JP2017128925A - Adapter for coupler - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an adapter for a coupler that lighten the load of installation of the coupler on a reinforcing bar.SOLUTION: The present invention relates to an adapter for a coupler that is an adapter 10 installed for a tool 50 which has its tip inserted into an end of a coupler 20 coupling ends of reinforcing bars 35, having male screws formed, to each other and also internally threaded axially to mesh with the male screws so as to rotate the coupler 20, the adapter for the coupler being in a truncated-cone shape and having a coupling hole for connection with the tool at a bottom part.SELECTED DRAWING: Figure 3

Description

  The present invention relates to an adapter for a coupler used for reinforcing bar connection in a reinforced concrete building.

  As is well known, many reinforced bars are used in reinforced concrete buildings in recent years. These many reinforcing bars need to be joined to each other, and are often joined by a steel joint called a coupler. FIG. 4 shows a state in which the reinforcing bar 31 is joined using the coupler 20. As shown in the figure, after the reinforcing bars 31 are joined by the coupler 20, they are crossed with a plurality of steel members called band bars 40 to form a stronger structure. Further, the coupler 20 and the band 40 are bound by a binding wire 41 such as a wire. Further, the coupler 20 has an injection hole 20a, and a reinforcing material called grout is injected from the injection hole 20a. FIG. 5 shows a state where the worker M is injecting grout into the injection hole 20 a of the coupler 20 by the injector 60.

  Next, an operation procedure for installing the coupler 20 between the two reinforcing bars 31 and 32 will be described with reference to FIG. In addition, the coupler 20 of FIG. 6 is a joint which both ends are fastened with two nuts 21 (see FIG. 6D).

  FIG. 6A shows a state where the coupler 21 is about to be screwed from the end of the reinforcing bar 31 after the nut 21 is screwed to one reinforcing bar 31. The coupler 20 is screwed into the reinforcing bar 31 while rotating the coupler 20 by hand in the X direction in the figure. FIG. 6B shows a state in which the coupler 20 is completely screwed into the reinforcing bar 31.

  Next, as shown in FIG. 6C, the end of the other reinforcing bar 32 into which another nut 21 is screwed in advance is abutted against the end of the reinforcing bar 31 described above. Then, the coupler 20 screwed into the reinforcing bar 31 is rotated in the Y direction opposite to the X direction in FIG. At this time, the injection hole 20a of the coupler 20 is set to a position where the two reinforcing bars 31 and 32 are joined. Finally, as shown in FIG. 6D, the two nuts 21 and 21 are tightened to complete the installation of the coupler 20, and the grout is injected from the injection hole 20a of the coupler 20.

  For example, Patent Document 1 discloses a technique relating to a method of connecting a screw rebar in which a screw thread of a coupler and a screw thread of a screw rebar are firmly engaged.

JP 2008-75414 A

  However, the installation work of the heavy steel coupler 20 described above requires a great deal of labor. That is, as shown in FIGS. 6A and 6B, since the coupler 20 is screwed into the reinforcing bar 31 by hand, when there are several hundred reinforcing bars 31 on which the coupler 20 is installed. Was a heavy burden on the wrists of workers.

  The present invention has been made to solve the above-described problems, and an object of the present invention is to provide a coupler adapter that reduces a burden associated with installation of a coupler on a reinforcing bar.

  The present invention has the following configuration in order to solve the above problems.

(1) An internal thread is formed on the inner surface, and by rotating a coupler that can be screwed with the end of the reinforcing bar on which the external thread is formed, the end of the reinforcing bar is screwed while rotating the coupler, and the reinforcing bar An adapter used to advance the coupler along the axial direction of
A frustoconical shape or a conical shape, the diameter of the bottom surface being larger than the diameter of the inner surface at the end of the coupler
The coupler adapter, wherein the bottom surface has coupling means for coupling with a tool for rotating the coupler.

  (2) The coupler adapter according to (1), wherein the coupling means is a hole or a protrusion.

  (3) The adapter for couplers according to (1) or (2), wherein the material is styrene rubber.

  (4) The adapter for couplers according to (3), wherein the hardness of the styrene rubber is 65 ° ± 5 °.

  ADVANTAGE OF THE INVENTION According to this invention, the adapter for couplers which reduces the burden accompanying installation to the reinforcing bar of a coupler can be provided.

External view showing coupler adapter of the present invention The figure which shows the state which installs the adapter for couplers of this invention in a tool The figure for demonstrating the state which installs the adapter for couplers of this invention in a reinforcing bar The figure which shows the installation state of the conventional coupler The figure which shows the state which injects grout into the conventional coupler Diagram for explaining the installation procedure of a conventional coupler on a reinforcing bar

  DESCRIPTION OF EMBODIMENTS Embodiments for carrying out the present invention will be described below with reference to the drawings.

FIG. 1 is a perspective view showing an appearance of a coupler adapter (hereinafter referred to as “adapter”) 10 of the present invention. The adapter 10 has a truncated cone shape as shown in FIG. 1A, and has a coupling hole 10a (coupling means) at the bottom as shown in FIG. 1B. As shown in FIG. 1A, the adapter 10 has a shape in which the diameter of the bottom surface is φ ₁ , the diameter of the top portion is φ ₂ , the length is L, and the side surface is tapered. The diameter of the bottom surface φ ₁ > the diameter of the top portion φ ₂ . The coupling hole 10a is formed at a predetermined depth and is not a through hole. The predetermined depth of the coupling hole 10a needs to be deep enough to insert a bit 51 described later. The predetermined depth of the coupling hole 10a is preferably greater than or equal to the protruding height of the bit 51, but is not necessarily limited thereto, and may be deep enough to allow half or more of the bit 51 to be inserted. The coupling hole 10a may be a protrusion, for example. Moreover, the adapter 10 does not necessarily have a truncated cone shape, and may be a cone shape. In this case, the top diameter φ ₂ is not conceptualized. The adapter 10 is made of rubber having a predetermined hardness, and the material may be resin. In this example, a styrene rubber (SBR) excellent in wear resistance and having a hardness of 65 ° ± 5 ° was used. Styrene rubber is used as a general-purpose synthetic rubber in various fields including car tires.

  FIG. 2 is a view showing a tool 50 for rotating the adapter 10 together with the adapter 10. A bit 51 for coupling with the coupling hole 10 a is installed at the tip of the tool 50, and the bit 51 is inserted into the coupling hole 10 a of the adapter 10. The bit 51 can be rotated by turning on a switch (not shown) of the tool 50. Moreover, the tool 50 has a reversing switch (not shown), and it may be possible to reverse the rotation direction of the bit 51 by turning on the reversing switch. The bit 51 may have a hole and the protrusion at the bottom of the adapter 10 may be inserted.

  The bit 51 can be coupled with coupling means to rotate the adapter 10. That is, the outer shape of the bit 51 and the outer shape of the coupling means are substantially the same in the rotation direction, or have a detent structure (for example, a key and a key groove).

  Next, a state in which a coupler is installed on a reinforcing bar using the adapter 10 of the present invention will be described with reference to FIG. FIG. 3A is a diagram illustrating a state in which the coupler 20 is installed on the reinforcing bars 33 to 37. The coupler 20 has already been installed in the two reinforcing bars 36 and 37 below FIG. The central reinforcing bar 35 shows a state where the coupler 20 is installed using the adapter 10.

The inner diameter at the ends of the coupler 20 is smaller than the diameter phi ₁ of the bottom surface, it is larger than a diameter phi ₂ of the top. Therefore, when the top portion of the adapter 10 is inserted into the end portion of the coupler 20, the tapered side surface of the adapter 10 comes into contact with the inner wall surface at the end portion of the coupler 20.

  In this state, by rotating the bit 51 of the tool 50, the coupler 20 is rotated based on the frictional force between the side surface of the adapter 10 and the end of the coupler 20, and screwed into the reinforcing bar 35. In the past, this process was manually performed by an operator, which was a heavy burden. Note that a part of the end of the coupler 20 is screwed into the second-stage reinforcing bar 34 from the top in FIG. From this state, the coupler 20 is rotated by the tool 50 using the adapter 10. The subsequent steps have already been described with reference to FIG.

  FIG. 3B is a cross-sectional view showing a state where the coupler 20 is inserted into the reinforcing bar 35. The top of the adapter 10 is inserted into the coupler 20, the side surface of the adapter 10 bites into the inner wall of the end of the coupler 20, the coupler 20 rotates as the bit 51 rotates, and the coupler 20 is inserted into the reinforcing bar 35. Go. As the adapter 10 is used a plurality of times, the side surface in contact with the end of the coupler 20 gradually wears out. However, since the adapter 10 has a tapered shape, the adapter 20 enters the inside of the coupler 20 by the amount of wear. The frictional force due to the contact between the adapter 10 and the adapter 10 is sufficiently secured. Since the adapter 10 is used in this manner, the hardness of the rubber of the adapter 10 needs to be selected appropriately. That is, if the hardness is too low, the wear progresses quickly, and if the hardness is too high, the screw 20 of the coupler 20 cannot be bitten and the frictional force cannot be secured sufficiently and slipping occurs.

  According to the adapter of the present embodiment, it is possible to reduce the burden on the operator accompanying installation of the coupler on the reinforcing bar.

10 Adapter 10a Connection hole (connection means)
20 Coupler 20a Injection hole 21 Nut 31 Reinforcing bar 40 Band reinforcement 41 Binding wire 50 Tool 60 Injector

Claims (4)

An internal thread is formed on the inner surface, and by rotating a coupler that can be screwed with the end of the reinforcing bar on which the male thread is formed, the coupler is screwed while rotating the coupler to the end of the reinforcing bar, and the axial direction of the reinforcing bar An adapter used to advance the coupler along
A frustoconical shape or a conical shape, the diameter of the bottom surface being larger than the diameter of the inner surface at the end of the coupler
The coupler adapter, wherein the bottom surface has coupling means for coupling with a tool for rotating the coupler.   The coupler adapter according to claim 1, wherein the coupling means is a hole or a protrusion.   The coupler adapter according to claim 1 or 2, wherein the material is styrene rubber.   The coupler adapter according to claim 3, wherein the hardness of the styrene rubber is 65 degrees ± 5 degrees.

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