KR200178958Y1 - Steel reinforcing joint and arrangement devices recycling scrap of steel - Google Patents

Abstract

The present invention relates to a reinforcing bar and reinforcing device recycled steel pieces, more specifically, using a steel plate and steel material, and cutting the steel sheet and scrap (scrap) to be processed with scrap steel to an appropriate length of the joint or reinforcement shape of the rebar The U-shaped fastening clip that forms convex nodes like ordinary reinforcement on the outer surface of the reinforcement is made by connecting or reinforcing the reinforcing bars and pressing both ends inward to connect the reinforcing bars very firmly and firmly. The present invention relates to a reinforcing bar and reinforcing device that is very suitable for seismic prevention to prevent the collapse of a structure in advance.

Description

Steel reinforcing joint and arrangement devices recycling scrap of steel}

The present invention relates to a reinforcing bar and reinforcing device recycled steel pieces, more specifically, using a steel plate and steel material, and cutting the steel sheet and scrap (scrap) to be processed with scrap steel to an appropriate length of the joint or reinforcement shape of the rebar The U-shaped fastening clip that forms convex nodes like ordinary reinforcement on the outer surface of the reinforcement is made by connecting or reinforcing the reinforcing bars and pressing both ends inward to connect the reinforcing bars very firmly and firmly. The present invention relates to a reinforcing bar and reinforcing device that is very suitable for seismic prevention to prevent the collapse of a structure in advance.

Conventionally, although the world is facing seismic phobia, it is still used to connect reinforcing bars by overlapping reinforcing bars as a binding line that can only be seen as an old heritage, but this is a structural method that cannot be solved structurally. Overlap reinforcement method requires a lot of unnecessary reinforcing bar when it is bundled with ties wire, so construction cost is expensive and the binding part of ties is very weak, so it is difficult to withstand the weight of concrete and cannot withstand earthquakes.

The threaded rebar connector has a thick screw node, which is not suitable for the concrete casting of the structure, and the outside of the connector is slippery, which is weak against earthquakes because the connector of the reinforcing bar is not joined to the concrete. It is a defect that the manufacturing cost of the connector is very high because it is used in forging, and it is difficult to perform the exact and uniform rebar joint work because the middle of the connector is not blocked when the rebar is connected. It is very vulnerable to earthquakes due to the high manufacturing cost of the rebar splice connector and its incomplete assembly.

Assembling the connector by casting The connector of the screw joint method is manufactured by casting, and the natt uses the iron round bar, so the manufacturing cost is high.The prefabricated connector is connected with only three nodes, so the tension is weak and it is not blocked by H-type in the middle of the connector. Because the heavy rebar is pushed on both sides, it is not assembled correctly. The connector is a casting, not forging, which is very weak to tensile force and manufactured smoothly. Therefore, it could not play the role of reinforcing bar like the binding line, which could lead to large accidents such as Seongsu Bridge and Sampoong Department Store. As an example of such an earthquake, such as an earthquake, the structure is still collapsed and the earthquake cannot be tolerated due to the use of the binding line connecting the reinforcing bars and the use of seismic reinforcing bar connections.

For gas welding, rebar is only available from D19mm to D32mm. Since gas welding is weak in tensile force, it requires a closed end and special function welder to perform all non-destructive testing after gas welding. Difficult, use of necessary equipment and a large number of people, and the reliability of gas welding is poor.

Liner screw (Liner Scerew) method is to insert long and heavy reinforcing bar into four grooves with nodal groove and screw shape, and then to turn capri by screwing, but the compression or tensile force is weak. Lina screw has four bars of reinforcing bar, but the lina screw method is also weak in tensile force. When connecting reinforcing bars, it is necessary to have several workers and be careful of rust or foreign matter. There is a closed end, and the tensile strength is very weak. The mortar injection should be preceded by the loosening of the screw connection to the vibration or impact before the concrete casting. The connector of the Lina screw method is very weak against earthquakes because it is not as good as the concrete when it is poured because it is smooth like a round bar.

Screw joint rebar is used to process the male thread at the end of the rebar in the factory to process the screw of both ends of the long and heavy rebar. Both ends of the rebar were machined by connecting with a coupler by machining, so it is very weak in tensile strength and compressive strength, hassle to process long and heavy rebars by screw type, and it is slippery, so it is concrete pouring It does not have good adhesion, coupler cost, processing cost and earthquake resistance.

It has been several years since the development of reinforcing bars, and the new structures are becoming very large due to the time. However, the reinforcing bars and joints of the construction site are still connected with the joints that connect the reinforcing bars with the binding lines.

The welding method of reinforcing bars is very labor and logistics cost, and the reinforcing bar connector has various screw screw castings. Since the cost, processing cost and logistics costs are high, the conventional reinforcing bar connecting devices that have been developed and used so far, such as avoiding the construction site, are both uneconomical and not robust and have very weak problems in earthquakes.

The purpose of the present invention is to cut the steel pieces that are generated as scrap metal in shipyards, industrial sites, etc. to an appropriate length without using steel materials produced in steel mills as raw materials, and to form the joints or reinforcement shapes of reinforcing bars as with ordinary bars. Forging is formed by forging a U-shaped fastening clip that forms a convex node, and by joining or reinforcing the reinforcing bars, pressing both ends of the fastening clip inwardly to retract them, so that the reinforcing bars are very firmly and firmly connected and reinforced. To provide a joint and reinforcement device.

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

1 is an exemplary view of the present invention in the reinforcement of the reinforcing bar in a T-shape

2 is an exemplary view of the present invention in which the reinforcing bar reinforcement

3 is an exemplary view of the present invention in which the reinforcing bar is L-shaped

Figure 4 is an exemplary view of the present invention in which the reinforcing bar in a straight shape

5 is a cross-sectional view of the clamping state of the fastening clip

6 is a partial cross-sectional view of a state in which the reinforcing bar is arranged in a cross shape;

<Explanation of symbols for main parts of the drawings>

A: Fastening clip 1,1 ': Rebar 2.2': Dolhwan

3: Node 4: Node Home 5: Bulkhead

6: recessed groove

1 to 4 is an exemplary view of reinforcing the reinforcing bars (1) (1 ') in various forms using the fastening clip (a) of the present invention and Figure 5 is a cross-sectional view of the fastening clip (a) of Figure 6 This is an exemplary view showing an enlarged structural cross section of the fastening clip (a) when reinforcing the reinforcing bars (1) (1 ') crosswise.

In this case, the fastening clips (a) are all forged by recycling steel pieces generated in shipyards and industrial sites, which are reinforcing bars (1) (1) as U-shaped cross sections into which the bars (1) (1 ') can be fitted. It is shaped into a straight, T-shaped, cross-shaped, L-shaped, etc. fitting to the joint structure of '), and its outer surface is a reinforcing bar (2) (2') like reinforcing bar (1) (1 '), and reinforcing bar (1) ( 1 ') each of the grooves (4) to be inserted into the joints (3') at regular intervals, each of the fastening clip (a) of the partition wall (5) is installed in the middle, T-shaped or L-shaped fastening clip (A) is formed so that the recessed groove 6 is formed in the intersection or bent portion to facilitate the compression, cross-shaped is installed so that the U-shaped fastening clip (A) crosses up and down.

In this way, the present invention does not use fastening clips (A) to join and reinforce reinforcing bars (1) (1 '), and recycles steel scrap and scrap metal so that they are stronger than the tensile force of reinforcing bars (1) (1'). In order to provide reinforcing bars and reinforcing devices for jinyong bar, it is characterized by reinforcing bars and reinforcing bars. 1) Reinforce the reinforcing bar (1) (1 ') with the fastening clip (1) so that the 1 (1') is fitted and reinforce it, and then press both ends of the fastening clip (A) inward to compress the reinforcing bar (1) (1). ') Is firmly connected to each other by the fastening clip (a).

Here, the fastening clip (a) is formed in the groove groove (4) corresponding to the bar (3) of the reinforcing bar (1) (1 ') at regular intervals and the bar of the bar (1) (1') on the outer surface As the projections (2) and (2 ') are formed as shown in (3), the fastening clip (a) and the reinforcing bars (1) and (1') are tightly coupled to each other without any gap, and the projections (2) and (2 ') Due to the curing of the concrete, the adhesion is made perfectly. In addition, when the fastening clip (A) is shaped like a T-shape or L-shape, the recessed groove (6) is formed at the intersection, so that the crimping is more easily performed when the reinforcing bars (1) and (1 ') are connected and reinforcement. It will be made and perfect compression is possible.

In addition, in the case of a straight fastening clip (a), the partition wall (5) is formed in the middle so that the two reinforcing bars (1) (1 ') to be joined to the fastening clip (a) in the same length is formed in the partition wall (5) Both reinforcing bars (1) and (1 ') are distributed in the same length, not only biased to one side, but also coupled to each other, so as not to push each other to form a solid joint, so as to make a perfect reinforcing bar (1) (1') It becomes possible.

In the case of a cross-shaped fastening clip (A), another fastening clip (A) is spoken to cross the upper part of the fastening clip (A) of one side, and is formed in a cross shape as shown in FIGS. 2 and 6, and the reinforcing bar (1) ( 1 ') is pressed after the connection of the reinforcing bars (1) (1') is simply a cross-shaped joint and reinforcement.

As such, this invention is an environmentally friendly and economically effective alternative to steel raw materials that can recycle steel scrap without the use of expensive raw materials, and is widely used in the construction sites of countries around the world in earthquake fears. Can be.

In addition, the reinforcing bar method of the present invention has various specifications so that it can be used wherever there are reinforcing bars in reinforced concrete structure buildings, such as columns, beams, harbor facilities, underwater structures, and concrete pavement sewer prefabricated houses. Even if it is easy to assemble, there is an advantage that the construction versatility is very high.

Claims (3)

Recycling steel scraps generated from scrap metal, U-shaped cross section into which rebar (1) (1 ') can be fitted, and draws (2) (2') such as reinforcing bars (1) (1 ') on the outer surface The steel is formed by joining and reinforcing bars (1) and (1 ') with fastening clips (a) respectively installed at regular intervals to each of the node grooves (4) into which the bars (3) of the bars (1) and (1') are fitted. Rebar splice and reinforcement unit, recycled to pieces. 2. The rebar splice and reinforcement device according to claim 1, wherein the pieces of steel provided with a partition wall (5) in the middle of the straight fastening clip (a) are recycled. The rebar joint and reinforcement device according to claim 1, wherein steel pieces having recessed grooves (6) formed at intersections or bends of T- or L-shaped fastening clips (a) are recycled.