KR100335284B1 - Method for manufacturing titanium bolts by cold pressing - Google Patents

Abstract

PURPOSE: A method for manufacturing titanium bolts by cold pressing is provided to improve work efficiency and reliability and reduce cost by performing cold pressing so that only body diameter of the rods is less than the head diameter by hitting titanium rods having the same diameter as head diameter of bolts at an ordinary temperature. CONSTITUTION: In forming bolts having the head part by pressing rods having a certain length, the method for manufacturing titanium bolts by cold pressing comprises the processes of inserting a titanium rod into a support forming part(6) that is a first forming part and fixing the titanium rod thereinto so that the titanium rod is first pressing formed by a piston rod(8); secondly hitting the first formed titanium rod using a piston rod(8a) so that the tip of the titanium rod is sunk and pressed into a grooved part(10) formed on the piston rod(8a); and moving the titanium rod to a support forming part(6a) that is a second forming part by the piston rod(8a) in the state that the titanium rod is bitten by the piston rod(8a) so that the titanium rod is finally pressing formed by other piston rod(8b).

Description

Method for manufacturing titanium bolt by cold press

The present invention relates to a titanium bolt manufacturing method, and more particularly, to the titanium rod having the same diameter as the two diameters of the bolts at room temperature by performing a cold working by pressing so that only the body by the impact has a diameter smaller than the diameter of the working efficiency The present invention relates to a method of manufacturing titanium bolts by cold press which can improve the cost and reduce the cost and improve the reliability of the titanium bolts.

In the conventional method of manufacturing a hexagonal head bolt, the head is first molded and manufactured by forging (heating a metal at a constant temperature and applying a force), and the head is processed into six pieces by trimming or press molding, followed by rolling. The bolt is produced by forming the thread by operation (processing the thread while passing the thread to be machined between two rollers).

However, in the above known bolt manufacturing process, if you want to manufacture about 10Ø bolts, since the material is made of 9Ø bolts after rolling after using about 8Ø material, steel, brass, stainless steel with excellent toughness It is suitable for materials such as, and it is impossible to manufacture a hard material such as titanium in the same way.

Therefore, in the bolt manufacturing process of a material such as titanium, bolts are manufactured by hot processing (processing such as rolling forging at high temperature). Titanium rods are cut to be longer than the length of the bolt to be manufactured, and the titanium rods are mounted on the molding machine. Then, one end of the titanium rods is pressed with a press by applying high temperature heat to form a bolt head, and then the worker is processed. The bolt is formed by transferring the material to the next process.

At this time, since heating is possible only when the head is heated to a temperature of 300 ° C. or higher, there is a problem that the work efficiency decreases over time until cooling, after molding, as well as the work efficiency decreases as the heating time elapses. Because titanium bolts have excellent heat transfer, there is a problem that a change in characteristics may occur as the whole is heated.

In addition, due to the characteristics of the material during processing by hot working, it is necessary to cut titanium by cutting 35mm in diameter and 7ø in diameter for molding 8Ø × 20mm bolts, which leads to waste of material and expensive production cost due to the complexity of processing. There is this.

The present invention has been made to solve the above-mentioned conventional problems, the object of the present invention is to stretch while only the body portion is pressed by pressing the titanium rod shorter and shorter than the outer diameter of the body of the bolt to be processed. It has the outer diameter of the bolt to be produced and presses only the body part when pressurizing, so that the head part of the jaw bolt is formed at the tip, so that it can be cold pressed to obtain a standard bolt of 8ø × 20mm by pressurization by one stroke. To provide a method of manufacturing a titanium bolt.

According to the present invention, in forming a bolt having a head by pressing a rod having a predetermined length, the titanium rod is inserted into and fixed to a support molding portion, which is a primary molding portion, and is firstly molded by a piston rod, and then molded in the primary. The tip of the titanium rod is pressed into the groove formed in the piston rod by hitting the titanium rod secondaryly by the piston rod, and the titanium rod is supported as the secondary molded part by the piston rod in the state where the titanium rod is bitten by the piston rod. The rod is moved so that the titanium rod is finally press-formed by another piston rod.

1 is a schematic view of manufacturing a titanium bolt according to an embodiment of the present invention.

Figure 2 is a schematic diagram of a titanium bolt manufacturing apparatus according to an embodiment of the present invention.

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

2: titanium rod 6,6a: support molding

8,8a, 8b: piston rod 10: groove

12: Removal pin

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

Titanium bolt manufacturing method for carrying out the method of the present invention is cut to a certain length shorter than the total length of the bolt to be processed titanium rods in the round bar state that is larger than the diameter of the bolt to be processed and not larger than the diameter of the bolt Process of doing; Forming a trunk and a head by striking the cut titanium rod to be pressurized while only the corner is extended to fit the outer diameter of the corner of the bolt to be processed; Processing the head to have an angular shape by a second blow; The elongated body is manufactured by a process of forming a thread by rolling (also known as rolling).

In particular, the present invention in forming a bolt having a head by pressing a rod of a predetermined length,

After the titanium rod 2 is inserted into and fixed to the support molding portion 6, which is the primary molding portion, the primary rod is press-molded by the piston rod 8, and then the primary rod-shaped titanium rod 2 is mounted on the piston rod 8a. The tip of the titanium rod (2) is pressed into the groove (10) formed in the piston rod (8a) by hitting the secondary rod by the secondary, so that the titanium rod (2) is bitten by the piston rod (8a) It is basically characterized in that the piston rod 8a moves the titanium rod 2 to the support molding portion 6a which is the secondary molded part so that the titanium rod 2 is finally press-molded by the other piston rod 8b. do.

In this case, in order to pressurize the body to a predetermined length, the cut titanium rod 2 is fixed to a supporting molding part 6, 6a having the same function as the die for pressing. A plurality of piston rods 8, 8a, 8b for pressurizing the titanium rod 2, and apply force to the piston rods 8, 8a, 8b necessary for shaping the titanium rod 2 It consists of an operating part (not shown).

The support molding part 6 for holding and supporting the titanium rod 2 has a piston rod having a central portion having a tapered shape at the center thereof in order to compress and mold the outer circumferential surface of the titanium rod 2 to a predetermined length. (8) is configured such that the predetermined length is conduit by compression deformation of the titanium rod (2), and the inner diameter of another support molding portion (6a) formed to the lower side of the support molding portion (6) The square shape of the head is processed by pressurizing the titanium rod 2 secondly by constructing it slightly larger than the inner diameter of (6) and making the depth somewhat smaller.

In addition, the support molded part (6a) is the angle corresponding to the head of the bolt, that is, in the case of hexagon should be formed in the shape of the hexagonal bolt in the case of the hexagonal bolt in the case of four angles, of course, to the specification of the bolt Accordingly, the thickness of the support molding part 6a should be set to achieve the desired purpose.

In addition, a removal pin 12 that is axially movable by an operation of a cylinder is installed at the rear of the shaft tube 4 of the support molding part 6 and 6a to remove the pressurized and inserted titanium rod 2. Each of them is installed on a separate mounting table (not shown) and operated by hydraulic lights.

The piston rod 8 hitting the tip of the titanium rod 2 is made of a known press designed for forging, which can apply a force of about 15,000 tons so as to effectively pressurize the material of the titanium rod 2. To facilitate compression molding of the titanium rod (2).

Another piston rod (8a) formed on the lower side of the piston rod (8) is configured to apply the same force as the piston rod (8), but its tip is for processing the head of the bolt more effectively and materials The tip of the titanium rod 2 is inserted into the groove 10 by secondly hitting the titanium rod 2 primarily formed by the piston rod 8 to form the groove portion 10 for transport to the support molding portion 6a. Pressing while pressurizing the titanium rod 2 to the piston rod (8a) to move the piston rod (8a) to transfer the material to the support molding portion (6a).

A piston rod 8b is provided below the piston rod 8a to strike the titanium rod 2 inserted into the support molding portion 6a to finish the head of the bolt.

On the other hand, the piston rod (8) (8a) (8b) is fixed to the operating portion and axially moved in the X-axis and Y-axis to move the piston rod in the X-axis by the axial movement of the operating portion, Only the piston rods 8, 8a and 8b are moved in the direction of the supporting molding parts 6 and 6a to pressurize the titanium rods 2 so as to pressurize and transfer the titanium rods 2 to each other. do.

When explaining the operation and effect of the present invention configured as described above, the titanium rod cut by cutting the known titanium wound in the coil shape with a cutter pole, for example, the diameter of 12ø length 15mm in the manufacture of a standard 8Ø x 20mm bolt (2) Is transferred to the support molding part 6 and pressurized by the piston rod 8, according to the head shape and taper shape of the support molding part 6, as shown in FIG. As a result, the spiral length is 20mm and the outer diameter is 8.5mm.

In this way, when the titanium rod 2 processed first is pressurized with the piston rod 8a having the groove portion 10 formed at the distal end, the titanium rod 2 is immersed in the groove portion 10 and the outer diameter of the spiral portion 7.5 mm. The pressure is made to obtain, and when the piston rod (8a) is in place, the titanium rod (2) is bitten into the groove (10), so that the titanium rod (2) is removed from the support molding portion (6).

At this time, the pin 12 moving in the axial direction by the rear end hydraulic pressure or pneumatic pressure of the support molding part 6 moves to push the titanium rod 2 inserted into the support molding part 6, thereby interpolating the support molding part 6. Titanium rod (2) is easily pulled out and is correctly pinched by the piston rod (8a).

In this way, in the state in which the titanium rod 2 is bitten by the piston rod 8a, the actuator is axially moved in the X-axis direction, and then the piston rod 8a is positioned perpendicular to the support molding portion 6a. ) And the titanium rod 2 is inserted into the support molding portion 6a by moving in the Y-axis direction, and then the piston rod 8a is replaced and the piston rod 8b is larger in diameter than the head of the bolt. When the rod 2 is pressurized in the third order, the bolt head is processed in the state shown in FIG. 1, so that a bolt of 8Ø × 20 mm is obtained, and in this state, the supporting molded part 6a is moved by the axial movement of the removal pin 12. ) And remove the titanium rod (2) to perform the rolling.

Therefore, the titanium rod (2) is not subjected to any heat treatment, that is, the titanium can be processed by cold working, and by processing the processed titanium, the titanium bolt is completed.

When manufacturing the titanium bolt by cold method, if the outer diameter of the titanium rod is made of 8ø material and the head, that is, 15.2mm of the distance between the sides, the head part is broken due to the characteristics of the material. Is not manufactured by the cold method, and when using a slightly larger than the outer diameter of the bolt to process the outer diameter of the titanium rod there is a problem that can cause damage to the titanium rod during pressurization for pressurization.

As described above, according to the present invention, the titanium rod can be cold worked by cold rolling to provide a standard bolt, thereby improving work efficiency and improving the reliability of the bolt, as well as reducing the material cost. Titanium bolts can be provided, and titanium bolts, which depend on the total amount of imports, can be provided at a lower price, so that there is an advantage of replacing the imports.

Claims (1)

In pressing a rod of a predetermined length to form a bolt having a head, After the titanium rod 2 is inserted into and fixed to the support molding portion 6, which is the primary molding portion, the primary rod is press-molded by the piston rod 8, and then the primary rod-shaped titanium rod 2 is mounted on the piston rod 8a. The tip of the titanium rod (2) is joined and pressed into the groove portion (10) formed in the piston rod (8a) by a second strike by the second rod, and the titanium rod (2) is bitten by the piston rod (8a) Cold press, characterized in that the piston rod (8a) moves the titanium rod (2) to the support molding portion (6a), which is a secondary molding portion, and the titanium rod (2) is finally pressed by another piston rod (8b). Method for producing titanium bolts by