KR100473205B1 - apparatus for discharging work in a high-speed precision former - Google Patents

Abstract

The present invention relates to a discharge device used in a high-speed precision molding machine, comprising: a rod for pushing a work out of a mold; A slider coupled to the rod for linear reciprocating motion; It has a lever part which drives the said slider.

A hammer formed in the shape of an arc and in line contact with a slider; An upper lever for transmitting a driving force to the hammer; An adjusting screw connecting the upper lever and the hammer to adjust the length of the rod; A lower lever rotating by a cam and transmitting a driving force to the upper lever; A notch bolt that connects the upper lever and the lower lever, and is broken by an overload due to mis-release of the work or malfunction of the discharge device; It has a cover to prevent the notch bolts from splashing to other devices of the molding machine when the notch bolts break.

Description

{Workpiece for discharging work in a high-speed precision former}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a high speed precision molder for producing cold forged products, and more particularly to a discharge device for removing the workpiece from the mold during the manufacturing process of the mold.

Products produced through cold forging are more effective than products produced through powder metallurgy or casting because they have precise dimensions and withstand high strength.

The high-speed precision molding machine for producing such forged products is a mechanical device that cuts the raw material of the product into units of a certain size, and then loads the cut material step by step to produce a product of a desired shape. Thus, the material in a step process is shape | molded in the shape of a metal mold | die, and this molded article (middle or final) is called a workpiece | work.

In the high-speed precision molding machine formed as described above, a conventional discharge device is connected to the rod 10 and the rod 10 to push the work formed in the molding machine out of the mold, as shown in FIG. 5. A slider 12 for reciprocating linear motion and a lever 14 for changing the linear motion of a rotational motion by a cam (not shown) for reciprocating linear motion of the slider 12 are included.

Such a discharge device must move between the mold and the mold for the next step of molding, and for this movement, the work embedded in the mold must be removed and moved to the moving device. Since many workpieces that are continuously formed are repeatedly moved and molded, if a problem occurs at any one part, the whole machine must be stopped. For this reason, if the workpiece is not always moved by the rod 10 in the mold with a constant moving length, the workpiece missing from the mold may collide with the moving device, or may not be moved to the next step, causing a malfunction of the machine. Representative of such a malfunction is a breakage of the lever for discharging the work is a majority, and when the lever is broken, there are many difficulties in replacing or repairing it. In addition, the weight or size of the lever 14 for pulling out the workpiece is large, and the noise generated by the operation of the lever 14 is also large, which also has a problem of giving a worker a sense of pressure.

The present invention has been made to solve the above problems, to facilitate the repair of the lever caused by the malfunction of the discharge device, and to provide a discharge device for reducing the noise generated during the operation of the lever. It is done.

Other objects and effects of the present invention will be understood from the detailed description of the invention and the accompanying drawings.

The present invention for solving the above problems, the rod for pushing the work out of the mold; A slider coupled to the rod for linear reciprocating motion; It has a lever part which drives the said slider.

A hammer formed in the shape of an arc and in line contact with a slider; An upper lever for transmitting a driving force to the hammer; An adjusting screw connecting the upper lever and the hammer to adjust the length of the rod; A lower lever rotating by a cam and transmitting a driving force to the upper lever; A notch bolt that connects the upper lever and the lower lever, and is broken by an overload due to mis-release of the work or malfunction of the discharge device; It has a cover to prevent the notch bolt from splashing to another device when the notch bolt is broken.

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

1 is a front view of an embodiment according to the present invention, Figure 2 is a cross-sectional view taken along the cutting line of II-II of FIG. The apparatus includes a rod 10 for pushing the work inserted into the mold and discharging it out of the mold, a slider 20 coupled with the rod 10 to linearly reciprocate the rod 10, and the slider 20. It has the lever part 30 to drive.

The lever unit 30 is circulated by the operation of the cam not shown and serves to linearly reciprocate the slider 20, the lower lever circulating a predetermined trajectory by the cam (not shown) ( 40 and an upper lever 50 coupled through the lower lever 40 and the notch bolt 60. And the lever portion 30 has a hammer 70 for transmitting the rotational force of the upper lever 50 to the slider 20, the adjustment screw 80 for coupling the upper lever 50 and the hammer 70 Have

The hammer 70 linearly reciprocates the slider 20. This process will be described in more detail in the operation process to be described later, the rotational movement by the cam is transmitted to the lever portion 30, the hammer 70 of the lever portion 30 and the slider in contact with the linear rotational movement Will be replaced by a reciprocating motion. In this process, the slider 20 and the hammer 70 make a line contact, because when the surface contact, as in the conventional apparatus, the noise is generated largely, and when the point contact, the point 20 can not transmit enough force to transmit. In addition, the wire contact can reduce noise and deliver stable driving force.

3 is an enlarged view of an enlarged part III of FIG. 1, wherein the adjusting screw 80 moves forward or backward in a direction in which the rod 10 is placed in a manner of rotating on a thread, which is a high speed precision molding machine. Since the producing work does not always produce the same type, it is equipped to adjust it. This is a general-purpose machine for producing a product of a different shape according to the shape of a mold (not shown) through the forging process, so the dimensions of the rod 10 caused by wear during the replacement of the mold (not shown) or production In order to correct the error, the dimensional error can be corrected by rotating the adjusting screw 80 instead of replacing the rod 10. After fixing the length through the adjusting screw 80, the fixing screw 82 is fixed to the adjusting screw 80 to prevent the adjusting screw 80 from being moved by the load generated during operation. The fixing screw 82 penetrates the adjusting screw 80 and one plate 84. When the fixing screw 82 is rotated and moved forward, the fixing screw 82 pushes the upper lever 50 so that the plate (84) receives the moment around the adjustment screw (80) to fix the adjustment screw.

4 is a front view of the notch bolt of FIG. 1, and the notch bolt 60 couples the upper lever 50 and the lower lever 40. And the notch bolt 60 is formed with a notch 62 on the coupling surface to which they are coupled, so that when the impact or overload occurs, the load is concentrated to this notch to separate the upper lever 50 and the lower lever 40. do.

On the other hand, when the notch bolt 60 is separated by a load, a cover (90 in FIG. 2) is installed to prevent the notched bolt 70 from being broken by another device.

Hereinafter, a preferred method of operation of the present invention will be described in more detail with reference to FIG. 1.

First, when the cam (not shown) shown in the figure rotates, the lower lever 40 connected thereto is rotated in a predetermined orbit. The upper lever 50 coupled to the lower lever 40 also moves in the same manner as the lower lever 40, and the hammer 70 coupled to the upper lever 50 through the adjusting screw 80 has an upper portion. Like the lever 50 is to orbital movement. The orbital motion causes the hammer 70 to reciprocate the slider 20 in a straight line, and the rod 10 mounted on the slider 20 repeatedly moves forward and backward to hit the workpiece inserted into the mold. To me.

On the other hand, even if the rod 10 has struck the workpiece and the workpiece does not fall out of the mold or does not move to the position where the workpiece should be located, the lever portion 30 is subjected to an overload. In this case, the notch bolt 60 of the lever part 30 is cut along the notch 62 by the load applied to the lever part 30. Since the notch bolt 60 is cut by the cutting of the notch bolt 60, the cover 90 may be damaged by other parts of the high-speed precision molding machine because the notch bolt 60 may be cut and splashed with other parts. Wrap the part.

When using the device, the length of the rod 10 that strikes out the workpiece is reduced due to wear, and to compensate for this, the length of the rod 10 is compensated by rotating the adjustment screw 80 mounted to compensate for the length. can do.

As described above, the discharge device according to the present invention is designed to destroy a specific part of the notch bolt, in order to compensate for the entire lever being destroyed or damaged by an overload, so that the machine may be damaged due to the malfunction of the device. There is an advantage to facilitate the repair. And it is possible to compensate the wear of the rod length through the adjustment screw, there is an advantage to reduce the noise by making the contact portion of the hammer through the line contact through the curve.

1 is a front view of a discharge device according to an embodiment of the present invention

FIG. 2 is a cross-sectional view taken along the cutting line of II-II of FIG. 1.

3 is an enlarged view illustrating III of FIG. 1 enlarged;

4 is a front view of the notch bolt of FIG.

5 is a conventional discharge device

* Description of Major Symbols in Drawings *

10: load 20: slider

30: lever part 40: lower lever

50: upper lever 60: notch bolt

70: hammer 80: adjusting screw

90: cover 100: cam

Claims (3)

A rod for pushing the work out of the mold; A slider coupled to the rod for linear reciprocating motion; Lever part for driving the slider It contains, The lever unit discharge device of the high-speed precision molding machine having a hammer in linear contact with the slider, an upper lever for transmitting a driving force to the hammer, and a lower lever for transmitting a driving force to the upper lever. The method according to claim 1, The discharge device of the high-speed precision molding machine connecting the hammer and the upper lever, further comprising an adjustment screw for adjusting the length of the rod The method according to claim 1 or 2, The upper lever and the lower lever is connected, the discharge device of the high-speed precision molding machine further comprises a notch bolt that is destroyed by the overload due to the mis-discharge of the work or the malfunction of the discharge device