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, in order to improve the experience of terminal user, the structure design of optical module
It is also required to more and more exquisite.For the ease of using, optical components sector needs to be adapted to the eyes of different people by adjusting position,
Enable to be formed by the front that virtual image is presented on glasses just, improves the experience that user wears.
Previous traditional optical module uses fixed connection structure, be fixed on it is unadjustable on glasses, or only positioned at light
It learns and is equipped with adjustment structure at the root of component, this form is often limited by structural member, and adjustable range can not meet user demand,
Lead to the application effect for reducing augmented reality glasses.
Utility model content
In view of the problem that prior art augmented reality glasses adjustable range is limited, it is proposed that a kind of enhancing of the utility model
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
In the temple of body;The optical module includes rotation section, and the optical module is divided into leading portion and back segment by the rotation section, described
Leading portion includes optical element, and the back segment is connect with the temple, and the leading portion and the back segment are hindered by the rotation section
Buddhist nun is rotatablely connected.
Optionally, the rotation section that the leading portion is connected with the back segment includes:Rotating connector and shaft;The shaft is solid
It is scheduled on the leading portion, the rotating connector is set in the shaft to be interference fitted with the shaft, the rotation connection
The rotation end of part is fixedly connected with the back segment.
Optionally, position limiting structure is provided between the shaft and the rotating connector, the position limiting structure limits institute
Rotating connector is stated to rotate around the shaft within a predetermined range.
Optionally, the radial direction of the shaft is provided with threaded hole, and the shaft across the screw of the threaded hole by fixing
On the leading portion.
Optionally, the rotation section that the leading portion is connected with the back segment includes:Shaft, first rotating shaft component, the second shaft
Component, spring, pressing gasket and clamp device;The first rotating shaft component and second rotating assembly are separately fixed at described
On back segment and the leading portion, it is both provided with axis hole on the first rotating shaft component and second rotating assembly, the shaft is worn
After crossing the axis hole of the first rotating shaft component and second rotating assembly, continue to sequentially pass through the spring and the pressing pad
Piece, the clamp device fasten the first rotating shaft component, second rotating assembly, the spring and the pressing gasket,
The face that the first rotating shaft component and second rotating assembly contact with each other is damping friction face.
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 first rotating shaft component, second rotating assembly, the spring and the pressing described in card mat piece clamping
Gasket.
Optionally, the clamp device includes trip bolt, and the trip bolt screws in the shaft end in an axial direction, tightly
Gu the first rotating shaft component, second rotating assembly, the spring and the pressing gasket.
Optionally, the first rotating shaft component and second rotating assembly are provided with threaded hole, the first rotating shaft group
Part and second rotating assembly across the screw of the threaded hole by being separately fixed on the back segment and the leading portion.
Optionally, the rotation section that the leading portion is connected with the back segment includes:Shaft and snap-in structure;The shaft is fixed
In the rear in section, the snap-in structure is fixed on the leading portion, and the snap-in structure includes multiple claws, multiple cards
Pawl engages the shaft and is interference fitted with the shaft, and the shaft and/or the claw are self-lubricating material.
Optionally, card slot is provided on the back segment, the shaft is fixed by the card slot in section in the rear,
The shaft shaft end is provided with position limiting structure, and the position limiting structure limits the shaft and the back segment relative position is constant.
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:
In augmented reality glasses disclosed by the utility model, the optical module for providing augmented reality scene includes rotation
Portion, optical module is divided into leading portion and back segment by rotation section, and leading portion is connected with back segment by rotation section damping rotary, and leading portion is passed through
The convenient adjusting, it can be achieved that optical module is connected with the damping rotary of rear end, expands its adjusting range, is supplied to user more comfortable
Augmented reality experience.
Description of the drawings
Fig. 1 is the structural schematic diagram of the utility model augmented reality glasses;
Fig. 2 is the structural schematic diagram of the rotation section embodiment one of the utility model augmented reality glasses;
Fig. 3 is another structural schematic diagram of the rotation section embodiment one of the utility model augmented reality glasses;
Fig. 4 is the optical module adjustable range schematic diagram 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 structural schematic diagram of the rotation section embodiment two of the utility model augmented reality glasses;
Fig. 7 is another structural schematic diagram of the rotation section embodiment two of the utility model augmented reality glasses;
Fig. 8 is the structural schematic diagram of the rotation section embodiment three 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, by the optics for providing augmented reality scene
Component is designed as segmental structure, including leading portion and back segment, connects the leading portion and back segment by designing rotation section damping rotary, expands
The adjustable range of big optical module improves user experience to preferably be adapted to the eyes of different users.
Embodiment one
Fig. 1-Fig. 5 shows one embodiment of the utility model augmented reality glasses, wherein Fig. 1 is the utility model
The general structure schematic diagram of augmented reality glasses.
As Figure 1-Figure 5, a kind of augmented reality glasses, including lens body 100 and optical module 200, optical module
200 are connected in the temple of lens body 100.Optical module 200 includes support section 210 and optical element 220.Support section
210 are used for supporting optical component 220.Optical element 220 is used for providing augmented reality scene to user, wherein optical element
220 are placed in front of user's eyes, may include the optical mirror slips such as prism, can also include transparent or semitransparent display,
Detailed restriction is not done herein.
Optical module 200 further includes rotation section 230 (see Fig. 2), and the support portion 210 of optical module is divided in rotation section 230 is
Leading portion 211 and back segment 212, leading portion 211 include optical element 220.Back segment 212 is connect with temple, to be fixed on lens body 100
On, for example, as shown in Fig. 2, back segment 212 is fixed on by the rotation of shaft 300 in temple.Since leading portion 211 and back segment 212 pass through
Rotation section 230 damping rotary connection adjusts to which rotation itself may be implemented in optical module 200, and damps rotation process feel
Well, and the leading portion of optical module 200 211 can hover over any position rotated to, and adjustable range is wide, user experience
More.
There is the augmented reality glasses of the utility model the rotation of two-stage shaft to adjust, including:Lens body 100 and optics group
First order shaft rotation between part 200 adjusts and the second level shaft between 200 leading portion 211 of optical module and back segment 212
Rotation is adjusted.As shown in figure 4, when optical module 200 keeps straight configuration, is rotated and adjusted by first order shaft, can made
Arbitrarily adjust between extreme position shown in optical element extreme position and the ends B shown in the ends A.
After being adjusted using the rotation of first order shaft, it can also be rotated and be adjusted by second level shaft again, continued to enhancing
Reality imagery position carries out precise fine-adjustment.For example, the extreme position shown in A, is rotated using second level shaft and is adjusted, make optics
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, made
Optical element is arbitrarily adjusted between the 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. 4.
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.
Specific rotation adjustment state is as shown in Figure 5.The leading portion 211 of optical module 200 straightens to one directly with back segment 212
It is original state, the state as shown in (1) in Fig. 5 when line.Utilize the segmentation tune of the leading portion 211 and back segment 212 of optical module 200
Section, may be implemented to adjust downwards, the state as shown in (2) in Fig. 5.
In the present embodiment one, as shown in figure 3, the rotation section 230 that leading portion 211 and back segment 212 connect includes:Rotation connection
Part 231 and shaft 232.
The radial direction of shaft 232 is provided with threaded hole, and shaft 232 is fixed on leading portion 211 by the screw 233 across threaded hole
On.Rotating connector 231 is set in shaft 232 to be interference fitted with shaft 232, and the rotation end of rotating connector 231 passes through
Screw 234 is fixedly connected with back segment 212.By the interference fit of rotating connector 231 and shaft 232, it can be achieved that damping rotary is imitated
Fruit.
In some embodiments of the utility model, sheet metal process or metal injection may be used in rotating connector 231
Forming technology processing and fabricating.
In the embodiments of the present invention one, position limiting structure is additionally provided between shaft 232 and rotating connector 231
(not shown), position limiting structure limits 232 rotation around the shaft within a predetermined range of rotating connector 231, to prevent optical module 200
Rotation, which is transfinited, occurs unexpected damage.
In some embodiments of the utility model, the position limiting structure between shaft 232 and rotating connector 231 can be with
It is realized using the shaft shoulder in shaft 232.
Embodiment two
Fig. 6-Fig. 7 shows second embodiment of the rotation section of the utility model augmented reality glasses.
As Figure 6-Figure 7, the rotation section that leading portion 211 and back segment 212 connect includes:Shaft 241, first rotating shaft component
242, the second rotating assembly 243, spring 244, pressing gasket 245 and clamp device.
First rotating shaft component 242 and the second rotating assembly 243 are separately fixed on back segment 212 and leading portion 211.First rotating shaft
Axis hole is both provided on component 242 and the second rotating assembly 243, shaft 241 passes through first rotating shaft component 242 and the second shaft group
After the axis hole of part 243, continue to sequentially pass through spring 244 and pressing gasket 245.Clamp device fastens first rotating shaft component 242, the
Two rotating assemblies 243, spring 244 and pressing gasket 245.What first rotating shaft component 242 and the second rotating assembly 243 contacted with each other
Face is damping friction face.
The present embodiment two contacts friction by the face of first rotating shaft component 242 and the second rotating assembly 243 and generates damping effect
Fruit enables any position in rotational angle of shaft 241 to hover, can suitably be rotated by the elastic force of adjustment spring 244
Damping, to realize that the damping rotary of optical module 200 is adjusted.
As Figure 6-Figure 7, in the present embodiment two, clamp device include be arranged 241 end of shaft buckle 2411 (see
Fig. 6) and butterfly card mat piece 246.After each component is inserted in shaft 241 successively in the direction of the arrow in Fig. 6, butterfly card mat piece 246
In 241 end clamping buckle 2411 of shaft, to fasten first rotating shaft component 242, the second rotating assembly 243, spring 244 and pressing
Gasket 245.
Alternatively, in the present embodiment two, trip bolt (not shown) can also be used in clamp device, and trip bolt revolves in an axial direction
Enter 241 end of shaft, fastening first rotating shaft component 242, the second rotating assembly 243, spring 244 and pressing gasket 245.
As shown in fig. 7, being provided with threaded hole, first rotating shaft component on first rotating shaft component 242 and the second rotating assembly 243
242 are fixed on by the screw 247 across threaded hole on back segment 212.Second rotating assembly 243 is solid by screw 248 and screw 249
It is scheduled on leading portion 211.Shaft 241 sequentially passes through the axis hole and spring of first rotating shaft component 242 and the second rotating assembly 243
244 and pressing gasket 245.The buckle 2411 of 241 end of shaft and 246 clamping of butterfly card mat piece, realize locking.In spring 244
Elastic force effect under, first rotating shaft component 242 and the second rotating assembly 243 are pressed together, and when rotation is adjusted, both are passed through
Between frictional resistance realize damping.
Embodiment three
Fig. 8 shows the third embodiment of the rotation section of the utility model augmented reality glasses.
As shown in figure 8, the rotation section that leading portion 211 and back segment 212 connect includes:Shaft 251 and snap-in structure 252.Shaft
251 are fixed on back segment 212, and snap-in structure 251 is fixed on leading portion 211.Snap-in structure 252 includes multiple claws 2521, Fig. 8
It is 2 claws 2521 in illustrated embodiment, however, the quantity of claw 2521 is not limited to this, can be arranged more to improve card
The fastness of conjunction.Multiple claws 2521 engage shaft 251 and are interference fitted with shaft 251.Shaft 251 and/or claw 2521
For self-lubricating material.
Snap-in structure 252 is assembled with shaft 251 by the way of clamping, easy to operate simple, and shaft 251 and claw
At least one party uses self-lubricating material in 2521, damping rotary can be made to adjust more smooth, operating handle is comfortable.
In the embodiments of the present invention three, card slot is provided on back segment 212, shaft 251 is fixed by card slot
On back segment 212, equally there is the technique effect of convenient assembling.The shaft end of shaft 251 is additionally provided with position limiting structure, position limiting structure
It limits shaft 251 and the relative position of back segment 212 is constant, to improve the stability rotated in adjustment process.
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.