KR20210070416A - Rebar coupler having adjustable connection range and rebar connection method using thereof - Google Patents

Abstract

The present invention relates to a joint length-adjustable rebar coupler, capable of compensating for a joint length, and to a rebar joint construction method using the same. The joint length-adjustable rebar coupler of the present invention comprises: first and second rebars having ends to face each other; a first bonding member; a first screw coupling member extending in a second rebar direction; and a second bonding member bonded to the end of the second rebar to be integrated.

Description

Joint length adjustable rebar coupler and rebar joint construction method using the same {Rebar coupler having adjustable connection range and rebar connection method using thereof}

The present invention relates to a joint length-adjustable reinforcing bar coupler and a construction method thereof, and more particularly, it includes a parallel screw coupling structure, so that it is possible to absorb construction errors or adjust the joint length, and also to provide a parallel-taper integrated screw coupling structure. The parallel-taper simultaneous coupling of the male and female parallel screws and the male and female taper screws occurs, and by using this action, the number of coupling rotations is reduced to enable screwing. This relates to the rebar coupler, which is not required.

In various fields requiring mechanical joint by thread, when the conventionally known male and female parallel screws are coupled, the number of revolutions required to complete the coupling is the same as the number of threads. Therefore, in case of complete coupling, it must be rotated until the coupling of all the threads is completed, and the number of threads In the process of rotating as much as possible, the time required for bonding becomes longer. In addition, the shaft center and the starting point of the thread should be aligned during the initial coupling of male and female threads.

Referring to Figure 17 in the prior art, Patent No. US3415552 discloses a metal reinforcing steel bar for a joint having a coupling sleeve threaded. The tapered end of the reinforcing bar and the coupling sleeve disclosed in the above patent is a configuration including a coupling between male and female threads using a tapered screw.

Looking at the coupling method by only the male and female taper screws, the number of revolutions required to complete the coupling can be reduced compared to when the male and female parallel screws are coupled, so that quick coupling is possible. Due to the limitation of the taper structure at the start, the coupling between the threads is incomplete, and after the coupling is completed, the proof strength is insufficient, so there is a risk of the screw loosening when there is an axial flow or vibration occurs, or a pull-out phenomenon may occur even with a tensile force smaller than that of a parallel screw. have.

In addition, referring to the X1 drawing of FIG. 4, as a conventional embodiment in which a taper screw and a parallel screw are simply combined, the taper screw is located at the end of the reinforcing bar end, so that the taper screw is disposed at the end rather than the parallel screw. Since the maximum outer diameter of the screw and the outer diameter of the parallel screw are the same, there was mutual interference between the female screw 34 and the male screw 35 during insertion. Therefore, without screw rotation, the taper screw could not be deeply inserted and coupled. Accordingly, the number of revolutions required to complete the coupling was less than that of the parallel screw, but had a disadvantage in that it had to be more than that of the taper screw. Also, it was difficult to form a screw thread.

On the contrary, referring to FIG. 18, in relation to the case where the parallel screw is located at the end of the end of the reinforcing bar and the parallel screw is disposed at the end rather than the tapered screw, the conventional patent No. 10-0439628 discloses a connection structure of reinforcing bars. have. In the connection structure of a reinforcing bar comprising a connection socket having female threaded portions symmetrically formed on both sides, and a reinforcing bar screwed to an end of the connection socket by forming a male threaded portion at the end, the connection socket (10) outside of the female threaded portion (11) The side forms a taper female screw part 11a, and continuously forms a horizontal tension female screw part 11b on the inside of the female screw part 11a, and at the end of the reinforcing bar 20, the male screw part 21 Horizontally to form a male tension threaded part 21b screw-coupled to the female tensioning threaded part 11b of the connection socket 10, and forming a tapered inner side of the male tensioning threaded part 21b, of the connection socket (10) It has a structure in which the female screw part 11a and the male screw part 21a screw-coupled to each other are continuously formed.

However, looking at this configuration, since the thread between the tension female threaded part 11b and the tension male threaded part 21b is a parallel thread part, the number of rotations required for coupling is inevitably increased than that of the taper thread part, and the reinforcing bar is connected when the actual connection socket and the rebar are fastened. Even after inserting into the socket, screwing should be performed by aligning the shaft center between the male and female parallel screws. In addition, since it is a structure in which the coupling between the tapered screw parts is expressed only after the coupling between the parallel screw parts precedes and the coupling is completed to the last parallel screw thread, it is considered that it is not a structure in which the simultaneous coupling action of the parallel screw thread and the tapered screw thread is made. In addition, it is thought that it is difficult to apply to ultra-high-strength reinforcing bars due to the need to directly thread the reinforcing bars, which causes problems in the microstructure of rebars.

In addition, if the reinforcing bars to be joined can be moved because the reinforcing bars can be moved, the joint length adjustment is not a problem.

Where such joint length adjustment is required, the above invention is difficult to apply. In other words, simple connection between reinforcing bars is possible, but there is no joint length adjustment function.

Accordingly, the present invention discloses an invention in which the joint length can be adjusted while maintaining the advantages of the parallel screw and the tapered screw while solving the problems of each parallel screw and the tapered screw.

An object of the present invention is to compensate the joint length by using a rebar coupler where it is necessary to adjust the joint length between reinforcing bars.

In addition, the interference between unnecessary threads during the screwing operation is to be fundamentally avoided.

In addition, while reducing the number of coupling rotations, parallel-taper threads are all coupled without omission.

In addition, there is a connection of reinforcing bars without reinforcing reinforcing screws that damage the rebar.

In addition, when the parallel-taper integrated male screw part is temporarily coupled into the parallel-taper integrated female screw part, the coupling depth is increased.

In addition, it is intended to increase the range of joint length adjustment between reinforcing bars.

In the reinforcing bar coupler comprising a parallel-taper integrated screw coupling structure, a first reinforcing bar and a second reinforcing bar facing each other, a first connecting member integrally joined by being extended to an end of the first reinforcing bar, the first A first screw coupling member coupled to the bonding member in a first screw coupling structure and extending in the direction of a second reinforcing bar, and a second coupling member integrally joined to an end of the second reinforcing bar are included, and the first screw coupling member is included. and the second joining member is coupled by a second screw coupling structure to form a joint between the first reinforcing bar and the second reinforcing bar, and the first screw coupling structure is a parallel screw coupling structure in which the length of the joint can be adjusted, and the second screw The coupling structure is a parallel-taper integrated screw coupling structure, and the parallel-taper integrated screw coupling structure includes a parallel-taper integrated female screw portion and a parallel-taper integrated male screw portion, wherein the parallel-taper integrated female screw portion is formed with a parallel thread on the inner diameter. A parallel female screw part and a tapered female screw part having a narrow inner diameter are integrally formed at one end of the parallel female screw part, and the parallel-taper integrated male screw part has a parallel male screw part formed as a parallel thread on the outer diameter and an outer diameter at one end of the parallel male screw part. The narrowing tapered male thread portion is integrally formed, the inner diameter of the parallel female screw portion is formed to be larger than the maximum inner diameter of the tapered female screw portion, and the outer diameter of the parallel male screw portion is formed to be greater than the maximum outer diameter of the tapered male screw portion, , A thread discontinuity is respectively formed between the parallel female screw part and the tapered female screw part and between the parallel male screw part and the tapered male screw part, and the inner diameter of the parallel female screw part is formed to be greater than the maximum outer diameter of the tapered male screw part.

The first bonding member is a first female screw type bonding member in which a first female screw thread is formed on an inner surface, and the first screw coupling member is a first male screw thread formed in an outer diameter of the first reinforcing bar so as to be screwed to the first female screw thread. A single male screw type screw coupling member, wherein the first male screw type screw coupling member and the second coupling member are respectively formed with a parallel-taper integrated male screw portion and a parallel-taper integrated female screw portion at opposite ends to be screwed together, and the parallel-taper integrated type The formation positions of the male threaded portion and the parallel-tapered integrated female threaded portion are exchanged with each other.

The first bonding member is a second male screw type bonding member in which a second male thread is formed on the outer diameter, and the first screw coupling member is a second female screw thread formed on the inner diameter of the first reinforcing bar so as to be screwed to the second male screw thread. It is a two-female screw type screw coupling member, wherein the second female screw type screw coupling member and the second coupling member are respectively formed with a parallel-taper integral male screw part and a parallel-taper integral female screw part at opposite ends, and are screwed together, and the parallel-taper integral screw part is formed. The formation positions of the male threaded portion and the parallel-tapered integrated female threaded portion are exchanged with each other.

The reinforcing bar coupler further includes a locking nut for locking the first screw coupling member.

The first bonding member and the second bonding member are integrally joined to the first reinforcing bar and the second reinforcing bar by welding, respectively.

The first screw coupling member has a polygonal cross-section, or a tool holding portion formed of a pair or a plurality of parallel surfaces spaced apart from each other in parallel.

The parallel-taper integrated male screw rotates to a coupling start point between the taper threads of a male and female taper screw part, or a simultaneous coupling start point between the taper thread of a male and female taper screw part and the parallel thread of a male and female parallel screw part, or a coupling start point between the parallel threads of a male and female parallel screw part. It is inserted into the parallel-taper integral female threaded portion without being in a shape to be temporarily coupled.

The second joining member is divided into a first proximal end member and a first proximal end member screwed to the first proximal end member, wherein the first proximal end member is elongatedly joined to the end of the second reinforcing bar and the first proximal end member and the first tip member is coupled by a third screw coupling structure, and the first tip member and the first screw coupling member are coupled by the second screw coupling structure that is a parallel-taper integrated screw coupling structure, and , The third screw coupling structure is a parallel screw coupling structure in which the joint length can be adjusted.

The first proximal end member is a third female screw type proximal end member having a third female screw thread formed on the inner diameter, and the first tip end member has a third male screw thread formed on the second reinforcing bar direction outer diameter so as to be screwed to the third female screw thread. It is a third male screw type tip member, and the formation positions of the third female screw thread and the third male screw thread are exchanged with each other.

The third male screw type tip member further includes a locking nut.

The third male screw type tip member is formed with a polygonal cross section or a tool holding portion comprising a pair or a plurality of parallel surfaces spaced apart from each other in parallel.

The first joining member is divided into a second proximal end member and a second proximal end member screwed to the second proximal end member, wherein the second proximal end member is elongatedly joined to the end of the first reinforcing bar and the second proximal end member and the second end member is coupled by a fourth screw coupling structure, the second tip member and the first screw coupling member are coupled by the first screw coupling structure, and the fourth screw coupling structure is It is a parallel-taper integrated screw connection structure.

The second proximal end member is a parallel-taper integrated male screw type proximal end member in which a parallel-taper integrated male screw portion is formed on an outer diameter, and the second tip member is parallel to the inner diameter in the direction of the first reinforcing bar so as to be screwed to the parallel-taper integrated male screw portion. - It is a parallel-taper integrated female screw type distal end member in which the tapered integrated female screw portion is formed, and the formation positions of the parallel-taper integrated male screw portion and the parallel-taper integrated female screw portion may be interchanged with each other.

A parallel-taper integrated female screw portion is formed on the inner diameter of the second bonding member, and a parallel-taper integrated male screw portion is formed on the outer diameter of the second reinforcing bar direction end of the first screw coupling member, so that the first screw coupling member and the second bonding member are screwed together

A fourth male thread is formed on the outer diameter in the second reinforcing bar direction on the parallel-taper integrated female screw type distal end member, and a fourth female thread screwed to the fourth male screw thread is formed on the inner diameter of the first reinforcing bar direction of the first screw coupling member and is screwed between the parallel-taper integral female screw type distal end member and the first screw coupling member.

A fifth female thread is formed on the inner diameter of the second reinforcing bar direction on the parallel-taper integrated female screw type tip member, and a fifth male thread screwed to the fifth female screw thread is formed on the outer diameter of the first reinforcing bar direction of the first screw coupling member and is screwed between the parallel-taper integral female screw type distal end member and the first screw coupling member.

In the rebar joint construction method using the joint length control type rebar coupler, a. Integral bonding of the first bonding member and the second bonding member to the first reinforcing bar and the second reinforcing bar, respectively. b. Temporarily coupling a first screw joint member to the first joining member integrated with the first reinforcing bar. c. Reinforcing the first reinforcing bar and the second reinforcing bar at the reinforcing bar joint point requiring joint length adjustment. d. Compensating for a joint length between the spaced apart first and second reinforcing bars by screw rotationally moving the first screw joint member, which was temporarily coupled in advance, in the direction of the second reinforcing bar. e. and continuing the screw rotation movement until the first screw joint member is completely screwed to the second joining member to complete the joining.

The present invention has the effect of compensating for the length of the joint by rotating the first screw-coupled member that has been temporarily coupled as a parallel screw-coupled structure in which the joint length can be adjusted.

In addition, in the parallel-taper integrated screwing structure for efficient and quick screwing operation, the inner diameter of the parallel female thread is formed to be greater than the maximum outer diameter of the tapered male screw. Due to this configuration, unnecessary interference between threads during the screwing operation There is an effect that can be fundamentally avoided.

In addition, when the parallel-taper integrated female screw part and the parallel-taper integrated male screw part are screwed in rotation, the male and female parallel screw parts and the male and female taper screw parts are simultaneously engaged, respectively, so using this action to reduce the number of coupling rotations while reducing the parallel-taper There is an effect that a configuration in which all threads are combined without omission is possible.

In addition, in order to connect the reinforcing bars with a mechanical joint without reinforcing rebar screw processing that damages the reinforcing bars in the phenomenon of strengthening the rebar, the joining of the first joining member and the second joining member is made by welding, thereby minimizing unnecessary tissue damage to the rebar. can have an effect.

In addition, the inner diameter of the parallel female thread portion is formed to be larger than the maximum outer diameter of the taper male screw portion. As a result, the coupling start point between the taper threads of the male and female taper threads or the simultaneous coupling start between the taper threads of the female and male taper threads and the parallel threads of the male and female parallel threads. The parallel-taper integral male thread part can be inserted into the parallel-taper integral female thread part to be tentatively engaged at a point or a coupling start point between the parallel threads of the male and female parallel thread parts, without screw rotation and without interference. Accordingly, there is an effect of increasing the bonding depth at the time of temporary bonding.

In addition, the first and second joining members may be divided into a base end member and a front end member screwed to the base end member, respectively. This has the effect of increasing the joint length control range.

Other detailed effects are disclosed through the description of the present specification below.

1 is a perspective view and a partial cross-sectional view showing an embodiment of the present invention.
Fig. 2 is a view showing an embodiment of the parallel-taper integrated female screw portion.
Fig. 3 is a view showing an embodiment of the parallel-taper integrated male screw part.
4 is a view showing the present invention in comparison with the conventional embodiment in which a taper screw and a parallel screw are simply combined.
5 and 6 are views showing a first embodiment of the present invention.
7 and 8 are views showing a second embodiment of the present invention.
9, 10 and 11 are views showing a third embodiment of the present invention.
12 and 13 are views showing a fourth embodiment of the present invention.
14 and 15 are views showing a fifth embodiment of the present invention.
Figure 16 is a view showing a step-by-step construction method of a reinforcing bar joint using a joint length-adjustable rebar coupler.
17 and 18 are views showing a conventional embodiment.

In the present specification, the parallel screw part is a screw formed so that the inner diameter to the outer diameter of the screw is constant along the axial direction, and the tapered screw part is formed so that the inner diameter to the outer diameter of the screw increases or decreases along the axial direction to form a taper angle shape of the screw.

In addition, 'including' a certain component means that other components may be further included, rather than excluding other components, unless otherwise stated.

Hereinafter, the present invention will be described in detail.

1, the reinforcing bar coupler of the present invention is a first reinforcing bar 100, a second reinforcing bar 110, a first bonding member 120, a first screw coupling member 140, a second bonding member 150. includes

First, the first reinforcing bar 100 and the second reinforcing bar 110 are in a state in which they face each other so that they can be connected to each other at a distance that requires adjustment of the joint length.

Joint length adjustment can be usefully used in the process of compensating and absorbing construction errors that are inevitable in the construction process or that may occur due to construction errors.

In other words, when both reinforcing bars to be joined are completely fixed and flow is impossible, for example, it is necessary to adjust the joint length between horizontal reinforcing bars during joint construction of PC beams.

The end of the first reinforcing bar 100 is joined to the first joining member 120 which is joined and integrated in an elongated shape, so that the first reinforcing bar 100 and the first joining member 120 become one integrated member. .

That is, conventional rebars are threaded to cut reinforcing bars to the ends for splicing, but due to the super-high strength phenomenon of rebars, the life of the threading tool is shortened when cutting screws directly to the ends of rebars, and tissue destruction occurs. The strength of the reinforcing bar was lowered and the threading became increasingly difficult. Considering this point, it is not necessary to thread the reinforcing bar by forming a screw on a separate member that is joined to the end of the reinforcing bar rather than the reinforcing bar.

In addition, a first screw coupling member 140 coupled to the first coupling member 120 by a first screw coupling structure 130 and extending in the direction of the second reinforcing bar 110 is included. The first screw coupling member 140 has a configuration to be temporarily coupled to the first coupling member 120 . At this time, the temporary coupling is achieved by the first screw coupling structure (130).

At the end of the second reinforcing bar 110 , a second joining member 150 is joined to form an extension and is integrated. Like the first reinforcing bar 100 , the second connecting member 150 is already joined, so there is no need to thread the reinforcing bars, and even super high-strength reinforcing bars can easily form a mechanical joint.

On the other hand, the first screw coupling member 140 and the second coupling member 150 are coupled by a second screw coupling structure 160 to form a joint between the first reinforcing bar 100 and the second reinforcing bar 110 . will lose

The first screw coupling structure 130 is a parallel screw coupling structure in which the joint length can be adjusted. That is, the structure of the screw thread is formed as a parallel screw structure so that the length of the joint can be compensated for by rotating the first screw coupling member 140 that was temporarily coupled.

By moving the first screw coupling member 140 through screw rotation, construction errors can be absorbed or the joint length can be appropriately adjusted.

The second screw coupling structure 160 is formed as a parallel-taper integrated screw coupling structure, and the parallel-taper integrated screw coupling structure includes the following configurations and effects, so that efficient and rapid joint work is possible.

2 and 3 , the parallel-taper integrated screw coupling structure of the present invention includes a parallel-taper integrated female screw portion 21 and a parallel-taper integrated male screw portion 31 .

Referring to Figure 2, the parallel-taper integrated female screw portion 21 includes a parallel female screw portion P1 formed with a parallel thread on the inner diameter and a tapered female screw portion T1 having a narrow inner diameter at one end of the parallel female screw portion P1. ) is integrally formed.

A parallel female threaded part P1 and a tapered female threaded part T1 are formed side by side with an inner diameter in the inward direction, and the tapered female threaded part T1 is positioned inside the parallel female threaded part P1.

Referring to FIG. 3, the parallel-taper integrated male screw part 31 includes a parallel male screw part P2 formed as a parallel thread on the outer diameter and a tapered male screw part having a narrow outer diameter at one end of the parallel male screw part P2 ( T2) is integrally formed.

For screwing, the tapered threads T1 and T2 and the parallel threads P1 and P2, which are formed in a corresponding standard for screwing, are screwed in a structure in which both male and female meshes are engaged.

To this end, the inner diameter DP1 (minor diameter) of the parallel female screw portion P1 is formed to be greater than the maximum inner diameter DT1 of the tapered female screw portion T1.

That is, the internal diameter of the tapered female threaded part T1 is gradually increased in the direction of the parallel female threaded part P1, but the maximum internal diameter DT1 of the taper female threaded part T1 is the internal diameter DP1 of the parallel female threaded part P1. formed smaller than

In addition, the outer diameter DP2 (major diameter) of the parallel male screw part P2 is formed to be larger than the maximum outer diameter DT2 of the tapered male screw part T2.

That is, the outer diameter of the tapered male screw portion T2 is formed to gradually increase in the direction of the parallel male screw portion P2, but the maximum outer diameter DT2 of the tapered male screw portion T2 is the outer diameter of the parallel male screw portion P2. It is formed smaller than the diameter DP2.

Accordingly, the tapered thread (T1, T2) and the parallel thread (P1, P2) can be configured to form a male-female meshing thread, respectively.

Further, thread discontinuities 23 and 33 are respectively formed between the parallel female screw part P1 and the tapered female screw part T1 and between the parallel male screw part P2 and the tapered male screw part T2, respectively.

The discontinuous portions 23 and 33 may have various shapes and methods as long as the threads are discontinuous.

For example, a recess portion that is formed to be recessed in a band shape in the circumferential direction may be formed. That is, the recessed portion has a series of configurations of the tapered screw portion-recessed portion-parallel screw portion (T1-23-P1, T2-33-P2). As a result, the thread of the tapered thread is not continuous.

However, it is not necessary to form the recess portion as described above for the discontinuity of the thread, and includes all configurations that make the discontinuity of the thread.

If the thread is discontinuous, threading is easy and there is no need to be concerned with the maximum inner diameter DT1 of the taper female screw portion T1 or the maximum outer diameter DT2 of the taper male screw portion T2. The male thread portion P2 may be formed in any diameter standard, respectively.

Accordingly, the effective cross-sectional areas of the tapered screw portion and the parallel screw portion are added, thereby making it possible to have a tensile force or the like.

For efficient and fast screwing operation, the inner diameter DP1 of the parallel female screw portion P1 is formed to be larger than the maximum outer diameter DT2 of the tapered male screw portion T2.

Due to this configuration, unnecessary interference between threads during the screwing operation can be fundamentally avoided.

Through this, when the screwing rotation of the parallel-taper integrated female screw part 21 and the parallel-taper integrated male screw part 31 is rotated, the male and female parallel screw parts and the male and female tapered screw parts are simultaneously coupled, respectively, so the number of coupling rotations using this action occurs. There is an effect that a configuration in which all parallel-taper threads are combined without omission while reducing the

In other words, due to the configuration in which both the taper threads T1 and T2 and the parallel threads P1 and P2 form threads that engage with each other, the simultaneous coupling of the male and female parallel threads P1 and P2 and the male and female taper threads T1 and T2 is prevented. has the effect of making it happen.

In addition, when the coupling is completed, the taper threads (T1, T2) and the parallel threads (P1, P2) are mutually tightened, so that the coupling between the threads can be locked without a separate locking nut.

After coupling, the parallel-taper integrated female threaded part 21 and the parallel-tapered integrated male threaded part 31 consist of a coupling that includes coupling by parallel threaded threads (P1, P2), and thus go straight by parallel threaded threads (P1, P2). It can have a degree, and it is thought that there will be an effect of reducing the straightness distortion more than the coupling by only the tapered threads (T1, T2).

5 and 6 , the first embodiment of the present invention includes a first female screw type joining member 600 and a first male screw type screw coupling member 610 .

That is, the first bonding member is a first female screw type bonding member 600 having a first female screw thread 620 formed on an inner surface thereof. The first female thread 620 is a parallel thread.

The length of the section in which the first female thread 620 is formed may be appropriately adjusted according to the section requiring adjustment of the joint length (R).

The first screw coupling member is a first male screw type screw coupling member 610 in which a first male screw thread 630 is formed on an outer diameter of the first reinforcing bar to be screwed to the first female screw thread 620 .

The first male thread 630 is also a parallel thread.

Since both the first female screw thread 620 and the first male screw thread 630 are parallel threads, the first male screw type screw coupling member 610 maintains the screwed state and is freely rotatable.

A locking nut 640 may be temporarily coupled to the first male thread 630 .

The first male screw type screw coupling member 610 and the second coupling member 650 have a parallel-taper integrated male screw part 660 and a parallel-taper integrated female screw part 670 are formed at opposite ends, respectively, so that they are mutually screwed together. are combined

The formation positions of the parallel-taper integrated male screw portion 660 and the parallel-taper integrated female screw portion 670 may be interchanged with each other.

That is, the parallel-taper integrated female screw portion 670 may be formed on the first male screw type screw coupling member 610 and the parallel-taper integrated male screw portion 660 may be formed on the second coupling member 650 . Alternatively, the parallel-taper integrated male screw portion 660 may be formed on the first male screw type screw coupling member 610 and the parallel-taper integrated female screw portion 670 may be formed on the second coupling member 650 .

7 and 8 , the second embodiment of the present invention includes a second male screw type joining member 800 and a second female screw type screw coupling member 810 .

That is, the first screw coupling member is a second female screw type screw coupling member 810 in which a second female screw thread 820 is formed on the inner surface in the direction of the first reinforcing bar. The second female thread 820 is a parallel thread.

The length of the section in which the second female screw thread 820 is formed may be appropriately adjusted according to the section requiring adjustment of the joint length.

The first bonding member is a second male screw type bonding member 800 in which a second male screw thread 830 is formed in an outer diameter to be screwed to the second female screw thread 820 .

The second male thread 830 is also a parallel thread.

Since the second female screw thread 820 and the second male screw thread 830 are both parallel threads, the second female screw type screw coupling member 810 maintains the screwed state and is freely rotatable.

A locking nut 840 may be temporarily coupled to the second male thread 830 .

The second female screw type screw coupling member 810 and the second coupling member 850 have a parallel-taper integrated male screw portion 860 and a parallel-taper integrated female screw portion 870 formed at opposite ends, respectively, so that they are mutually screwed together. are combined

The formation positions of the parallel-taper integrated male screw portion 860 and the parallel-taper integrated female screw portion 870 may be interchanged with each other.

That is, the parallel-taper integrated female screw portion 870 may be formed on the second female screw type screw coupling member 810 , and the parallel-taper integrated male screw portion 860 may be formed on the second coupling member 850 . Alternatively, the parallel-taper integrated male screw portion 860 may be formed on the second female screw type screw coupling member 810 and the parallel-taper integrated female screw portion 870 may be formed on the second coupling member 850 .

In the first embodiment and the second embodiment, the configurations of the female screw portion and the male screw portion constituting the first screw coupling structure between the first bonding member and the first screw coupling member are respectively exchanged.

The locking nut is configured to lock the first screw coupling member.

For example, in the first embodiment, the locking nut 640 is engaged with the first male screw type screw coupling member 610 and is locked with respect to the first female screw type joining member 600, and eventually the first male screw type screw coupling member ( 610) is locked.

For example, in the second embodiment, the locking nut 840 is screwed into the first male screw type joining member 800 to lock the second female screw type screw coupling member 810 .

In the phenomenon of strengthening reinforcing bars, as an unavoidable configuration necessary to connect reinforcing bars with mechanical joints without rebar screw processing that damages rebars, joining is made by welding. The types of welding are diverse and include friction welding, linear friction welding, arc stud welding, butt welding, ultrasonic vibration welding, resistance welding, plasma welding, electron beam welding, laser welding, high frequency welding, argon welding, flash welding, and the like.

The illustrated embodiment is joined by friction welding to form a friction welding portion 680 . The flash of the friction welding portion 680 may be removed if necessary.

Although not shown, the first screw coupling member may have a polygonal cross-section for easy screw rotational movement, or a tool holding part may be formed with a pair or a plurality of pairs of parallel surfaces spaced apart from each other in parallel. Tool grip means a member grip by a tool. Alternatively, the outer surface shape of the entire section in the longitudinal direction may be formed in a polygonal shape for gripping the tool.

4, in the case of a conventional embodiment in which a taper screw and a parallel screw are simply combined, the maximum outer diameter of the taper screw and the outer diameter of the parallel screw are the same. 34) and mutual interference (I1). Therefore, without screw rotation, the taper screw was deeply inserted and it was not possible to temporarily couple it. Accordingly, the bonding depth (D1) at the time of provisional bonding was reduced.

However, according to the present invention, referring to the X2 diagram of FIG. 4 , the inner diameter of the parallel female thread is formed to be larger than the maximum outer diameter of the taper male thread, and as a result, the coupling start point (I2) between the taper threads of the male and female tapered threads or the Until the simultaneous coupling start point between the tapered thread of the tapered thread part and the parallel thread of the male and female parallel thread part or the coupling start point between the parallel threads of the male and female parallel thread part, without screw rotation and without interference, the parallel-taper integral male thread part 400 is the parallel - The tapered integrated female threaded portion 410 may be inserted into the interior and temporarily coupled. Accordingly, the bonding depth (D2) at the time of temporary bonding may be increased. (D2 > D1)

Next, referring to FIGS. 9 and 10 , the third embodiment includes a first proximal end member 920 and a first leading end member 910 .

The second bonding member may be divided into a first proximal end member 1010 and a first distal end member 1000 screwed to the first proximal end member 1010 .

This has the effect of increasing the joint length control range.

That is, the joint length can be adjusted between the first joining member 930 and the first screw coupling member 940, and in addition, the joint length can be adjusted between the first proximal end member 920 and the first front end member 910. It has the effect of extending the length range.

First, the first proximal end member 920 is joined to the end of the second reinforcing bar 950 in an extended shape.

The first proximal end member 920 and the first front end member 910 are screwed together, and are coupled by a third screw coupling structure 960 .

The third screw coupling structure 960 is a parallel screw coupling structure in which the joint length can be adjusted.

The first end member 910 and the first screw coupling member 940 are coupled by the second screw coupling structure 970 which is a parallel-taper integrated screw coupling structure.

Through this, the first reinforcing bar 980 - the parallel screw - the parallel taper integrated screw - the parallel screw - becomes a series of coupling structures composed of the second reinforcing bar 950 .

Referring to FIG. 11, referring to the third screw coupling structure in more detail, the first proximal end member 1100 is a third female screw type proximal end member 1120 in which a third female screw thread 1110 is formed in an inner diameter.

That is, the third female thread 1110 is formed on the inner diameter of the end in the direction of the first reinforcing bar 1130 .

The first tip member 1140 is a third male screw type tip member 1160 in which a third male screw thread 1150 is formed on an outer diameter in the second reinforcing bar direction so as to be screwed to the third female screw thread 1110 .

The formation positions of the third female screw thread 1110 and the third male screw thread 1150 may be exchanged depending on the embodiment.

That is, the first proximal end member 1100 is a male screw type proximal end member in which an external thread is formed on the outer diameter in the direction of the first reinforcing bar 1130 , and the first distal end member 1140 is a second reinforcing bar direction so as to be screwed to the male screw thread. It may be a female screw type tip member in which a female screw thread is formed in the inner diameter.

The third male screw type tip member 1160 may further include a locking nut 1180 . That is, it is temporarily coupled to the third male screw thread 1150 , and when the coupling is completed, the third female screw type base end member 1120 is locked in the direction of the locking fastening.

The third male screw type tip member 1160 has a polygonal cross-section over a predetermined section or is parallel to each other because it is difficult to grip the member by a tool when the screw is formed in the entire lengthwise section, making it difficult to rotate. A tool holding part 1170 made of a pair or a plurality of parallel surfaces spaced apart may be formed.

Preferably, the tool holding part 1170 may be formed between the parallel-taper integrated male screw part 1180 and the third male screw thread 1150 .

Referring to FIG. 12 , the fourth embodiment next includes a second proximal end member 1200 and a second leading end member 1210 .

The first bonding member may be divided into a second proximal end member 1200 and a second leading end member 1210 screwed to the second proximal end member 1200 .

The second proximal end member 1200 is extended to the end of the first reinforcing bar 1220 .

The second base end member 1200 and the second front end member 1210 are coupled by a fourth screw coupling structure 1230, and the fourth screw coupling structure 1230 is a parallel-taper integrated screw coupling structure. is formed

The second end member 1210 and the first screw coupling member 1240 are coupled by the first screw coupling structure 1250, which is a parallel screw coupling structure with adjustable joint length.

Referring to FIG. 13 , the second proximal end member 1300 is a parallel-taper integral male screw type proximal end member 1360 in which a parallel-taper integral male screw portion 1310 is formed on an outer diameter. That is, the parallel-taper integrated male threaded portion 1310 is formed at the end of the second proximal end member 1300 joined to the first reinforcing bar 1330 in the direction of the second reinforcing bar 1340 .

The second end member 1320 is a parallel-taper integrated female screw type in which a parallel-taper integrated female screw portion 1350 is formed on the inner diameter of the first reinforcing bar 1330 to be screwed to the parallel-tapered male screw portion 1310 . a tip member 1370 .

Through this, the first reinforcing bar 1330 - the parallel taper integrated screw - the parallel screw - the parallel tapered integrated screw - becomes a series of coupling structures composed of the second reinforcing bar 1340 .

As described above, the second screw coupling structure 1391 between the first screw coupling member 1380 and the second coupling member 1390 is a parallel-taper integrated screw coupling structure and parallel to each other-tapered female screw part 1392. ) and the position of the male threaded portion 1381 can be exchanged.

This embodiment is an embodiment in which the parallel-taper integrated male screw portion 1381 is formed on the first screw coupling member 1380 and the parallel-taper integrated female screw portion 1392 is formed on the second bonding member 1390 .

That is, a parallel-taper integrated female screw portion 1392 is formed on the inner diameter of the second joining member 1390, and a parallel-tapered integrated female screw portion 1392 is formed on the outer diameter of the second reinforcing bar 1340 direction end of the first screw coupling member 1380. This is an embodiment in which a male screw portion 1381 is formed so that the first screw coupling member 1380 and the second coupling member 1390 are screwed together.

Accordingly, a fourth male thread 1321 is formed on the outer diameter in the direction of the second reinforcing bar 1340 in the parallel-taper integrated female screw type distal end member 1370, and the first reinforcing bar 1330 of the first screw coupling member 1380 is formed. A fourth female thread 1383 screwed to the fourth male thread 1321 is formed in the inner diameter of the direction.

This forms the first screw coupling structure 1382 by the parallel screw.

During the coupling operation, the length of the joint is adjusted by the first screw coupling structure 1382 .

14 and 15, the fifth embodiment is the same as the fourth embodiment, except that the male and female threads constituting the first screw coupling structure 1500 are exchanged.

That is, a fifth female thread 1530 is formed on the inner diameter in the direction of the second reinforcing bar 1520 in the parallel-taper integrated female screw type tip member 1510, and the first reinforcing bar 1550 of the first screw coupling member 1540 is formed. A fifth male thread 1560 screwed to the fifth female thread 1530 is formed in the outer diameter of the direction, and is screwed between the parallel-taper integrated female screw type tip member 1510 and the first screw coupling member 1540 . are combined

A tool holding part 1570 may be added to the first screw coupling member 1540 .

As described above, the first to fifth embodiments were examined. The reinforcing bar coupler having the same configuration as in the case of the 4th and 5th embodiments is pre-standardized so that the parallel-taper integrated male thread type proximal end member or the parallel-taper integrated female screw type proximal end member for joining to the reinforcing bar is in a state of being joined to the end of the reinforcing bar When these processed reinforcing bars are processed and brought into the field, reinforcement work can be easily accomplished by selecting the most suitable member such as the first screw coupling member and the parallel-taper integrated male screw type tip member at the site.

That is, when the first female screw type joining member is previously joined to the end of the reinforcing bar (first embodiment), and when the second male screw type joining member is joined in advance (second embodiment), parallel-taper integrated male screw part is formed When the two joining members are joined in advance (Examples 1 and 2), when the third female screw type base end member is joined in advance (Example 3), parallel-taper integral female screw or male screw type base end member is previously joined Since various configurations such as case (Examples 4 and 5) are possible with standardized factory processing of reinforcing bars (member joining for on-site jointing), any rebar at any site can be easily sited using a member pre-joined to the end of rebar at any site. The conditions for consolidation are created.

In all places where joint length adjustment is required, such as RC structure, PC structure, PRC structure, etc., by using reinforcing bars that have been factory-bonded in advance so that the above members for joining rebars are integrated, even at joints where rebar flow is impossible, the It allows length adjustment and length compensation to connect reinforcing bars.

Referring to FIG. 16, the rebar joint construction method using the joint length adjustment type rebar coupler is described. First, the first and second connecting members are integrally joined to the first and second reinforcing bars, respectively (S1). ). It corresponds to step a) of FIG. 6 .

It is very convenient because the first joining member and the second joining member are integrated with the reinforcing bar and are ready-made. Joint work can be done on site, but all joining work is done in advance at the factory, or ready-made reinforcing bars that are integrated with the first and second joining members are prepared in advance, distributed and sold, purchased and used immediately on site. Reinforcing bars with attachments can be used for various types of reinforced concrete construction.

Next, a step of temporarily coupling a first screw joint member to the first joining member integrated with the first reinforcing bar (S2).

During the provisional coupling, the first screw joint member is deeply screwed with the first coupling member to be temporarily coupled. This is to avoid interference during joint work as much as possible.

Next, it is a step of reinforcing the first rebar and the second reinforcing bar at the reinforcing bar joint point requiring joint length adjustment (S3). It can be used in all construction methods requiring joint length adjustment. It can be applied to various reinforcing bars such as straight rebars and angled rebars. That is, in the case of a fixed reinforcing bar in the shape of a hook, the reinforcing bar can be rotated.

It corresponds to steps b and c) of FIG. 6 . 5 is a view showing the shape of steps b and c).

Next, it is a step of compensating for the joint length between the spaced apart first and second reinforcing bars by screw rotationally moving the first screw joint member, which has been temporarily coupled in advance, in the direction of the second reinforcing bar (S4). The first screw joint member temporarily coupled to the depth is rotated and taken out, and the joint length between the first reinforcing bar and the second reinforcing bar is compensated by continuously screwing it as it is.

Next, it is a step of completing the joint by continuously screwing the first screw joint member until the first screw joint member is completely screwed to the second joining member (S5). By making the screw conditions such as lead angle, number of threads, and pitch of the screw the same on both sides, the final coupling can be made naturally.

It corresponds to steps d and e) of FIG. 6 .

Optionally, in the case of including the configuration of the locking nut, the coupling is completely finished with the previously coupled locking nut. It corresponds to step f) of FIG. 6 .

As a combination according to the above embodiments, including a description of a mutually interchangeable configuration in each embodiment, a combination embodiment of a reinforcing bar coupler related to joint length adjustment including a parallel-taper integrated screw coupling structure is the present invention belongs to the category of

1st rebar : 100
Second rebar: 110
1st bonding member: 120
First screw coupling member: 140
Second joining member: 150
Parallel-taper integrated female thread: 21
Parallel-taper integral male thread: 31
Parallel female thread part: P1
Parallel male thread: P2
Taper female thread part: T1
Taper male thread: T2
Inner diameter of parallel female thread part: DP1
Maximum inner diameter of taper female thread: DT1
Outer diameter of parallel male thread: DP2
Maximum outer diameter of taper male thread: DT2
1st female thread type joining member: 600
1st male thread type screw coupling member: 610
2nd male thread type joint member: 800
2nd female screw type screw coupling member: 810
Locking nut : 840
1st proximal end member: 920
First tip member: 910
1st proximal end member: 1100
3rd female thread : 1110
3rd female thread type base end member: 1120
3rd male thread type tip member: 1160
Tool holding part: 1170
Second tip member: 1210
Second base end member: 1200

Claims (17)

In the reinforcing bar coupler comprising a parallel-taper integrated screw coupling structure,
A first reinforcing bar and a second reinforcing bar facing each other;
a first joining member integrally joined to an end of the first reinforcing bar;
a first screw coupling member coupled to the first coupling member in a first screw coupling structure and extending in a second reinforcing bar direction;
A second joining member which is joined to the end of the second reinforcing bar to be integral with the extension is included.
The first screw coupling member and the second coupling member are coupled in a second screw coupling structure to form a joint between the first reinforcing bar and the second reinforcing bar,
The first screw coupling structure is a parallel screw coupling structure with adjustable joint length,
The second screw coupling structure is a parallel-taper integrated screw coupling structure,
The parallel-taper integrated screw coupling structure includes a parallel-taper integrated female screw portion and a parallel-taper integrated male screw portion,
The parallel-taper integral female thread portion
A parallel female threaded portion formed as a parallel thread on the inner diameter and a tapered female threaded portion having a narrow inner diameter are integrally formed at one end of the parallel female threaded portion,
The parallel-taper integral male thread portion
A parallel male threaded portion formed as a parallel thread on the outer diameter and a tapered male threaded portion having a narrow outer diameter are integrally formed at one end of the parallel male threaded portion,
A minor diameter of the parallel female screw portion is formed to be larger than the maximum inner diameter of the tapered female screw portion,
The outer diameter of the parallel male screw portion (major diameter) is formed to be greater than the maximum outer diameter of the tapered male screw portion,
Thread discontinuities are respectively formed between the parallel female screw portion and the tapered female screw portion and between the parallel male screw portion and the tapered male screw portion, respectively;
Joint length-adjustable reinforcing bar coupler, characterized in that the inner diameter of the parallel female screw portion is formed to be greater than the maximum outer diameter of the taper male screw portion. According to claim 1,
The first bonding member is
It is a first female screw type bonding member in which a first female screw thread is formed on the inner surface,
The first screw coupling member is
It is a first male screw type screw coupling member in which a first male screw thread is formed on the outer diameter of the first reinforcing bar direction so as to be screwed to the first female screw thread,
The first male screw type screw coupling member and the second coupling member are respectively formed with a parallel-taper integrated male screw portion and a parallel-tapered integrated female screw portion at opposite ends and are screwed together;
The parallel-taper-integrated male thread part and the parallel-taper-integrated female thread part are formed in positions of the joint length-adjustable reinforcing bar coupler, characterized in that it is possible to be carried out interchangeably. According to claim 1,
The first bonding member is
It is a second male screw type joining member in which a second male screw thread is formed on the outer diameter.
The first screw coupling member is
It is a second female screw type screw coupling member in which a second female screw thread is formed in the inner diameter of the first reinforcing bar so as to be screwed to the second male screw thread.
The second female screw type screw coupling member and the second coupling member are respectively formed with a parallel-taper integrated male screw portion and a parallel-tapered integrated female screw portion at opposite ends to be screwed together,
The parallel-taper-integrated male thread part and the parallel-taper-integrated female thread part are formed in positions of the joint length-adjustable reinforcing bar coupler, characterized in that it is possible to be carried out interchangeably. According to claim 1,
The reinforcing bar coupler has
Joint length-adjustable reinforcing bar coupler, characterized in that it further includes a locking nut for locking the first screw coupling member. According to claim 1,
The joint length-adjustable reinforcing bar coupler, characterized in that the first joining member and the second joining member are integrally joined to the first reinforcing bar and the second reinforcing bar by welding. According to claim 1,
The first screw coupling member is a joint length-adjustable reinforcing bar coupler, characterized in that the cross-section is formed in a polygonal shape, or a tool holding part is formed with a pair or a plurality of parallel surfaces spaced apart from each other in parallel. According to claim 1,
The parallel-taper integral male thread portion
The parallel-taper integrated female thread without screw rotation until the coupling start point between the taper threads of the male and female taper threads, or the simultaneous coupling start point between the taper threads of the female and male taper threads and the parallel threads of the male and female parallel threads, or the coupling start point between the parallel threads of the male and female parallel threads. Joint length-adjustable reinforcing bar coupler, characterized in that it is inserted into the part and has a shape to be temporarily coupled. According to claim 1,
The second bonding member is
It is divided into a first base end member and a first front end member screwed to the first base end member.
The first proximal end member is extended to the end of the second reinforcing bar and
The first base end member and the first front end member are coupled by a third screw coupling structure,
The first end member and the first screw coupling member are coupled by the second screw coupling structure, which is a parallel-taper integrated screw coupling structure,
The third screw coupling structure is a joint length-adjustable reinforcing bar coupler, characterized in that it is a parallel screw coupling structure capable of adjusting the joint length. 9. The method of claim 8,
The first proximal end member is a third female screw type proximal end member having a third female screw thread formed on the inner diameter,
The first tip member is a third male screw type tip member in which a third male screw thread is formed on an outer diameter of the second reinforcing bar direction so as to be screwed to the third female screw thread,
Joint length-adjustable reinforcing bar coupler, characterized in that the third female screw thread and the third male screw thread formation position can be exchanged with each other. 10. The method of claim 9,
The joint length-adjustable reinforcing bar coupler, characterized in that the third male screw type tip member further includes a locking nut. 10. The method of claim 9,
Joint length-adjustable reinforcing bar coupler, characterized in that the third male screw type tip member is formed in a polygonal cross-section, or a tool holding portion comprising a pair or a plurality of parallel surfaces spaced apart in parallel to each other is formed. According to claim 1,
The first bonding member is
Doedoe divided into a second proximal end member and a second proximal end member screwed to the second proximal end member,
The second proximal end member is extended to the end of the first reinforcing bar,
The second base end member and the second end member are coupled by a fourth screw coupling structure,
Between the second tip member and the first screw coupling member
coupled by the first screw coupling structure,
The fourth screw coupling structure is a joint length-adjustable reinforcing bar coupler, characterized in that the parallel-taper integrated screw coupling structure. 13. The method of claim 12,
The second proximal end member is a parallel-taper integral male screw type proximal end member in which a parallel-taper integral male screw portion is formed on an outer diameter,
The second distal end member is a parallel-taper integrated female screw type distal end member in which a parallel-taper integrated female screw portion is formed in the inner diameter of the first reinforcing bar so as to be screwed to the parallel-taper integrated male screw portion,
The parallel-to-reinforced joint length-adjustable reinforcing bar coupler, characterized in that the formation position of the taper-integrated male screw part and the parallel-tapered-integrated female screw part are interchangeable with each other. 14. The method of claim 13,
A parallel-taper integrated female screw portion is formed on the inner diameter of the second bonding member, and a parallel-taper integrated male screw portion is formed on the outer diameter of the second reinforcing bar direction end of the first screw coupling member, so that the first screw coupling member and the second bonding member are Joint length-adjustable rebar coupler, characterized in that it is screwed. 15. The method of claim 14,
The parallel-taper integrated female screw type distal end member has an outer diameter in the direction of the second reinforcing bar.
A fourth male thread is formed,
A fourth female thread screwed to the fourth male thread is formed on the inner diameter of the first reinforcing bar direction of the first screw coupling member,
The parallel-to-reinforced joint length-adjustable reinforcing bar coupler, characterized in that it is screwed between the tapered integrated female screw type tip member and the first screw coupling member. 15. The method of claim 14,
A fifth female thread is formed in the inner diameter in the direction of the second reinforcing bar in the parallel-taper integrated female screw type distal end member,
A fifth male thread screwed to the fifth female thread is formed on the outer diameter of the first reinforcing bar direction of the first screw coupling member,
The parallel-to-reinforced joint length-adjustable reinforcing bar coupler, characterized in that it is screwed between the tapered integrated female screw type tip member and the first screw coupling member. In the reinforcing bar joint construction method using the joint length-adjustable rebar coupler according to claim 1,
a) integrally bonding the first connecting member and the second connecting member to the first and second reinforcing bars, respectively;
b) Temporarily coupling a first screw joint member to the first joint member integrated with the first reinforcing bar;
c) reinforcing the first reinforcing bar and the second reinforcing bar at the reinforcing bar joint point requiring joint length adjustment;
d) compensating for the joint length between the spaced apart first and second reinforcing bars by screw rotationally moving the first screw joint member, which was temporarily coupled in advance, in the direction of the second reinforcing bar;
e) completing the joint by continuously moving the screw rotation until the first screw joint member is completely screwed to the second joint member
Reinforcement joint construction method using a joint length-adjustable reinforcing bar coupler, characterized in that it comprises a.

Images