KR20080024708A - Working frame for reinforcement placing rebar - Google Patents

Abstract

A working frame for arranging plural reinforcing bars for concrete reinforcement is provided to arrange reinforcing bars exactly and simply, to shorten a period of construction by performing bar arrangement work regardless of working time and circumstances of a construction field, to cut down on the cost of construction by heightening work efficiency and to secure quality by standardizing easily. A working frame for arranging plural reinforcing bars for concrete reinforcement in lattice patterns comprises a first horizontal bar arrangement support(10) and a second horizontal bar arrangement support(20) arranged parallel to each other at a certain distance and provided with plural first and second horizontal grooves(12,22) to house and support plural reinforcing bars(2), and a first vertical bar arrangement support(30) and a second vertical bar arrangement support(40) arranged parallel to each other at a certain distance, connected at right angles to the first horizontal bar arrangement support and the second horizontal bar arrangement support and provided with plural first and second vertical grooves(32,42) to house and support reinforcing bars, wherein the inner sides of the first and second horizontal bar arrangement supports are connected by plural horizontal connectors strongly, and the inner sides of the first and second vertical bar arrangement supports are connected by plural vertical connectors(60) strongly, and the bottom of the reinforcing bars are supported to each bottom of the horizontal connectors and the vertical connectors to prevent the flexural deformation of the reinforcing bars.

Description

WORKING FRAME FOR REINFORCEMENT PLACING REBAR}

1 is a perspective view showing a reinforcement working frame of reinforcing bars according to the present invention,

Figure 2 is a perspective view showing a state in which the rebar is arranged in the reinforcement working frame of the rebar according to the present invention,

3 is a plan view showing a state in which the rebar is arranged in the reinforcement working frame of the rebar according to the present invention,

4 is a perspective view partially showing a state in which rebars are arranged in a reinforcement working frame of reinforcing bars according to the present invention;

5 and 6 are partial cross-sectional view showing a state in which rebar is arranged in the reinforcement working frame of the rebar according to the present invention,

7 is a perspective view partially showing the configuration of the vertical connecting rod and the horizontal connecting rod in the reinforcement working framework of the rebar according to the present invention.

♣ Explanation of symbols for the main parts of the drawing ♣

10: first crosswise root 12: first cross groove

20: second crosswise root 22: second horizontal groove

30: first longitudinal root 32: first longitudinal groove

40: second longitudinal back muscle 42: second longitudinal groove

50: crossbar 54: groove

60: vertical connector 64: groove

The present invention relates to the reinforcement framework of the reinforcement for concrete reinforcement, and more particularly to the reinforcement framework of the reinforcement for concrete reinforcement can be carried out accurately and efficiently by standardizing the reinforcement of the reinforcement.

Reinforced concrete structure is to reinforce the reinforcing steel in the concrete structure is composed of a high compressive concrete and a reinforcing steel reinforced. Reinforced concrete structure is made of wooden board or iron plate to form the beam, wall, column, floor, etc. of the designed form, and the reinforcing steel needed in it is pre-assembled and poured concrete. When the concrete is sufficiently hardened and waited for the required strength to be released, the mold is demolded to form a reinforced concrete structure like the form of a form. As a structure using concrete for the main structure of the building, there are steel reinforced concrete structures in addition to reinforced concrete structures. Reinforced concrete structure is a type of steel frame covered with reinforcement concrete and reinforced. The external force is borne by the steel frame, and the reinforced concrete surrounding the steel frame covers and reinforces the steel frame in case of fire.

However, the reinforced concrete structure of the prior art has a problem that the construction cost is increased and the construction period is delayed due to a lot of manpower and work time because the worker directly performs the reinforcement work of the rebar by the manual work in the building site. In particular, the reinforcement work of floor reinforcement is required to cut a large amount of reinforcement to the required length, carry out marking, transport it to the place to be constructed and reinforce it in a grid shape. It is acting as a big variable on the back.

The present invention has been made to solve the various problems of the prior art as described above, the object of the present invention is to provide a reinforcement framework of the reinforcing steel reinforcement that can be reinforcement by maintaining the spacing of the bars accurately and easily have.

Another object of the present invention can be carried by the pre-assembly method in the reinforcement place independent of the construction site and then transported to the construction site construction, it becomes possible to work reinforcement regardless of the working time and the situation of the construction site It is to provide a reinforcement framework for reinforcing steel reinforcement that can greatly shorten the construction period.

Still another object of the present invention is to provide a reinforcing work framework of reinforcing steel reinforcement for concrete, which can greatly improve the work efficiency of a worker, thereby reducing construction cost and ensuring quality by easily standardizing it.

A feature of the present invention for achieving the above objects, a plurality of first horizontal grooves are formed on the upper surface to accommodate and support the rebar in parallel in the horizontal direction, the first horizontal grooves are constant along the longitudinal direction It is formed to form a gap, the first horizontal grooves and the first horizontal bar is formed to have a first depth; It is spaced parallel to the first horizontal bar, and a plurality of second horizontal grooves are formed on the upper surface to accommodate and support the rebar in parallel in the horizontal direction, the second horizontal grooves are a constant distance along the longitudinal direction It is formed to form a second, the second horizontal groove and the second transverse barb is formed to have a first depth; Both ends are connected to one end of the first horizontal bar and the second horizontal bar, and a plurality of first vertical grooves are formed on the upper surface to accommodate and support the bars in parallel in the vertical direction. They are formed to have a constant interval along the longitudinal direction, the first longitudinal grooves and the first transverse barb is formed to have a second depth deeper than the first depth; Both ends are connected to the other ends of the first horizontal barley and the second horizontal barley so as to be parallel to the first longitudinal barley, and the plurality of second vertical grooves may be accommodated and supported in parallel in the vertical direction on the upper surface thereof. It is formed, the second longitudinal grooves are formed to have a constant interval along the longitudinal direction, the second longitudinal grooves in the reinforcement framework of the reinforcing steel reinforcement for the concrete reinforcement consisting of the second longitudinal bar is formed to have a second depth have.

Hereinafter, a preferred embodiment of the reinforcement framework of the reinforcing steel reinforcement according to the present invention will be described in detail with reference to the accompanying drawings.

First, referring to Figures 1 to 4, the reinforcement working framework of the reinforcing steel reinforcement of the present invention is to reinforce the plurality of reinforcing bars (2) in a grid shape first transverse bar 10, the second cross bar ( 20), the first longitudinal muscle root 30 and the second longitudinal muscle root 40 are configured.

The first transverse barley root 10 and the second transverse beam root 20 are configured identically and are arranged to be spaced apart and parallel to each other. A plurality of first and second horizontal grooves 12 and 22 are formed on the upper surfaces of the first and second transverse barns 10 and 20 so as to accommodate and support the plurality of reinforcing bars 2. The first and second horizontal grooves 12 and 22 are formed to have a predetermined interval along the longitudinal direction, respectively. Each of the first transverse grooves 12 of the first transverse barn 10 and the second transverse grooves 22 of the second transverse barn 20 is aligned in a line to form a pair.

The first and second transverse barns 10 and 20 may be made of H-section steel, angle steel, wood, and the like. The first and second transverse barley roots 10 and 20 of the H-shaped steel are formed such that the first and second horizontal grooves 12 and 22 are aligned in two rows on the upper surface thereof. The first and second transverse barns 10 and 20 may be manufactured to a length of, for example, about 5,000 to 6000 mm, and the interval between the first and second transverse grooves 12 and 22 may be, for example, about It can be manufactured in 200mm. The lengths of the first and second transverse barley roots 10 and 20 and the distance between the first and second horizontal grooves 12 and 22 may be appropriately changed as necessary.

5 and 6, each of the first and second horizontal grooves 12 and 22 of the first and second transverse barns 10 and 20 may accommodate one rebar 2. It is formed to have one depth D ₁ . The first depth D _{1 of} the first and second lateral grooves 12 and 22 is formed to satisfy a relationship of d / 2 ≦ D ₁ <2d with respect to the diameter d of the reinforcing bars 2. Therefore, the reinforcing bars 2 may be stably received and supported in the first and second horizontal grooves 12 and 22 having the first depth D ₁ .

Referring back to FIGS. 1 to 4, the first longitudinal abdominal muscle 30 is connected to one end of the first and second transverse abdominal muscles 10 and 20, and the second longitudinal abdominal muscle 40 is connected to the other end. It is connected. The first longitudinal abdominal muscle 30 and the second longitudinal abdominal muscle 40 are configured identically and are arranged to be spaced apart and parallel to each other. Therefore, the first and second transverse roots 10 and 20 and the first and second longitudinal roots 30 and 40 are perpendicular to each other.

A plurality of first and second longitudinal grooves 32 and 42 are formed on the upper surfaces of the first and second longitudinal barns 30 and 40 to accommodate and support the reinforcing bars 2, respectively. The second horizontal grooves 32 and 42 are formed to have a predetermined interval along the longitudinal direction, respectively. Each of the first horizontal grooves 32 of the first longitudinal bar 30 and the second vertical grooves 42 of the second longitudinal bar 40 is aligned in a line to form a pair.

The first and second longitudinal dorsal roots 30 and 40 may be made of H-shaped steel, angle steel, wood, and the like as the first and second transverse dorsal roots 10 and 20. The first and second longitudinal abdominal roots 30 and 40 of the H-shaped steel are formed such that the first and second longitudinal grooves 32 and 42 are aligned in two rows on the upper surface thereof. The first and second longitudinal abdominal muscles 30 and 40 may be manufactured to a length of, for example, about 5,000 to 6000 mm, and the interval between the first and second longitudinal grooves 32 and 42 is, for example, about It can be manufactured in 200mm. The distance between the length of the first and second longitudinal roots 30 and 40 and the first and second longitudinal grooves 32 and 42 may be appropriately changed as necessary.

5 and 6, the first and second longitudinal grooves 32 and 42 of the first and second longitudinal barges 30 and 40 may be formed by stacking two reinforcing bars 2. It is formed to have 2 depth D ₂ . The second depth D _{2 of} the first and second flutes 32, 42 is the diameter d of the reinforcing bars 2 and the first depth D ₁ of the first and second transverse grooves 12, 22. ) it is formed so as to satisfy the relation ₂₁ relative to 2d≤D. When the first depth D _{1 of} the first and second lateral grooves 12 and 22 is D ₁ = d with respect to the diameter d of the reinforcing bars 2, the first and second longitudinal grooves 32 and 42. The second depth D _{2 of} ) is formed to satisfy the relationship of 2d = D ₂ with respect to the diameter d of the reinforcing bars 2. Accordingly, the reinforcing bars 2 may be stably received and supported in the first and second longitudinal grooves 32 and 42 having the second depth D ₂ , and the first and second horizontal grooves 12 and 22 may be supported. Each of the first and second vertical grooves 32 and 42 may accommodate different heights of the reinforcing bars 2. In the present embodiment, the first depth D ₁ of the first and second transverse recesses 12 and 22 of the first and second transverse barns 10 and 20 accommodates and supports two reinforcing bars 2. And the second depth D ₂ of the first and second longitudinal grooves 32 and 42 of the first and second longitudinal barges 30 and 40 accommodates one reinforcing bar 2. It can be formed to support. In addition, although the first and second horizontal grooves 12 and 22 and the first and second vertical grooves 32 and 42 are shown to be formed in a triangle, this is illustrative and the first and second horizontal grooves. 12 and 22 and the first and second longitudinal grooves (32, 42) can be changed into a shape suitable for receiving and supporting the reinforcing bar (2), such as semi-circular, rhombus, "U" shape.

As shown in FIGS. 1, 4 to 6, the inner surfaces of the first and second transverse barns 10 and 20 have a plurality of transverse bars 50 capable of supporting the lower surfaces of the rebars 2. Is firmly connected by, the inner surface of the first and second longitudinal bar 30, 40 is firmly connected by a plurality of longitudinal connecting rods 60 that can support the bottom of the reinforcing bars (2) have. By supporting the lower surface of the reinforcing bars 2 on the lower surfaces of each of the horizontal connecting rods 50 and the vertical connecting rods 60, bending deformation of the reinforcing bars 2 is prevented.

1, 3, 5 to 7, the reinforcing bar on the upper surface of the horizontal connector 50a connecting the center of the inner surface of the first and second transverse bar 10, 20 of the horizontal connector 50 A pair of projections 52 are formed in plural along the longitudinal direction so as to have a groove 54 that can accommodate (2). Central portions of the rebars 2 arranged in the horizontal direction are accommodated in the grooves 54 of the horizontal connecting rod 50a to prevent left and right flow of the rebars 2.

The grooves 64 for accommodating the reinforcing bars 2 are provided on the upper surface of the vertical connecting rod 60a which connects the centers of the inner surfaces of the first and second longitudinal barns 30 and 40 among the vertical connecting rods 60. The pair of protrusions 62 are formed in plural along the longitudinal direction. The central portions of the rebars 2 arranged in the horizontal direction are accommodated in the grooves 64 of the vertical connecting rod 60a to prevent the left and right flow of the rebars 2.

Now, the action on the reinforcement working frame of the reinforcing steel reinforcement concrete according to the present invention having such a configuration will be described.

4 to 5, the worker accommodates and supports both ends of the reinforcing bars 2 in the first and second longitudinal grooves 32 and 42 of the first and second longitudinal barges 30 and 40. . At this time, the worker rebars (2) in the first and second longitudinal grooves (32, 42) of the first and second longitudinal bar 30, 40 so that the interval between the rebar (2) is maintained based on the reinforcement degree Arrange and accept).

Next, the worker may be provided with reinforcing bars (not shown) in the first and second transverse grooves 12 and 22 of the first and second transverse bars 10 and 20 so that the spacing between the rebars 2 is maintained based on the degree of reinforcement. 2) Accept and support both ends of them. Since the second depth D ₂ of the first and second vertical grooves 32 and 42 is deeper than the first depth D ₁ of the first and second horizontal grooves 12 and 22, the first and second longitudinal grooves 32 and 42 may be formed. Reinforcing bars 2 accommodated in the second transverse grooves 12 and 22 are placed to be supported on the reinforcing bars 2 accommodated in the first and second longitudinal grooves 32 and 42.

As shown in FIG. 4, the operator may use the first and second transverse recesses 12 and 22 and the first and second longitudinal recesses 30, respectively. When the arrangement of the reinforcing bars 2 in the first and second flutes 32 and 42 of the 40 is completed, the portion where the reinforcing bars 2 intersect is connected to the wire 4, the clip, and the clamp. Bind by the binding means such as to complete the reinforcement work.

Meanwhile, the worker performs the reinforcement work of the reinforcing bar 2, for example, pre-assembly of the bottom reinforcing bar reinforcement at a reinforcement place independent of the construction site of the reinforced concrete structure, and transports the finished bottom reinforcing bar semifinished product such as a crane. After transporting and fixing to the building site by means, a reinforced concrete structure or steel reinforced concrete structure can be constructed. In this way, by converting the floor reinforcement work to the pre-assembly method, it is possible to reinforce the work regardless of the working time and the situation of the building site, for example, concrete, it is possible to significantly shorten the construction period.

In addition, since the reinforcement work is made by the working framework of the present invention, it is possible to accurately maintain the spacing of the reinforcing bars (2), the work efficiency of the operator can be significantly increased, thereby reducing the construction cost. In addition, since it is possible to easily standardize the bottom reinforcing bar, it is possible to perform simple tasks such as cutting and arranging the reinforcing bars 2 by a low skilled worker, and a high skilled worker binds the rebars 2 arranged in the work frame. And by taking charge of professional work such as settling in the building site can effectively utilize the manpower, lower labor costs.

The embodiments described above are merely to describe preferred embodiments of the present invention, the scope of the present invention is not limited to the described embodiments, those skilled in the art within the spirit and claims of the present invention It will be understood that various changes, modifications, or substitutions may be made thereto, and such embodiments are to be understood as being within the scope of the present invention.

As described above, according to the reinforcement framework of the reinforcement for concrete reinforcement according to the present invention, it is possible to maintain the spacing between the rebars arranged in a grid shape accurately and simply. In addition, since the reinforcement work can be carried out by the pre-assembly method in the place of reinforcement that is independent from the construction site, it can be transported to the construction site for construction. It can be shortened. In addition, the work efficiency of the worker is greatly increased, thereby reducing the construction cost, and the standardization can be easily performed, thereby ensuring the quality.

Claims (6)

A plurality of first horizontal grooves are formed on the upper surface to accommodate and support the rebars in parallel in the horizontal direction, the first horizontal grooves are formed to have a constant interval along the longitudinal direction, the first horizontal groove First transverse roots and formed to have a first depth; The second horizontal grooves are spaced apart in parallel to the first horizontal bar, and a plurality of second horizontal grooves are formed on the upper surface to accommodate and support the reinforcing bars in the horizontal direction, the second horizontal grooves in the longitudinal direction The second horizontal groove is formed to have a predetermined interval along the second horizontal groove is formed to have the first depth; Both ends are connected to one end of the first horizontal bar and the second horizontal bar, and a plurality of first vertical grooves are formed on an upper surface thereof so as to receive and support the bars in parallel in the vertical direction. First longitudinal grooves formed at regular intervals along the longitudinal direction thereof, and the first longitudinal grooves being formed to have a second depth deeper than the first depth; Both ends are connected to the other ends of the first horizontal abdominal root and the second horizontal abdominal root so as to be parallel to the first longitudinal abdominal root, and a plurality of second bars may be accommodated and supported in parallel in the vertical direction on an upper surface thereof. Longitudinal grooves are formed, the second longitudinal grooves are formed to form a constant interval along the longitudinal direction, the second longitudinal grooves for the concrete reinforcement consisting of the second longitudinal bar is formed to have the second depth Reinforcement framework of rebar. The first depth D ₁ of the first horizontal grooves and the second horizontal grooves is formed to satisfy a relationship of d / 2 ≦ D ₁ <2d with respect to the diameter d of the rebars. The second depth D ₂ of the first flutes and the second flutes, the reinforcement of the concrete reinforcing reinforcing bar is formed to satisfy the relationship of 2d≤D ₂ with respect to the diameter (d) of the reinforcing bar frame. According to claim 1 or 2, wherein the first lateral grooves and the second when the first depth (D ₁₎ of the lateral grooves with respect to the diameter (d) of the reinforcement D ₁ = d, the first longitudinal The second working depth of the grooves and the second longitudinal grooves (D ₂ ) is the reinforcement framework of the reinforcing steel reinforcement for concrete is formed to satisfy the relationship of 2d = D ₂ with respect to the diameter (d) of the reinforcing bar. According to claim 1 or claim 2, wherein the first absenteeeundae, the second absenteeeundae, each of the first longitudinal doeneundae and the second longitudinal doeneundae each made of H-shaped steel, the first horizontal groove, Reinforcement framework of the reinforcing steel reinforcement for concrete is formed so that each of the second horizontal grooves, the first vertical grooves and the second vertical grooves are aligned in two rows. 4. The method of claim 3, wherein the inner surfaces of the first transverse barley and the second transverse barley are connected by a plurality of crossbars capable of supporting the lower surfaces of the rebars, and the first longitudinal barley and the second crossbars. The inner surface of the longitudinal reinforcement bar is a reinforcement framework of the reinforcing steel reinforcement for concrete is connected by a plurality of longitudinal connecting rods that can support the bottom of the reinforcing bars. According to claim 5, A pair of protrusions are formed to have a groove for accommodating the reinforcing bar on the upper surface of the horizontal connector connecting the center of the inner surface of the first horizontal bar and the second horizontal bar of the horizontal connecting bar And a pair of protrusions are formed on the upper surface of the vertical connecting rod connecting the center of the inner surface of the first longitudinal reinforcement and the second longitudinal reinforcement among the vertical connecting rod to have a groove for accommodating the reinforcing bars. Reinforcement framework of reinforcing bars.

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