KR20230100984A - Prefabrication reinforcement structure of reinforced concrete wall-type structure construction wall - Google Patents

Abstract

The present invention discloses a wall reinforcement pre-assembled reinforcement structure of a reinforced concrete wall structure building. The pre-assembled reinforcement structure of the wall reinforcement of the reinforced concrete wall structure building according to the present invention is a welded reinforcement mat and a U-mesh obtained by bending each welded reinforcement mat in a "U" shape and a hoop formed in a square box shape. (Hoop) It has a structural feature of reinforcing bars by using mesh as a standardized prefabricated reinforcing bar unit. According to this structural feature, by pre-assembly using standardized and set rebar units, it is possible to easily derive the effect of improving the workability in the field and reducing manpower, as well as improving the precision of reinforcement and efficiently reducing the assembly time. Therefore, it can contribute to the improvement of the quality of reinforced concrete by increasing the precision of the reinforcement, and at the same time, it can contribute to the improvement of safety by simplifying, handling and managing parts as well as reducing construction costs by efficiently shortening the assembly time.

Description

Prefabrication reinforcement structure of reinforced concrete wall-type structure construction wall}

The present invention relates to a wall reinforcement pre-assembled reinforcement structure of a reinforced concrete wall structure building, and more particularly, to a wall reinforcement pre-assembled reinforcement structure using a welded wire/bar reinforcement mat (WBM) as a pre-assembled rebar unit. It relates to, in particular, a welded reinforcing bar mat and a U-mesh formed by processing the welded reinforcing bar mat into a "U" shape by bending and a hoop-mesh formed of a cage in the form of a square box. It relates to a pre-assembly reinforcement structure for wall reinforcement of a reinforced concrete wall structure building that can effectively improve the ease of construction, precision, economy, and quality of reinforced concrete by using a pre-assembled rebar unit as a standardized pre-assembled rebar unit.

This study was carried out by the Ministry of Land, Infrastructure and Transport's smart construction technology development project (project number 20SMIP-B156007-01).

As is well known, reinforced concrete wall structure structures are mainly apartment houses such as apartments due to advantages such as the fact that the frame is made up of slabs and load-bearing walls, and the frame can be thinned, and the frame can be easily constructed using a system formwork such as gang form. It is widely used in construction.

At the wall construction site of a conventional reinforced concrete wall structure building, the construction of each structural member is performed in the order of pouring and curing the concrete after the reinforcement work. As the assembling process of arranging and connecting in a grid form at various positions such as vertically is performed sequentially by manual work, it takes a lot of time and effort in the arrangement work process. As a result, labor-intensive construction is performed in which a lot of manpower is put into the reinforcing bar processing, assembly, and bar arrangement process, which not only acts as a factor in increasing construction costs due to the increase in the work process, labor costs, and reinforcing bar loss rate, but also in the field of reinforcing processing, assembly and There is a problem in that the construction period increases as the work of placing the bars becomes complicated and the amount of work increases.

In addition, at the wall construction site of conventional reinforced concrete wall structure buildings, lack of awareness of the importance of reinforcing bars during rebar assembly work according to design drawings and specifications, lack of awareness of the importance of reinforcing bars due to the difference in skill level of skilled workers, and the use of foreign workers As construction errors frequently occur due to difficulties in communication, etc., there is a problem in that the precision of reinforcement is significantly reduced.

Therefore, despite the fact that reinforcing bar construction, which is the core of concrete construction in building construction, plays the most important role in terms of the safety of the structure, labor is still required in reinforcing bar construction at the wall construction site of conventional reinforced concrete wall structure buildings. Since it is difficult to secure the ease and precision of construction due to intensive bar arrangement work, there is a high risk of poor construction. Pre-assembly rebar arrangement construction technology is urgently required.

The present invention was derived under the technical background as described above, and the problems of the above-described background art are the contents that the applicant had to derive the present invention or learned in the process of deriving the present invention. It cannot be said that it was previously known to the general public.

Republic of Korea Patent Registration No. 10-2236828 Republic of Korea Patent Registration No. 10-1184511 Republic of Korea Patent Publication No. 10-2015-0144398 Republic of Korea Patent Publication No. 10-2004-0076245

The present invention was created in order to improve it in view of the disadvantages and problems of the wall reinforcement pre-assembled reinforcement structure of the conventional reinforced concrete wall structure building as described above, and the object of the present invention is made of a sheet-type mesh network Welded rebar mats and U-mesh formed by processing each welded rebar mat into a "U" shape by bending, and a hoop-mesh formed as a cage in the form of a square box are standardized. It is to provide a pre-assembled reinforcement structure for wall reinforcement of a reinforced concrete wall structure building that can effectively promote ease of construction, precision and economic efficiency by using it as a pre-assembled rebar unit.

In order to achieve the above object, the wall reinforcement pre-assembled reinforcement structure of the reinforced concrete wall structure building according to the present invention is a reinforcement structure pre-assembled with the reinforcement of the wall constructed in the reinforced concrete wall structure building, and the wall is plate-shaped. A wall, an L-shaped corner wall portion arranged so that the end of the plate-shaped wall is bent in a vertical state, a T-shaped wall portion where the plate-shaped wall meets each other in an orthogonal state, and a pillar provided as a connecting portion at the end of the plate-shaped wall It includes any one or more of the molded walls, and at least one U-mesh is reinforced as a closed rebar unit in the longitudinal direction of the plate-shaped wall, and the U-mesh is any one of the vertical bars 111 and the horizontal bars 112. At least one strand and at least two strands of the other are arranged in a lattice structure so that they are orthogonal to each other on the X-Y coordinates, and each intersection point is bound by electric resistance welding. It is characterized in that it is face-processed and bent into a “U” shape.

In the pre-assembly arrangement structure of wall reinforcement of a reinforced concrete wall structure building according to the present invention having the configuration as described above, a pair of U-mesh are arranged in a state facing each other in the longitudinal direction of the plate-shaped wall, and some of the free ends are arranged It may have a configuration in which it is assembled in a state connected by a binding means in an overlapping state and arranged as a closed type reinforcing bar unit.

According to one aspect of the present invention, in the longitudinal direction of the plate-shaped wall, at least one pair of the welded reinforcing bar mats are arranged side by side so that they are spaced apart at a predetermined interval, and the U-mesh is opposed to each other at both ends of the welded reinforcing bar mat. It may have a configuration in which both ends of the welded reinforcing bar mat and a portion of the free end of the U-mesh are assembled in a state in which they are connected by a binding means in an overlapping state, and reinforcement is implemented as a closed type reinforcing bar unit.

According to another aspect of the present invention, at least one pair of welded reinforcing bar mats are arranged side by side so as to be spaced apart at a predetermined interval in the longitudinal direction of the plate-shaped wall, and both ends of the welded reinforcing bar mats are connected so as to be bound by U-bars, respectively. It may have a configuration in which reinforcement is arranged as a closed rebar unit.

In addition, it is preferable that the bent parts of the U-mesh are coupled and connected to the "L-shaped" corner wall portion in an overlapping state.

In addition, in the "T-shaped" wall portion, a pair of U-mesh is arranged in a state facing each other in the longitudinal direction of a relatively short plate-shaped wall among the plate-shaped walls, and a portion of each free end overlaps each other. At the same time, at the same time, one or more pairs of welded reinforcing bar mats are arranged side by side so as to be spaced apart at a certain interval in the longitudinal direction of the long axis plate-shaped wall formed with a relatively long length among the plate-shaped walls, respectively. It is preferable to have a configuration in which a part of the free end of the U-mesh is assembled in an overlapped state and connected by a binding means, and the reinforcement is arranged as a closed type reinforcing bar unit.

At the connection part of the columnar wall, the bent part of the U-mesh and the welded reinforcing bar mat are surface-processed by bending, and one end of the hoop mesh formed as a cage in the form of a square box is assembled so that one end is bound to each other in an overlapping state. desirable.

According to the pre-assembled reinforcement structure of the wall reinforcement of the reinforced concrete wall structure building according to the present invention, a welded reinforcement mat made of a sheet-shaped mesh net and a U formed by surface processing the welded reinforcement mat into a "U" shape by bending each -Hoop formed by surface processing with mesh and square box-shaped cage-By pre-assembly using the mesh as a standardized and set reinforcing bar unit, binding each strand of vertical and horizontal bars Work can be eliminated to contribute to improving the quality of reinforced concrete by increasing the precision of reinforcement, and it can contribute to improving safety by simplifying, handling and managing parts as well as reducing construction costs by efficiently shortening the assembly time. there is.

1 is a schematic plan configuration diagram showing a unit unit plane of a building to which a wall reinforcement pre-assembly arrangement structure of a reinforced concrete wall structure building according to the present invention is applied by way of example.
Figure 2 schematically shows a standardized reinforcing bar unit to be used in the wall reinforcement pre-assembled reinforcement structure of a reinforced concrete wall structure building according to the present invention, (a) is a plan view of a welded reinforcement mat made of a sheet-type mesh net , (b) is a perspective view of a U-mesh formed by processing a welded reinforcing bar mat into a "U" shape by bending.
Figure 3 is an embodiment of the wall reinforcement pre-assembled reinforcement structure of the reinforced concrete wall structure building according to the present invention, the reinforcement structure pre-assembled using the U-mesh shown in Fig. 2 as a reinforcement unit for the construction of a plate-shaped wall Plan view schematically shown.
Figure 4 is another embodiment of the wall reinforcement pre-assembled reinforcement structure of the reinforced concrete wall structure building according to the present invention, and the welded reinforcement mat and U-mesh shown in Fig. 2 are combined into a reinforcement unit for the construction of the L-shaped corner wall portion A perspective view and a plan view schematically showing the pre-assembled reinforcement structure.
Figure 5 is another embodiment of the wall reinforcement pre-assembled reinforcement structure of the reinforced concrete wall structure building according to the present invention, and the welded reinforcement mat and U-mesh shown in Fig. 2 are combined into a reinforcement unit for the construction of the T-shaped corner wall portion. A perspective view and a plan view schematically showing the reinforcement structure to be pre-assembled.
6 is another reinforcing bar unit used in the pre-assembled reinforcement structure of a reinforced concrete wall structure building according to the present invention, a hoop formed by surface processing of a welded reinforcing bar mat into a cage in the form of a square box by bending A perspective view and a plan view schematically showing the mesh (Hoop mesh).
Figure 7 is a combination of the U-mesh shown in Figure 2 and the hoop mesh shown in Figure 6 as a reinforcing unit for the construction of the columnar wall portion of the wall reinforcement line assembly reinforcement structure of the reinforced concrete wall structure building according to the present invention. Plan view schematically showing the structure to be assembled.

Hereinafter, with reference to the accompanying drawings, the wall reinforcement pre-assembled reinforcement structure of the reinforced concrete wall structure building according to the present invention will be described in detail. The following description and the accompanying drawings are only preferred embodiments of the present invention, and do not limit the present invention described in the claims.

1 is a plan configuration diagram exemplarily showing a unit unit plane of a building to which a wall reinforcement pre-assembly arrangement structure of a reinforced concrete wall structure building according to the present invention is applied.

Referring to Figure 1, the wall to which the wall reinforcement pre-assembled reinforcement structure of the reinforced concrete wall structure building according to the present invention is applied is a typical wall constructed in a conventional reinforced concrete wall structure building, and is a plate wall (10 ) (20), the "L-shaped" corner wall portion (L-Coner) (L) arranged so that the ends of the plate-shaped wall (10) (20) are bent in a vertical state, and the plate-shaped wall (10) ( 20) is a "T-Junction" (T) that meets in a state of orthogonal to each other and a columnar wall (LING Wall) provided as a connection portion (C) at the end of the plate-shaped wall (10) (20) Any one or more of (30) is included.

In the present invention, the plate-like walls 10 and 20 are constructed so as to be arranged in the width direction (vertical direction of the drawing) in the unit plane of the building illustrated in FIG. 1, so that the relative length is shorter. (10) and the long-axis plate-shaped wall 20, which is constructed to be arranged in the longitudinal direction (transverse direction of the drawing) in the unit unit plane of the building illustrated in FIG. 1 and has a longer relative length, each wall The pre-assembly reinforcement structure may have different configurations as in the embodiments described below.

According to the present invention, the connection portion (C) of the plate-shaped walls (10, 20), the "L-shaped" corner wall portion (L), the "T-shaped" wall portion (T) and the columnar wall 30 will be described later. Welded Wire/Bar Reinforcement Mat (WBM) 110 shown in (a) of FIG. 2, U-mesh 120 shown in (b) of FIG. 2, and FIG. It has a structural feature of arranging reinforcement by using one or more selected from the shown hoop mesh (130) as a standardized assembled reinforcing bar unit.

Figure 2 is a standardized reinforcement unit to be used in the pre-assembled reinforcement structure of the wall reinforcement of the reinforced concrete wall structure building according to the present invention, (a) is a plan view of a welded reinforcement mat made of a sheet-shaped mesh net, (b) is This is a perspective view of a U-mesh formed by processing a welded rebar mat into a "U" shape by bending.

Referring to (a) of Figure 2, the welded reinforcing bar mat 110 is a plurality of vertical bars 111 and horizontal bars 112 on the X-Y coordinates, such as wire mesh, of high-strength cold-drawn or hot-rolled structural member reinforcing bars. It is arranged in a lattice structure so that each intersection point is bound through an electric resistance welding process under the condition that each intersection meets the KS reinforcing bar standard, and is used as a pre-assembled reinforcing bar unit consisting of a unit mat or unit sheet in the form of a mesh.

Referring to (b) of FIG. 2, the U-mesh 120 has free ends at both ends of the bent portion 121 formed by surface processing of the central portion bending line 113 of the welded reinforcing bar mat 110 by bending. It is used as a pre-assembled reinforcing bar unit formed in a "U" shape by extending to face side by side in a state spaced apart at a certain interval.

Figure 3 is a view schematically showing the embodiments of the present invention using the welded reinforcing bar mat 110 and the U-mesh 120 shown in Figure 2 as a pre-assembled reinforcing bar unit, Figure 3 (a) and (b) ) is a plan view showing the state before and after assembly of the reinforcement structure in which the U-mesh 120 is pre-assembled into a reinforcing bar unit, respectively, and FIG. 3 (c) and (d) are respectively the welded reinforcing bar mat 110 It is a plan view showing the state before and after assembly of the reinforcement structure in which the and U-mesh 120 are combined into a reinforcing bar unit and pre-assembled.

Referring to (a) and (b) of Figure 3, the wall reinforcement pre-assembled reinforcement structure of the reinforced concrete wall structure building according to the present invention is the width direction (longitudinal direction of the drawing) in the unit unit plane of the building illustrated in FIG. For the construction of the short-axis plate-shaped wall 10, which is constructed so as to be arranged in a shorter relative length, a pair of U-mesh 120 are arranged in the longitudinal direction to face each other so that a portion of each free end is formed as a pair. In an overlapped state, for example, it is assembled in a state connected by a conventional binding means such as a hoop, a U-bar, or an anchor-bar, etc., which is not shown, to form a closed rebar unit. It may have a structure that is arranged.

Referring to (c) and (d) of Figure 3, the wall reinforcement pre-assembled reinforcement structure of the reinforced concrete wall structure building according to the present invention is in the horizontal direction (transverse direction of the drawing) in the unit unit plane of the building illustrated in FIG. For the construction of the long-axis plate-shaped wall 20, which is constructed so that the relative length is longer, the welded reinforcing bar mats 110 are arranged side by side so that one pair is spaced apart at a predetermined interval, and the welded reinforcing bars At both ends of the mat 110, the U-mesh 120 is arranged in a state facing each other, so that both ends of the welded reinforcing bar mat 110 and a part of the free end of the U-mesh 120 overlap each other. For example, it may have a configuration in which it is assembled in a connected state by a conventional binding means such as a hoop, a U-bar, or an anchor-bar, and then reinforced as a closed type reinforcing bar unit.

Here, according to another aspect of the present invention, although not illustrated by the drawings as a modified embodiment of the present invention, both ends of the welded reinforcing bar mat 110 are each bound by U-bars It may be assembled to be connected and have a configuration in which reinforcement is arranged as a closed rebar unit.

On the other hand, according to another aspect of the present invention, although not illustrated by drawings as a modified embodiment of the present invention, at least one U-mesh 120 in the longitudinal direction of the plate-like wall 10, 20 may have a configuration in which reinforcement is arranged as a closed type reinforcing bar unit.

In addition, the U-mesh 120 has a configuration in which one or more strands of any one of the vertical muscles 111 and the horizontal muscles 112 and two or more strands of the other are arranged in a lattice structure such that they are orthogonal to each other on the X-Y coordinates. may have

According to the pre-assembled reinforcement structure of the wall reinforcement of the reinforced concrete wall structure building according to the present invention having the above configuration, the welded reinforcement mat 110 and the U-mesh 120 are standardized and set assembled reinforcement units By using it, it is possible to eliminate the binding work of each strand of reinforcing bars, so it can contribute to improving the quality of reinforced concrete by increasing the precision of reinforcing bars, and it is possible to reduce construction costs by efficiently shortening the assembly time, as well as to simplify and handle parts. And it is easy to manage, so it can contribute to safety improvement.

Figure 4 is another embodiment of the wall reinforcement pre-assembled reinforcement structure of the reinforced concrete wall structure building according to the present invention, the welded reinforcement for the construction of the L-shaped corner wall portion (L) in the unit unit plane of the building illustrated in Figure 1 It is a perspective view and a plan view schematically showing a reinforcement arrangement structure in which the mat 110 and the U-mesh 120 are combined into a standardized reinforcing bar unit and pre-assembled.

Referring to Figure 4, the wall reinforcement pre-assembled reinforcement structure of the reinforced concrete wall structure building according to the present invention, in the "L-shaped" corner wall portion (L) in which the end of the long axis plate-shaped wall 20 is bent in a vertical state In a state where the bent parts 121 of the U-mesh 120 overlap each other and are arranged to overlap, for example, a conventional hoop, a U-bar, or an anchor-bar, etc. It has a configuration that is assembled so that it is bound and connected by a phosphorus binding means. According to this configuration, the U-mesh 120 is lifted to the L-shaped corner wall portion L with a standardized and set pre-assembled reinforcing bar unit, and a start bar installed for fixing reinforcement so as to protrude upward from the slab (start bar) bar) (or the upper part of the reinforcement of the lower layer) (not shown) by vertically binding the reinforcement, it is possible to exclude the binding work of each strand of the vertical reinforcement 111 and the horizontal reinforcement 112. In addition to improving precision and efficiently reducing assembly and placement time, it is possible to easily derive the effect of improving workability and reducing manpower at the site. As a result, the present invention can contribute to improving the quality of reinforced concrete by increasing the precision of reinforcement, and can contribute to improving safety by simplifying, handling, and managing parts as well as reducing construction costs by efficiently shortening the assembly time.

Figure 5 is another embodiment of the wall reinforcement pre-assembled reinforcement structure of the reinforced concrete wall structure building according to the present invention, the welding for the construction of the T-shaped corner wall portion (T) in the unit unit plane of the building illustrated in Figure 1 It is a perspective view and a plan view schematically showing a reinforcement arrangement structure in which the reinforcement mat 110 and the U-mesh 120 are combined into a reinforcement unit and pre-assembled.

Referring to Figure 5, the wall reinforcement pre-assembled reinforcement structure of the reinforced concrete wall structure building according to the present invention is a T-shaped wall in which the plate-shaped wall 10 of the minor axis and the plate-shaped wall 20 of the long axis meet in a state of orthogonal to each other. For the construction of part T, a pair of U-mesh 120 is arranged in a pair to face each other in the longitudinal direction of the plate-shaped wall 10 of the short axis, and a part of each free end overlaps. In, for example, it is assembled in a connected state by a conventional binding means such as a hoop, a U-bar, or an anchor-bar, and is reinforced as a closed rebar unit.

Here, as another aspect of the present invention, both ends of the welded reinforcing bar mat 110 may be assembled so as to be connected in a bound state by U-bars, and then reinforced with a closed type reinforcing bar unit.

In addition, in a state in which the welded reinforcing bar mats 110 are arranged side by side so that at least one pair of at least one set is spaced apart at a predetermined interval in the longitudinal direction of the long axis plate-shaped wall 20, the U-mesh 120 is respectively formed at both ends. It is arranged and assembled in a state in which a part of the free end of the U-mesh 120 is overlapped on both ends of the welded reinforcing bar mat 110 and connected by a conventional binding means to reinforce as a closed reinforcing bar unit. Has a configuration.

According to the pre-assembled reinforcement structure of the wall reinforcement of the reinforced concrete wall structure building according to the present invention having the above configuration, the welded reinforcement mat 110 standardized and set in the T-shaped wall portion T and the U-mesh (120) is lifted with a pre-assembled reinforcing bar unit and bound vertically to the start bar (or upper end of the reinforcement in the lower layer) (not shown) installed for fixing the reinforcement so that it protrudes upward from the slab, and the reinforcement is vertical. 111) and the horizontal bar (112), it is possible to eliminate the binding work of each strand of reinforcing bars, so it is possible to improve the precision of reinforcement and efficiently reduce the assembly time, as well as improve the workability of the site and reduce manpower. can pay Accordingly, the present invention can contribute to improving the quality of reinforced concrete by increasing the precision of reinforcement, and can contribute to improving safety by simplifying, handling, and managing parts as well as reducing construction costs by efficiently shortening the assembly time.

Figure 6 is a perspective view and a plan view schematically showing a hoop mesh (Hoop mesh) 130 as another reinforcing unit used in the wall reinforcement pre-assembled reinforcement structure of the reinforced concrete wall structure building according to the present invention.

Referring to FIG. 6, the hoop mesh 130 is formed as a cage in the form of a square box by surface processing of the welded reinforcing bar mat 110 by bending, and is used for reinforcing reinforcement of a columnar wall portion 30 to be described later. It is used as a pre-assembled rebar unit.

According to one aspect of the present invention, the end of the hoop mesh 130 is illustrated in (b) of FIG. As shown, it may have a bent-shaped structure X1 orthogonal to a vertical state.

As another embodiment, the end of the hoop mesh 130 may have a bent structure X2 bent at an angle of 135°, as shown in (c) of FIG.

As another embodiment, the end of the hoop mesh 130 may have a bent structure X3 bent at an angle of 90 ° and 135 °, respectively, as shown in (d) of FIG.

7 is another embodiment of the present invention, the U-mesh 120 and the hoop mesh (for the construction of the connection portion C of the columnar wall portion 30 in the unit plane of the building illustrated in FIG. 1) 130) is a plan view schematically showing a rebar arrangement structure pre-assembled by combining rebar units.

Referring to Figure 7, the wall reinforcement pre-assembled reinforcement structure of the reinforced concrete wall structure building according to the present invention is connected to the connection portion (C) of the columnar wall 30 extending to the end of the plate-shaped wall (10) (20). In a state where the bent portion 121 of the U-mesh 120 and one end of the hoop mesh 130 are overlapped with each other to a certain length, for example, a conventional rebar, such as a hoop or a U-bar. It has a configuration that is assembled in a connected state by the binding means. According to this configuration, the U-mesh 120 and the hoop mesh 130 standardized and set at the connection portion C of the columnar wall 30 extending from the ends of the plate-like walls 10 and 20 It is lifted with a pre-assembled reinforcing bar unit and bound vertically to the start bar (or the upper end of the reinforcement in the lower layer) (not shown) installed for fixing the reinforcement so that it protrudes upward from the slab. Since it is possible to exclude the binding work of each strand of reinforcing bars 112, it is possible to easily induce the effect of improving the workability of the site and reducing manpower, as well as improving the precision of reinforcement and efficiently reducing the assembly time. As a result, the present invention can contribute to improving the quality of reinforced concrete by increasing the precision of reinforcement, and can contribute to improving safety by simplifying, handling, and managing parts as well as reducing construction costs by efficiently shortening the assembly time.

The present invention as described above is not limited by the specific preferred embodiments described above, and anyone with ordinary knowledge in the technical field to which the present invention belongs without departing from the gist of the present invention claimed in the claims It is to be understood that various modifications are possible, and such modifications are within the scope of the written claims.

10: single-axis plate-shaped wall
20: long axis plate type wall
30: columnar wall
110: Welded rebar mat (WBM)
111: vertical muscle
112: horizontal muscle
120: U-mesh
121: bending part
130: Hoop Mesh
L: "L-shaped" corner wall part (L-Coner)
T : "T-shaped" wall part (T-Junction)
C: columnar wall connection
X1, X2, X3: Hoop mesh end bending shape structure

Claims (6)

Reinforced concrete wall structure As a reinforcement structure pre-assembled with the reinforcement of the wall constructed in the building,
The wall includes plate-shaped walls 10 and 20, an L-shaped corner wall portion L arranged so that the ends of the plate-shaped walls 10 and 20 are bent in a vertical state, and the plate-shaped wall 10 ( 20) includes at least one of a T-shaped wall portion (T) meeting in a state of orthogonal to each other and a columnar wall (30) provided as a connection portion (C) at the end of the plate-shaped wall (10) (20),
At least one U-mesh 120 is reinforced as a closed rebar unit in the longitudinal direction of the plate-shaped wall 10, 20,
The U-mesh 120 is arranged in a lattice structure so that at least one strand of any one of the vertical roots 111 and the horizontal roots 112 and at least two strands of the other are orthogonal to each other on the XY coordinates, and each intersection point is electrical Wall reinforcement pre-assembly of a reinforced concrete wall structure building, characterized in that the welded reinforcement mat 110, which is bound by resistance welding and made of a mesh-shaped sheet, is surface-processed by bending and bent into a "U" shape muscle structure. According to claim 1,
In the longitudinal direction of the plate-shaped walls 10 and 20, at least one pair of welded reinforcing bar mats 110 are arranged side by side so that at least one pair is spaced apart at a predetermined interval, and the U-mesh ( 120) are arranged facing each other, and both ends of the welded reinforcing bar mat 110 and a part of the free end of the U-mesh 120 overlap each other, and are assembled in a state connected by a binding means to form a closed type reinforcing bar unit. Wall reinforcement line assembly reinforcement structure of a reinforced concrete wall structure building, characterized in that the reinforcement is arranged. According to claim 1,
In the longitudinal direction of the plate-shaped wall 10, 20, at least one pair of welded reinforcing bar mats 110 are arranged side by side so as to be spaced apart at a predetermined interval, and both ends of the welded reinforcing bar mats 110 are U-bars, respectively. ) A wall reinforcement pre-assembly reinforcement structure of a reinforced concrete wall structure building, characterized in that the reinforcement is assembled to be connected in a bound state by the closed reinforcement unit. According to claim 1,
The "L-shaped" corner wall portion (L) is assembled so that the bent portions 121 of the U-mesh 120 are bound and connected in an overlapping state with each other. Assembly arrangement structure. According to claim 1,
In the “T-shaped” wall portion T, a pair of U-mesh 120 are opposed to each other in the longitudinal direction of the short-axis plate-shaped wall 10 formed with a relatively short length among the plate-shaped walls 10 and 20. In the longitudinal direction of the long-axis plate-shaped wall 20, which is formed in a relatively long form among the plate-shaped walls 10 and 20, while being assembled so that parts of each free end are bound and connected in an overlapping state. In this way, one or more pairs of welded reinforcing bar mats 110 are arranged side by side so that one or more pairs are spaced apart at a predetermined interval, and a portion of the free end of the U-mesh 120 is overlapped at both ends, respectively, and is assembled in a state connected by a binding means. A wall reinforcement pre-assembly reinforcement structure of a reinforced concrete wall structure building, characterized in that the reinforcement is arranged with a closed rebar unit. According to claim 1,
At the connecting portion (C) of the columnar wall 30, the bent portion 121 of the U-mesh 120 and the welded reinforcing bar mat 110 are face-processed by bending to form a cage in the form of a square box. A wall reinforcement pre-assembly reinforcement structure of a reinforced concrete wall structure building, characterized in that one end of (130) is assembled to be bound and connected in an overlapping state.

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