KR100779764B1 - Steel bar vertical joint structure and vertical joint method of the steel bar - Google Patents

Abstract

A vertical joint structure and a method for vertically jointing a steel bar are provided to raise the construction efficiency of a steel connection work by easily interconnecting steel bars. A vertical joint structure for a steel bar comprises a sleeve(30) having a constant length. A lower vertical steel(10) is inserted from the lower end to the middle portion of the sleeve(30) and welded to the lower end of the sleeve(30). An upper vertical steel(20) is inserted through the upper end of the sleeve(30) to make contact with the lower vertical steel(10). A curing agent (40) is injected into the sleeve(30). The sleeve(30) has a wrinkle on the inner peripheral surface thereof. The sleeve(30) has an upper end prepared in the form of a funnel.

Description

Steel bar vertical joint structure and Vertical joint method of the steel bar}

The present invention relates to a rebar vertical connection structure and a rebar vertical connection method when constructing a reinforced concrete structure, by easily and simply connecting the reinforcing bar, was developed to improve the workability by reducing the number of work steps.

The general reinforced concrete structure is a combined structure of reinforcing steel and concrete, in which the concrete bears the compressive force and the steel bears the tensile force. Reinforced concrete structure installs formwork after reinforcement and reinforces concrete to construct reinforced concrete structure.In the construction process, reinforcement should be constructed by connecting standard products of a certain length as needed. The joint part will be generated. A predetermined tensile force is applied to the joint portion formed between the reinforcing bars and the reinforcing bars, and in order to sufficiently cope with the tensile force, a tight connection state between the bars must be maintained, and this usually includes an overlapping joint, a pressure joint, a mechanical joint using a coupler, and the like. The method is applied.

Overlap joint is a method of reinforcing reinforcing bars and reinforcing bars over the length of the required joint and placing them in a binding line. This has the advantage of easy reinforcement, but when the diameter of the reinforcing bar is large, there is a problem in structural strength because the stress concentration of the reinforcing bars is not matched by the eccentricity, and the joint length of the vertical reinforcement is overlapped with the horizontal form tie. When the concrete member is thin, there is a problem that the cross section of the formwork is narrowed due to overlapping reinforcing bars, so that it is not easy to place concrete and it is difficult to maintain the reinforcement spacing of the reinforcement and the minimum coating thickness of the concrete.

In addition, the method of connecting the reinforcing bars by pressure welding is a method of integrally forming the ends by heating and pressing after the bars and the ends of the reinforcing bars. This welding process is long and the heat is applied directly to the rebar, the properties of the iron is changed, and the strength of the heat decreases depending on the speed of cooling, there are many problems, such as difficult to apply.

In order to solve the problems caused in the reinforcing bar joint method by the overlap joint and pressure welding, a conventional bar joint method has been used to mechanically combine the reinforcing bar and the reinforcing bar. When using the conventional mechanical reinforcing bar joints, it is necessary to first cut the end of each rebar to be connected to form a threaded portion of a predetermined diameter. After aligning in line, fix by reinforcing the reinforcing bars in both sides of the coupler with female thread grooves formed on the inner circumferential surface. However, such a conventional reinforcing bar coupling device has to form a screw portion by cutting the end of the rebar, so that the number of processes for reinforcing bars is increased not only to reduce the work efficiency, but also the structure is complicated and not easy to manufacture. On the other hand, the conventional overlapping joints, pressure welds, mechanical joints, etc., all of the hands of the worker must be crazy to the rebar joint, bar connection work in the narrow space where the worker's hands are difficult to enter the line integrated reinforcing bars It could not be used for joint work of.

An object of the present invention is to provide a rebar vertical connection structure and pre-assembled rebar vertical connection method for improving the workability of the reinforcing bar connection work by easily connecting the reinforcing bar and reinforcing bar in the space not reach the operator's hands without rebar joint work have.

The present invention provides a connection structure for vertically connecting the vertical reinforcing bar to be reinforced for reinforcement of the reinforced concrete structure, the sleeve having a certain length; A lower vertical reinforcing bar inserted from the lower end of the sleeve to the middle and fixed by welding at the lower end of the sleeve; An upper vertical rebar inserted through an upper end of the sleeve to contact the lower vertical rebar; And a slow curing agent injected into and fixed in the sleeve; It provides a rebar vertical connection structure, characterized in that configured to include.

In addition, the present invention is connected to form two perpendicular and parallel to the two main roots arranged side by side at a predetermined interval, both ends of the two ladders consisting of a plurality of connecting bars protruding in the lateral direction of the main roots In the vertical connection method, (a) a sleeve having a pleat formed in the inner circumferential surface on the upper end of the main bar of the ladder-shaped rebar disposed in the lower part, and welds the lower end of the sleeve and the main bar to seal the lower end of the sleeve Doing; (b) raising the ladder-shaped reinforcing bars; (c) injecting a slow curing agent into the sleeve; (d) placing a ladder of reinforcing bars arranged on the upper part of the reinforcement, and inserting the main bars of the ladder-type reinforcing bars arranged on the upper part through the upper end of the sleeve, and then joining with the main bars of the ladders arranged on the lower part, Curing the slow curing agent; It provides a rebar vertical connection method comprising a.

According to the rebar vertical connection structure and formwork integrated line assembly rebar vertical connection method according to the present invention has the following effects.

First, it is easy to construct in a closed space where the operator's hand can not enter compared to the overlapped joint, pressure welding, mechanical joint and the like of the conventional reinforcing bar structure and the working time is shortened.

Second, by using a sleeve formed in the inner and outer pleats, it is possible to increase the tensile strength of the reinforcing bar portion, and to increase the pullout resistance of the reinforcing bar and the sleeve integrated.

1. Rebar vertical connection structure

1 is a schematic diagram of a rebar vertical connection structure according to the present invention.

Rebar vertical connection structure according to the present invention is composed of a sleeve 30, the lower vertical reinforcement 10, the upper vertical reinforcement 20 and the slow curing agent (40).

The sleeve 30 is a pipe-shaped member having a predetermined length, and the lower vertical rebar 10 and the upper vertical rebar 20 are inserted into the sleeve 30 and then connected. Since the sleeve 30 is also eventually embedded in concrete, when the corrugation 32 is formed on the outer circumferential surface of the body, it is possible to obtain the effect of increasing the pullout resistance of the sleeve 30 by the corrugation 32 after reinforcement concrete pouring and curing. have. In addition, when a wrinkle is formed on the inner circumferential surface of the sleeve, the tensile stress of the reinforcing bar portion due to the curing of the slow curing agent 40 to be described later is increased. In this case, the sleeve 30 can be easily injected with a slow curing agent 40 to be described later by inserting the upper vertical reinforcing bar 20 by configuring the upper end in the form of a funnel. On the other hand, as the curing speed is slowed down by using the slow curing agent 40, there is a time allowance for working without rushing.

The lower vertical reinforcing bar 10 and the upper vertical reinforcing bar 20 are inserted to the middle of the sleeve 30, respectively, and are then fixed to each other. First, the lower vertical rebar 20 is inserted into the middle of the sleeve 30 and fixed by welding at the lower end of the sleeve 30. The welding part 31 is formed at the lower end of the sleeve 30 through such welding, and the welding part 31 seals the lower end of the sleeve 30 in addition to fixing the lower vertical rebar 10 with the sleeve 30. It also serves to prevent the slow curing agent 40 from flowing out of the sleeve 30 when the slow curing agent 40 is injected into the sleeve 30. Such a welding operation can be mass-produced while the lower vertical reinforcing bar 10 and the sleeve 30 are combined by factory welding.

As described above, after welding the lower vertical reinforcing bar 10 and the sleeve 30 by welding, the slow curing agent 40 is injected into the sleeve 30, and the upper vertical curing agent 40 is hardened before the slow curing agent 40 is cured. Rebar 20 is inserted into the sleeve 30 to be fixed in contact with the lower vertical rebar (10).

The slow curing agent 40 refers to a curing agent having a certain amount of time from when exposed to air to completely cured, which is injected into the sleeve 30 before the upper vertical reinforcing bar 20 is inserted This is because it should not be cured.

On the other hand, the lower vertical reinforcing bar 10 and the upper vertical reinforcing bar 20 is slow to the ribs (12, 22) by using a deformed bar that is formed with the nodes (12, 22) and ribs (11, 21) in the body There is an effect that the tensile stress of the upper and lower roots connected after curing of the curing agent 40 increases.

2. Rebar vertical connection method

 2 is an application example of the construction site of the line assembly rebar vertical connection structure according to the present invention.

The rebar vertical connection method is connected with two main bars arranged side by side at a predetermined interval and perpendicular to the two main bars, both ends are ladder-shaped rebar consisting of a plurality of connecting bars protruding laterally of the main bar To a vertically connected method, each of which consists of the following steps.

(1) step (a)

This step is a step of sealing the lower end of the sleeve by inserting a sleeve having a pleat formed on the inner circumferential surface on the upper end of the main bar of the ladder-shaped rebar disposed in the lower portion, by welding the lower end of the sleeve and the main root.

(2) step (b)

This step is to step up the reinforcement of the ladder-shaped rebar disposed in the lower portion.

(3) step (c)

This step is to inject a slow curing agent into the sleeve.

(4) step (d)

This step is to build a ladder reinforcement bar is arranged in the upper part of the reinforcement, by inserting the main bar of the ladder is placed in the upper portion through the upper end of the sleeve, the back of the ladder of the ladder is placed on the bottom, This is a step of curing the slow curing agent.

On the other hand, the main bar of the ladder-type reinforcing bar is preferably to use a deformed bar.

At this time, the step (a) further comprises the step of closing the sleeve 30 by closing the top of the sleeve 30 with a stopper 50, the step (c) before the slow curing agent 40 is injected into the sleeve A process of removing the stopper 50 may be further included. The stopper 50 serves to prevent foreign matter from entering the sleeve 30 in a process such as reinforcing the bar, or placing the vertical structure concrete.

As shown in Figure 2 by using a ladder-type reinforcing bar integrated into the sleeve when the bottom structure of the reinforced concrete structure building integrated by welding as the vertical reinforcement of the lower structure, it is possible to utilize the reinforcing bar vertical connecting structure according to the present invention have.

1 is a schematic diagram of a vertical reinforcing bar structure according to the present invention.

Figure 2 is an application example of the construction site of the rebar vertical connection structure according to the present invention.

<Description of Major Codes in Drawings>

10: lower vertical bar 20: upper vertical bar

11, 21: deformed steel rib 12, 22: deformed steel bar

30 sleeve 31 weld

32: wrinkle (sleeve) 40: slow curing agent

50: stopper

Claims (4)

As a connection structure for connecting the vertical reinforcing bar to be reinforced for the reinforcement of the reinforced concrete structure up and down, A sleeve 30 having a constant length; A lower vertical rebar 10 inserted from the lower end of the sleeve 30 to the middle and fixed by welding at the lower end of the sleeve; An upper vertical rebar 20 inserted through an upper end of the sleeve 30 to be in contact with the lower vertical rebar 10; And A slow curing agent 40 injected into the sleeve 30 and fixed thereto; Rebar vertical connection structure, characterized in that configured to include. In claim 1, Reinforcing bar vertical connection structure, characterized in that the sleeve 30 is wrinkled on the inner circumferential surface. In claim 2, The sleeve 30 is reinforced vertical connection structure, characterized in that the top is configured in the form of a funnel. A method of vertically connecting two ladders arranged side by side at regular intervals and vertically connected to the two main bars, and two ends consisting of a plurality of connecting bars protruding laterally of the main bars in, (A) inserting a sleeve having a pleat formed on the inner circumferential surface on the upper end of the main bar of the ladder-shaped rebar disposed in the lower portion, and sealing the lower end of the sleeve by welding the lower end of the sleeve and the main bar; (b) raising and laying the ladder reinforcing bar disposed below the bottom; (c) injecting a slow curing agent into the sleeve; (d) placing a ladder of reinforcing bars arranged on the upper part of the reinforcement, and inserting the main bars of the ladder-type reinforcing bars arranged on the upper part through the upper end of the sleeve, and then joining with the main bars of the ladders arranged on the lower part, Curing the slow curing agent; Rebar vertical connection method comprising a.

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