KR200223697Y1 - Tensile cable - Google Patents

Abstract

Bundle of the strand wire 20 is inserted into the rod 10, the tension member produced by the compression device 40, formed in the outer peripheral surface of the strand wire 20 in contact with the inner peripheral surface of the bar 10 and the inner peripheral surface of the bar 10 A tension member having a filling member inserted into a hollow portion is provided.

Tensile material according to the present invention, by combining the filling member to the bundle of non-circular strand wire formed to 7 or less strands, bringing the effect that the twist alignment of the strand wire does not collapse during the crimping process.

In addition, it is possible to produce a tensile material by adjusting the number of strands of the strands to the required strength, it is also possible to reduce the unnecessary material in accordance with the reduction of the number of strands of strands brings the effect of reducing the production cost.

Description

Tensile Material

The present invention relates to a tension member, and more particularly, to an improved tension member to be embedded in a bar even if arranged in a non-circular shape due to a small number of strands of a strand of a tension material.

In general, the tension member used in civil engineering is inserted into the underground rock and fixed with grout. Tension is tied to wedges and nuts by tensioning one end projecting to the ground, which causes tension tension member to displace the retaining wall, slope plate and pile. It was used to prevent violence.

In this specification, the term "tensile material" refers to a member composed of a bundle of stranded wire and a rod that is compressed to a bundle of stranded wire.

Referring to the conventional tensile material with reference to the accompanying drawings as follows.

1 is a cross-sectional view of a conventional tension member, as shown, the tension member 30 is composed of a bundle of the strands 20 and the bar 10 pressed to the bundle of the strands 20. Here, the strand 20 is generally used 7 strands to go circular cross section that can be as close as possible to the inner peripheral surface of the bar (10).

The pressing method for producing the tension member is shown in Figures 2a to 2c.

Tensile material is first set to the pressing device 40 by inserting the bundle of strands (S) in the bar (10). When the rod 10 set in the crimping device 40 is pushed by the piston 44 and passed through the die 42, plastic deformation occurs and is extruded. At this time, the rod 10 is squeezed to the strand wire bundle S, and the die The strand wire bundle S passed through the 42 and the bar 10 are integrated to produce a tensile material.

However, the conventional tension member has the following problems.

In manufacturing a tensile member circularly arranged into seven strands of strands 20, in the case of seven strands or less, the circular arrangement of the strands 20 is difficult, so that the compressive force of the bar 10 acts on the outer circumferential surface of the strands 20. There was a problem that the crimp alignment of the stranded wire 20 has collapsed before the compression can be made.

Therefore, when using the number of the strands 20 to 7 strands or less, since the strands 20 other than the crimped portion is produced by cutting into seven strands, the problem that the production cost is increased due to the input of more bars and strands than necessary there was.

The present invention was devised for the purpose of solving the conventional problems as described above, to provide an improved tension member to be compressed with the rod by inserting the filling member even if the bundle number of the strand is arranged in a non-circular shape.

1 is a cross-sectional view showing a conventional tensioning material shown.

Figure 2a to 2c is a process chart showing sequentially the pressing method of the tension member.

3 to 4 is a cross-sectional view showing a tension member according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

10: bar 20: stranded wire

40: crimping device 42: dice

50, 150: filling member 60, 160: tension member

In order to achieve the above object, the bundle of the strand wire 20 is inserted into the bar 10, the tension member produced by the compression device 40, the inner peripheral surface of the bar 10 and the inner peripheral surface of the bar 10 Provided is a tension member having a filling member inserted into a hollow portion formed as an outer circumferential surface of the strand wire 20 to be provided.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. 3 to 4 are cross-sectional views showing a tension member according to an embodiment of the present invention.

As shown, the tension member (60,160) is the bar 10 and the bundle of the strand 20 is inserted into the bar 10 and the outer circumferential surface of the strand 20 in contact with the inner circumferential surface of the bar 10 and the inner circumferential surface of the bar 10 It is made of a filling member (50,150) inserted into the hollow portion formed.

Unlike the conventional tension member 60, 160, the strand 20 is not limited to a round bundle of seven strands, and as shown, the strand 20 is made of a bundle of triangles or squares represented by three or four virtual lines. .

Here, the number of strands of the strand 20, constituting the tension member (60, 160) is not limited to this embodiment, it can be implemented in various ways.

On the other hand, the bundle of the stranded wire 20 is inserted into the bar 10, when the outer shape is rectangular or triangular in the prior art collapsed in the pressing process, the present invention to prevent the collapse of the stranded wire 20 generated in the pressing process , Filling members 50 and 150 are inserted into hollow portions formed between the rod 10 and the strand 20.

The filling members 50 and 150 may not collapse the strand 20 during the crimping process and may have a circular shape in combination with the strand 20 that changes the bundle shape according to the number of strands of the strand 20. It will have a variety of fan-shaped shape formed of two stranded wire 20 in contact with the inner peripheral surface of the bar and the inner peripheral surface of the bar (20).

In addition, the filling member (50,150) is made of the same material as the bar 10 so that it can be easily integrated with the bar (10) during the pressing process.

If described with reference to the accompanying drawings, the pressing method of the tension member is configured as follows.

3 to 4, first, twisted strand 3 or 4 strands of the strand 20. At this time, the entire shape of the twisted bundle of strands 20 is made in a non-circular shape.

The fan-shaped filling members 50 and 150 are attached to the bundles of twisted non-circular strands 20 to align the combined shape of the strand 20 and the filling members 50 and 150 to be circular.

The strand wire 20 to which the filling members 50 and 150 are attached is manufactured as a tension member through the process of FIGS. 2A to 2C, and the detailed method of compressing the tension member is as follows.

First, as shown in FIGS. 3 and 4, the filling members 50 and 150 and the strand 20 are combined to insert a bundle of strands S formed in a circular shape into the rod 10 as shown in FIG. 2A.

At this time, the die 42 in which the rod 10 is press-fitted in the pressing device 40 has a predetermined size smaller than the outer diameter of the rod 10, and one end of the rod 10 is the pressing device 40. Is connected to the piston 44.

In this way, the bar 10 and the strand bundle S set in the crimping device 40 are press-fitted into the die 42 by the piston 44. The die 42 has a size smaller than the outer diameter of the rod 10, and the rod 10 is plastically deformed when the die 10 passes through the die 42 so as to be pressed and extruded into the bundle strand S.

When the rod 10 and the strand bundle S pass through the die 42 by the piston 44, the pressing is completed, and the production of the tension member is completed.

At this time, in order to prevent the filling member (not shown) bound with the strand bundle (S) from being separated from the bar 10 during the tension operation, by forming a taper on the outer circumferential surface or the inner circumferential surface of the end portion of the rod 10 before pressing, It is preferable to reduce the crimping ratio of the tip of the bar 10.

The taper formed on the rod 10 is pressed into the bundle of strands S with a small pressing rate when the taper is pressed into the die 40 of the pressing device 40 in comparison with the portion where the taper is not formed.

Therefore, it is possible to obtain the same effect that the rod 10 and the strand bundle S are wedge-coupled, thereby preventing the strand bundle S and the filling member (not shown) from being separated from the rod 10 after the pressing is completed. Will be.

On the other hand, although not shown, if the screw is machined on the outer peripheral surface of the tension member produced by the crimping device 40, it can be used for applications such as temporary construction anchors, permanent anchors, tie cables, etc., which are fixed using a tension or tensile force.

As described so far, the tension member according to the present invention combines a filling member with a bundle of non-circular strands formed of 7 strands or less, thereby bringing an effect that the twist alignment of the strands does not collapse during the pressing process.

In addition, it is possible to produce a tensile material by adjusting the number of strands of the strands to the required strength, it is also possible to reduce the unnecessary material in accordance with the reduction of the number of strands of strands brings the effect of reducing the production cost.

Claims (2)

In the tensile material produced by the crimping device 40 is inserted into the bundle 10 of the strand wire 20, Tension member, characterized in that it has a filling member inserted into the hollow portion formed by the inner peripheral surface of the bar 10 and the outer peripheral surface of the strand wire 20 in contact with the inner peripheral surface of the bar (10). The method of claim 1, The bar 10 is tapered on the selected one of the outer peripheral surface or the inner peripheral surface of the distal end portion, characterized in that the strand after the compression to prevent the bundle and the filling member is separated from the rod (10).