CN215375735U - Camera inspection equipment with electrolytic capacitor polarity deviation and polarity opposite - Google Patents

Abstract

The utility model discloses a camera inspection device for polarity deviation and opposite polarity of electrolytic capacitors, which comprises a first camera, a first support, a second camera and a second support, wherein the first camera is arranged on the first support, the second camera is arranged on the second support, the first camera is inclined to the horizontal plane and is arranged at a position capable of shooting the head of one electrolytic capacitor, and the second camera is parallel to the horizontal plane and is arranged at a position capable of shooting a guide pin of the other electrolytic capacitor. Therefore, the utility model can effectively reduce the difficulty of the inspection of the polarity deviation and the polarity opposite of the electrolytic capacitor, thereby improving the efficiency of the inspection of the polarity deviation and the polarity opposite of the electrolytic capacitor, reducing the visual fatigue of operators in appearance operation, reducing the probability of the condition of overlooking or misjudgment, improving the inspection accuracy and reducing the quality risk.

Description

Camera inspection equipment with electrolytic capacitor polarity deviation and polarity opposite

Technical Field

The utility model relates to the field of electrolytic capacitor inspection, in particular to camera inspection equipment with polarity deviation and opposite polarity of an electrolytic capacitor.

Background

The electrolytic capacitor is one kind of capacitor, and has large capacitance per unit volume, several tens or hundreds times larger than other kinds of capacitors, very large rated capacity and high performance-to-cost ratio, so that it is used widely in various fields.

Negative pole sign can be drawn on common electrolytic capacitor's the head, and electrolytic capacitor is last to be provided with the guide pin, and electrolytic capacitor often need carry out polarity check after production, specifically, need through the border that whether the guide pin connecting line on the inspection electrolytic capacitor has the negative pole sign of surpassing to this carries out polarity deviation check, still need through the direction of the short guide pin on the inspection electrolytic capacitor and the direction of negative pole sign whether in same direction, with this carries out the opposite check of polarity.

However, the above-mentioned polarity deviation and polarity reversal inspection are often performed by visual inspection one by one manually, and since the electrolytic capacitor has a small volume and a small negative electrode mark, and is difficult to observe, visual fatigue is likely to occur when an operator performs such an external work for a long time, and missing or erroneous judgment is likely to occur, which causes a quality problem, and this problem is particularly serious in bulk electrolytic capacitors in which polarity deviation and polarity reversal failure are likely to occur.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a camera inspection device with electrolytic capacitor polarity deviation and polarity opposite, which can solve one or more of the problems.

According to one aspect of the utility model, the camera inspection equipment with the polarity deviation and the opposite polarity of the electrolytic capacitors comprises a first camera, a first support, a second camera and a second support, wherein the first camera is installed on the first support, the second camera is installed on the second support, the first camera is inclined to the horizontal plane and is arranged at a position capable of shooting the head of one electrolytic capacitor, and the second camera is parallel to the horizontal plane and is arranged at a position capable of shooting the guide pin of the other electrolytic capacitor.

The utility model has the beneficial effects that: according to the utility model, an electrolytic capacitor to be checked sequentially passes through the shooting positions of the first camera and the second camera, so that the first camera can shoot the head of the electrolytic capacitor to obtain a head image of the electrolytic capacitor with high definition and convenient amplification, people can see the cathode mark at the head of the electrolytic capacitor clearly, the second camera can shoot the guide pin of the electrolytic capacitor to obtain a guide pin image of the electrolytic capacitor with high definition and convenient amplification, people can see the guide pin of the electrolytic capacitor clearly, people can judge whether the polarity of the electrolytic capacitor is opposite by checking whether the direction of the short guide pin and the direction of the cathode mark obtained by the first camera are in the same direction, and people can check whether the connecting line of the two guide pins exceeds the boundary of the cathode mark to judge whether the electrolytic capacitor is bad. Therefore, the utility model can effectively reduce the difficulty of the inspection of the polarity deviation and the polarity opposite of the electrolytic capacitor, thereby improving the efficiency of the inspection of the polarity deviation and the polarity opposite of the electrolytic capacitor, reducing the visual fatigue of operators in appearance operation, reducing the probability of the condition of overlooking or misjudgment, improving the inspection accuracy and reducing the quality risk.

In some embodiments, the present invention further comprises a first light source mounted on the first support, the first light source having an aperture, the first camera being configured to photograph a head of one of the electrolytic capacitors through the aperture. Therefore, the first light source can provide illumination for shooting of the first camera, and shooting definition of the first camera is improved.

In some embodiments, the utility model further comprises a second light source, the second camera being directly opposite the second light source. The second light source can provide illumination for the shooting of second camera to improve the shooting definition of second camera.

In some embodiments, the first bracket includes a first bracket main body, a first slider, and a first connecting block, the first bracket main body is provided with a first guide rail, the first slider is mounted on the first guide rail, and the first connecting block is mounted on the first slider. Therefore, a user can adjust the position of the first camera on the first support main body by sliding the first sliding block so as to adapt to different shooting requirements.

In some embodiments, the first bracket includes a first base with a second rail disposed thereon, and the first bracket body is mounted on the second rail. Thus, the position of the first stand main body can be adjusted by sliding the first stand main body.

In some embodiments, the first bracket includes a mount that is hingedly mounted to the first link, and the first camera is mounted to the mount. Therefore, the user can adjust the shooting angle of the first camera by adjusting the installation angle of the installation seat on the first connecting block.

In some embodiments, the second bracket comprises a second bracket main body and a second sliding block, the second bracket main body is provided with a third guide rail, the second sliding block is mounted on the third guide rail, and the second camera is connected with the second sliding block. Therefore, the user can adjust the position of the second camera on the second bracket main body by sliding the second sliding block so as to adapt to different shooting requirements.

In some embodiments, the second bracket includes a second base, the second base is provided with a fourth guide rail, and the second bracket body is mounted on the fourth guide rail. Thus, the position of the second bracket main body can be adjusted by sliding the second bracket main body.

Drawings

Fig. 1 is a schematic structural diagram of a camera inspection apparatus in which the polarity of electrolytic capacitors is deviated and reversed according to an embodiment of the present invention.

Fig. 2 is a front view of a first camera, a first bracket and a first light source of the camera inspection device for polarity deviation and opposite polarity of the electrolytic capacitor according to the embodiment of the utility model.

Fig. 3 is a front view of a second camera, a second bracket and a second light source of the camera inspection device with polarity deviation and opposite polarity of the electrolytic capacitor according to the embodiment of the utility model.

Fig. 4 is a schematic structural diagram of a first bracket of a camera inspection device with electrolytic capacitor polarity deviation and polarity opposite to each other according to an embodiment of the utility model.

Fig. 5 is a schematic structural diagram of a second camera and a second bracket of the camera inspection device for polarity deviation and opposite polarity of the electrolytic capacitor according to the embodiment of the utility model.

Fig. 6 is a schematic structural diagram of an electrolytic capacitor which can be inspected by the camera inspection equipment with polarity deviation and opposite polarity of the electrolytic capacitor according to the embodiment of the utility model.

In the figure: 1. the camera comprises a first camera, 2, a first bracket, 3, a second camera, 4, a second bracket, 21, a first bracket main body, 22, a first sliding block, 23, a first connecting block, 211, a first guide rail, 24, a mounting seat, 25, a first base, 251, a second guide rail, 41, a second bracket main body, 42, a second sliding block, 411, a third guide rail, 43, a second base, 431, a fourth guide rail, 5, a first light source, 51, 6, a second light source, 101, a head and 102 guide pins.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1, 2, 3, 4, 5 and 6, a camera inspection apparatus for electrolytic capacitor polarity deviation and polarity reversal according to the present invention includes a first camera 1, a first support 2, a second camera 3 and a second support 4.

The first bracket 2 includes a first bracket main body 21, a first slider 22, and a first link 23. First bracket main body 21 is provided with first guide rail 211, and first slider 22 passes through bolt fixed mounting on first guide rail 211, and when the bolt between first slider 22 and first guide rail 211 loosened, first slider 22 can slide along first guide rail 211, and first even piece 23 passes through bolt fixed mounting on first slider 22.

The first bracket 2 comprises a mounting seat 24, the mounting seat 24 is hinged on the first connecting block 23, when the mounting seat 24 is not fixed, the mounting seat 24 can rotate on the first connecting block 23, and the first camera 1 is fixedly mounted on the mounting seat 24 through bolts.

The first bracket 2 further includes a first base 25, a second guide rail 251 is provided on the first base 25, and the bottom of the first bracket body 21 is fixedly mounted on the second guide rail 251 by bolts, so that the first base 25 is connected with the first bracket body 21, and when the bolts connected between the first bracket body 21 and the second guide rail 251 are loosened, the first bracket body 21 can slide along the second guide rail 251.

The second bracket 4 includes a second bracket main body 41 and a second slider 42. The second bracket body 41 is provided with a third guide rail 411, the second slider 42 is fixedly installed on the third guide rail 411 through a bolt, and when the bolt between the second slider 42 and the third guide rail 411 is loosened, the second slider 42 can slide along the third guide rail 411, and the second camera 3 is fixedly connected with the second slider 42 through a bolt.

The second bracket 4 further includes a second base 43, the second base 43 is provided with a fourth rail 431, the bottom of the second bracket body 41 is fixedly mounted on the fourth rail 431 by bolts, so that the second base 43 is connected with the second bracket body 41, and when the bolts connected between the second bracket body 41 and the fourth rail 431 are loosened, the second bracket body 41 can slide along the fourth rail 431.

The electrolytic capacitor to be checked can be a plurality of electrolytic capacitors, each electrolytic capacitor is provided with a head part 101 and a guide pin 102, and the head part 101 of each electrolytic capacitor is drawn with a negative pole mark. The first camera 1 is inclined to the horizontal plane after being arranged, the second camera 3 is parallel to the horizontal plane, the first camera 1 is arranged at the position of the head 101 capable of shooting one electrolytic capacitor to be checked, the second camera 3 is arranged at the position of the guide pin 102 capable of shooting the other electrolytic capacitor to be checked, and the second camera 3 can be opposite to the guide pin 102 of the electrolytic capacitor shot by the second camera.

The utility model also comprises a first light source 5, the first light source 5 is fixedly arranged on the first bracket main body 21 of the first bracket 2 through a connecting arm, a hole 51 is arranged in the middle of the first light source 5, and the first camera 1 is arranged at a position where the head 101 of the electrolytic capacitor can be shot through the hole 51.

The utility model also comprises a second light source 6, and the second camera 3 is opposite to the second light source 6.

When the utility model is used, the first bracket 2 and the second bracket 4 can be fixedly installed on the same horizontal plane through bolts, the electrolytic capacitor needing to be checked for polarity deviation and polarity reversal can sequentially pass through the shooting positions of the first camera 1 and the second camera 3 through an external transmission mechanism, and the second light source 6 can be fixedly installed on an external fixed structure, such as a machine body, through bolts.

The first light source 5 can illuminate the electrolytic capacitor within the shooting range of the first camera 1, so that the first camera 1 can clearly shoot the head 101 of the electrolytic capacitor within the shooting range of the first camera 1 to obtain an image of the head 101 of the electrolytic capacitor with high definition and convenient amplification, and therefore people can clearly see the cathode mark at the head 101 of the electrolytic capacitor, the second camera 3 can clearly shoot the guide pin 102 of the electrolytic capacitor, and the second light source 6 can illuminate the electrolytic capacitor needing to be shot by the second camera 2 to obtain an image of the guide pin 102 of the electrolytic capacitor with high definition and convenient amplification, and therefore people can clearly see the guide pin 102 of the electrolytic capacitor. And one can check whether the direction of the short guide pin of the electrolytic capacitor and the obtained direction of the negative pole mark are in the same direction according to the images obtained by the first camera 1 and the second camera 3 to judge whether the polarity of the electrolytic capacitor is opposite, and can also check whether the connecting line of the two guide pins 102 exceeds the boundary of the negative pole mark to judge whether the electrolytic capacitor is bad.

Therefore, the utility model can effectively reduce the difficulty of the inspection of the polarity deviation and the polarity opposite of the electrolytic capacitor, thereby improving the efficiency of the inspection of the polarity deviation and the polarity opposite of the electrolytic capacitor, reducing the visual fatigue of operators in appearance operation, reducing the probability of the condition of overlooking or misjudgment, improving the inspection accuracy and reducing the quality risk.

What has been described above are merely some embodiments of the present invention. It will be apparent to those skilled in the art that various changes and modifications can be made without departing from the inventive concept thereof, and these changes and modifications can be made without departing from the spirit and scope of the utility model.

Claims (8)

1. The camera inspection equipment is characterized by comprising a first camera, a first support, a second camera and a second support, wherein the first camera is arranged on the first support, the second camera is arranged on the second support, the first camera is inclined to the horizontal plane and is arranged at a position where the head of one electrolytic capacitor can be shot, and the second camera is parallel to the horizontal plane and is arranged at a position where the guide pin of the other electrolytic capacitor can be shot.

2. The camera inspection apparatus of claim 1, wherein the camera inspection apparatus comprises a first light source mounted on a first bracket, the first light source having a hole, and the first camera is configured to photograph a head of an electrolytic capacitor through the hole.

3. The camera inspection device for polarity deviation and polarity reversal of electrolytic capacitors according to claim 1, characterized by comprising a second light source, wherein the second camera is directly opposite to the second light source.

4. The camera inspection device of the polarity deviation and the polarity opposite of the electrolytic capacitor as claimed in claim 1, wherein the first bracket comprises a first bracket main body, a first sliding block and a first connecting block, the first bracket main body is provided with a first guide rail, the first sliding block is mounted on the first guide rail, and the first connecting block is mounted on the first sliding block.

5. The camera inspection device of polarity deviation and polarity reversal of electrolytic capacitors of claim 4, wherein the first bracket comprises a first base, a second guide rail is disposed on the first base, and the first bracket body is mounted on the second guide rail.

6. The camera inspection device for polarity deviation and polarity reversal of electrolytic capacitors according to claim 4, wherein the first bracket comprises a mounting seat, the mounting seat is hinged on the first connecting block, and the first camera is mounted on the mounting seat.

7. The camera inspection device for polarity deviation and polarity reversal of electrolytic capacitors according to claim 1, wherein the second bracket comprises a second bracket body and a second slider, the second bracket body is provided with a third guide rail, the second slider is mounted on the third guide rail, and the second camera is connected with the second slider.

8. The camera inspection device of polarity deviation and polarity reversal of electrolytic capacitor of claim 7, wherein said second bracket includes a second base, said second base having a fourth rail thereon, said second bracket body being mounted on said fourth rail.

Images