A kind of augmented reality glasses
Technical field
The utility model is related to a kind of augmented reality glasses.
Background technology
With the development of augmented reality, the augmented reality glasses for being provided with optical module also increasingly meet consumer
Demand, since it imitates the structure design of glasses, small volume, it is convenient to wear, and gradually becomes main flow terminal and designs.Existing increasing
Strong Reality glasses are mainly made of optical components sector and lens body part two parts.Lens body part includes mainly mirror
Frame, eyeglass and the electronic device for constituting entire augmented reality system, optical components sector is imaging moiety, passes through optical module
Part forms virtual image, is presented to user, the final function of realizing augmented reality.
However, in existing augmented reality glasses, one side optical module and its suitable electronic device concentrated setting exist
Glasses front end so that most of weight concentrates on front side of ear, when wearing, glasses be easy because counterweight is uneven and landing of leaning forward,
It can only be worn by reinforcing the chucking power of temple, clamping head causes to wear discomfort;On the other hand, the light of fixed design
The head dummy of different users can not be suitble to by learning component, and the position of appearing of augmented reality image is caused deviation easily occur.These problems
Comfort when user's wearing spectacles will be substantially reduced, user experience is influenced.
Utility model content
The problem of in view of prior art augmented reality glasses counterweight unevenness and different users can not be suitable for, it is proposed that this
A kind of augmented reality glasses of utility model, 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, optical module and the battery being connect with the optical module, institute
It states optical module and is placed in any temple of the lens body and be located on the part in front of human ear, the battery is arranged at least one
In a temple, and the battery is arranged on the part that the temple is located at human ear rear, the optical module with it is described
Damping rotary connects between temple.
Optionally, the battery is placed in the temple counter weight construction on rear side of human ear, and the shape of the temple counter weight construction is
It is barb-shaped with human ear shape adaptation.
Optionally, the augmented reality glasses further include the mainboard being connect with the optical module and the battery, described
Mainboard is arranged any temple in the lens body and is located on the part at human ear rear.
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, and the component two includes 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, 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 pierced by 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 the first 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:Second shaft, first rotating shaft component, the second rotating assembly, spring, pressing pad
Piece and the second butterfly card mat piece;The first rotating shaft component and second rotating assembly are separately fixed at the back segment and described
On leading portion, axis hole is both provided on the first rotating shaft component and second rotating assembly, second shaft passes through described
After the axis hole of first rotating shaft component and second rotating assembly, continue to sequentially pass through the spring, the pressing gasket and institute
The second butterfly card mat piece is stated, second shaft end is provided with buckle, and second blocks described in the second butterfly card mat piece clamping
Button is to fasten the first rotating shaft component, second rotating assembly, the spring and the pressing gasket, the first rotating shaft
The face that 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 back segment
On, the silica gel sliding slot is arranged on the leading portion, 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, second shaft can edge under external force
The silica gel sliding slot sliding, 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 placed on the part that temple is located in front of human ear by the augmented reality glasses of the utility model, will be electric
Pond is arranged on the part that temple is located at human ear rear, to realize balanced weight distribution, meanwhile, in optical module and temple
Between using damping rotary connect, realize optical module rotation adjust, be applicable to different users so that augmented reality
Eyeglasses-wearing is more comfortable more secured, and augmented reality experience sense is more preferably.
Description of the drawings
Fig. 1 is the vertical view of the augmented reality glasses shown in the utility model embodiment one;
Fig. 2 is the side view of the augmented reality glasses shown in the utility model embodiment one;
Fig. 3 is that the optical module shown in the utility model embodiment one and the rotation connection structure between lens body are illustrated
Figure;
Fig. 4 is that the rotation connection structure between the leading portion and back segment of the optical module shown in the utility model embodiment one is quick-fried
Fried figure;
Fig. 5 is the optical module cross-sectional view shown in the utility model embodiment one;
Fig. 6 is the optical module cross-sectional view shown in the utility model embodiment two;
Fig. 7 is the optical module cross-sectional view shown in the utility model embodiment three;
Fig. 8 is the silica gel sliding slot schematic cross-section shown in the utility model embodiment three.
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.
Originally practical new technical concept is:In the structure arrangement of augmented reality glasses, optical module is placed in temple
On the part in front of human ear, battery is arranged on the part that temple is located at human ear rear, thus using human ear as fulcrum, it is real
The equiblibrium mass distribution for the weight before and after mirror of losing face, improves the comfort of wearing, reduces and occur the risk that glasses are fallen during wearing.
Meanwhile being connected using damping rotary between optical module and temple, the rotation for realizing optical module is adjusted, and is applicable to not
Same user allows augmented reality image preferably to be matched with the sight of user, improves augmented reality experience sense.
Embodiment one
Fig. 1-Fig. 5 shows one embodiment of the utility model.
As Figure 1-Figure 5, a kind of augmented reality glasses, including lens body 100, optical module 200 and and optics
The battery that component 200 connects.Any temple that optical module 200 is placed in lens body 100 is located on the part in front of human ear.Electricity
Pond is arranged at least one temple, and battery is arranged on the part that temple is located at human ear rear, optical module 200 and temple
Between damping rotary connect.
Battery, which is typically part heavier in augmented reality glasses, can play by battery design on rear side of ear to preceding
The effect of 200 counterweight of optical module of side, increases the wearing comfort of user, while can solve putting for glasses end cell again
Set problem.
Meanwhile optical module 200 is rotatably arranged in lens body 100, can also realize that rotation is adjusted, so as to user
The position that augmented reality image is adjusted according to the demand of oneself, meets the wearing demand of different users.
In some embodiments of the utility model, battery could be provided as one, may be set to be it is multiple, with improve
The cruising ability of augmented reality glasses.When battery is one, it can be placed on the part that arbitrary temple is located on rear side of human ear.Battery
When being multiple, it can be respectively arranged in two temples of augmented reality glasses.
With reference to figure 2, in the present embodiment one, battery is placed in the temple counter weight construction 120 on rear side of human ear.Temple counterweight knot
The shape of structure 120 is barb-shaped with human ear shape adaptation, can solve the problems, such as that glasses are easy to slide during wearing, and
And barb-shaped fitting human ear, comfortable wearing.
Preferably, augmented reality glasses further include the mainboard being connect with optical module 200 and battery.Mainboard is also disposed at eye
Any temple of mirror main body 100 is located on the part at human ear rear.Equally play the role of counterweight.
Preferably, optical module 200 is the L-type structure that component 1 and component 2 220 are constituted.Component 1 and glasses
The temple damping rotary of main body 100 connects, and is arranged along on the outside of temple.On the outside of the temple, augmented reality eye is as worn
When mirror, side of the temple backwards to user head.Component 2 220 includes optical element, and optical element is along adjacent with temple
Eyeglass 110 (see Fig. 2) setting.Optical element is used for providing augmented reality image to user, may include the optics such as prism
Eyeglass can also include transparent or semitransparent display, not do detailed restriction herein.
Fig. 3 shows the rotation connection structure schematic diagram between optical module 200 and lens body 100 in embodiment one.
As shown in figure 3, component 1 is connect by interconnecting piece with the temple damping rotary of lens body 100.Interconnecting piece includes:First
Shaft 301, cushion rubber 302 and the first butterfly card mat piece 303.First rotating shaft 301 is fixed on one 210 outside of component, is arranged in temple
There are axis hole, first rotating shaft 301 to be pierced by from axis hole, and sequentially passes through cushion rubber 302 and the first butterfly card mat piece 303, first rotating shaft 301
End is provided with the first buckle 3011,303 clamping first of the first butterfly card mat piece buckle 3011, to lock cushion rubber 302.Pass through glue
The pretightning force that circle 302 and the first butterfly card mat piece 303 provide, makes first rotating shaft 301 generate damping force.
Preferably, component 1 further includes rotation section, and one 210 points by component of rotation section is leading portion 211 and back segment 212.Before
Section 211 is connect with component 2 220 (see Fig. 1).Back segment 212 is connect with temple lateral wall damping rotary.Also, leading portion 211 is with after
Section 212 is connected by rotation section damping rotary.
Fig. 4 and Fig. 5 shows the rotation connection knot between the leading portion 211 of optical module 200 in embodiment one and back segment 212
Structure.As shown in Figure 4 and Figure 5, rotation section includes between leading portion 211 and back segment 212:Second shaft 401, first rotating shaft component 402,
Second rotating assembly 403, spring 404, pressing gasket 405 and the second butterfly card mat piece 406.First rotating shaft component 402 and second
Rotating assembly 403 is separately fixed on back segment 212 and leading portion 211, as shown in Figure 5.First rotating shaft component 402 and the second shaft group
Axis hole is both provided on part 403, after the second shaft 401 passes through the axis hole of first rotating shaft component 402 and the second rotating assembly 403,
Continue to sequentially pass through spring 404, pressing gasket 405 and the second butterfly card mat piece 406,401 end of the second shaft and is provided with second
Buckle 4011,406 clamping second of the second butterfly card mat piece buckle 4011, to fasten first rotating shaft component 402, the second rotating assembly
403, spring 404 and pressing gasket 405.The face that first rotating shaft component 402 and the second rotating assembly 403 contact with each other is that damping rubs
Wiping face.
As shown in Figure 4 and Figure 5, it is provided with threaded hole on first rotating shaft component 402 and the second rotating assembly 403.First turn
Shaft assembly 402 is fixed on by the screw 407 across threaded hole on back segment 212.Second rotating assembly 403 passes through screw 408 and spiral shell
Nail 409 is fixed on leading portion 211.Second shaft 401 sequentially passes through the axis of first rotating shaft component 402 and the second rotating assembly 403
Hole and spring 404 and pressing gasket 405.406 clamping of the buckle 4011 of second shaft, 401 end and the second butterfly card mat piece,
Realize locking.Under the elastic force effect of spring 404, first rotating shaft component 402 and the second rotating assembly 403 are pressed together,
When rotation is adjusted, the frictional resistance generated by contact membranes between the two friction realizes damping.
Embodiment two
The invention also discloses the embodiments of 212 rotation connection structure of the leading portion 211 of optical module 200 and back segment
Two.Fig. 6 is the cross-sectional view for applying the optical module 200 shown in example two.
As shown in fig. 6, the rotation section between leading portion 211 and back segment 212 includes:Second shaft 601 and snap-in structure 602.
Second shaft 601 is fixed on back segment 212.Snap-in structure 602 is fixed on leading portion 211.Snap-in structure 602 includes multiple claws
6021, multiple claws 6021 engage the second shaft 601, and are interference fitted with the second shaft 601.Second shaft 601 and/or card
Pawl 6021 is self-lubricating material.
Snap-in structure 6021 is connect with the second shaft 601 by the way of clamping, easy to assembly simple, and shaft 601
Self-lubricating material is used at least one party in claw 6021, damping rotary can be made to adjust more smooth, operating handle is more relaxed
It is suitable.
Embodiment three
The utility model discloses the embodiments three of 212 rotation connection structure of the leading portion 211 of optical module 200 and back segment.
Fig. 7 is the cross-sectional view of the optical module 200 shown in the Shi Lisan, and Fig. 8 is the section signal of silica gel sliding slot shown in Fig. 7
Figure.
As shown in fig. 7, the rotation section between leading portion 211 and back segment 212 includes:Second shaft 701 and silica gel sliding slot 702.
Second shaft 701 is fixed on back segment 212, and silica gel sliding slot 702 is arranged on leading portion 211.Silica gel sliding slot 702 is by multiple connections
Axis hole 7021 forms, as shown in figure 8, in silica gel sliding slot 702, the i.e. corresponding axis hole 7021 of each circular arc.Second shaft 701
Be interference fitted across one of silica gel sliding slot 702 axis hole, and with axis hole 7021, to realize leading portion 211 and back segment 212 it
Between damping rotary connection, so that leading portion 211 is rotated according to shown in curve arrow in Fig. 7 relative to back segment 212, realize enhancing shows
The angular adjustment of real image.
Also, the second shaft 701 can also be slided along silica gel sliding slot 702 under external force, slide into any one axis hole 7021,
And it is interference fitted with any one axis hole 7021.In this way, push-and-pull operation can be realized according to direction shown in hollow arrow in Fig. 7, make
Leading portion 211 is slided with respect to back segment 212.
Pass through the flexible and rotation integral structure of optical module 200 shown in Fig. 7, so that it may to realize augmented reality image
The accurate adjusting of position improves augmented reality experience.
Preferably, silica gel sliding slot 702 is provided with parallel two, and the second shaft 701 is aligned from two silica gel sliding slots 702
It passes through in axis hole 7021, is interference fitted with axis hole 7021.Coordinated by two parallel silica gel sliding slots 702 and the second shaft 701,
It can prevent the second shaft 701 from swinging, improve the stability that rotation is adjusted.Certainly, the quantity of silica gel sliding slot 702 is without being limited thereto,
It may be set to be more a plurality of, details are not described herein.
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.