KR200395452Y1 - Rolling dies for drive shaft processing - Google Patents

Abstract

The present invention proposes a rolling die for processing a worm shaft by rolling the worm shaft by a rolling method, and more specifically, an entry portion 2 having a predetermined inclined surface in the entry direction of the workpiece 4 of the cylindrical rolling die (D) outer periphery. And the balance portion 1 is formed at the center of the outer die of the rolling die (d), and the dropping portion 3 having a predetermined inclined surface is formed at the outer circumference of the teeth 101, 201 to the entrance portion 2. Starting from the outer end to the outer end of the dropping portion (3) is formed spirally and the entry tooth type 201 has a deep bone 202 and the end of the tooth 201 is formed high and pointed to form a tooth (1) As it progresses, the depth of the bone 202 and the height of the tooth 101 is low, and the shape of the bone 102 and the tooth 101 forms a gentle inclination and the width is increased so as to be connected to the dropping part 3. Entry part 2 is formed in predetermined inclination, and the entry point type | mold 201 is sharp in shape. The processing load is minimized at the time of entering the processed material, and the processing load is minimized. As the processing material (4) proceeds, the processing proceeds to the worm shaft continuously, and the processing load of the entry part (2) and the balance part (1) Since the variation is reduced, the deformation of the workpiece 4 is prevented, thereby obtaining a roll die for machining worm shafts excellent in dimensional accuracy and productivity of teeth.

Description

Rolling dies for drive shaft processing

The present invention relates to a rolling die for worm shaft machining, and more specifically, to form a worm tooth type in a workpiece by using a rolling die for passing a worm shaft machining.

In general, the worm shaft is mainly used in the power transmission device that forms helical teeth on the shaft and engages with the worm gear to drive the worm gear by using the worm shaft as a motive gear.In general, the worm shaft and the worm gear cross each other at right angles. It is mainly used for power transmission and has a large reduction ratio and it does not rotate by reverse rotation.

The worm shaft used as described above is conventionally manufactured mainly by machining such as lathe machining, which is a cutting machine.

Therefore, it is difficult to mass-produce due to the slow processing speed, and it has caused the defect of raising the manufacturing cost and making it difficult to obtain the worm shaft of uniform standard.In recent years, many worm shaft manufacturing methods for manufacturing worm shaft by rolling method have been improved. Although the worm shaft has high tooth profile and wide bottom of the bone, the worm shaft usually has a small amount of molding to the outer diameter during rolling process, and is processed during the machining of the worm shaft, and the tooth of the preceding worm shaft is matched with the teeth of the rolling die. Due to the large machining resistance of the workpiece entering the entrance, the workpiece is easily stretched in the axial direction, so the tooth dimensions are irregular and the molding condition is poor, resulting in poor rollability and precise worm shafts.

Therefore, in recent years, the worm shaft is mainly manufactured by cutting.

The present invention is to form a tooth of the rolling die to the teeth of the entry portion and the teeth of the parallel portion of the teeth of the rolling die to form a different tooth different from the teeth of the rolling die to manufacture the worm shaft by using the rolling die to improve the conventional defects as described above. Is designed to manufacture precision worm shafts by rolling method to reduce processing resistance, and to produce worm shafts with high dimensional accuracy of worm shaft teeth and mass production of uniform products. Its purpose is to propose a precursor die.

In order to achieve the above object, the present invention provides an entry part 2 having a predetermined inclination angle on the outer circumference of the cylindrical rolling die, an equilibrium part 1 in a balanced state, and a dropout part 3 forming a predetermined dropping angle. The entry part type 201 formed in the entry part 2 is configured such that the entry part type 201 formed in the entry part 2 and the equilibrium part type 101 formed in the balance part have different shapes. By receiving a small amount of the roll processing load at the time of entry into the workpiece, the roll die having excellent dimensional accuracy and good roll forming can be obtained.

First, Figure 1 is a cross-sectional view showing the configuration of the cylindrical roll die for worm shaft processing as a cross-sectional view of the present invention, Figure 2 is an enlarged cross-sectional view showing the teeth of the balance portion of the present invention and Figure 3 is an enlarged cross-sectional view showing the teeth of the entry portion.

That is, the present invention forms a predetermined inclined surface in the entry direction of the workpiece 4 of the outer peripheral die of the cylindrical rolling die (D) to form the entry portion 2, and the balance portion (1) at the center of the outer peripheral edge of the rolling die (d). The outer peripheral end is composed of a dropping portion (3) having a predetermined inclined surface and the teeth 101, 201 is formed spirally from the outer end of the entry portion (2) to the outer end in the dropping portion (3) As shown in FIG. 3, the butt die 201 is deeper than the parallel butt 101 and has a deeper pointed and sharper end of the tooth 201. As described above, the depth of the bone 202 and the height of the tooth 101 are low, and the shape of the bone 102 and the tooth 101 forms a gentle inclination and the width is increased so as to be connected to the dropping part 3. .

In view of the operation of the present invention as described above, the entry portion 2 is formed at a predetermined inclination and the shape of the entry portion 201 is sharply formed, so that the amount of processing is small at the time of entry of the processing material, so that the processing load is minimized and the processing material ( 4) As the process proceeds, the machining progresses to the worm shaft continuously, and the processing load is less deviation between the entry part 2 and the equilibrium part 1 to prevent deformation of the workpiece 4 and the dimensional accuracy of the teeth. And the worm shaft excellent in the molding state can be obtained.

The present invention as described above can be obtained by processing the worm shaft using the rolling die (D), the worm shaft is uniform and the shape is always stable to obtain a stable worm shaft, as well as the processing process is simple and the processing time is short, easy to mass production There is an advantage in obtaining a highly competitive worm shaft.

1 is a cross-sectional view of the present invention

Figure 2 is an enlarged cross-sectional view showing the equilibrium butch type of the high-safety jaw die

Figure 3 is an enlarged cross-sectional view showing the entry point type of the high-safety dice.

*** Explanation of symbols on main parts of drawings ***

1: Equilibrium

101: Balanced Butt Type

2: entrance

201: Entry type

3: dropping part

4: processed material

Claims (1)

Cylindrical rolling die (D) to form the entry portion (2) having a predetermined inclined surface in the entry direction of the processing material (4) of the outer periphery, and the balance portion (1) is formed in the outer periphery of the rolling die (d), and predetermined at the outer peripheral end It is composed of a dropping portion (3) having an inclined surface of the teeth 101, 201 is formed spirally from the outer end of the entry portion 2 to the outer end of the dropping portion (3) and the entry tooth type 201 As the bone 202 is deep and the tip of the tooth 201 is formed high and pointed, the depth of the bone 202 and the height of the tooth 101 are low as the tooth progresses to the equilibrium 1, and the bone 102 and the tooth are lower. Rolling die for worm shaft processing, characterized in that the shape of the 101 is formed to be gentle inclined and connected to the dropping portion (3)