KR101902007B1 - Steel wire coupler and concrete fixing construction method of the same - Google Patents

Abstract

The present invention relates to a steel wire coupler that can easily fix a steel wire, and a method for fixing the steel wire coupler to concrete that can reliably fix the steel wire coupler to the concrete. The steel wire coupler includes a coupler body having a steel wire receiving hole through which the steel wire is coaxially inserted, a tapered hole having a certain tapered angle, and a connector fastening threaded hole; an anchor connector fastened to the connector fastening threaded hole to be connected to the coupler body; a wedge pin that is split in plural segments in a circumferential direction to come into contact with the tapered hole at alternative angles, wherein an inner surface has a teeth portion to hold the steel wire; a wedge holding ring for elastically holding the wedge pins at a rear end; a wedge pin biasing spring that is supported by the wedge pin at one end and is supported by the anchor connector at the other end to resiliently press the outer peripheral surface of the wedge pin against the inner peripheral surface of the tapered hole; and an anchor engaged to the anchor connector to apply a fixing force in the concrete.

Description

Steel wire coupler and its concrete fixing method, and more particularly,

The present invention relates to a steel wire coupler used for fixing a steel wire and a concrete fixing method of the steel wire coupler. In particular, it is possible to easily fix a steel wire through a steel wire coupler and firmly fix a steel wire coupler to a concrete And more particularly, to a steel wire coupler and a concrete fixing method for the same.

Generally, in order to construct a prefabricated bridge or a road connection passage, it is known that a concrete segment to be combined with a reinforcing steel bar or a steel bar is passed through a factory-made concrete segment to bond them together, In this case, since the reinforcing bar, the steel bar, or the stranded wire maintains the straightness, it is difficult to apply when the concrete segment is deviated.

Therefore, when the steel wire is applied, it has an advantage that the construction can be continued by the bending property of the steel wire even when the tolerance is somewhat deviated during the assembling of the concrete segment. Therefore, a coupler capable of fixing the steel wire to the concrete segment is required. The coupler should also have a method of how it is applied to the concrete segment.

As a background of the present invention, a 'high strength reinforcing coupler' has been proposed as a Korean Utility Model Laid Open No. 20-2017-0000386. A connector having a body formed with at least two receiving grooves having a predetermined diameter and each of the receiving grooves communicating with each other by a through hole formed in the body; an elastic body provided so as to be resiliently resiliently accommodated in each of the receiving grooves; Wherein at least two or more of the reinforcing bars are detachably connected to the connector, the reinforcing bars being inserted into the receiving grooves at one side thereof so that a plurality of reinforcing bars can be connected to the connector, And the inner surface includes an inner cover for preventing rotation of the drawn reinforcing bars as well as engaging the reinforcing rods drawn in the shape of the inner peripheral surface of the outer cover. .

However, the above background art has not proposed a technique of how a high-strength reinforcing coupler can be installed in a mold in which a concrete is laid, and when a tension is applied by connecting one end of a strand, There are no technical alternatives for how anchor forces can be exercised by any means.

Korean Utility Model Publication No. 20-2017-0000386

An object of the present invention is to provide a steel wire coupler capable of easily fixing a steel wire through a steel wire coupler and firmly fixing a steel wire coupler to the concrete, and a concrete fixing method for the steel wire coupler.

A steel wire coupler according to a preferred embodiment of the present invention includes: a coupler body having a steel wire inlet hole into which a steel wire is introduced on the same axis, a taper hole having a constant taper angle, and a connector fastening screw hole; An anchor connector screwed to the connector fastening screw hole and coupled to the coupler body; A wedge pin divided into a plurality of pieces in a circumferential direction, the wedge pin being inserted into the tapered hole at a declination angle and having a tooth for receiving the steel wire on its inner surface; A wedge binding ring for binding the plurality of the wedge pins at a rear end with mutual elastic force; A wedge pin pressing spring whose one end is supported by the wedge pin and the other end is supported by the anchor connector so that the outer peripheral surface of the wedge pin is brought into close contact with the inner peripheral surface of the tapered hole by elastic force; And an anchor coupled to the anchor connector to exert a fixation force in the concrete,
The steel wire inlet hole is further formed with a + -shaped groove so as to facilitate the rotation of the coupler body when the anchor connector and the coupler body are screwed together in a conical shape.

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Further, the anchor connector is further provided with an acupressure flange that provides an acupressure jaw.

The anchor may be a steel bar having a circular cross section, an anchor screw fastening part for fastening the anchor connector to the anchor connector at one end thereof, and a hook part extending in an L shape or a disk shape at the other end thereof.

Meanwhile, a concrete fixing method for a steel wire coupler according to the present invention includes the steps of: (a) preparing each component of a steel wire coupler; (b) The recessed formers are fastened to the mold bolts and fastened to the molds. The anchor connectors of the steel wire coupler parts are screwed into the recessed formers, and the anchors are connected to the anchor connectors. Fastening the bolt to which the bolt is fastened by fastening the lock nut that is threaded; (c) placing concrete in the mold to cure the concrete; (d) separating the former bolt from the recesser former, dismantling the mold, fastening the former bolt to the recesser, and then continuing to tighten the screw to loosen the recesser former in the anchor connector to remove it from the concrete Wow; (e) The wedge pin pressing spring among the parts of the steel wire coupler is supported by the anchor connector, the wedge pin is supported by the pressing spring, and the wedge pin is received by the third order coupler body. The method of claim 1, further comprising:

In the step (d), the former bolt is screwed to the recess former in the direction of the right screw, and the fastener is fastened to the anchor connector in the left screw direction .

Further, in the step (b), when a plurality of anchors are provided, the anchors are connected to each other through a support plate.

The steel wire coupler according to the present invention is fixed by being engaged by the wedge pin only by inserting one end of the steel wire deeply into the coupler body, so that the fixing of the steel wire is facilitated. Also, since the + groove is formed on the coupler body, it is easy to tighten the anchor connector when it is installed in concrete. In addition, since the anchor is coupled to the anchor connector, the anchor force can be effectively exerted on the concrete segment.

In the steel wire coupler construction method according to the present invention, a recess former is used, and the fastening direction of the foam bolt and the recess former is opposite to the fastening direction of the recess former and the anchor connector, The seismic formers can be easily removed from the concrete to facilitate the final assembly and construction of the steel wire coupler.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate exemplary embodiments of the invention and, together with the description, serve to explain the principles of the invention, Shall not be construed as limiting.
FIG. 1A is a perspective view of a steel wire coupler according to an aspect of the present invention. FIG.
1B is a perspective view of a steel wire coupler in accordance with another aspect of the present invention;
1C is a perspective view of a steel wire coupler in accordance with another aspect of the present invention.
FIG. 2 is an exploded perspective view of the steel wire coupler shown in FIG. 1A; FIG.
FIG. 3A is a cross-sectional view of the steel wire coupler shown in FIG. 1A; FIG.
Fig. 3B is an enlarged view of the main part shown in Fig. 3A. Fig.
FIG. 4A is a state in which a steel wire is inserted into the steel wire coupler shown in FIG. 1A; FIG.
FIG. 4B is a state in which a steel wire is fixed to the steel wire coupler shown in FIG. 1A; FIG.
FIGS. 5A and 5B are flow charts of a concrete fixing process for a steel wire coupler according to the present invention. FIG.
FIG. 6 is a view showing a construction state in which a plurality of steel wire couplers according to the present invention are installed on a concrete through a plaster.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited thereto.

As shown in FIGS. 1A and 1B, the steel wire coupler 10 according to the present embodiment is used to fix the end portion of the steel wire 5 as shown in FIG. 4B. 2 to 4, the steel wire coupler 10 has a coupler body 12. The coupler body 12 is formed in a cylindrical shape. The coupler body 12 has a steel wire inlet hole 121 in which the steel wire 5 is drawn from one end to the other end on the same center axis, a taper hole 122 having a constant taper angle (+ 123 are formed.

At this time, the minimum diameter D of the taper hole 122 is configured to be larger than the diameter d of the steel wire 5. The steel wire inlet hole 121 has a conical minimum cross section at the minimum diameter D of the taper hole 122. Therefore, the end of the steel wire 5 can smoothly pass through the steel wire inlet hole 121.

It is preferable that the steel wire inlet hole 121 is formed with a + shaped groove 121a so that the coupler body 12 can be easily rotated when the anchor connector 14 and the coupler body 12 are screwed together.

The anchor connector 14 is coupled to the coupler body 12. The anchor connector 14 includes a connector male thread 14a screwed to the connector threaded screw hole 123, a spring support groove 14b formed at the center of the connector male thread 14a and an anchor 22 to be described later Anchoring screw grooves 14c for fastening the anchors. Therefore, the anchor connector 14 is screwed to the connector fastening screw hole 123 through the connector male thread portion 14a and is coupled to the coupler body 12.

The anchor connector 14 may further include an acupressure flange 142 for providing an acupressure jaw as shown in FIG. 1C.

A plurality of wedge pins (16) for assembling the ends of the steel wires (5) are assembled to the coupler body (12). The plurality of wedge pins 16 are assembled into a cylindrical shape and are engaged with the tapered hole 122 at an angle of -θ and a tooth 161 is formed on the inner surface to receive the steel wire 5. When the plurality of wedge pins 16 are out, the inner diameter is configured to be smaller than the diameter d of the steel wire 5.

Therefore, when the wedge pins 16 are pushed rearward in the tapered hole 122 as shown in Fig. 4A, the wedge pins 16 are widened in the radial direction larger than the diameter d of the steel wire 5, When pushed toward the front of the hole 122, the end of the steel wire 5 is bitten because its inner diameter is reduced.

At this time, the wedge pin 16 may be coupled by a wedge binding ring 18 that bonds the plurality of the wedge pins 16 to each other at a rear end with elastic force. The wedge binding ring 18 may be in the form of a ring spring, a coil spring, or a rubber ring. The wedge binding ring 18 is fitted in the annular groove 162 of the wedge pin 16.

There is provided a wedge pin pressing spring 20 for bringing the wedge pin 16 into close contact with the inner peripheral surface of the taper hole 122 of the coupler body 12. One end of the wedge pin pressing spring 20 is supported by the wedge pin 16 and the other end is supported by the anchor connector 14 so that the outer peripheral surface of the wedge pin 16 is brought into close contact with the inner peripheral surface of the tapered hole 122 by elastic force . Therefore, when the wedge pin 16 is retracted and moved toward the anchor connector 14 side, the wedge pin pressing spring 20 is compressed.

An anchor 22 coupled to the anchor connector 14 is provided. The anchor 22 serves to increase the fixing force when the steel wire coupler 10 is embedded in the concrete 70 as shown in FIG. 5B. The anchor 22 is a steel bar having a circular cross section and has an anchor screw fastening part 221 for fastening the anchor connector 14 to one end thereof at one end and an L- And a hook portion 222 is provided.

A method of fixing the steel wire coupler 10 constructed as described above to concrete will be described.

5 (a), the recesser formers 50 are fastened to the mold bolts 52 and fastened to the molds 60. Then, After the anchor connector 14 of the parts of the steel wire coupler 10 is screwed and engaged with the anchor 22 of the steel wire coupler 10 and the anchor connector 14 is connected to the sex former 50, And fasten the lock bolt 52 by fastening the lock nut 54 which is engaged.

Meanwhile, if a plurality of anchors 22 are installed at this stage, it is preferable that the anchors 22 are connected to each other through the pressure plate 30 as shown in FIG.

Then, as shown in (B) of FIG. 5A, concrete 70 is poured into the mold 60 to cure it. When the mold 60 is dismantled after the concrete 70 is laid, a concrete segment is produced.

5 (a), the mold bolt 52 is separated from the recess former 50, the mold 60 is disassembled as shown in FIG. 5 (a) The resister formers 50 are fastened to the recesses formers 50 as shown in FIG. 5B so that the concrete bolts 52 are screwed together with the anchor connectors 14 as shown in FIG. ).

At this time, the former bolt 52 is screwed to the recess former 50 in the right screw direction and the recess former 50 is screwed to the anchor connector 14 in the left screw direction, Is preferably performed. Therefore, when the fastening of the former bolt 52 is performed in the clockwise direction, the recess former 50 is released from the screw fastening of the anchor connector 14 while being rotated in the same direction as the former bolt 52. As a result, a conical opening 70a upwardly opened in the concrete 70 is formed on the anchor connector 14 as shown in FIG. 5B (bar).

Next, the wedge pin pressing spring 20 of the parts of the steel wire coupler 10 is first supported on the anchor connector 14 through the conical opening 70a as shown in FIG. 5 (b) The pin 16 is supported by the pressing spring 20 and the third coupler body 12 is received in the wedge pin 16 and screwed to the anchor connector 14. Therefore, the steel wire coupler 10 is fixed to the concrete 70 as shown in FIG. 5B.

The operation of the thus constructed steel wire coupler 10 will be described.

When the steel wire 5 is inserted deeply through the steel wire receiving hole 121 of the coupler body 12 as shown in FIG. 4A, the wedge pin 16 widenes as it moves rearward and the inside diameter is expanded, 5 into the inside diameter of the wedge pin 16. [ At this time, the wedge pin pressing spring 20 is compressed.

The inner diameter of the wedge pin 16 is contracted again by the taper hole 122 while the wedge pin 16 is moved to the home position by the compression force of the wedge pin pressing spring 20 again, 4b.

At this time, since the steel wire coupler 10 is anchored to the concrete layer through the anchor 22, the fixing force of the steel wire 5 is increased.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art in light of the above teachings. will be. The invention is not limited by these variations and modifications, but is limited only by the claims appended hereto.

12: Coupler body
121a: + groove
14: Anchor connector
142: acupressure flange
16: Wedge pin
18: wedge binding ring
20: Wedge pin pressing spring
22: Anchor
30:
50: Recess former
52: Former bolt
60: mold

Claims (7)

In the steel wire coupler 10 used for fixing the steel wire 5,
A coupler body 12 on which a steel wire inlet hole 121 into which a steel wire 5 is inserted on the same axis, a taper hole 122 with a constant taper angle (+), and a connector fastening screw hole 123 are formed;
An anchor connector (14) screwed to the connector fastening screw hole (123) and coupled to the coupler body (12);
A wedge pin (16) divided into a plurality of sections in a circumferential direction, the wedge pin (16) being engaged with the taper hole (122) at an angle of -θ and having a tooth (161) for holding the steel wire (5) on the inner surface;
A wedge binding ring 18 for binding the plurality of the wedge pins 16 with each other at a rear end with elastic force;
A wedge pin pressing spring 20 which is supported at one end of the wedge pin 16 and the other end of which is supported by the anchor connector 14 and which urges the outer peripheral surface of the wedge pin 16 against the inner peripheral surface of the taper hole 122, and;
And an anchor (22) coupled to the anchor connector (14) to exert a fixation force in the concrete,
Shaped recess 121a is formed in the steel wire inlet hole 121 so that the coupler body 12 can be easily rotated when the anchor connector 14 and the coupler body 12 are screwed together in a conical shape. Steel wire coupler. delete The method according to claim 1,
Wherein the anchor connector (14) is further provided with an acupressure flange (142) which provides an acupressure jaw. The method according to claim 1,
The anchor 22 is a steel bar having a circular cross section and has an anchor screw fastening part 221 for fastening the anchor connector 14 to one end thereof at one end and a hook part 222) are provided on the outer circumferential surface of the steel wire coupler. (a) preparing each component of the steel wire coupler (10) according to any one of claims 1, 3, and 4;
(b) The recessed formers 50 are fastened to the mold 60 and fixed to the mold 60, and the anchor connector 14 of the components of the steel wire coupler 10 is screwed into the recessed formers 50 Tightening the lock nut 54 screwed to the former bolt 52 to fix the former bolt 52 after the anchor 22 is connected to the anchor connector 14, ;
(c) placing the concrete (70) on the mold (60) and curing the concrete (70);
(d) After separating the former bolt 52 from the recess former 50, the mold 60 is disassembled and then the former bolt 52 is fastened to the recess former 50 and then fastened Removing the recessed formers (50) from the anchor connector (14) and removing them from the concrete (70);
(e) The wedge pin pressing spring 20 of the parts of the steel wire coupler 10 is first supported in the anchor connector 14, the secondary wedge pin 16 is held in the pressing spring 20, And a third step of receiving the wedge pin (16) and screwing the coupler body (12) to the anchor connector (14). 6. The method of claim 5,
In the step (d), the former bolt 52 is screwed to the recess former 50 in the right screw direction, and the recess former 50 is screwed to the anchor connector 14 in the left screw direction Wherein the fastening of the former bolt (52) is performed in the second step. 6. The method of claim 5,
Wherein a plurality of anchors (22) are provided in the step (b), the plurality of anchors (22) are connected to each other through a support plate (30).

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