KR102184342B1 - Rebar Coupler for preventing seismic vibration - Google Patents

Abstract

The present invention relates to a reinforcing bar coupler for an earthquake-proof design, which can connect reinforcing bars by using couplers, can be used by adjusting a coupling angle between a pair of couplers if needed, and can vertically couple a main body in a coupling direction between the couplers when the coupling angle is 180 degrees, thereby maintaining a solid coupling even under impact applied in multiple direction. Therefore, the reinforcing bar coupler is suitable for the earthquake-proof design.

Description

Rebar Coupler for preventing seismic vibration}

The present invention relates to a reinforced coupler for seismic resistance, and more particularly, to a coupler capable of maintaining a solid coupling state even with impact applied from multiple directions.

Reinforcing bars are used in the fields of architecture and civil engineering as the internal framework of concrete structures. Since reinforcing bars are produced as standard products of a certain length, reinforcing bars are connected to each other according to the length of the structure. Butt joints and overlap joints are used. NC coupler and weld joints are mainly used for butt joints, and overlap joints are tied with wire. I have been using the method of joining. Among the butt joint methods, welding joints have problems such as structural difficulties, decrease in productivity, and breakage of welded parts when welding reinforcing bars one by one at a construction site. In addition, the overlap joint is a method of tying reinforcing bars and reinforcing bars.This is not only the hassle of individually tying and fixing each reinforcing bar during site construction, but also the construction efficiency is low, and the reinforcing bars are tied because they are vulnerable to external shocks applied in multiple directions such as earthquakes. There is a problem that there is no seismic effect such as falling out.

Reinforced couplers having various structures have been developed as a way to solve the problems of these conventional rebar couplers. According to Korean Patent Publication No. 10-2018-0020533, as shown in FIG. 1, the coupler 10 ′ and one end of the reinforcing bar 1 ′ positioned at both ends of the coupler 10 ′ are pressed while increasing the fixing force. It consists of an intermittent ring 30' that supports a plurality of fixed chuck 20' and a plurality of fixed chuck 20' to be stably positioned at one end of the reinforcing bar 1', and the coupler and the fixed chuck are fastened. Depending on the depth, the pressing force acting on the fixed chuck affects the reinforcing bar, so that a firm connection of the reinforcing bar is maintained. However, in the prior art, when rebars are connected at the work site, a plurality of fixed chucks are butted so as not to be twisted to align them with one end of the reinforcing bar, and while paying attention to twisting of the fixed chuck, the fixed chuck with the intermittent ring must be inserted into the coupler. A lot of precise manual work is required. In addition, as the coupling angle of the coupler has a fixed structure, it is difficult to move the rebar with the coupler, and the cumbersome process of separating and recombining the coupler connected to the rebar as necessary at the construction site is required. There is a problem that increases the construction time. Therefore, there is a need for a reinforced coupler capable of increasing construction efficiency by allowing the seismic effect and the simple coupling structure to be easy to construct, and to adjust the coupling angle of the reinforcing rods connected by the coupler as needed.

The present invention is to solve the above-described problem, after receiving and coupling one end of the reinforcing bar to the coupler, in a state in which both ends of a pair of couplers are in contact with each other, the coupling angle of the coupler can be stably adjusted as necessary, and construction The purpose of the invention is to reduce the construction period due to this ease and facilitate the movement of the rebar to which the coupler is coupled.

Furthermore, a seismic reinforced coupler is provided that can maintain a solid connection even with impacts from multiple directions caused by earthquakes by connecting the main body in a direction perpendicular to the coupling direction between the pair of couplers to the coupling part where a pair of couplers are joined. I want to, but I have a purpose.

In order to achieve the above object, the present invention provides a tubular body having an insertion hole in the center so that the reinforcing bar can be inserted, a reinforcing bar coupling portion that is installed inside the insertion hole of the body, and connects the reinforcing bars to each other, and the body and the reinforcing bar. It includes a fastening part that binds the coupling part, and the reinforcing bar coupling part is a pair of two couplers accommodating the reinforcing bar to form a pair, and the fastening part includes a first coupling groove of a tornado shape formed at one end of the insertion hole of the body, and one It consists of a first protrusion in a tornado shape formed along the outer circumference of the coupler, and the pair of couplers are coupled in a first direction (vertical direction) in a state of receiving reinforcing bars, respectively, and a pair of couplers each receiving two reinforcing bars. Align the rebar coupling part to the insertion hole of the main body so that the coupling angle at both ends is 180°, and make the first protrusion engage the first coupling groove, so that the main body and the rebar coupling part are in the second direction (horizontal direction). Combine. The reinforcing bar coupling portion is a combination of a first coupler connected to an end of a first reinforcing bar and a second coupler coupled to an end of a second reinforcing bar in a pair, and the first coupler and the second coupler are each the length of the reinforcing bar. In a state aligned horizontally with the direction, it is fastened to one end of the reinforcing bar. The first coupler and the second coupler include a hollow formed to penetrate the center at one end in the length direction so that the reinforcing bar can be inserted into the inside, and a female screw provided at a predetermined depth along the hollow inner circumferential surface, and the length of the hollow is At one end of the reinforcing bar formed smaller than the length and inserted into the hollow, a male screw having a shape complementary to the female screw is formed on the outer peripheral surface. Further comprising a coupling piece for mutually coupling the first coupler and the second coupler, when the direction in which the hollow is formed is one end of the coupling piece, and when the direction formed in a direction opposite to the one end of the coupling piece is the other end of the coupling piece, the coupling piece is the first coupler And a first coupling module formed at the other end of the second coupler, and a second coupling module formed at the other end of the second coupler, wherein the first coupling module and the second coupling module face each other.

When the longitudinal direction of the coupler and the reinforcing bar is the x-axis, the coupling direction of the first coupler and the second coupler is the y-axis, and the width direction of the coupler and the reinforcing bar is the z-axis, the first coupling module faces one direction of the y-axis. It includes a first coupling surface provided so as to, the second coupling module is provided to face in a direction opposite to the first coupling surface and includes a second coupling surface having a shape complementary to the coupling surface of the first coupling module, 1 When a virtual central axis is drawn on the coupling surface and the second coupling surface in the y-axis direction, the first coupler and the second coupler are aligned so that the virtual central axes coincide with each other, and the first coupler or the second coupler is By moving in the axial direction, the first coupling surface and the second coupling surface are coupled to abut each other. The first mating surface is formed to have a certain width and depth based on the virtual center line, and a concave groove having a circular cross section and a plurality of first protruding protrusions formed repeatedly at regular intervals along the circumferential direction of the circular edge of the concave groove Including, the second coupling surface is formed to have a predetermined width and height with respect to the virtual center line, the protrusion having a circular cross-section and a plurality of second formed by repeating at predetermined intervals along the circumferential direction of the circular edge of the protrusion. It includes a protruding protrusion, and the first protruding protrusion gradually increases the width of the first protruding protrusion as the distance from the virtual center line increases, and the second protruding protrusion has a shape complementary to the first protruding protrusion. Is formed and when the first coupling module and the second coupling module are fastened, the protrusion of the second coupling surface is received in the concave groove of the first coupling surface, and the first protruding protrusion is engaged with the second protruding protrusion, and the first protruding protrusion and the second protrusion The coupling angle of the coupling piece may have various angles due to the structure of the protrusion.
According to the present invention, the reinforcing bar is screwed to the main body, and the first coupler and the second coupler are inserted into the main body, thereby restricting the rotation of the reinforcing bar and connecting the reinforcing bar horizontally.

Features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings.

According to the present invention, it is possible to variously adjust the joint angle between the reinforcing bars using a coupler as necessary, so that construction and movement of the reinforcing bar to which the coupler is fastened are easy, simplifying the joint work of reinforcing bars, and connecting the reinforcing bars firmly As well as improving the overall strength of the structure, there is an effect of providing a structure of a rebar coupler suitable for seismic design.

1 is a perspective view showing the structure of the prior art.
Figure 2 is an exploded perspective view showing in detail the shape of the seismic reinforced coupler of the present invention.
Figure 3 is a side view showing the connection state of the reinforcing bar coupling portion and the reinforcing bar of the present invention.
4 is a partial detailed view showing in detail the fastening state between a pair of couplers of the present invention.
5 is a plan view and a cross-sectional view showing a seismic reinforced coupler of the present invention.
6 is a cross-sectional view showing a reinforced coupler for seismic resistance according to another embodiment of the present invention.
7 is a cross-sectional view showing a seismic reinforced coupler according to another embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. In this process, the thickness of the lines or the size of components shown in the drawings may be exaggerated for clarity and convenience of description.

In addition, terms to be described later are terms defined in consideration of functions in the present invention and may vary according to the intention or custom of users or operators. Therefore, definitions of these terms should be made based on the contents throughout the present specification.

In addition, the following examples are not intended to limit the scope of the present invention, but are merely illustrative of the elements presented in the claims of the present invention, and are included in the technical idea throughout the specification of the present invention, and the composition of the claims. Embodiments including elements that can be substituted as equivalents in elements may be included in the scope of the present invention.

Figure 2 is an exploded perspective view showing in detail the shape of the seismic reinforced coupler of the present invention.

2, the seismic reinforcing bar coupler 20 of the present invention includes a tubular body 100 having an insertion hole 110 formed in the center so that the reinforcing bar 10 can be inserted, and an insertion hole of the body 100 (110) It is installed inside, and provides a seismic reinforced coupler 20 including a reinforcing bar coupling portion 200 made of a pair of couplers connecting the reinforcing bars 10 to each other. The body 100 and the reinforcing bar coupling portion 200 are firmly coupled by a fastening portion, and the fastening portion has a first coupling groove 111 of a tornado shape formed at an inner end of the insertion hole 110 of the body 100, It consists of a first protrusion 211 of a tornado shape formed at one end of the coupler along the outer peripheral surface of one coupler. A pair of couplers are mutually coupled in a state that each accommodates the reinforcing bar 10, and both ends of the pair of couplers each accommodating the two reinforcing bars 10 are accommodated in the insertion hole 110 of the main body 100 to accommodate the main body 100. ) And combined. The coupling direction between the reinforcing bar coupling portions 200 to the main body 100 is the second direction (horizontal direction), and the coupling direction between the pair of couplers is formed in the first direction (vertical direction). Reinforcing bars 10 can be firmly interconnected even in external impact.

The main body 100 and a pair of couplers used in the present invention can be manufactured with a mold, and the structure of the manufactured main body 100 and the coupler is simple, so that the time of the manufacturing process can be shortened, and the use thereof is easy. Do.

Figure 3 is a side view showing the connection state of the reinforcing bar coupling portion and the reinforcing bar of the present invention.

3, the reinforcing bar coupling part 200 includes a first coupler 210 connected to the end of the first reinforcing bar 11 and a second coupler 220 connected to the end of the second reinforcing bar 12. As a paired combination, the first coupler 210 and the second coupler 220 are respectively aligned horizontally with the longitudinal direction of the reinforcing bar 10 and are fastened to one end of the reinforcing bar. According to the embodiment, the first coupler 210 and the second coupler 220 are formed with a hollow 230 in the center so that one end of the reinforcing bar 10 can be inserted into the inside, and a female thread along the inner peripheral surface of the hollow 230 A male screw 13 having a shape complementary to the female screw 231 is formed at one end of the reinforcing bar 10 inserted into the hollow 230 and is formed to a predetermined depth, on the outer peripheral surface. The female screw 231 and the male screw 13 are fastened by rotating the coupler in the locking direction. The hollow 230 is formed to have a predetermined length at one end of the first coupler 210 and the second coupler 220.

4 is a partial detailed view showing in detail the fastening state between a pair of couplers of the present invention.

Referring to Figure 4 (a), the first coupler 210 and the second coupler 220 are mutually coupled by a coupling piece 300, and the coupling piece 300 is in a direction opposite to the one end where the hollow 230 is formed. It is formed at the other end. The coupling piece 300 includes a first coupling module 310 formed at the other end of the first coupler 210 and a second coupling module 320 formed at the other end of the second coupler 220, and the first coupling module 310 ) And the second coupling module 320 are positioned to face each other. In order to easily describe the structure of the present invention, the longitudinal direction of the coupler and the reinforcing bar 10 is the x-axis, the coupling direction of the first coupler 210 and the second coupler 220 is the y-axis direction, and the coupler and the reinforcing bar ( The width direction of 10) is the z-axis direction. The first coupling module 310 includes a first coupling surface 311 provided to face in one direction of the y-axis, and the second coupling module 320 faces in a direction opposite to the first coupling surface 311. It includes the provided second coupling surface 321, the coupling surface of the first coupling module 310 has a structure complementary to the coupling surface of the second coupling module 320. For convenience, a virtual central axis (a') is drawn in the y-axis direction on the first coupling surface 311 and the second coupling surface 321 in this drawing. The first coupling surface 311 is formed to have a certain width and depth based on the virtual center line (a'), and a concave groove 311a having a circular cross section as shown in FIGS. 4B and 2 And a plurality of first protruding protrusions 311b that are repeatedly formed at regular intervals along the circumferential direction of the circular edge portion of the concave groove 311a, and the first protruding protrusion 311b increases as the distance from the virtual center line increases. 1 The width of the protruding protrusion and the distance between the first protruding protrusion gradually increase. The second coupling surface 321 is formed to have a predetermined width and height based on the imaginary center line (a') as shown in (b) of FIG. 4, and the protrusion 321a and the protrusion 321a having a circular cross section. ), including a plurality of second protruding protrusions (321b) that are repeatedly formed at regular intervals along the circumferential direction of the circular edge portion, and the second protruding protrusion (321b) has a shape consistent with the first protruding protrusion (311b) , The height of the protruding protrusion is formed smaller than the height of the protrusion 321a.

According to the described structure, when the first coupling module 310 and the second coupling module 320 are fastened, the protrusion of the second coupling surface 321 in the concave groove 311a of the first coupling surface 311 ( 321a) is accommodated and the first protruding protrusion 311b is engaged with the second protruding protrusion 321b, and the first coupler 210 and the second protruding protrusion 311b and the second protruding protrusion 321b The coupling angle at which the coupling piece 300 of the coupler 220 is engaged can be stably changed. The first coupler 210 and the second coupler 220 are first coupled by moving the first coupler 210 or the second coupler 220 in the y-axis direction while the virtual central axes are aligned to coincide with each other. The surface 311 and the second engaging surface 321 are coupled to abut each other. According to this structure, it is possible to variously adjust the coupling angle between the first coupler 210 and the second coupler 220 as necessary, so that the movement and construction of the reinforcing bars coupled by the coupler are easy.

5 is a plan view and a cross-sectional view showing a seismic reinforced coupler of the present invention.

The present invention is a reinforcing bar coupling portion 200 in the insertion hole 110 of the main body 100 in a state in which the coupling angle between the first coupler 210 and the second coupler 220 is 180° as shown in FIG. 5. ) So that the coupler is guided as shown in FIG. 2, and the body 100 is rotated clockwise or counterclockwise so that the first protrusion 211 is engaged with the first coupling groove 111. According to the engaging structure of the first coupling surface 311 of the first coupler 210 and the second coupling surface 321 of the second coupler 220, the concave groove 311a and the protrusion 321a formed in the center When combined, a tolerance is formed to reduce the impact applied to the joint, making it suitable for seismic design, and it is very easy to connect rebars. In the present invention, the structure is simplified, so that the efficiency of construction can be increased and the process time can be reduced. In addition, as the main body is stably connected to the reinforcing bar coupling portion, and the main body has a structure in which the coupling portion between the first coupler 210 and the second coupler 220 is in close contact with each other, the reinforcing bar is also connected to external impacts applied from multiple directions. It is possible to provide a reinforced coupler suitable for seismic design because the condition can be maintained more firmly.

6 is a cross-sectional view showing a reinforced coupler for seismic resistance according to another embodiment of the present invention.

According to another embodiment of the present invention, as shown in FIG. 6, the first coupling module 310 further includes a fitting protrusion 312 protruding vertically from the first coupling surface 311, and a second coupling module ( 320 further includes a fitting groove 322 formed concave in the second coupling surface 321. At least one fitting protrusion is formed in a state adjacent to the first protruding protrusion, and the fitting groove is formed in a shape and position complementary to the fitting protrusion. As more than one fitting protrusion is fastened to the fitting groove, there is an effect of maintaining a more stable coupling state.

7 is a cross-sectional view showing a seismic reinforced coupler according to another embodiment of the present invention.

According to another embodiment of the present invention, the main body 100 is provided with a first coupling groove 111 at an inner end of the insertion hole 110 as shown in FIG. 7 (a), and the insertion hole 110 A locking portion 120 formed to have a predetermined step along the inner circumferential surface of the insertion hole is provided at the inner other end. It is preferable that the inner diameter of the locking portion is formed smaller than the inner diameter of the insertion hole.

When the direction in which the hollow 230 is formed based on the longitudinal direction of the second coupler 220 is one end of the coupler, and the direction in which the coupling piece 300 is formed is the other end, the second coupler 220 is shown in FIG. 7(b). As shown in ), it includes a locking jaw 221 formed with a step difference along the outer peripheral surface between one end and the other end of the second coupler. It is preferable that the locking jaw is formed to have a higher height in the direction of the other end.

Referring to (c) of FIG. 7, when the first coupler 210 and the second coupler 220 are received in the insertion hole 110 of the main body in a fastened state, the locking jaw 221 is the locking portion 120 It is possible to prevent the second coupler from being separated from the main body 100 by being caught.

Although the present invention has been described in detail through specific examples, this is for explaining the present invention in detail, and the present invention is not limited thereto, and those of ordinary skill in the art within the spirit of the present invention It is clear that modifications or improvements are possible.

All simple modifications to changes of the present invention belong to the scope of the present invention, and the specific scope of protection of the present invention will be made clear by the appended claims.

10: reinforcing bar 11: first reinforcing bar
12: second reinforcing bar 13: male thread
20: seismic reinforced coupler 100: body
110: insertion hole 111: first coupling groove
120: locking portion 200: reinforcing bar coupling portion
210: first coupler 211: first protrusion
220: second coupler 221: locking jaw
230: hollow 231: female thread
300: coupling piece 310: first coupling module
311: first coupling surface 311a: concave groove
311b: first protruding protrusion 312: fitting protrusion
320: second coupling module 321: second coupling surface
321a: protrusion 321b: second protrusion
322: fitting groove

Claims (6)

It includes a tubular body having an insertion hole in the center so that the reinforcing bar can be inserted, a reinforcing bar coupling portion that is installed inside the insertion hole of the body and connecting the reinforcing bars to each other, and a fastening portion that binds the body and the reinforcing bar coupling portion The reinforcing bar coupling portion is a pair of two couplers that accommodate reinforcing bars, and the coupling portion has a first coupling groove in a tornado shape formed at one end inside the insertion hole of the main body, and a tornado shape formed along the outer peripheral surface of one coupler. It consists of a first protrusion, and a pair of couplers are coupled in a first direction, which is a vertical direction, while each receiving a reinforcing bar, and the coupling angle at both ends of the pair of couplers each receiving two reinforcing bars is 180°. In the state, by aligning the reinforcing bar coupling portion to be guided to the insertion hole of the body, and engaging the first protrusion into the first coupling groove, the body and the rebar coupling portion are coupled in a second direction, which is a horizontal direction,
The reinforcing bar coupling portion is a combination of a first coupler connected to the end of the first reinforcing bar and a second coupler connected to the end of the second reinforcing bar in a pair, and the first coupler and the second coupler are each It is fastened to one end of the rebar in a state aligned horizontally with the length direction,
It includes a hollow formed to penetrate the center at one end in the length direction so that the reinforcing bar can be inserted into the inside, and a female screw provided at a predetermined depth along the hollow inner peripheral surface, and the length of the hollow is formed smaller than the length of the coupler, and the hollow A male screw having a shape complementary to a female screw is formed on the outer circumferential surface of one end of the reinforcing bar inserted in the
Further comprising a coupling piece for mutually coupling the first coupler and the second coupler, wherein the direction in which the hollow is formed is one end of the coupling piece, and when the direction formed in a direction opposite to the one end of the coupling piece is the other end of the coupling piece, the coupling piece is the first coupler And a first coupling module formed at the other end of the second coupler, and a second coupling module formed at the other end of the second coupler, wherein the first coupling module and the second coupling module face each other,
The reinforcing bar is screwed into the body, and the first coupler and the second coupler are inserted into the body, thereby restricting the rotation of the reinforcing bar so that the reinforcing bar is connected horizontally. delete delete delete The method of claim 1
When the longitudinal direction of the coupler and the reinforcing bar is the x-axis, the coupling direction of the first coupler and the second coupler is the y-axis, and the width direction of the coupler and the reinforcing bar is the z-axis, the first coupling module faces one direction of the y-axis. It includes a first coupling surface provided so as to, the second coupling module is provided to face in a direction opposite to the first coupling surface and includes a second coupling surface having a shape complementary to the coupling surface of the first coupling module, 1 When a virtual central axis is drawn on the coupling surface and the second coupling surface in the y-axis direction, the first coupler and the second coupler are aligned so that the virtual central axes coincide with each other, and the first coupler or the second coupler is A seismic reinforced coupler that moves in the axial direction so that the first and second coupling surfaces are in contact with each other. The method of claim 5
The first mating surface is formed to have a certain width and depth based on the virtual center line, and a concave groove having a circular cross section and a plurality of first protruding protrusions formed repeatedly at regular intervals along the circumferential direction of the circular edge of the concave groove Including, the second coupling surface is formed to have a predetermined width and height with respect to the virtual center line, the protrusion having a circular cross-section and a plurality of second formed by repeating at predetermined intervals along the circumferential direction of the circular edge of the protrusion. It includes a protruding protrusion, and the first protruding protrusion gradually increases the width of the first protruding protrusion as the distance from the virtual center line increases, and the second protruding protrusion has a shape complementary to the first protruding protrusion. Is formed and when the first coupling module and the second coupling module are fastened, the protrusion of the second coupling surface is received in the concave groove of the first coupling surface, and the first protruding protrusion is engaged with the second protruding protrusion, and the first protruding protrusion and the second protrusion A seismic reinforced coupler that can have various angles of coupling pieces due to the structure of the protrusion.

Images