includes：Rotating connector and Second shaft；Second shaft is fixed on the leading portion, and the rotating connector is set in second shaft and institute State the second shaft interference fit, the end of the rotating connector is fixedly connected with the back segment, second shaft with described turn It is provided with position limiting structure between follower link, the position limiting structure limits the rotating connector within a predetermined range around described the Two shafts rotate.

6. augmented reality glasses according to claim 4, which is characterized in that the rotation section includes：Second shaft, first Rotating assembly, the second rotating assembly, spring, the second pressing gasket and the second butterfly card mat piece；The first rotating shaft component and institute It states the second rotating assembly to be separately fixed on the back segment and the leading portion, the first rotating shaft component and the second shaft group Axis hole is both provided on part, after second shaft passes through the axis hole of the first rotating shaft component and second rotating assembly, Continue to sequentially pass through the spring, the second pressing gasket and the second butterfly card mat piece, second shaft end to set It is equipped with the second buckle, the second buckle described in the second butterfly card mat piece clamping is to fasten the first rotating shaft component, described the Two rotating assemblies, the spring and the second pressing gasket, the first rotating shaft component and second rotating assembly are mutual The face of contact is damping friction face.

7. augmented reality glasses according to claim 4, which is characterized in that the rotation section includes：Second shaft and card Close structure；Second shaft is fixed on the back segment, and the snap-in structure is fixed on the leading portion, the snap-in structure Including multiple claws, multiple claws engage second shaft and are interference fitted with second shaft, described second turn Axis and/or the claw are self-lubricating material.

8. augmented reality glasses according to claim 4, which is characterized in that the rotation section includes：Second shaft and silicon Glue sliding slot；Second shaft is fixed on the leading portion, and the silica gel sliding slot is arranged in section in the rear, the silica gel sliding slot It is made of the axis hole of multiple connections, second shaft passes through one of silica gel sliding slot axis hole and the axis hole interference Cooperation, and second shaft can be slided along the silica gel sliding slot under external force, be interference fitted with axis hole described in any one.

9. augmented reality glasses according to claim 8, which is characterized in that the silica gel sliding slot is provided with parallel two Item, the axis hole that second shaft is aligned from two silica gel sliding slots pass through, and are interference fitted with the axis hole.

10. according to claim 1-3 or 5-9 any one of them augmented reality glasses, which is characterized in that the augmented reality eye The length of mirror is less than or equal to 190mm, the width of the augmented reality glasses is less than or equal to 140mm, the temple length is less than etc. In 160mm.

11. according to claim 1-3 or 5-9 any one of them augmented reality glasses, which is characterized in that the augmented reality eye The quality of mirror is less than or equal to 100g.

12. augmented reality glasses according to claim 4, which is characterized in that the length of the augmented reality glasses is less than Width equal to 190mm, the augmented reality glasses is less than or equal to 140mm, the temple length less than or equal to 160mm.

13. augmented reality glasses according to claim 4, which is characterized in that the quality of the augmented reality glasses is less than Equal to 100g.