CN110805868A - Light source for production and detection of pop-top can - Google Patents

Abstract

The invention provides a light source for production and detection of pop cans, which comprises a transportation unit, a first LED light source and a second LED light source, the first LED light source is arranged at the outer side of the transportation unit, the second LED light source is arranged at the inner side of the transportation unit, wherein the first LED light source comprises at least two first LED bulbs, a first fixing bracket and a first connecting port, the first LED bulb is arranged on the first fixing support, the first connecting port is arranged on one side of the first fixing support, the first LED bulb is also connected with the first connecting port, the first connecting port is connected with an external light source controller, the invention adopts the technical proposal, the first LED light source and the second LED light source are matched to realize omnibearing dead-angle-free irradiation on the pop can to be tested, and the illumination brightness of the invention is improved.

Description

Light source for production and detection of pop-top can

Technical Field

The invention relates to the field of detection, in particular to a light source for production and detection of pop cans.

Background

In the process of pop can production, illumination equipment and a camera are required to be used for detecting metal holes of pop cans after the pop cans are produced, so that whether the produced pop cans are defective products or not is judged, in the prior art, the illumination equipment is arranged inside a detection device, the space is too small, the illumination equipment is difficult to irradiate the detected pop cans at 360 degrees without dead angles, images acquired by the camera are incomplete, the yield of the pop cans is reduced, and the production efficiency of the pop cans is not favorably increased.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention provides the light source for the production detection of the pop-top can, which can improve the ambient brightness of the pop-top can in the detection process and enhance the definition of a picture of a detection camera, thereby improving the yield of the pop-top can production and being beneficial to the increase of the production efficiency of the pop-top can.

In order to solve the technical problems, the technical scheme of the invention is as follows:

a light source for production and detection of ring-pull cans comprises a transportation unit, a first LED light source and a second LED light source;

the first LED light source is arranged on the outer side of the transportation unit, and the second LED light source is arranged on the inner side of the transportation unit;

the first LED light source comprises at least two first LED bulbs, a first fixing support and a first connecting port;

the first LED bulb is arranged on the first fixing support, the first connecting port is arranged on one side of the first fixing support, the first LED bulb is further connected with the first connecting port, and the first connecting port is connected with an external light source controller.

Further, the first LED bulb is an LED stroboscopic bulb.

Further, a first optical lens is arranged in front of the first LED bulb;

the first optical lens has a scattering angle ranging from 55 degrees to 65 degrees.

Further, the first LED bulb is disposed on the circumference of a circle with a radius of 145 mm, and the vertical direction range of the first LED bulb is plus or minus 66 degrees.

Further, the adjacent arrangement included angle range between the first LED bulbs is 30 degrees to 40 degrees.

Further, the second LED light source comprises at least two second LED bulbs, a second fixing support and a second connecting port;

the second LED bulb is arranged on the second fixing support, the second connecting port is arranged on one side of the second fixing support, the second LED bulb is further connected with the second connecting port, and the second connecting port is connected with an external light source controller.

Further, a second optical lens is arranged in front of the second LED bulb;

the scattering angle range of the second optical lens is between 55 degrees and 65 degrees.

Further, the second LED bulb is disposed on the circumference of a circle having a radius of 145 mm, and the vertical direction range of the second LED bulb is plus or minus 33 degrees.

Further, the adjacent arrangement included angle range between the second LED bulbs is 30 degrees to 40 degrees.

Further, the second LED bulb is an LED stroboscopic bulb.

Furthermore, at least three pop can fixing holes are formed in the transportation unit;

the pop can fixing hole is formed in the conveying unit.

By adopting the technical scheme, the first LED light source and the second LED light source are matched to realize omnibearing dead-angle-free irradiation on the pop can, and the pop can fixing holes are arranged to realize light source reflection by using the two test pop cans on the left and right of the test pop can, so that the illumination brightness of the test pop can is complemented, the illumination brightness of the test pop can is improved, the problem of reduction of the yield of the pop can due to insufficient test illumination intensity is solved, the working power of the first LED light source and the working power of the second LED light source are reduced by arranging the LED stroboscopic bulb, and the production benefit of a user is improved.

Drawings

FIG. 1 is a schematic structural view of an embodiment of a light source for production and detection of pop cans of the present invention;

FIG. 2 is a schematic structural diagram of a first LED light source according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a second LED light source according to an embodiment of the present invention;

the number designations in the figures are: 100-transportation unit, 200-first LED light source, 300-second LED light source, 210-first LED bulb, 220-first fixing support, 230-first connecting port, 310-second LED bulb, 320-second fixing support, 330-second connecting port and 110-pop can fixing hole.

Detailed Description

The following further describes embodiments of the present invention with reference to the drawings. It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto. In addition, the technical features involved in the embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

A light source for pop can production detection, as shown in FIG. 1, comprises a transportation unit 100, a first LED light source 200 and a second LED light source 300;

the first LED light source 200 is disposed at the outer side of the transport unit 100, and the second LED light source 300 is disposed at the inner side of the transport unit 100;

the transportation unit 100 is used for driving the detection pop can to rotate to a preset angle and detecting;

the first LED light source 200 and the second LED light source 300 are used for providing illumination to the detection pop can when the transportation unit 100 rotates to a preset angle;

as shown in fig. 2, the first LED light source 200 includes at least one first LED bulb 210, a first fixing bracket 220 and a first connection port 230;

the first LED bulb 210 is disposed on the first fixing bracket 220, the first connection port 230 is disposed at one side of the first fixing bracket 220, the first LED bulb 210 is further connected to the first connection port 230, and the first connection port 230 is connected to an external light source controller;

the first connection port 230 is used to connect with an external light source controller to control the operation mode of the first LED bulb 210.

Further, a first optical lens is arranged in front of the first LED bulb;

the first optical lens has a scattering angle ranging from 55 degrees to 65 degrees.

Further, the first LED light bulb 210 is disposed on the circumference of a circle having a radius of 145 mm, and the vertical direction range of the first LED light bulb 210 is plus or minus 66 degrees.

Further, the adjacent included angle between the first LED bulbs 210 ranges from 30 degrees to 40 degrees.

Further, as shown in fig. 3, the second LED light source 300 includes at least two second LED bulbs 310, a second fixing bracket 320 and a second connection port 330;

the second LED bulb 310 is arranged on the second fixing support 320, the second connection port 330 is arranged at one side of the second fixing support 320, the second LED bulb 310 is further connected with the second connection port 330, and the second connection port 330 is connected with an external light source controller;

the second connection port 230 is used to connect to an external light source controller to control the operation mode of the first LED bulb 210.

Further, a second optical lens is disposed in front of the second LED bulb 310.

The scattering angle of the second optical lens 310 ranges between 55 degrees and 65 degrees.

Further, the second LED bulb 310 is disposed on the circumference of a circle having a radius of 145 mm, and the vertical direction range of the second LED bulb 310 is plus or minus 33 degrees.

Further, the adjacent included angle between the second LED bulbs 310 ranges from 30 degrees to 40 degrees.

Further, as shown in fig. 1, the transport unit 100 is provided with at least three can fixing holes 110;

the can fixing hole 110 is provided on the transporting unit 100;

the pop can fixing hole 110 is used for fixing a test pop can;

the pop can fixing hole 110 is also used for complementing light source reflection of the test pop can through the left and right test pop cans when the illumination of the first LED light source 200 and the second LED light source 300 is applied to the left and right test pop cans.

Further, the first LED bulb 210 is an LED stroboscopic bulb.

Further, the second LED bulb 310 is an LED strobe bulb.

In a specific application scenario of the present invention, the first LED light source 200 is provided with 5 first LED bulbs 210, the second LED light source 300 is provided with 3 second LED bulbs 310, a setting included angle between adjacent first LED bulbs 210 is 33 degrees, and a setting included angle between adjacent second LED bulbs 310 is 33 degrees;

the method comprises the steps that a user installs 5 test ring-pull cans to be detected on a transportation unit 100 and turns on a switch after a preset angle is set to be 20 degrees, at the moment, the transportation unit 100 starts to rotate, when the transportation unit 100 rotates by 20 degrees each time, a first LED light source 200 and a second LED light source 300 start to light up once, at the moment, when the illumination of the first LED light source 200 and the illumination of the second LED light source 300 are applied to two test ring-pull cans on the left and right of one test ring-pull can, the smooth surfaces of the left and right test ring-pull cans emit illumination on the left and right ring-pull cans, so that illumination complement is carried out on the test ring-pull cans, and an external camera obtains a high-brightness test picture of the test ring-pull cans after illumination complement when the first LED light source 200 and the second LED light source 300 are lit.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the described embodiments. It will be apparent to those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, and the scope of protection is still within the scope of the invention.

Claims (10)

1. A light source for production and detection of pop cans is characterized by comprising a transportation unit, a first LED light source and a second LED light source;

the first LED light source is arranged on the outer side of the transportation unit, and the second LED light source is arranged on the inner side of the transportation unit;

the first LED light source comprises at least two first LED bulbs, a first fixing support and a first connecting port;

the first LED bulb is arranged on the first fixing support, the first connecting port is arranged on one side of the first fixing support, the first LED bulb is further connected with the first connecting port, and the first connecting port is connected with an external light source controller.

2. The light source for detecting the production of the pop can as claimed in claim 1, wherein the first LED bulb is an LED stroboscopic bulb.

3. The light source for detecting the production of the pop can as claimed in claim 1, wherein a first optical lens is arranged in front of the first LED bulb;

the first optical lens has a scattering angle ranging from 55 degrees to 65 degrees.

4. The light source for can production inspection according to claim 1, wherein the first LED bulb is disposed on a circumference of a circle having a radius of 145 mm, and the vertical direction range of the first LED bulb is plus or minus 66 degrees.

5. The light source for detecting the production of the can as claimed in claim 1, wherein the adjacent arrangement included angle between the first LED bulbs ranges from 30 degrees to 40 degrees.

6. The light source for detecting the production of the pop can as claimed in claim 1, wherein the second LED light source comprises at least two second LED bulbs, a second fixing bracket and a second connecting port;

the second LED bulb is arranged on the second fixing support, the second connecting port is arranged on one side of the second fixing support, the second LED bulb is further connected with the second connecting port, and the second connecting port is connected with an external light source controller.

7. The light source for detecting the production of the pop can as claimed in claim 6, wherein a second optical lens is arranged in front of the second LED bulb;

the scattering angle range of the second optical lens is between 55 degrees and 65 degrees.

8. The light source for can production inspection as claimed in claim 6, wherein the second LED bulb is disposed on the circumference of a circle having a radius of 145 mm, and the vertical direction range of the second LED bulb is plus or minus 33 degrees.

9. The light source for detecting the production of the can as claimed in claim 6, wherein the adjacent arrangement included angle between the second LED bulbs ranges from 30 degrees to 40 degrees.

10. The light source for can production inspection according to claim 1, wherein the transportation unit is provided with at least three can fixing holes;

the pop can fixing hole is formed in the conveying unit.

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