KR100783827B1 - Processing device of cam piercing bush hole - Google Patents

Abstract

A cam piercing bush hole machining device is provided to improve precision by setting a piercing tool at a zero point from a centering pin arranged in a cam block and measuring the distance from the zero point. A cam piercing bush hole machining device includes a centering pin(3) which is arranged in a cam block(50). The centering pin serves as a reference of a zero point adjustment in accordance with the movement of a piercing tool(51) when a bush hole(H) is machined on the cam block through the piercing tool. The centering pin has a top on which a reference ball(2) is mounted such that the reference ball serves as a centering point regardless of the direction of the zero point adjustment of the piercing tool.

Description

Cam piercing bush hole processing equipment {PROCESSING DEVICE OF CAM PIERCING BUSH HOLE}

1 is a schematic view showing a cam piercing bush hole processing apparatus according to the present invention,

FIG. 2 is a perspective view of the cam block in which the centering tool is mounted in FIG. 1; FIG.

Figure 3 is a schematic diagram showing the piercing process after aligning the vertical and horizontal cam block with the centering tool in Figure 2,

4 is a schematic view showing a general cam piercing bush hole processing apparatus,

FIG. 5 is a schematic diagram showing a state of piercing the cam block in FIG. 4; FIG.

* Explanation of symbols for the main parts of the drawings

1: pinhole 2: reference ball

3: centering pin 50: cam block

51: piercing tool H: bush hole

The present invention relates to a cam piercing bush hole processing apparatus, and more particularly, to facilitate the centering operation of a cam block that is pierced when forming a piercing bush hole in a press for forming a metal part such as a car body or a door of an automobile. It relates to a cam piercing bush hole processing apparatus.

In general, parts such as car bodies and doors of automobiles have a very complicated shape and a large number of holes are formed, so that the above-mentioned holes are pierced in the mold of the press to process the holes at the correct angle at the correct position. do.

Since the piercing process is performed by a cam piercing device, the piercing process first processes the mold of the press as designed, and then places the lower mold on the layout machine and marks the piercing machining position on the mold.

When the piercing machining position is marked on the lower mold, the cam block, which is the marked portion of the lower mold, is separated and then placed on the angle table.

Of course, when marking the cam block of the lower mold described above, the operator actually measures and displays what is shown in the design drawing in the dimensions.

When the cam block is seated at an angle table, the angle is adjusted so that the machining surface of the cam block is vertical, and then a hole is drilled in the cam block using a piercing device.

That is, while the piercing tool 51 such as a drill or the like, which is movably installed in the cam block 50 in which the machining surface is vertical by the angle table (not shown), as shown in FIGS. 4 and 5 is operated, The bush hole H is processed in the cam block 50.

Of course, the vertical state of the cam block 50 by the above-described angle table is also progressed while the operator adjusts by the neck side.

As described above, however, when the bush hole is machined into the cam block with a piercing tool, the bush hole position is indicated according to the design drawing, and the machining is performed while the cam block is vertically and horizontally processed by the operator's neck. In addition, there is a problem that a lot of processing error of the bush hole is generated and reworked.

Accordingly, an object of the present invention is to solve the above problems, and by providing a centering tool as a reference point in the cam block without depending on the operator's neck side, it is necessary to improve the machining accuracy of the cam piercing bush hole and to provide a layout machine and the like. The present invention provides a cam piercing bush hole processing apparatus with a simplified work process.

In order to realize the above object, the present invention is a cam piercing bush hole processing apparatus for processing a plurality of bush holes with a piercing tool in the cam block mounted on the lower die of the press, the bush hole is processed in the cam block with the piercing tool. When it is characterized in that it comprises a centering pin installed on the cam block to be a reference point of the zero adjustment according to the movement of the piercing tool.

1 and 2 are schematic views showing a cam piercing bush hole processing apparatus according to the present invention, and a perspective view showing a cam block equipped with a centering tool in FIG. 1, wherein a plurality of piercing cam blocks 50 of a lower mold are formed. Pinhole 1 and the centering pin (3) is inserted and fixed to the pinhole (1) and the spherical reference ball (2) formed on the top.

The pinhole 1 is processed on the basis of the design drawing after the shape processing of the lower mold and NC data is created based on the position of the pinhole 1.

Since the reference ball 2 formed on the upper end of the centering pin 3 forms an exact spherical shape, when the center of the reference ball 2 is the centering point, the cam block 50 may be inclined at any angle. It is always possible to select the correct centering point, which enables accurate machining of the bush hole (H).

Of course, the NC data of the pinhole (1) is to set the center point of the reference ball (2) of the centering pin (3) inserted into the pinhole (1) to the X0, Y0, Z0 point as in normal NC machining , NC data of the position and the vertical and horizontal state of the bush hole (H) on the basis of the center point of the reference ball (2) is to be processed.

Referring to the operation and effect of the present invention as described above, in order to process the piercing bush hole in the cam block 50, first, the position of the centering pin is displayed for each cam block 50 in the mold design step.

Here, the position of the centering pin 3 is represented by XYZ coordinates, and the pinhole 1 is processed by a tool such as a drill on the basis of the position of the centering pin 3.

When the pinhole 1 is processed, the centering pin 3 is inserted into the pinhole 1, and the centering pin 3 is fixed to maintain the upright state without falling out of the pinhole 1.

When the centering pin 3 is fixed to the pinhole 1, the cam block 50 is separated from the lower mold, and then the cam block 50 is seated on an angle table (not shown). The angle table is rotated such that the machining surface is orthogonal to the piercing tool 51.

When the angle table is rotated, as shown in FIG. 3, the machining surface P of the cam block 50 is orthogonal to the piercing tool 51. The piercing tool 51 is the cam block 50. ) Is zeroed by the reference ball (2) of the centering pin (3) installed in the).

That is, since the center point of the reference ball 2 of the centering pin 3 is 0,0,0 in the XYZ coordinates, if the piercing tool 51 moves by a predetermined distance while moving, the bush hole processing is performed. Machining is done at the correct location.

In particular, since the reference ball 2 has a perfect spherical shape, it is possible to obtain accurate values even if the measurement is performed in any direction regardless of the rotation angle of the cam block 50.

As described above, when the NC data XYZ axis data is calculated by centering on the center point of the reference ball 2 of the centering pin 3, the machining is performed very accurately compared to the processing by the operator. Will be.

When the bush hole H processing of the cam block 50 is completed, the cam block 50 is mounted on the lower mold again, and the press is mounted to press the molded parts, such as a vehicle body and a door, by pressing the mold. will be.

As described above, the present invention installs a centering pin which is a machining reference point on the cap block, and zeroes the piercing tool based on the centering pin, and measures and measures the distance from here. This has the advantage of improving the bush hole machining efficiency of the cam block.

Claims (2)

In the cam piercing bush hole processing apparatus for processing a plurality of bush holes with a piercing tool on the cam block mounted to the lower mold of the press, Cam piercing bush hole processing apparatus characterized in that it comprises a centering pin installed on the cam block to reference the zero point adjustment according to the movement of the piercing tool when machining the bush hole in the cam block with the piercing tool. The method of claim 1, Cam piercing bush hole processing apparatus, characterized in that formed on the upper end of the centering pin and to form a spherical reference ball that is the center point as a reference so that the measurement can be made regardless of the direction of the piercing tool zero point.

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