KR101371216B1 - Iron-bar coupler - Google Patents

Abstract

The present invention relates to an insertion coupler of a spiral or deformed re-bar. The purpose of the present invention is to simplify the coupling of re-bars by coupling the spiral re-bars using an insertion method without rotating the re-bars; to firmly couple the re-bars; to facilitate the assembly of a fastening cover; and to allow the fastening cover to move only in a fastening direction. The insertion coupler of a spiral or deformed re-bar according to the present invention includes a coupler body (10), the fastening cover (20), and a nut (30). A part of the fastening cover corresponding to the coupler body is marked with the coupling position of the fastening cover; and has a guide part (a guide rib and a guide groove) to guide the fastening cover to be moved in a fixed direction to fasten by being engaged with the nut.

Description

Helical or deformed rebar coupler {IRON-BAR COUPLER}

The present invention relates to a reinforcing bar coupler, and more specifically, two reinforcing bars (or deformed reinforcing bars) each made of a spiral joint, but the reinforcing bar, even if the reinforcement is made in a spiral coupling, and tightening cover The present invention relates to a coupler of a spiral or deformed reinforcing bar which can be firmly bound by the rebar.

The reinforced concrete structure is a structure in which concrete bears compressive force and rebar bears tensile force, and is made by combining steel with concrete. Concrete can be installed integrally because the formwork is installed and poured, but the reinforcing bar must be constructed by continuing the standard product of a certain length, the joint between the reinforcing bar and the reinforcing bar is bound to occur.

Therefore, in order for the reinforcing bar to sufficiently resist the required tensile force, the reinforcing bar and the reinforcing bar should be closely connected to each other. For this purpose, a method of using overlapped joints, pressure welding or reinforcing bar fittings is generally used.

Overlapping joints are reinforced with reinforcing bars and reinforcing bars over the length of the joint and tied with a binding line, which makes it easier to work with reinforcing bars. However, when the diameter of the reinforcing bars is large, there are problems of structural strength due to eccentricity and thin concrete members. Due to the overlap of the reinforcing bars, the cross-section of the formwork is narrowed, there is a problem that concrete pouring is not easy. In addition, it is difficult to control the length of rebar joints in the field, which leads to the occurrence of defects due to insolvency work. In the case of reinforcing bars having a large diameter, reinforcing bars having a certain length or less can not be used, There is a problem of.

Reinforcing bar connection method by pressing is a method of integrally forming the end by heating and pressing after connecting the end of the reinforcing bar and the reinforcing bar.

However, welding is not easy to apply because there are many problems such as long working time, excessive cost and risk of fire.

In order to solve the above problem, a method of mechanically combining a reinforcing bar with a reinforcing bar has been devised. As a mechanical reinforcing bar joining method, there are a method of screwing a reinforcing bar directly, a method of joining a screw coupling, , And a method of connecting with a coupler.

The present invention relates to a method of connecting a helical reinforcing bar to a coupler, and only a description related to the present invention will be described below.

Conventional couplers include lid type, screw type, and the like. The lid type is a semi-circular lid with two steel bars wrapped around it, and a nut is tightened in this manner. Since the two nuts must be turned a number of times, the workability is reduced.

On the other hand, a burr is generated in the cut portion during the cutting of the reinforcing bar, and an external deformation (for example, the end of the reinforcing bar is deformed and deformed) occurs in the rolling process so that the reinforcing bar may be screwed to the binding hole (coupler). Can't.

In consideration of this point, the thread of the connecting rod is made larger than the thread of the reinforcing bar, so that even if the burr is generated or the outer shape is deformed, the reinforcing bar can be screwed to the connecting rod. However, There is a problem that the reinforcing bars move inside the binding claws by the gap.

In order to solve such a problem, there is a reinforced coupler patented by the present applicant.

As a coupler patented by the present applicant, Japanese Patent Registration No. 10-1123347 discloses a coupler which binds a first and a second reinforcing bars, for example, a coupler is screwed to a first reinforcing bar, And the first and second reinforcing bars are coupled by the coupler by screwing the coupler to the side of the second reinforcing bar so as to solve the problems of the related art described above. However, since the coupler is rotated for a long time, There is a falling problem.

In addition, there is a registered Patent No. 10-1187380 as a reinforcing bar binding device. The patent has the advantage of easier operation than screw type in that the cover is fitted in the fitting method, but because the two semi-circular cover wraps the reinforcing bar, it does not solve the gap caused by production error, etc. There is a problem in that binding is not possible and a coil spring (spacer) is required.

Registration No. 10-1123347 Patent No. 10-1187379 Patent No. 10-1187380

The present invention is to solve the problems as described above, by combining the spiral reinforcement (or deformed reinforcing bar) side by side without rotation operation, tightening the reinforcing bars through the tightening cover to simplify the joint operation of the rebar and tightening cover It is an object of the present invention to provide a coupler of helical or deformed reinforcing bars that can firmly reinforce reinforcing bars.

The coupler of the helical or deformed rebar according to the present invention is to connect the first and second rebars of the helical or deformed reinforcement, respectively, and the insertion portion not larger than the diameter of the circumference is opened on one side so that the first and the second reinforcement are fitted next to each other. It is made in a U shape, the first and second spiral support portion is inserted into the inner circumferential surface respectively is formed on both sides around the first burr receiving portion of a larger cross-sectional area than the first and second spiral support portion A coupler body having spiral nut coupling parts at both sides in the longitudinal direction of the outer circumferential surface thereof; The third and fourth spiral support portions into which the threaded portions of the first and second reinforcing bars are inserted into the inner circumferential surface are formed on both sides of the second burr accommodation portion having a larger cross-sectional area than the third and fourth spiral support portions, respectively, and the insertion of the coupler body is performed. A tightening cover coupled to a part so as to be linearly movable in a direction transverse to the circumference and tightening the first and second reinforcing bars together with the coupler body; And a nut for coupling the coupler body and the tightening cover while pressing the tightening cover to the first and second reinforcing bars while being screwed to the nut fastening portion of the coupler body, and in a corresponding portion of the coupler body and the tightening cover. A guide portion (guide rib, guide groove) for guiding the fastening movement in a predetermined direction by displaying the coupling position of the tightening cover and fastening the nut is formed.

According to the coupler of the spiral or deformed reinforcement according to the present invention, the coupler body is fitted to the side of the first and second reinforcing bars, so that the coupler is not rotated by combining the first and second reinforcing bars, thereby eliminating inconvenience caused by the rotating operation. By tightening the nut, the tightening cover can be secured to the reinforcing bar more firmly by tightening the rebar to the coupler body, and in particular, the assembly of the tightening cover is very easy through the guide part, and the tightening part is fixed along the guide part ( By moving in the tightening direction), the reinforcing bar can be more firmly bound to the coupler body and the nut can be easily tightened.

In addition, when it is necessary to change the reinforcing bars and couplers when connecting the reinforcing bars, it is possible to make the reinforcing bars even if the reinforcing bars are cut immediately at the construction site And workability of the coupler can be improved.

In addition, according to the seismic design, the reference of the joint strength (length and the like) of the reinforcing bars is increased, and the length of the coupler is very easily changed, so that there is an advantage that the seismic design can be satisfied at low cost.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view showing a coupled state of a coupler of a helical or deformed reinforcing bar according to the present invention. FIG.
2 is an exploded perspective view of a coupler of a spiral or deformed reinforcing bar according to the present invention.
3 is a longitudinal sectional view of a coupler of a helical or deformed steel rod according to the present invention.
Figure 4 is a front view for showing a tightening cover applied to the coupler of the spiral or deformed rebar according to the present invention.
5 is a cross-sectional view of the coil spring applied to the coupler of the spiral or deformed rebar according to the present invention.
6 is a view configured to apply a coupler of a spiral or deformed rebar according to the present invention to rebars having different diameters.
7 is a view configured to apply a coupler of a spiral or deformed rebar according to the present invention to a deformed rebar.

As shown in Figures 1 to 3, the coupler 100 of the helical or deformed reinforcing bar according to the present invention, respectively, the first and second reinforcing bar (1,2) of the spiral (reinforcing bar, or joint portion formed with a thread on the outer peripheral surface as a whole) To the coupler body 10 and the opening of the coupler body 10, in which the first and second reinforcing bars 1 and 2 are fitted to each other. The cover 20, the coupler body 10 and the tightening cover 20 is composed of a nut 30 for binding.

The coupler body 10 is formed with first and second spiral supports 11 and 12 to which the first and second rebars 1 and 2 are fitted to the inner circumferential surface, respectively, and the first and second spiral supports 11 and 12 are The first burr accommodation portion 13 having a diameter larger than the first and second spiral support portions 11 and 12 is interposed therebetween, and formed on both sides in the longitudinal direction. That is, even though burrs are provided at the ends of the first and second rebars 1 and 2, the first and second rebars 1 and 2 may be coupled to the coupler body 10 through the first burr accommodation part 13.

The coupler body 10 has a shape in which part is open (circle whose outer circumference is partially open) when viewed from the front, and is larger than a diameter (inner diameter) at one side so that the first and second reinforcing bars 1 and 2 are fitted next to each other. Insert portion 14 is formed so that the cross section inside is made of "U" shape.

That is, the coupler body 10 has a pair of straight portions 10b, the cross section of the inner circumferential surface of which extends while maintaining the diameter of the semi-circular portion 10a in parallel at both ends of the semi-circular portion 10a and the semi-circular portion 10a. The insertion portion 14 is formed between the pair of straight portions 10b, and the tightening cover 20 is guided by a pair of straight portions 10b of the coupler body 10 to receive a semi-circular portion ( Moving to 10a) supports the first and second reinforcing bars (1,2).

The coupler body 10 may be machined in a U shape through forging, and then the first and second spiral support parts 11 and 12 may be post-processed on the inner circumferential surface.

Insertion portion 14 is formed only to the size that the first and second reinforcing bars (1,2) are fitted in the side of the longitudinal direction rather than screwed, for example, the first and second reinforcing bars (1,2) It is formed slightly larger than its diameter.

Coupler body 10 is formed with a spiral nut fastening portion 15 to which the nut 30 is fastened to both sides in the longitudinal direction of the outer circumferential surface. In addition, the inclined portion may be formed to fit the structure of the nut 30 in succession to the nut fastening portion 15.

Tightening cover 20 is to bind the first and second reinforcing bars (1,2) with the coupler body 10 while covering the insertion portion 14, which is an opening of the coupler body 10, the first and second on the inner peripheral surface Third and fourth spiral support portions 21 and 22 into which the threaded portions of the reinforcing bars 1 and 2 are inserted are formed.

Similar to the coupler body 10, the tightening cover 20 also has a third and fourth spiral support part to allow the first and second reinforcing bars 1 and 2 to be coupled even when burrs are provided at the ends of the first and second reinforcing bars 1 and 2. The second burr accommodation portion 23 having a larger cross-sectional area than the third and fourth spiral support portions 21 and 22 is formed between the 21 and 22 portions.

As shown in FIG. 4, the tightening cover 20 is sized to be coupled to the insertion portion 14 of the coupler body 10 so as to be movable in a direction transverse to the circumference, and is formed by fastening the nut 30. Pressing the first and second reinforcing bars (1, 2) toward the coupler body (10).

To this end, the nut accommodating part 24 is formed at both sides in the longitudinal direction of the outer circumferential surface of the tightening cover 20.

The nut accommodating part 24 is a form in which the horizontal part 24a and the inclination part 24b (the form which inclines upwardly, ie, a cross section becomes thick at the edge part of the horizontal part 24a) from the end part continue.

The horizontal part 24a of the nut accommodating part 24 may be a flat surface without a thread part, or the thread part may be formed so that the nut 30 may be fastened.

The nut 30 is screwed to the coupler body 10 and moves the tightening cover 20 toward the first and second reinforcing bars 1 and 2 so that the tightening cover 20 is connected to the first and second reinforcing bars 1 and 2. While being in close contact with the first and second reinforcing bars (1, 2) to be in close contact with the coupler body 10, it is composed of a horizontal screw fastening portion 31 and the inclined pressing portion 32 from one side of the threaded line. The screw fastening portion is screwed to the horizontal portion 24a of the tightening cover 20 (when a screw line is formed in the horizontal portion 24a), and the inclined pressure portion 32 is inclined portion 24b of the tightening cover 20. Pressurizing) to move the tightening cover 20 toward the first and second reinforcing bars (1,2).

According to this configuration, after the operator attaches the tightening cover 20 to the coupler body 10 (at this time, the first and second reinforcing bars 1, 2) on the third and fourth spiral supports 21 and 22 of the tightening cover 20. 2) The spiral part should be inserted] The nut 30 should be fastened, and in this process, the tightening cover 20 can be easily assembled to the coupler body 10 [the spiral part of the first and second reinforcing bars (1, 2)]. Guide portion is configured to be inserted into the third, fourth spiral support (21, 22) of the tightening cover (20) naturally.

The guide portion includes one or more guide grooves 16 formed in the coupler body 10 and guide ribs 25 formed in the tightening cover 20 and movably inserted into the guide grooves 16. Accordingly, the tightening cover 20 is assembled to the coupler body 10 only by fitting the guide rib 25 of the tightening cover 20 to the guide groove 16 of the coupler body 10 to tighten the cover 20. Assembly work is very easy. When only two guide ribs 25 and guide grooves 16 are formed, the tightening cover 20 may be entirely supported even if they are asymmetrically arranged.

The guide part guides the position for assembling the tightening cover 20 and also performs a function of constantly inducing the moving direction of the tightening cover 20 in the tightening direction by tightening the nut 30 when tightening the cover 20. To prevent torsion or deviations.

When the first and second reinforcing bars 1 and 2 are jointed in the longitudinal direction using the coupler of the present invention, one worker holds the first reinforcing bar 1 and the coupler body 10 at the lower side and the other worker is at the upper side. The second reinforcing bar (2) of the first reinforcing bar (1) in the state aligned with the joint position to cover the tightening cover 30 and tighten the nut (30), two workers to the first and second reinforcement (1 2, it may be difficult and difficult to connect, in order to solve this, the tightening cover 20 is formed asymmetrically, that is, the length of one side is short with respect to the center of the second burr accommodation portion 23 (Fig. 5). Reference). Tightening cover 20 is for the purpose of easy jointing of the first and second reinforcing bars (1,2) using a coupler, the length is determined under the condition that the binding force with the nut 30 is not lowered.

Accordingly, the coupler body 10 is fitted to the first and second reinforcing bars 1 and 2 while the second reinforcing bars 2 are arranged in a line with the first reinforcing bars 1, respectively, and at this time, the nut 30 on the lower side ) To the coupler body 10, but screwed only enough to allow the tightening cover 20 to be inserted, and in this state, the bottom nut (short side) of the lowering cover 20 is lowered to the lower side nut ( Insert the inside of the 30 to the nut 30, and then tighten the lower nut 30 to tighten the tightening nut 20.

On the other hand, according to the present invention, the first to fourth spiral support parts 11, 12, 21, 22 and the first and second reinforcing bars (1, 2) of the coupler body 10 and the tightening cover 20 due to production error, etc. The first and second coil springs 40 and 50 (see FIG. 6) may be applied to firmly bind the first and second reinforcing bars 1 and 2 even when a gap occurs between them.

The first and second coil springs 40 and 50 may include the first to fourth spiral supports 11, 12, 21, 22, and the first and second rebars of the coupler body 10 and the tightening cover 20. It is interposed between the screw portion of the) and elastically deformed by its own elastic force to firmly bind the first and second reinforcing bars (1, 2) to the coupler body 10 and the tightening cover (20).

That is, it is preferable that the first and second coil springs 40 and 50 have a cross-sectional size larger than the distance between the peaks of the first and second rebars 1 and 2 and the peaks of the coupler body 10 and the fastening cover 20. Do.

In addition, the first and second coil springs 40 and 50 may have a structure having a uniform diameter as a whole, but the first spiral part and the first smaller than the diameter of the bone of the first and second reinforcing bars 1 and 2 for a more solid binding. At least two of the second spiral portion and the third spiral portion having a larger outer diameter than the inner diameter of the valley of the coupler body 10 and the tightening cover 20 are formed with the diameter of the valley of the first and second reinforcing bars 1 and 2. The structure is preferred.

That is, the first and second coil springs 40 and 50 of such a structure are elastically deformed while pressing and fixing the first and second reinforcing bars 1 and 2, the coupler body 10, and the tightening cover 20. Each of the first to third spiral parts is inserted between the coupler body 10 and two neighboring threads of the tightening cover 20 together with the threads of the first and second reinforcing bars 1 and 2 so that the first to third spiral parts As a result, the threads of the first and second rebars 1 and 2 are brought into close contact with the threads of the coupler body 10 and the captive cover 20 to be fixed.

The first and second coil springs 40 and 50 may have a diameter in which two or more of the first to third spiral portions are stepped, or may be configured to gradually increase in diameter from one end to the other end.

Although not specifically described in the present invention, the outer circumferential surface of the coupler body 10 and the tightening cover 20 may be formed with an uneven portion for binding with the concrete, it may be formed with a filling hole that can be filled in the concrete. .

Rebar splice method using a coupler of spiral or deformed rebar according to the present invention is as follows.

Couple the first and second reinforcing bars (1, 2) by fastening the coupler body (10) and the captive cover (20) while the ends of the first and second reinforcing bars (1, 2) fitted with the nuts (30) are fitted. do.

After aligning the end portions of the first and second reinforcing bars 1 and 2 to the first burr accommodation part 13 while the insertion part 14 of the coupler body 10 corresponds to the first and second rebars 1 and 2, The coupler body 10 is inserted from the side so that the first and second reinforcing bars 1 and 2 are fitted to the first and second spiral supports 11 and 12 of the coupler body 10.

When the coupler body 10 is fitted to the first and second reinforcing bars 1 and 2, the coupler body 10 is formed by the first and second reinforcing bars 1 and 2 because the size of the insertion part 14 of the coupler body 10 is not large. It is not separated in 2).

Subsequently, the tightening cover 20 is inserted into the insertion portion 14 of the coupler body 10. At this time, by fitting the guide ribs 25 of the tightening cover 20 to the guide groove 16 of the coupler body 10, the tightening cover 20 is naturally coupled to the coupler body 10 and the tightening cover 20 The threaded portions of the first and second rebars 1 and 2 are fitted to the third and fourth spiral supports 21 and 22.

The first and second reinforcing bars (1, 2), the coupler body (10) and the fastening cover (20) are integrally coupled by coupling the nut (30) from both sides to couple the coupler body (10) and the tightening cover (20). do.

Specifically, the nut 30 is moved inward as the screw is fastened to the coupler body 10 (or the coupler body 10 and the tightening cover 20), the inclined pressing portion of the nut 30 ( 32 pushes the inclined portion 24b of the tightening cover 20 in the forward direction, and the tightening nut 20 is configured to move only in a direction orthogonal to the moving direction of the nut 30. By moving in the direction of tightening the reinforcing bars (1,2) so that they are in close contact with the first and second reinforcing bars (1,2), the first and second reinforcing bars (1,2) are in close contact with the coupler body 10.

So far, the first and second rebars 1 and 2 are illustrated and described as having the same diameter, but the present invention provides the first to fourth spiral support parts 11 and 12 of the coupler body 10 and the tightening cover 20. Since 21 and 22 may have different diameters, the first and second reinforcing bars 1 and 2 having different diameters may also be joined as shown in FIG. 7.

In addition, in the present invention, as shown in Figure 8, the first and second reinforcing bars (1, 2) is also applicable to the deformed reinforcing bar of a shape other than the spiral, the first to fourth spiral support (11, 12, 21, The ribs of the deformed reinforcement are inserted into the valley of 22), and the deformed reinforcement (1, 2) is also applicable.

Therefore, although not shown in the drawings, the present invention can be applied to the first and second reinforcing bars having different diameters and shapes. In addition, through the shape change of the first to fourth spiral support portions 11, 12, 21, 22 of the coupler body 10 and the tightening cover 20, the spiral reinforcement and the deformed reinforcing bars may be joined together.

1,2: First and second reinforcing bars,
10: coupler body, 11, 12, 21, 22: first to fourth spiral support
13,23: first and second burr receiving portion, 14: insertion portion
15: nut connection part, 16: guide groove
24: nut accommodating part, 24a: horizontal part
24b: inclined portion, 25: guide rib
30: nut, 31: horizontal screw connection
32: inclined pressure portion, 40, 50: first, second coil spring

Claims (10)

(1, 2) of helical or deformed type, respectively,
The first and second spiral supports 11 into which the first and second reinforcing bars are inserted are formed in a U shape, and the first and second reinforcing bars are respectively inserted into the inner circumferential surface so that the first and second reinforcing bars are inserted from each side. 12 are formed on both sides of the first burr accommodation portion 13 having a larger cross-sectional area than the first and second spiral supports, and spiral nut coupling portions 15 are provided on both sides in the longitudinal direction of the outer circumferential surface. Coupler body 10;
The third and fourth spiral support portions 21 and 22 into which the threaded portions of the first and second rebars are inserted into the inner circumferential surface of the second burr accommodation portion 23 having a larger cross-sectional area than the third and fourth spiral support portions are formed on both sides. A tightening cover (20) formed respectively and coupled to the insertion portion of the coupler body so as to be linearly movable in a direction transverse to the circumference and tightening the first and second reinforcing bars together with the coupler body;
And a nut 30 for screwing the coupler body and the tightening cover while pressing the tightening cover toward the first and second reinforcing bars while being screwed to the nut fastening portion of the coupler body.
Corresponding portions of the coupler body and the tightening cover of the spiral or deformed reinforcement, characterized in that the guide portion for indicating the coupling position of the tightening cover and guides the tightening movement in a predetermined direction by the fastening of the nut is formed. Coupler. The method of claim 1, wherein the guide portion is formed in one or more guide grooves 16 formed in the coupler body, a spiral or characterized in that the guide ribs 25 are formed in the tightening cover and inserted into the guide groove so as to be movable Coupler of deformed rebar. The method of claim 1 or 2, wherein the coupler body 10 is formed while extending the cross section of the inner peripheral surface while maintaining the diameter of the semi-circular portion (10a) in parallel at both ends of the semi-circular portion (10a), semi-circular portion (10a) Coupler of a spiral or deformed reinforcing bar, characterized in that the insertion portion (14) formed of a pair of straight portion (10b) for guiding the movement of the tightening cover. The outer peripheral surface of both sides of the tightening cover in the longitudinal direction is formed with a nut receiving portion formed with a horizontal portion 24a and an inclined portion 24b extending from the horizontal portion, and the nut is horizontal with the tightening cover. Coupler of a helical or deformed reinforcing bar, characterized in that it comprises a horizontal screw fastening portion (31) corresponding to the portion and the inclined pressure portion (32) in close contact with the inclined portion of the tightening cover. 4. The coupler of claim 3, wherein an adhesive is applied to an inner surface of the third and fourth spiral supports of the tightening cover to be adhesively fixed to an outer circumferential surface of the first and second reinforcing bars. The coupler of claim 3, wherein the tightening cover has one side formed shorter than the other side of both sides with respect to the second burr accommodation portion. The method of claim 3, wherein the first and second coil springs interposed between the coupler body and the tightening cover and the first and second reinforcing bars and to bind the first and second reinforcing bars to the coupler body and the tightening cover ( 40, 50) of the helical or deformed rebar type coupler. The method of claim 7, wherein the first and second coil springs, the first spiral portion smaller than the diameter of the bone of the first, second rebar, the second spiral portion and the coupler equal to the diameter of the bone of the first, second rebar Two or more of the third spiral portion having an outer diameter larger than the inner diameter of the bone of the body and the tightening cover is formed, and the first to third spiral portions are pressed while fixing the first and second rebars, the coupler body and the tightening cover by a restoring force. Each node is inserted between the coupler body and two adjacent threads of the tightening cover together with the threads of the first and second reinforcing bars so that the threads of the first and second reinforcing bars are tightened by the self-elastic force. Coupler of a spiral or deformed reinforcing bar, characterized in that to be fixed in close contact with the thread of the. The coupler of claim 3, wherein the first to fourth spiral supports of the coupler body and the tightening cover are formed to have different diameters to connect the first and second reinforcing bars having different diameters. The method of claim 3, wherein the first and second reinforcing bar is a non-helical deformed reinforcing bar and the rib of the deformed bar is inserted into the bone of the coupler body and the first to fourth spiral support of the tightening cover of the spiral or deformed reinforcing bar Coupler.

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