CN206484233U - A kind of high-precision eyeglass press-in assembling device - Google Patents
A kind of high-precision eyeglass press-in assembling device Download PDFInfo
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- CN206484233U CN206484233U CN201720174143.3U CN201720174143U CN206484233U CN 206484233 U CN206484233 U CN 206484233U CN 201720174143 U CN201720174143 U CN 201720174143U CN 206484233 U CN206484233 U CN 206484233U
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- eyeglass
- bearing
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- assembling device
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Abstract
The utility model is related to a kind of high-precision eyeglass press-in assembling device, including lens barrel bearing, eyeglass bearing, eyeglass pressing mechanism and sliding equipment, the device is integrally placed on workbench, sliding equipment can be slided on the table, left and right difference fixed lens barrel bearing and eyeglass bearing on sliding equipment, the eyeglass pressing mechanism is suspended in above the sliding equipment, and including eyeglass adsorbing mechanism and actuating mechanism, the actuating mechanism driving eyeglass adsorbing mechanism motion.High-precision eyeglass press-in assembling device of the present utility model is the semi-automatic eyeglass press-in assembling device of simple type, using the linkage of sliding block, can quickly and easily realize coaxial positioning and by parallel relative adjustment.On the premise of ensureing that product board is stable, the input cost at initial stage of high-end devices, and space requirement are reduced.Particularly suitable for small lot, the assembling and assembling of the optical lens or optical unit part of multi items.
Description
Technical field
The utility model is related to the package technique of optical element, and in particular to a kind of high-precision eyeglass press-in assembling device,
For the eyeglass on camera lens to be pressed into correct position in lens barrel.
Background technology
Entered at present to eyeglass assembling is basic using manual group, or simple press-in device, produce in enormous quantities using life
Output bas line machinery press-in, but the former processing efficiency is low, and is manually pressed into that the deviation of often precision is big, and the latter
Original equipment input is high, and program setting is complicated, causes cost substantially to increase.
Utility model content
In view of this, the utility model proposes a kind of high-precision eyeglass press-in assembling device, it is intended to quickly and easily, and
And the high accuracy realized in assembled with high precision, the application of relative efficiency is referred to relative to assembling by hand of the prior art originally
The precision of application is higher.
The technical solution adopted in the utility model is specially:
A kind of high-precision eyeglass press-in assembling device, including lens barrel bearing, eyeglass bearing, eyeglass pressing mechanism and skate machine
Structure, the device is integrally placed on workbench, and sliding equipment can be slided on the table, difference fixed mirror in left and right on sliding equipment
Cylinder bearing and eyeglass bearing, the eyeglass pressing mechanism are suspended in above the sliding equipment, and including eyeglass adsorbing mechanism
And actuating mechanism, the actuating mechanism driving eyeglass adsorbing mechanism motion.
Wherein described lens barrel bearing is fixed on the sliding mechanism by lens barrel bearing fixed station, and the eyeglass bearing passes through mirror
Piece bearing sleeve is fixed on the sliding mechanism, and the eyeglass bearing coordinates in order to the mirror with the eyeglass bearing sleeve gap
Piece bearing can rotate to adjust the direction of eyeglass bearing in the eyeglass bearing sleeve.
Wherein described eyeglass adsorbing mechanism belongs to vacuum adsorption mechanism.
Wherein described eyeglass adsorbing mechanism passes through Control adsorption time length.
Wherein described actuating mechanism is cylinder or oil cylinder or electric driving mechanism.
The action passage time relay of wherein described sliding equipment and the eyeglass adsorbing mechanism realizes coordinated signals.
The movement travel of wherein described sliding equipment and eyeglass adsorbing mechanism can be controlled by controlling organization.
The method of operation of wherein described sliding equipment is one-dimensional or two dimensional motion;The motion mode of the eyeglass adsorbing mechanism
For one-dimensional, two-dimentional or three-dimensional motion.
The utility model produce beneficial effect be:
Eyeglass press-in assembling device of the present utility model is the semi-automatic eyeglass press-in assembling device of simple type, utilizes sliding block
Linkage, can quickly and easily realize coaxial positioning and by parallel relative adjustment.Ensureing product board stabilization
Under the premise of, reduce the input cost at initial stage of high-end devices, and space requirement.Particularly suitable for small lot, the optical frames of multi items
The assembling and assembling of head or optical unit part.
Brief description of the drawings
In order to be easier to understand the technical solution of the utility model and beneficial technique effect, by referring to showing in the accompanying drawings
The application is described in detail for the embodiment of the present utility model that goes out.The accompanying drawing depict only the allusion quotation of the application
Type embodiment, does not constitute the limitation to the protection domain of the application, wherein:
Fig. 1 is to be pressed into assembling device structural representation according to the eyeglass of an embodiment of the present utility model.
In the reference indicated in Fig. 1:
A:Eyeglass adsorbing mechanism;B:Eyeglass;C:Lens barrel bearing:D:Lens barrel bearing fixed station;E:Actuating mechanism contiguous block;F:
Eyeglass adsorbing mechanism fixed seat;G:Eyeglass bearing;H:Eyeglass bearing sleeve;I:Sliding equipment;J:Workbench;K:Eyeglass bearing set
Cylinder fixed station.
Embodiment
Fig. 1 is to be pressed into assembling device structural representation according to the high-precision eyeglass of an embodiment of the present utility model.
As illustrated, the high-precision eyeglass press-in assembling device includes lens barrel bearing C, eyeglass bearing G, eyeglass pressing mechanism and skate machine
Structure I, the device is integrally placed on workbench J, and sliding equipment I can horizontally slip on workbench J, left and right on sliding equipment I
Difference fixed lens barrel bearing C and eyeglass bearing G.Lens barrel bearing C is fixed on by lens barrel bearing fixed station D in this embodiment
On sliding equipment I, the eyeglass bearing G is fixed on sliding equipment I by eyeglass bearing sleeve H, the eyeglass bearing G and institute
State eyeglass bearing sleeve H gaps coordinate in order to the eyeglass bearing G can be rotated in the eyeglass bearing sleeve H so as to
To adjust eyeglass bearing G direction.The eyeglass pressing mechanism is suspended in above the sliding equipment I, and is inhaled including eyeglass
Random structure A and actuating mechanism, the actuating mechanism are fixedly connected to drive by actuating mechanism contiguous block E with eyeglass adsorbing mechanism A
Index glass piece adsorbing mechanism A moves up and down.In this embodiment, the eyeglass adsorbing mechanism A belongs to vacuum adsorption mechanism and led to
Control adsorption time length is crossed, the actuating mechanism can be cylinder or oil cylinder or electric driving mechanism.The cunning
Motivation structure I and the eyeglass adsorbing mechanism A action passage time relay realize coordinated signals.
The operation principle of the device is as follows:
Lens barrel is placed on lens barrel bearing C first, lens barrel bearing C is provided with detent mechanism, to ensure to put by lens barrel
The diameter parallel of lens barrel axis and eyeglass adsorbing mechanism after putting on lens barrel bearing C;Eyeglass B is placed on eyeglass bearing G,
Detent mechanism also is provided with eyeglass bearing G, to ensure in rear lens B centre normals eyeglass B being placed on eyeglass bearing G
With eyeglass adsorbing mechanism A diameter parallel;Sliding equipment I, which is slided, causes the eyeglass B on eyeglass bearing G to be located at eyeglass adsorbing mechanism
A underface, so that eyeglass B centre normal is overlapped with eyeglass adsorbing mechanism A axis;Actuating mechanism action makes eyeglass
Adsorbing mechanism A is moved downward, while eyeglass adsorbing mechanism A adsorption function starts, when eyeglass adsorbing mechanism A is close to eyeglass B
Eyeglass B is held;Eyeglass adsorbing mechanism A is kept holding eyeglass B and actuating mechanism driving eyeglass adsorbing mechanism A is moved upwards
Away from eyeglass bearing G;Sliding equipment I further slides the underface for causing lens barrel bearing C to move to eyeglass adsorbing mechanism A, from
And overlap lens barrel axis and eyeglass adsorbing mechanism A axis;Actuating mechanism drives eyeglass adsorbing mechanism A to move downward again,
So as to which the eyeglass B held is pressed into lens barrel;Act eyeglass adsorbing mechanism A absorption to disappear, actuating mechanism driving eyeglass is inhaled
Random structure A is moved upwards, so as to complete eyeglass press-in action.
Certainly, sliding equipment I and eyeglass adsorbing mechanism A movement travel can be controlled for example, by controlling organization,
The size of stroke can be determined in advance according to the model size of different camera lenses;The sliding equipment I method of operation can be one
Maintenance and operation moves (can be moved along X or Y-direction), or two dimensional motion (can be moved) along X and Y-direction;Eyeglass
Adsorbing mechanism A motion mode can (i.e. can be along for motion in one dimension (can be moved along X or Y-direction), two dimensional motion
X and Y-direction motion) and three-dimensional motion (can be moved along X, Y and Z-direction).Their motion mode and each part
Coaxial positioning can be realized by existing technology, will not be repeated here.
The utility model can be embodied in other specific forms, but without departing from protection model of the present utility model
Enclose, protection domain of the present utility model is defined only by the following claims.
Claims (8)
1. a kind of high-precision eyeglass press-in assembling device, including lens barrel bearing, eyeglass bearing, eyeglass pressing mechanism and skate machine
Structure, the device is integrally placed on workbench, and sliding equipment can be slided on the table, difference fixed mirror in left and right on sliding equipment
Cylinder bearing and eyeglass bearing, the eyeglass pressing mechanism are suspended in above the sliding equipment, and including eyeglass adsorbing mechanism
And actuating mechanism, the actuating mechanism driving eyeglass adsorbing mechanism motion.
2. high-precision eyeglass press-in assembling device according to claim 1, wherein the lens barrel bearing passes through lens barrel bearing
Fixed station is fixed on the sliding mechanism, and the eyeglass bearing is fixed on the sliding mechanism by eyeglass bearing sleeve, the eyeglass
Bearing coordinates in order to which the eyeglass bearing can rotate in the eyeglass bearing sleeve with the eyeglass bearing sleeve gap
So as to adjust the direction of eyeglass bearing.
3. high-precision eyeglass press-in assembling device according to claim 1, wherein the eyeglass adsorbing mechanism belongs to vacuum
Adsorbing mechanism.
4. high-precision eyeglass press-in assembling device according to claim 1, wherein the eyeglass adsorbing mechanism passes through relay
Device controls adsorption time length.
5. high-precision eyeglass press-in assembling device according to claim 1, wherein the actuating mechanism is cylinder or oil cylinder
Or electric driving mechanism.
6. high-precision eyeglass press-in assembling device according to claim 1, wherein the sliding equipment and the eyeglass are inhaled
The action passage time relay of random structure realizes coordinated signals.
7. high-precision eyeglass press-in assembling device according to claim 1, wherein the sliding equipment and eyeglass adsorption machine
The movement travel of structure can be controlled by controlling organization.
8. the high-precision eyeglass press-in assembling device according to any one of claim 1-7, wherein the sliding equipment
The method of operation is one-dimensional or two dimensional motion;The motion mode of the eyeglass adsorbing mechanism is one-dimensional, two-dimentional or three-dimensional motion.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201720174143.3U CN206484233U (en) | 2017-02-24 | 2017-02-24 | A kind of high-precision eyeglass press-in assembling device |
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CN201720174143.3U CN206484233U (en) | 2017-02-24 | 2017-02-24 | A kind of high-precision eyeglass press-in assembling device |
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CN206484233U true CN206484233U (en) | 2017-09-12 |
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CN201720174143.3U Active CN206484233U (en) | 2017-02-24 | 2017-02-24 | A kind of high-precision eyeglass press-in assembling device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106624730A (en) * | 2017-02-24 | 2017-05-10 | 希比希光学(北京)有限公司 | High-precision lens press-in assembling device |
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2017
- 2017-02-24 CN CN201720174143.3U patent/CN206484233U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106624730A (en) * | 2017-02-24 | 2017-05-10 | 希比希光学(北京)有限公司 | High-precision lens press-in assembling device |
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