KR101149929B1 - A manufacturing device and method of the bush - Google Patents

Abstract

PURPOSE: An apparatus for maintaining a bushing material at the right angle and a bushing manufacturing method using the same are provided to maintain the internal and external sides of a cylindrical bushing material concentric, thereby reducing the failure rate of bushings. CONSTITUTION: An apparatus for maintaining a bushing material at the right angle comprises a finger(130), an arm(140), an elastic spring(150), and a driving control unit(160). The finger supports a bushing material(120) set on the upside of an upset forging die from both sides and is inserted into a groove(141) on one end of the arm. The elastic spring is connected between the groove and the rear side of the finger in order to elastically support the finger. The driving control unit operates the arm to support the bushing material from both sides.

Description

Bushing material squareness maintaining device and bushing manufacturing method using same {a manufacturing device and method of the bush}

The present invention relates to an apparatus for manufacturing a bushing used for the track of an orbital vehicle such as an excavator and the like, and more particularly, to a perpendicularity maintaining device for holding a material of the bushing to maintain a right angle. The present invention relates to a method of forming and manufacturing a bushing through a forging method.

In general, agricultural vehicles such as combines, construction vehicles such as excavators, bulldozers, etc. are equipped with a caterpillar track chain as a traveling device to facilitate movement even in a rough length or slope.

The trackless track chain has a structure in which several treks are connected to each other continuously and can be supported while driving.

As such, the treacheu provided in the heavy equipment is designed to withstand various loads such as tensile load and impact load depending on the driving environment.

Since the load acting on the trench is transferred to the pins connecting them and the bushing installed therein, the problem of increasing the durability and the load strength of the bushing has been the subject of many studies.

Such a bushing is formed in a hollow cylindrical shape so that the connecting pin can be inserted therein. That is, a hollow cylindrical bushing is disposed between the track links, and the connecting pins are mounted through the inside of the bushings and the holes formed in the left and right track links, and the left and right track links are interconnected by the connecting pins. .

Conventional bushing manufacturing method as described above consists of a cutting process, internal diameter drilling processing process, internal diameter finishing processing process, outer diameter and electric field tailoring process, heat treatment process, outer diameter polishing process and the like.

As described above, it can be seen that the conventional bushing processing is performed by cutting. However, according to the conventional bushing manufacturing method as described above, the inner diameter of the bushing is processed by the drill bar, the process time is consumed a lot during the process, there is a problem that the productivity is lowered.

In addition, when the inner diameter of the bushing is drilled, a lot of scrap is generated, which causes a large loss of material, which leads to a high consumption of material costs, and a very low material recovery rate for the finished product.

Conventionally, the "cylindrical bushing manufacturing apparatus" of the Patent No. 10-0596195, a bushing manufacturing apparatus using a hot forging to solve the above problems, and the "Treklink Bushing for Heavy Equipment" Manufacturing methods "are known.

The "cylindrical bushing manufacturing apparatus" of Korean Patent No. 10-0596195 is fixed to a press apparatus, and is supported by a press apparatus and is moved up and down by a press apparatus. An upper die elastically supported downward by a spring interposed therebetween, the upper die having a cylindrical space opened downwardly at a central portion thereof; An upper mold fixed to the upper holder in the cylindrical space of the upper die and having an upper punch configured to pressurize a material; a lower die fixed to a lower portion of the upper die and having a cylindrical space open upward; A lower mold provided in the cylindrical space of the lower die and having a lower punch in contact with the bottom of the material; and a lower holder for fixing the lower mold to a press device corresponding to the lower portion of the upper mold, wherein the upper die and the lower die In the state where the die is in close contact, the cylindrical bushing is manufactured by forging to pressurize the heated material while the upper punch is lowered.

In addition, Patent No. 10-0619226 "Method of manufacturing a trek link bushing for heavy equipment" is a cylindrical bushing is manufactured through a cutting process, heating process, extrusion process, piercing process, heat treatment process, surface treatment process, outer diameter sizing process.

As shown in FIG. 5, the conventional cylindrical bushing manufacturing apparatus 50 includes a mold apparatus 52 accommodating a bushing material 51 and the bushing material 51 housed inside the mold apparatus 52. The cylindrical bushing is manufactured through a forging process in which the upper punch 53 and the lower punch 54 are pressed at the upper and lower portions thereof.

KR 10-0596195 (registration number) 2006.06.26. KR 10-0619226 (registration number) 2006.08.25. KR 10-2008-0084061 (publication number) 2008.09.19.

However, in the apparatus and method for manufacturing a conventional cylindrical bushing, when the bushing material is cut into a mold and manufactured by pressing forging using an upper punch and a lower punch, the verticality of the bushing cutting material is not constant. There is a problem that the defective rate of the molding work through the forging operation is produced because a large amount of products with poor inner and outer concentricity of the cylindrical bushing is produced.

Accordingly, the present invention has been made to solve the conventional problems as described above, the support finger that can support the bushing material and the elastic means to support the support finger elastically and the arm to install them Comprising a cross-sectional right angle maintaining device of the bushing material consisting of, and upset forging the bushing material in the upsetting die through the retaining device and storing it in the mold forging molding to reduce the defective rate significantly It is an object of the present invention to provide a retaining device and a bushing manufacturing method using the same.

The present invention for achieving the above object is to replace the material cut to manufacture a bushing on the upper surface of the upset forging die so that the cross section of the material to be perpendicular to the upper surface of the upset forging die on both sides thereof In the bushing material squareness maintaining device that supports the pressure,

A finger that enables pressing the bushing cutting material placed on the upper surface of the upset forging die on both sides thereof, an arm having a groove formed at an end to insert and fix the finger, and an arm once. Is connected to the groove surface and the other end is connected to the rear portion of the finger is fixed to the elastic spring so as to elastically support the finger, and the bushing cutting material which is in between there by operating the arm and both sides Characterized in that consisting of a drive control unit for supporting the pressure in the.

In addition, the rod-shaped bushing cutting material is heated, and the heated bushing cutting material is housed in a mold device having an upper mold and a lower mold, and is subjected to an extrusion process and subjected to a post-treatment process of a heat treatment process and a surface treatment process. In the method for manufacturing the bushing used for the treacheu of

A bushing material cutting process step of cutting rod-shaped raw materials into sizes required for bushing manufacturing; A bushing material heating step of heating the cut bushing material using a heating means; A finger that enables pressing the bushing cutting material on the upper surface of the upset forging die on both sides thereof, an arm having a groove formed at an end to insert and fix the finger, and one end The spring is connected to the groove surface and the other end is connected to the rear portion of the finger is fixed to the elastic spring to elastically support and support the finger, and the bushing cutting material which is in between there by operating the arm on both sides The bushing material is placed on the upsetting die by using the drive control unit to pressurize and supported by the bushing material squareness maintaining device. Bushing material in-situ molding process step; A front and rear extrusion molding step of receiving the bushing material having a right angle formed in the mold apparatus and forging the front and rear sides; Piercing the extruded bushing material; Characterized in that it consists of a post-treatment step of performing a heat treatment and surface treatment of the pierced bushing material.

Bushing material right angle maintaining device according to the present invention and a bushing manufactured according to the bushing manufacturing method using the same in the state of elastically holding the material cut by using the right angle maintaining device on the upper surface of the upsetting die through a pre-forging process By performing upset forging, the cross section of the bushing material is formed by forging by forming the cross section at a right angle, and the cross section of the bushing material is at right angle, and concentricity of the inner and outer diameters is uniformly maintained during cylindrical forging. As a result, the defective rate of the bushings can be drastically reduced, thereby improving economic efficiency.

1 is a schematic cross-sectional view of a bushing material perpendicularity maintaining device according to the present invention,
Figure 2 is a schematic use state diagram for upset forging while maintaining the perpendicularity of the material on the upper surface of the upset die using the bushing material perpendicularity maintaining device according to the present invention,
3 is a process chart showing a process of manufacturing a bushing using a bushing material perpendicularity maintaining device according to the present invention,
4 is a shape deformation diagram of a bushing manufactured according to a method of manufacturing a bushing using a bushing material perpendicularity maintaining device according to the present invention;
FIG. 5 is a schematic state diagram of a bushing manufactured according to the forging method using a conventional apparatus. FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

Bushing material squareness maintaining device 100 according to the present invention, as shown in Figure 1 to 2,

A finger 130 (FINGER) capable of pressing and supporting the bushing cutting material 120 having poor perpendicularity to the cutting surface placed on the upper surface of the upset forging die 110 at both sides thereof,

An arm 140 (ARM) having a groove 141 formed at an end thereof so that the finger 130 can be inserted and fixed thereto;

One end is fixed to the groove 141 surface and the other end is connected to the rear portion of the finger 130 is fixed to the elastic spring 150 so as to elastically support the finger 130,

It is composed of a drive control unit 160 to operate the arm 140 to support the bushing cutting material 120, which is in between the pressing between the two sides.

In addition, an elastic space S is formed on the rear surface of the finger 130 to form a free space so that the finger 130 may be elastically operated by the elastic spring 150.

In addition, the front portion of the finger 130 has a structure that becomes a V-shape so that the rod-shaped bushing cutting material 120 can be pressed in line contact.

In addition, the finger 130 is fastened to the end side of the arm 140 using the fastening bolt means 132 to the fixing protrusion 131 provided on the upper and lower parts.

And the arm 140 is provided with a long groove 142 through which the fastening bolt means 132 is formed, the finger 130 is the elastic spring 150 by the range of the elastic space portion (S) It can be moved elastically within.

The bushing material perpendicularity maintaining device 100 configured as described above operates the arm 140 through the drive control unit 160 while placing the bushing cutting material 120 on the upper surface of the upset forging die 110. The bushing cutting material 120 is pressed to support both sides thereof.

At this time, the cross section of the bushing cutting material 120 can maintain the right angle at the upper surface of the upset forging die (110).

Subsequently, when the upset forging is performed by applying a force to the upper surface of the bushing cutting material 120, the bushing cutting material 120 is shown in FIG. As the degree is formed, it is possible to hold it at the time of forging and to arrange it in the correct position.

After the upset forging is performed on the bushing cutting material 120 subjected to the heating process as described above, the bushing, which is completed through the extrusion molding process by being housed in a general mold device including an upper mold and a lower mold, can maintain its concentricity of its inner and outer diameters. Therefore, the defective rate can be dramatically reduced.

Herein, the process of performing upset forging on the bushing cutting material 120 which has undergone the heating process is called an in-situ molding process.

The extrusion process is a process of manufacturing a cylindrical material by forging a rod-shaped material by using a mold, and then a piercing process of removing the connection part formed on the intermediate part inside the cylindrical material is performed.

The bushing is then completed through the necessary heat treatment and surface treatment.

As described above, the bushing manufactured according to the bushing material right angle maintaining device and the bushing manufacturing method using the same according to the present invention burnt the material cut by using the right angle maintaining device on the upper surface of the upsetting die through a preliminary forging process. By performing upset forging in the state of grabbing, the cross section is formed at right angle, and then it is stored in the mold and forged, so that the cross section of the bushing material is made vertical and thus the concentricity of the inner and outer diameters is uniform during cylindrical forging. As a result, the defect rate of the bushing can be drastically reduced, thereby improving economic efficiency.

100: bushing material squareness maintaining device
110: upset forging die 120: bushing cutting material
130: finger 131: fixing protrusion 132: fastening bolt means
140: arm 141: groove 143: long groove
150: elastic spring
160: drive control unit

Claims (5)

The bushing material perpendicularity is maintained by pressing the cut material to manufacture the bushing on the upper surface of the upset forging die so that the cross section of the material is perpendicular to the upper surface of the upset forging die. In the apparatus,
A finger (FINGER) to be able to pressurize the bushing cutting material on the upper surface of the upset forging die on both sides thereof;
An arm having a groove formed at an end thereof so that the finger can be inserted and fixed;
One end is fixed to the groove surface and the other end is connected to the rear portion of the finger fixed to the elastic spring so as to elastically support the finger;
Bushing material right angle maintaining device, characterized in that consisting of a drive control unit for operating the arm to support the bushing cutting material is sandwiched between the pressing on both sides.
The method of claim 1,
Bushing material right angle retention device, characterized in that formed on the back portion of the finger is formed an elastic space portion forming a free space so that the finger is elastically operated by the elastic spring.
The method of claim 2,
The front portion of the finger is formed in a V-shape so that the rod-shaped bushing cutting material can be pressed in line contact, and the upper and lower portions of the finger is provided with a fixing projection to be fastened to the arm by a fastening bolt means Bushing material right angle maintenance device, characterized in that made.
The method of claim 3,
The arm has a bushing material orthogonality holding device, characterized in that the finger is provided with a long groove through which the fastening bolt means penetrates in the range of the elastic space by the elastic spring.
Trek of heavy equipment through the process of heating the rod-shaped bushing cutting material and the heated bushing cutting material inside the mold device of the upper mold and the lower mold, and through the extrusion process after the heat treatment process and the surface treatment process. In the method of manufacturing the bushing used for the shoe,
A bushing material cutting process step of cutting rod-shaped raw materials into sizes required for bushing manufacturing;
A bushing material heating step of heating the cut bushing material using a heating means;
A finger that enables pressing the bushing cutting material on the upper surface of the upset forging die on both sides thereof, an arm having a groove formed at an end to insert and fix the finger, and one end The spring is connected to the groove surface and the other end is connected to the rear portion of the finger is fixed to the elastic spring to elastically support and support the finger, and the bushing cutting material which is in between there by operating the arm on both sides The bushing material is placed on the upsetting die by using the drive control unit to pressurize and supported by the bushing material squareness maintaining device. Bushing material in-situ molding process step;
A front and rear extrusion molding step of receiving the bushing material having a right angle formed in the mold apparatus and forging the front and rear sides;
Piercing the extruded bushing material;
And a post-treatment step of subjecting the pierced bushing material to heat treatment and surface treatment.

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