CN220208897U

CN220208897U - Automatic detection equipment for diode air holes

Info

Publication number: CN220208897U
Application number: CN202321806069.4U
Authority: CN
Inventors: 汪良恩; 杨华; 汪都
Original assignee: Anhui Anmei Semiconductor Co ltd
Current assignee: Anhui Anmei Semiconductor Co ltd
Priority date: 2023-07-10
Filing date: 2023-07-10
Publication date: 2023-12-19
Anticipated expiration: 2033-07-10

Abstract

The utility model provides automatic detection equipment for diode air holes, which relates to the technical field of diode production detection and comprises a second supporting seat and a plurality of diode bodies, wherein a second stop block and a third stop block are arranged on the second supporting seat, the second stop block is provided with two groups, the two second stop blocks are respectively positioned at two sides of a blanking groove, and the third stop block is aligned with the corresponding second stop block along the blanking direction of the blanking groove; the second support seat is provided with a first camera and a second camera, the first camera corresponds to the second stop block, and the second camera corresponds to the third stop block; the first camera and the second camera are respectively positioned on the second supporting seats at two sides of the blanking groove, and the defects of mutual interference can not occur when the first camera and the second camera pick up the video through the arrangement of the first camera and the second camera while the detection of the two lead air bubbles of the diode body is realized.

Description

Automatic detection equipment for diode air holes

Technical Field

The utility model relates to the technical field of diode production detection, in particular to automatic detection equipment for diode air holes.

Background

The diode can appear irregular size gas pocket in the production process, generally appears more at the root of lead wire, need adopt check out test set to detect the lead wire.

In the prior art, a camera is often adopted to shoot a picture of a lead part, the picture is transmitted to a control detection system for analysis, and detection of a diode air hole is realized, however, in order to detect the lead air holes at two ends of the diode, when two cameras are respectively arranged at two ends of the two leads of the diode, when the cameras shoot the leads, the lenses of the cameras and flash light generated when the cameras shoot can cause interference when the cameras shoot, so that bubble detection is not thorough, and the problem of normal production efficiency is delayed.

For this purpose, an automatic detection device for diode air holes is proposed.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the utility model provides automatic detection equipment for a diode air hole, which solves the problem that a lead wire is easy to interfere when a camera shoots.

(II) technical scheme

In order to achieve the above purpose, the utility model is realized by the following technical scheme:

the utility model discloses automatic detection equipment for a diode air hole, which comprises a second supporting seat and a plurality of diode bodies, wherein each diode body consists of a pipe body and two leads, the top surface of the second supporting seat is obliquely arranged, and a discharge chute which is obliquely arranged is formed in the top of the second supporting seat;

the second support seat is provided with a second stop block and a third stop block, the second stop blocks are provided with two groups, the two second stop blocks are respectively positioned at two sides of the blanking groove, and the third stop block is aligned with the corresponding second stop block along the blanking direction of the blanking groove;

the second support seat is provided with a first camera and a second camera, the first camera corresponds to the second stop block, and the second camera corresponds to the third stop block;

the first camera and the second camera are respectively positioned on the second supporting seats at two sides of the blanking groove.

Further, a first cavity is formed in the second supporting seat, the two second check blocks are in sliding connection with the second supporting seat through first racks, the two third check blocks are in sliding connection with the second supporting seat through second racks, and the first racks and the second racks are located in the first cavity.

Further, a gear is arranged in the first cavity, the gear is driven by a motor, the first rack and the second rack are respectively positioned on two sides of the gear, and the first rack and the second rack are respectively meshed with the gear.

Further, two first check blocks are arranged on the second supporting seat, the two first check blocks are driven by the air cylinder, and the second check blocks are located between the first check blocks and the third check blocks.

Further, the blanking groove is divided into a first chute and a second chute, the first chute is gradually folded inwards from the high end to the bottom end, and the groove diameter of the second chute is slightly larger than the diameter of the upper diode body.

Further, a second cavity is further formed in the second supporting seat, the second cavity is arranged in an opening mode, a collecting piece is arranged in the second cavity, and the collecting piece is always located below the third stop block.

(III) beneficial effects

The utility model provides automatic detection equipment for a diode air hole. Compared with the prior art, the method has the following beneficial effects:

1. through the setting of first camera and second camera, utilize first camera to make a video recording to one of them lead wire of diode body, utilize the second camera to make a video recording to another lead wire of diode body to when realizing two lead wire bubble detection of diode body, the drawback that can not appear mutual interference when first camera and second camera make a video recording.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of an automatic detection device for diode air holes;

FIG. 2 is a top view of FIG. 1;

FIG. 3 is a schematic view of the state structure of FIG. 1;

fig. 4 is a top view of fig. 3.

Reference numerals:

10. a first support base; 11. a chain; 111. a driving wheel; 112. a rolling rod; 20. a second support base; 201. a first cavity; 202. a second cavity; 21. a cylinder; 211. a first stopper; 22. a first rack; 221. a second stopper; 23. a second rack; 231. a third stopper; 24. a gear; 25. a collection member; 30. a diode body; 301. a lead wire; 31. a first camera; 32. and a second camera.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more clear, the technical solutions in the embodiments of the present utility model are clearly and completely described, and it is obvious that the described embodiments are some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

According to the diode air hole automatic detection equipment, the problem that leads are easy to interfere when a camera shoots is solved, and the detection effect of lead bubble detection is improved.

The technical scheme in the embodiment of the application aims to solve the technical problems, and the overall thought is as follows:

as shown in fig. 1-4, the automatic detection equipment for the diode air holes comprises a second supporting seat and a plurality of diode bodies, wherein the diode bodies consist of a pipe body and two leads, the top surface of the second supporting seat is obliquely arranged, and a discharge chute which is obliquely arranged is formed in the top of the second supporting seat;

Through the setting of first camera and second camera, utilize first camera to make a video recording to one of them lead wire of diode body, utilize the second camera to make a video recording to another lead wire of diode body to when realizing two lead wire bubble detection of diode body, the drawback that can not appear mutual interference when first camera and second camera make a video recording.

In order to better understand the above technical solutions, the following detailed description will refer to the accompanying drawings and specific embodiments.

Examples:

as shown in fig. 1-4, an automatic detection device for diode air holes comprises a second supporting seat 20 and a plurality of diode bodies 30, wherein each diode body 30 consists of a tube body and two leads 301, the top surface of the second supporting seat 20 is obliquely arranged, and an obliquely arranged blanking groove is formed in the top of the second supporting seat 20;

the second supporting seat 20 is provided with a second stop block 221 and a third stop block 231, the second stop blocks 221 are provided with two groups, the two second stop blocks 221 are respectively positioned at two sides of the blanking groove, and the third stop block 231 is aligned with the corresponding second stop block 221 along the blanking direction of the blanking groove;

the second supporting seat 20 is provided with a first camera 31 and a second camera 32, the first camera 31 corresponds to the second stop block 221, and the second camera 32 corresponds to the third stop block 231;

the first camera 31 and the second camera 32 are respectively located on the second supporting seats 20 at two sides of the blanking groove.

Through the arrangement of the second supporting seat 20 and the blanking groove, the diode body 30 slides along the inclined plane of the blanking groove from high to low, so that the blanking operation of the diode body 30 is realized;

through the setting of first camera 31 and second camera 32, utilize first camera 31 to take a photograph to one of them lead 301 of diode body 30, utilize second camera 32 to take a photograph to another lead 301 of diode body 30 to when realizing two lead 301 bubble detection of diode body 30, the drawback that can not appear mutual interference when first camera 31 and second camera 32 take a photograph.

The second supporting seat 20 is internally provided with a first cavity 201 and a second cavity 202, the two second stop blocks 221 are slidably connected with the second supporting seat 20 through a first rack 22, the two third stop blocks 231 are slidably connected with the second supporting seat 20 through a second rack 23, the first rack 22 and the second rack 23 are located in the first cavity 201, a gear 24 is mounted in the first cavity 201, the gear 24 is driven by a motor, the first rack 22 and the second rack 23 are located on two sides of the gear 24 respectively, and the first rack 22 and the second rack 23 are meshed with the gear 24 respectively.

Through the arrangement of the gear 24, the first rack 22 and the second rack 23, the second stop block 221 and the third stop block 231 move towards the opposite directions, so that when the second stop block 221 is exposed out of the first cavity 201, the second stop block 221 stops the diode body 30, the first camera 31 can conveniently shoot the lead 301 close to the first camera 31, the third stop block 231 is contracted into the first cavity 201, the blanking operation of the diode body 30 after shooting by the second camera 32 is realized, and the state conversion between the states of fig. 2 and 4 is realized.

The second cavity 202 is provided with an opening, a collecting piece 25 is installed in the second cavity 202, and the collecting piece 25 is always located below the third stop block 231.

The collection of diode body 30 after realizing detecting through collecting piece 25, when setting up collecting piece 25, collecting piece 25 divide into first collection chamber and second collection chamber to realize the categorised collection of passing article and unqualified article.

The second support base 20 is provided with two first stoppers 211, the two first stoppers 211 are driven by the air cylinder 21, and the second stopper 221 is located between the first stoppers 211 and the third stoppers 231, as shown in fig. 2.

Through the setting of first dog 211 and cylinder 21, the unloading of control diode body 30, a single unloading diode body 30 is to second dog 221, when second dog 221 shrink to the inside of first cavity 201, diode body 30 through first camera 31 shooting detection slides to exposing on the third dog 231, realize the detection of second camera 32 to the diode body 30 other end, then, the rising of gear 24 control second dog 221 and the shrink of third dog 231, thereby realize the unloading of the diode body 30 that detects the completion, simultaneously, control cylinder 21 releases the limit of first dog 211 to diode body 30, steerable one or more diode body 30 slides to exposing on the second dog 221, detect.

The blanking groove is divided into a first chute and a second chute, the first chute is gradually folded inwards from the high end to the bottom end, and the groove diameter of the second chute is slightly larger than the diameter of the upper pipe body of the diode body 30, so that the material arranging operation of the diode body 30 is realized.

The detection device further comprises a first supporting seat 10, the right side of the first supporting seat 10 is connected with the left side of a second supporting seat 20, a chain 11, two driving wheels 111 and a plurality of rolling rods 112 are arranged on the first supporting seat 10, and the whole detection device is controlled by a controller.

Through the arrangement of the chain 11, the two driving wheels 111 and the plurality of rolling rods 112, the diode body 30 is transported, and the materials are transported into the discharging groove, so that the follow-up detection work is realized.

In summary, compared with the prior art, the method has the following beneficial effects:

1. through the setting of first camera 31 and second camera 32, utilize first camera 31 to take a photograph to one of them lead 301 of diode body 30, utilize second camera 32 to take a photograph to another lead 301 of diode body 30 to when realizing two lead 301 bubble detection of diode body 30, the drawback that can not appear mutual interference when first camera 31 and second camera 32 take a photograph.

2. Through the arrangement of the gear 24, the first rack 22 and the second rack 23, automatic blanking operation in the detection process of the diode body 30 is realized.

3. The blanking groove is divided into a first chute and a second chute, the first chute is gradually folded inwards from the high end to the bottom end, and the groove diameter of the second chute is slightly larger than the diameter of the upper pipe body of the diode body 30, so that the material arranging operation of the diode body 30 is realized.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The above embodiments are only for illustrating the technical solution of the present utility model, and are not limiting; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present utility model.

Claims

1. The automatic detection equipment for the diode air holes is characterized by comprising a second supporting seat (20) and a plurality of diode bodies (30), wherein the diode bodies (30) are composed of a pipe body and two leads (301), the top surface of the second supporting seat (20) is obliquely arranged, and an obliquely arranged blanking groove is formed in the top of the second supporting seat (20);

a second stop block (221) and a third stop block (231) are arranged on the second supporting seat (20), two groups of the second stop blocks (221) are arranged, the two second stop blocks (221) are respectively positioned on two sides of the blanking groove, and the third stop block (231) is aligned with the corresponding second stop block (221) along the blanking direction of the blanking groove;

a first camera (31) and a second camera (32) are mounted on the second supporting seat (20), the first camera (31) corresponds to the second stop block (221), and the second camera (32) corresponds to the third stop block (231);

the first camera (31) and the second camera (32) are respectively positioned on the second supporting seats (20) at two sides of the blanking groove.

2. The automatic diode air hole detection device according to claim 1, wherein a first cavity (201) is formed in the second supporting seat (20), two second stop blocks (221) are slidably connected with the second supporting seat (20) through first racks (22), two third stop blocks (231) are slidably connected with the second supporting seat (20) through second racks (23), and the first racks (22) and the second racks (23) are located in the first cavity (201).

3. The automatic diode air vent detection device according to claim 2, wherein a gear (24) is installed in the first cavity (201), the gear (24) is driven by a motor, the first rack (22) and the second rack (23) are respectively located at two sides of the gear (24), and the first rack (22) and the second rack (23) are respectively meshed with the gear (24).

4. A diode air vent automatic detection device as claimed in claim 3, wherein two first stoppers (211) are mounted on the second support (20), the two first stoppers (211) are driven by the air cylinder (21), and the second stopper (221) is located between the first stopper (211) and the third stopper (231).

5. The diode air vent automatic detection device as claimed in claim 4, wherein the blanking groove is divided into a first chute and a second chute, the first chute is gradually folded inwards from the high end to the bottom end, and the groove diameter of the second chute is slightly larger than the diameter of the upper pipe body of the diode body (30).

6. The automatic detection device for diode air holes according to claim 5, wherein a second cavity (202) is further formed in the second supporting seat (20), the second cavity (202) is arranged in an opening manner, a collecting piece (25) is installed in the second cavity (202), and the collecting piece (25) is always located below the third stop block (231).