KR200332981Y1 - A coupling device of steel reinforcing - Google Patents

Abstract

The present invention relates to a connecting device for interconnecting reinforcing bars used to increase the tensile strength of concrete structures. More specifically, the connection part of the reinforcing bar is doubled to grasp the connecting part of the reinforcing bar even after impact or vibration is applied to the connection part. The present invention relates to a reinforcing bar connection device that is capable of continuously maintaining a solid state of various structures because no cracking or cracking occurs.

The present invention is screwed to both sides of the coupling member, the first and second coupler having a gripping portion having an inclined surface at both ends integrally formed and a pair of cutting grooves formed in the gripping portion in the longitudinal direction;

A gripping tube which is selectively folded in the gripping groove inside the gripping portion and grips the rebar first with a vertical expansion force;

The inclined surface is screwed to the outside of the gripping portion and the inclined surface formed inside the tightening operation to tighten the inclined surface of the first and second couplers to provide a gripping member for imparting a gripping force for second gripping the rebar to the gripping portion.

Description

A coupling device of steel reinforcing

The present invention relates to a connecting device for interconnecting reinforcing bars used to increase the tensile strength of concrete structures. More specifically, the connection part of the reinforcing bar is doubled to grasp the connecting part of the reinforcing bar even after impact or vibration is applied to the connection part. The present invention relates to a reinforcing bar connection device that is capable of continuously maintaining a solid state of various structures because no cracking or cracking occurs.

In general, concrete is a composite material in which cement, sand, gravel, water, etc. are mixed at a predetermined ratio. Although the compressive strength is relatively large, the tensile strength is very small compared to the compressive strength, and thus the crack is easily generated.

Therefore, in order to increase the tensile strength of the concrete to form the formwork using the reinforcement before the concrete is placed to reinforce the strength of the concrete by placing the concrete in the form, so-called reinforced concrete structure.

This reinforced concrete is used not only to construct various types of structures, but also because of its excellent physical properties, and is widely used in various construction and civil works.

In order to make the formwork, the reinforcing work is arranged to arrange the reinforcing bar in a predetermined form, because the reinforcing bar is generally manufactured to a standardized length was to be connected to the reinforcing bar when the reinforcing work.

As a method of connecting the reinforcing bars, a lap joint method, a welding joint method, a coupler joint method, and the like have been proposed, and these connection methods will be briefly described.

First, the overlapping method is to overlap the ends of the reinforcing bars to be connected to each other by a predetermined length, and then to connect the reinforcing bars to each other by winding a wire around this overlapping portion. However, this lap joint method has the advantage of making the reinforcement work relatively easy, but it is not only cumbersome, but also difficult to withstand the load due to the weak bending strength of the connected part because wires must be wrapped and fixed at the overlapped portions of the rebars. Safety problems were being pointed out.

Secondly, the welding joint method arranges the ends of the connected reinforcing bars to overlap or overlap each other, and then welds the butted or overlapping portions. However, this welding joint method has no problem in strength, but the work is very cumbersome and takes a lot of time, there is a disadvantage that the air is delayed.

Third, as a connection method using a coupler, `` Patent Registration No. 240099 Reinforcing Bar Connection Structure '' and `` Utility Model Registration No. 317137 Deformed Rebar Connection Coupler '' were proposed. However, the prior art is that the gripping force to hold the rebar is a problem that the quality of the deterioration occurs due to construction obstacles such as poor reinforcing bar connection portion.

Moreover, the failure of the connection part leads to the deterioration of impact resistance, weather resistance, and vibration resistance, so that after the construction, the flow and cracks are generated at the connection part by the impact or vibration continuously applied to various structures, and thus the whole structure is adversely affected. Serious problems were drawn.

The present invention is to solve the above problems, and by holding the connection portion of the reinforcing bar strongly in two to improve the quality of the connection portion by improving the impact resistance, vibration resistance, etc. to maintain the robustness of the structure The main purpose of the invention is to provide a reinforcing bar connecting device.

The present invention for achieving the desired object is the first and second couplers are screwed to both sides of the coupling member and the gripping portion is integrally formed at both ends;

A gripping tube installed to be foldable in the gripping groove inside the gripping portion and gripping the first reinforcing bar with vertical expansion force;

And a tightening member which is screwed to the outside of the gripping portion and selectively tightens the gripping portion to impart a gripping force for second gripping of the rebar to the gripping portion.

1 is a partially cutaway exploded perspective view of an embodiment of the present invention

Figure 2 is a longitudinal cross-sectional view of the reinforcing rod thermal state according to the present invention

Figure 3 is a longitudinal cross-sectional view of the coupling state of the present invention coupling member and the first and second coupler

4 is a state in which the reinforcing bar is inserted into the first coupler of the present invention

Figure 5 is a cross-sectional view of the rotation state of the subject innovation coupling member

Figure 6 is a first fixed state diagram of the reinforcing bars by folding of the present invention gripping tube

Figure 7 is a secondary fixed state of the reinforcing bar by the subject innovation gripping portion

8 is an enlarged cross-sectional view of a coupling state of the present invention tightening member and the gripping portion

9 is a partially cut-away perspective view of the first coupler of the present invention.

[Explanation of symbols on the main parts of the drawings]

2: rebar 10: connector

20: first coupler 20a: second coupler

21: holding part 22, 42: inclined surface

23,31: incision groove 24: Farogi groove

30: holding pipe 40: fastening member

Hereinafter, the configuration of the present invention will be described in detail with reference to the accompanying drawings.

Looking at the configuration of the present invention schematically as shown in Figure 1, the first coupler coupler is screwed to both sides of the coupling member 10 and the reinforcing bar 2 is inserted into the gripping portion 21 formed at both ends of the coupling member 10 (20) (20a) and the holding pipe (30) selectively installed in the gripping groove 24 formed in the inner side of the first and second couplers (20, 20a) to grasp the rebar (2) first And, it can be seen that it is composed of a fastening member 40 that is screwed to the gripping portion 21 and to give a gripping force to the second gripping the reinforcing bar 2 to the gripping portion 21 during the tightening operation.

It will be described in more detail to enable the present invention made of the schematic configuration.

Firstly, the coupling member 10 disposed in the center of the connection device 1 of the present invention has a knurling 11 formed in the center to enable rotational operation using a tool such as a wrench, and screws on both sides of the knurling 11. The helix 12 for engagement is formed.

The first and second couplers 20 and 20a which are screwed to both sides of the coupling member 10 are integrally formed with a gripping portion 21 for gripping the reinforcing bar 2 on one side thereof, and the gripping portion 21 An inclined surface 22 is formed at the leading edge of the pair, and a pair of incision grooves 23 are formed in the longitudinal direction inward from the inclined surface 22.

The reason why the incision groove 23 is formed here is that the gripping portion 21 provides a space where the gripping portion 21 can be squeezed inwardly during the tightening operation by the fastening member 40. This is to allow the gripping by car.

In addition, a holding groove 24 is formed inside the holding portion 21, and the holding pipe 30 is selectively folded in the holding groove 24 to generate expansion force in a direction perpendicular to the rebar 2. By holding the reinforcing bar 2 primarily, the connection state is maintained.

The gripping tube 30 is made of a cylindrical material as shown in Figure 1, but is advantageously made of a soft material to facilitate folding, when pushed outward (rebar direction) by the coupling member 10 so as to be easily folded sequentially. A pair of cutting grooves 31 are formed in the longitudinal direction from the outward side.

Therefore, while being pushed outwards by the rotation operation of the coupling member 10 continuously folded inside the holding groove 24 generates a vertical expansion force to hold the reinforcing bar 2 primarily.

At this time, the rib 2a formed in the reinforcing bar 2 to increase the adhesion to the concrete is positioned between the folded gripping tube 30 so that the reinforcing bar 2 is the holding part of the first and second couplers 20 and 20a. It maintains a more firm fixed state without being separated from (21).

On the other hand, in addition to the gripping operation of the reinforcing bar 2 by the holding pipe 30, the tightening member 40 for giving the gripping portion 21 a strong gripping force for the second gripping of the reinforcing bar 2 is first and second couplers Another inclined surface 42 which is screwed to the outside of the (20) 20a and selectively tightens the inclined surface 22 formed in the holding portion 21 in close contact with the inside thereof is integrally formed.

It will be described for the connection process of the reinforcing bar (2) according to the present invention made in this configuration.

First, as shown in FIG. 3, both sides of the first and second couplers 20 and 20a are coupled to the first and second couplers 20 and 20a in the state where the gripping tube 30 is embedded. Or screw on either side.

In such a state, the reinforcing bar 2 penetrates through the clamping member 40 so that the reinforcing bar 2 is positioned in the inside of the gripping tube 30, and then rotates the coupling member 10 as shown in FIG. Direction).

At this time, the distal end of the moving member 10 is pushed to the outgoing gripping tube 30 and the gripping tube 30 is folded in a zigzag form inside the gripping groove 24, the expansion force in the vertical direction with the reinforcing bar (2) To generate the first reinforcing bar (2) without flow.

That is, the holding pipe 30 is folded in a zigzag form inside the holding groove 24 as shown in FIG. 7 to press the reinforcing bar 2 in the vertical direction to maintain a firm connection.

Next, when the tightening member 40 is tightened, the tightening member 40 is inwardly transported while the inclined surface 42 formed on the inner side comes into close contact with the inclined surface 22 of the grip portion 21, and when the tightening force is added, the grip portion 21 By further tightening the inclined surface 22 in the vertical direction, the gripper 21 compresses the gripper tube 30 so that the rebar 2 is secondly gripped through the gripper tube 30 to prevent any shock or vibration. Even if this is applied, the connection part of the reinforcing bar 2 is kept in a solid state.

In other words, the present invention, unlike the conventional first gripping work, by maintaining the connection state of the more rigid reinforcing bar (2) through the double gripping work, the impact resistance, vibration resistance can be significantly improved.

As described above, when one side connection work of the reinforcing bar 2 is completed, the other side connection work is carried out in the same manner as described above to ensure the safety of the various structures by holding the connection portion of the reinforcing bar 2 more strongly.

According to the present invention, after the connecting portion of the rebar is primarily gripped by the vertical expansion force due to the folding of the gripper, the gripper of the first and second couplers grips the reinforcement secondarily and strongly through the gripper. The construction quality of the joint is improved.

In addition, the impact resistance and vibration resistance are improved, so that even if the impact or vibration is applied after construction, no flow or crack is generated at the connection part, thereby maintaining the solid connection state, thereby ensuring the safety of various structures.

Claims (3)

While being screwed to both sides of the coupling member 10, holding portions 21 having inclined surfaces 22 at both ends are integrally formed, and the holding portion 21 has a pair of incision grooves 23 formed in the longitudinal direction. First and second couplers 20 and 20a; A gripping tube (30) installed to be selectively folded in the gripping groove (24) inside the gripping portion (21) to first hold the reinforcing bar (2) with vertical expansion force; The inclined surface 42 which is screwed to the outside of the holding portion 21 and formed at the inside of the tightening operation tightens the inclined surface 22 of the first and second couplers 20 and 20a to reinforce the reinforcing bar (21). Rebar connection device, characterized in that consisting of a fastening member 40 to give a second gripping force to hold the second. The method according to claim 1, The gripping tube 30 is made of a flexible cylindrical material so as to be easily folded, and an incision groove 31 is formed in the longitudinal direction from the outward side, and is pushed outward by the coupling member 10 to hold the gripping groove 24. Reinforcing bar connecting device characterized in that the first gripping the rebar (2) by generating a vertical expansion force while continuously folding inside. The method according to claim 1, Retaining portion 21 is a reinforcing bar connection device, characterized in that when the tightening operation by the tightening member 40, the inclined surface 22 is tightened inwardly to compress the holding pipe (30) to hold the reinforcing bar (2).