KR20170140499A - Method of reinforce mold - Google Patents

Abstract

The present invention relates to a method of reinforcing a mold which is made of aluminum or an alloy thereof. An objective of the present invention to provide a method of reinforcing aluminum or aluminum alloy mold which is capable of reducing damage and deformation of the mold although the mold is repeatedly used. A method of reinforcing the mold including a mold main body and mold wall bodies as an integral unit comprises including at least one insert in each of the mold wall bodies. The insert has a strength which is higher than that of material of the mold. Each of the inserts has the same height as the corresponding mold wall body in which the insert is located. Other method of reinforcing the mold comprises using a reinforcement wall body which is formed as a separation unit, wherein the reinforcement wall body is made of material having higher strength than that of the mold main body. The reinforcement wall body is coupled to the mold main body by a bond, welding, adhesion, or other appropriate units. Furthermore, the present invention comprises the mold manufactured by reinforcement according to the method.

Description

Method for reinforcing a mold

The present invention relates to a method of reinforcing a mold made of aluminum or an alloy thereof. More specifically, the present invention relates to a mold wall

A method of increasing the strength of the mold by using at least one insert in each of the molds

And a method for reinforcing a mold made of aluminum or an alloy thereof.

Molds made of aluminum or aluminum alloys are commonly used in the rubber molding industry. Some of these molds

There is an advantage. It is easy to mold and manufacture, and even if there is a complicated shape in the cavity of the mold, it is possible to mold and manufacture without difficulty. In addition

Molds made of aluminum, aluminum or aluminum alloys are relatively light due to their low density. Because of these advantages,

Reduce handling time and facilitate other related processes, making handling more convenient. Aluminum and its alloys are expensive raw materials

In addition to the advantages mentioned above, molds made of aluminum or its alloys are relatively non-toxic compared to molds made of other materials

The ease is less. However, aluminum or an alloy thereof as a mold has some disadvantages. Compared to iron or cast steel,

It is very ductile. Due to this ductility, deformation of the mold wall, mold body and mold cavity may occur due to repeated use.

All of which have some changes in the dimensional properties of the molded articles. Molds made of aluminum or its alloys are

There is a limit to the molding pressure because it has ductility.

Under such a problem, the present invention provides a method for reinforcing a mold made of aluminum or its alloy as a base material

Suggest a method.

An object of the present invention is to provide an aluminum or aluminum alloy mold which can reduce damage and deformation even by repeated use of a mold.

It is intended to provide a method of steel.

Another object of the present invention is to provide a method of manufacturing a metal mold which can prevent the deformation and damage of a mold wall,

And to provide a method of reinforcing the aluminum alloy mold.

It is another object of the present invention to provide an aluminum or aluminum alloy gold alloy capable of reducing damage and deformation even by repeated use of a mold.

Type.

It is still another object of the present invention to provide a method of manufacturing a metal mold, which is capable of increasing the service life of a mold by preventing deformation and damage of the mold wall,

To provide an aluminum alloy mold.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for reinforcing a metal mold made of aluminum or an alloy thereof and a mold manufactured according to the method. The mold

And a mold main body having a backing and a cavity, wherein the mold wall is extended from the end of the mold main body to the main plate

All. The bottom plate of the mold body and the bottom surface of the mold wall are the same height, and the mold back side faces are formed together. The mold wall

Is dependent on the dimension thickness of the component to be molded. The mold is attached to the molding press while its baffle surface contacts the lower table

All. The mold cavity contains a desired pattern on its surface, which can be a space or a shaped article

. The upper surface of the mold wall is engaged with the upper table at the time of molding. The molding pressure is a function of the mold-

It acts on the contact surface and the upper table. By repeated use, the contact surface of the mold wall is damaged and deformed to some extent. like this

So that the damage and deformation reaches a certain level, so that the allowable dimension of the molded product reaches its limit. Continuous mold

Use will further increase the number of defects in the molded article.

In the present invention, various methods for increasing the service life of the mold by preventing deformation and damage of the mold wall are suggested. Ha

My method is to insert one or more inserts into each mold wall to resist most of the pressure that occurs during molding.

Includes importing step. Such an insert is made of a material having a higher strength than the basic material of the mold. The insert

Pressed into holes drilled in the wall or pre-drilled in the mold wall and joined by reaction forces or pre-engraved in the holes of the mold wall

Screwed into the thread groove, or otherwise coupled to the mold wall by other suitable means. Each of these inserts is positioned

Has the same height as the height of the mold wall.

Another method is to connect the reinforcing wall to the mold body. The reinforced wall is made of a material having higher strength than the material of the mold body

Lt; / RTI > The reinforcing wall is joined to the mold body by a combination or adhesive or other suitable means.

INDUSTRIAL APPLICABILITY The present invention can reduce the damage and deformation of a mold by repeated use, reduce the number of defects in a molded product,

Reinforcing molds made of aluminum or its alloys that can increase the service life of the mold by preventing deformation and damage of the wall

And a mold that is manufactured according to the method.

Simple variations or modifications of the present invention may be readily utilized by those skilled in the art,

It will be appreciated that all modifications and variations are included in the scope of the present invention.

1 is a perspective view of a mold having an insert formed in a mold wall.
1A is a bottom view showing a back surface of a mold.
1B is a cross-sectional view of a mold cut along the line AA in Fig. 1A.
2 is a perspective view of a mold having an insert having a different shape in a mold wall.
3 is a perspective view of a mold in which an insert is fitted and fixed through a hole in a mold wall;
4 is a perspective view of a mold to which an insert is coupled to a screw groove formed in a hole of a mold wall.
4A is a sectional view taken along line BB of Fig.
Fig. 5 shows a structure in which a mold body and a reinforcing wall are separated from each other, and the reinforcing wall is made of a material having a higher strength
Fig. The reinforcing wall is attached to the mold body by the coupling body.
6 is a sectional view showing a state in which the mold body and the reinforcing wall are separated from each other,
Fig. The reinforcing wall is attached to the mold body by welding, gluing or other suitable means.

Fig. 1 shows a mold made of a mold main body having a blanket surface and a mold cavity 12. Fig. The inner side 14, the outer side 15,

The mold wall 13 having the surface 16 is located at both ends of the mold body 10 and is spaced apart from the mold surface. In this specific example,

Shaped wall 13 are shown, which are located on opposite sides of the mold body 10. Here, the mold body 10 and the mold wall

The body (13) is integrally formed. The flange 17, which extends along the entire length of the mold wall,

And is located at the lower side along the outer side surface 15. The lower surface of the flange 17 is of the same height as the blanket of the mold, and FIGS. 1 and 1A

The mold release surface 11 of the time stamping mold is formed together. The purpose of providing the flange 17 is to position and fix the mold on a molding machine

. The mold is attached to a lower table of a molding press in which the blanket surface (11) is in contact. The mold wall 13 has a height

And the height is determined by the dimensional needs of the product to be molded. Between the mold cavity 12 and the mold wall 13 in the molding process

Is empty or the molding is located. The lower table of the forming press then contacts the contact surface 16 of the mold wall 13

And until the upper table is pressed. Here, the contact surface 16 of the mold wall 13 has a certain degree of contact

Pressure is present. The values of these pressures depend on the material being molded and the molding process employed. In addition, the mold is usually in operation

Lt; / RTI > Repeated use causes the mold wall 13 to deform, in particular the contact surface 16, by deformation.

One of the methods of the present invention for reducing deformation of the mold wall 13 during molding is to provide at least

Include my insert. The insert has a higher strength than a body material of a material such as aluminum or an alloy thereof

It is made of material.

The insert also has a height substantially equal to the height of the mold wall on which it is located. In other words,

The side surface is exposed and is at the same height as the contact surface 16 of the mold wall surrounding it. The lower surface of the insert is exposed,

Is the same height as the bobbin face (11) of the mold surrounding the upper portion. Such an insert may be formed from a material that corresponds to the molding pressure that occurs during molding

It acts as a 'landlord'.

In the preferred embodiment of the mold 1 shown in Fig. 1, the plurality of inserts 18 are arranged in a predetermined position of the mold wall before the mold is molded,

It is located well. After the mold is molded, the insert 18 is coupled to a predetermined position. The mold 1 shown in Fig.

In the example, the insert 18 has a cylindrical shape with a circular cross section. In another embodiment of the mold 2 shown in Fig. 2,

Sectional area of a square. The plurality of inserts may have various shapes and are not limited to the two embodiments.

In another embodiment shown in Fig. 3, a plurality of inserts 20 are inserted after the mold 3 has been molded. In this case,

And is punched through the mold wall body 13 in its original position. Then, a large-sized insert 20 is pressed into the hole,

. As in the previous embodiment, each insert 20 has a height equal to the height of the mold wall in which it is located

All. In order to determine the reaction force between the insert and the hole drilled in the mold wall, the insert 20 and the thermal expansion of the mold base material

The window difference and the working temperature of the mold should be considered.

In another embodiment shown in Fig. 4, a plurality of inserts 21 are inserted after the mold 4 has been molded. Here, the vertical hole

And is pierced through the mold wall 13 in position. A screw groove is formed in the hole. A screw-shaped insert (21)

. As in the previous embodiment, each insert 21 is substantially equal in height to the height of the mold wall on which it is located

Height.

In another embodiment shown in Fig. 5, the mold 5 is made up of a plurality of units. This includes a mold body 6 including a blanket,

A cavity 23 and side walls 22 which together form a unit made of aluminum or an alloy thereof. The reinforced wall 7 is provided with the other unit

A material having a higher strength than that of the mold body 6 is used. In this embodiment,

The steel walls 7 are located at opposite sides of both sides of the mold body 6. The height of each reinforcing wall 7 is the height of the adjoining mold wall 6,

Is equal to or higher than the height of the side wall (22). Each reinforcing wall 7 has an L-shaped cross section, and the vertical plane 25 and the horizontal plane

Thereby forming the land 26. The outer surface of the vertical section 25 of each reinforcing wall 7 is connected to the outer surface of the adjacent side wall 22 of the mold body 6. [

Respectively. As shown in Fig. 5, each of the reinforcing wall bodies 7 is provided on the side wall 22 of the adjacent mold body 6,

As shown in FIG. The lower face of the flange 26 has the same height as the face plate of the mold body and forms the face plate of the entire mold together

. The blanket surface is placed on the lower table of the forming machine. The mold 5 is then placed in the flange 26 of the reinforced wall 7

Lt; / RTI > The reinforcing wall 7 of the mold 5 helps to resist the molding pressure of the high pressure in the molding process.

In another embodiment of the present invention, as shown in Fig. 6, the mold 8 includes a mold body 6 and a reinforcing wall 40,

It is similar in many ways to mold (5). The reinforcement wall 40 uses a material that is more durable than the material of the metal mold 9. However,

For the mold 8, the reinforcing wall 40 is attached to the mold body 9 by welding, gluing or other suitable means.

1, 2, 3, 4, 5: mold 6, 10: mold body
7, 40: reinforced wall member 11:
12, 23: mold cavity 13: mold wall
14: inner side 15: outer side
16: contact surface 17, 26, 30: flange
18, 19, 20, 21: insert 22, 27: side wall
24: Assembly 25: Vertical plane
40: reinforced wall

Claims (5)

Wherein the mold, the mold cavity and the mold wall are made of aluminum or an aluminum alloy,
A method of reinforcing a mold comprising:
Preparing a reinforced wall made of a material having high strength as compared with the material of the mold body, forming a separate unit; And
The height of the reinforcing wall being substantially equal to or greater than the adjacent wall of the mold to which the reinforcing wall is attached;
Wherein the step of reinforcing the metal mold comprises the steps of: The mold according to claim 1, characterized in that the reinforcing wall is attached to the mold wall of the mold body
. The mold according to claim 1, wherein the reinforcing wall is attached to the mold wall of the mold body by welding.
Reinforcement method. The method of claim 1, wherein the reinforcing wall is attached to the mold wall of the mold body by adhesion or other suitable means
Wherein said method comprises the steps of: In a mold made of a base material made of aluminum or an aluminum alloy,
Wherein the mold cavity and the mold wall are surrounded by one or more mold walls,
A mold main body for forming a groove;
Wherein the mold wall includes a cavity and an outer surface, at least one of the mold walls
And a reinforcing means including at least one separating unit located outside the mold wall,
The reinforcing member is formed of a material having a higher strength than that of the mold body,
And at least the same height.

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