KR101344458B1 - Inspection device of hole position - Google Patents

Abstract

The present invention relates to a hole position testing device and, more specifically, to a hole position testing device which tests a processing position of a plurality of through-holes formed on a metal product. The hole position testing device includes hole insertion members which are positioned on desired processing positions and which can be inserted into the through-holes; and a base unit on which the hole insertion members are mounted. The center of the hole insertion member can be positioned on the center of the through-hole of a rectangular shape of which the width in a horizontal direction and the width in a vertical direction orthogonal to the horizontal direction are different and which a horizontal position aligning member and a vertical position aligning member are separately and independently moved.

Description

Hole position inspection mechanism {Inspection device of hole position}

The present invention relates to a hole position inspection mechanism, and more particularly to a hole position inspection mechanism that can easily inspect the machining position of the rectangular through-hole provided in the metal product.

In general, a variety of metal products such as hinges are fastened to the body and the door panel of the vehicle to smoothly open and close the door. Such metal products are provided with a plurality of through holes for fixing bolts. If the through holes are not placed in position, it is difficult to fix the bolts. Therefore, it is necessary to check whether the through holes formed in the metal products are in place. need.

To this end, it is possible to measure the position of the through-hole with a three-dimensional measuring instrument, such a measuring method takes a lot of measurement time, there is a problem that precise measurement is difficult when the metal product has a complex shape.

In order to solve this problem, a technique for providing a predetermined jig and inspecting the hole position in a state where a metal product is seated on the jig is disclosed in Korean Utility Model Registration No. 20-0135858.

Specifically, the hole position inspection jig, in the inspection jig for inspecting the processing position of the plurality of fixed holes processed in the upper and lower hinges fastened by the bolt to the body and the door panel, the upper and lower hinges can be inserted. First and second plates having insertion spaces and guide pieces formed thereon, the insert spaces including insert molds having processing position inspection holes inserted therein to inspect the processing positions of the fixing holes; It is fastened to the processing position inspection hole and the fixing hole is characterized in that consisting of a check pin for checking whether the upper and lower hinges.

Meanwhile, another hole position inspection jig is disclosed in FIGS. 1 to 3. 1 to 3 is a hole position inspection jig for inspecting the hole position of the through-hole 153 formed in the metal product 150, the metal product is a horizontal plate 151 and the horizontal plate 151 The vertical plate 152 is bent with respect to the horizontal plate 151, the first through hole 153 is formed, the vertical plate 152 is formed with a second through hole 154. In addition, the inspection jig 100 is installed on the base plate 110 and has a shape corresponding to the outer shape of the metal product 150, and adjacent to the first support portion 120, A first hole inserting unit 130 disposed at a position corresponding to the first through hole 153 of the metal product and a second formed at a position corresponding to the second through hole 154 of the metal product It is configured to include a hole insertion unit 140. At this time, the first hole insertion portion 130, as shown in Figure 3, the insertion member 131 having a truncated conical shape, the body portion 132 and the body for receiving the insertion member 131 therein It is disposed inside the portion 132 and comprises a spring 133 to elastically bias the insertion member 131 to the upper side. At this time, when the metal product 150 is seated in the first hole insertion unit 130, the insertion member 131 is inserted into the first through hole 153 and protrudes upward from the first through hole 153. The metal product 150 is seated in a predetermined position. At this time, the second insertion portion 140 moves the rod member 141 formed in the shape of a rod to the metal product 150 side. When the second insertion portion 140 is inserted into the second through-hole of the metal product, It can be determined that the first through hole and the second through hole are formed in position.

The hole position inspection jig according to the prior art has the following problems.

The above-described hole position inspection jig can be used when the through hole has a circular or square shape. For example, in the case where the through hole does not have a circular or square shape, there is a problem in that the first hole insertion portion is difficult to be positioned at the center of the through hole in the hole position check fixture. As such, when the first hole insertion portion is not positioned at the center of the through hole and is biased in a part of the transverse or vertical direction, it is not easy to make a precise reference point, thereby reducing the accuracy of the inspection.

That is, the insertion member having a truncated conical shape can be positioned only in the through hole having a circular to square shape, and thus it is difficult to apply in the rectangular through hole.

The present invention has been made to solve the above problems, and more particularly, to a hole position inspection mechanism that can easily perform the hole position inspection even in the rectangular through-hole.

The hole position inspection mechanism of the present invention for achieving the above object, in the hole position inspection mechanism for inspecting the machining position of the plurality of through holes formed in the metal product,

A hole insertion member disposed at each desired processing position and inserted into the plurality of through holes, and a base portion on which the hole insertion member is mounted,

The hole insertion member may include a horizontal alignment member such that a center of the hole insertion member may be positioned at a center of the through hole of a rectangle having a width in a horizontal direction and a width in a vertical direction perpendicular to the horizontal direction. The longitudinal alignment members are configured to be moved independently of each other.

In the hole position inspection mechanism, the horizontal alignment member has a second inclined surface which extends along the horizontal direction and increases in width toward the lower side to contact the through hole,

The longitudinal alignment member may have a first inclined surface extending along the longitudinal direction and increasing in width toward the lower side to be in contact with the through hole.

In the hole position inspection mechanism, the horizontal alignment member extends along the horizontal direction while passing through the center of the through hole,

The longitudinal alignment members may be spaced apart from each other with the horizontal alignment members interposed therebetween so that the pair may extend along the longitudinal direction.

In the hole position inspection mechanism, the horizontal alignment member may include a screw protruding upward from a position corresponding to the center of the through hole.

In the hole position inspection mechanism, the longitudinal alignment member is provided with an upper step protruding in a direction facing each other to prevent the horizontal alignment member is separated upward, the screwdriver is screwed to the screw As the driver rotates, the horizontal alignment member may be raised to align the position of the through hole to the center.

In the hole position inspection mechanism, a body portion provided with a receiving groove to accommodate the longitudinal alignment member and the horizontal alignment member;

The receiving groove may include a spring member for elastically biasing the longitudinal alignment member and the horizontal alignment member upward.

The hole position inspection mechanism according to the present invention is a horizontal position alignment member and a position alignment member which is moved independently of each other, the vertical position alignment member is inserted into the through hole to align the position of the rectangular through hole to accurately check the hole position It has the advantage of being easy to do.

1 is a view showing a hole position inspection mechanism according to the prior art.
2 is a view showing the operation of FIG.
3 is a sectional view taken along the line III-III of FIG. 1;
4 is a perspective view showing the hole position inspection mechanism of the present invention.
5 is a plan view of the hole position inspection mechanism of FIG.
6 is a side cross-sectional view of the hole position inspection mechanism of FIG. 4.
7 is a view showing a state where the metal product is mounted on the hole position inspection mechanism.
8 and 9 are views showing the operation of the hole position inspection mechanism of FIG.

Hereinafter, the hole position inspection mechanism according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The present invention relates to a hole position inspection mechanism, and more particularly to a hole position inspection mechanism for inspecting the machining position of the plurality of through holes formed in the metal product. At this time, the plurality of through-holes have a rectangular shape different from each other in the vertical width and the width in the horizontal direction perpendicular to the vertical direction.

The hole position inspection mechanism 10 includes a hole insertion member 20 which is disposed at each desired machining position and can be inserted into the plurality of through holes 71, and a base portion on which the hole insertion member 20 is mounted. 90). The hole insertion member 20 is configured to include a vertical position alignment member 30, a horizontal position alignment member 40, the body portion 50 and the spring member 60.

The longitudinal alignment member 30 includes a first upper portion 31, a first intermediate portion 32, and a first lower portion 33. The longitudinal alignment members 30 extend along the longitudinal direction and are symmetrically disposed with respect to the center of the body portion 50 at predetermined intervals.

The first upper portion 31 forms an upper portion of the vertical alignment member 30, protrudes upward from the body portion 50, and is wider from the center of the outer portion so that the first upper portion 31 moves away from the center of the body portion 50 toward the lower side. It is provided on the increased first slope 311. The first inclined surface 311 is in contact with the inner surface of the through hole 71 of the metal product 70. The upper stepped portion 312 protruding in the direction facing each other (toward the center of the body portion 50) is provided inside the first upper portion 31. The upper step 312 serves to prevent the horizontal alignment member 40 disposed between the pair of alignment members to escape to the outside.

The first intermediate portion 32 is a portion formed in a square pillar shape extending downward from the first upper side.

The first lower portion 33 forms a lower portion of the vertical alignment member 30, and a lower step 331 protruding outward in the vertical direction is provided. The lower step 331 prevents the longitudinal alignment member 30 from escaping out of the body 50.

The horizontal alignment member 40 includes a second upper portion 41, a second intermediate portion 42, and a second lower portion 43. The horizontal alignment member 40 is inserted into the through hole 71 together with the vertical alignment member 30 to inspect the machining position of the through hole 71. When inserted, the horizontal alignment member 40 and the vertical alignment member 30 may be independently moved so that the center of the hole insertion member 20 may be positioned at the center of the through hole 71. It is configured to be.

The horizontal alignment member 40 has a shape in which both sides of the cylinder are cut in a vertical direction in a vertical direction, but the second upper portion 41 extends substantially along the horizontal direction and increases in width toward the lower side of the through hole. The second inclined surface 411 in contact with 71 is provided. The second middle portion 42 connects the second upper portion 41 and the second lower portion 43 to each other, and the second lower portion 43 of the horizontal alignment member 40 It is what constitutes the lower part.

The horizontal alignment member 40 is disposed between the pair of longitudinal alignment members 30 and configured to be caught by the upper step 312. A screw 412 protruding upward is disposed at a position corresponding to the position of the through hole 71 at the center of the upper end of the horizontal alignment member 40.

The body portion 50 is formed in a substantially rectangular pillar shape is provided with a receiving groove 51 extending from the upper side to the lower side. A lower portion of the receiving groove 51 is provided with a locking portion 52 to which the lower end 331 of the longitudinal alignment member 30 can be caught.

The spring member 60 is to elastically bias the longitudinal alignment member 30 and the horizontal alignment member 40 in the receiving groove 51 to the upper side, in this embodiment three springs The member 60 is provided and each comes in contact with the lower ends of the longitudinal alignment member 30 and the longitudinal alignment member 30.

On the other hand, reference numeral 80 is a driver, the driver 80 is connected to the handle portion 81, the extension portion 82 extending downward from the handle portion 81, the extension portion 82 and the center It comprises a screw portion 83 is formed with a screw groove 831 into which the screw 412 can be inserted.

The hole position inspection mechanism 10 according to one embodiment of the present invention is operable as follows.

First, as shown in FIG. 6, the metal product 70 is lowered in a state in which the rectangular through hole 71 is disposed at a position corresponding to the horizontal alignment member 40 and the vertical alignment member 30. The horizontal alignment member 40 and the vertical alignment member 30 can be inserted into the through hole 71. Subsequently, when the metal product 70 is lowered, as illustrated in FIGS. 7 and 8, the horizontal alignment member 40 and the vertical alignment member (in the through-hole 71 of the metal product 70) 30) will be inserted. At this time, the first inclined surface 311 of the vertical alignment member 30 is lowered with the metal product 70 while touching the inner circumferential surface of the through hole 71, the horizontal alignment member 40 is also second As the inclined surface 411 touches the through hole 71, the inclined surface 411 descends a predetermined distance together with the metal product 70. On the other hand, while the longitudinal alignment member 30 and the metal product 70 is in contact with the center of the longitudinal alignment member 30 to the center of the through-hole 71 is matched.

Meanwhile, as shown in FIG. 9, when the screw 412 is screwed into the screw groove 831 while rotating the driver 80, the horizontal alignment member 40 is connected to the vertical alignment member 30. Relative to the relative to the horizontal center of the metal product (70). That is, as the horizontal alignment member 40 rises, the second inclined surface 411 contacts the through hole 71 of the metal member, thereby aligning the metal member.

As described above, the hole position inspection mechanism according to the present invention facilitates the inspection of the hole position as well as the highly accurate hole by allowing the metal to be easily aligned in the center even when the through-hole of the metal product has a rectangular shape. This has the advantage of enabling position checking.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

10 ... Hole position inspection mechanism 20 ... Hole insert
30 ... horizontal positioning member 31 ... first upper part
311 First slope 312 Upper jaw
32 First intermediate part 33 First lower part
331 ... Lower step 40 ... Horizontal alignment member
41 Second upper side 411 Second inclined plane
412 ... screw 42 ... second intermediate part
43 2nd lower part 50 ... body part
51 ... Accepting groove 52 ...
60 spring element 70 metal product
71 ... through hole 80 ... driver
81 ... Handle 82 ... Extended
83 Screw thread 831 Screw groove

Claims (6)

A hole position inspection mechanism for inspecting a machining position of a plurality of through holes formed in a metal product,
A hole insertion member which is disposed at each desired machining position and can be inserted into the plurality of through holes, and a base portion on which the hole insertion member is mounted,
The hole insertion member,
The horizontal alignment member and the vertical alignment member are positioned such that the center of the hole inserting member can be positioned at the center of the through hole of a rectangle having a width in a horizontal direction and a vertical width perpendicular to the horizontal direction. Are configured to be moved independently of each other,
The horizontal alignment member has a second inclined surface extending along the horizontal direction and increasing in width toward the lower side to contact the through hole,
And the longitudinal alignment member has a first inclined surface extending along the longitudinal direction and increasing in width toward the lower side to be in contact with the through hole. delete The method of claim 1,
The horizontal alignment member extends along the horizontal direction while passing through the center of the through hole,
The longitudinal alignment member is a hole position inspection mechanism, characterized in that a pair spaced apart from each other with a horizontal alignment member therebetween extending along the longitudinal direction. The method of claim 3,
The horizontal position alignment member, the hole position inspection mechanism, characterized in that it comprises a screw protruding upward from the position corresponding to the center of the through hole. 5. The method of claim 4,
The vertical alignment member is provided with an upper step protruding in a direction facing each other to prevent the horizontal alignment member is separated from the upper side,
And a screwdriver coupled to the screw to rotate the driver so that the horizontal alignment member is raised to align the position of the through hole to the center. The method of claim 1,
A body portion provided with a receiving groove to accommodate the longitudinal alignment member and the horizontal alignment member;
And a spring member for elastically biasing the longitudinal alignment member and the horizontal alignment member in the receiving groove.

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