KR102453525B1 - Structural coupler - Google Patents

Abstract

The present invention is a pair of deformed reinforcing bars embedded in different concrete members and having a first screw thread formed along the periphery of the outer peripheral surface of the end; A third screw thread is formed along the outer circumferential circumference of the other end portion, and a vertical step is formed so that one end has a larger outer circumferential circumference than the outer circumferential circumference of the other end. formed hook sleeves; a lock nut having a fourth screw thread to which a third screw thread formed on the hook sleeve is screwed along an inner circumferential surface; The inside is hollow to accommodate the hook sleeve, and a vertical step having a circumference smaller than the circumference of one end of the hook sleeve and larger than the circumference of the outer circumference of the other end of the hook sleeve is formed at one end of the hollow inside. a first coupler having a fifth screw thread formed along the circumference; And the inside is hollow so that the hook sleeve can be accommodated, and a vertical step is formed at the other hollow inner end to have a circumference smaller than the circumference of one end of the hook sleeve and larger than the circumference of the circumference of the other end of the hook sleeve. and a second coupler having a sixth screw thread screwed to the fifth screw thread formed on the first coupler along the outer circumferential circumference.

Description

Structural coupler {STRUCTURAL COUPLER}

The present invention relates to a structural coupler, and more particularly, to a structural coupler that can be easily connected even if a pair of deformed reinforcing bars embedded in different concrete members are spaced apart from each other or have different central axes.

Reinforcing bars are steel materials that are buried in concrete and used to reinforce concrete.

Round reinforcing bars refer to those that have no nodes on the surface of reinforcing bars, and deformed reinforcing bars refer to those with nodes and ribs on the surface of reinforcing bars. Deformed reinforcing bars with advantages are mainly used.

On the other hand, when reinforcing bars are used to reinforce structures such as concrete reinforcing materials, they are joined with neighboring reinforcing bars by welding or connected by rebar joints (reinforcing bars). Due to this, there is a risk of initial deformation, frequent initial slip after assembly, and the need to change the structure according to the type of reinforcing bar due to poor compatibility.

In order to solve this problem, Korean Utility Model No. 20-0223677 discloses a 'reinforcing bar joint structure' that enables fastening using rebar nodes.

The 'reinforced joint structure' consists of a pair of semi-cylindrical bodies having grooves formed on the inner circumferential surface, a coupling fastened to both ends of the semi-cylindrical body, and a fixed iron pin coupled between the semi-cylindrical body and the coupling to reduce the spacing.

This 'reinforcing bar joint structure' has a structure in which the groove formed on the inner circumferential surface of the semi-cylindrical body is engaged with the protruding node of the reinforcing bar, and the semi-circular fixed reinforcing pin is mounted at the end of the semi-cylindrical body and then coupled by coupling the coupling. That is, the reinforcing bar is fastened in the axial direction by the force applied to the node of the reinforcing bar and the groove of the semi-cylindrical body.

However, since the reinforcing bar itself has a large weight, a large tensile force is generated in the reinforcing bar joint device, and as the load is concentrated on the reinforcing bar nodes, the reinforcing bar nodes are distorted, worn, or damaged in severe cases, and the fastening force is lost. In other words, since the reinforcing bar itself has an elliptical shape with an error range of a certain size rather than a circular one, the semi-cylindrical body coupled thereto does not precisely contact the outer surface of the reinforcing bar, but is fastened in such a way that one tangent line is formed for each semi-cylindrical body, Also, since it is not accurately inserted into the groove of the semi-cylindrical body and there is a separation distance, the tensile force acting on the reinforcing bar joint device sequentially acts on a number of fastening parts, leading to distortion, abrasion, and, in severe cases, damage to the reinforcing bar joint, resulting in loss of its fastening force. there was

In particular, it is difficult to correctly connect a pair of reinforcing bars embedded in different concrete members, and even if they are connected, they cannot withstand the shear, bending, tensile, and compressive loads acting between the connected concrete members, leading to distortion, abrasion, and, in severe cases, damage. There was a problem.

In order to solve this problem, Korean Patent Registration No. 10-0923565 discloses "a connector and a connection structure using the same" that can easily and well perform interconnection of concrete parts, and Korean Patent Application Laid-Open No. 10-2011 In No. -0123627, even if the axis lines of the two connecting rods to be connected are misaligned, the misaligned axis line is corrected and the coupling position is moved to enable correct coupling and installation without interference from adjacent couplings and their fastening method" is disclosed.

However, "connector and connection structure using the same" and "coupling device and its fastening method" refer to the male thread part ( screw) had to be formed over a relatively wide range, and friction welding had to be carried out to solve this problem. there was.

And "connector and connection structure using the same" and "coupling device and its fastening method" are both after inserting the female coupler from the outside through the insertion hole into the male threaded part of the connecting rod, and then screwing the female coupler into the male threaded part of the connecting rod, and then inserting the stopper. In the process of screwing to the connecting rod, there was a problem in that it was difficult to screw the stopper to the connecting rod because the internal space of the female coupler was narrow.

In addition, even if the stopper is screwed to the connecting rod, the set screw must be coupled to firmly fix the stopper to the connecting rod. There was a problem.

On the other hand, when the stopper is screwed to any position among the male threaded portions formed on the connecting rod before being positioned inside the female coupler and then the set screw is combined, different concrete There is a possibility that the stopper may be located in an unsuitable position to connect the connecting rod (connecting rod part) buried in the There was a problem in that the process of screwing the stopper to the location had to be repeated.

Korea Registered Utility Model No. 20-0223677 (Registered on Mar. 02, 2001) Korean Patent Registration No. 10-0923565 (Registered on October 19, 2009) Korean Patent Publication No. 10-2011-0123627 (published on November 15, 2011)

In the present invention, the structural coupler has different central axes between a pair of reinforcing bars embedded in different concrete members, or a state in which the central axes are different or spaced apart from each other even when a pair of reinforcing bars embedded in different concrete members are spaced apart. It relates to a structural coupler that can absorb the tolerance between a pair of reinforcing bars of

The present invention is a pair of deformed reinforcing bars embedded in different concrete members and having a first screw thread formed along the periphery of the outer peripheral surface of the end; A third screw thread is formed along the outer circumferential circumference of the other end portion, and a vertical step is formed so that one end has a larger outer circumferential circumference than the outer circumferential circumference of the other end. formed hook sleeves; a lock nut having a fourth screw thread to which a third screw thread formed on the hook sleeve is screwed along an inner circumferential surface; The inside is hollow to accommodate the hook sleeve, and a vertical step having a circumference smaller than the circumference of one end of the hook sleeve and larger than the circumference of the outer circumference of the other end of the hook sleeve is formed at one end of the hollow inside. a first coupler having a fifth screw thread formed along the circumference; And the inside is hollow so that the hook sleeve can be accommodated, and a vertical step is formed at the other hollow inner end to have a circumference smaller than the circumference of one end of the hook sleeve and larger than the circumference of the circumference of the other end of the hook sleeve. and a second coupler having a sixth screw thread screwed to the fifth screw thread formed on the first coupler along the outer circumferential circumference.

In particular, a support jaw made of a plastic material is internally accommodated around one end of the inner circumferential surface of the hook sleeve, or a support jaw and a spring made of a plastic material are internally accommodated around one end of the inner circumferential surface of the hook sleeve so that the support jaw and the spring can be sequentially accommodated. It is characterized in that the step is formed so as to have a smaller inner circumferential circumference than the hollow inner circumferential circumference of the sleeve.

A state in which a first injection groove is formed along the periphery of the other ends of the first coupler and the second coupler so as to inject a filler therein, and a third screw thread formed in the hook sleeve is screwed with a fourth screw thread formed in the lock nut In the first injection groove, the filler injected through the first injection groove can be injected into the inner one end of the first coupler or the second coupler, along the circumference of one end of the hook sleeve close to the other end of the hook sleeve. It is characterized in that two injection grooves are formed.

The rotation direction in which the second thread formed in the hook sleeve is screwed to the first thread formed in the deformed reinforcing bar of any one of the deformed reinforcing bars is the sixth thread formed in the second coupler and the fifth thread formed in the first coupler is The same as the rotation direction for screwing, the rotation direction in which the second screw thread formed in the hook sleeve is screwed to the first screw thread formed in the other deformed reinforcing bar among the deformed reinforcing bars is the fifth screw thread formed in the first coupler. It is characterized in that the 6th screw thread formed in the 2 coupler is the same as the rotation direction in which the screw is coupled.

The rotation direction in which the second screw thread formed in the hook sleeve is screwed to the first screw thread formed in the deformed reinforcing bar is the same as the rotation direction in which the fourth screw thread formed in the lock nut is screwed to the third screw thread formed in the hook sleeve do it with

The structural coupler of the present invention has a different central axis between a pair of reinforcing bars embedded in different concrete members, or a state in which the central axes are different or spaced apart from each other even when a pair of reinforcing bars embedded in different concrete members are spaced apart By absorbing the tolerance between a pair of reinforcing bars in

And the distance between the central axis of a pair of deformed reinforcing bars embedded in different concrete by the difference in length between the diameter of the inner peripheral surface of the step formed in the first coupler and the second coupler and the diameter of the outer peripheral surface of the other end of the hook sleeve is absorbed and fastened. can have an effect.

And a step is formed to have a smaller inner circumference than the hollow inner circumferential circumference of the hook sleeve, and a spring and a plastic support jaw are internally accommodated in the formed step. It has a preventable effect.

In addition, the direction of rotation in which the second screw thread formed in the hook sleeve is screwed to the first screw thread formed in one deformed reinforcing bar among the pair of deformed reinforcing bars embedded in different concrete members is the sixth screw thread formed in the second coupler is the first The 5th thread formed in the coupler is the same as the rotation direction in which the screw is screwed, and the second thread formed in the hook sleeve is screwed to the first thread formed in the other deformed reinforcing bar among a pair of deformed reinforcing bars embedded in different concrete members. As the rotation direction is configured to rotate in the same direction as the direction in which the fifth thread formed in the first coupler is screwed and the sixth thread formed in the second coupler is screwed, the second thread interposed in each of the pair of deformed reinforcing bars is formed. In the process of screwing the first coupler and the second coupler, the hook sleeve screwed to the pair of deformed reinforcing bars is not released, and the coupling can be made more firmly.

In addition, the rotation direction in which the second screw thread formed in the hook sleeve is screwed to the first screw thread formed in the pair of deformed reinforcing bars is the same as the rotation direction in which the fourth screw thread formed in the lock nut is screwed to the third screw thread formed in the hook sleeve. In the process of screwing the fourth screw formed in the lock nut to the third screw formed in the hook sleeve, the hook sleeve to which the deformed reinforcing bar is screwed is not uncoupled, and the coupling can be made more firmly. can have an effect.

1 is an exploded perspective view of a structural coupler according to an embodiment of the present invention.
2 is an exploded front view of a structural coupler according to an embodiment of the present invention.
3 is a cross-sectional view illustrating a hook sleeve of a structural coupler according to an embodiment of the present invention.
4 is a cross-sectional view illustrating a lock nut of a structural coupler according to an embodiment of the present invention.
5 is a cross-sectional view showing a first coupler of the structural coupler according to an embodiment of the present invention.
6 is a cross-sectional view showing a second coupler of the structural coupler according to an embodiment of the present invention.
7 to 10 are cross-sectional views sequentially illustrating a construction process of a structural coupler according to an embodiment of the present invention.
11 is a front view showing a state in which the structural coupler according to an embodiment of the present invention is constructed.
12 is a front view showing a structural coupler construction according to another embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in more detail with reference to the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in a variety of different forms, only these embodiments allow the disclosure of the present invention to be complete, and the scope of the invention to those of ordinary skill in the art completely It is provided to inform you. In the drawings, like reference numerals refer to like elements.

1 is an exploded perspective view of a structural coupler according to an embodiment of the present invention, and FIG. 2 is an exploded front view of a structural coupler according to an embodiment of the present invention.

1 and 2, in the present invention, the central axis is different between a pair of reinforcing bars embedded in different concrete members, or even in a state where a pair of reinforcing bars embedded in different concrete members are spaced apart from each other. Not only can the tolerance between a pair of reinforcing bars in a different or spaced state be absorbed, but also for a structure that can be securely fastened without relative motion between components even under shear, bending, tensile, and compressive loads acting between different concrete members It relates to a coupler, a pair of deformed reinforcing bars 100 embedded in different concrete members 10 and 20 that have fixed facilities in a factory and cured members such as columns, beams, and floor plates with iron formwork, and the It includes a pair of hook sleeves 200 , a pair of lock nuts 300 , a first coupler 400 and a second coupler 500 for coupling to a pair of deformed reinforcing bars 100 .

In one embodiment of the present invention, the deformed reinforcing bar 100 is a general deformed reinforcing bar with irregularities on the surface to facilitate the attachment of concrete, and more specifically, as a steel in the overall shape of a rod, symmetrically protruding along the longitudinal direction. The two rows of ribs and the nodes protruding in the transverse direction, respectively, are formed at equal intervals in the upper and lower portions based on the two rows of ribs.

In particular, in one embodiment of the present invention, the deformed reinforcing bar 100 has a first screw thread 110 along the outer peripheral surface of the end of the deformed reinforcing bar 100 so that the hook sleeve 200 can be screwed. Since the first thread is formed in a relatively short area, the rolled thread can be processed even by the swaging method.

And in one embodiment of the present invention, the deformed reinforcing bar 100 is a general deformed reinforcing bar with irregularities attached to the surface to facilitate the attachment of concrete, but the present invention is not limited thereto. The formed linear members of various shapes may be applied.

3 is a cross-sectional view illustrating a hook sleeve of a structural coupler according to an embodiment of the present invention.

1 to 3, the hook sleeve 200 is a member having a shape such as '┣' or '┫' when viewed from the front, and has a cylindrical shape with a hollow inside through which the whole is penetrated. , a step (A) having a larger circumference than the circumference of the outer circumference of the other end is formed around the outer circumference of one end.

The hook sleeve 200 has a second screw thread 210 formed along the inner circumferential circumference so as to be screwed to and fixed to the first screw thread 110 formed around the outer circumferential surface of the end of the deformed reinforcing bar 100, and the hook sleeve Step 200 formed in the first coupler 400 or the second coupler 500 interposed in the deformed reinforcing bar 100 before the 200 is screwed to the first screw thread 110 formed in the deformed reinforcing bar 100 ( A step (A) is formed around the outer circumferential surface of one end of the hook sleeve 200 so as to have a larger circumference than the circumference of the other end of the hook sleeve 200 so as to serve as a step that can be caught on C, D). will become

And a step difference to have an inner circumferential circumference smaller than the hollow inner circumferential circumference of the hook sleeve 200 so that a plastic support protrusion 230 and a spring 240 can be internally accommodated around the inner circumferential surface of one end of the hook sleeve 200 . (B) is formed, and accordingly, the hook sleeve 200 is screwed to the deformed reinforcing bar to prevent loosening in the fastened state.

In addition, a third screw thread 220 is formed along the circumference of the outer peripheral surface of the other end of the hook sleeve 200 . Before being screwed to the screw thread 110 , it is screwed with the fourth screw thread 310 formed along the inner peripheral surface of the lock nut 300 interposed in the deformed reinforcing bar 100 .

That is, the third screw thread 220 formed around the outer circumferential surface of the other end of the hook sleeve 200 protruding through the first coupler 400 or the second coupler 500 accommodating the hook sleeve 200 inside. The steps C and D formed in the first coupler 400 and the second coupler 500 and the hook sleeve 200 by screwing the fourth screw thread 310 formed along the inner peripheral surface of the lock nut 300 . The step (A) formed in the abutment can be firmly fastened and fixed.

In addition, in one embodiment of the present invention, a release mark is formed along the circumference of the outer peripheral surface of one end of the hook sleeve 200 so that the screw connection can be more robustly and easily.

4 is a cross-sectional view illustrating a lock nut of a structural coupler according to an embodiment of the present invention.

1, 2, and 4, the lock nut 300 has steps C and D formed in the first coupler 400 or the second coupler 500 and the steps formed in the hook sleeve 200 ( A) a member having a substantially ring shape as a means to be firmly fastened and fixed by abutting, and a fourth screw thread 310 screwed to the third screw thread 220 formed in the hook sleeve 200 along the inner circumferential circumference ) is formed.

In particular, in one embodiment of the present invention, a release mark is formed around the outer circumferential surface of the lock nut 300 to make screwing more robust and easier.

In addition, in an embodiment of the present invention, in an area where the lock nut 300 and the first coupler 400 come into contact with each other and an area where the lock nut 300 and the second coupler 500 come into contact with each other, the screw coupling is more firmly performed. Circular irregularities were formed in each to make it easier.

5 is a cross-sectional view showing a first coupler of the structural coupler according to an embodiment of the present invention.

1, 2 and 5, the first coupler 400 has an overall cylindrical shape, and the hook is screwed to any one of the deformed reinforcing bars 100 among the pair of deformed reinforcing bars 100. The inside is hollow so that the hook sleeve 200 can be accommodated in order to perform the role of a step that can be caught on the step A formed at one end of the sleeve 200, and the other end of the hollow inside has the hook sleeve ( A step C having a circumference larger than the circumference of the other end of the hook sleeve 200 and smaller than the circumference of the circumference of one end of the hook sleeve 200 is formed.

And a fifth screw thread 410 is formed along the inner peripheral surface of one end of the first coupler 400 .

In addition, in an embodiment of the present invention, the first coupler 400 has a release mark along the outer peripheral surface of the other end to make the screw coupling more robust and easy.

6 is a cross-sectional view showing a second coupler of the structural coupler according to an embodiment of the present invention.

1, 2 and 6, the second coupler 500 has an overall cylindrical shape, and is screwed to the other deformed reinforcing bar 100 among the pair of deformed reinforcing bars 100. The inside is hollow so that the hook sleeve 200 can be accommodated in order to serve as a step so that it can be caught on the step A formed at one end of the hook sleeve 200, and the other end of the hollow inside has the hook sleeve ( A step D having a circumference greater than the circumference of the other end of the hook sleeve 200 and greater than the circumference of the circumference of the one end of the hook sleeve 200 is formed.

And a sixth screw thread 510 screwed to the fifth screw thread 410 formed in the first coupler 400 is formed along the outer peripheral surface of one end of the second coupler 500 .

In addition, in an embodiment of the present invention, the second coupler 500 has a release mark along the outer peripheral surface of the other end to make the screw coupling more robust and easy.

On the other hand, in order to connect a pair of deformed reinforcing bars of the structural coupler according to an embodiment of the present invention, the lock nut 300, the first and second couplers 400, 500 and the pair of deformed reinforcing bars 100 are connected to the pair of deformed reinforcing bars 100. Equal intervals along the periphery of the other ends of the first coupler 400 and the second coupler 500 so that the structure can be more stably supported by injecting a filler from the outside to the inside in a state in which the hook sleeve 200 is coupled to each other to form a first injection groove (400a, 500a), and the filler injected through the first injection grooves (400a, 500a) formed in the first coupler 400 and the second coupler 500 is added to the first coupler 400 and the second coupler 500 at equal intervals along the circumference of the one end of the hook sleeve 200 close to the other end of the hook sleeve 200 so as to be injected into the inner end of the second coupler 500 . It is preferable that the injection groove 200b is formed.

In the process of connecting a pair of deformed reinforcing bars of the structural coupler according to an embodiment of the present invention, an area in which a step D is formed in the first coupler 400, and a step D in the first coupler 400 If circular concavities and convexities are respectively formed in the region where the step A of the hook sleeve 200 is formed, the first coupler 400 and the hook sleeve 200 may be firmly coupled to each other.

Similarly, circular unevenness is formed in the region where the step C is formed in the second coupler 500 and the region where the step A of the hook sleeve 200 is in contact with the step C in the second coupler 500 , respectively. If this is formed, the second coupler 500 and the hook sleeve 200 may be firmly coupled.

In addition, if circular irregularities are formed in regions where the lock nut 300 and the first coupler 400, and the lock nut 300 and the second coupler 500 contact each other, the lock nut 300 and the hook sleeve 200 ), the lock nut 300 and the first coupler 400 and the lock nut 300 and the second coupler 500 may be firmly coupled.

7 to 10 are cross-sectional views sequentially illustrating a construction process of a structural coupler according to an embodiment of the present invention, and FIG. 11 is a front view showing a construction state of the structural coupler according to an embodiment of the present invention, FIG. 12 is a front view showing a state in which the structural coupler according to another embodiment of the present invention is constructed.

Hereinafter, a construction process of a structural coupler according to an embodiment of the present invention will be described with reference to FIGS. 7 to 12 .

As shown in FIG. 7 , any one of the deformed reinforcing bars 100 among a pair of deformed reinforcing bars 100 embedded in different concrete members 10 and 20 has a lock nut 300 and a first coupler 400 . are sequentially interposed, and the lock nut 300 and the second coupler 500 are sequentially interposed in the other deformed reinforcing bar 100 among a pair of deformed reinforcing bars 100 embedded in different concrete members.

As shown in FIG. 8 , the second screw threads 210 formed in the hook sleeve 200 are screwed together to the first screw threads 110 formed at the ends of the pair of deformed reinforcing bars 100 , respectively, and fixed.

At this time, the spring 240 and the fulcrum 230 are sequentially accommodated in the step (B) formed to have a smaller inner circumferential circumference than the hollow inner circumferential circumference of the hook sleeve 200, so that the hook sleeve 200 is a deformed reinforcing bar ( 100) can absorb the compressive load acting in the end direction of the deformed reinforcing bar 100 in the screwed state.

As shown in Figure 9, the first coupler to the step (A) formed at one end of the hook sleeve 200 respectively fixed to a pair of deformed reinforcing bars 100 embedded in different concrete members (10, 20) After disposing the steps (C, D) formed at the other inner end of the 400 and the second coupler 500 to be in contact with each other, the fifth screw thread 410 and the second coupler 500 formed in the first coupler 400 . ) and the sixth screw thread 510 formed on the screw.

As shown in FIG. 10 , the fourth screw thread 310 formed on the lock nut 300 interposed in each of a pair of deformed reinforcing bars 100 embedded in different concrete members 10 and 20 is attached to the hook sleeve 200 . It is screwed to the third screw thread 220 formed in the .

In particular, the process of screwing the first coupler 400 and the second coupler 500 respectively interposed in each deformed reinforcing bar 100 in a state in which the hook sleeve 200 is screwed to the pair of deformed reinforcing bars 100 . Hook sleeve ( The rotation direction in which the second screw thread 210 formed in 200 is screwed is the sixth screw thread 510 formed in the second coupler 500 and the fifth screw thread 410 formed in the first coupler 400 is screwed. Rotation in which the second screw thread 210 formed in the hook sleeve 200 is screwed to the first screw thread 110 formed in the other deformed reinforcing bar 100 among the pair of deformed reinforcing bars 100, which is the same as the rotation direction. The direction is that the fifth screw thread 410 formed in the first coupler 400 is rotated in the same direction as the rotation direction in which the sixth screw thread 510 formed in the second coupler 500 is screwed into a structure in which the screw is screwed together. desirable.

In addition, in the process of screwing the fourth screw thread 310 formed in the lock nut 300 to the third screw thread 220 formed in the hook sleeve 200, the hook sleeve 200 screwed to each deformed reinforcing bar 100 is The rotation direction in which the second screw thread 210 formed in the hook sleeve 200 is screwed to the first screw thread 110 formed in the pair of deformed reinforcing bars 100 so as not to be uncoupled is the third screw formed in the hook sleeve 200. It is preferable to have a structure in which the fourth screw thread 310 formed on the lock nut 300 is rotated in the same direction as the screw thread 220 to be screwed.

After the fastening to the structural coupler according to an embodiment of the present invention is completed, the final construction is completed by injecting the filler therein through the first injection groove 500a and the second injection groove 200b.

On the other hand, as shown in FIGS. 11 and 12 , in order to more easily couple each configuration, the outer peripheral surface of the lock nut 300 and the outer peripheral surface of the other ends of the first coupler 400 and the second coupler 400 are taken along the circumference. A polygonal outer circumferential shape such as a hexagon or an octagon may be given to form a deformed mark or to be easily combined using a tool such as a pipe wrench.

The structural coupler constructed by the above-described method has a different central axis between a pair of deformed reinforcing bars 100 embedded in different concrete members 10 and 20, or is embedded in different concrete members 10 and 20. Even in a state where a pair of deformed reinforcing bars 100 are separated from each other, tolerance is absorbed between a pair of deformed reinforcing bars 100, so that shear, bending, tensile, and compressive loads acting between different concrete members 10 and 20 are relative to each other. It can be firmly fastened without movement, and as much as the difference in length between the inner peripheral diameter of the steps C and D formed in the first coupler 400 and the second coupler 400 and the outer peripheral diameter of the other end of the hook sleeve 200 , each other It can be fastened by absorbing the spaced distance between the central axes of a pair of deformed reinforcing bars 100 embedded in other concrete 10 and 20 .

Although the present invention has been described with reference to the accompanying drawings and the above-described preferred embodiments, the present invention is not limited thereto, and is defined by the claims described below. Accordingly, those of ordinary skill in the art can variously change and modify the present invention within the scope without departing from the spirit of the claims to be described later.

10, 20: concrete member 100: deformed reinforcing bar
110: first thread 200: hook sleeve
200b: second injection groove 210: second thread
220: third thread 230: support jaw
240: spring 300: lock nut
310: fourth thread 400: first coupler
410: fifth thread 400a: first injection groove
500: second coupler 510: sixth thread
500a: first injection groove

Claims (5)

A pair of deformed reinforcing bars embedded in different concrete members and having a first screw thread formed along the outer peripheral surface of the end;
A third screw thread is formed along the outer circumferential circumference of the other end, and a vertical step (A) is formed so that one end has a larger outer circumferential circumference than the outer circumferential circumference of the other end. two-threaded hook sleeve;
a lock nut having an inner circumferential circumference larger than the outer circumferential circumference of the pair of deformed reinforcing bars, and having a fourth screw thread to which a third screw thread formed in the hook sleeve is screwed along the inner circumferential circumference;
The inside is hollow so that the hook sleeve can be accommodated, and a vertical step (C) having a circumference smaller than the circumference of one end of the hook sleeve and larger than the circumference of the circumference of the other end of the hook sleeve is formed at one end of the hollow inside, a first coupler having a fifth screw thread formed along the inner circumference of one end thereof; and
The inside is hollow so that the hook sleeve can be accommodated, and a vertical step (D) is formed at the other hollow inner end to have a circumference smaller than the circumference of one end of the hook sleeve and larger than the circumference of the other end of the hook sleeve, a second coupler having a sixth screw thread screwed to the fifth screw thread formed in the first coupler along the circumference of one end of the outer circumferential surface;
A step (B) is formed around the inner circumferential surface of one end of the hook sleeve so as to have a smaller inner circumferential circumference than the hollow inner circumferential circumference of the hook sleeve so that a support jaw made of a plastic material and a spring can be sequentially accommodated. coupler.
delete The method according to claim 1,
A first injection groove is formed along the circumference of the other end of the first coupler and the second coupler so as to inject the filler therein;
so that the filler injected through the first injection groove can be injected into the inner end of the first coupler or the second coupler in a state where the fourth screw formed on the lock nut is screwed to the third screw formed on the hook sleeve. Structural coupler, characterized in that a second injection groove is formed along a periphery of a position close to the other end of the hook sleeve among one end of the hook sleeve.
The method according to claim 1,
The rotation direction in which the second thread formed in the hook sleeve is screwed to the first thread formed in the deformed reinforcing bar of any one of the deformed reinforcing bars is the sixth thread formed in the second coupler and the fifth thread formed in the first coupler is Same as the rotation direction for screwing,
The rotation direction in which the second screw thread formed in the hook sleeve is screwed to the first screw thread formed in the other deformed reinforcing bar among the deformed reinforcing bars is the fifth screw thread formed in the first coupler and the sixth screw thread formed in the second coupler is screwed Structural coupler, characterized in that the same as the direction of rotation to combine.
The method according to claim 1,
The rotation direction in which the second screw thread formed in the hook sleeve is screwed to the first screw thread formed in the deformed reinforcing bar is the same as the rotation direction in which the fourth screw thread formed in the lock nut is screwed to the third screw thread formed in the hook sleeve Structural coupler with

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