KR101720035B1 - Dies for cold forging - Google Patents

Abstract

The present invention provides a die for a cold forging mold, having a structure allowing the die and a die bushing supporting the die to firmly be coupled; thereby preventing the die from being separated and spaced from the die bushing due to impact by a forming punch while performing forging work. To achieve the above described purpose, a protrusion part is formed on a center of an exterior surface of a die mounted on an entrance of a cold forging mold, and a die bushing configured to be divided into an upper support body and a lower support body, which has inward slanted surfaces, coupled to the exterior surface of the die. Moreover, a recess groove is formed on a center of an interior surface of the die bushing; the recess groove aligned and in contact with the protrusion part of the die; and the upper support body and the lower support body heated and compressed to integrally be coupled. As such, the die is prevented from being separated from the die bushing, and the die bushing is allowed to be mounted on an entrance part of the mold to be used.

Description

{DIES FOR COLD FORGING}

The present invention relates to a die for a cold forging die, and more particularly to a dice for a cold forging die, in which the dice coupled to the die inlet and the die bushing for supporting the dice are firmly connected, To prevent the phenomenon of separation.

In general, the manufacture and processing of mechanical parts can be carried out according to the application or, if necessary, by a method such as cutting, casting or forging.

However, in case of cutting or casting method, it takes a lot of time and manpower to manufacture the product, and it is difficult to mass-produce it.

As a means for solving such a problem, it is possible to mass-produce precision products by the cold forging method, and the application is gradually increasing in recent years.

2. Description of the Related Art [0002] Generally, a product using cold forging is composed of a cold-quick-forming mold having a molding hole of a product shape and a corresponding punch, and various types of molds are provided for the cold-

Examination of the prior art relating to cold and cold molds has been carried out in accordance with a method disclosed in the Utility Model No. 20-1993-0002747 entitled " Fixed die mold of a preliminary die "(Patent document 1), and Patent document 10-2007-0106202 entitled" (Patent Document 2), and Japanese Patent Application Laid-Open No. 10-2015-0143975, "Cold Forging Apparatus for Mold and Coupler for Cooling and Cooling" (Patent Document 3).

When examining the forged mold structure of the above Patent Documents 1 to 3, a reinforcing ring for buffering the forming pressure is located between the outer case and the die, while a die made of a cemented carbide is coupled to the outer case.

In the case of the forging die, the combination of the die and the reinforcing ring for supporting the die is configured as follows.

That is, a structure in which a molding hole is formed inside, a die having the same outer diameter is fitted and fixed to a reinforcement ring having an inner diameter equal to the outer diameter of the die, and a reinforcing ring to which the die is fixedly coupled to the outer case inlet .

Accordingly, after the forging die is mounted on the forging machine, the material supplied from one side is placed at the central portion of the die of the forging die and then pressed by the punch, the material is processed into a molding hole formed in the die, A considerable impact is transmitted to the die in the process of forging the die into the shape of a molding hole.

There arises a phenomenon that the position of the die moves from the reinforcing ring due to the impact, resulting in a problem that the precision workability of the product to be formed through the die is lowered.

Utility Model Announcement No. 20-1993-0002747 "Fixing Die Mold of Early Stage" [Patent Document 10-2007-0106202 entitled " Japanese Patent Application Laid-Open No. 10-2015-0143975 entitled "Cold Forging Apparatus for Manufacturing Molds and Couplers for Cold &

The present invention provides a die for a cold forging die, in which the die and the die bushing for supporting the die are firmly coupled, thereby preventing the die from being separated and separated from the die bush due to the impact of the forming punch during forging. It is.

As a means for solving the above problems, the present invention provides a method of manufacturing a cold forging die, comprising: forming a protrusion at the center of the outer surface of a die mounted on a cold forging die inlet, combining an upper support body having an inner inclined surface formed on an outer surface of the die, The upper and lower supports are heated and pressed to be integrally joined to each other so that the separation of the dies from the die bushing does not occur, And the die bushing is mounted on the mold opening portion to be used.

According to the present invention, a protrusion is formed at the center of the outer surface of a die for a cold forging die, and an upper support having an inwardly inclined surface formed on an outer surface of the die is joined to a die bushing separated from a lower support, The upper and lower supports are integrally joined by heating and pressing after the concave grooves are in contact with the projections of the dies so that the separation of the dies from the die bushings does not occur and the dies are mounted on the mold inlets, It is possible to prevent the phenomenon that the die is separated and separated by the die bushing due to the impact of the forming punch, and the smooth forging molding operation can be performed.

1 is a cross-sectional view of a cold forging die equipped with a die of the present invention;
Fig. 2: In the state of Fig. 1, the material is pressurized with a punch,
Fig. 3: State in which the die bushing and the die of the present invention are joined to the inlet of the cold forging die
4 is a cross-sectional view of a die and a die bushing of the present invention.
5: decomposition state diagram of Fig. 4
6 is a cross-sectional view of the die bushing of the present invention.

Hereinafter, embodiments of a die for a cold forging die to be provided in the present invention will be described in detail with reference to the accompanying drawings.

The structure of the cold forging mold 10 generally includes an insert 50 having an engaging hole 41 formed on the inner surface of the outer case 40 and having an insert molding hole 51 formed in the engaging hole 41, A die 20 having a forming hole 21 formed in an inlet portion 42 formed on the front surface of the insert 50 and a die 20 supporting the die 20, The bushing 30 is coupled.

FIG. 1 is a sectional view of a cold forging die 10 to which the present invention is applied. FIG. 1 is a sectional view of a die for cold forging 10 according to the present invention. The die bushing 30 for buffering the impact pressure of the press punch (not shown) applied to the die 20 can be firmly held while supporting the die 20, so that the forging operation using the cold forging die 10 It is possible to prevent the die 20 from being separated from the die bushing 30 due to the impact pressure of the successive pressing punches, thereby enabling smooth forging molding.

The structure and the coupling structure of the die 20 and the die bushing 30 will be described in detail.

First, the structure of the die 20 will be described.

A protrusion 22 is formed at the center of the outer surface of the die 20 and a protrusion 22 is formed on both sides of the protrusion 22 as an inward inclined surface 23 So that the center protruding portion 22 has a large outer diameter and both ends have a small outer diameter.

The die bushing 30 coupled to the outer surface of the die 20 is divided into an upper support 31 and a lower support 31 '. Upper and lower bonding portions 32 and 32' are formed on the inner surfaces of the upper and lower supports 31 and 31 ' The outwardly inclined faces 33 and 33 'are formed.

The outwardly inclined faces 33 and 33 'formed on the upper and lower supports 31 and 31' have the same inclination ratio as the inwardly inclined face 23 of the die 20.

The upper and lower supports 31 and 31 'are preheated and the upper and lower supports 31 and 31' are fitted to the upper and lower portions of the die 20, as shown in FIGS. 4 and 6, The upper and lower bonding portions 32 and 32 'of the upper and lower bonding portions 32 and 32' face the side of the protrusion 22 of the dice 20 in a state in which the upper and lower supports 31 ) 31 'are thermally bonded and fixed to the outer surface of the die 20 in an integrated manner.

The preheating temperature of the upper and lower supports 31 and 31 'is preheated to 450 to 600 ° C, the pressing force is maintained at about 10 to 30t, and the pressing time is maintained for about 10 to 30 seconds.

However, the preheating temperature, the pressing force, and the pressing time may be changed according to the working conditions.

When the thermal bonding of the die bushing 30 composed of the upper and lower support bodies 31 and 31 'is completed on the outer surface of the die 20, the joining portions of the upper and lower support bodies 31 and 31' The manufacture of the die 20 for a cold forging die to be provided by the invention is completed.

1, the dies 20 having the above-described structure are mounted on the inlet portion 42 formed on the front surface of the outer case 40 of the cold forging die 10 and used.

In the present invention, the die 20 and the insert 50 are made of cemented carbide, and the die bushing 30 and the insert bushing 60 are made of a tool steel SKD61.

The unexplained reference numeral 70 is a material.

The die 20 of the present invention having the above structure is mounted on the inlet portion 42 of the outer case 40 of the cold forging die 10 and the cold forging die 10 is mounted on a conventional forging machine, It is the same as in the prior art that the material 70 is positioned at the center front of the dies 20 and then pressed by the punch so that the material 70 is forged.

However, the dies 20 to be provided in the present invention can be used in a state where the die 20 is mounted on the die bushing 30 So that a smooth forging operation can be performed.

That is, the coupling structure of the die 20 and the die bushing 30 mounted at the inlet of the cold forging mold 10 forms a protrusion 22 at the center of the die 20 as shown in FIGS. 4 and 5, The upper and lower support members 31 and 31 'having the outwardly inclined faces 33 and 33' formed on the outer surface of the dice 20 constructed as described above are preheated and positioned So that the die bushing 30 is integrally joined to the die bushing 30, and the die bushing 30 supports the die 20.

The protrusion 22 of the die 20 and the inclined inner surface 23 of the die 20 are positioned on the inner surface of the die bushing 30 where the recessed portion 22 is formed, The dice 20 coupled to the inner surface of the die bushing 30 are not separated unless they are artificially cut through the die bushing 30 and the outwardly inclined surfaces 33 and 33 ' And maintains a solid state.

When the dies 20 and the die bushing 30 having the above-described structure are mounted on the inlet portion 42 of the cold forging die 10 and the material 70 supplied from one side is pushed by the punch, The dies 20 on which the projections 22 are formed are positioned in the die bushings 30 in which the recessed portions 34 are formed, It is possible to prevent the die bushing 30 and the dice 20 from being separated from each other by the repeated impact, so that a smooth forging operation can be performed.

The combined structure of the die 20 and the die bushing 30 used in the cold forging die 10 of the present invention can be applied not only to the cold forging die 10 but also to all of the die- Mold can be applied and used.

(10) - Cold Forging Mold (20) - Dice
(21) - molding hole (22) - projection
(23) - inwardly sloping surface (30) - die bushing
(31) - an upper support (31 ') - a lower support
(32) -phase bonding portion (32 ') -low bonding portion
(33) - Outwardly inclined face (33 ') - Outwardly inclined face
(34) - Inscribed part (40) - External case
(41) - engaging hole (42) - inlet part
(50) - insert (51) - insert molding hole
(60) - Insert bushing

Claims (2)

The dice 20 constitute a protrusion 22 at the center of the die 20 to be used in the inlet portion 42 of the outer case 40 constituting the cold forging die 10, The inner protrusion 22 is formed to have an outer diameter larger than the outer diameter of both side ends of the center protrusion 22 and the die bushing 30 is coupled to the outer surface of the die 20, , The die bushing 30 is divided into an upper support 31 and a lower support 31 'and the inner sides of the upper and lower supports 31 and 31' are formed on both sides of the upper and lower joints 32 and 32 ' The upper and lower supporting members 31 and 31 'are heated and then the upper and lower bonding portions 32 and 32' are fitted to both sides of the outer surface of the die 20 so that the dies 20 The upper and lower bonding portions 32 and 32 'are joined together at the protrusion 22 of the dice 20 so that the recessed portion 34 is formed The upper and lower support members 31 and 31 'are pressed and integrally joined to each other so that the dies 20 having the protrusions 22 formed therein are engaged and fixed in the die bushing 30 formed with the recessed portions 34 A die for cold forging die. The dies (20) according to claim 1, wherein the preheating temperature of the upper and lower supports (31) and (31 ') constituting the die bushing (30) is in a range of 450 to 600 ° C, the pressing time is 10 to 30 seconds, And the supports (31) and (31 ') are integrally heat-bonded to each other.

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