KR101906354B1 - Coupler apparatus for connecting each thread bars of precast concrete members, and connecting method of precast concrete member using the same - Google Patents

Abstract

When assembling pre-cast precast concrete members in the manufacturing site and assembling steel reinforcing bars and the like, even if the center axes of the reinforcing bars exposed from the respective precast concrete members do not coincide significantly, It is possible to precisely connect the precast concrete members by screwing them together with the male couplers and adjusting the use of the fixing set nuts to the minimum when connecting the threaded reinforcing bars to the end portions of the first reinforcing bars and the second reinforcing bars. And it is also possible to easily fasten the female coupler and the male coupler using the female coupling spacing adjusting member without precisely matching the center axes of the first and second reinforcing bars for connecting to each other Of a pre-cast concrete member and a pre-cast cone using the same A method of connecting a crotch member is provided.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a precast concrete member,

The present invention relates to a coupler for connecting a precast concrete member, and more particularly, to a precursor concrete member for connecting a precast concrete member, And a precast concrete member connecting method using the same.

Generally, reinforcing bars are widely used to reinforce the strength of concrete structures embedded in concrete when reinforcing concrete structures in construction or civil engineering are applied. Especially, reinforcing bars are used for reinforcing concrete structures such as large structures, special structures, A large amount of rebar is used.

However, since these reinforcing bars are produced in a standard length, they are to be used in connection with reinforced bars produced in a limited length for large structures, special structures, and civil structures such as bridges.

BACKGROUND OF THE INVENTION [0002] Conventionally, reinforcing bar connecting methods that have been used up to now include laminating, welding, threading, and mechanical joining.

The folded joints have a disadvantage in that the reinforcing bars need to be overlapped each other by overlapping the reinforcing bars with each other by overlapping the reinforcing bars with each other by bundling them with wires or wires so that the reinforcing bars are overlapped with each other by a predetermined length and the strength of the overlapping portions is weak. , Weld joints are cumbersome in construction and heat the welds, so the strength of the reinforcement near the welds is remarkably weakened by heat.

Therefore, in order to connect both reinforcing bars at the connection part of the reinforcing bars, a coupler is used which is formed into a cylindrical pipe shape and is made of reinforcing bars and mechanical screw fastening.

1 is a cross-sectional view illustrating a method of connecting a plurality of reinforcing bars using a coupler according to a conventional technique.

As shown in Fig. 1, the reinforcing coupler according to the related art has a structure in which the reinforcing bars 21 and 22 are connected to each other by using a coupler 10 screwed with a reinforcing bar.

1 shows a state before the coupler 10 is coupled to the one reinforcing bar 21 and the center view of Fig. 1 shows a state where the coupler 10 is positioned between the two reinforcing bars 21 and 22, And 22 are connected to each other. The right side view of FIG. 1 shows a state where the gap between the connection end faces of the reinforcing bars 21 and 22 is connected by the coupler 10.

More specifically, as shown in FIG. 1, the coupler 10 according to the related art is formed of a cylindrical member having a hollow 11 corresponding to the outer diameter of the reinforcing bars 21, 22, Female threads corresponding to the screws formed on the outer surfaces of the connecting ends of the reinforcing bars 21 and 22 are formed on the inner surface of the hollow 11.

Therefore, a male thread portion is formed on the outer surfaces of both connecting ends of the two reinforcing bars 21 and 22, and the reinforcing bars and the coupler 10 are rotated in opposite directions so that both connecting ends of the reinforcing bars 21 and 22 are in contact with each other. 10 integrally connect the two reinforcing bars 21, 22 to each other.

At this time, in order to firmly connect the two side reinforcing bars 21 and 22 with each other using the screw coupler 10, the coupler 10 is connected to the connecting end of the one side reinforcing bar 21 and the connecting end of the other side reinforcing bar 22, The coupler 10 must be strongly tightened together with the two side bars until the coupler 10 is no longer rotated.

However, in the case of the coupler 10 according to the related art, it is impossible to know whether the reinforcing bars can be completely connected to each other until the reinforcing bars and the coupler 10 are tightened together for a long time. In other words, And it was not possible to verify it. Therefore, it was forced to depend on the ability and sincerity of the worker.

That is, since the degree of tightening of the coupler 10 can not be determined according to the will of the operator and the degree of proficiency of the operator, even if the fastening of the coupler 10 to the reinforcing bars is insufficient, verification can not be performed otherwise.

In order to solve the above-described problem, it is possible to visually confirm that the tightening of the coupler is made to a sufficient degree so as to prevent the situation where the coupler is insufficiently tightened by the operator. In addition, A torque shear (TS) coupler 30 is provided as shown in Fig.

2 is a perspective view illustrating a method of connecting a plurality of reinforcing bars using a coupler in which a fastening body portion and a separating portion are separated according to a conventional technique.

Referring to FIG. 2, the TS coupler 30 according to the related art is formed of a tubular member having a hollow 31 having an inner diameter corresponding to the outer diameter of the reinforcing bars 21 and 22 at its center, And a connection end of the reinforcing bars 21 and 22 is inserted into the hollow 31 and fastened.

In the case of such a TS coupler 30, since the cross-sectional reduction portion 32 having a smaller cross-sectional area is formed so as to have a smaller torque torque than the separating portion 33 and the fastening body 34, The TS coupler 30 is divided into a separating portion 33 and a fastening body portion 34 in the longitudinal direction.

The TS coupler 30 is constructed such that the reinforcing bars 21 are screwed to the threaded portions 34a of the fastening body portion 34 and the other reinforcing rods 22 are fastened to the hollow portion 31 of the separating portion 33, A tool 41 is attached to the reinforcing bar 22 and the tool 33 is attached to the separating portion 33. The tool 41 is attached to the reinforcing bar 22 by means of the separating portion 33 and is fastened to the threaded portion 34a of the fastening body 34, (42, spanner or wrench) and rotates in opposite directions to connect the reinforcing bars (22) to the TS coupler (30).

At this time, when torque is applied to the fastening body 34 and the separating part 33 continuously in a state where the fastening body 34 is positioned over the connecting ends of the side reinforcing bars 21 and 22, The separating portion 33 and the fastening body portion 34 are separated from each other so that the magnitude of the torque introduced into the fastening body portion 34 can be visually confirmed.

In other words, if the separating portion of the coupler is separated from the fastening body portion 34 at the front end thereof and is separated, the operator can visually confirm that a predetermined torque is introduced into the coupler.

However, since the TS coupler 30 according to the related art has to rotate the reinforcing bar 22 using a tool 41 such as a pie french for each reinforcing bar, there is a limitation there was. In other words, there is a limitation in that the worker puts the wrench into the coupler and the work of tightening and turning the wrench is repeated for each reinforcing bar, so that the workload is greatly increased and the work productivity is lowered accordingly.

On the other hand, concrete structures such as waterways and retaining walls are assembled by bringing the concrete members manufactured in factories to the site and connecting them appropriately in the field.

Since the end portion of the connecting rod made of a steel material is provided in such a concrete member so as to be exposed in the vicinity of the connection face of the concrete member, welding is generally used when connecting the concrete member. For example, when these concrete members are interconnected, The end portions of the connecting rods facing each other are welded together while the connecting surfaces of the members are in close contact with each other.

However, there is a high possibility that the axes of the connecting rods opposed to each other when the concrete members are connected to each other in accordance with the conventional technique are high, and the quality of the joining due to the welding described above is uneven, and in accordance with the environmental conditions and the capability of the welding operator The quality of the bonding due to welding may be uneven. In order to obtain watertightness or airtightness at the connection portion of the concrete member, it is necessary to perform welding while applying a load to the interconnecting surface of the concrete member. However, it is difficult to apply the load from the relationship of the shape and connection direction of the concrete member There is a problem that a concrete structure having a desired watertightness or airtightness can not be obtained.

Further, according to the related art, when a nut is used for screw-type reinforcing steel connection with threaded ends at the ends of the first and second reinforcing bars, the nut may be loosened during setting, There is a problem that work must be performed. In addition, when a plurality of fixing set bolts are used, there is a problem that each fixing set bolt must be tightened.

On the other hand, Korean Patent Registration No. 10-535374 discloses an invention entitled " connector and connection structure "as a prior art, which will be described with reference to Fig.

3 is a view for explaining a connection method of a concrete member according to a conventional technique.

When the first precast concrete member 51 and the second precast concrete member 52 are connected to each other according to the conventional technique, as shown in Fig. 3, the connecting surface of the first precast concrete member 51 and the connecting surface of the first precast concrete member 51, 2 The connection surface of the precast concrete member 52 is closely adhered via another packing. At this time, since the concave portion of the first precast concrete member 51 and the concave portion of the second precast concrete member 52 are substantially coincident with each other, The axes CL1 and CL2 of the exposed male screw portions 61a and 62a are substantially straight.

Next, while holding the male coupler 71, the male coupler 72 is turned to screw the female screw hole 72a to the male screw portion 71a of the male coupler 71. [ If such a screwing is difficult, a suitable fastening tool is applied to the tool engaging portion 72e of the female coupler 72 in a state in which a fastening tool suitable for the tool engaging portion 71e of the male coupler 71 is engaged and held And continues threading of the female coupler 72 to the male coupler 71. [

The connecting rod 61 of the first precast concrete member 51 is then given attraction force indicated by a thick arrow through the male coupler 71 and is hooked on the female coupler 72 and the engagement portion 72c A force is applied to the connecting rod 62 of the second precast concrete member 52 through the combined limiting nut 73 so that the connecting surface of the first precast concrete member 51 and the connecting surface of the second precast concrete member 52 are connected, And the first precast concrete member 51 and the second precast concrete member 52 are connected to each other in the pressure-contacted state.

Next, an annular gap exists between the insertion hole 72b of the female coupling 72 and the male screw portion 62a inserted into the insertion hole 72b. By this gap, the gap of the female coupler 72 The position of the male screw portion 61a can be finely adjusted in the direction orthogonal to the axis CL2 of the male screw portion 62a so that the first and second precast concrete members 51, The screw coupling of the male coupler 72 with respect to the male coupler 71 can be appropriately performed using the gap even when the axial line CL1 of the male screw portion 62a and the axial line CL2 of the male screw portion 62a are deviated from each other.

The amount of movement of the arm coupler 72 at the time of threaded engagement is limited by the engagement of the stopper portion 72c with the limiting nut 73 and the restriction nut 73 is connected Is fixed to the male screw portion 62a of the rod 62 so that when the male coupler 72 is screwed to the male coupler 71, the screwed position of the limiting nut 73 is shifted The first precast concrete member 51 and the second precast concrete member 52 can be precisely interconnected by screw coupling of the male coupler 72 to the aforementioned male coupler 71 .

Next, after the screw coupling operation of the male coupler 72 to the male coupler 71 is completed, the lock nut 75 on the male coupler 71 side is tightened by using a fastening tool such as a wrench or the like, And the lock nut 76 on the side of the female coupler 72 is tightly tightened with a fastening tool such as a wrench to press-contact the female coupler 72. Next, a hardening material such as an epoxy resin is injected into the space inside the connector from the through hole 72d of the female coupler 72, and a hardening material such as mortar is charged into the concave portions which are continuous with each other. As a result, the first precast concrete member 51 and the second precast concrete member 52 are interconnected, and concrete structures such as waterways and retaining walls are constructed by repeating the above-described operations.

However, in the case of connecting the concrete members according to the conventional technique, when the nut is used for connecting the threaded reinforcing bars to the end portions of the first and second reinforcing bars, loosening of the nut may occur during the setting In addition, when a plurality of fixing set bolts are used, there is a problem that each fixing set bolt must be tightened.

Korean Patent No. 10-1319398 filed on Mar. 12, 2012, entitled "Reinforcing coupler and fastening method of reinforcing coupler using same" Korean Registered Patent No. 10-957850 filed on December 31, 2009, entitled "Connection Method of Precast Concrete Members" Korean Patent No. 10-535374 filed on Jun. 27, 2002, entitled "Connector and connection structure" Korean Registered Patent No. 10-938726 filed on July 27, 2007, entitled "Reinforcing Bars and Reinforcing Couplers and Their Assemblies and Their Connection Methods" Korean Patent No. 10-103659 filed on January 26, 2011, entitled "Reinforced Coupler" Korean Patent Publication No. 2017-126769 (published on November 20, 2017), entitled "Reinforced Conductor Coupler Having Both Side Chains" Korean Patent Laid-Open Publication No. 2013-56134 (published on May 29, 2013), entitled "Reinforced Concrete Coupler and Precast Concrete Assembly Using It,

In order to solve the above-described problems, it is an object of the present invention to provide a method of manufacturing a precast concrete member, A coupling device for connecting a threaded reinforcing bar of a precast concrete member which can precisely connect a precast concrete member by screwing a male coupler with a male coupler by adjusting the position of a female coupler even when the center axis of the reinforcing bar does not substantially coincide with the center axis, And a method for connecting a cast concrete member.

Another object of the present invention is to provide a method and apparatus for reducing the air and cost by minimizing the use of a set nut for fixing a threaded reinforcing bar to each end of a first reinforcing bar and a second reinforcing bar, And to provide a method of connecting a precast concrete member using the same.

In order to achieve the above object, the present invention provides a coupler apparatus for connecting a threaded reinforcing bar of a precast concrete member, comprising: a first precast concrete member and a second precast concrete member, A male coupler having a first reinforcing bar thread thread formed on an inner circumferential surface of the first reinforcing bar exposed from the first precast concrete member and screwed to a threaded end of the first reinforcing bar, A position adjustment tolerance hole to be inserted into the second reinforcing bar exposed from the second precast concrete member is formed and finely adjusted to be moved to the side and then screwed to an outer peripheral surface of the male coupler formed on the outer circumferential surface of the male coupler, A coupler having a coupler inner thread; An arm coupler gap adjusting member for finely adjusting the arm coupler to move to the side while being screwed to the second reinforcing bar; And a fixing set nut screwed to the threaded end of the first reinforcing bar to fix the male coupler to the first reinforcing bar,
The female coupler comprising: a female coupler body; An inner coupler inner threaded screw having a female screw on an inner circumferential surface of the lower portion of the female coupler body; A position adjustment tolerance hole formed at the center of the upper portion of the arm coupler body so that the arm coupler body can be inserted into the threaded end portion of the second reinforcing bar; A female coupler jig groove formed on an upper outer circumferential surface of the female coupler body to tighten the female coupler body using a wrench; And a filler material injection hole formed at an upper end of an outer circumferential surface of the female coupler body so as to inject a filler into a space in the female coupler body, wherein the female coupler interval adjusting member is formed with an eccentricity; A second reinforcing bar insertion thread formed on an inner circumferential surface of the gap adjusting member body into which the second reinforcing bar is inserted and screwed; And a gap adjusting member jig groove formed on an upper outer circumferential surface of the gap adjusting member body so as to rotate the gap adjusting member body using a wrench, wherein a center axis of the first reinforcing bar is a center of the second reinforcing bar When the gap adjusting member body is rotated by rotating only the gap adjusting member jig grooves of the female coupler gap adjusting member, the female coupler engaged with the female coupler gap adjusting member is moved while being finely adjusted on the side , The threads of the outer circumferential surface of the male coupler and the male screw inner coupler form threads in the direction opposite to the first reinforcing bar insertion thread and the second reinforcing bar insertion thread so that the female coupler is rotated to prevent loosening during assembly with the male coupler And a filling material is injected into the filling material injection hole formed in the female coupler, So that the fastening of the plug can not be released.

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Here, the male coupler may include a male coupler body; A first reinforcing insert thread having a female screw formed on an inner circumferential surface of the male coupler body so that a threaded end of the first reinforcing bar can be inserted; A male coupler outer thread having a male screw formed on an outer circumferential surface of the male coupler body so as to be screwed into an inner female screw thread of the female coupler; And a clamp male coupler jig formed on the outer peripheral surface of the lower end of the male coupler body to clamp the male coupler body using a clamp.

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The filler material injected into the filler material injection holes formed in the female coupler of the precast concrete member according to the present invention prevents rusting by removing the air layer inside the coupler, The first precast concrete member and the second precast concrete member are installed in a first groove and a second groove of the second precast concrete member to prevent the fastening of the first precast concrete and the second precast concrete, And a concave and a convex shape is formed on an outer circumferential surface of the female coupler so as to increase an adhesion force with the filler in the concrete.

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According to another aspect of the present invention, there is provided a method of connecting a precast concrete member using a coupler apparatus for connecting a threaded reinforcing bar, the method comprising the steps of: a) providing a first reinforcing member exposed from a first precast concrete member, Screw coupling the fixing set nut and the male coupler to the end portion, inserting the female coupler into the end portion of the second reinforcing bar exposed from the second precast concrete member, and screwing the female coupler interval adjusting member; b) disposing the first precast concrete member and the second precast concrete member in contact with each other so as to be in contact with each other; c) upwardly moving the male coupler and the female coupler; d) fine-adjusting the arm coupler gap adjusting member to move the arm coupler to the side; e) moving the female coupler downward to screw the male coupler with the male coupler in a state where the male coupler is fixed; f) tightening the male coupler with the female coupler fixed; g) tightening the fixing set nut at the bottom of the male coupler; h) injecting a filler through the filler material injection hole of the female coupler; And i) completing the connection of the first and second precast concrete members by placing a filler in the concrete in the grooves of the first and second precast concrete members, wherein the center axis of the first reinforcing bars Adjusting the member to be moved to the side of the female coupler when the center axis of the second reinforcing bar does not coincide with the center axis of the second reinforcing bar,
The female coupler of step a) includes a female coupler body; An inner coupler inner threaded screw having a female screw on an inner circumferential surface of the lower portion of the female coupler body; A position adjustment tolerance hole formed at the center of the upper portion of the arm coupler body so that the arm coupler body can be inserted into the threaded end portion of the second reinforcing bar; A female coupler jig groove formed on an upper outer circumferential surface of the female coupler body to tighten the female coupler body using a wrench; And a filler material injection hole formed at an upper end of an outer circumferential surface of the female coupler body so as to inject a filler into the space in the female coupler body, wherein the female coupler gap adjusting member in step a) ; A second reinforcing bar insertion thread formed on an inner circumferential surface of the gap adjusting member body so that the second reinforcing bar is inserted and screwed; And a gap adjusting member jig groove formed on an upper outer circumferential surface of the gap adjusting member body so as to rotate the gap adjusting member body using a wrench, wherein a center axis of the first reinforcing bar is a center of the second reinforcing bar (D), when the interval adjusting member body is rotated by rotating only the interval adjusting member jig grooves of the female coupler interval adjusting member, the female coupler engaged with the female coupler interval adjusting member is finely adjusted to the side So that the threads of the outer circumferential surface of the male coupler and the inner threads of the female coupler form threads opposite to the directions of the first reinforcing bar insertion thread and the second reinforcing bar insertion thread so that the male coupler is rotated and assembled with the male coupler In addition, in the step h), the filling material filling hole formed in the female coupler is filled To be injected is not the engagement of the coupler and the female coupler solved.

According to the present invention, even if the center axes of the reinforcing bars exposed from the respective precast concrete members do not substantially coincide with each other when the precast concrete members preliminarily manufactured in the manufacturing site are brought into the field and assembled such as reinforcing bars, By precisely adjusting the position of the female coupler and screwing the male coupler with the male coupler, precast concrete members can be accurately connected.

According to the present invention, air and cost can be saved by minimizing the use of fixing set nuts when threaded reinforcing bars are threaded at the ends of the first and second bars.

According to the present invention, it is possible to easily fasten the female coupler and the male coupler by using the female coupler interval adjusting member without exactly matching the center axes of the first and second reinforcing bars for connecting to each other.

1 is a cross-sectional view illustrating a method of connecting a plurality of reinforcing bars using a coupler according to a conventional technique.
2 is a perspective view illustrating a method of connecting a plurality of reinforcing bars using a coupler in which a fastening body portion and a separating portion are separated according to a conventional technique.
3 is a view for explaining a connection method of a concrete member according to a conventional technique.
4 is a view showing connection of a precast concrete member by a coupler apparatus for connecting threaded reinforcing bars of a precast concrete member according to an embodiment of the present invention.
5 is a cross-sectional view illustrating a coupler apparatus for connecting a threaded reinforcing bar of a precast concrete member according to an embodiment of the present invention.
FIG. 6 is a cross-sectional view for explaining a female coupler, a male coupler, and an arm coupler gap adjusting member in a coupler apparatus for connecting a threaded reinforcing bar of a precast concrete member according to an embodiment of the present invention.
FIG. 7 is a photograph specifically showing an arm coupler gap adjusting member in a coupler apparatus for connecting a threaded reinforcing bar of a precast concrete member according to an embodiment of the present invention. FIG.
8 is a view showing a state in which a coupler apparatus for connecting a threaded type reinforcing bar according to an embodiment of the present invention is engaged for connection of first and second precast concrete members.
9 is a flowchart illustrating a method of connecting a precast concrete member using a coupler apparatus for connecting a threaded reinforcing bar according to an embodiment of the present invention.
FIGS. 10A to 10I are views for explaining concretely the connection method of the precast concrete member using the coupler apparatus for connecting threaded type reinforcing bars shown in FIG. 9, respectively.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, which will be readily apparent to those skilled in the art. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

Throughout the specification, when an element is referred to as "comprising ", it means that it can include other elements as well, without excluding other elements unless specifically stated otherwise.

[Coupler Device for Connection of Screw-type Reinforcing Bars of Precast Concrete Members (200)]

4 is a view showing a connection of a precast concrete member by a coupler apparatus for connecting threaded reinforcing bars of a precast concrete member according to an embodiment of the present invention, wherein FIG. 4 (a) And FIG. 4B shows a fastened coupler device, and FIG. 5 is a cross-sectional view showing a coupler device for connecting a threaded reinforcing bar of a precast concrete member according to an embodiment of the present invention.

4A, a screw-type reinforcing bar coupler 200 of a precast concrete member according to an embodiment of the present invention includes a first precast concrete member 110 and a second precast concrete member 110. [ The first precast concrete member 110 is formed with a first groove 130 and the first reinforcing bar 150 which is a lower reinforcing bar is exposed from the first groove 130, The second precast concrete member 120 has a second groove 140 formed therein and a second reinforcing bar 160 as an upper reinforcing bar is exposed from the second groove 140, 5, the screw-type reinforcing bar coupler 200 of the precast concrete member includes a male coupler 210, a female coupler 220, a female coupler interval adjusting member 230, Set nut (240) and a filler (250), wherein the first reinforcing bars (150) and the second reinforcing bars The reinforcing bars 160 are connected.

4 (a), the fixing set nut 240 is fixed to the first reinforcing bar 150 exposed from the first groove 130 formed in the first precast concrete member 110, And the male coupler 210 is screwed on the upper portion of the first groove 130 to be in close contact with the lower end of the first groove 130. The arm coupler 220 is inserted into the second reinforcing bar 160 exposed from the second concave groove 140 formed in the second precast concrete member 120 and the exposed second reinforcing bar 160 is fitted with the female coupling spacing The adjusting member 230 is screwed. At this time, the second reinforcing bars 160 are inserted through the position adjustment tolerance holes formed in the arm coupler 220, and the diameter of the position adjustment tolerance holes is formed to be smaller than the diameter of the arm coupler gap adjusting member 230, The arm coupler 220 can be prevented from separating from the second reinforcing bar 160.

In the case of the screw-type reinforcing bar coupler 200 of the precast concrete member according to the embodiment of the present invention, as shown in FIG. 4 b), the male coupler 210 is moved upward, The male coupler 220 is moved to the side corresponding to the rotation of the adjusting member 230 and then the male coupler 210 and the male coupler 220 are coupled to each other. The filling material 250 is injected into the injection hole 225 and then the filling material 260 is filled in the first and second grooves 130 and 140 to form the first precast concrete member 110, 2 precast concrete member 120 can be connected.

5, a screw-type reinforcing bar coupler 200 of a precast concrete member according to an embodiment of the present invention includes a first precast concrete member 110 and a second precast concrete member 120 A coupler 210, a female coupler 220, an arm coupler gap adjusting member 230, a fixing set nut 240, and a filler 250. The coupler 210 is a screw coupler.

The male coupler 210 is formed with a first reinforcing steel thread 212 on the inner circumferential surface so as to be screwed to the threaded end of the first reinforcing bar 150 exposed from the first precast concrete member 110, A male coupler outer peripheral thread 213 is formed.

The arm coupler 220 is formed with a positioning adjustment hole 223 to be inserted into the second reinforcing bar 160 exposed from the second precast concrete member 120 and finely adjusted to move to the side, Coupler inner thread 222 is formed on the inner circumferential surface of screw 210 so as to be screwed into male coupler outer thread 213 formed on the outer circumferential surface.

The arm coupler interval adjusting member 230 finely adjusts the arm coupler 220 to move laterally in a state where the second reinforcing bar 160 is screwed. That is, when the central axis of the first reinforcing bar 150 does not coincide with the center axis of the second reinforcing bar 160, the coupling coupler interval adjusting member 230 is moved such that the coupling coupler 220 is moved to the side Fine adjustment is possible. For example, the arm coupler interval adjusting member 230 may be an insert nut having an eccentricity so that the arm coupler 220 can be finely adjusted by being moved laterally.

The fixing set nut 240 is screwed to the threaded end of the first reinforcing bar 150 to fix the male coupler 210 to the first reinforcing bar 150.

The filler material 250 is injected into the filler material injection hole 225 formed in the female coupler 220. The filler material 250 removes the air layer inside the coupler to prevent the generation of rust, Is preferably an epoxy that prevents the epoxy resin from dissolving.

In the coupler apparatus 200 for connecting a threaded reinforcing bar of a precast concrete member according to an embodiment of the present invention, after the filler 250 is injected, the first precast concrete member 110 has a first groove (260) placed in the second groove (140) of the second precast concrete member (120) and completing the connection of the first and second precast concrete members (110, 120) . ≪ / RTI > At this time, it is preferable that a concave-convex shape is formed on the outer circumferential surface of the female coupler 220 so as to increase the adhesion force with the filler 260 in the concrete.

6 is a cross-sectional view specifically illustrating a female coupler, a male coupler, and an arm coupler interval adjusting member in a screw-type reinforcing bar coupler apparatus of a precast concrete member according to an embodiment of the present invention. 5 is a photograph showing a concrete coupler spacing adjusting member in a coupler apparatus for connecting a threaded reinforcing bar of a precast concrete member according to an embodiment of the present invention.

In the coupler apparatus for connecting a threaded reinforcing bar of a precast concrete member according to an embodiment of the present invention, the male coupler 210 includes a male coupler body 211, Coupler outer teeth 213 and clamp male coupler jig grooves 214 which are formed in the female coupler body 220 as shown in Figure 6 b) 221, a female coupler inner thread 222, a positioning adjustment hole 223, a female coupler fixture groove 224 for a wrench, and a filler material injection hole 225. 6 (c), the gap adjusting member body 231, the second reinforcing bar insertion thread 232, and the gap adjusting member jig grooves 233 .

Specifically, the male coupler 210 includes a male coupler body 211, as shown in FIG. 6 a); A first reinforcing steel insert thread 212 having a female screw formed on an inner circumferential surface of the male coupler body 211 so that the threaded end of the first reinforcing bar 150 can be inserted; A male coupler outer thread 213 having a male thread on an outer circumferential surface of the male coupler body 211 so as to be screwed into the male coupler inner thread 222 of the female coupler 220; And a clamp male coupler jig groove 214 formed on the outer peripheral surface of the lower end of the male coupler body 211 to clamp the male coupler body 211 using a clamp. At this time, the male coupler outer peripheral thread 213 may be formed with a left thread (left-hand thread).

As shown in FIG. 6B, the female coupler 220 includes a female coupler body 221; An arm coupler inner thread 222 having a female screw on the inner circumferential surface of the lower portion of the arm coupler body 221; A positioning adjustment tolerance hole 223 formed at the center of the arm coupler body 221 so that the arm coupler body 221 can be inserted into the threaded end of the second reinforcing bar 160; A female coupler jig groove 224 formed on the upper outer circumferential surface of the female coupler body 221 so as to be able to tighten the female coupler body 221 using a wrench; And a filler material injection hole 225 formed at the upper end of the outer circumferential surface of the arm coupler body 221 so as to inject the filler material 250 into the space inside the arm coupler body 221. At this time, the arm coupler inner peripheral thread 222 may be formed with a left thread (left hand thread).

In other words, the threads 213 on the outer circumferential surface of the male coupler and the female coupler inner threads 222 form threads in the opposite directions to the first and second reinforcing insert threads 212 and 232, (220) to prevent loosening and tightening when assembled with the male coupler (210).

Also, as shown in FIG. 6C, the gap-adjusting gap adjusting member 230 includes an interval adjusting member body 231 formed to have an eccentricity; A second reinforcing bar insertion thread 232 formed on an inner circumferential surface of the gap adjusting member body 231 so that the second reinforcing bar 160 is inserted and screwed; And a gap adjusting member fixture groove 233 formed on the upper outer circumferential surface of the gap adjusting member body 231 so as to rotate the gap adjusting member body 231 using a wrench.

Specifically, in the case of the arm coupler interval adjusting member 230, as shown in FIGS. 7A to 7C, the gap adjusting member body 231 has a different length from the center to the outer circumferential surface, Accordingly, it may be an insert nut formed such that D1 and D2 are different and thus eccentric. 7D, when the interval adjusting member fixture groove 233 is rotated, the interval adjusting member body 231 rotates, and eventually the arm coupler 220 can be finely adjusted to the side .

Thus, according to the embodiment of the present invention, when assembling a pre-cast concrete member preliminarily manufactured in a manufacturing factory to a site to carry out assembly such as rebar connection, the center axis of the reinforcing bar exposed from each precast concrete member It is possible to precisely connect precast concrete members by finely adjusting the positions of the female couplers even if they do not coincide with each other.

[Connection method of precast concrete members using coupler device for screw-type reinforcing bars]

8 is a view showing a state in which a coupler apparatus for connecting a threaded type reinforcing bar according to an embodiment of the present invention is engaged for connection of first and second precast concrete members.

8A shows a first precast concrete member 110 and a second precast concrete member 120 to be connected to each other. At this time, the first precast concrete member 110 is provided with a first groove 130 And the first reinforcing bars 150 are exposed from the first precast concrete member 110. The second precast concrete member 120 is formed with a second groove 140 and the second reinforcing bar 160 is exposed from the second precast concrete member 120.

8B shows a state in which the fixing set nut 240 is screwed to the lower end of the first groove 130 to the first reinforcing bar 150 exposed from the first precast concrete member 110, Screw the male coupler (210) into the upper part. The arm coupler 220 is inserted into the end of the second reinforcing bar 160 exposed from the second precast concrete member 120, and then the arm coupler interval adjusting member 230 is screwed.

8 (c), the male coupler 210 and the female coupler 220 are moved downward to the lower end thereof, so that the free coupler apparatus using the screw-type reinforcing coupler according to the embodiment of the present invention The cast concrete member can be ready to be connected.

9 is an operational flowchart of a method of connecting precast concrete members using a coupler apparatus for connecting a threaded reinforcing bar according to an embodiment of the present invention. FIGS. 10A to 10I are cross- And concrete concrete member connecting methods using the apparatus. 10A to 10I are front views and the right side shows that the center axes of the female coupler, male coupler and female coupler interval adjusting member are different from each other.

Referring to FIGS. 9 and 10A to 10I, a method of connecting a precast concrete member using a coupler apparatus for connecting a threaded reinforcing bar according to an embodiment of the present invention includes: first, as shown in FIG. 10A, The fixing set nut 240 and the male coupler 210 are screwed to the end of the first reinforcing bar 150 exposed from the concrete member 110 and the second reinforcing bar 150 exposed from the second reinforcing concrete member 120, The male coupler 220 is inserted into the end of the female coupler 160 and the female coupling spacing adjusting member 230 is screwed in S110.

Specifically, the male coupler 210 includes a male coupler body 211, as shown in FIG. 6 described above; A first reinforcing steel insert thread 212 having a female screw formed on an inner circumferential surface of the male coupler body 211 so that the threaded end of the first reinforcing bar 150 can be inserted; A male coupler outer thread 213 having a male thread on an outer circumferential surface of the male coupler body 211 so as to be screwed into the male coupler inner thread 222 of the female coupler 220; And a clamp male coupler jig groove 214 formed on the outer peripheral surface of the lower end of the male coupler body 211 to clamp the male coupler body 211 using a clamp.

6, the female coupler 220 includes an arm coupler body 221; An arm coupler inner thread 222 having a female screw on the inner circumferential surface of the lower portion of the arm coupler body 221; A positioning adjustment tolerance hole 223 formed at the center of the arm coupler body 221 so that the arm coupler body 221 can be inserted into the threaded end of the second reinforcing bar 160; A female coupler jig groove 224 formed on the upper outer circumferential surface of the female coupler body 221 so as to be able to tighten the female coupler body 221 using a wrench; And a filler material injection hole 225 formed at the upper end of the outer circumferential surface of the arm coupler body 221 so as to inject the filler material 250 into the space inside the arm coupler body 221.

The arm coupler interval adjusting member 230 includes an interval adjusting member body 231 formed to have eccentricity, as shown in Fig. 6 described above; A second reinforcing bar insertion thread 232 formed on an inner circumferential surface of the gap adjusting member body 231 so that the second reinforcing bar 160 is inserted and screwed; And a gap adjusting member fixture groove 233 formed on the upper outer circumferential surface of the gap adjusting member body 231 so as to rotate the gap adjusting member body 231 using a wrench.

Next, as shown in FIG. 10B, the first precast concrete member 110 and the second precast concrete member 120 are brought into contact with each other so as to be in contact with each other (S120).

Next, as shown in FIG. 10C, the male coupler 210 and the male coupler 220 are moved upward (S130).

Next, as shown in FIG. 10D, the arm coupler interval adjusting member 230 is finely adjusted to move the arm coupler 220 to the side (S140). When the central axis of the first reinforcing bar 150 does not coincide with the center axis of the second reinforcing bar 160, the gap coupling adjusting member 230 is moved such that the arm coupler 220 is moved to the side Fine-tune. The arm coupler gap adjusting member 230 may be an insert nut having an eccentricity so that the arm coupler 220 can be finely adjusted by moving the coupler 220 to the side.

Next, as shown in FIG. 10E, the male coupler 220 is moved downward so that the male coupler 220 is screwed to the male coupler 210 in a state where the male coupler 210 is fixed S150).

Next, as shown in FIG. 10F, the male coupler 220 is fixed and the male coupler 210 is tightened (S160).

Next, as shown in FIG. 10G, the fixing set nut 240 at the lower end of the male coupler 210 is tightened (S170).

Next, as shown in FIG. 10H, the filling material 250 is injected through the filling material injection hole 225 of the arm coupler 220 (S180). At this time, it is preferable that the filler 250 is an epoxy which removes the air layer inside the coupler to prevent the occurrence of rust, and prevents the coupler from being unfastened due to impact or vibration.

Next, as shown in FIG. 10I, the filling material 260 in concrete is placed in the grooves 130 and 140 of the first and second precast concrete members 110 and 120 to form the first and second pre- The connection of the cast concrete members 110 and 120 is completed (S190).

As a result, according to the embodiment of the present invention, when the precast concrete members preliminarily manufactured in the fabrication site are brought into the field and assembled such as reinforcing bars, the central axes of the reinforcing bars exposed from the respective precast concrete members are significantly Even if they do not coincide, precast concrete members can be connected accurately by adjusting the position of the female coupler and tightening the male coupler with a screw. In addition, it is possible to reduce the air and cost by minimizing the use of the fixing set nuts when connecting the threaded reinforcing bars to the end portions of the first reinforcing bars and the second reinforcing bars, It is possible to easily fasten the female coupler and the male coupler by using the female coupler interval adjusting member without precisely matching the center axis of the two reinforcing bars.

It will be understood by those skilled in the art that the foregoing description of the present invention is for illustrative purposes only and that those of ordinary skill in the art can readily understand that various changes and modifications may be made without departing from the spirit or essential characteristics of the present invention. will be. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. For example, each component described as a single entity may be distributed and implemented, and components described as being distributed may also be implemented in a combined form.

The scope of the present invention is defined by the appended claims rather than the detailed description and all changes or modifications derived from the meaning and scope of the claims and their equivalents are to be construed as being included within the scope of the present invention do.

110: first precast concrete member
120: second precast concrete member
130: first groove
140: second groove
150: first reinforcing bar (lower reinforcing bar)
160: second reinforcing bar (upper reinforcing bar)
200: Coupler
210: Coupler
211: Coupler body
212: First reinforcement thread
213: male coupler outer thread
214: Coupler for clamping Jig groove
220: female coupler
221: female coupler body
222: Female coupler inner thread
223: Positioning tolerance hole
224: female coupler for a wrench jig groove
225: filler material injection hole
230: arm coupler interval adjusting member
231: Spacing member body
232: Second reinforcement insertion thread
233: Spacing member jig groove
240: Fixing set nut
250: filler
260: Filler in concrete

Claims (10)

In the first precast concrete member 110 and the second precast concrete member 120,
A first reinforcing steel insert thread 212 is formed on an inner circumferential surface of the first reinforcing bar 150 exposed from the first precast concrete member 110 so as to be screwed to the threaded end of the first reinforcing bar 150 and a male coupler outer thread 213 is formed on the outer circumferential surface, (210);
A position adjustment tolerance hole 223 to be inserted into the second reinforcing bar 160 exposed from the second precast concrete member 120 is formed and finely adjusted to move to the side, A male coupler 220 having an inner coupler inner thread 222 formed on an inner circumferential surface thereof to be screwed with the formed male coupler outer thread 213;
An arm coupler interval adjusting member 230 for finely adjusting the arm coupler 220 to move to the side while being screwed to the second reinforcing bar 160; And
And a fixing set nut (240) screwed to the threaded end of the first reinforcing bar (150) to fix the male coupler (210) to the first reinforcing bar (150)
The arm coupler 220 includes an arm coupler body 221; An arm coupler inner thread 222 having a female screw on the inner circumferential surface of the lower portion of the arm coupler body 221; A positioning adjustment tolerance hole 223 formed at the center of the arm coupler body 221 so that the arm coupler body 221 can be inserted into the threaded end of the second reinforcing bar 160; A female coupler jig groove 224 formed on the upper outer circumferential surface of the female coupler body 221 so as to be able to tighten the female coupler body 221 using a wrench; And a filler material injection hole 225 formed at the upper end of the outer circumferential surface of the arm coupler body 221 so as to inject the filler material 250 into the space in the arm coupler body 221,
The gap coupler interval adjusting member 230 includes a gap adjusting member body 231 formed to have an eccentricity; A second reinforcing bar insertion thread 232 formed on an inner circumferential surface of the gap adjusting member body 231 so that the second reinforcing bar 160 is inserted and screwed; And a gap adjusting member fixture groove (233) formed on the upper outer peripheral surface of the gap adjusting member body (231) so as to rotate the gap adjusting member body (231) by using a wrench,
When the center axis of the first reinforcing bars 150 does not coincide with the center axis of the second reinforcing bars 160, only the gap adjusting member fixture grooves 233 of the arm coupler interval adjusting member 230 are rotated The female coupling member 220 engaged with the female coupler interval adjusting member 230 is moved while being finely adjusted on the side as the member body 231 rotates and the thread 213 of the male coupler outer surface and the male coupler inner thread The male coupler 222 rotates the finely adjusted female coupler 220 by forming a thread in the opposite direction to the first reinforcing bar insertion thread 212 and the second reinforcing bar insertion thread 232, And the filler material 250 is injected into the filler material injection hole 225 formed in the female coupler 220 so that the coupling between the male coupler and the female coupler is not released. Cast concrete member Type reinforced coupler apparatus for connecting. delete The method according to claim 1,
The male coupler 210 includes a male coupler body 211; A first reinforcing steel insert thread 212 having a female screw formed on an inner circumferential surface of the male coupler body 211 so that the threaded end of the first reinforcing bar 150 can be inserted; A male coupler outer thread 213 having a male thread on an outer circumferential surface of the male coupler body 211 so as to be screwed into the male coupler inner thread 222 of the female coupler 220; And a clamp male coupler jig groove (214) formed on the outer peripheral surface of the lower end of the male coupler body (211) to tighten the male coupler body (211) by using a clamp Coupler device. delete delete The method according to claim 1,
The filling material 250 injected into the filler material injection hole 225 formed in the arm coupler 220 prevents the rusting by removing the air layer inside the coupler and prevents the coupling of the coupler from loosening due to impact or vibration,
After the filling material 250 is injected into the first grooves 130 of the first precast concrete member 110 and the second grooves 140 of the second precast concrete member 120, 1 and the second precast concrete member (110, 120);
And a concave-convex shape is formed on an outer circumferential surface of the female coupler (220) so as to increase the adhesion of the filler (260) in the concrete to the concrete. A method of connecting a precast concrete member using a coupler device for connecting a threaded reinforcing bar,
a) The fixing set nut 240 and the male coupler 210 are screwed to the end of the first reinforcing bar 150 exposed from the first precast concrete member 110 and the second precast concrete member 120 is screw- Inserting the arm coupler 220 into the end of the second reinforcing bar 160 exposed from the first reinforcing bar 160 and screwing the gap coupling adjusting member 230 into the screw;
b) placing the first precast concrete member (110) and the second precast concrete member (120) in contact with each other;
c) moving the male coupler 210 and the male coupler 220 upward;
d) fine adjustment of the arm coupler interval adjusting member 230 to move the arm coupler 220 to the side;
e) moving the female coupler 220 downward so that the male coupler 220 is screwed with the male coupler 210 in a state where the male coupler 210 is fixed;
f) tightening the male coupler (210) while the female coupler (220) is fixed;
g) tightening the set nut 240 for fixing at the bottom of the male coupler 210;
h) injecting the filler material (250) through the filler material injection hole (225) of the female coupler (220); And
i) a concrete filler material 260 is placed in the grooves 130 and 140 of the first and second precast concrete members 110 and 120 so that the first and second precast concrete members 110 and 120 And completing the connection,
When the center axis of the first reinforcing bar 150 does not coincide with the center axis of the second reinforcing bar 160, the arm coupler gap adjusting member 230 is finely adjusted to move to the side of the arm coupler 220 In addition,
The arm coupler 220 of the step a) includes the arm coupler body 221; An arm coupler inner thread 222 having a female screw on the inner circumferential surface of the lower portion of the arm coupler body 221; A positioning adjustment tolerance hole 223 formed at the center of the arm coupler body 221 so that the arm coupler body 221 can be inserted into the threaded end of the second reinforcing bar 160; A female coupler jig groove 224 formed on the upper outer circumferential surface of the female coupler body 221 so as to be able to tighten the female coupler body 221 using a wrench; And a filler material injection hole 225 formed at the upper end of the outer circumferential surface of the arm coupler body 221 so as to inject the filler material 250 into the space in the arm coupler body 221,
The gap adjusting member 230 of the step a) includes a gap adjusting member body 231 formed to have an eccentricity; A second reinforcing bar insertion thread 232 formed on an inner circumferential surface of the gap adjusting member body 231 so that the second reinforcing bar 160 is inserted and screwed; And a gap adjusting member fixture groove (233) formed on the upper outer peripheral surface of the gap adjusting member body (231) so as to rotate the gap adjusting member body (231) by using a wrench,
When the central axis of the first reinforcing bar 150 does not coincide with the center axis of the second reinforcing bar 160, the gap adjusting member fixture groove 233 of the arm coupler interval adjusting member 230 is moved in the step (d) The screw 213 of the outer circumferential surface of the male coupler is moved in a state in which the male coupler 220 engaged with the female coupler interval adjusting member 230 is moved while being finely adjusted to the side as the gap adjusting member body 231 rotates, Coupler inner thread 222 forms a thread in a direction opposite to that of the first reinforcing bar thread 212 and the second reinforcing bar thread 232 so that the male coupler 220 rotates, The filler material 250 is injected into the filler material injection hole 225 formed in the female coupler 220 and the male coupler and the female coupler are coupled to each other in step h) And a screw-type reinforcing bar Precast concrete member connection method using the gyeolyong coupler device. delete 8. The method of claim 7,
The male coupler 210 includes a male coupler body 211; A first reinforcing steel insert thread 212 having a female screw formed on an inner circumferential surface of the male coupler body 211 so that the threaded end of the first reinforcing bar 150 can be inserted; A male coupler outer thread 213 having a male thread on an outer circumferential surface of the male coupler body 211 so as to be screwed into the male coupler inner thread 222 of the female coupler 220; And a clamp screw coupler jig (214) formed on the outer peripheral surface of the lower end of the male coupler body (211) to clamp the male coupler body (211) by using a clamp How to connect cast concrete members. delete

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