KR100698832B1 - Holder - Google Patents

Abstract

A holder for controlling a wire tension of a wire discharge fabrication device is provided to lengthen the lifespan of a tool and a device by securing high insulation effect by constructing a surface forming a fine hole of a body with a diamond sintering material. A holder for controlling a wire tension is installed on a wire discharge fabrication device to maintain the wire tension uniform by holding and guiding a wire(1) continuously supplied to a wire discharge fabricating device in at least several points. The holder includes a body, a ceramic insulating member, a diamond sintering material(30), and an alloy powder sintering material(35). The body is made of metal and a fine hole(11) is formed on the central portion of the body to pass the wire. A guide groove is formed at the ceramic insulating material to be communicated with the fine hole in order to guide the wire toward the fine hole. The alloy powder sintering material is prepared for fixing the diamond sintering material to the body.

Description

Holder for adjusting wire tension of wire electric discharge machining equipment {Holder}

1 is a perspective view showing a holder according to the present invention;

2 is a partially exploded perspective view showing a detailed configuration of a holder according to the present invention;

3 is a cross-sectional view illustrating a state in which a wire is guided by a holder according to the present invention;

4 is a front view illustrating a structure in which a holder according to the present invention is fixed to a wire electric discharge machining apparatus.

<Description of the symbols for the main parts of the drawings>

1: wire 9: wire electric discharge machine

10,10a, 10b: Body 11: Microhole

15a, 15b: coupling hole 17a: fitting portion

17b: fitting groove 20,20a, 20b: ceramic insulator

21: guide groove 30: diamond sintered body

31: contact portion 35: alloy powder sintered body

50a: first member 50b: second member

50: holder

The present invention relates to a holder for adjusting wire tension of a wire electric discharge machining apparatus, and more particularly, both the upper portion of a body through which an initial wire penetrates and a surface forming a micro hole of a body through which the wire penetrates and contacts a high insulation material. It can be formed into, so as to achieve complete electrical insulation with the wire going through, and the surface forming the micro holes of the body is composed of a diamond sintered body to maintain a high insulation effect and at the same time improve the wear resistance of the device and apparatus The present invention relates to a holder for adjusting wire tension of a wire discharge machining apparatus capable of maximizing a lifetime.

In general, a wire discharge processing apparatus opposes a wire electrode to a workpiece (mould, etc.) through a small gap, and generates a pulse-like discharge repeatedly between the workpiece and a continuously supplied wire electrode. The workpiece is cut by energy. As the wire electrode of the wire discharge machining, a very thin brass metal wire having a diameter of about 0.03 to 0.1 mm is usually used.

One of the important factors in such an electric discharge machining apparatus is maintaining the tension of the wire. In other words, it is possible to process the desired shape only when the tension of the wire continuously supplied by the roller or the like during processing is kept constant.

Thus, in the past, a holder fixed to a processing apparatus was used, and the holder was configured to maintain the tension of the wire by simultaneously guiding the wire to be supplied at two or more points.

By the way, the following problems occurred in the conventional configuration for adjusting the tension of the wire using the holder as described above.

First, in the process of passing the wire through the holder, or after the penetration, electrical insulation is not secured, so that discharge or short phenomenon occurs frequently between the wire and the holder.

Second, the holder is easily worn by repeated contact with the wire which is continuously supplied, and accordingly, the gap of the gap (Gap) through which the wire penetrates or the diameter of the hole is varied so that the holder holds the function (wire). Joo did not) and had a life expectancy below expectations.

The present invention has been made to solve the above problems, the object of the present invention is that both the upper portion of the body through which the wire is first penetrated and the surface forming the micro holes of the body through which the wire is in contact with the high insulation material It is to provide a holder for the wire tension control of the wire discharge processing apparatus capable of forming a complete electrical insulation with the wire going through.

In addition, another object of the present invention is the wire tension of the wire discharge processing apparatus that can maximize the life of the device and apparatus by improving the wear resistance while maintaining a high insulation effect is made of a diamond sintered surface of the body made of a fine hole An adjustment holder is provided.

The present invention for achieving the above object is to at least a plurality of points while at the same time to guide the wire continuously supplied to the wire discharge machining device to maintain a constant tension of the wire to the mutual height difference in the processing device A holder which is installed and left, comprising: a body having micro holes through which the wire is formed; A ceramic insulator coupled to an upper portion of the body and having a guide groove of a light beam narrowing in communication with the micro holes to guide the wire to the micro holes; A diamond sintered body configured to form a surface forming a micro hole of the body, wherein the diamond sintered body is formed in a curved shape on the top and bottom sides of a contact portion having a shortest inner diameter by being raised to hold the wire; An alloy powder sintered body in which the diamond sintered body is sintered and bonded to the body at the same time as the diamond sintered body is sintered at a high temperature to fix the diamond sintered body to the body; Characterized in that configured to include.

The present invention having such a feature will be more clearly described through the preferred embodiment accordingly.

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

1 is a perspective view showing a holder according to the present invention, Figure 2 is a partially exploded perspective view showing a detailed configuration of the holder according to the present invention, Figure 3 is a cross-sectional view illustrating a state in which the wire is guided by the holder according to the present invention 4 is a front view illustrating a structure in which a holder according to the present invention is fixed to a wire electric discharge machining apparatus.

As shown,

The holder 50 according to the present invention is to hold the wire (1) continuously supplied to the wire discharge processing apparatus 9 at least at a plurality of points at the same time to guide the wire (1) to maintain a constant tension of the wire (1) It is installed in the processing equipment.

The holder 50 includes a body 10, a ceramic insulator 20, a diamond sintered body 30, and an alloy powder sintered body 35.

The body 10 is made of a metal material, the center portion is formed with a fine hole 11 through which the wire 1 penetrates.

The ceramic insulator 20 of the body 10 to insulate the body 10 to prevent electrical short phenomenon, such as when the wire 1 enters into the fine hole 11 of the body 10. It is coupled to the upper, in this case, the ceramic insulator 20 is formed with a guide groove 21 of the upper and lower narrow communication in communication with the micro holes 11 to guide the wire 1 toward the micro holes 11 side. .

The diamond sintered body 30 is configured in the body 10 to form a surface constituting the micro holes 11 of the body 10. The diamond sintered body 30 is formed with a contact portion 31 whose surface is raised to hold the wire 1. Therefore, the diamond sintered body 30 has the shortest inner diameter at the contact portion 31, and the upper and lower sides of the diamond sintered body 30 are formed in a curved shape to prevent the wire 1 from interfering with each other. Do it.

The alloy powder sintered body 35 is provided to fix the diamond sintered body 30 to the body 10, wherein the diamond sintered body 30 is sintered and bonded at a high temperature at the inside thereof, and the outer side of the body 10 Is bonded).

Holder 50 as described above is made of a plurality of members are separated.

That is, the holder 50 is composed of a first member 50a and a second member 50b, wherein the first member 50a and the second member 50b are the body of the holder 50. 10) and the ceramic insulator 20 are bisected to have separate (separated) bodies 10a, 10b and ceramic insulators 20a, 20b, respectively.

The first member 50a and the second member 50b are precisely divided based on the centers of the above-described fine holes 11 and the guide grooves 21. When the first member 50a and the second member 50b are mounted on the processing apparatus 9, the first member The 50a and the second member 50b are fixed to the processing apparatus 9 through coupling holes 15a and 15b which are formed so as to extend from the body 10 to the ceramic insulator 20.

At this time, the first member 50a and the second member 50b face each other, and the fitting groove 17a formed in the first member 50a is formed in the second member 50b. 17b), the mutually opposing sides (facing sides) are in surface contact.

In the fitting portion 17a, the width of the first member 50a becomes narrower toward the end side, and the fitting groove 17b is formed to have a shape corresponding to the fitting portion 17a.

According to the configuration described above, the first wire 1 is introduced to the micro-hole 11 side of the body 10 in a state where the insulation is secured through the ceramic insulator 20 and the guide groove 21 formed therein. In addition, the diamond sintered body 30 is bonded to the surface constituting the micro holes 11 of the body 10 so that the diamond sintered body 30 substantially holds the wire 1. Here, as the diamond sintered body 30 has high strength and wear resistance, the diamond sintered body 30 is not damaged even by repeated friction due to the progress of the wire 1, and the interval for holding the wire 1 is kept constant. In addition, the diamond sintered body 30 has a curved shape up and down about the contact portion 31 whose inner side is in contact with the wire 1 so that the guide wire 1 proceeds without interference.

In addition, the alloy powder sintered body 35 allows the diamond sintered body 30 to be more firmly fixed to the body 10, and minimizes the use of expensive materials (eg, diamond) forming the diamond sintered body 30. Do it.

As described above, the present invention is made so that both the upper portion of the body through which the wire is first penetrated and the surface forming the micro holes of the body through which the wire penetrates are formed of a highly insulating material, and the penetrating wire is formed. It has the effect of achieving perfect electrical isolation.

In addition, the present invention has the effect of maximizing the life of the device and the device by improving the wear resistance while maintaining a high insulation effect is composed of a diamond sintered body is a surface forming a micro hole of the body.

Claims (2)

The height difference between the processing apparatus 9 so as to hold the wire 1 continuously supplied to the wire discharge processing apparatus 9 at at least a plurality of points and guide the same to keep the tension of the wire 1 constant. In the holder 50 is installed with, A body 10 having fine holes 11 through which the wire 1 penetrates; A ceramic insulator 20 coupled to an upper portion of the body 10 and having a guide groove 21 of a light beam narrowing area communicating with the micro holes 11 to guide the wire 1 toward the micro holes 11. Wow; The body 10 is formed on the body 10 to form a surface forming the micro holes 11 of the body 10, and the surface is raised to hold the wire 1 so that the upper surface of the contact part 31 has the shortest inner diameter. Diamond sintered body 30 is formed in a curved form on the lower side; An alloy powder sintered body 35 in which the diamond sintered body 30 is sintered at a high temperature to be bonded to the body 10 and the outside thereof is bonded to the body 10 to fix the diamond sintered body 30 to the body 10; Holder for adjusting the wire tension of the wire discharge machining apparatus, characterized in that configured to include. The method of claim 1, The holder 50 is divided into the body 10 and the ceramic insulator 20 on the basis of a cutting plane crossing the center of the microhole 11 so that the bodies 10a and 10b and the ceramic insulators 20a and 20b respectively. It is made by separating the first member (50a) and the second member (50b) having an individual, The first and second members 50a and 50b face each other through coupling holes 15a and 15b formed to penetrate from the bodies 10a and 10b to the ceramic insulators 20a and 20b. 9), respectively, the first member 50a has a fitting portion 17a having a narrow width toward the end side, and the second member 50b has a shape corresponding to the fitting portion 17a. Holders for adjusting the wire tension of the wire discharge processing apparatus, characterized in that the fitting grooves (17b) are each formed so that the sides facing each other as the fitting portion (17a) is fitted in the fitting groove (17b).

Images