KR20190004575A - Magic steel reinforcement coupling and its coupling method - Google Patents

Abstract

The present invention relates to a magic steel bar coupling device and a method for coupling the same that are capable of connecting two steel bars. According to the present invention, the magic steel bar coupling device includes: a coupling part having two roof tile-shaped bodies in such a manner as to surround both sides of a connected end portion between two steel bars; and a cover part covered on the outer periphery of the coupling part to support the coupling part, wherein the coupling part has a plurality of fixing protrusions protruding therefrom in such a manner as to correspond to a space between a plurality of protrusions formed on the steel bars. According to the present invention, further, the method for coupling a magic steel bar coupling device includes the steps of: (a) surroundingly fastening lower peripheries of two bodies of a coupling part to an upper periphery of a lower steel bar; (b) mounting a cover part on the outer periphery of the top portion of the coupling part fastened to the lower steel bar; (c) press-fitting an upper steel bar to the inside of the top portion of the coupling part; and (d) fixing the cover part to the top portion of the coupling part by means of the application of a force in an axial direction. According to the present invention, the magic steel bar coupling device allows the coupling part to fasten the steel bars by means of one-touch way, thereby shortening construction time, and provides the cover part as a forged product, thereby remarkably reducing manufacturing cost. Further, the coupling part is formed of an injection molded product or a forged product, thereby achieving weight reduction and improving excellent tension and strength, and the cover part as an outside coupler is coupled to the outer periphery of the coupling part to support the coupling part, thereby improving stability.

Description

METHOD FOR MAGIC STEEL REINFORCEMENT COUPLING AND ITS COUPLING METHOD "

The present invention relates to a method of joining a magic steel reinforcing coupling and a magic reinforcing steel coupling. More particularly, the present invention relates to a magic reinforcing steel coupling which is composed of an inner joint which joins two reinforcing bars and an outer joint which supports the inner joint, Ring and a magic reinforcing coupling.

Generally, since the size of the reinforcing bars used for reinforcing the rigidity of a concrete structure is limited when the concrete is laid in a building or civil engineering work, two or more reinforcing bars are successively used when the height or the size of the structure is large.

In this type of joining method of reinforcing bars, there are a joining type lap joint joining the reinforcing bars side by side, a method of screwing both ends of the joining reinforcing bars to form a male thread portion, a method of tightening the female threaded coupler by rotating it, There is a welded joining method in which the welding rod is melted and melted and welded to the steel bar by means of a mechanical joint which inserts a deformed steel bar and presses the steel pipe at room temperature so as to come into close contact with the bar of the deformed steel bar.

In addition, one of the two reinforcing bars to be connected is threaded and the other is a one-touch joint in which a locking jaw is formed, the threaded reinforcing bars are first joined to the corresponding coupler, and then the reinforcing bars, .

Among them, threaded coupler using female threaded coupler is used for various kinds of bridges, piers, roofs, subways, tunnels, and port constructions because it has no expansion and contraction at the time of joining and is easy to construct and secure stable quality.

However, such a threaded coupler has a disadvantage in that it requires high accuracy of machining because the position and length of the joint must be accurate, the tightening time is very long, and the cost is high, such as cost for rebar work as a factory processed product.

On the other hand, the one-touch coupler used as an alternative is improved to shorten the time, but the cost is still high.

It is an object of the present invention to provide a screw coupler and an advantage of a one-touch coupler in order to solve the above problems, And the outer joint is formed as an integral forging member and bonded to the outer side of the inner joint, thereby improving the tensile strength and strength, shortening the time, improving the safety, reducing the weight due to carbon, and reducing the cost. To provide a magic reinforcing coupling.

According to an aspect of the present invention, there is provided a magic reinforcing coupling for coupling two reinforcing bars, comprising two bodies formed in a tile shape, And a cover portion formed to support the coupling portion by being wrapped outside the coupling portion, and the coupling portion may form a fixing protrusion corresponding to a plurality of protrusions formed on the reinforcing bar.

In addition, the coupling body may include a fixing spring at upper and lower portions and may be integrally formed with the spring.

In addition, the coupling portion may include a spacing portion protruding inwardly so that the two reinforcing joints do not face each other.

In addition, the coupling portion may be formed to have a mos tapered outer side, and the inner side of the cover portion may form a slope corresponding to the outer mos taper of the coupling portion.

In addition, the coupling portion may include a plurality of release preventing grooves formed along an outer circumferential surface at an outer lower portion thereof, and the cover portion may include a detent ring at a lower portion of the inner circumferential surface thereof so that the detent ring faces the detent preventing groove, And can be fixed to the coupling portion.

Also, the coupling part may be formed of a composite material of carbon fiber and plastic, or a forgings manufactured by forging and sintering.

Meanwhile, the coupling method of coupling the magic reinforcing steel coupling to the reinforcing steel according to the embodiment of the present invention includes the steps of: (a) binding the lower part of the two bodies of the coupling part to wrap the upper part of the lower reinforcing steel; (b) mounting the cover portion to an upper outer side of the coupling portion engaged with the lower reinforcing bar; (c) press-fitting the upper reinforcing bar into the upper portion of the coupling portion on which the cover portion is fixed; (d) fixing the cover portion mounted on the coupling portion by applying an axial force thereto.

The magic reinforcing coupling according to the embodiment of the present invention is advantageous in that the coupling part, which is an inner coupling, can fasten the reinforcing bars in a one-touch manner, thereby shortening the construction time.

In addition, the cost can be significantly reduced by using the cover portion as a monolithic forgings.

In addition, the coupling portion can be formed of a forged product made of carbon and plastic synthetic materials or including forging and sintering methods to reduce weight and improve tensile strength and strength.

In addition, the cover portion, which is an external coupling, is coupled to the outside of the coupling portion to support the coupling portion, thereby improving safety.

1 is a perspective view showing a state where a magic reinforcing coupling according to an embodiment of the present invention is connected to a reinforcing bar.
Fig. 2 (a) is a plan view of the coupling part of Fig. 1, and Fig. 2 (b) is a plan view of the cover part of Fig.
Fig. 3 is a perspective view of one body of the coupling portion of Fig. 2;
Fig. 4 is a cross-sectional view of Fig. 1 cut in the longitudinal direction. Fig.
5 is a view showing a coupling method of a reinforcing bar and a coupling part.
FIG. 6 is a view showing the position of engagement of the reinforcing bars, the coupling portion, and the cover portion. FIG.

Hereinafter, the description of the present invention with reference to the drawings is not limited to a specific embodiment, and various transformations can be applied and various embodiments can be made. It is to be understood that the following description covers all changes, equivalents, and alternatives falling within the spirit and scope of the present invention.

In the following description, the terms first, second, and the like are used to describe various components and are not limited to their own meaning, and are used only for the purpose of distinguishing one component from another component.

Like reference numerals used throughout the specification denote like elements.

As used herein, the singular forms "a", "an" and "the" include plural referents unless the context clearly dictates otherwise. It is also to be understood that the terms " comprising, "" comprising, "or" having ", and the like are intended to designate the presence of stated features, integers, And should not be construed to preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

Hereinafter, embodiments of the present invention will be described in detail with reference to FIGS. 1 to 6 attached hereto.

Fig. 1 is a perspective view showing a state in which a magic reinforcing coupling according to an embodiment of the present invention is attached to a reinforcing bar, Fig. 2 (a) is a plan view of the coupling part in Fig. 1, Fig. 3 is a perspective view of one body of the coupling part of Fig. 1, and Fig. 4 is a cross-sectional view of Fig. 1 taken along the longitudinal direction.

Referring to FIGS. 1 to 4, a magic reinforcing coupling according to an embodiment of the present invention includes two reinforcing bars S-1 and S-2. As shown in FIG. 1, And may include a ring portion 10 and a cover portion 60.

In detail, the coupling portion 10 is provided to enclose the two reinforcing bars S-1 and S-2 and may be composed of two bodies 11-1 and 11-2 formed in a tiled shape . That is, as shown in FIG. 2, when the bodies 11-1 and 11-2 of the coupling part 10 are viewed from a plane, they may be in an arcuate shape having a curve like a bow. Since the coupling part 10 includes two bodies 11-1 and 11-2, the description of the coupling part 10 includes two bodies 11-1 and 11-2 .

The coupling portion 10 may be formed to surround the joint ends of the two reinforcing bars S-1 and S-2 on both sides. At this time, the two reinforcing bars (S-1, S-2) can be joined to the upper and lower portions of the coupling portion 10, respectively.

That is, the upper portion of the lower reinforcing bar S-2 is coupled to the lower portion of the coupling portion 10, and the lower portion of the upper reinforcing bar S-1 is coupled to the upper portion of the coupling portion 10.

In the coupling portion 10, a plurality of fixing protrusions 12 corresponding to the interval between the plurality of protrusions formed on the reinforcing bar may be formed. This is to fix the coupling part 10 and the reinforcing bars S-1 and S-2, and the plurality of fixing protrusions 12 of the coupling part 10 are mounted between the protrusions formed on the reinforcing bars, S-2 without being off-axis.

At this time, the shape of the fixing protrusions 12 may be a trapezoidal shape with one side being orthogonal as shown in FIG. 3, so that the insertion of the reinforcing bars is facilitated, but the deviation can be prevented.

A fixing spring 13 may be provided on the upper portion and the lower portion of the coupling portion 10, respectively. The inner circumferential surface of the coupling portion 10 is connected to each of the reinforcing bars S-1 and S-2 through the coupling portion 10 to form a tension when the coupling portion 10 is engaged with the reinforcing bars S-1 and S- As shown in Fig. Here, coupling grooves (not shown) may be formed in the upper and lower portions of the coupling portion 10 so that the fixing springs 13 may be embedded therein.

Meanwhile, the coupling portion 10 may further include a gap holding portion 14. When the two reinforcing bars are pressed and inserted into the coupling portion 10, the gap holding portion 14 can prevent the ends of the two reinforcing bars from facing each other. To this end, the gap retaining portion 14 may protrude inwardly and be provided in the middle of the coupling portion 10.

That is, the upper portion and the lower portion of the coupling portion 10 can be divided based on the gap holding portion 14, so that the two reinforcing bars S-1 and S-2 can have the same balance.

The outer side of the coupling portion 10 may be formed to be mos tapered. In order to improve the adhesion of the cover portion 60 to the outside of the coupling portion 10, the inside of the cover portion 60 has a slope corresponding to a moss taper formed outside the coupling portion 10 . At this time, it is preferable that the morse taper is formed to be inclined at about 3 degrees and the diameter is increased from the upper side to the lower side. Hereinafter, the description of the cover portion 60 will be described later.

Also, the coupling portion 10 may define a plurality of detent grooves 15 formed along the outer circumferential surface of the outer lower portion. This is a secondary fixing structure of the coupling portion 10 and the cover portion 60 tightly joined together in the form of a moss taper and the cover portion 60. For this purpose, the cover portion 60 includes a stop ring 65 facing the departure prevention groove 15, Can be provided at the lower portion.

At this time, the release preventing groove 15 may be formed in the shape of an equilateral triangle as shown in FIG. 4, and the stop ring 65 may also be formed in the shape of an inverted triangle to correspond to the shape. This structure is easy to insert into the inside but can be prevented from being detached from the outside. It can be easily moved to the lower part, but is difficult to be detached from the upper part so that the coupling part 10 and the cover part 60 Can be made more stubborn.

However, the release preventing grooves 15 are not limited to the above, and may be formed in a trapezoidal shape in which one side is a right angle and the other side is a predetermined angle. Also, the stop ring 65 may be formed in a trapezoidal shape with one side being orthogonal to the corresponding one. At this time, it is preferable that one side of the separation preventing groove 15 is formed to be opposite to the gap holding portion 14, and one side of the stop ring 65 which is perpendicular to the gap holding portion 14 is formed to face the gap holding portion 14.

Further, the release preventing groove 15 and the stop ring 65 may be formed in various shapes such as a circular shape or a triangular shape. That is, it can be formed in any shape as long as it is easy to insert and prevent the separation.

The cover portion 60 may be wrapped outside the coupling portion 10 to support the coupling portion 10. At this time, it is preferable that the cover portion 60 is wrapped downward from the upper direction of the coupling portion 10.

As described above, the cover portion 60 is formed so as to be mos tapered at an inclination corresponding to the outside of the coupling portion 10, so that the cover portion 60 is in close contact with the coupling portion 10. The coupling portion 10 The detent ring 65 corresponding to the release preventing groove 15 of the coupling portion 10 can be fixed to the coupling portion 10 at a secondary position.

On the other hand, the outer peripheral surface of the cover portion 60 can form a slope. This is to improve adhesion with concrete poured to the outside of the cover portion 60 on the same principle as forming a moss taper in order to improve the adhesion between the coupling portion 10 and the cover portion 60. [

In addition, the coupling portion 10 is formed of a forged product made of synthetic materials of carbon fiber and plastic or forging and sintering to significantly reduce the weight, and the cover portion 60 is made of a pipe forgings .

FIG. 5 is a view showing a coupling method of a reinforcing bar and a coupling part, and FIG. 6 is a view showing a coupling position of a reinforcing bar, a coupling part and a cover part.

5 to 6, a coupling method for coupling a magic reinforcing coupling includes a step (S10) of binding the lower portion of two bodies of the coupling portion to wrap the upper portion of the lower reinforcing bar, (S30) of inserting the upper reinforcing bar into the upper part of the coupling part where the cover part is mounted (step S30), fixing the cover part mounted on the upper part of the coupling part by applying force in the axial direction S40).

Specifically, in step S10, the upper portion of the lower reinforcing bar S-2 of the two reinforcing bars to be connected is folded into two bodies 11-1 and 11-2 of the coupling portion 10 so as to surround the lower portion of the coupling portion 10 Can be joined at both sides of the lower reinforcing bar S-2, respectively. At this time, the fixing spring 13 is embedded in the lower part of the coupling part 10 and can be brought into close contact with the upper part of the lower reinforcing bar S-2 due to the tension.

Step S20 may be performed to mount the cover portion 60 on the outer side of the coupling portion 10 coupled with the lower reinforcing bar S-2 in the step S10. 5, the cover portion 60 is mounted on the outer side of the coupling portion 10 so as to be slightly tilted, and between the outer side of the coupling portion 10 and the inner side of the cover portion 60, May be spaced apart. This is because the cover portion 60 and the coupling portion 10 are not in close contact with each other in Step S20 so that the upper reinforcing bar S- As shown in FIG.

Step S30 is a step of press fitting the upper reinforcing bar S-1 into the coupling portion 10 and connecting the lower portion of the upper reinforcing bar S-1 to the inside of the cover portion 60, And can be press-fitted into the upper portion of the coupling portion 10. At this time, due to the elastic force of the fixing spring 13, the upper reinforcing bar S-1 can be easily pressed and fixed to the upper portion of the coupling portion 10. [

Thus, the lower reinforcing bar S-2 and the upper reinforcing bar S-1 can be simply connected by the coupling portion 10.

As described above, the coupling portion 10 may be provided with the gap holding portion 14, and preferably the gap holding portion 14 may be formed at the center of the coupling portion 10. Thus, the lower reinforcing bar S-2 and the upper reinforcing bar S-1 can be precisely balanced.

In step S40, the two reinforcing bars S-1 and S-2 are passed through the coupling part 10, and then the cover part 60, which is mounted on the coupling part 10, Lt; / RTI > At this time, the force applied to the cover portion 60 is not limited, but it is most preferable to use a tool to improve safety and reduce power consumption.

Here, the cover portion 60 is brought into close contact with the mos taper inclination of the coupling portion 10 due to the applied force, and moves downward. When the cover portion 60 reaches the lower portion, the stop ring 65 of the cover portion 60 is prevented It can rest on the groove 15 and resist the repulsive force due to the mos taper inclination. Accordingly, the cover portion 60 can be moved and fixed only to the lower portion without being detached upward.

The cover portion 60 fixed to the coupling portion 10 can firmly support the coupling portion 10 connecting the reinforcing bars.

The magic reinforcing coupling according to the embodiment of the present invention is advantageous in that the coupling part, which is an inner coupling, can fasten the reinforcing bars by a one-touch method, shortening the construction time, and significantly reducing the cost by using the cover part as an integral forging And the coupling portion can be formed of a forged product made of carbon and plastic synthetic materials or a forging and sintering method to improve the tensile strength and the strength at the same time as the weight is reduced. And the coupling is coupled to the outside to improve the safety.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, You will understand. The embodiments described above are therefore to be considered in all respects as illustrative and not restrictive.

10: Coupling portion
11: Body
12: Fixing projection
13: Fixing spring
14:
15: Leaving prevention groove
60: Cover part
65: Stop ring
S: Rebar

Claims (7)

In reinforcing bars coupling two reinforcing bars,
A coupling part formed of two bodies formed in a tile shape and configured to wrap the joint ends of the two reinforcing bars from both sides,
And a cover portion covering the coupling portion so as to cover the coupling portion,
The coupling portion includes:
And a fixing protrusion is formed between the plurality of protrusions formed on the reinforcing bar.
The method according to claim 1,
The coupling body includes:
Wherein the first and second elastic members are integrally formed with a spring including upper and lower fixing springs.
The method according to claim 1,
The coupling portion includes:
And a gap retainer protruding inwardly so that the two reinforcing joints do not face each other.
The method according to claim 1,
Wherein the coupling portion is formed so that the outer side thereof is mos tapered,
Wherein the cover portion forms an inclination whose inside corresponds to the coupling mos side outer moss taper.
5. The method of claim 4,
The coupling portion may have a plurality of escape preventing grooves formed along an outer peripheral surface at an outer lower portion thereof,
Wherein the cover portion has a stop ring at a lower portion of the inner circumferential surface thereof,
And the stop ring is opposed to the release preventing groove and the cover portion is fixed to the coupling portion.
The method according to claim 1,
The coupling portion includes:
A composite of carbon fiber and plastic, or a forgings manufactured by forging and sintering.
A method of joining a magmatic steel coupling,
(a) binding the lower part of the two bodies of the coupling part to wrap the upper part of the lower reinforcing bar;
(b) mounting the cover portion to an upper outer side of the coupling portion engaged with the lower reinforcing bar;
(c) press-fitting the upper reinforcing bar into the upper portion of the coupling portion on which the cover portion is fixed;
(d) securing the cover portion mounted on the coupling portion by applying axial force thereto.

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