CN209894696U

CN209894696U - Automatic detection equipment for optical part coating

Info

Publication number: CN209894696U
Application number: CN201821951705.1U
Authority: CN
Inventors: 牟晓
Original assignee: Fujisan Industrial Technology Co Ltd Of Shenzhen City
Current assignee: Fujisan Industrial Technology Co Ltd Of Shenzhen City
Priority date: 2018-11-26
Filing date: 2018-11-26
Publication date: 2020-01-03
Anticipated expiration: 2028-11-26

Abstract

The utility model provides an automatic detection device for optical part coating, which comprises a clamp device, a detector device, a first light source device, a second light source device and a third light source device; the clamp device comprises a clamp and a clamp moving mechanism; the detector device comprises a detector and a detector moving mechanism; the first light source device comprises a first light source and a first light source moving mechanism; the second light source device comprises a second light source and a second light source moving mechanism; the third light source device comprises a third light source and a third light source moving mechanism. The utility model discloses well anchor clamps, detector, first light source, second light source and the equal automatically regulated position of third light source have realized automated inspection, alleviate staff intensity of labour and the operation degree of difficulty, improve detection efficiency.

Description

Automatic detection equipment for optical part coating

Technical Field

The utility model relates to an optical element detects the field, especially relates to an optical element coating film automatic check out test set.

Background

The optical coating is mainly applied to the surface coating of optical parts, and aims to meet the requirements of reducing or increasing light reflection, beam splitting, color separation, light filtering, polarization and the like. The optical parts need to be detected after being coated, the detection items are the reflectivity and the transmissivity of the coated optical parts at different angles, and if the reflectivity and the transmissivity can meet the requirements, the coating is qualified.

Traditional optics coating film detects relies on artifical supplementary simple and easy tool to accomplish to detect, and when detecting in batches big, staff intensity of labour and the operation degree of difficulty are big, and detection efficiency is low.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is according to the not enough of above-mentioned prior art, provide an optical parts coating film automatic check out test set, it can detect coating film optical parts is automatic under the angle of difference.

The technical scheme of the utility model as follows:

the automatic detection equipment for the coating of the optical part comprises a clamp device, a detector device, a first light source device, a second light source device and a third light source device;

the fixture device comprises a fixture and a fixture moving mechanism, wherein the fixture is provided with a product accommodating hole, and the fixture moving mechanism drives the fixture to translate along an X axis, a Y axis and a Z axis and rotate around the Y axis;

the detector device comprises a detector and a detector moving mechanism, and the detector moving mechanism drives the detector to translate along an X axis and a Y axis above the clamp;

the first light source device comprises a first light source and a first light source moving mechanism, and the first light source moving mechanism drives the first light source to translate along an X axis, a Y axis, a Z axis, rotate around the X axis and rotate around the Y axis below the clamp;

the second light source device comprises a second light source and a second light source moving mechanism, and the second light source moving mechanism drives the second light source to translate along the Z axis, rotate around the X axis and rotate around the Y axis above the clamp;

the third light source device comprises a third light source and a third light source moving mechanism, and the third light source moving mechanism drives the third light source to move above the clamp along an X axis, a Y axis, a Z axis, a rotation around the X axis and a rotation around the Y axis.

Furthermore, the fixture is of a disc structure, and a plurality of product accommodating holes are distributed in an equiangular circumferential array; the detector is a photoelectric sensor; the first light source, the second light source and the third light source respectively comprise a laser emitter and optical fibers, and the optical fibers conduct light rays emitted by the laser emitter.

Furthermore, the clamp moving mechanism comprises an X-axis linear module, a Y-axis automatic rotating sliding table and a Z-axis manual fine adjustment frame; y axis nature module install in X axis nature module, Y axle autogiration slip table install in Y axis nature module, the manual fine-tuning of Z axle install in Y axle autogiration slip table, anchor clamps install in the manual fine-tuning of Z axle puts up.

Furthermore, the detector moving mechanism comprises a Y-axis manual fine adjustment frame and an X-axis manual fine adjustment frame, the X-axis manual fine adjustment frame is installed on the Y-axis manual fine adjustment frame, and the detector is installed on the X-axis manual fine adjustment frame.

Furthermore, the first light source moving mechanism comprises a Z-axis linear module, a Y-axis manual fine adjustment frame, an X-axis manual fine adjustment frame, a Y-axis automatic angular position table and an X-axis automatic angular position table, the Y-axis manual fine adjustment frame is installed on the Z-axis linear module, the X-axis manual fine adjustment frame is installed on the Y-axis manual fine adjustment frame, the Y-axis automatic angular position table is installed on the X-axis manual fine adjustment frame, the X-axis automatic angular position table is installed on the Y-axis automatic angular position table, and the first light source is installed on the X-axis automatic angular position table.

Further, second light source moving mechanism is including Z axis nature module, Y axle autogiration slip table, the automatic angular position platform of X axle, the automatic angular position platform of Y axle, Y axle autogiration slip table install in Z axis nature module, the automatic angular position platform of X axle install in Y axle autogiration slip table, the automatic angular position platform of Y axle install in the automatic angular position platform of X axle, the second light source install in the automatic angular position platform of Y axle.

Furthermore, the third light source moving mechanism comprises a Z-axis linear module, a Y-axis automatic fine adjustment frame, an X-axis automatic angular position table and a Y-axis automatic angular position table, the Y-axis automatic fine adjustment frame is installed on the Z-axis linear module, the X-axis automatic fine adjustment frame is installed on the Y-axis automatic fine adjustment frame, the X-axis automatic angular position table is installed on the X-axis automatic fine adjustment frame, the Y-axis automatic angular position table is installed on the X-axis automatic angular position table, and the third light source is installed on the Y-axis automatic angular position table.

Compared with the prior art, the utility model discloses following beneficial effect has: (1) the clamp, the detector, the first light source, the second light source and the third light source can automatically adjust the positions, so that automatic detection is realized, the labor intensity and the operation difficulty of workers are reduced, and the detection efficiency is improved; (2) the three light sources are provided, so that detection items under different light sources can be met simultaneously, and the application range is improved; (3) the first light source device is used for measuring the transmissivity of the coated optical part, and the second light source device and the third light source device are used for measuring the reflectivity of the coated optical part.

Drawings

FIG. 1 is a block diagram of an embodiment.

FIG. 2 is a structural view of a jig device in the embodiment.

Fig. 3 is a block diagram of a detector device in the embodiment.

Fig. 4 is a structural diagram of the first light source device in the embodiment.

Fig. 5 is a structural diagram of a second light source device in the embodiment.

Fig. 6 is a structural view of a third light source device in the embodiment.

Reference numerals

100-a fixture device, 110-a fixture, 120-a fixture moving mechanism, 130-a product containing hole, 200-a detector device, 210-a detector, 220-a detector moving mechanism, 300-a first light source device, 310-a first light source, 320-a first light source moving mechanism, 400-a second light source device, 410-a second light source, 420-a second light source moving mechanism, 500-a third light source device, 510-a third light source, 520-a third light source moving mechanism,

a 1-X axis linear module, a 2-Y axis linear module, a 3-Z axis linear module,

a 4-X axis manual fine adjustment frame, a 5-Y axis manual fine adjustment frame, a 6-Z axis manual fine adjustment frame,

a 7-X axis automatic angle position table, an 8-Y axis automatic angle position table, a 9-Y axis automatic rotating sliding table,

10-X axis automatic fine adjustment frame, 11-Y axis automatic fine adjustment frame.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1, the present invention provides an automatic detection apparatus for optical component coating, which comprises a fixture device 100, a detector device 200, a first light source device 300, a second light source device 400, and a third light source device 500.

The fixture device 100 comprises a fixture 110 and a fixture moving mechanism 120, wherein the fixture 110 is provided with a product accommodating hole 130, and the fixture moving mechanism 120 drives the fixture 110 to translate along an X axis, a Y axis, a Z axis and rotate around the Y axis.

The detector device 200 includes a detector 210 and a detector moving mechanism 220, wherein the detector moving mechanism 220 drives the detector 210 to move horizontally along the X-axis and the Y-axis above the fixture 110.

The first light source device 300 includes a first light source 310 and a first light source moving mechanism 320, wherein the first light source moving mechanism 320 drives the first light source 310 to move under the fixture 110 along an X-axis, a Y-axis, a Z-axis, an X-axis, and a Y-axis.

The second light source device 400 includes a second light source 410 and a second light source moving mechanism 420, wherein the second light source moving mechanism 420 drives the second light source 410 to move above the fixture 110 in a horizontal direction along the Z-axis, rotate around the X-axis, and rotate around the Y-axis.

The third light source device 500 includes a third light source 510 and a third light source moving mechanism 520, and the third light source moving mechanism 520 drives the third light source 510 to move above the fixture 110 along the X-axis, Y-axis, Z-axis, X-axis, and Y-axis.

The fixture 110 is a disc structure, and a plurality of product containing holes 130 are distributed in an equiangular circumferential array; the detector 210 is a photosensor; the first light source 310, the second light source 410 and the third light source 510 each include a laser emitter and an optical fiber for transmitting light emitted from the laser emitter.

As shown in fig. 2, the fixture moving mechanism 120 includes an X-axis linear module 1, a Y-axis linear module 2, a Y-axis automatic rotating sliding table 9, and a Z-axis manual fine adjustment frame 6; y axis nature module 2 is installed in X axis nature module 1, and Y axle autogiration slip table 9 is installed in Y axis nature module 2, and the manual fine tuning frame 6 of Z axle is installed in Y axle autogiration slip table 9, and anchor clamps 110 are installed in the manual fine tuning frame 6 of Z axle.

As shown in fig. 3, the detector moving mechanism 220 includes a Y-axis manual fine adjustment frame 5 and an X-axis manual fine adjustment frame 4, the X-axis manual fine adjustment frame 4 is mounted on the Y-axis manual fine adjustment frame 5, and the detector 210 is mounted on the X-axis manual fine adjustment frame 4.

As shown in fig. 4, the first light source moving mechanism 320 includes a Z-axis linear module 3, a Y-axis manual fine adjustment frame 5, an X-axis manual fine adjustment frame 4, a Y-axis automatic angular position stage 8, and an X-axis automatic angular position stage 7, the Y-axis manual fine adjustment frame 5 is mounted on the Z-axis linear module 3, the X-axis manual fine adjustment frame 4 is mounted on the Y-axis manual fine adjustment frame 5, the Y-axis automatic angular position stage 8 is mounted on the X-axis manual fine adjustment frame 4, the X-axis automatic angular position stage 7 is mounted on the Y-axis automatic angular position stage 8, and the first light source 310 is mounted on the X-axis automatic angular position stage 7.

As shown in fig. 5, the second light source moving mechanism 420 includes a Z-axis linear module 3, a Y-axis automatic rotary sliding table 9, an X-axis automatic angular position table 7, and a Y-axis automatic angular position table 8, the Y-axis automatic rotary sliding table 9 is installed in the Z-axis linear module 3, the X-axis automatic angular position table 7 is installed in the Y-axis automatic rotary sliding table 9, the Y-axis automatic angular position table 8 is installed in the X-axis automatic angular position table 7, and the second light source 410 is installed in the Y-axis automatic angular position table 8.

As shown in fig. 6, the third light source moving mechanism 520 includes a Z-axis linear module 3, a Y-axis automatic fine adjustment frame 11, an X-axis automatic fine adjustment frame 10, an X-axis automatic angular position stage 7, and a Y-axis automatic angular position stage 8, the Y-axis automatic fine adjustment frame 11 is mounted on the Z-axis linear module 3, the X-axis automatic fine adjustment frame 10 is mounted on the Y-axis automatic fine adjustment frame 11, the X-axis automatic angular position stage 7 is mounted on the X-axis automatic fine adjustment frame 10, the Y-axis automatic angular position stage 8 is mounted on the X-axis automatic angular position stage 7, and the third light source 510 is mounted on the Y-axis automatic angular position stage 8.

The utility model discloses a use method: (1) placing the coated optical component in the product containing hole 130; (2) according to the detection requirement, the positions of the clamp 110 and the detector 210 are adjusted, and the position of any one of the first light source 310, the second light source 410 and the third light source 510 is adjusted; (3) according to the detection requirement, any one of the first light source 310, the second light source 410 and the third light source 510 is turned on, and the detector 210 receives and analyzes the light transmitted or reflected by the coated light part.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the scope of the invention, which is defined by the appended claims.

Claims

1. Optical element coating film automatic check out test set which characterized in that: the device comprises a clamp device, a detector device, a first light source device, a second light source device and a third light source device;

2. The automatic inspection equipment for coating film on optical parts according to claim 1, wherein: the fixture is of a disc structure, and a plurality of product accommodating holes are distributed in an equiangular circumferential array; the detector is a photoelectric sensor; the first light source, the second light source and the third light source respectively comprise a laser emitter and optical fibers, and the optical fibers conduct light rays emitted by the laser emitter.

3. The automatic inspection equipment for coating film on optical parts according to claim 1, wherein: the clamp moving mechanism comprises an X-axis linear module, a Y-axis automatic rotating sliding table and a Z-axis manual fine adjustment frame; y axis nature module install in X axis nature module, Y axle autogiration slip table install in Y axis nature module, the manual fine-tuning of Z axle install in Y axle autogiration slip table, anchor clamps install in the manual fine-tuning of Z axle puts up.

4. The automatic inspection equipment for coating film on optical parts according to claim 1, wherein: the detector moving mechanism comprises a Y-axis manual fine adjustment frame and an X-axis manual fine adjustment frame, the X-axis manual fine adjustment frame is installed on the Y-axis manual fine adjustment frame, and the detector is installed on the X-axis manual fine adjustment frame.

5. The automatic inspection equipment for coating film on optical parts according to claim 1, wherein: the first light source moving mechanism comprises a Z-axis linear module, a Y-axis manual fine adjustment frame, an X-axis manual fine adjustment frame, a Y-axis automatic angle position table and an X-axis automatic angle position table, the Y-axis manual fine adjustment frame is installed on the Z-axis linear module, the X-axis manual fine adjustment frame is installed on the Y-axis manual fine adjustment frame, the Y-axis automatic angle position table is installed on the X-axis manual fine adjustment frame, the X-axis automatic angle position table is installed on the Y-axis automatic angle position table, and the first light source is installed on the X-axis automatic angle position table.

6. The automatic inspection equipment for coating film on optical parts according to claim 1, wherein: second light source moving mechanism is including Z axis nature module, Y axle autogiration slip table, the automatic angular position platform of X axle, the automatic angular position platform of Y axle, Y axle autogiration slip table install in Z axis nature module, the automatic angular position platform of X axle install in Y axle autogiration slip table, the automatic angular position platform of Y axle install in X axle autogiration angular position platform, the second light source install in Y axle autogiration angular position platform.

7. The automatic inspection equipment for coating film on optical parts according to claim 1, wherein: the third light source moving mechanism comprises a Z-axis linear module, a Y-axis automatic fine adjustment frame, an X-axis automatic angle position table and a Y-axis automatic angle position table, the Y-axis automatic fine adjustment frame is installed on the Z-axis linear module, the X-axis automatic fine adjustment frame is installed on the Y-axis automatic fine adjustment frame, the X-axis automatic angle position table is installed on the X-axis automatic fine adjustment frame, the Y-axis automatic angle position table is installed on the X-axis automatic angle position table, and the third light source is installed on the Y-axis automatic angle position table.