KR20220098511A - Vision inspection device for inspection products formed long in the horizontal direction - Google Patents

Abstract

The present invention relates to a vision inspection device composed of a roller, a camera, and a light, wherein a product to be inspected is positioned and moved in the horizontal direction for surface inspection and dimension inspection on the product to be inspected that is formed long in the horizontal direction. The vision inspection device for a product to be inspected that is formed long in the horizontal direction is composed of a first roller and a second roller configured to rotate in the same direction in a part where the inspection is performed so that the product to be inspected that is formed long in the horizontal direction is input, inspected, and discharged in the horizontal direction for the inspection to be performed smoothly. After the product to be inspected is positioned between the first and second rollers and the inspection is performed, the product is seated in a seating groove formed in the second roller so as to be discharged through a discharge port.

Description

Vision inspection device for inspection products formed long in the horizontal direction }

The present invention relates to a vision inspection device for a product, wherein the inspection product is horizontally positioned and moved in order to perform a surface inspection and a dimensional inspection on an inspection product formed long in the horizontal direction, a roller, a camera, and a lighting are configured It is about a vision inspection device.

First, looking at the prior art,

In general, the inspection of inspection products was difficult because the method of selecting and inspecting samples from many parts was mainly used as workers performed visual inspections.

However, inspection of parts directly related to driver safety, such as automobile parts, required a complete inspection. had been proposed

In the conventional inspection method described above, after inspecting the external appearance of the part, the surface is inspected in detail to check for scratches, pressing, dents, etc., and the product is turned over to inspect the back side. could not perform

Therefore, since the overall inspection task could not be automated, the inspection task was not only difficult, but also took a considerable amount of time, and thus the efficiency of the task could not be improved.

In addition, when the inspection product is circular, the inspection proceeds after positioning the inspection product in the vertical direction, so there is a problem in that only a part of the inspection product is inspected.

Accordingly, in the prior art, registration number 10-0573039 'inspection device for parts using vision camera', publication number 10-2009-0022323 'vision inspection apparatus for inspecting both sides of an object' and registration number 10-1709343 'ampule vision' Although the 'inspection apparatus and inspection method' have been disclosed, the above problems are still not improved.

The present invention has been devised to solve the problems of the prior art, and the inspection product formed long in the horizontal direction is put in, inspected, and discharged in the horizontal direction in the same direction to the part to be inspected so that a smooth inspection can be made. A horizontal first roller and a second roller are configured to rotate, and the inspection product is positioned between the first and second rollers and after the inspection is performed, it is seated in a seating groove formed in the second roller and discharged through the outlet. It was completed as a technical task with an emphasis on providing a vision inspection device for inspection products formed long in the direction.

Accordingly, the present invention includes an inlet through which the product to be inspected is put, and a first roller having a first seating groove for transferring the inspection product transferred through the inlet, and rotating connected to a first shaft to seat the inspection product; The inspection product transported through the first roller is connected to the second shaft, rotated, and a second roller having a second seating groove for seating the inspection product, and the inspection positioned between the first roller and the second roller Horizontal direction, characterized in that it consists of a camera for photographing a product, a light emitting light for the inspection product positioned between the first roller and the second roller, and an outlet for discharging the inspected product Its technical feature is the vision inspection device of the long-formed inspection product.

According to the present invention, the vision inspection device of the inspection product formed long in the horizontal direction, the inspection product to be inspected is positioned in the horizontal direction and can be rotated between the first and second rollers, so that the surface inspection of the inspection product is performed as a whole, and the lighting is turned on. By emitting light, it is possible to inspect the external dimensions of the inspection product, and as a result, the roundness of the inspection product is smoothed, and as a result, it is an invention with great effects, such as being able to easily distinguish between passing and failing products for inspection products.

1 is a perspective view showing a vision inspection device of the present invention;
Figure 2 is a perspective view showing the core of the vision inspection device of the present invention;
Fig. 3 is a side view showing Fig. 2;
FIG. 4 is a plan cross-sectional view taken along line AA of FIG. 3 ;
5 is a rear perspective view showing the core of the vision inspection device of the present invention;
6 is a side view showing the operation of the roller in the configuration of the present invention;
7 is a side view showing a roller and another embodiment of the present invention;

Hereinafter, the preferred configuration and operation of the present invention for achieving the above object will be described with reference to FIGS. 1 to 7 with reference to the accompanying drawings.

First, the present invention, the vision inspection device of the inspection product crawled in the horizontal direction,

A first method that transports the inlet 100 into which the product to be inspected is put, and the inspection product 20 transferred through the inlet 100, but is connected to the first shaft 210 and rotates to seat the inspection product 20 1 The first roller 200 having a seating groove 220 formed therein, and the inspection product 20 transferred through the first roller 200 are transferred, but connected to the second shaft 310 and rotated to rotate the inspection product ( A camera for photographing a second roller 300 having a second seating groove 320 for seating 20 , and an inspection product 20 positioned between the first roller 200 and the second roller 300 . (400) and the lighting 500 for emitting light for the inspection product 20 located between the first roller 200 and the second roller 300 and discharging the inspection product 20 that has been inspected Consists of an outlet (600).

Here, the inspection product formed elongated in the horizontal direction includes a shaft, a medicine bottle (medicine bottle), a bushing for a vehicle, a battery, a bolt, a pipe, a tube, and the like, formed in a cylindrical shape.

When the present invention is described in more detail,

The present inventor's vision inspection apparatus 10 is composed of an inlet 100 , a first roller 200 , a second roller 300 , a camera 400 , a light 500 , and an outlet 600 .

In addition, the vision inspection apparatus 10 includes a control unit, and the control unit generally includes a setting unit for setting operations and a memory unit for storing information related to inspection, and other general components according to vision inspection. do.

The inlet 100 is a place where the product to be inspected is put, and the inspection product 20 is placed in the horizontal direction to be long.

The first roller 200 transports the inspection product 20 transferred through the inlet 100 but is connected to the first shaft 210 to rotate and a first seating groove 220 to seat the inspection product 20 . ) is formed.

The second roller 300 transports the inspection product 20 transferred through the first roller 200 , but is connected to the second shaft 310 to rotate and to seat the inspection product 20 . 320 is formed.

The first and second rollers 200 and 300 are respectively connected to the first and second shafts 210 and 310, and a single or a plurality of rollers are connected to the shaft, and the first roller 200 and the second roller 300 are positioned so that a part overlaps or almost abuts.

The distances of the first and second rollers 200 and 300 may be adjusted according to the size of the inspection product 20 .

In addition, as in the present invention, when a plurality of first rollers 200 are configured and a plurality of second rollers 300 are configured, the inspection product 20 is transported using the first and second rollers 200 and 300 . , so as not to escape.

The first seating groove 220 of the first roller 200 and the second seating groove 320 of the second roller 300 are formed at different positions.

Therefore, the inspection is performed until the inspection product 20 positioned between the first and second rollers 200 and 300 is seated in the second seating groove 320 .

Rounds are smoothly formed on one side of the first and second seating grooves 220 and 320 in the direction in which the first and second rollers 200 and 300 rotate, and the first and second seating grooves 220 and 320 on the other side. ), support portions 221 and 321 are formed at the ends of the round so that the inspection product 20 seated on the surface does not separate from the first and second rollers 200 and 300 .

The camera 400 photographs the inspection product 20 positioned between the first roller 200 and the second roller 300 .

The lighting 500 emits light to the inspection product 20 positioned between the first roller 200 and the second roller 300 .

The light 500 is composed of a first light 510 and a second light.

The first light 510 is located between the camera 400 and the inspection product 20 or is configured on one side of the camera 400 .

The surface inspection of the inspection product 20 is performed with the first light 510 .

The surface inspection is to detect a wound exposed on the surface of a material or product, and the surface wound includes a wound of the material exposed to the surface by cutting processing, a wound caused by machining, or heat treatment, and conventionally, the visual or Although it was visually confirmed with a magnifying glass or semi-destructively enlarged and detected by pickling, electromagnetic method inspection, electrostatic inspection method, static magnetic field inspection method, and penetrating inspection method are mainly used. Crack depth measurement is used.

Through the above-mentioned surface inspection, the inspection for cracks, dents, scratches, etc. on the inspection product 20 was carried out, so that it was possible to distinguish between a passing product and a non-passing product.

The second lighting is composed of a second lighting configured on the back or bottom of the inspection product 20 .

Dimensional inspection of the inspection product 20 is performed with the second illumination.

In the dimension inspection, light is emitted to the inspection product 20 through the second illumination configured on the back or bottom surface of the inspection product 20 so that the external appearance of the inspection product 20 can be inspected. The product 20 was inspected for dimensions, shapes, dents, foreign substances, scratches, and the like, so that acceptable products and rejected products could be distinguished.

In addition, since the roundness inspection of the inspection product 20 can be performed, an effect thereof can also be expected.

The discharge port 600 discharges the inspection product 20 that has been inspected.

A first outlet 610 and a second outlet 620 are configured in the outlet 600 .

The first outlet 610 discharges acceptable products, and the second outlet 620 discharges rejected products.

In addition, between the second roller 300 and the discharge port 600, the discharge control member 630 is configured to operate according to the passed product or rejected product.

The discharge control member 630 operates to be discharged to the first discharge port 610 or the second discharge port 620 according to whether the product passed or failed for the inspection product 20 through the control unit.

According to the present invention as described above, the inspection product to be inspected is positioned in the horizontal direction and is rotatable between the first and second rollers, so that the surface inspection of the inspection product is performed as a whole, and light is emitted through illumination to prevent the inspection of the inspection product. Dimensional inspection is possible, and the roundness of the inspection product is made smoothly, and in conclusion, it is possible to easily distinguish between passing products and non-passing products for inspection products.

10: vision inspection device 20: inspection product
100: inlet
200: first roller 210: first shaft 220: first seating groove
221: support
300: second roller 310: second shaft 320: second seating groove
321: support
400 : camera
500: light 510: first light
600: outlet 610: first vent 620: second outlet
630: discharge control member

Claims (5)

An inlet 100 into which the product to be inspected is put, and
A first roller ( 200) and
The inspection product 20 transferred through the first roller 200 is transported, but connected to the second shaft 310 to rotate and a second seating groove 320 for seating the inspection product 20 is formed. a roller 300 and
a camera 400 for photographing the inspection product 20 positioned between the first roller 200 and the second roller 300;
An illumination 500 that emits light for the inspection product 20 positioned between the first roller 200 and the second roller 300, and
A vision inspection device for inspection products formed long in the horizontal direction, characterized in that it consists of an outlet (600) for discharging the inspection products (20) that have been inspected.
The method of claim 1,
The light 500 is a first light 510 located between the camera 400 and the inspection product 20 or configured on one side of the camera 400,
A vision inspection device for inspection products formed elongated in the horizontal direction, characterized in that it consists of a second light configured on the back or bottom surface of the inspection product (20).
The method of claim 1,
The discharge port (600) is a vision inspection device for inspection products formed long in the horizontal direction, characterized in that consisting of a first discharge port (610) for discharging a passing product, and a second discharge port (620) for discharging a rejected product.
The method of claim 1,
A vision inspection device for inspection products formed elongated in the horizontal direction, characterized in that between the second roller (300) and the discharge port (600), a discharge control member (630) operated according to a passing product or a non-passing product is configured.
The method of claim 1,
The first seating groove 220 of the first roller 200 and the second seating groove 320 of the second roller 300 are formed at different positions from each other. vision inspection device.

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