CN207937688U - 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, and the optical module connection is arranged on the either mirror leg outer side of the lens body, and damping rotary connects between the optical module and the temple.The augmented reality glasses of the utility model, the either mirror leg outer side in lens body is arranged in optical module connection, and its damping rotary between temple is made to connect, so as to easily operate optical module on the outside of temple, realize that rotation adjusts and hovers over any position, to be adapted to the eyes of different users, the augmented reality experience of user is improved.

Description

A kind of augmented reality glasses

Technical field

The utility model is related to a kind of augmented reality glasses.

Background technology

With the continuous development of augmented reality, there are more and more augmented reality glasses, use optics group Part is placed in front of user's eyes, to provide augmented reality scene.However, for different users, head size, eyes Position is distinct, and the optical module being only fixed on enhancing glasses is insufficient for the wearing demand of different users, leads It causes the augmented reality scene that glasses terminal provides to coordinate with sight bad, affects user experience.

In order to improve the user experience of glasses terminal user, it is desirable to provide a kind of optical module of the convenient adjusting of energy Structure adjusts the position of optical module, so that optical module can be adapted to the eyes of different users, it is preferable to make user obtain Augmented reality scene effect.

Utility model content

The problem of cannot being adapted to different users very well in view of prior art augmented reality glasses, it is proposed that the utility model A kind of augmented reality 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 connection is arranged on the either mirror leg outer side of the lens body, the optical module and the mirror Damping rotary connects between leg.

Optionally, the damping rotary structure between the optical module and the lens body includes：Shaft, cushion rubber and tight It is fixedly mounted with and sets；

The shaft is fixed on the optical module side, is provided with axis hole in the temple, and the shaft is from the axis Hole is pierced by, and passes through the cushion rubber, and the clamp device is mounted on the shaft end, fastens the cushion rubber.

Optionally, the clamp device includes the buckle and butterfly card mat piece being arranged in the shaft end, the butterfly Buckle is to fasten the cushion rubber described in card mat piece clamping.

Optionally, the buckle of the shaft end includes：On the shaft end end face, to be formed if axially extending Dry claw, the claw end have protrusion outwardly.

Optionally, the clamp device includes trip bolt and gasket, and the cushion rubber includes the first cushion rubber and the second cushion rubber, After the shaft passes through the axis hole, first cushion rubber, the gasket and second cushion rubber, the fastening spiral shell are sequentially passed through Nail screws in the shaft end in an axial direction, fastens first cushion rubber, the gasket and second cushion rubber.

Optionally, the gasket includes pressing gasket.

Optionally, the gasket further includes check washer, and the pressing gasket is adjacent with first cushion rubber, described locking Gasket is adjacent with second cushion rubber.

Optionally, the augmented reality glasses are additionally provided with position limiting structure, and the position limiting structure limits the optical module It is rotated relative to the temple in predetermined angular range.

Optionally, the position limiting structure includes the shaft shoulder boss being arranged in the shaft, and is arranged in the optics Fixture block on component, when the shaft turns to predetermined angular, the fixture block blocks the shaft shoulder boss, limits the optics group Part rotates in predetermined angular range relative to the temple.

Optionally, the optical module includes rotation section, and the optical module is divided into leading portion and back segment by the rotation section, The leading portion includes optical element, and the back segment is connect with the temple damping rotary, and between the leading portion and the back segment It is connected by the rotation section damping rotary.

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：

The either mirror leg outer side in lens body is arranged in optical module connection by the augmented reality glasses of the utility model, And its damping rotary between temple is made to connect, so as to easily operate optical module on the outside of temple, realize that rotation is adjusted Any position is saved and hovered over, to be adapted to the eyes of different users, improves the augmented reality experience of user.

Description of the drawings

Fig. 1 is the structural schematic diagram of the utility model augmented reality glasses；

Fig. 2 is that the damping shown in the embodiment one of the utility model augmented reality glasses between optical module and temple turns Dynamic Structure explosion diagram；

Fig. 3 is that the damping shown in the embodiment two of the utility model augmented reality glasses between optical module and temple turns Dynamic Structure explosion diagram；

Fig. 4 is optical assembly structure schematic diagram shown in the embodiment three of the utility model augmented reality glasses；

Fig. 5 is the optical module adjustment state schematic diagram of the utility model augmented reality glasses；

Fig. 6 is the optical module angle adjustable range schematic diagram of the utility model augmented reality glasses.

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：In augmented reality Glasses structure, optical module connection is arranged in glasses The either mirror leg outer side of main body, and its damping rotary between temple is made to connect, so as to the convenient rotation light on the outside of temple Component is learned, so that optical module is turned to any position and hovers, to be adapted to the eyes of different users, improve the increasing of user Strong experience of reality.

Fig. 1 is the structural schematic diagram of the utility model augmented reality glasses, as shown in Figure 1, a kind of augmented reality glasses, packet Include lens body 100 and optical module 200.Optical module 200 is connected in lens body 100, referring to Fig. 1, optical module 200 Connection is arranged on the either mirror leg outer side of lens body 100, and damping rotary connects between optical module 200 and temple.

On being arranged the rotation connection of optical module 200 on the outside of the temple of lens body 100, when wearing, user Adjust optical module 200 position when, glasses side carry out operation will not block sight, simultaneously because optical module 200 with Damping rotary connects between temple, and feeling is better for rotation adjusting, and any position after adjustment that can hover, and reaches adaptation The technique effect of different users' head sizes and eye position, provides user experience.

Embodiment one

Fig. 2 is the embodiment one of the utility model augmented reality glasses, which shows optical module and temple Between a kind of explosive view of embodiment of damping rotary structure.

As shown in Fig. 2, the damping rotary structure between optical module 200 and lens body 100 includes：Shaft 301, cushion rubber 302 and clamp device.

Shaft 301 is fixed on 200 side of optical module, and axis hole is provided in the temple of lens body 100.When assembly, turn Axis 301 is pierced by from axis hole, and passes through cushion rubber 302, and clamp device is mounted on 301 end of shaft, for fastening cushion rubber 302 so that Shaft 301 is fastened in axis hole.

In the present embodiment one, as shown in Fig. 2, clamp device includes buckle 3011 and the butterfly being arranged in 301 end of shaft Shape card mat piece 303.When assembly, shaft 301 is after axis hole is pierced by, and 303 clamping of butterfly card mat piece buckle 3011 is to fasten cushion rubber 302。

By above-described embodiment, rotation is realized using shaft 301 between optical module 200 and the temple of lens body 100 Connection, and since there are cushion rubbers 302, under the elastic force and friction force effect of cushion rubber 302, optical module 200 and lens body Damping rotary is formed between 100 temple, rotation adjusts comfortable feel, and optical module 200 can be in any position turned to Hovering provides good augmented reality experience to be adapted to the eye position of different users.

With continued reference to Fig. 2, in the present embodiment one, the buckle 3011 of 301 end of shaft includes：In 301 distal end faces of shaft On, several claws to be formed are axially extended, claw end has protrusion outwardly.Pass through these protrusions and butterfly card mat piece 303 mutual clampings.

Embodiment two

Fig. 3 is the embodiment two of the utility model augmented reality glasses, which shows optical module and temple Between damping rotary structure another embodiment explosive view.

As shown in figure 3, in the present embodiment two, clamp device includes trip bolt 304 and gasket 305.Gasket 305 is metal Gasket, for providing sealing effect, intensity is high, and durable, service life is long.Cushion rubber 302 includes the first cushion rubber 3021 and the second glue Circle 3022.After shaft 301 passes through axis hole, the first cushion rubber 3021, gasket 305 and the second cushion rubber 3022 are sequentially passed through.Trip bolt 304 screw in 301 end of shaft, the first cushion rubber 302 of fastening, gasket 305 and the second cushion rubber 302 in an axial direction.Pass through trip bolt 304 The fastening force of offer, to make the structures such as shaft 301 generate frictional force in rotation, to generate damping.

In the present embodiment two, the first cushion rubber 3021 is between lens body 100 and gasket 305, the second cushion rubber 3022 Between gasket 305 and trip bolt 304, the first cushion rubber 3021 and the second cushion rubber 3022 while damping is provided, The gasket 305 and lens body 100 or the friction of trip bolt 304 for being also avoided that metal material form noise, realize mute rotation It adjusts, and promotes the service life of shaft 301.

In the present embodiment two, gasket 305 includes pressing gasket 3051, and pressing gasket 3051 is common metal plain cushion Piece, to provide compression sealing effect.

In the present embodiment two, gasket 305 further includes check washer 3052, for preventing trip bolt 304 from loosening.Such as figure Shown in 3, pressing gasket 3051 is adjacent with the first cushion rubber 302, and check washer 3052 is adjacent with the second cushion rubber 302.

In embodiment one disclosed by the utility model or embodiment two, which is additionally provided with position limiting structure (not shown), position limiting structure limits optical module 200 and is rotated relative to temple in predetermined angular range, to avoid optical module 200 rotations, which are transfinited, causes unexpected damage.

For example, position limiting structure may include the shaft shoulder boss being arranged in shaft 301, and it is arranged in optical module 200 On fixture block.When shaft 301 turns to predetermined angular, fixture block blocks shaft shoulder boss, to limit optical module 200 in predetermined angular It is rotated relative to temple in range.

Embodiment three

Fig. 4 is the embodiment three of the utility model augmented reality glasses.In the embodiment three, optical module 200 and eye Damping rotary structure between 100 temple of mirror main body may be used such as any one in embodiment one or embodiment two, also, In the embodiment three, optical module 200 is the segmentation structure being adjusted by rotation.

As shown in figure 4, optical module 200 includes rotation section 400, rotation section 400 divides optical module 200 for leading portion 201 With back segment 202, leading portion 201 includes optical element 203, which may include prism etc., for being supplied to user to increase Strong reality imagery.Back segment 202 is connect with by shaft 301 with temple damping rotary, and entire optical module 200 is connected to mirror On leg.It is connected by 400 damping rotary of rotation section between leading portion 201 and back segment 202.

By the damping rotary connection function of rotation section 400, leading portion 201 can be realized with respect to 202 rotary motion of back segment to light The further position for learning element 203 is adjusted, and the augmented reality image to make optical element 203 be formed and user's sight are more preferable Matching improves display effect.Specific adjustment state and angle of regulation range are as illustrated in Figures 5 and 6.

Fig. 5 is the optical module adjustment state schematic diagram of this augmented reality glasses.When optical module 200 is whole and temple base It is original state, the state as shown in (1) in Fig. 5 when this keeping parallelism.When the whole opposite temple forward downward of optical module 200 turns When dynamic, formed and adjusted downwards, the state as shown in (2) in Fig. 5.In Fig. 5, the leading portion 201 and back segment 202 of optical module 200 stretch It is in alignment.

Fig. 6 is the optical module angle adjustable range schematic diagram of this augmented reality glasses.The augmented reality glasses of the present invention It is rotation shaft regulated with two-stage, including：The first order between lens body 100 and optical module 200 is rotation shaft regulated and optics group The second level between 200 leading portion 201 of part and back segment 202 is rotation shaft regulated.As shown in fig. 6, keeping straight configuration in optical module 200 When, it is rotated and is adjusted by first order shaft, can make optical element extreme position shown in the ends A and the limit shown in the ends B It is arbitrarily adjusted between position.

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 that the angular range of φ=30 ° is adjusted in Fig. 6. Meanwhile rotating and adjusting by second level shaft, it can further expand the angle of regulation range, the i.e. angle from original A-B 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 Coarse adjustment is carried out, is adjusted to after Position Approximate, recycles shaft rotation in the second level to adjust and realizes precise fine-adjustment, so that enhancing is existing Real image reaches the optimum position for meeting user's demand.

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 connection is arranged on the either mirror leg outer side of the lens body, the optical module Damping rotary is connect between the temple, and the damping rotary structure between the optical module and the lens body includes： Shaft, cushion rubber and clamp device；

The shaft is fixed on the optical module side, and axis hole is provided in the temple, and the shaft is worn from the axis hole Go out, and pass through the cushion rubber, the clamp device is mounted on the shaft end, fastens the cushion rubber.

2. augmented reality glasses according to claim 1, which is characterized in that the clamp device includes being arranged at described turn The buckle and butterfly card mat piece of shaft end, buckle is to fasten the cushion rubber described in the butterfly card mat piece clamping.

3. augmented reality glasses according to claim 2, which is characterized in that the buckle of the shaft end includes：Institute It states on shaft end end face, axially extends several claws to be formed, the claw end has protrusion outwardly.

4. augmented reality glasses according to claim 1, which is characterized in that the clamp device includes trip bolt and pad Piece, the cushion rubber include that the first cushion rubber and the second cushion rubber sequentially pass through first glue after the shaft passes through the axis hole Circle, the gasket and second cushion rubber, the trip bolt screw in the shaft end in an axial direction, fasten first glue Circle, the gasket and second cushion rubber.

5. augmented reality glasses according to claim 4, which is characterized in that the gasket includes pressing gasket.

6. augmented reality glasses according to claim 5, which is characterized in that the gasket further includes check washer, described Pressing gasket is adjacent with first cushion rubber, and the check washer is adjacent with second cushion rubber.

7. according to claim 1-6 any one of them augmented reality glasses, which is characterized in that the augmented reality glasses are also set It is equipped with position limiting structure, the position limiting structure limits the optical module and rotated relative to the temple in predetermined angular range.

8. augmented reality glasses according to claim 7, which is characterized in that the position limiting structure includes being arranged at described turn Shaft shoulder boss on axis, and the fixture block that is arranged on the optical module, when the shaft turns to predetermined angular, the card Block blocks the shaft shoulder boss, limits the optical module and is rotated relative to the temple in predetermined angular range.

9. augmented reality glasses according to claim 7, which is characterized in that the optical module includes rotation section, described The optical module is divided into leading portion and back segment by rotation section, and the leading portion includes optical element, and the back segment is hindered with the temple Buddhist nun is rotatablely connected, and is connected by the rotation section damping rotary between the leading portion and the back segment.

10. according to claim 1-6 or 8-9 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 1-6 or 8-9 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 7, 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 7, which is characterized in that the quality of the augmented reality glasses is less than Equal to 100g.