CN207248766U - A kind of Systems for optical inspection - Google Patents

Abstract

The utility model embodiment discloses a kind of Systems for optical inspection, is related to mechanical detection technical field.A kind of Systems for optical inspection, including：Conveying mechanism, elevating mechanism, carrier, limit assembly, first detection module and the second detection module；Wherein, the elevating mechanism is installed in the conveying mechanism, and the carrier is installed in the elevating mechanism upper end；The limit assembly sets the side of the conveying mechanism, and the sensor for detecting the carrier position is equipped with by the limit assembly；The first detection module and second detection module are located at by the conveying mechanism.Systems for optical inspection structure setting is reasonable described in the utility model embodiment, pass through assembly line automatic transport, solve the problems, such as manually to transmit product orientation inaccurate, and by being checked respectively for product different faces, improve the inspection efficiency of product, using high-resolution optical detection means, and it is effectively improved the accuracy rate of inspection.

Description

A kind of Systems for optical inspection

Technical field

The utility model embodiment is related to mechanical detection technical field, particularly a kind of Systems for optical inspection.

Background technology

Nowadays the industry of the electronic equipments such as mobile phone belongs to very popular industry, with the relevant manufacturing of mobile phone also therewith Rise, and in the manufacturing of mobile phone and the camera module of tablet, the appearance progress to camera module is needed before storage Detection.

Inventor has found that at least there are following technical problem in the prior art during the application is studied：

The final inspection storage of camera module appearance has at present manually checks under the microscope, and there are flase drop, missing inspection, detection The problems such as efficiency is low and examination criteria is inconsistent.

Utility model content

The technical problem to be solved is that the detection of camera module appearance is of low quality and imitates for the utility model embodiment Rate is relatively low.

In order to solve the above-mentioned technical problem, a kind of Systems for optical inspection described in the utility model embodiment employs as follows The technical solution：

A kind of Systems for optical inspection, including：Conveying mechanism, elevating mechanism, carrier, limit assembly, first detection module and Second detection module；

Wherein, the elevating mechanism is installed in the conveying mechanism, and the carrier is installed in the elevating mechanism upper end； The limit assembly sets the side of the conveying mechanism, and the sensing for detecting the carrier position is equipped with by the limit assembly Device；The first detection module and second detection module are located at by the conveying mechanism.

Further, the Systems for optical inspection, the first detection module include：First X-axis module, the first Y-axis mould Group, the first Z axis module and the first image detection component；

The first Y-axis module is installed on the first X-axis module, and the first Z axis module is installed on the first Y In Axle mould group, described first image detection components are installed on the first Z axis module；

(driving the first Y-axis module movement, the first Y-axis module drive the first Z to the first X-axis module Axle mould group moves, the first Z axis module driving described first image detection components movement.

Further, the Systems for optical inspection, second detection module include：Second X-axis module, the second Y-axis mould Group, the second Z axis module and the second image detection component；

The second X-axis module is located at by the conveying mechanism, and the second Z axis module is installed on the second Y-axis mould In group, second image detection component is installed on the second Z axis module；

The second Y-axis module drives the second Z axis module movement, and the second Z axis module drives second figure As detection components move.

Further, the Systems for optical inspection, second detection module further include：Optical registration component and correction are flat Platform；

The optical registration component is installed on the side of the second X-axis module, and the dressing plate is installed on the light Learn contraposition component upper end.

Compared with prior art, the utility model embodiment mainly has following beneficial effect：

The utility model embodiment discloses a kind of Systems for optical inspection, including：Conveying mechanism, elevating mechanism, carrier, limit Hyte part, first detection module and the second detection module；Wherein, the elevating mechanism is installed in the conveying mechanism, described Carrier is installed in the elevating mechanism upper end；The limit assembly sets the side of the conveying mechanism, and the limit assembly Side is equipped with the sensor for detecting the carrier position；The first detection module and second detection module are located at the conveying By mechanism.Systems for optical inspection structure setting is reasonable described in the utility model embodiment, by assembly line automatic transport, solves The problem of manually transmission product orientation is inaccurate, and by being checked respectively for product different faces, improve the inspection effect of product Rate, using high-resolution optical detection means, and is effectively improved the accuracy rate of inspection.

Brief description of the drawings

Fig. 1 is the part-structure schematic diagram of Systems for optical inspection described in the utility model embodiment；

Fig. 2 is the schematic diagram of the second detection module described in the utility model embodiment.

Description of reference numerals：

1- conveying mechanisms, 2- elevating mechanisms, 3- carriers, 4- limit assemblies, 5- first detection modules, 6- second detect mould Block, the first X-axis of 51- module, the first Y-axis of 52- module, the first Z axis of 53- module, the first image detection components of 54-, the 2nd X of 61- Axle mould group, the second Y-axis of 62- module, the second Z axis of 63- module, the second image detection components of 64-, 65- optical registrations component, 66- Dressing plate.

Embodiment

For the ease of understanding the utility model, utility model is described more fully below with reference to relevant drawings. The preferred embodiment of the utility model is given in attached drawing.But the utility model is realized in many different forms, not It is limited to embodiment described herein.On the contrary, the purpose for providing these embodiments is the disclosure made to the utility model Understanding more thorough and comprehensive.

Unless otherwise defined, all of technologies and scientific terms used here by the article is led with belonging to the technology of the utility model The normally understood implication of technical staff in domain is identical.It is simply in the term used in the description of the utility model herein The purpose of description specific embodiment, it is not intended that in limitation the utility model.

" on ", " under ", " top ", " upper end ", " bottom ", " top it should be noted that word used in the following description Portion " etc. illustrate only the relative position relation between each component, and when being overturn or being rotated, this relative position relation may It can occur reverse or change.

Claims of the utility model, specification and term " first " in Figure of description, " second " etc. are For distinguishing different objects, rather than for describing particular order.

With reference to figure 1, for the part-structure schematic diagram of Systems for optical inspection described in the utility model embodiment；With reference to figure 2, it is The schematic diagram of second detection module described in the utility model embodiment.With reference to shown in Fig. 1 and Fig. 2, the Systems for optical inspection bag Include：Conveying mechanism 1, elevating mechanism 2, carrier 3, limit assembly 4,5 and second detection module 6 of first detection module.

Wherein, the elevating mechanism 2 is installed in the conveying mechanism 1, and the carrier 3 is installed in the elevating mechanism 2 Upper end.The limit assembly 4 sets the side of the conveying mechanism 1, and the side of the limit assembly 4 is equipped with and detects the carrier The sensor (not shown) of 3 positions.The limit assembly 4 includes cylinder (not shown) and baffle (not shown).

After the sensor (not shown) senses that the carrier 3 is conveyed through coming, the limit assembly 4 is by described The cylinder driving baffle (not shown) is (not shown) to be declined, so as to be carried out to the carrier 3 for being placed with workpiece spacing.Then The elevating mechanism 2 jacks up the carrier 3, disengages it from the pipeline of conveying mechanism 1.

Then, then start positioned at the first detection module 5 on the side of conveying mechanism 1 and second detection module 6 Workpiece in carrier 3 is detected.

Specifically, the first detection module 5 includes：First X-axis module 51, the first Y-axis module 52, the first Z axis module 53 and first image detection component 54.The first Y-axis module 52 is installed on the first X-axis module 51, first Z axis Module 53 is installed on the first Y-axis module 52, and described first image detection components 54 are installed on the first Z axis module 53 On.

The first X-axis module 51 is used to drive the first Y-axis module 52 to move, and the first Y-axis module 52 is used for The first Z axis module 53 is driven to move, the first Z axis module 53 is used to drive described first image detection components 54 to move Dynamic, described first image detection components 54 are then detected the one side of the workpiece by imaging sensor therein, to The defects of detecting unqualified workpiece surface appearance position.

Second detection module 6 includes：Second X-axis module 61, the second Y-axis module 62, the second Z axis module 63, second Image detection component 64, optical registration component 65 and dressing plate 66.The second X-axis module 61 is located at the conveying mechanism 1 Side, the second Z axis module 63 are installed on the second Y-axis module 62, and second image detection component 64 is installed on institute State on the second Z axis module 63.The optical registration component 65 is installed on the side of the second X-axis module 61, and the correction is flat Platform 66 is installed on the upper end of the optical registration component 65.

The second Y-axis module 62 is used to drive the second Z axis module 63 to move, and the second Z axis module 63 is used for Second image detection component 64 is driven to move.Carrier 3 is transported on the dressing plate 66 through the conveying mechanism 1, institute Optical registration component 65 is stated for detecting whether the position of workpiece described in the carrier 3 is located at testing requirements, the correction is flat The position that platform 66 is then used to correct the workpiece is located at accurate test position.Second image detection component 64 is used for The defects of unqualified workpiece surface appearance is detected by imaging sensor therein position.

Described first image detection components 54 and second image detection component 64 coordinate, to the different surfaces point of workpiece Open and be detected, workpiece is checked line by line by imaging sensor therein, obtaining view data post processing, carrying out feature and carry Take identification and record and mark underproof data.Wherein, the workpiece is mainly the camera module of mobile phone or tablet.

The course of work of Systems for optical inspection described in the utility model embodiment is illustrated below：

After camera module is placed on carrier 3, carrier 3 is transported to by first detection module 5 by conveying mechanism 1 Test position.The sensor sensing on the side of limit assembly 4 to carrier 3 in place after, general who has surrendered's load under the cylinder driving baffle of limit assembly 4 Tool 3 stops.Then elevating mechanism 2 drives carrier 4 to rise, and carrier 4 is jacked up and disengages it from pipeline.First detection module 5 Just image detection is carried out to the workpiece in carrier 3, then elevating mechanism 2 and limit assembly 4 reset, and workpiece is through upset or further The inspection positions of the second detection module 6 are transported to after adjustment angle, by the second detection module 6 to the another side of workpiece or another One angle is detected, and 5 and second detection module 6 of first detection module coordinates detection, so as to mark underproof workpiece.

Systems for optical inspection structure setting is reasonable described in the utility model embodiment, by assembly line automatic transport, solves The problem of artificial transmission product orientation is inaccurate, and by being checked respectively for product different faces, improve the inspection of product Efficiency, using high-resolution optical detection means, and is effectively improved the accuracy rate of inspection.And the utility model is implemented Systems for optical inspection described in example according to production requirement, can also adjust the boundary parameter of detection, control the detection of all kinds of defects Percent of pass.

The utility model is not limited to the above embodiment, and the above is the preferred embodiment of the utility model, the reality Apply example and be merely to illustrate the utility model rather than limitation the scope of the utility model, it is noted that for the art Those of ordinary skill for, on the premise of the utility model principle is not departed from, some improvement and modification can also be made, this The improvement and modification of a little equivalent forms also should be regarded as including within the protection scope of the present utility model.

Claims (4)

1. A kind of 1. Systems for optical inspection, it is characterised in that including：Conveying mechanism (1), elevating mechanism (2), carrier (3), spacing group Part (4), first detection module (5) and the second detection module (6)；

   Wherein, the elevating mechanism (2) is installed in the conveying mechanism (1), and the carrier (3) is installed in the elevating mechanism (2) upper end；The limit assembly (4) sets the side of the conveying mechanism (1), and detection is equipped with by the limit assembly (4) The sensor of carrier (3) position；The first detection module (5) and second detection module (6) are located at the conveying Mechanism (1) is other.
2. 2. Systems for optical inspection according to claim 1, it is characterised in that the first detection module (5) includes：First X-axis module (51), the first Y-axis module (52), the first Z axis module (53) and the first image detection component (54)；

   The first Y-axis module (52) is installed on the first X-axis module (51), and the first Z axis module (53) is installed on On the first Y-axis module (52), described first image detection components (54) are installed on the first Z axis module (53)；

   The first X-axis module (51) drives the first Y-axis module (52) mobile, and the first Y-axis module (52) drives institute It is mobile to state the first Z axis module (53), the first Z axis module (53) driving described first image detection components (54) are mobile.
3. 3. Systems for optical inspection according to claim 1, it is characterised in that second detection module (6) includes：Second X-axis module (61), the second Y-axis module (62), the second Z axis module (63) and the second image detection component (64)；

   It is other that the second X-axis module (61) is located at the conveying mechanism (1), and the second Z axis module (63) is installed on described the On two Y-axis modules (62), second image detection component (64) is installed on the second Z axis module (63)；

   The second Y-axis module (62) drives the second Z axis module (63) mobile, and the second Z axis module (63) drives institute It is mobile to state the second image detection component (64).
4. 4. Systems for optical inspection according to claim 3, it is characterised in that second detection module (6) further includes：Light Learn contraposition component (65) and dressing plate (66)；

   The optical registration component (65) is installed on the side of the second X-axis module (61), dressing plate (66) installation In optical registration component (65) upper end.