KR20100099470A - Crack inspection apparatus of head side part for accuracy screw's - Google Patents

Abstract

PURPOSE: A crack inspecting apparatus of the side of the head for a precise screw is provided to enable a precise screw to be divided into a good product and a defective product through the inspection on the image taken on each part of the precise screw aligned. CONSTITUTION: The strut is installed perpendicularly to the circumferential direction of a rotation plate(1). The support plate is connected transversely from the strut. The reflective unit is installed from the bottom of the support plate. The convex lens is installed on a support(111) connected to the strut from the top on which the reflective unit is installed. The camera is installed on the top of the convex lens and takes an image on the side of the head of the screw.

Description

Crack inspection apparatus of head side part for accuracy screw's}

The present invention relates to a crack inspection apparatus for the head of the precision screw head, and more particularly, in an automatic inspection system for supplying and aligning the precision screw to inspect each corresponding portion by imaging to selectively discharge the good and defective products. In addition, the cracks in the head side of the screw are monitored in multiple directions to enable efficient crack inspection.

In general, the thread of the screw used for precision parts is processed with diameters of 0.5-1mm and 1.5-3mm, and whether the machined precision screw is in bad condition is directly visible by the operator (lead part). According to the shape and processing form (crack part of the head) to determine whether the defect is a lot of manpower is required for the inspection work of the precision screw, there is a disadvantage that the productivity is reduced and a lot of cost burden on the screw processing process.

In addition, there should be a separate inspection device whether the machining operation of the precision screw is normally performed, but there is a problem that there is a lot of poor processing because these inspection means are not provided.

Substantially inspection of the presence or absence of a crack part of the head part including the lead part of the screw needs to be carried out in detail as the part affecting the life of each component part joined as the screw to be used.

In the manufacture of a precision screw manufactured in a small size, a head is formed by cutting a wire having a predetermined diameter to a predetermined length and hitting one end, and then a small precision screw is manufactured by forming a lead having a thread.

The screw manufactured as described above is inspected as good or bad product of the product according to the size of the shape of the head, the shape of the head and the presence or absence of cracks in the molding of the head. A screening device has been introduced.

The inspection is performed in an automated line, and a large number of screws are supplied to the hopper, and are inspected while being moved at equal intervals on a rotating plate which is rotated through the ball feeder and the linear peter through the hopper. Here, through each inspection equipment installed around the rotating plate, it is possible to sort the good and bad of the screw as described above.

In order to perform a faster inspection, the exact size of the screw to be inspected is set in a computer, and based on this, the screw is inspected using a given camera and various sensors.

Particularly, when the head part of the screw is defective, the crack caused by the instantaneous cracking of the metal will be necessary to precisely inspect the crack because the product assembly using the screw will depend on the life of the product.

Therefore, in the automated inspection line, a plurality of cameras are installed at respective positions, and if any crack occurs in the image obtained by photographing the front, rear, left and right sides of the screw being transferred, the defect is treated as defective.

On the other hand, the camera installed to accurately perform the crack inspection as described above requires at least four cameras, the equipment is expensive, the camera installation in the inspection line must be installed before any other inspection, but each inspection equipment There was no problem that the installation space is narrowed due to the arrangement, the overall volume of the inspection device is large.

For example, as the overall volume of the inspection apparatus increases, each of the four cameras installed on each of the screws displays a photographed form on each provided monitor, and it takes a long time to select a normal product and a defective product.

In addition, it is difficult to easily identify and determine each part photographed according to the display providing method as described above, and even a skilled administrator of the inspection apparatus has a problem in handling.

The present invention has been invented to solve the above problems, in the automatic inspection system for supplying and aligning the precision screw to inspect each of the corresponding portions by imaging, to selectively discharge the good and defective products, the head side portion of the screw The purpose is to monitor cracks in multiple directions so that efficient crack inspection can be achieved.

According to the present invention for achieving the above object, the precision screw machined from the hopper is supplied and aligned and transported as a bowl feeder, and linearly brushed through a linear feeder installed in conjunction with the bowl feeder. In the crack inspection device to be placed on the rotating plate rotated after the inspection of the crack by photographing the side of the head of the screw,

The crack inspection device and the support is installed perpendicular to the circumferential direction of the rotating plate; A support plate connected laterally from said support; Reflecting means installed from the bottom of the support plate to reflect the image of the head side of the screw on the rotating plate in multiple directions and to deflect the image in the upward direction; A convex lens mounted on a support connected to the support from an upper portion on which the reflecting means is installed to contain a plurality of images obtained through the reflecting means; A camera installed on an upper portion of the convex lens and photographing the head side portion of the screw; Provided is a crack inspection apparatus is provided on the lower side of the rotating plate corresponding to the camera to provide a light;

The crack inspection apparatus of the head side part of the screw according to the present invention is installed in close proximity to the rotating plate on which the inspection is carried out. Enters the light, reflects it to a polygonal mirror reflector installed in the upper center of the fixing plate, focuses an image refracted in the upward direction from the mirror reflector as a convex lens, photographs the focused image with the upper side camera, and photographs the captured signal. By displaying the presence or absence of cracks on the side of the head of the screw on a single monitor to determine whether it is good or bad based on this, the installation space is increased compared to the existing inspection apparatus that photographs and reads each part by installing multiple cameras. On the other hand, it is possible to read each part in the form of panorapa so that it can be read. That's possible to improve the productivity is provided.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

1 is a plan view schematically showing the automatic precision screw inspection and sorting system of the present invention, Figure 2 is a perspective view showing a reflecting means that is a major part of the crack inspection apparatus of the head side of the precision screw according to the present invention, Figure 3 2 is an enlarged perspective view showing an adjustment block and a mirror reflector in FIG. 2, FIG. 4 is a plan view showing a reflecting means in FIG. 2, and FIG. 5 illustrates an inspection state of a screw head side portion through a reflecting means according to the present invention. Side cross-sectional view, Figure 6 is a front view showing the image displayed on the screw side of the good using the crack inspection device according to the invention, Figure 7 is an image showing the screw side of the defective product using the crack inspection device according to the present invention Front view showing the.

The present invention receives the precision screw machined from the hopper 10 is aligned and transported as a bowl feeder 20, and rotated through a linear feeder (30) installed in association with the bowl (feeder) feeder In the crack inspection apparatus 100 to inspect the crack by photographing the head side portion of the screw placed on the rotating plate (1),

The crack inspection apparatus 100, the support 110 is installed vertically close to the circumferential direction of the rotating plate (1); A support plate 120 connected laterally from the support 110; Reflecting means (130) installed from the bottom of the support plate (120) for reflecting an image of the screw head side portion on the rotating plate (1) in multiple directions and refracting the image in an upward direction; A convex lens (140) installed on a support (111) connected from the support (110) from an upper portion where the reflecting means (130) is installed to contain a plurality of images obtained through the reflecting means; A camera 150 installed on the convex lens 140 and photographing the head side portion of the screw; And a lamp 160 installed below the rotating plate 1 corresponding to the camera 150 to provide illumination.

The rotating plate (1) is a glass plate, the lower portion is connected to the drive motor side is installed rotatably.

A long hole 121 is formed at one side of the support plate 120 and is fixedly installed from the support 110 as a fastening screw S through the long hole 121 so that the height of the support plate 120 is adjustable.

The reflecting means 130 is formed by a plurality of guide holes in the form of radiation, the fixing plate 131 is formed with fastening holes (131b) on both sides of each guiding hole, and the guide hole (131a) of the fixing plate 131 Slide adjustment holes 132a are provided on both sides of the upper part so as to be fixedly installed as the fastening member S, and a plurality of adjustment blocks 132 provided with a mirror M for reflecting the image of the subject on the front lower side, It is installed on the upper center line of the fixing plate 131 is composed of a mirror reflector 133 of the polygonal cone shape of the upper portion is narrow and the lower portion is wide so as to reflect the image formed from the mirror (M) on the adjustment block 132 to the upper side. .

The adjustment block 132 is preferably installed to correspond to at least four or more of the plurality of guide holes (131a), all eight may be installed depending on the inspection target of the screw to be carried out.

The mirror reflector 133 is always formed to have an octagonal angle so as to provide a reflection surface corresponding to the number of the adjustment blocks installed.

In the figure, reference numeral 40 denotes an alignment guide portion installed on the rotating plate side, and reference numeral 50 denotes an input interval detecting unit.

Referring to the operation of the present invention crack inspection device configured as described as follows.

The machined small precision screw is supplied to the large-capacity hopper 10, and the bowl feeder 20 through the hopper 10 performs a primary alignment as a vibration alignment method as is well known. The feeder 20 is supplied through a linear feeder 30 which is continuously installed at the outlet side of the feeder 20.

At this time, the head portion of the screw is the bottom surface is conveyed, and the transfer is made in a row, and the head is placed in a state where the bottom of the head is seated on the upper surface of the rotating plate (1) to rotate as the rotational power of the drive motor.

The screw inserted as described above is conveyed while the secondary alignment is made in the alignment guide part 40 with the rotation of the rotating plate 1.

As described above, the secondary alignment of the screw is transferred from the edge of the rotating plate 1 on the disc, and at this time, the input interval detecting unit 50 detects whether the interval of the screw continuously transferred is maintained according to the set value. do.

This detection takes place in the gap between the screws, for example, a screw that is fed out of the set value checks the sequence number, and this sequence is transmitted as a normal encoder to the microcomputer (not shown in the figure) to primarily check the presence or absence of the inspection object. Make it readable. This can be returned to the unclassified discharge if it is not inspected.

On the other hand, the screw to be conveyed to fit the interval set value range is taken in the multi-direction through the crack inspection device 100, and sent to the microcom to display the captured signal on the monitor equipped with the image mode, where does the deviation from the inspection value set in the microcomputer Determine whether the head side of the screw is good or bad.

The support plate 120 side reflecting means 130 installed to be adjustable in the horizontal direction on the support 110 constituting the crack inspection device is incident to the head side portion of the screw and reflects upward.

The adjustment block 132 installed in the guide hole 131a of the fixing plate 131 constituting the reflecting means 130 so as to be slidable is formed with a long hole 132a at both upper sides thereof, and the fastening member S is It is a structure fixedly installed in the fastening hole 131b formed on both sides of the guide hole 131a through the long hole 132a, and is adjusted by sliding back and forth of the adjustment block 132, so that the angle of incidence of the head side portion according to the size of the screw as the subject is adjusted. Each can be adjusted and set properly.

In addition, the adjustment block 132 may be installed to correspond to each other in at least four directions to obtain images appearing on the front, rear, left and right sides of at least the screw head portion side, or eight as shown You can install them all to make them more detailed.

The adjustment block 132 as described above is located below the center line of the fixing plate 131 in a state in which the mirror (M) is installed at a predetermined angle on the front surface thereof and the screw is seated on the rotating plate (1) and transported. The mirror M of the instantaneous adjustment block 132 enters the image of the head side of the screw as the object as the incident angle as shown by the arrow direction shown in FIG. 5, and the image reflected from the mirror M is fixed plate ( Reflected on each mirror surface of the polygonal mirror reflector 133 installed in the upper center of the 131, the mirror reflector 133 is a polygonal pyramid shape to bend the image formed on the mirror surface in the upward direction.

As described above, the head side portion of the screw is formed on the convex lens 140 installed by the support 111 from the support 110, and the side surface thereof has a direction of 8 depending on the installation of the adjustment block 132. The image is collected at an angle, and photographing is performed through the camera 150 installed on the convex lens 140. At this time, the lamp 160 spaced apart from the bottom of the rotating plate 1 is illuminated to create a condition that can be clearly displayed image of the screw.

6 is a view showing the head side of the screw taken through the camera 150 on the monitor, the head side portion is normally good, attached Figure 7 is the "A" portion of the head side portion of the screw is attached to the head This indicates that a crack has occurred on the side portion, which is read with a screw corresponding to a defective product.

As a result, if the screw product inspected as described above is a good product, it is inspected when moving to the next inspection object, and in the case of a defective product, it is transferred to a state excluded from the inspection and is post-processed.

On the other hand, the screw is passed through the crack inspection device 100 as described above is determined as a good or defective product through the side inspection unit, the head bottom inspection unit installed on one side, and passes through the reject (Reject), the final It is sorted into good, bad and unclassified.

The inspection of the screw made as described above is to quickly read whether or not good or defective through each inspection portion on the rotating plate that is continuously rotated in order to be defective or processed, the incident angle of the mirror and the reflection angle of the mirror reflector The inspection device that collects the images on the side of the used screw at once and reads them out and sorts them into good and bad or unclassified items is made, and compared to the conventional method of taking from front, back and left and right sides using multiple camera devices. This has the advantage of increasing speed and inspection accuracy.

In the present invention, the screw is inspected based on the screw, but the present invention is not limited to the screw, but can be used for the purpose of aligning and inspecting semiconductors and other small electronic components installed on the printed circuit board. There is an advantage that can perform a quick inspection, such as.

1 is a plan view schematically showing the present inventors precision screw automatic inspection and sorting system,

Figure 2 is a perspective view showing the reflecting means that is the main part of the crack inspection apparatus of the precision screw head side portion according to the present invention,

3 is an enlarged perspective view of the adjustment block and the mirror reflector of FIG. 2;

4 is a plan view showing the reflecting means in FIG.

Figure 5 is a side cross-sectional view illustrating an inspection state of the screw head side portion through the reflecting means according to the present invention,

6 is a front view showing an image displayed on the screw side of the good article using the crack inspection device according to the present invention,

Figure 7 is a front view showing the image displayed on the screw side of the defective using the crack inspection device according to the invention.

◎ Explanation of code for main part of drawing ◎

100: crack inspection device 110: prop

120: support plate 130: reflecting means

131: fixing plate 131a: guide ball

132: adjustment block 133: mirror reflector

140: convex lens 150: camera

160: lamp M: mirror

Claims (5)

Rotating plate 1 that receives the precision screw machined from the hopper 10 and is aligned and transported as a bowl feeder 20 and rotated through a linear feeder 30 installed in association with a bowl feeder 1. In the crack inspection apparatus 100 for inspecting the crack by photographing the head side portion of the screw placed on the), The crack inspection apparatus 100 includes a support 110 which is installed vertically close to the circumferential direction of the rotating plate (1); A support plate 120 connected laterally from the support 110; Reflecting means (130) installed from the bottom of the support plate (120) for reflecting an image of the screw head side portion on the rotating plate (1) in multiple directions and refracting the image in an upward direction; A convex lens (140) installed on a support (111) connected from the support (110) from an upper portion where the reflecting means (130) is installed to contain a plurality of images obtained through the reflecting means; A camera 150 installed on the convex lens 140 and photographing the head side portion of the screw; And a lamp (160) installed under the rotating plate (1) corresponding to the camera (150) to provide illumination. According to claim 1, Long side 121 is formed on one side of the support plate 120, it is fixed from the support 110 as a fastening screw (S) through the long hole 121 is adjustable up and down height Crack inspection device for the side of the precision screw head, characterized in that the installation. According to claim 1, The reflecting means 130, the fixing plate 131 is formed in a plurality of guide holes (131a) formed in the radiation, the fastening holes (131b) formed on both sides of each processing, and the fixing plate A sliding long hole 132a is provided at both upper sides of the guide hole 131a of the guide hole 131a to be fixedly installed as the fastening member S, and a mirror M is attached to the front lower side to reflect the image of the subject. A plurality of horns are arranged on the upper center line of the plurality of adjustment blocks 132 and the fixing plate 131, and the upper portion is narrow and the lower portion is wide to reflect the image formed from the mirror M on the adjustment block 132 to the top. Crack inspection apparatus for the head side of the precision screw, characterized in that consisting of a mirror reflector 133 of the shape. 4. The crack inspection apparatus of claim 3, wherein the adjustment block 132 is installed to correspond to at least four or more of the plurality of guide holes 131a. The crack inspection apparatus according to claim 3, wherein the mirror reflector (133) is formed at an octagonal angle.

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