CN109343190A - Location structure and optical module with the location structure - Google Patents

Abstract

The present invention discloses a kind of location structure and the optical module with the location structure, wherein, the location structure includes, for accommodating multiple optical mirror slip assembly parts, and the elastic component between optical mirror slip and assembly parts is set, the elastic component is to abut multiple optical mirror slips on the fitting towards the same direction；Elastic component elasticity of the invention is connected between optical mirror slip and assembly parts, is eliminated gap and tolerance with optical mirror slip and assembly parts, is reached pinpoint effect, and optical mirror slip will not generate shaking during use, ensure that long-time service reliability.

Description

Location structure and optical module with the location structure

Technical field

The present invention relates to mechanical assembly technique field, in particular to the optics of a kind of location structure and the application location structure Component.

Background technique

Coaxially assembling in optical field is basic demand, is usually required in production optical lens or other optical modules Multiple eyeglasses are coaxially disposed generallyd use at present with reaching specific optical effect eyeglass is set in accurate sleeve with Achieve the purpose that multiple eyeglasses are coaxial, often due to the required precision of accurate sleeve is higher, be not easy to produce in batches, price is high It is expensive.The precision height of accurate sleeve causes assembly that need to cooperate corresponding jig to guarantee the concentricity of assembly parts simultaneously, however adds The research and development and manufacture of such precision component of work and jig are both needed to put into a large amount of manpower and financial resources, and production cost is relatively high.Again Person, using accurate telescopic assembly parts or channel-shaped assembly parts in assembling process, be guaranteed in a manner of limiting tolerance it is each The coaxial requirement of part then after the assembly is completed still has gap, specifically makes between optical mirror slip and sleeve or channel-shaped assembly parts Used time, it is uncertain that each optical mirror slip in same assembly parts, which is connected to assembly parts towards which direction, although gap is not Greatly in the margin of tolerance, but each optical mirror slip then greatly affected light towards different directions abutting on the fitting The concentricity problem between eyeglass is learned, i.e., the concentricity assembly in existing assembly parts between optical mirror slip is unstable, not only influences Optical effect and the experience sense for influencing user.

Summary of the invention

The main object of the present invention is to provide a kind of location structure, and structure is simple, it is intended to realize multiple optical mirror slips It is accurately positioned, achievees the effect that the stable concentricity assembly of multiple optical mirror slips.

To achieve the above object, location structure proposed by the present invention includes:

Assembly parts are used to accommodate multiple optical mirror slips；

Elastic component, be arranged between the optical mirror slip and the assembly parts, the elastic component to will it is multiple described in Optical mirror slip is connected on the assembly parts towards the same direction.

Optionally, the elastic component include one group of elastic portion, to by multiple optical mirror slips towards one or two Direction is connected on the assembly parts.

Optionally, the elastic component includes at least two groups elastic portion, and every group of elastic portion is to by multiple optical mirror slips It is connected on the assembly parts facing one direction.

Optionally, elastic portion described in every group includes at least one elastic portion.

Optionally, each elastic portion abuts at least one described optical mirror slip.

Optionally, the assembly parts at least have the two sides of intersection, are used to abut multiple optical mirror slips.

Optionally, the two sides is two planes or two curved surfaces.

Optionally, the curved surface side-glance shape is ladder-like or concavo-convex or arcuation.

Optionally, the assembly parts at least have two parallel convex ribs, and two convex ribs are used to abut multiple light Learn eyeglass.

Optionally, two convex ribs are linear convex ribs or curve-like convex ribs.

Optionally, the curve-like convex ribs are ladder-like or concavo-convex or arcuation convex ribs.

The present invention also proposes a kind of optical module, which includes:

At least two optical mirror slips；

Location structure, the location structure include:

Assembly parts are used to accommodate multiple optical mirror slips；

Elastic component, be arranged between the optical mirror slip and the assembly parts, the elastic component to will it is multiple described in Optical mirror slip is connected on the assembly parts towards the same direction.

Optionally, the elastic component includes one group of elastic portion, to support multiple optical mirror slips facing one direction It connects on the assembly parts.

Optionally, the elastic component includes at least two groups elastic portion, and every group of elastic portion is to by multiple optical mirror slips It is connected on the assembly parts facing one direction.

Optionally, elastic portion described in every group includes at least one elastic portion.

Compared with the prior art, the device have the advantages that it is as follows:

Technical solution of the present invention reaches pinpoint purpose by using the mode in elasticity assembly, specifically, this is fixed Bit architecture includes, for accommodating multiple optical mirror slip assembly parts, and the elastic component being arranged between optical mirror slip and assembly parts, The elastic component is to abut multiple optical mirror slips on the fitting towards the same direction；Use gap compared with the existing technology Optical mirror slip elasticity can be embedded in the fitting groove of assembly parts by the mode of cooperation using the present invention, and elastic component is by optical mirror slip It is firmly resisted against on the inner sidewall of the fitting groove of assembly parts, can so eliminate gap and the tolerance of assembly parts, reach accurate The effect of positioning, and the mounting means due to using elasticity insertion, installation is more convenient, and optical mirror slip is not during use Shaking can be generated, ensure that the reliability of assembly.

Detailed description of the invention

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this Some embodiments of invention for those of ordinary skill in the art without creative efforts, can be with The structure shown according to these attached drawings obtains other attached drawings.

Fig. 1 is a kind of structural schematic diagram of one embodiment of location structure of the present invention；

Fig. 2 is the main view of location structure in Fig. 1；

Fig. 3 is sectional view along A-A in Fig. 2；

Fig. 4 is the structural schematic diagram of elastic component in Fig. 1；

Fig. 5 is a kind of Structure explosion diagram of one embodiment of optical module of the present invention；

Fig. 6 is the Structure explosion diagram at another visual angle of optical module in Fig. 5；

Fig. 7 is the main view of optical module in Fig. 5；

Fig. 8 is the cross-sectional view of optical module B-B direction in Fig. 7.

Drawing reference numeral explanation:

Label	Title	Label	Title
				10	Optical module	2	Positioning device
100	Location structure	21	Elastic component
				200	Optical mirror slip	21a	Elastic portion
1	Assembly parts	21b	Interconnecting piece
				11	Fitting groove	21c	Positioning region
12	Mounting hole

The embodiments will be further described with reference to the accompanying drawings for the realization, the function and the advantages of the object of the present invention.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiment is only a part of the embodiments of the present invention, instead of all the embodiments.Base Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts it is all its His embodiment, shall fall within the protection scope of the present invention.

It is to be appreciated that the directional instruction (such as up, down, left, right, before and after ...) of institute is only used in the embodiment of the present invention In explaining in relative positional relationship, the motion conditions etc. under a certain particular pose (as shown in the picture) between each component, if should When particular pose changes, then directionality instruction also correspondingly changes correspondingly.

In addition, the description for being related to " first ", " second " etc. in the present invention is used for description purposes only, and should not be understood as referring to Show or imply its relative importance or implicitly indicates the quantity of indicated technical characteristic." first ", " are defined as a result, Two " feature can explicitly or implicitly include at least one of the features.In addition, the technical solution between each embodiment can It to be combined with each other, but must be based on can be realized by those of ordinary skill in the art, when the combination of technical solution occurs Conflicting or cannot achieve when, will be understood that the combination of this technical solution is not present, also not the present invention claims protection model Within enclosing.

The present invention proposes a kind of location structure 100, which can be adapted in Automatic manual transmission, such as: optics The positioning of inductor in the positioning of eyeglass 200 and camera lens, automated machine, the coaxial socket etc. of components in machining, Above assembling structure is within the scope of the invention.

In the present embodiment, which is applied to an optical module 10, which includes:

At least two optical mirror slips 200；

Location structure 100, location structure 100 include:

Assembly parts 1 are used to accommodate multiple optical mirror slips 200；

Elastic component 21 is arranged between optical mirror slip 200 and assembly parts 1, and elastic component 21 is to by multiple optical mirror slips 200 are connected on assembly parts 1 towards the same direction.

1 figure is please referred to Fig. 8, the location structure 100 is applied to an optical module 10 in the present embodiment, passes through the positioning Structure 100 realizes accurate positioning or multiple optical mirror slip 200 of the optical mirror slip 200 in assembly parts 1 in assembly parts 1 In coaxial positioning；Specifically, which includes assembly parts 1 and at least one optical mirror slip 200, and is used for light The location structure 100 that eyeglass 200 is positioned is learned, which includes for accommodating one or more optical mirror slips 200 Assembly parts 1, and the elastic component 21 being arranged between optical mirror slip 200 and assembly parts 1, the elastic component 21 may be mounted at light It learns on eyeglass 200 or assembly parts 1, for abutting one or more optical mirror slips 200 towards the same direction, can so disappear Except the gap between optical mirror slip 200 and assembly parts 1 to achieve the effect that be accurately positioned and coaxially position.

In the present embodiment, which is applied particularly to VR (Virtual Reality virtual reality) glasses (figure Do not show) assembly, the whole frame structure in rectangle setting of the assembly parts 1 one of optical module 10 can by being integrally formed To meet the needs of mass production, assembly parts 1 offer the fitting groove 11 extended along its depth direction, fitting groove 11 it is outer The whole frame structure with rectangle of shape is adapted, and two pieces of optical mirror slips 200 are provided in fitting groove 11, optical mirror slip 200 Shape is equally in rectangle setting, to adapt to the shape of fitting groove 11, in order to which optical mirror slip 200 is accurately located at fitting groove 11 Interior, which is also provided with positioning device 2 used for positioning, which is made of four elastic components 21, is filling Four mounting holes 12 are respectively provided in one long side of accessory 1 and a broadside, four elastic components 21 are installed correspondingly In mounting hole 12.

The specific installation process of the optical module 10 are as follows: first four elastic components 21 are not mounted in four mounting holes 12, Again by two pieces of optical mirror slips 200 respectively elasticity insertion mounting hole 12, four elastic components 21 generate screen resilience due to elastic deformation Push two pieces of optical mirror slips 200 towards the opposite side of elastic component 21 to be connected to 1 inner sidewall of assembly parts.Compared with the existing technology The mode of used clearance fit, can be by the assembly of 200 elasticity insertion assembly parts 1 of optical mirror slip using user of the invention In slot 11, optical mirror slip 200 is firmly resisted against on the inner sidewall of fitting groove 11 of assembly parts 1 by the effect of elastic component 21, Gap and the tolerance that two assembly parts 1 can so be eliminated, reach pinpoint effect；Secondly because using elasticity insertion Mounting means, installation optical mirror slip 200 is more convenient, and assembly parts 1 and optical mirror slip 200 will not generate shaking during use, It ensure that the reliability of assembly；Finally, the optical mirror slip 200 using installation of the invention can freely move in fitting groove 11 Dynamic, so that the spacing of two pieces of optical mirror slips 200 is adjustable, the optical module 10 convenient for users adjusts imaging effect Section.

It is understood that fitting groove 11 of the invention is only for accommodating multiple optical mirror slips 200, therefore assemble Slot 11 can be open in both sides, can also be arranged in the open slot of openings at one side.

Assembly parts 1 at least have the two sides of intersection, are used to abut multiple optical mirror slips 200.

Two sides is two planes or two curved surfaces.

Curved surface side-glance shape is ladder-like or concavo-convex or arcuation.

In the present embodiment, elastic component 21 is arranged in a long side and a broadside, so that optical mirror slip 200 is connected to rectangle Diagonal side, that is, optical mirror slip 200 is connected to the inner walls of two of assembly parts 1 intersections respectively, with to optical mirror slip 200 in The movement of length direction and wide direction is limited, and optical mirror slip 200 is fixed in a plane, and it is to be appreciated that The intersection two sides of assembly parts 1 is not limited to two faces of the intersection in practical application, and two faces are in being two intersections on extended line Face is also within the scope of the present invention.

Assembly parts 1 in the present embodiment are made of plastic material and the whole frame structure in rectangle, pass through and are molded work Skill is integrally formed, and the frame of the shapes of assembly parts 1 and VR glasses (not shown go out) or other structures match, and therefore, is assembled The shape of part 1 can be the shape of polygon, circle and irregular other forms, in the material and shape of this assembly parts 1 It does not do specifically defined.

Location structure 100 of the invention is positioned using two sides, and then by optical mirror slip 200 in length direction and width Direction is limited, and two faces for being accordingly used in positioning can be plane, arcwall face and irregular other shapes of face, That is, the shape of fitting groove 11 is not specifically limited in the present invention, and two faces used for positioning can be identical or not The plane of identical type, it is therefore to be understood that in order to enable optical mirror slip 200 to be preferably assemblied in fitting groove 11, The appearance profile of optical mirror slip 200 should also be as being adapted with the profile of fitting groove 11, such as in another embodiment of the invention, The shape of fitting groove 11 is integrally in a semicircle, and used for positioning is arcwall face or plane, and elastic component 21 can be set in arc On face or plane, the shape semicircular in shape of optical mirror slip 200 is arranged, and optical mirror slip 200 is connected to fitting groove by elastic component 21 In 11 plane or arcwall face, therefore, have in the present invention for the shape of fitting groove 11 and also not doing for optical mirror slip 200 Limit to body.

Fig. 5 and Fig. 6 are please referred to, in the present embodiment, the quantity of optical mirror slip 200 is two pieces, and two pieces in rectangle setting Optical mirror slip 200 is arranged in the depth direction interval of fitting groove 11, and certainly, optical mirror slip 200, which also can according to need, to be set as One or more, when optical mirror slip 200 is set as multiple, the outer dimension of multiple optical mirror slips 200 can be identical It is also possible to mutually different, only needs for fitting groove 11 to be processed as when the outer dimension of multiple optical mirror slips 200 is not identical The form of ladder also can achieve the effect for positioning the optical mirror slip 200 of multiple and different outer dimensions in coaxial line, herein not It is described in detail.

The intersection two with fitting groove 11 can be firmly supported for two optical mirror slips 200 guaranteed in a fitting groove 11 Inner sidewall is separated with multiple elastic components 21, the i.e. position of elastic component 21 and optics between the transverse direction and longitudinal side of fitting groove 11 The inner sidewalls for two intersections that eyeglass 200 is abutted, optical mirror slip 200 by multiple elastic components 21 along longitudinal direction and lateral active force, It is firmly resisted against the diagonal side of fitting groove 11, in another embodiment of the invention, the quantity of elastic component 21 is one, should The angle that elastic component 21 is set to rectangle is located at and is connected to the lateral surface of two optical mirror slips 200, and the elastic component 21 is by two blocks of light It learns eyeglass 200 and is resisted against diagonal side, it is therefore to be understood that elastic component 21 can be an elastic component 21 while be connected to Optical mirror slip 200 is also possible to multiple elastic components 21 while being connected to optical mirror slip 200, and or the difference of multiple elastic components 21 It is connected to optical mirror slip 200, is not specifically limited in number and the installation site of this elastic component 21.

Assembly parts 1 at least have two parallel convex ribs, and two convex ribs are used to abut multiple optical mirror slips 200.

Two convex ribs are linear convex ribs or curve-like convex ribs.

Curve-like convex ribs are ladder-like or concavo-convex or arcuation convex ribs.

It is understood that assembly parts 1 of the invention substantially mutually abut linear contact with optical mirror slip 200, therefore Only need the tolerance for guaranteeing two straight lines mutually abutted to guarantee the accuracy of assembly in manufacture process, compared to Traditional face and face against mode, the processing of location structure 100 of the invention is simpler, can also largely avoid complexity Generated accumulated error in process, therefore in another embodiment of the invention, the inside of two intersections of fitting groove 11 It is respectively arranged with two convex ribs (not shown) on wall, optical mirror slip 200, which passes through, to be arranged in the elastic component 21 of opposite side to be connected to two convex On muscle, the effect of fine positioning of the present invention also may be implemented, which can be is integrally formed in assembly parts 1, can also be split type Structure, be connected to by way of screw, buckle or stickup on the intersection two sidewalls of fitting groove 11, by above-mentioned fitting groove 11 Form it is found that convex ribs can be being extended in the depth direction in fitting groove 11 for straight line or curve form, can also To be being extended in the form of multistage in stepped fitting groove 11.In the quantity of this convex ribs, shape is not specifically limited.

Further, elastic component 21 include one group of elastic portion 21a, to by multiple optical mirror slips 200 facing one direction It is connected on assembly parts 1.

Elastic component 21 includes at least two groups elastic portion 21a, and every group of elastic portion 21a is to by multiple 200 directions of optical mirror slip One direction is connected on assembly parts 1.

Every group of elastic portion 21a includes at least one elastic portion 21a.

Each elastic portion 21a abuts at least one optical mirror slip 200.

Fig. 3 and Fig. 4 are referred to, in the present embodiment, the inner sidewall of assembly parts 1 offers multiple mounting holes 12, the installation Hole 12 is a through-hole, or blind hole, the material of elastic component 21 are plastic cement or metal plate, and elastic component 21 includes sequentially connected Positioning region c, interconnecting piece b and elastic portion 21aa, elastic portion 21aa are integrally in "eight" shape, the opening direction dress of elastic portion 21aa The side of slot allocation 11, when 200 elasticity insertion fitting groove 11 of optical mirror slip, elastic portion 21aa is under pressure, and is open in pressure It is tilted under effect to two sides, elastic component 21 generates deformation at this time, due to the characteristic of the material of elastic component 21, so that elastic component 21 has There is the screen resilience for overcoming self-deformation, which further acts on the lateral wall of optical mirror slip 200, by optical mirror slip 200 The inner sidewall with assembly is supported, the elastic portion 21aa of elastic component 21 is linked together by interconnecting piece b and positioning region c, positioning region c Accommodating can be such that elastic component 21 is fastened on assembly parts 1 with mounting hole 12, and interconnecting piece b and the junction of elastic portion 21aa are in Arc-shaped transition improves the integral strength of elastic component 21, and the service life is longer long.

It is understood that elastic component 21 be also possible to spring, silicon rubber or made of other elastic materials it is other The elastic component 21 of form, elastic component 21 can be an independent components, be also possible to be mounted on assembly parts 1 or optical frames A component on piece 200, such as elastic component 21 made of silicon rubber can be set by stickup or integrally formed mode It sets and diagonally, then by 200 elasticity of optical mirror slip is embedded in fitting groove 11 in a long side of optical mirror slip 200 and a broadside or one It is interior, it also can achieve technical effect of the invention, also do not done in the material and mounting means of this elastic component 21 specifically defined.

The above description is only a preferred embodiment of the present invention, is not intended to limit the scope of the invention, all at this Under the inventive concept of invention, using equivalent structure transformation made by description of the invention and accompanying drawing content, or directly/use indirectly It is included in other related technical areas in scope of patent protection of the invention.

Claims (15)

1. a kind of location structure realizes the coaxial assembly of multiple optical mirror slips for positioning optical mirror slip, which is characterized in that this is fixed Bit architecture includes:

Assembly parts are used to accommodate multiple optical mirror slips；

Elastic component is arranged between the optical mirror slip and the assembly parts, and the elastic component is to by multiple optics Eyeglass is connected on the assembly parts towards the same direction.

2. location structure as described in claim 1, which is characterized in that the elastic component includes one group of elastic portion, to will be more A optical mirror slip is connected on the assembly parts towards one or two direction.

3. location structure as described in claim 1, which is characterized in that the elastic component includes at least two groups elastic portion, and every group Multiple optical mirror slips to be connected on the assembly parts by elastic portion facing one direction.

4. location structure as claimed in claim 2 or claim 3, which is characterized in that elastic portion described in every group includes at least one elasticity Portion.

5. location structure as claimed in claim 4, which is characterized in that each elastic portion abuts at least one described optics Eyeglass.

6. location structure as described in any one of claims 1 to 3, which is characterized in that the assembly parts at least have intersection Two sides is used to abut multiple optical mirror slips.

7. location structure as claimed in claim 6, which is characterized in that the two sides is two planes or two curved surfaces.

8. location structure as claimed in claim 7, which is characterized in that the curved surface side-glance shape be it is ladder-like or concavo-convex or Arcuation.

9. location structure as described in any one of claims 1 to 3, which is characterized in that the assembly parts at least have parallel Two convex ribs, two convex ribs are used to abut multiple optical mirror slips.

10. location structure as claimed in claim 9, which is characterized in that two convex ribs are that linear convex ribs or curve-like are convex Muscle.

11. location structure as claimed in claim 10, which is characterized in that the curve-like convex ribs be it is ladder-like or concavo-convex or Arcuation convex ribs.

12. a kind of optical module, which is characterized in that the optical module includes:

At least two optical mirror slips；

Location structure, the location structure include:

Assembly parts are used to accommodate multiple optical mirror slips；

Elastic component is arranged between the optical mirror slip and the assembly parts, and the elastic component is to by multiple optics Eyeglass is connected on the assembly parts towards the same direction.

13. optical module as claimed in claim 12, which is characterized in that the elastic component includes one group of elastic portion, to incite somebody to action Multiple optical mirror slips are connected to facing one direction on the assembly parts.

14. optical module as claimed in claim 12, which is characterized in that the elastic component includes at least two groups elastic portion, often Multiple optical mirror slips to be connected on the assembly parts by group elastic portion facing one direction.

15. optical module according to claim 13 or 14, which is characterized in that elastic portion described in every group includes at least one bullet Property portion.