KR0141054B1 - Device for tensing wire in prestressed concrete work - Google Patents

Abstract

When the prestressed concrete product is manufactured, when tensioning the steel wire injected into the product to increase the reinforcement of the product, it is possible to compensate for the length deviation of the steel wire so that a uniform tension force is applied to the steel wire. To a jig as a means of compensation. It is composed of a washer, adjusting member, variable member, and separation prevention means. It is installed at one end of the steel wire, and the length deviation compensation jig of steel wire can compensate the length according to the length deviation of the steel wire while adjusting the length manually. On technology.

Description

Length deviation compensation tool of steel wire when tension of concrete product

1 is a perspective view of one embodiment of the present invention.

2 is a plan view of one embodiment of the present invention.

3 and 4 are exploded perspective and cross-sectional view of the jig according to the present invention.

5 and 6 are exploded perspective views and cross-sectional views showing another embodiment of the jig according to the present invention.

7 and 8 is an illustration of a steel wire tensioning device of a conventional concrete product.

* Explanation of symbols for main parts of the drawings

T: Derailment prevention means W: Steel wire

W2: Button head X: Length compensation means

20: fixture 21: washer

22: adjusting member 23: variable member

24,240 fixture 240a large diameter part

240b: small diameter part

The present invention relates to a jig that can be compensated for the length deviation of the steel wire so that a uniform tension force against the steel wire when tensioning the multiple strands of steel injected for reinforcement increase of the product in the process of manufacturing concrete products In more detail, as a wire tensioning device of prestressed concrete products, when the wires of several strands are tensioned at the same time, the steel wires are compensated for the length deviation caused by the cutting length error for the multiple wires protruding to the rear of the moving plate. It is possible to expect the high quality of the product by allowing the tension force to be applied uniformly, and also the jig for compensating the wire length deviation when the wire tension of the concrete product which can be expected to simplify the work by using the jig according to the present invention. .

The reason for tensioning steel wires in the production process of concrete products is that when concrete products are subjected to external forces, compressive and tensile stresses occur. At this time, the tensile strength is only 1/10 of the compressive strength due to the properties of concrete products. At the tension side, cracks and fractures occur first. Therefore, in order to offset the tensile stress generated in the concrete in order to compensate for such defects, the tension of the steel wire in advance to give the compressive stress to the concrete to improve the quality of the product.

In general, when manufacturing precast concrete products by the pretension method, the product is made by one wire tensioning work by connecting a long product (about 10m or more) or a few to several dozen products (eg sleepers). Production method (aka LONG BED TYPE) was used.

That is, the mold for molding the above products is arranged in series between the fixed side part and the movable side part of the steel wire tensioning device, and the two ends of the steel wire are fixed to the fixed side part while being arranged to penetrate several strands of steel wire inside thereof. It is fixed to the movable side and the moving plate of the movable side is forcibly and moved to add tension load to the steel wire and cast concrete into the mold while maintaining the constant tension load.

Here, the tensioning of the steel wire injected into the concrete product is performed by using a conventional wire tensioning device, which is fixed with one end of the steel wire to the fixed side and the other end of the steel wire fixed to the movable side as described above. When the driving means such as the hydraulic cylinder is pulled and the moving plate of the movable side is pulled, a pulling force is applied to the steel wire of one end fixed to the fixed side to maintain tension.

At this time, however, the lengths of wires protruding through the moving plate of the movable side are in the state of length deviation due to the error of the cutting length. Therefore, the target tension load (the tension load is 70% of the tensile strength or the yield strength) 80%), the tension loads on the liver and short wires are different.

In other words, the tension load is applied to the shorter wire compared to the long wire. At this time, when the tension load exceeding the tensile strength of the wire itself is applied, the wire break occurs, and the length of the wire is set. In the longer case, the load under the desired tension load is applied, resulting in deformation of the concrete product.

Looking at the embodiment of the method of fixing the steel wires at the time of the tension operation using the steel wire tensioning device of the concrete product as described above based on the accompanying drawings, as shown in Figure 7 fixed side 11 and the movable side ( 12), there is a method of fixing both ends of the steel wire W as button heads W1 and W2 formed by heading processing, and as shown in FIG. 8, the fixed side portion of both ends of the steel wire W ( 11) one end is fixed as the button head (W1) formed by the heading process, the other end is fixed to the nut 32 by processing the threaded portion 31, but in the former case (both ends of the steel wire button In the case of fixing as a head), button heads W1 and W2 are formed by heading at both ends of the steel wire W positioned at the fixed side 11 and the movable side 12 when the steel wire W is tensioned. It is a technique to be caught by the fixed plate 11a and the movable plate 12a, and workability by processing is good. I could not compensate for the cut length deviation of the steel wire (W) at all.

Accordingly, the tension work is performed in a state in which the length deviation occurs due to the cutting length error between the steel wires (W), so that there is a problem in that the quality of the product is lowered because the uniform tension force is not applied.

In the latter case (when the button head is formed by moving the head of the steel wire and the nut is fastened by moving the threaded part), the steel wire fixed to the fixing plate 11a of the fixing side 11 of the steel wire tensioning device ( One end of the W) is fixed through the button head W1 formed by heading processing, and the other end of the steel wire W fixed to the moving plate 12a of the movable side 12 is machined with a screw 31. In the method of fastening the nut 32 to fix both ends of the steel wire W to the fixed side and the movable side portions 11 and 12, the length of the steel wire W using the nut 32 fastened to the screw portion 31. The deviation can be corrected, but in this case, since the threaded part 31 must be machined for all steel wires, not only unnecessary machining time was required, but also the use of the rolling die used for threading was excessively uneconomical. There was a problem falling.

Therefore, the present invention has been made to solve the above-mentioned conventional problems, the present invention, when tensioning the steel wire injected into the product in the process of producing concrete products such as sleepers, columns, multiple strands with length bias The purpose of the present invention is to provide a jig for compensating the length deviation of steel wires when tensioning of concrete products in which a uniform tension load is applied by compensating the length using length compensating means.

As a characteristic technical element of the present invention for achieving this object, when tensioning the steel wire of the product as a steel wire tensioning device of the concrete product installed on one end of the steel wire protruding through the movable side moving plate according to the length deviation of the steel wire It is characterized in that it has a length compensation means consisting of a jig of a structure that can selectively compensate for the length of the wire while changing the length.

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

1 and 2 are a perspective view and a plan view of a wire tensioning device to which the present invention is applied.

As shown in the figure, the structure of the steel wire tensioning device capable of simultaneously tensioning multiple strands of steel wires (W) includes a steel wire fixing side portion 11 and a steel wire moving side portion at both sides thereof with a mold 10 for placing concrete products therebetween. 12 is disposed at a predetermined distance, and the fixed side portion 11 is provided with a fixing plate 11a on which one end of the steel wire W is fixed in a locked state through a locking portion W1 formed by a heading process. The movable side portion 12 is provided with a moving plate 12a on which the other end of the steel wire W is caught through the locking portion W2 formed by the heading operation, and the moving plate 12a has a driving means such as a cylinder. (13) is connected, and the moving plate 12a is guided to the guide means 14 according to the forward and backward operation state of the drive means 13, and is comprised so that it may move forward and backward.

Therefore, a plurality of molds 10 are arranged in series between the fixed side portion 11 and the movable side portion 12, and then the two ends of the steel wire W are fixed while arranging a plurality of strands of steel wires W therethrough. After passing through the movable plate 12a, button heads W1 and W2 are formed at both ends of the steel wire W by heading, so that the steel wire W is locked to the fixed plate 11a and the moving plate 12a. Keep it.

When the operation is completed, the driving means 13 such as a cylinder is operated to move the moving plate 12a in the pulling direction of the driving means 13 by the pulling force of the driving means 13 to tension the steel wire W. According to the steel wire (W) to maintain a constant tension state, after the concrete is poured and cured, and after the concrete is completely hardened by driving the drive means (13) to reduce the tension to introduce prestress into the concrete After cutting the connected PC steel wire, the mold is separated from the concrete product to demould to make the final product.

In performing the tensioning operation of the steel wire using the steel wire tensioning device of the concrete product having such a conventional configuration and operating state, in the present invention, when cutting the steel wire (W) in the manufacture of concrete products, the cutting length of the steel wire (W) The jig 20 has been developed with a variable length structure corresponding to the length compensating means (X) that can compensate for the length deviation due to the error, the configuration of the jig 20 protrudes through the moving plate 12a A washer 21 disposed at one end of the steel wire W and in surface contact with the moving plate 12a;

Through-assembled in a structure capable of forward and reverse rotation to the steel wire (W) and the adjustment member 22 and the component for adjusting the length of the jig 20 '

A variable member (23) for assembling through the steel wire (W) and varying the actual length of the jig (20) while being screwed or loosened with the adjustment member (22) according to the forward and reverse rotation of the adjustment member (22);

Arranged between the variable member 23 of the jig 20 and the button head (W2) of the steel wire is separated to suppress the jig 20 is separated from the steel wire (W) by the engaging action with the button head (W2) It consists of fasteners 24 and 240 corresponding to the prevention means T.

The adjusting member 22 is provided with a gripping portion 22a for holding a predetermined tool (spanner, hexagon wrench, etc.) for rotation of the adjusting member 22, and on one side thereof, the variable member 23 is provided. A screw portion 22b to be screwed is provided, and a central hole 22c through which the steel wire W penetrates is formed in the center portion thereof.

The size of the center hole 22c is larger than the size of the button head W2 of the steel wire W to facilitate the fitting of the composition member 22 to the steel wire W.

The variable member 23 is formed with a threaded portion 23a to which the screwed portion 22b of the adjusting member 22 is coupled to the inside, and a central hole 23b through which the steel wire W penetrates is formed at the center thereof. have.

At this time, the size of the central hole 23b is preferably larger than the diameter of the button head W2 of the steel wire (W).

The fastener 24, which is the separation preventing means T, has a separable structure, is formed in a cone shape, and is easily disassembled and assembled to the steel wire W. In the fixture 20 to which the fixture 24 is applied, the rear end of the center hole 23b of the variable member 23 is formed to accommodate the fixture 24. As another embodiment of the separation prevention means (T), a large diameter portion (240a) slightly larger than the diameter of the button head (W2) of the steel wire (W) is provided in the circular body, and a small larger than the diameter of the steel wire (W) The neck portion 240b is configured to be connected to the large diameter portion 240a. At this time, the large diameter portion 240a is used to fit the fixture 240 with respect to the steel wire (W), the small diameter portion 240b is to be caught in the steel wire (W) in the state in which the fixture 240 is fitted to the steel wire (W). When used.

As for the fastener 24 or 240, in addition to the above-described form, any structure may be adopted as the fastener as long as the fixture 20, which is the length compensation means X according to the present invention, can be prevented from being separated from the steel wire W. It does not matter.

The present invention configured as described above is a steel wire (W) so that a uniform tension force can be applied to the multiple wires (W) in the pre-stage of the steel wire tensioning process to be carried out for the reinforcement of the product during the production of prestressed concrete products In the description of the method for compensating (correcting) the length deviation of the present invention, the embodiments of the present invention will be described with reference to the accompanying drawings. The present invention relates to a fixed side portion 11 and a movable side portion of a steel wire tensioning device for concrete products. Both ends of the steel wire W are fixed to the fixed plate 11a and the moving plate 12a while arranging the mold 10 in series between 12 and arranging several strands of steel wire W so as to penetrate the inside of the mold 10. Penetrate

Then, button heads W1 and W2 are formed by heading both ends of the steel wire W, that is, both ends of the steel wire W passing through the fixed plate 11a and the moving plate 12a as described above.

At this time, the steel wires (W) of the several strands to maintain the state (the state with the length deviation) different in length by the cutting length error.

When this operation is completed, the worker is shown in FIG. 4 at the end of each steel wire (W) protruding through the moving plate (12a) to compensate for the length deviation of the steel wire (W) generated by the cutting length degree difference As shown in the figure, the washer 21 is inserted, and then the adjusting member 22 and the variable member 23 are sequentially inserted through the steel wire button head W2 using the respective center holes 22c (23b). Each part constituting the jig 20 by assembling the fixture 24 or 240 corresponding to the jig release preventing means T between the rear end of the line 23 and the locking portion W2 of the steel wire W. To prevent deviation from (W).

As described above, in the state where assembly of the jig 20 according to the present invention is completed, a separate tool (spanner, hexagon wrench, etc.) is gripped on the gripping portion 22a of the adjusting member 22 to fix or adjust the adjusting member 22. When the reverse rotation, the adjustment member 22 is rotated forward or backward about the steel wire (W), and at the same time the variable member 23 coupled through the adjustment member 22 and the screw portion (22b) 23a is It is horizontally moved left or right while being guided to the steel wire W according to the engagement state (rotational direction of the adjustment member) of the screw portions 22b and 23a.

At this time, the length of the jig 20 is shortened or lengthened in accordance with the left and right movement of the variable member (23).

Therefore, the operator rotates the adjusting member 22 according to the length of the steel wire W protruding from the moving plate 12a to move the variable member 23 to the left or right, and thus the entire length of the jig 20. Since it can be adjusted, the length deviation of the steel wires (W) can be easily compensated.

Meanwhile, as described above, when the length compensation of the steel wires is completed using the jig, the moving plate 12a by the driving means 13, such as a cylinder, is moved to perform a tensioning operation of the multiple wires W. Since the jig 20 and the button head W2 are closely adhered to one surface of 12a) at the same time, the tension load applied to the multiple wires W acts the same, so that problems caused by the tension unevenness in the conventional wire tension device are solved. The solution can be completely solved and the quality of the product can be expected.

In addition, it is economical and workable because it does not have to be rolled on multiple strands of steel (W).

On the other hand, the assembly for the fixture 24 corresponding to the jig deviation prevention means (T), the one end of the steel wire (W) protrudes longer than the length of the fixture 24 outside the variable member 23 and then the fixture separated thereon Assembling the member of (24) and adjusting the length of the jig 20 as the adjusting member 22 and the variable member 23, as shown in FIG. The center hole (23b) is located in the rear side surface to maintain the state caught in the button head (W2) of the steel wire (W).

Assembly method for another fixture 240, the larger diameter portion (steel wire button head (W2) formed in the body of the fastener 240 is formed larger than the diameter (240a) button head of the wire (W) (W2) And then rotate the fixture 240 so that the steel wire W is positioned inside the small diameter portion 240b, as shown in FIG. 6 between the variable member 23 and the steel wire button head W2. Positioned to suppress the detachment of the jig 20 according to the present invention.

On the other hand, since the moving plate 12a is guided by the guide means 14 in the process of moving the moving plate 12a by the driving means 13 such as a cylinder, the moving plate 12a is moved in a stable state without flow back and forth.

As described above, when the jig, which is a length compensating means according to the present invention combined with a structure capable of adjusting the length, is installed at one end of the steel wire protruding from the movable plate of the movable side, the effect generated therefrom is a length deviation of the steel wire. In order to compensate for the deviation length depending on the steel wire tensioning work, the uniform tension load is always applied to several wires at the same time, so that the tension of the steel wires is made to be uniform. In addition, since the installation and operation of the jig is simple, the workability and economical efficiency are much superior to those of the conventional ones.

Claims (3)

Length compensating means (X) that can compensate for the length deviation of the steel wires (W) so that a uniform tension force is applied to the steel wires (W) when tensioning a plurality of strands (W) at the same time as a conventional steel wire tensioning device A washer (21) positioned between the moving plate (12a) and the jig (20) to suppress direct friction between the two parts; When varying the length of the jig, the adjustment member 22 corresponding to the operation means for the variable adjustment; A variable member (23) for varying the actual length of the jig while being screwed / unscrewed according to the rotational direction by the manipulation of the adjusting member (22) and moving left and right; Inserted between the variable member 23 and the steel wire button head (W2) is made of a separation preventing means (T) to block the separation of the parts, characterized in that used to install on one end of the cut steel wire longer than the target length Jig for compensating for steel wire length deviation when tensioning of concrete products. The jig for preventing wire deviation of the wire length of the concrete product, characterized in that formed as a fixture (24) of the cone-shaped and separate form. According to claim 1, Jig deviation prevention means (T) is a large diameter portion 240a that can pass through the locking portion (W2) of the steel wire (W), and is connected to the large diameter portion (240a) to the steel wire (W) Concrete product steel wire tension deviation compensation jig when the tension of the concrete product, characterized in that made as a fixture 240 with a small diameter portion (240b) of the size that can be caught.