KR940008701B1 - Tie bolt manufacturing die and tie bolt manufacturing method - Google Patents

Abstract

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Description

Tie bolt manufacturing die and tie bolt manufacturing method

1 is a longitudinal sectional view of a die for manufacturing a tie bolt according to the present invention.

2 is a longitudinal sectional view of a tie bolt sleeve for use in the present invention.

3 is a schematic view for explaining a tie bolt manufacturing method according to the present invention.

4 is a plan view of a tie bolt manufactured by the present invention.

* Explanation of symbols for main parts of the drawings

1: die 2: extrusion die part

3: bend prevention die part 4: die support part

5: sleeve 7: PC strand

8: compression press

The present invention relates to a die for making a tie bolt and a method for making a tie bolt.

Tie bolts are made by pressing high-strength sleeves on both ends or one end of high-strength PC strands used for fixing, moving and assembling civil structures requiring high loads and high tensile strength of concrete structures or steel structures. It is possible to fasten.

Conventionally, such tie bolts are manufactured by inserting a sleeve at both ends or at one end of a PC strand into a die as described in Japanese Patent Application Laid-Open No. 50-14810 and extruding it with a die to form a thread on the shrunken sleeve. However, in this method, the die used had a hollow extrusion hole with an outwardly inclined surface and a cylindrical surface, and since the surface of the sleeve used was a slippery surface, the sleeve contracted in the inclined surface adhered to the cylindrical surface, that is, Occasionally there was a case of heat sticking. In order to prevent this, extrusion was performed after applying an appropriate lubricant on the sleeve, but the same result was obtained by the heat generated during extrusion as the lubricant on the sleeve leaked in the opposite direction to the extrusion direction on the inclined and cylindrical surfaces. In addition, during extrusion, deformation occurred in the sleeve squeezed by the extrusion force and by the high heat of extrusion, which was not compressed to the PC strands with a uniform thickness, but also caused the warp in the formed tie bolt portion. In such a case, the machining of threads on the sleeve requires a separate process to correct such warpage and, due to the non-uniform crimped sleeve, has a significant effect on the tensile strength of the machined tie bolts as well as the difficulty of threading.

Accordingly, it is an object of the present invention to overcome the above drawbacks and to prevent the bending of a crimped sleeve during extrusion and to provide a suitable lubricating surface between the sleeve and the die so as not to be thermally bonded to the die. A die for manufacturing is provided.

These objects and advantages of the present invention will be clearly understood by the best embodiments of the present invention described below according to the accompanying drawings.

1 shows a tie bolt manufacturing die 1 according to the invention. The die 1 is composed of three ring-shaped portions, that is, the extrusion die portion 2 and the anti-bending die portion 3, and the die support portion 4 supporting the extrusion and anti-bending die portions 2,3. do. The extrusion die portion 2 is composed of a first inclined portion 2a and a second inclined portion 2b, and the first inclined portion 2a is configured to open out of the die 1 at a small inclination angle. Since the two inclined portions 2b are opened at an inclination angle larger than the inclination angle of the first inclined portion 2a in the opposite direction, the sleeve 5 is pulled straight out of the anti-bending die portion 3 without bending or twisting. Come out. The anti-bending die portion 3 and the die supporting portion 4 form a step at the point 3a so that the die supporting portion 4 supports the extrusion die portion 2 and the anti-bending die portion 3 during extrusion. have.

Referring again to the conventional tie bolt manufacturing die, the conventional tie bolt manufacturing die is a single shape as shown in Japanese Patent Application Laid-Open No. 50-14810, and the second inclined portion of the extrusion die portion 2 of the present invention ( 2a) is not provided. That is, it has the 2nd part which consists of the same internal diameter at the apex of the extrusion die part 2. As shown in FIG. In this case, when the compressed sleeve is extruded, the second part may be heat-bonded by frictional heat between the die and the sleeve, and warpage may occur in the sleeve exiting the die. However, the die 1 of the present invention does not lower the extrusion force of the extrusion press 8 (Fig. 3) because the friction is small even if there is no friction or occurs between the sleeve 5 and the anti-bending die portion 3. . Therefore, it is possible to miniaturize the extrusion press 8. In addition, in this invention, the length of the warpage prevention die | dye part 3 of this invention was comprised about 2 times larger than the same inner diameter part of the conventional extrusion die | dye. Therefore, it is possible to easily prevent the occurrence of warpage in the extruded sleeve 5 without making a large change in the extrusion force.

2 shows a sleeve 5 used in the present invention. The sleeve 5 is a steel tube of the same material and the same shape as the sleeve used for a conventional tie bolt, but a series of uneven parts 6 are formed on the entire surface thereof. Normally, the lubricant is applied to the surface of the sleeve 5 when the sleeve is to be pressed against the PC strand, but the conventional uneven surface sleeve does not form an appropriate lubrication surface because the surface lubricant is pushed out of the die during extrusion. . Thus, a thermal adhesion phenomenon due to frictional heat between the die and the sleeve occurs. However, in the case of the sleeve 5 of the present invention, the height of the uneven portion 6 decreases at the time of extrusion, but since the uneven portion 6 continuously contains a lubricant, and an appropriate lubrication surface is provided, the heat sticking phenomenon at the time of extrusion Not only does this occur but the extrusion can be done very easily. As already mentioned, the outer diameter D4 of the sleeve 5 is equal to or slightly smaller than the inner diameter D1 of the anti-bending die portion 3, and the inner diameter D4 is slightly smaller than the outer diameter D6 of the PC strand of FIG. 3. Big. The uneven portion 6 is usually processed by a screw type, but can also be processed by other methods.

3 schematically shows how a tie bolt is manufactured using the die 1 and sleeve 5 according to the invention.

This method first provides a sleeve 5 having an inner diameter D5 slightly larger than the outer diameter D6 of the PC strand 7 as shown in FIG. 2 and the uneven portion 6 on the entire surface of the sleeve 5. ). After that, the PC stranded wire 7 is fitted to the sleeve 5 and an appropriate lubricant is applied on the uneven portion 6. Inserting the PC strand 7 through the die 1 and extruding the sleeve 5 with the extrusion press 8, the sleeve 5 is the first inclined portion 2a of FIG. 1 as shown in FIG. It is pressed to the PC strand (7) through. The sleeve 5 passing through the first inclined portion 2a is slightly expanded in the second inclined portion 2b, but the outer diameter of the inflated sleeve 5 is equal to the inner diameter D1 of the anti-bending die portion 2b or Since it is small, it exits the bending prevention die part 2b without other deformation | transformation. When the sleeve 5 is extruded from the first inclined portion 2a, the uneven portion 6 of the surface of the sleeve 5 is also compressed, but the surface itself does not become a slippery surface and a small uneven portion is formed and the lubricant is stored therein. It will exit the die 1. Thus, since the surface of the sleeve 5 to be extruded is always formed with a lubricating surface, work is performed without being in thermal contact with the die 1 and the sleeve 5.

4 shows a sleeve 5 according to the method. The compressed sleeve 5 is formed in a straight line without bending, so that the thickness of the sleeve 5 around the PC strand 7 can be made uniform. Therefore, when machining the thread on the sleeve 5, not only the processing is easy but also the required tensile strength of the sleeve 5 can be maintained.

The die for manufacturing a tie bolt of the present invention makes the length of the first inclined portion 2a about 1/2 and the length of the anti-bending die portion 3 about 2 to 3 times as compared with the conventional die. However, since the extrusion prevention operation is not performed in the warpage prevention die portion 3, the extrusion force is generally reduced by about 50% compared with the conventional case. In addition, since the lubrication surface can always be maintained by the uneven portion 6 of the sleeve 5, the lubrication and cooling effects are increased by the action of the air and the lubricant, so the frictional force is reduced, and in the conventional case, about 30 Although a defective rate of more than% occurred, in the case of the present invention, it was possible to completely eliminate the occurrence of defects. In addition, by eliminating the separate process for correcting the warp and the outer diameter processing of the sleeve for the processing of the sleeve extruded with a non-uniform thickness, the efficiency can be improved by about four times, and the material cost of the sleeve can be reduced by about 30%. Could.

Claims (3)

In the die for producing a tie bolt, an extrusion die part 2 having a first inclined portion 2a and a second inclined portion 2b, and a vertex of the first inclined portion 2a and a second inclined portion 2b. And a die support portion (4) for supporting the extrusion die portion (2) and the bending prevention die portion (3) having an inner diameter (D1) slightly larger than the inner diameter (D2). A die for producing a tie bolt, characterized in that. A step of providing the sleeve 5, a step of inserting the PC strand 7 into the sleeve 5, a lubricant applied to the sleeve 5 into which the PC strand 7 is inserted, and an extrusion press 8 In the method for manufacturing a tie bolt comprising a step of extruding through a die 4 through a die 4 and a step of machining a thread on the extruded sleeve 5, the step of providing a sleeve 5 is performed on the sleeve 5. A die for manufacturing a tie bolt, comprising a step of providing the uneven portion 6 in the groove. 3. The die (1) according to claim 2, wherein the die (1) comprises an extrusion die portion (2), an anti-bending die portion (3) and a die support portion (4), wherein the extrusion process is carried out through the anti-bending die portion (3). A method for producing a tie bolt, comprising the step of preventing and correcting warping of the sleeve (5) by extruding (5).