JP3208666U - Reinforcing bar binding structure used for walls - Google Patents

Abstract

A reinforcing bar binding structure used for a wall surface is provided. SOLUTION: It includes at least one band reinforcement 20 that is connected so as to overlap at the front end and the base end to form a main circuit 21, and the at least one band reinforcement is a plurality of main bars for forming a wall surface. The plurality of main muscle groups are for binding a group, and each cross section has only two main muscles 10, and another cross section substantially perpendicular to the one cross section has a plurality of main muscles 2 It has at least a large number of main bars only in a row, and the main circuit of the straps surrounds the main lines of only the two rows. Here, the streaks forming the main circuit further form at least one child circuit 22, and the at least one child circuit is located inside the main circuit, and both sides overlap the main circuit. ing. The child circuit surrounds four adjacent main bars that form a minimum quadrangle among only two lines of main bars. [Selection] Figure 2

Description

  The present invention relates to a reinforcing bar binding structure, and more particularly to a reinforcing bar binding structure used for a wall surface.

  With the current social progress, people are placing more emphasis on quality of living on a daily basis. Among them, building safety (for example, earthquake resistance) is one of the most important indicators in the living environment. The earthquake resistance of a general building is related to the strength of the structure, and the earthquake resistance of a building is mainly determined by the reinforced concrete wall plate of the building and the reinforcement structure of beams and columns.

  However, because the reinforcing bars such as beams and columns are covered with surrounding concrete, it is difficult to verify the seismic strength of the entire structure, and the general public is also aware of the reinforcing bar structure and construction process at the construction stage. I can't know. In addition, because there are variations in the techniques of the current contractor, high quality requirements cannot be achieved efficiently in buildings using traditional construction methods. If the design that strengthens the structure is incorporated in the entire structural design and processing stage of the rebar in advance, the building quality can be matched from the design stage to the on-site construction stage. The construction quality can be improved efficiently, and both the earthquake resistance and construction efficiency of the entire structure can be achieved.

  Therefore, it is desirable that the present invention solves the drawbacks of the prior art and provides a reinforcing bar binding structure used for a new wall surface.

  Therefore, an object of the present invention is to solve the above-mentioned problems of the prior art, and the present invention provides a reinforcing bar binding structure used for a wall surface, with at least one band reinforcing bar (lateral reinforcing bar) as a tip. By connecting the base ends so as to overlap with each other, a structure that is integrally formed is formed, and a main reinforcing bar group composed of a large number of main reinforcing bars (longitudinal reinforcing bars) is bound to increase the strength of the entire structure. In addition, since at least one child circuit is formed by at least one band reinforcement so as to be wound around the inner main reinforcement, the inner main reinforcement is further surrounded with a relatively good strength. In addition, since the position in the corresponding main circuit is fixed, there is no need to separately determine the position where the child circuit is to be bound when binding each band at the intersecting position with the main muscle group. Therefore, the method of the present invention can not only improve the earthquake resistance and safety of the building, but also balance the efficiency and quality of the entire construction work.

In order to achieve the above object, a reinforcing bar binding structure used for a wall surface according to the present invention includes at least one band reinforcing member that is connected so that a distal end and a proximal end are overlapped to form a main circuit, and the at least one The strap of the book is for binding a main muscle group composed of a number of main muscles for forming a wall surface, and the main muscle group has only two main muscles in one cross section and the one cross section. Another cross section that is substantially orthogonal has at least two rows of major bars having multiple major bars, and the main circuit of the straps surrounds only the two rows of major bars.
Here, the band forming the main circuit further forms at least one child circuit, the at least one child circuit is located inside the main circuit, and both sides overlap the main circuit. ing. The child circuit surrounds four adjacent main bars that form a minimum quadrangle among only two lines of main bars.

  The features and advantages of the present invention can be more fully understood from the following description and the accompanying drawings.

It is a figure which shows the stirrup of this invention. It is a figure which shows the main circuit containing one child circuit of the band of this invention. It is a figure which shows the main circuit containing two subcircuits of the band of this invention. It is a figure which shows the main circuit containing the 3 subcircuit of the band of this invention. FIG. 2 is a combination diagram showing the band and main bars of FIG. 1C. It is a figure which shows the main circuit which becomes a substantially L shape including one subcircuit of the band of this invention. It is a figure which shows the main circuit which becomes a substantially L shape including the two subcircuits of the band of this invention. FIG. 3B is a combination diagram showing the band and main bars of FIG. 3B. It is a figure which shows the main circuit which becomes a substantially T shape including one subcircuit of the band of this invention. It is a figure which shows the main circuit which becomes a substantially T shape including two subcircuits of the band of this invention. FIG. 5B is a combination diagram showing the band and main bars of FIG. 5B. It is a figure which shows the main circuit used as the substantially gate shape of the band of this invention. FIG. 8 is a combination diagram illustrating the band and main bars of FIG. 7. It is a combination figure which shows the band, the 1st principal muscle, and the 2nd principal muscle of this invention. It is a figure which shows the other Example of the stirrup of this invention. FIG. 11 is a combination diagram illustrating the band and main bars of FIG. 10.

  Hereinafter, the structure and effects and advantages of the present invention will be described in detail with reference to the drawings and preferred embodiments of the present invention.

  As shown in FIG. 1A to FIG. 9, the reinforcing bar binding structure used for the wall surface according to the present invention includes at least one strap 20 that forms a main circuit 21 by connecting the distal end and the proximal end so as to overlap each other. . At least one band 20 is for binding a main muscle group composed of a large number of main muscles 10, and the main muscle group is used to form a wall surface. The main muscle group has at least a large number of main muscles 10 in only two rows. The large number of main bars 10 of only two rows has one cross section having only two main bars 10, and another cross section substantially orthogonal to the one cross section has a large number of main bars 10. The main circuit 21 of the band 20 surrounds a large number of main bars 10 in only two rows.

  As shown in FIG. 1A, the main circuit 21 formed by the band 20 is substantially rectangular when viewed from the axial direction of the main bar 10.

  Since the connecting method of the front end and the base end of the band 20 can form an integrally formed structure, the strength of the entire structure can be reinforced when a large number of main bars 10 are wound and bound. Furthermore, since the band 20 is connected by a method in which the distal end and the proximal end are connected so as to overlap each other, the binding strength can be further increased. It is possible to avoid the strength of the entire structure from being lowered by being wound around the main bar 10. Therefore, according to the method of the present invention, the earthquake resistance of the entire structure can be improved, and the safety of the building can be improved.

  As shown in FIG. 1B, in this example, the band 20 further forms at least one child circuit 22 in addition to the main circuit 21, and the at least one child circuit 22 is located inside the main circuit 21, and Both sides overlap the main circuit 21.

  As shown in FIG. 2, each child circuit 22 surrounds four adjacent main bars 10 that form a minimum quadrangle among a large number of main bars 10 in only two rows. Since all the child circuits 22 are all formed by the same band 20, the relatively strong strength can further surround the main reinforcement 10 inside thereof, increasing the strength of the entire structure and improving the earthquake resistance and safety of the building. To do. Since each child circuit 22 has a fixed position in the corresponding main circuit 21, the crossing position of each band 20 and a large number of main bars 10 is also fixed, so each band 20 is connected to a large number of main bars 10. When bundling at a crossing position, it is not necessary to decide the position to be tied separately, and the bundling work can be completed more quickly, so the method of the present invention achieves both efficiency and quality of the entire construction work. be able to.

  Preferably, as shown in FIGS. 1C and 1D, there are at least two child circuits 22, and the at least two child circuits 22 are four adjacent ones forming a minimum quadrangle out of a large number of main lines of only two rows. The main muscle 10 is surrounded. Furthermore, at least two child circuits 22 are located inside the main circuit 21, and both sides overlap the main circuit 21. Further, the at least two child circuits 22 do not overlap each other when viewed from the axial direction of the main muscle 10.

  Preferably, each child circuit 22 has a linear arrangement.

  As shown in FIG. 1B, the main circuit 21 formed by the band 20 is substantially rectangular when viewed from the axial direction of the main bar 10. Here, the main circuit 21 includes one child circuit 22.

  As shown in FIG. 1C, the main circuit 21 formed by the band 20 is substantially rectangular when viewed from the axial direction of the main bar 10. Here, the main circuit 21 includes two child circuits 22.

  As shown in FIG. 1D, the main circuit 21 formed by the band 20 is substantially rectangular when viewed from the axial direction of the main bar 10. Here, the main circuit 21 includes three child circuits 22.

  As shown in FIG. 4, in this example, the main muscle group may further include a number of main muscles 10 of only two columns in another row. A large number of main bars 10 in only two columns in the other row are connected to a large number of main bars 10 in only two columns at the ends, and the main muscle group forms a substantially L-shaped wall surface. The band 20 is wound around a main bar group for forming an L-shaped wall surface to form a main circuit 21.

  As shown in FIG. 3A, the main circuit 21 formed by the band 20 is substantially L-shaped. Here, the main circuit 21 includes one child circuit 22.

  As shown in FIG. 3B, the main circuit 21 formed by the band 20 is substantially L-shaped. Here, the main circuit 21 includes two child circuits 22.

  As shown in FIG. 8, in this example, the main muscle group may further include a number of main muscles 10 only in two rows and two columns. The multiple main bars 10 of only two columns in the other two rows are substantially parallel to each other, and the end portions of the main bars 10 in only the two columns of the other two rows are both ends of the row of the main bars 10 of only the two columns. The main muscle group forms a substantially gate-shaped wall, and at least one band 20 is wound around the main muscle group to form the gate-shaped wall surface to form the main circuit 21. .

  As shown in FIG. 7, the main circuit 21 formed by the band 20 has a substantially gate shape. Here, the main circuit 21 includes two child circuits 22.

  As shown in FIG. 6, in this example, the main muscle group may further include a number of main muscles 10 in only two columns in another row. A large number of main bars 10 in only two columns in the other row are connected to the main bar 10 in the form of only two columns in the middle, and the main bars form a substantially T-shaped wall surface, and at least one band bar 20 is wound around a main muscle group for forming a T-shaped wall surface to form a main circuit 21.

  As shown in FIG. 5A, the main circuit 21 formed by the band 20 is substantially T-shaped. Here, the main circuit 21 includes one child circuit 22.

  As shown in FIG. 5B, the main circuit 21 formed by the band 20 is substantially T-shaped. Here, the main circuit 21 includes two child circuits 22.

  As shown in FIG. 9, in this invention, the 2nd main muscle 30 is further united on the side of each main muscle 10, and the length of the 2nd main muscle 30 is larger than the corresponding main muscle 10, and the wall surface which a main muscle group forms The height of the entire structure can be extended.

  10 and 11 show another embodiment of the present invention, in which the same elements as those of the above-described embodiment are indicated by the same symbols. Each band 20 forms an integral spiral structure so as to be connected to each other. The tip and the base end of one band 20 have a step, the tip of the band 20 is connected to the base of the previous strap 20, and the base is connected to the tip of the next strap 20. It is supposed to be. As described above, the plurality of band reinforcing bars 20 form a spiral structure by connecting the distal end and the proximal end to each other.

  Here, at least one band muscle 20 is used to bind a main muscle group composed of a large number of main muscles 10, and the main muscle group is used to form a wall surface, and one cross section has two main muscles 10. And the other cross section substantially orthogonal to the one cross section has at least a plurality of main bars in only two rows having a plurality of main bars 10.

  When the direction of each band 20 is viewed from the axial direction of the main bar 10, the leading end and the base end of each band 20 are connected to each other to form a main circuit 21, and the main circuit 21 includes only two rows. Surrounding the main muscle 10.

  The band 20 forming the main circuit 21 further forms at least one child circuit 22. The at least one child circuit 22 is located inside the main circuit 21 and overlaps the main circuit 21 on both sides. The child circuit 22 surrounds four adjacent main bars 10 that form a minimum square among a large number of main bars 10 in only two rows.

  As shown in FIG. 10, the main circuit 21 formed by the band 20 is substantially rectangular when viewed from the axial direction of the main bar 10. Preferably, the number of the child circuits 22 is at least two, and each child circuit 22 surrounds four adjacent main bars 10 forming the smallest square among the main bars 10 of only two rows. At least two child circuits 22 are located inside the main circuit 21, and both sides overlap the main circuit 21. Further, at least two child circuits 22 do not overlap each other when viewed from the axial direction of the main muscle 10.

  Preferably, each child circuit 22 has a linear arrangement.

  The advantage of the present invention is that at least one strap is connected so as to overlap at the distal end and the proximal end to form an integrally formed structure, and a large number of main muscles are bound to increase the strength of the entire structure. In addition, since at least one child circuit is formed by at least one band reinforcement so as to wrap the inner main reinforcement, the inner main reinforcement can be further surrounded with a relatively strong strength. In addition, since the position in the corresponding main circuit is fixed, it is not necessary to separately determine the position where the child circuit is to be bound when binding each tie bar at a crossing position with many main bars. Since the work can be completed more quickly, the method of the present invention can not only improve the earthquake resistance and safety of the building, but also balance the efficiency and quality of the entire construction work.

  As described above, the humanized caring design of the present invention is very suitable for actual requirements. It specifically improves the existing defects, has a significantly greater inventive step than the prior art, certainly increases its effectiveness and is not easy to achieve. The present invention is not disclosed and disclosed in domestic and foreign literature and markets, and satisfies the requirements of the Utility Model Law.

  The foregoing detailed description is a specific description of the preferred embodiments of the present invention. However, the embodiments do not limit the scope of claims of the present invention. Any changes should be included in the claims of the present invention.

10 main muscles 20 strap muscles 21 main circuit 22 child circuit 30 second main muscle

Claims (13)

Including at least one strap that is connected so that the distal end and the proximal end overlap each other to form a main circuit;
The at least one band is for binding a main muscle group composed of a plurality of main muscles for forming a wall surface;
The main muscle group has at least a plurality of main muscles in only two rows in which one cross section has only two main bars and another cross section substantially orthogonal to the one cross section has a plurality of main bars,
The reinforcing bar binding structure used for the wall surface, wherein the main circuit of the band revolves around a large number of main bars in only the two rows. The streaks forming the main circuit further form at least one child circuit;
The at least one child circuit is located inside the main circuit, and both sides overlap the main circuit;
2. The reinforcing bar binding structure used for a wall surface according to claim 1, wherein the child circuit surrounds four adjacent main bars forming a minimum quadrangle among a plurality of main bars of only the two rows.   There are at least two child circuits, and the at least two child circuits surround four adjacent main bars forming a minimum quadrangle among the plurality of main bars of only the two rows, and the at least two child circuits are: 3. The main circuit according to claim 2, wherein both sides of the main circuit overlap the main circuit, and the at least two child circuits do not overlap each other when viewed from the axial direction of the main line. Reinforcing bar binding structure used for wall surfaces.   4. The reinforcing bar binding structure used for a wall surface according to claim 3, wherein each of the child circuits has a linear arrangement.   The reinforcing bar binding structure used for a wall surface according to claim 1, wherein the main circuit formed by the band is substantially rectangular when viewed from the axial direction of the main bar. The main muscle group further includes a plurality of main muscles of only two columns in another row,
A large number of main bars of only two columns in the other row are connected to a large number of main bars of only the two columns at end portions, and the main muscle group forms a substantially L-shaped wall surface,
2. The reinforcing bar binding structure used for a wall surface according to claim 1, wherein the at least one band is wound around the main muscle group for forming an L-shaped wall surface to form the main circuit. 3. The main muscle group further includes a number of main muscles of only two rows and two columns,
The multiple main bars of only two columns in the other two rows are substantially parallel to each other, and the ends of the multiple main bars of only the two columns of the other two rows are at both ends of the rows of the multiple main bars of only the two columns. Connected to each other, the main muscle group forms a substantially gate-shaped wall,
2. The reinforcing bar binding structure used for a wall surface according to claim 1, wherein the at least one strap is wound around the main muscle group for forming a gate-shaped wall surface to form a main circuit. The main muscle group further includes a plurality of main muscles of only two columns in the other row,
A plurality of main bars of only two columns in the other row are connected to a plurality of main bars of only the two columns on the way, and the main bars form a substantially T-shaped wall surface,
The reinforcing bar binding structure used for a wall surface according to claim 1, wherein the at least one strap is wound around the main muscle group for forming a T-shaped wall surface to form a main circuit.   A second principal muscle is further bound to each principal muscle side, and the length of the second principal muscle is larger than the corresponding principal muscle, and extends the height of the entire wall surface structure formed by the principal muscle group. A reinforcing bar binding structure used for the wall surface according to claim 1. Including at least one girdle forming an integral spiral structure to connect together,
The tip and the base end of the one band have a step, and the tip of the one band is connected to the base of the previous strap, and the base is the tip of the next strap. Connected, multiple straps form a spiral structure by connecting the distal end and proximal end to each other,
The at least one band is used to bind a main muscle group composed of a plurality of main muscles for forming a wall surface,
The main muscle group has at least a plurality of main muscles in only two rows in which one cross section has only two main bars and another cross section substantially orthogonal to the one cross section has a plurality of main bars,
When the direction of each band is seen from the axial direction of the main bar, the leading end and the base end of each band are connected to each other to form a main circuit, and the main circuit includes a large number of only the two rows. Reinforcing bar binding structure used for wall surfaces characterized by surrounding the main bars. The strap forming the main circuit further forms at least one child circuit, the at least one child circuit is located inside the main circuit, and both sides overlap the main circuit,
11. The reinforcing bar binding structure used for a wall surface according to claim 10, wherein the child circuit surrounds four adjacent main bars forming a minimum quadrangle among a plurality of main bars of only the two rows. There are at least two child circuits,
The at least two child circuits surround four adjacent main bars forming a minimum quadrangle among the plurality of main bars of only the two rows; and the at least two child circuits are located inside the main circuit; 12. The wall surface according to claim 11, wherein both sides overlap the main circuit, and the at least two child circuits do not overlap each other when viewed from the axial direction of the multiple main bars of only the two rows. Reinforcing bar binding structure.   The reinforcing bar binding structure used for a wall surface according to claim 10, wherein the main circuit formed by the strip is substantially rectangular when viewed from the axial direction of the main reinforcing bar.