KR102158627B1 - Coupler for preventing slip of reinforcing bar - Google Patents

Abstract

The present invention relates to an ultra-high tensile reinforcement coupler that minimizes initial slip, and connects reinforcing bars and prevents initial slip of reinforcing bars. In the present invention, a first body having a first unevenness formed on the inside and a second body having a second unevenness formed on the inside are mutually coupled so that the nodes of the reinforcing bar inserted into the inside are caught by the first and second irregularities. Body; A coupling screw penetrating the first body and the second body to be coupled to each other; A pair of guide plates formed inside the centers of the first body and the second body, respectively; It is provided between the guide plates and, when uncompressed, maintains a gap between the first body and the second body so that the reinforcing bar can be inserted into both sides of the body, and is expanded to both sides by tightening the coupling screw. Includes, wherein the elastic body is made of a ball shape and is seated in a round groove formed at the end of the guide plate, wherein the reinforcing bar coupler minimizes initial slip. Provides.

Description

Ultra-high tensile reinforcing bar coupler with minimal initial slip {Coupler for preventing slip of reinforcing bar}

The present invention relates to an ultra-high-tensile reinforcement coupler that minimizes initial slip, and is a technology related to an ultra-high-tensile reinforcement coupler that easily connects reinforcing bars and minimizes initial slip to prevent initial slip after reinforcing bars are combined.

Reinforcing bars are used in the fields of architecture and civil engineering as the internal framework of concrete structures. Since reinforcing bars are produced in a certain length, they must be connected to each other according to the length of the structure to match the length of the structure.

Butt joints and overlap joints are widely used for reinforcing bars. Reinforcing bar butt joints are connected by welding in the longitudinal direction, and rebar overlap joints are overlapped and wound with wires.

In recent years, reinforcing bar couplers, a component that connects reinforcing bars to each other, have been developed to save such trouble. Reinforcing bar couplers, which have been widely used in the past to closely connect rebars and rebars, have irregularities on the inner side according to the type. It is common to be formed into an acceptable shape by allowing it to be formed.

However, even if a reinforcing bar manufacturer produces a rebar of the same standard, an error occurs in the specification, so it is necessary to manufacture a coupler with sufficient margin to accommodate this. Eventually, due to such an error, the reinforcing bar coupled inside the reinforcing bar coupler becomes a structure in which slip occurs to some extent, which weakens the stability of the entire structure.

In addition, since the coupler has to engage the nodes of the reinforcing bar, there has been a problem that it takes a lot of work time because the reinforcing bar coupler body itself must be fitted in a state where the rebar coupler body itself is separated up and down, and then the upper and lower separated bodies have to be combined.

KR 10-1456055 B1

The present invention is to solve the above problem, to reduce the working time by easily accepting the reinforcing bar in the coupler, and to provide an ultra-high tensile reinforcing bar coupler that minimizes initial slip that can minimize the slip of the rebar coupled to the rebar coupler. .

In order to solve the above problems, the present invention is a first body in which the first irregularities are formed on the inside, and a second body on which the second irregularities are formed on the inside are mutually coupled to each other and inserted into the inside by the first and second irregularities. A body that causes the nodes of the reinforcing bar to be caught; A coupling screw penetrating the first body and the second body to be coupled to each other; A pair of guide plates formed inside the centers of the first body and the second body, respectively; It is provided between the guide plates and, when uncompressed, maintains a gap between the first body and the second body so that the reinforcing bar can be inserted into both sides of the body, and is expanded to both sides by tightening the coupling screw. It provides an ultra-high-tensile reinforcement coupler that minimizes initial slip, characterized in that it includes; an elastic body that is in close contact with each end of the inserted reinforcing bar.

The elastic body is formed in a ball shape and is seated in a round groove formed at an end of the guide plate.

According to the configuration provided in the means for solving this problem, the following effects can be expected.

First, since the reinforcing bar coupler can be provided to the user with the first and second bodies separated by the elastic body, the user can easily insert the rebar by the distance between the first body and the second body, and the rebar is inserted and then combined. The rebar connection method is simplified because the rebar is fixed by tightening the screw.

And, if the reinforcing bar is first inserted in one direction of the inlet side of the body and the coupling screw is tightened, the inlet of the opposite body is opened based on the center point of the elastic body in the center, so the operator can easily insert and fix the rebars on both sides by himself. Do.

In addition, by tightening the coupling screw, the elastic body is compressed up and down and expanded to both sides to press the reinforcing bar flowing into both sides of the rebar coupler body to the outside, thereby preventing the initial slip of the reinforcing bar coupled in the body, thereby increasing the bonding force. Also, since the reinforcing bars are organically connected to each other by an elastic body, the compressive strength is increased.

1 is a diagram showing the internal configuration of an ultra-high tensile reinforcement coupler with minimal initial slip according to a preferred embodiment of the present invention.
FIG. 2 is a diagram showing a coupled state of an ultra-high tensile reinforcement coupler minimizing initial slip according to a preferred embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. Bars shown in the following description and accompanying drawings are presented for an overall understanding of the present invention, so the technical scope of the present invention is not limited thereto. In addition, detailed descriptions of known configurations and functions that may unnecessarily obscure the subject matter of the present invention will be omitted.

1 is a diagram showing the internal configuration of an ultra-high tensile reinforcement coupler with minimal initial slip according to a preferred embodiment of the present invention.

Referring to FIG. 1, the ultra-high-tensile reinforcement coupler minimizing the initial slip of the present invention is made largely including a body 100, a coupling screw 200, a guide plate 300, and an elastic body 400.

First, the body 100 is an external configuration to accommodate the reinforcement (S1, S2) on both sides.

The body 100 is composed of a pair of the first body 120 and the second body 140 are mutually symmetric.

The first body 120 has a first unevenness (not shown) continuously formed inside, and the second body 140 also has a second unevenness 142 continuously formed inside. The first body 120 and the second body 140 are coupled to each other to form an inlet to both sides, and the nodes of the reinforcing bars (S1, S2) inserted into both inlet sides are the first and second irregularities (not shown, 142), it is possible to bite the reinforcing bars (S1, S2).

The coupling screw 200 passes through the first body 120 and the second body 140 to be coupled to each other.

The guide plate 300 is formed inside the center of each of the first body 120 and the second body 140. Here, the guide plate 300 is formed inside the center of the first body 120 and the second body 140 so that the elastic body 400 may be seated. The guide plate 300 is formed in a plate shape and a round groove is formed at an end thereof, so that the elastic body 400 can be stably seated.

The elastic body 400 is coupled between the guide plate 300 to maintain a gap between the first body 120 and the second body 140 when uncompressed, so that the inlet port on both sides of the body 100 Reinforcement (S) can be inserted. And by the fastening of the coupling screw 200 coupled to the body 100, the first body 120 and the second body 140 are in close contact with each other, and the first and second irregularities (not shown, 142) The reinforcing bar (S1, S2) is constrained by the joints of the reinforcing bars (S1, S2), and the elastic body 400 is compressed up and down and expanded to both sides at the same time to be inserted into the body 100. It is possible to increase the bonding force of the reinforcing bars (S1, S2) inserted into the body 100 by closely contacting and pressing the ends of the (S1, S2), respectively.

Here, the elastic body 400 is made into a ball shape that can expand to both sides when compressed up and down, and various shapes such as a hexahedron and a polyhedron are also possible.

Hereinafter, the assembly process of the ultra-high tensile reinforcement coupler minimizing initial slip according to the present invention will be described as follows.

FIG. 2 is a diagram showing a coupled state of an ultra-high tensile reinforcement coupler minimizing initial slip according to a preferred embodiment of the present invention. Figure 2 (a) is a reinforcing bar (S1) insertion state diagram, Figure 2 (b) is a reinforcing bar (S1) fixed state diagram, Figure 2 (c) is a reinforcing bar (S2) insertion state diagram, Figure 2 (d) is a reinforcing bar ( S2) It is a fixed state diagram.

First, referring to FIG. 2(a), the first body 120 and the second body 140 are coupled to the coupling screw 200, but provided to the user in a state with a certain distance apart by the elastic body 400. The user first inserts the reinforcing bar (S1) into the inlet on one side of the body 100. Here, the first and second irregularities 122 and 142 have a trapezoidal cross-sectional shape so that the nodes of reinforcing bars of various sizes can be bitten.

Next, referring to FIG. 2(b), when the coupling screw 200 in the part where the reinforcing bar S1 is inserted is partially tightened, the nodes of the reinforcing bar S1 are caught in the first and second irregularities 122 and 142. The reinforcing bar (S1) is fixed. And as a part of the coupling screw 200 is first coupled to the part where the reinforcing bar (S1) is inserted, the other inlet side located on the opposite side of the body 100 is opened at a certain angle based on the elastic body 400, so that the reinforcing bar on the other side is easily inserted. It provides a space to do.

Then, referring to FIG. 2(c), the reinforcing bar S2 can be sufficiently inserted into the inlet side on the other side of the body 100 without being caught.

Finally, referring to FIG. 2(d), when the coupling screw 200 in the part where the reinforcing bar (S2) is inserted is tightened, the nodes of the reinforcing bar (S2) are caught and fixed to the first and second irregularities (122, 142). It will be.

Therefore, by using the reinforcing bar coupler provided in the present invention, the user first wire-couples one reinforcing bar (S1) and fastens it with a coupling screw 200 to fix the reinforcing bar (S1) first, and then secures the inlet of the opposite body (100). The remaining reinforcing bars (S2) can be easily inserted and fixed. Therefore, the user can easily connect the reinforcement with one's own force by using the reinforcement coupler having the configuration provided in the present invention.

Then, when the final tightening is completed with the coupling screw 200, the elastic body 400 seated on the guide plates 300a and 300b is compressed up and down and expanded to both open sides. Since the reinforcing bar (S1, S2) inserted to both sides of the body 100 is pressed outward by the expansion of the elastic body 400, the nodes of the reinforcing bars (S1, S2) are formed in the first and second bodies (120, 140). It is possible to prevent the initial slip of the reinforcing bar because it is tightly adhered to the first and second irregularities 122 and 142. In addition, since the reinforcing bars S1 and S2 inserted at both sides are organically connected by the elastic body 400, there is an effect of increasing the compressive strength.

The present invention described above is not limited to the above-described embodiments, and any person having ordinary knowledge in the technical field to which the present invention pertains without departing from the gist of the present invention claimed in the following claims can be changed in various ways. It should be regarded as belonging to the scope of protection of the claims to the extent that it can be implemented.

100: body
120: first body
122: first irregularities
140: second body
142: second irregularities
200: coupling screw
300,300a,300b: guide plate
400: elastic body

Claims (2)

A body in which a first body having a first unevenness formed on the inside and a second body having a second unevenness formed inside are coupled to each other so that the nodes of the reinforcing bar inserted into the inside by the first and second unevenness are caught;
A coupling screw penetrating the first body and the second body to be coupled to each other;
A pair of guide plates formed inside the centers of the first body and the second body, respectively;
It is provided between the guide plates and, when uncompressed, maintains a gap between the first body and the second body so that the reinforcing bar can be inserted into both sides of the body, and is expanded to both sides by tightening the coupling screw. Includes; an elastic body to be in close contact with each end of the inserted reinforcing bar,
The elastic body,
An ultra-high-tensile reinforcement coupler minimizing initial slip, characterized in that it has a ball shape and is seated in a round groove formed at an end of the guide plate. delete

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