KR20230114925A - A non-welded concrete reinforcement having a coil-type fixing head and a reinforcement method of a concrete member using the same - Google Patents

Abstract

The present invention relates to a concrete reinforcing material, which enables an efficient reinforcement function and economic efficiency through non-welding production. The concrete reinforcing material comprises: a reinforcing unit made up of a pair of reinforcing bars by continuously bending one wire member without welding; a hook unit formed at one end of the reinforcing unit; and a space closed by a head unit formed at the reinforcing unit other end. A reinforcing wire material may be inserted into the closed space, so that the hook unit may be caught by the reinforcing wire material. Additionally, the head unit is made of an annular coil wound equal to or more than two times around an end part of the reinforcing bar.

Description

A non-welded concrete reinforcement having a coil-type fixing head and a method of reinforcing a concrete member using the same

The present invention relates to a concrete reinforcing material embedded in concrete for reinforcing a weak part of a reinforced concrete structure, and more specifically, to a concrete reinforcing material that can promote efficient reinforcing function and economic efficiency according to non-welding production, and a concrete member using the same It's about reinforcement.

Horizontal structures such as beams and slabs and vertical structures such as columns and walls, which form a building, generate stress of various sizes depending on the method or position of each structure, and a means for reinforcing the structure to some extent. are provided inside the reinforced concrete.

For example, when a column or foundation is located on the slab and a concentrated load is applied, the slab may be punched in a conical or pyramidal shape centered on the column. Reinforcing means to prevent such punching failure should be provided in the slab around the column.

Such reinforcing means should be able to resist the stress in a state firmly fixed in the concrete when stress occurs, and one example thereof is a reinforced concrete reinforcing material disclosed in Patent Publication No. 10-2004-0076644.

As shown in (a) of FIG. 1, the reinforced concrete reinforcement has a structure in which a plurality of studs 20 are installed at regular intervals on the upper surface of a strip-shaped rail 12, and the studs 20 is composed of a body portion 22 serving as a reinforcing bar, a coupling portion 24 for bonding with the rail 12, and a head portion 26 serving a fixing function.

The head part 26 responds to the tensile stress generated in the body part 22 by distributing the concrete pressure stress over the entire surface of the head part 26 so that the stud 20 is stably settled in the concrete and the lower surface thereof Prevent concrete pressure fracture from occurring.

However, as described in (b) of FIG. 1, the stud 20 has a cantilever structure in which one body part 22 having a function of a reinforcing bar is connected to the center of the head part 26. As a result, the largest bending stress occurs at the fixed end of the joint where the body portion 22 and the head portion 26 are joined. Accordingly, the head portion 26 must have a sufficient thickness to cope with the bending stress, which reduces the manufacturability of the stud 20 or acts as a factor in excessive use of steel.

In order to solve this problem, the present applicant consists of a reinforcing body containing a pair of straight bars and a fixing head having a larger area than the cross section of the straight bars and combining the straight bars one by one at both ends, A closed space is formed by the reinforcing body and the fixing head, and the fixing head has applied for (unpublished) a concrete reinforcing material having a large area as described above by attaching a semicircular curved bar and a head bar by welding.

The above-mentioned concrete reinforcing material increases the self-reliance and reinforcing capacity of concrete by the anchoring head, and reduces the size of the moment generated in the anchoring head so that efficient reinforcement is achieved. Therefore, there are factors that increase the manufacturing cost due to the use of welding means and increase the manufacturing time according to the welding process.

KR 10-2004-0076644 A

The present invention is to solve the above-mentioned problems of the prior art, and it is possible to minimize the magnitude of the moment generated in the fixing head while increasing the fixation self-reliance and reinforcing ability in the concrete, and to create one without using a welding means. An object of the present invention is to provide a concrete reinforcing material having excellent manufacturability and economic feasibility and a method of reinforcing a concrete member using the same, as it can be manufactured only by simply bending a wire member.

According to the most preferred embodiment of the present invention for solving the above problems, one wire member is continuously bent without welding, a reinforcing part composed of a pair of reinforcing bars, a hook part formed at one end of the reinforcing part, and the A closed space is formed by a head part formed at the other end of the reinforcing part, and a reinforcing wire is inserted into the closed space so that the hook part can be caught on the reinforcing wire, and the head part is wound at least twice at the end of the reinforcing bar. There is provided a non-welding concrete reinforcement having a coil-type fixing head, characterized in that it is made of an annular coil having a true shape.

At this time, an elastic fitting part may be formed in one of the hook part and the head part so that the reinforcing wire is inserted into the closed space.

Regarding the configuration of the elastic fitting part, the hook part is configured in a shape in which the ends of a pair of reinforcing bars are interconnected, and the head part is wound on each side of each side so that the annular coil wound one or more times at the other end of each reinforcing bar can be opened by elasticity. It is also possible to form an elastic fitting part in the head part in such a way that it is configured continuously, and a 180 degree hook is formed at each of the ends of a pair of reinforcing bars, and these hooks are continuously formed to form one hook part, but by elasticity It is also possible to form an elastic fitting part in the hook part because it is possible to open it.

When the elastic fitting part is configured in the hook part, the head part is connected to the other end of the rest of the reinforcing bar after integrally forming an annular coil wound two or more times continuously at the other end of the reinforcing bar.

According to another embodiment of the present invention, as a method of reinforcing a concrete member using the above-described concrete reinforcing member, a plurality of concrete reinforcing members are arranged at set intervals, and a hook part of each concrete reinforcing member is fixed to the reinforcing wire member to form a reinforcement assembly. After forming, by placing the reinforcing assembly on top of the reinforcing bar assembly reinforced to the concrete member, the reinforcing wire is strung on the upper surface of the reinforcing bar assembly so that each concrete reinforcing member is positioned inside the reinforcing bar assembly. Characterized in that A concrete reinforcement method is provided.

At this time, the fixing of the concrete reinforcing material to the reinforcing wire may be performed by inserting the reinforcing wire into the closed space of the concrete reinforcing material and then fixing the inner surface of the hook to the reinforcing wire, and each hook side of the concrete reinforcing material to the reinforcing wire You can also make this fixed.

According to an embodiment of the present invention related to a method for reinforcing a concrete member using a concrete reinforcing member, the upper reinforcing bar of the reinforcing bar assembly reinforced in the concrete member passes through the elastic fitting of the concrete reinforcing member and is inserted into the closed space, so that the concrete reinforcing member is individually There is provided a concrete reinforcement method characterized in that to be installed on the upper reinforcing bar of the reinforcing bar assembly.

The present invention provides a fixing head with an enlarged fixing area by simply bending one wire member without welding, thereby simplifying the manufacturing process, reducing manufacturing time, and reducing material and labor costs due to reduced processes. In addition, since it can be easily manufactured by bending the reinforcing bars in the field, it is possible to reinforce the concrete member very economically.

In addition, in the concrete reinforcing material of the present invention, since the head part, which is the fixing head, is composed of an annular coil, and the circular concrete inside the annular coil functions as another anchor along with the two-sided support by the annular coil, the fixing ability of the fixing head is improved. It is doubled to enable stable structural reinforcement.

In addition, since the concrete reinforcing member of the present invention can be installed in multiple pieces at the same time by reinforcing wires and can complete construction without separate fixing work, it not only enables the precision and shortening of the construction period, but also allows concrete reinforcement without reinforcing wires. Reinforcement materials can be installed only in the necessary positions individually, enabling an efficient reinforcing structure.

1 is an explanatory view of the structure and stress structure of a reinforced concrete reinforcement according to the prior art.
2 is a perspective view of a first embodiment of the concrete reinforcing material of the present invention.
3 is an explanatory view of the stress structure of the concrete reinforcing member according to the first embodiment.
4 is a perspective view of a state in which a reinforcing assembly is assembled with a plurality of concrete reinforcing members according to the first embodiment.
5 is an explanatory view of a process of installing a reinforcing assembly according to FIG. 4 to a reinforcing bar assembly to be placed on a concrete member.
6 is an explanatory view of a process of directly installing a concrete reinforcing member of the first embodiment to a reinforcing bar assembly to be placed on a concrete member.
7 is a perspective view of a second embodiment of the concrete reinforcing material of the present invention.
8 is an explanatory view of a process of directly installing a concrete reinforcing member of the second embodiment to a reinforcing bar assembly to be placed on a concrete member.
9 is a perspective view of each embodiment related to a state in which a reinforcing assembly is assembled with a plurality of concrete reinforcing members of the second embodiment.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, in the description of the present invention, when the technical idea of the present invention is blurred or unclear due to the detailed description of the known configuration, the description of the configuration of the above known will be omitted.

The concrete reinforcing member 100 of the present invention includes a reinforcing part 110 having a reinforcing function for a concrete member 300, a hook part 120 formed at one end of the reinforcing part 110, and the reinforcing part 110 It is formed at the other end of the ) and firmly fixes the reinforcing part 110 in the concrete member 300 to prevent the reinforcing function from deteriorating.

Unlike the prior art, the concrete reinforcing member 100 of the present invention configured as described above, by continuously bending one wire member composed of reinforcing bars or steel rods without welding, the above-described reinforcing part 110, hook part 120 and head As each part 130 is formed, it is a key technical feature that the closed space 150 is formed by them, thereby having excellent manufacturability compared to the concrete reinforcing materials of the prior art, Ease of work for reinforcement construction and diversity of reinforcement methods.

In addition, another key technology of the present invention is to form a coil-type fixing head at the other end of the reinforcing part 110 by making the head part 130 composed of an annular coil 131 wound twice or more. to be characterized As a result, it has a more improved reinforcing ability compared to the concrete reinforcing material of the prior art. For reference, here, 'annular coil 131 of a shape wound more than twice' refers to a structure that is physically separated from each other or one annular coil 131 wound several times by successive winding of one or more turns at a time. It means including up to the case of indicating.

2 to 6 relate to the first embodiment of the concrete reinforcing material 100 of the present invention, FIG. 2 shows the concrete reinforcing material 100 as a whole, and FIG. 3 shows the stress on the concrete reinforcing material 100 The structure is described with drawings, and FIGS. 4 to 6 describe a method of installing the concrete reinforcing member 100 to the reinforcing bar assembly 310 to be reinforced in the concrete member 300.

In the concrete reinforcing member 100 of the present invention, the reinforcing part 110 is composed of a pair of reinforcing bars 111. This point is the same in the second embodiment to be described later.

However, the hook part 120 in the first embodiment is characterized in that it is configured in a shape in which the pair of reinforcing ends are interconnected.

In addition, as described above, the concrete reinforcing member 100 of the present invention is to be manufactured by simply bending one wire member without welding, in the first embodiment, both ends of the wire member are the head portion 130 will be located in

Therefore, in the first embodiment of the present invention, as shown in FIG. 2, at both ends of the wire member, specifically at the other end of each reinforcing bar 111 forming the reinforcing portion 110, each annular coil 131 It is formed by being wound more than once, and each side of these annular coils 131 is continuous so that one head part 130 can be formed. Accordingly, the head part 130 is made of an annular coil 131 wound twice or more at the end of the reinforcing bar 111 to form a fusing head with a wide fixing area.

At this time, as shown in FIG. 2, the annular coil 131 may have a configuration in which each end of the reinforcing bar 111 is wound only once, but may have a configuration in which it is wound multiple times. However, both sides do not necessarily have to be wound the same number of times.

As described above, in the first embodiment, the annular coils 131 formed at the end of each reinforcing bar 111 are continuously configured to form one head part 130, but these annular coils 131 are physically separated, so that elasticity Mutual opening is possible, whereby the head portion 130 can be provided with an elastic fitting portion 140.

The elastic fitting part 140 allows diversity in the method of reinforcing the concrete member 300 using the concrete reinforcing member 100 of the present invention. This will be described in detail later.

As described above, since the head portion 130 composed of a plurality of annular coils 131 is fixed and supported on two surfaces of the annular coil 131 as shown in FIG. It is possible to have a high anchorage capacity compared to the stiffener.

There are various methods of reinforcing the concrete member 300 using the concrete reinforcing member 100 of the present invention.

For example, as shown in FIG. 4, a reinforcing assembly 200 in which a plurality of concrete reinforcing members 100 are integrated by a reinforcing wire 210 is formed, and the reinforcing bar assembly 310 is placed inside the concrete member 300. ) There is a method of installing and reinforcing, and unlike this, there is a method of directly and independently installing each individual concrete reinforcing member 100 to the reinforcing bar assembly 310 without using the reinforcing wire 210.

In the concrete reinforcing member 100 of the present invention, a closed space 150 is formed so that the hook part 120 can be caught on the reinforcing wire 210 by inserting the reinforcing wire 210, and the reinforcing assembly in the former case ( 200) is assembled by arranging a plurality of concrete reinforcing materials 100 at set intervals and fixing the hook portion 120 of each concrete reinforcing material 100 to the reinforcing wire 210. For example, in this embodiment, the reinforcing wire 210 is directly inserted into each closed space 150 provided in the plurality of concrete reinforcing members 100, and then the reinforcing wire 210 is fixed to the inner surface of each hook part 120 can be easily assembled in this way.

The reinforcing wire 210 has a slightly lower fixing ability than the head part 130, and acts very efficiently in fixing and reinforcing the hook part 120 requiring reinforcement. That is, the tensile stress generated in the concrete reinforcing member 100 is transmitted to the reinforcing wire 210 through the hook part 120, and the reinforcing wire 210 formed long to the left and right is the anchoring member for the concrete reinforcing member 100. By playing a role, the anchoring of the hook part 120 is reinforced. At this time, the reinforcing wire 210 should have a standard equal to or larger than the cross-sectional area of the reinforcing bar 111 so that it can sufficiently resist the stress transmitted from the concrete reinforcing material 100.

5 illustrates a process of installing the reinforcing assembly 200 to the reinforcing bar assembly 310 to be placed on the concrete member 300 as a drawing.

The installation of the reinforcing assembly 200 to the reinforcing bar assembly 310 placed on the concrete member 300 is simply completed by placing the reinforcing assembly 200 on top of the reinforcing bar assembly 310. Specifically, when each head part 130 of the concrete reinforcing member 100 is dropped down, the reinforcing wire 210 spans the upper surface of the reinforcing bar assembly 310, and each concrete reinforcing member 100 is inside the reinforcing bar assembly 310. position and the installation is complete.

6 is a diagram illustrating the latter method of reinforcing a concrete member 300 using a concrete reinforcing member 100.

As described above, in the first embodiment of the present invention, the annular coil 131 formed at the end of each reinforcing bar 111 is physically separated, thereby forming an elastic fitting part 140, the elastic fitting part When the concrete reinforcing member 100 is pressed downward in a state in which the upper reinforcing bar 311 of the reinforcing bar assembly 310 is placed in the concrete member 300 at 140, the elasticity of the concrete reinforcing member 100 itself is mutual. As the gap between the continuous annular coils 131 widens, the upper reinforcing bar 311 passes through the elastic fitting part 140 of the concrete reinforcing member 100 and enters between the closed spaces 150.

In this way, when the elastic fitting part 140 is used, the concrete reinforcing material 100 can be individually installed on the upper reinforcing bar 311 of the reinforcing bar assembly 310, and the concrete reinforcing material 100 is selectively applied only to the required position. be able to install In this case, the upper reinforcing bar 311 of the reinforcing bar assembly 310 reinforces the anchoring of the hook part 120.

7 to 9 relate to a second embodiment of the concrete reinforcing member 100 of the present invention, FIG. 7 shows it as a whole, and FIG. The process of directly installing the example concrete reinforcing member 100 has been described with drawings, and FIG. 9 shows each embodiment related to forming a reinforcing assembly 200 with a plurality of concrete reinforcing members 100 of the second embodiment. will be.

In the concrete reinforcement part 110 material according to the second embodiment of the present invention, the elastic fitting part 140 is formed on the hook part 120 instead of the head part 130.

Therefore, in the concrete reinforcement part 110 material according to the second embodiment of the present invention, in which one line member is produced only by simple bending without welding, as shown in FIG. 7, the head part 130 is the line member At the location of the central part of, specifically, at the other end of the reinforcing bar 111 at a position symmetrical with one end of any one reinforcing bar 111 where the hook portion 120 is located, an annular coil 131 wound two or more times in succession. ) has a structure that is integrally formed and connected to the other end of the remaining reinforcing bars 111.

In this way, the annular coil 131 for the head portion 130 is formed at the center of the wire member, and both ends of the wire member constitute the hook portion 120 formed at one end of the reinforcing bar 111. will do That is, 180-degree hooks 121 are formed at each end of the pair of reinforcing bars 111, and each of these hooks 121 is continuous to form one hook part 120, but has a physically separated structure. An elastic fitting portion 140 that is widened by elasticity is formed.

As described above, in the second embodiment of the present invention, by forming the elastic fitting part 140 in the hook part 120, the upper part of the reinforcing bar assembly 310 reinforced to the concrete member 300 as in the first embodiment described above. The reinforcing bar 311 can be inserted into the closed space 150 of the concrete member 300 by passing through the elastic fitting part 140 formed in the hook part 120.

Therefore, even in the second embodiment, the concrete reinforcing member 100 can be individually installed on the upper reinforcing bar 311 of the reinforcing bar assembly 310, and accordingly, the concrete reinforcing member 100 can be selectively installed only in the necessary position, The fact that the anchoring of the hook part 120 is reinforced by the upper reinforcing bar 311 of the reinforcing bar assembly 310 is also almost similar to that of the first embodiment.

However, when the concrete reinforcement 100 is installed on the upper reinforcing bar 311, as described in the drawing of FIG. 8, the hook part 120 provided with the elastic fitting part 140 is attached to the upper reinforcing bar 311. In the positioning state, the concrete reinforcement 100 is pressed downward, and the hooks 121 that are continuous with each other are spread apart by the elasticity of the concrete reinforcement 100 itself, so that the upper reinforcement 311 is formed of the concrete reinforcement 100. When passing through the elastic fitting part 140 and entering between the closed spaces 150, the concrete reinforcing member 100 should be rotated 180 degrees so that the inner surface of the hook part 120 is caught on the upper reinforcing bar 311.

Of course, it is natural that the second embodiment can also reinforce the concrete member 300 using the reinforcing assembly 200, and by using the fact that the elastic fitting part 140 is formed in the hook part 120 The direction in which the head unit 130 faces can be freely set.

In (a) of FIG. 9, the inner surface of the hook part 120 is fixed to the reinforcing wire 210 by inserting the reinforcing wire 210 into the closed space 150 of the concrete reinforcing material 100 in the same manner as in the first embodiment. 9(b) is an example in which the direction of the head part 130 is rotated by 90 degrees using the elastic fitting part 140 provided in the hook part 120 as described above. The reinforcing assembly 200.

The method of assembling the reinforcing assembly 200 by fixing the concrete reinforcing material 100 to the reinforcing wire 210 while rotating the direction of the head part 130 at a set angle, as shown in FIG. 9 (b), By placing the reinforcing wire 210 in the middle of the elastic fitting part 140 without completely passing through the elastic fitting part 140 provided in the hook part 120, each of the concrete reinforcing materials 100 is attached to the reinforcing wire material 210. The side of the hook 121 is fixed.

Of course, in this embodiment, even when the concrete reinforcing member 100 is directly installed on the upper reinforcing bar 311 of the reinforcing bar assembly 310 without using the reinforcing assembly 200 as described above, In the same way, the direction of the head part 130 can be rotated at a set angle.

Since the method of installing the reinforcing assembly 200 inside the reinforcing bar assembly 310 placed in the concrete member is not different from that of the first embodiment, the description thereof is replaced with that of the first embodiment.

In the above, the present invention has been described in detail with reference to specific embodiments, but since the above embodiments are merely examples to make the present invention easier to understand, those skilled in the art are within the scope of the technical idea of the present invention. It is obvious that it will be possible to carry out various modifications within. Therefore, it will be said that such modifications fall within the scope of the present invention as described in the claims.

100; concrete reinforcement 110; reinforcement
111; reinforcement 120; hook part
121; hook 130; head part
131; Annular coil 140; Elastic fitting part
150; closed space 200; reinforcement assembly
210; reinforcement wire 300; concrete member
310; Rebar assembly 311; upper rebar

Claims (8)

A reinforcing part 110 composed of a pair of reinforcing bars 111 by continuously bending one wire member without welding, a hook part 120 formed at one end of the reinforcing part 110, and the reinforcing part 110 ) As the closed space 150 is made by the head portion 130 formed at the other end,
The reinforcing wire 210 is inserted into the closed space 150 so that the hook part 120 can be caught on the reinforcing wire 210,
The head portion 130 is a non-welded concrete reinforcement having a coil-type fixing head, characterized in that composed of an annular coil 131 having a shape wound more than twice at the end of the reinforcing bar 111. According to claim 1,
A coil-type fixing head characterized in that an elastic fitting part 140 capable of inserting the reinforcing wire 210 into the closed space 150 is formed in one of the hook part 120 and the head part 130. Non-welded concrete reinforcement having a. According to claim 2,
The hook part 120 is composed of a shape in which the ends of a pair of reinforcing bars 111 are interconnected,
The head part 130 is a coil-type anchorage, characterized in that each side is configured to be continuous so that the annular coil 131 wound one or more times at the other end of each reinforcing bar 111 can be opened by elasticity. Non-welded concrete reinforcement with a head. According to claim 2,
180 degree hooks 121 are formed at each end of the pair of reinforcing bars 111, and these hooks 121 are continuously formed to form one hook part 120, but an elastic fitting part 140 that can be opened by elasticity. ) is formed,
The head portion 130 is configured such that the annular coil 131 continuously wound two or more times at the other end of the reinforcing bar 111 is integrally formed and then connected to the other end of the remaining reinforcing bar 111. Non-welding concrete reinforcement with a coil-type anchoring head. A method of reinforcing a concrete member 300 using the concrete reinforcing material 100 according to any one of claims 1 to 4,
After arranging a plurality of concrete reinforcing members 100 at set intervals and fixing the hook part 120 of each concrete reinforcing member 100 to the reinforcing wire 210 to form the reinforcing assembly 200, the reinforcing assembly ( 200) is placed on top of the reinforcing bar assembly 310 placed on the concrete member 300, so that each concrete reinforcing member 100 is attached to the reinforcing bar assembly ( 310) concrete reinforcement method characterized in that to be located inside. According to claim 5,
The fixing of the concrete reinforcing material 100 to the reinforcing wire material 210 is performed by inserting the reinforcing wire material 210 into the closed space 150 of the concrete reinforcing material 100 and then placing the inner surface of the hook part 120 on the reinforcing wire material 210. ) Concrete reinforcement method, characterized in that made by fixing to. According to claim 5,
The fixing of the concrete reinforcing member 100 to the reinforcing wire 210 is a concrete reinforcement method, characterized in that the side of each hook 121 of the concrete reinforcing member 100 is fixed to the reinforcing wire 210. A method of reinforcing a concrete member 300 using the concrete reinforcing material 100 according to any one of claims 2 to 4,
The concrete reinforcing material 100 is inserted into the closed space 150 by passing through the elastic fitting part 140 of the concrete reinforcing material 100 so that the upper reinforcing bar 311 of the reinforcing bar assembly 310 reinforced in the concrete member 300 is inserted into the closed space 150. ) is individually installed on the upper reinforcing bar 311 of the reinforcing bar assembly 310.

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