KR102239493B1 - Tie bar for steel reinforcement structure of reinforced concrete and method for making the same - Google Patents

Abstract

According to the present invention, a rectangular frame reinforcing bar portion having a first edge portion and a second edge portion arranged side by side; And a reinforcing reinforcing bar part crossing the inner region of the rim reinforcing bar part and connecting the first and second sides, wherein one material reinforcing bar extending in a straight line is formed by bending at a plurality of points. Structural belt reinforcement is provided.

Description

Strip reinforcement for reinforced concrete structures and its manufacturing method {TIE BAR FOR STEEL REINFORCEMENT STRUCTURE OF REINFORCED CONCRETE AND METHOD FOR MAKING THE SAME}

The present invention relates to a reinforced structure of reinforced concrete, and more particularly, to a reinforcing bar for a reinforced structure of reinforced concrete and a method of manufacturing the same.

The shear wall is a wall of reinforced concrete that is constructed to resist horizontal forces such as earthquakes, and a large amount of horizontal reinforcement is reinforced to bear a strong shear force even in the horizontal direction. The special shear wall is reinforced by forming a special boundary element at the end of the wall, in which the amount of reinforcement is increased by 40 to 60% with respect to the cross-sectional area of the wall compared to the existing bearing wall or normal shear wall.

Referring to FIG. 1 showing the structure of a conventional shear wall, the shear wall 10 includes a concrete portion 18 and a reinforced structure 11 installed inside the concrete portion 18. The reinforcement structure 11 includes a plurality of vertical reinforcing bars 12 extending along the height direction, and a plurality of horizontal reinforcing bars 13 extending horizontally by connecting the plurality of vertical reinforcing bars 12, and a shear wall ( 10) is provided with a plurality of band reinforcement (14) coupled with the vertical reinforcement (12) at the end side. Referring to Figure 2, the belt reinforcement 14 is shown, the belt reinforcement 14 is provided with a rectangular-shaped frame reinforcing bar portion 15 and a reinforcing reinforcing bar portion 16 crossing the inner area of the frame reinforcing bar portion 15 do. Conventionally, since the frame reinforcing bar portion 15 and the reinforcing bar portion 16 are separately manufactured and operated, it is an obstacle to improving workability.

Republic of Korea Patent Publication Registration No. 10-1600007 (2016.03.04.)

It is an object of the present invention to provide a reinforced reinforced concrete reinforced reinforced structure, which improves the workability of reinforced concrete structures such as shear walls, and a method for manufacturing the same.

In order to achieve the object of the present invention as described above, according to an aspect of the present invention, a rectangular frame reinforcing bar portion having a first side portion and a second side portion arranged side by side; And a reinforcing reinforcing bar part crossing the inner region of the rim reinforcing bar part and connecting the first and second sides, wherein one material reinforcing bar extending in a straight line is formed by bending at a plurality of points. Structural belt reinforcement is provided.

In order to achieve the above object of the present invention, according to another aspect of the present invention, a rectangular frame reinforcing bar portion having a first side portion and a second side portion arranged side by side; A plurality of reinforcing reinforcing bar portions crossing the inner region of the rim reinforcing bar portion and connecting the first side portion and the second side portion; And at least one connection reinforcing bar portion crossing the inner region of the rim reinforcing bar portion and being one less than the number of the reinforcing reinforcing bar portions connecting the first edge portion and the second edge portion, wherein the connecting reinforcing bar portion includes the plurality of reinforcing bar portions A strip reinforcing bar for a reinforced concrete reinforcement structure is provided, in which one material reinforcing bar extending in a straight line is formed by bending at a plurality of points and extending between two neighboring reinforcing bar portions.

In order to achieve the above object of the present invention, according to another aspect of the present invention, a rectangular frame reinforcing bar portion having a first side portion and a second side portion arranged side by side; And a plurality of connection reinforcing bar portions crossing the inner area of the rim reinforcing bar portion and connecting the first side and the second side, wherein the plurality of connection reinforcing bar portions extend in a zigzag shape and extend in a straight line. There is provided a strip reinforcing bar for a reinforced concrete reinforced structure, in which the material reinforcement is bent at a plurality of points and formed.

According to the present invention, all the objects of the present invention described above can be achieved. Specifically, since the band reinforcement used in the reinforced concrete reinforcement structure is manufactured only by bending a single material reinforcement, workability is remarkably improved when the reinforced concrete reinforcement structure is manufactured.

1 is a perspective view showing the structure of a conventional shear wall, a view showing a part of the concrete part removed so that a part of the reinforcing bar structure is visible.
FIG. 2 is a perspective view showing a belt reinforcement of the shear wall shown in FIG. 1.
3 is a perspective view showing a band reinforcement according to the first embodiment of the present invention.
FIG. 4 is a diagram illustrating a method of manufacturing the band reinforcement shown in FIG. 3.
5 is a perspective view showing a band reinforcement according to a second embodiment of the present invention.
6 is a perspective view showing a band reinforcement according to a third embodiment of the present invention.
7 is a perspective view showing a band reinforcement according to a fourth embodiment of the present invention.

Hereinafter, the configuration and operation of an embodiment of the present invention will be described in detail with reference to the drawings.

3 is a perspective view of a belt reinforcement according to the first embodiment of the present invention. Referring to FIG. 3, the belt reinforcing bar 100 according to the first embodiment of the present invention is formed by bending one reinforcing bar extending in a straight line several times on a plane. 2, 3rd, 4th, 5th, 6th, 7th, 8th linear extensions 110a, 110b, 110c, 110d, 110e, 110f, 110g, 110h, and a first linear extension 110a The first bent portion 120a connecting between the and the second linear extension portion 110b, and the second bent portion 120b connecting the second linear extension portion 110b and the third linear extension portion 110c. ), a third bent portion 120c connecting between the third straight extension portion 110c and the fourth straight extension portion 110d, and the fourth extension portion 110d and the fifth straight extension portion 110e ) A fourth bent portion 120d connecting between, a fifth bent portion 120e connecting between the fifth straight extension portion 110e and the sixth straight extension portion 110f, and a sixth straight extension The sixth bent portion 120f connecting the portion 110f and the seventh linear extension portion 110g, and the seventh connecting portion between the seventh linear extension portion 110g and the eighth linear extension portion 110h. Includes a bent portion (120g). Accordingly, along the extension direction of the reinforcing bar, the first straight extension portion 110a, the first bent portion 120a, the second straight extension portion 110b, the second bent portion 120b, and the third straight extension portion 110c ), the third bent portion 120c, the fourth straight extension portion 110d, the fourth bent portion 120d, the fifth straight extension portion 110e, the fifth bend portion 110e, the sixth straight extension portion ( 110f), a sixth bent portion 120f, a seventh straight extension portion 110g, a seventh bent portion 120g, and an eighth straight extension portion 110h are sequentially positioned. The plurality of linear extensions 110a, 110b, 110c, 110d, 110e, 110f, 110g, 110h are disposed on the same plane.

The first linear extension portion 110a extends in a straight line, and a first bent portion 120a is formed at one end of the first linear extension portion 110a. The first straight extension part 110a is connected to the second straight extension part 110b by the first bent part 120a while forming an acute angle.

The second straight extension part 110b extends in a straight line longer than the first straight extension part 110a, and both ends of the second straight extension part 110a have a first bent part 120a and a second bent part 120b, respectively. ) Is formed. The second straight extension part 110b is connected to the first straight extension part 110a by the first bent part 120a while forming an acute angle, and the third straight extension part 110c and the second bent part 120b form an acute angle. It is generally connected by forming a right angle.

The third straight extension part 110c extends in a straight line longer than the first straight extension part 110a, and both ends of the third straight extension part 110c have a second bent part 120b and a third bent part 120c, respectively. ) Is formed. In the present embodiment, the length of the third straight extension part 110c is described as being substantially the same as the length of the second straight extension part 110b, but the present invention is not limited thereto. The third straight extension part 110c is connected while forming a substantially right angle with the second straight extension part 110b by the second bent part 120b, and the fourth straight extension part 110b by the third bent part 120c And are connected by forming a generally right angle. The third linear extension 110c is disposed in the same direction as the first linear extension 110a with respect to the second linear extension 110b.

The fourth straight extension part 110d extends in a straight line longer than the second straight extension part 110a, and both ends of the fourth straight extension part 110d have a third bent part 120c and a fourth bent part 120d, respectively. ) Is formed. The fourth linear extension portion 110d is spaced apart from the second linear extension portion 110a and extends in parallel. The first linear extension portion 110a extends from the second linear extension portion 110b toward the fourth linear extension portion 110d. In the present embodiment, the fourth linear extension portion 110d is described as being substantially twice as long as the second linear extension portion 110b, but the present invention is not limited thereto. The fourth straight extension part 110d is connected while forming a substantially right angle with the third straight extension part 110c by the third bent part 120c, and the fifth straight extension part 110e by the fourth bent part 120d And are connected by forming a generally right angle. The fourth linear extension portion 110d is disposed substantially parallel to the second linear extension portion 110b.

The fifth straight extension portion 110e extends in a straight line in a direction substantially parallel to the third straight extension portion 110c, and both ends of the fifth straight extension portion 110e have a fourth bent portion 120d and a fifth A bent portion 120e is formed. The fifth straight extension part 110e is disposed to be spaced apart from the third straight extension part 110c. In the present embodiment, the length of the fifth straight extension part 110e is described as being substantially the same as the length of the third straight extension part 110c, but the present invention is not limited thereto. The fifth straight extension portion 110e is connected while being substantially perpendicular to the fourth straight extension portion 110d by the fourth bent portion 120d, and the sixth straight extension portion 110f by the fifth bent portion 120e And are connected by forming a generally right angle. The fifth straight extension part 110e is disposed substantially parallel to the third straight extension part 110c.

The sixth straight extension portion 110f generally extends in a straight line on the extension axis of the second straight extension portion 110b, and both ends of the sixth straight extension portion 110f have a fifth bent portion 120e and a sixth bent A portion 120f is formed. In the present embodiment, it is described that the length of the sixth straight extension part 110f is substantially the same as the length of the second straight extension part 110b, but the present invention is not limited thereto. The sixth straight extension portion 110f is connected while being substantially perpendicular to the fifth straight line extension portion 110e by the fifth bent portion 120e, and the seventh straight extension portion 110g by the sixth bent portion 120f And are connected by forming a generally right angle. The sixth linear extension 110f is disposed substantially parallel to the fourth linear extension 110d.

The seventh straight extension portion 110g is located between the third straight extension portion 110c and the fifth straight extension portion 110e, and includes the third straight extension portion 110c and the fifth straight extension portion 110e. It extends generally parallel. A sixth bent portion 120f and a seventh bent portion 120g are formed at both ends of the seventh linear extension portion 110g, respectively. The seventh linear extension portion 110g extends so as to cross between the second linear extension portion 110b and the fourth linear extension portion 110d. In the present embodiment, the length of the seventh straight extension portion 110g is described as being substantially the same as the length of the third straight extension portion 110c and the fifth straight extension portion 110e, but the present invention is not limited thereto. The seventh straight extension portion 110g is connected while being substantially perpendicular to the sixth straight extension portion 110f by the sixth bent portion 120f, and the eighth straight extension portion 110h by the seventh bent portion 120g It continues with an acute angle.

The eighth straight extension portion 110h is connected to the second straight extension portion 110g while forming an acute angle with the seventh bent portion 120g therebetween. The eighth linear extension portion 110h extends from the fourth straight extension portion 110d toward the fifth straight extension portion 110e and the sixth straight extension portion 110f. The length of the eighth linear extension 110h is substantially the same as the length of the first linear extension 110a.

The first bent portion 120a connects between the first straight extension portion 110a and the second straight extension portion 110b. The first straight extension part 110a and the second straight extension part 110b are connected by forming an acute angle by the first bent part 120a. In this embodiment, it will be described that the first straight extension portion 110a and the second straight extension portion 110b form about 45° by the first bent portion 120a. The first straight extension portion 110a forms a hook with respect to the second straight extension portion 110b by the first bent portion 120a. One of the plurality of vertical reinforcing bars S1, S2, S3, S4, S5, S6 is positioned in the concave inner region of the first bent portion 120a.

The second bent portion 120b connects the second straight extension portion 110b and the third straight extension portion 110c. The second straight extension portion 110b and the third straight extension portion 110c are connected while forming a substantially right angle by the second bent portion 120b. One of the plurality of vertical reinforcing bars S1, S2, S3, S4, S5, and S6 is positioned in the concave inner region of the second bent portion 120b.

The third bent portion 120c connects the third straight extension portion 110c and the fourth straight extension portion 110d. The third straight extension portion 110c and the fourth straight extension portion 110d are connected while forming a substantially right angle by the third bent portion 120c. One of the plurality of vertical reinforcing bars S1, S2, S3, S4, S5, S6 is positioned in the concave inner region of the third bent portion 120c.

The fourth bent portion 120d connects the third straight extension portion 110c and the fourth straight extension portion 110d. The fourth straight extension portion 110d and the fifth straight extension portion 110e are connected while forming a substantially right angle by the fourth bent portion 120d. One of the plurality of vertical reinforcing bars S1, S2, S3, S4, S5, S6 is positioned in the concave inner region of the fourth bent portion 120d.

The fifth bent portion 120e connects between the succeeding fifth straight extension portion 110e and the sixth straight extension portion 110f. The fifth straight extension portion 110e and the sixth straight extension portion 110f are connected while forming a substantially right angle by the fifth bent portion 120e. One of the plurality of vertical reinforcing bars S1, S2, S3, S4, S5, and S6 is positioned in the concave inner region of the fifth bent portion 120e.

The sixth bent portion 120f connects the sixth straight extension portion 110f and the seventh straight extension portion 110g. The sixth bent portion 120f is positioned on the second linear extension portion 110b. The sixth straight extension portion 110f and the seventh straight extension portion 110g are connected while forming a substantially right angle by the sixth bent portion 120f. One of the plurality of vertical reinforcing bars S1, S2, S3, S4, S5, S6 is positioned in the concave inner region of the sixth bent portion 120f. That is, the vertical reinforcing bar S1 is wrapped together with the inner region of the first bent portion 120a and the inner region of the sixth bent portion 120f.

The seventh bent portion 120g connects the seventh straight extension portion 110g and the eighth straight extension portion 110h. The seventh bent portion 120g is positioned on the fourth linear extension portion 110d. By the seventh bent portion 120g, the seventh straight extension portion 110g and the eighth straight extension portion 110h are connected while substantially forming an acute angle. In the present embodiment, it will be described that the seventh straight extension portion 110g and the eighth straight extension portion 110h form about 45° by the seventh bent portion 120g. The eighth straight extension portion 110h forms a hook with respect to the seventh straight extension portion 110g by the seventh bent portion 120g. One of the plurality of vertical reinforcing bars S1, S2, S3, S4, S5, and S6 is positioned in the concave inner region of the seventh bent portion 120g.

FIG. 4 is a view for explaining a method of manufacturing the band reinforcement 100 shown in FIG. 3. In FIG. 4, one material reinforcing bar 150 extending in a straight line is shown. The belt reinforcing bar 100 shown in FIG. 3 is manufactured by bending the straight material reinforcing bar 150 shown in FIG. 4 several times on one plane. Referring to FIG. 4, on the material reinforcing bar 150, the first bending position P1, the second bending position P2, and the third bending position P1 in turn along the extending direction from the first end 151 to the second end 152. The bending position P3, the fourth bending position P4, the fifth bending position P5, the sixth bending position P6, and the seventh bending position P7 are set. Accordingly, on the material reinforcing bar 150, the first extension section 150a between the first end 101a and the first bending position P1, and between the first bending position P1 and the second bending position P2 The second extension section 150b, the third extension section 150c between the second bending position P2 and the third bending position P3, between the third bending position P3 and the fourth bending position P4 The fourth extension section 150d, the fifth extension section 150e between the fourth bending position P4 and the fifth bending position P5, between the fifth bending position P5 and the sixth bending position P6 The sixth extension section 150f, the seventh extension section 150g between the sixth bending position P6 and the seventh bending position P7, between the seventh bending position P7 and the eighth bending position P8 A seventh extension section 150h is formed.

In the first bending position P1, the first extension section 150a is bent about 135° in the direction of the arrow with respect to the second extension section 150b, so that the first extension section 150a is a band reinforcement ( The first linear extension portion 110a of 100) is formed. The first bending position P1 corresponds to the first bent portion 120a of the belt reinforcing bar 100 shown in FIG. 3.

In the second bending position P2, the second extension section 150b is bent about 90° in the direction of the arrow with respect to the third extension section 150c, so that the second extension section 150b is a band reinforcement ( 100) to form a second linear extension portion (110b). The second bent position P2 corresponds to the second bent portion 120b of the belt reinforcing bar 100 shown in FIG. 3.

In the third bent position P3, the third extension section 150c is bent about 90° in the direction of the arrow with respect to the fourth extension section 150d, so that the third extension section 150c is a band reinforcement ( The third linear extension portion 110c of 100) is formed. The third bending position P3 corresponds to the third bent portion 120c of the belt reinforcing bar 100 shown in FIG. 3. The fourth extension section 150d forms the fourth straight extension portion 110d of the band reinforcement 100 shown in FIG. 3.

In the fourth bending position P4, the fifth extension section 150e is bent about 90° in the direction of the arrow with respect to the fourth extension section 150d, so that the fifth extension section 150e is a band reinforcement shown in FIG. 100) of the fifth linear extension portion (110e) is formed. The fourth bending position P4 corresponds to the fourth bent portion 120d of the belt reinforcing bar 100 shown in FIG. 3.

In the fifth bending position P5, the sixth extension section 150f is bent about 90° in the direction of the arrow with respect to the fifth extension section 150e, so that the sixth extension section 150f is a band reinforcement shown in FIG. 100) of the sixth linear extension portion (110f) is formed. The fifth bending position P5 corresponds to the fifth bent portion 120e of the belt reinforcing bar 100 shown in FIG. 3.

In the sixth bending position P6, the seventh extension section 150g is bent by about 90° in the direction of the arrow with respect to the sixth extension section 150f, so that the seventh extension section 150g is a band reinforcement ( 100) of the seventh linear extension portion (110g) is formed. The sixth bent position P6 corresponds to the sixth bent portion 120f of the belt reinforcing bar 100 shown in FIG. 3.

In the seventh bending position P7, the eighth extension section 150h is bent about 135° in the direction of the arrow with respect to the seventh extension section 150g, so that the eighth extension section 150h is a band reinforcement ( 100) of the eighth linear extension portion (110h) is formed. The seventh bent position P7 corresponds to the seventh bent portion 120g of the belt reinforcement 100 shown in FIG. 3.

In the belt reinforcing bar 100 shown in FIG. 3, the second straight extension part 110b, the third straight extension part 110c, the fourth straight extension part 110d, the fifth straight extension part 110e, and the sixth The straight extension part 110f forms a rectangular frame reinforcement part, and the seventh straight extension part 110g forms a reinforcing bar part that connects and reinforces two opposite sides of the frame reinforcement part, and the first straight extension part 110a And the eighth linear extension portion 110h each form a hook portion. It can be understood that the belt reinforcement 100 is generally extended and manufactured in the form of one-brush drawing.

The method of manufacturing a reinforcing bar for a reinforced concrete reinforcement structure according to the first embodiment of the present invention is a first end 151 to a second end 152 on the material reinforcing bar 150 extending in a straight line as shown in FIG. 4. Bending position setting step of setting a plurality of bending positions (P1, P2, P3, P4, P5, P6, P7) in sequence, and a plurality of bending positions (P1, P2, P3, P4, P5, P6, P7) In each of the material reinforcing bars 150 is bent, a rectangular shape having a first side and a second side arranged side by side, and a third side and a fourth side connecting the first and second sides. A frame reinforcement part and a reinforcing reinforcing bar part crossing the inner region of the rim reinforcing bar part and connecting the first side and the second side, and near two parts connected to the reinforcing bar part on the first and second sides It includes a bending step in which the first and second hook portions respectively positioned on are formed.

In the bending step, in the material reinforcing bar 150, a first extension section 150a forms the first hook, a second extension section 150b forms a part of the first edge, and a third extension section 150c ) Forms the third edge, a fourth extension section 150d forms the second edge, a fifth extension section 150e forms the fourth edge, and a sixth extension section 150f The plurality of parts are connected to the second extension section 150b to form the first edge, the seventh extension section 150g to form the reinforcing reinforcing bar section, and the eighth extension section 150h to form the second hook section. It is bent at each of the four bending positions.

5 is a perspective view of a band reinforcement according to a second embodiment of the present invention. Referring to FIG. 5, the belt reinforcement 200 according to the second embodiment of the present invention is manufactured by bending a single reinforcing bar extending in a straight line as in the first embodiment shown in FIGS. 3 and 4 As a result, the first straight extension part 210a, the first bent part 220a, the second straight extension part 210b, the second bent part 220b, the third straight extension part 210c, and the second 3 bent portion 220c, fourth straight extension portion 210d, fourth bent portion 220d, fifth straight extension portion 210e, fifth bent portion 220e, sixth straight extension portion 210f, The sixth bent portion 220f, the seventh straight extension portion 210g, the seventh bent portion 220g, the eighth straight extension portion 210h, the eighth bent portion 220h, the ninth straight extension portion 210i It is equipped with.

The first linear extension 210a extends in a straight line and connects to the second linear extension 210b with the first bent portion 220a interposed therebetween.

The first bent portion 220a is positioned between the first linear extension portion 210a and the second linear extension portion 210b. The first straight extension part 210a and the second straight extension part 210b are connected while forming an acute angle by the first bent part 220a. The first straight extension part 210a forms a hook with respect to the second straight extension part 210b by the first bent part 220a.

The second linear extension 210b extends in a straight line from the first bent portion 220a. A first bent portion 220a and a second bent portion 220b are formed at both ends of the second linear extension portion 210b, respectively. The second linear extension 210b is connected to the first linear extension 210a by the first bent portion 220a while forming an acute angle. In this embodiment, it will be described that the second linear extension 210b and the first linear extension 210a form about 45°. The second straight extension part 210b is connected while forming a substantially right angle with the third straight extension part 210c by the second bent part 220b. It is preferable that the second straight extension part 210b extends longer than the first straight extension part 210a.

The second bent portion 220b is positioned between the second straight extension portion 210b and the third straight extension portion 210c. The second straight extension part 210b and the third straight extension part 210c are connected while forming a substantially right angle by the second bent part 220b. The bending direction of the second bent portion 220b is a direction in which the third linear extension 210c faces toward the first linear extension 210a with respect to the second linear extension 210b.

The third straight extension part 210c extends in a straight line from the second bent part 220b. A second bent portion 220b and a third bent portion 220c are formed at both ends of the third linear extension portion 210c, respectively. The third straight extension part 210c is connected while forming a substantially right angle with the second straight extension part 210b by the second bent part 220b. The third straight extension part 210c is connected while forming a substantially right angle with the fourth straight extension part 210d by the third bent part 220c. It is preferable that the third straight extension part 210c extends longer than the first straight extension part 210a, and in this embodiment, it will be described as having substantially the same length as the second straight extension part 210b. The third linear extension 210c is disposed in a direction opposite to the first linear extension 210a with respect to the second linear extension 210b.

The third bent portion 220c is positioned between the third straight extension portion 210c and the fourth straight extension portion 210d. The third straight extension part 210c and the fourth straight extension part 210d are connected while forming a substantially right angle by the third bent part 220c. The bending direction of the third bent portion 220c is a direction in which the fourth linear extension portion 210d is disposed in parallel with the second linear extension portion 210b.

The fourth linear extension part 210d extends in a straight line from the third bent part 220c. A third bent portion 220c and a fourth bent portion 220d are formed at both ends of the fourth linear extension portion 210d, respectively. The fourth straight extension part 210d is connected while forming a substantially right angle with the third straight extension part 210c by the third bent part 220c. The fourth straight extension part 210d is connected while forming a substantially right angle with the fifth straight extension part 210e by the fourth bent part 220d. It is preferable that the fourth linear extension part 210d extends slightly shorter than the second straight extension part 210b. The fourth linear extension 210d extends substantially parallel to the second linear extension 210b and is disposed in parallel with the second linear extension 210b.

The fourth bent portion 220d is positioned between the fourth straight extension portion 210d and the fifth straight extension portion 210e. The fourth straight extension part 210d and the fifth straight extension part 210e are connected while forming a substantially right angle by the fourth bent part 220d. The bending direction of the fourth bent portion 220d is a direction in which the fifth linear extension portion 210d is disposed in parallel with the third linear extension portion 210c.

The fifth linear extension 210e extends in a straight line from the fourth bent portion 220d. A fourth bent portion 220d and a fifth bent portion 220e are formed at both ends of the fifth linear extension portion 210e, respectively. The fifth straight extension part 210e is connected while forming a substantially right angle with the fourth straight extension part 210d by the fourth bent part 220d. The fifth straight extension part 210e is connected while forming a substantially right angle with the sixth straight extension part 210f by the fifth bent part 220e. The fifth linear extension 210e extends substantially the same length as the third linear extension 210c. The fifth straight extension part 210e extends substantially parallel to the third straight extension part 210c and is disposed in parallel with the third straight extension part 210c. The end of the fifth linear extension 210e is connected while forming a substantially right angle with the second linear extension 210b. The fifth linear extension 210e is positioned closer to the third linear extension 210c than the concave inner region of the first bent portion 220a.

The fifth bent portion 220e is positioned between the fifth straight extension portion 210e and the sixth straight extension portion 210f. The fifth straight extension part 210e and the sixth straight extension part 210f are connected while forming a substantially right angle by the fifth bent part 220e. The bending direction of the fifth bent portion 220e is a direction in which the sixth linear extension 210f is away from the third linear extension 210c. The fifth bent portion 220e is positioned close to the end of the second straight extension portion 210b toward the first bent portion 220a. The concave inner region of the fifth bent portion 220e faces the concave inner region of the first bent portion 210a.

The sixth linear extension 210f extends in a straight line along the extending direction of the second linear extension 210a from the fifth bent portion 220e. A fifth bent portion 220e and a sixth bent portion 220f are formed at both ends of the sixth linear extension portion 210f, respectively. The sixth straight extension 210f is connected while forming a substantially right angle with the fifth straight extension 210e by the fifth bent portion 220e. The sixth straight extension part 210f is connected while forming a substantially right angle with the seventh straight line extension part 210g by the sixth bent part 220f. The sixth linear extension 210f extends substantially the same length as the second linear extension 210b. The sixth linear extension 210f extends in a direction away from the third linear extension 210c from the fifth bent portion 220e.

The sixth bent portion 220f is positioned between the sixth straight extension portion 210f and the seventh straight extension portion 210g. The sixth straight extension portion 210f and the seventh straight extension portion 210g are connected while forming a substantially right angle by the sixth bent portion 220f. The bending direction of the sixth bent portion 220f is a direction in which the seventh linear extension 210g is arranged in parallel with the fifth linear extension 210e.

The seventh linear extension 210g extends in a straight line from the sixth bent portion 220f. A sixth bent portion 220f and a seventh bent portion 220g are formed at both ends of the seventh linear extension portion 210g, respectively. The seventh straight extension 210g is connected while forming a substantially right angle with the sixth straight extension 210f by the sixth bent portion 220f. The seventh linear extension 210g is connected while forming a substantially right angle with the eighth linear extension 210h by the seventh bent portion 220g. The seventh linear extension 210g extends substantially the same length as the fifth linear extension 210e. The seventh linear extension 210g is disposed in parallel with the fifth linear extension 210e.

The seventh bent portion 220g is positioned between the seventh straight extension portion 210g and the eighth straight extension portion 210h. The seventh straight extension portion 210g and the eighth straight extension portion 210h are connected while forming a substantially right angle by the seventh bent portion 220g. The bending direction of the seventh bent portion 220g is a direction in which the eighth linear extension portion 210h is disposed in parallel with the sixth linear extension portion 210f.

The eighth linear extension 210h extends in a straight line from the seventh bent portion 220g. A seventh bent portion 220g and an eighth bent portion 220h are formed at both ends of the eighth linear extension portion 210h, respectively. The eighth linear extension 210h is connected while forming a substantially right angle with the seventh straight extension 210h by the seventh bent portion 220g. The eighth linear extension 210h is connected with the ninth straight extension 210i by the eighth bent portion 220h while making a reservation. The eighth linear extension 210h extends substantially the same length as the second linear extension 210b. The eighth straight extension part 210h is connected along the same extension axis as the fourth straight extension part 210d, and is disposed in parallel with the sixth straight extension part 210f.

The eighth bent portion 220h is positioned between the eighth straight extension portion 210h and the ninth straight extension portion 210i. The eighth straight extension portion 210h and the ninth straight extension portion 210i are connected while forming an acute angle by the eighth bent portion 220h. The bending direction of the eighth bent portion 220h is a direction in which the ninth linear extension 210i is disposed toward the seventh linear extension 210h. The eighth bent portion 220h is generally positioned on the fourth linear extension portion 210d. The concave inner region of the eighth bent portion 220h faces the concave inner region of the fourth bent portion 220d.

The ninth linear extension 210i extends in a straight line from the eighth bent portion 220h to substantially the same length as the first linear extension 210a. The ninth linear extension 210i forms an acute angle with the eighth linear extension 220h by the eighth bent portion 220h. In the present embodiment, it will be described that the ninth straight extension part 210i and the eighth straight extension part 220h form about 45°.

In the band reinforcing bar 200 shown in FIG. 5, the second straight extension part 210b, the third straight extension part 210c, the fourth straight extension part 210d, the eighth straight extension part 210h, and the seventh The straight extension part 210g and the sixth straight extension part 210f form a rectangular rim reinforcement part, and the fifth straight extension part 110e forms a reinforcing reinforcement part that connects and reinforces two opposite sides of the rim reinforcement part, and , The first straight extension part 210a and the ninth straight extension part 210i each form a hook part.

The method of manufacturing a reinforcing bar for a reinforced concrete reinforcement structure according to a second embodiment of the present invention is for manufacturing the reinforcing bar shown in FIG. 5, and the first end to the second end on the material reinforcing bar extending in a straight line. The first bending position (corresponding to 220a in Fig. 5), the second bending position (corresponding to 220b in Fig. 5), the third bending position (corresponding to 220c in Fig. 5), and the fourth bending position (corresponding to 220c in Fig. 5) in sequence until 220d), the fifth bending position (corresponding to 220e in Fig. 5), the sixth bending position (corresponding to 220f in Fig. 5), the seventh bending position (corresponding to 220g in Fig. 5), and the eighth bending position (corresponding to 220g in Fig. 5) 5) and a bending step in which the material reinforcing bar is bent at each of the plurality of bending positions.

In the bending step, the first extension section (corresponding to 210a of FIG. 5) formed between the first end and the first bending position of the material reinforcing bar forms the first hook, and the first bending position and the first bending position 2 A second extension section (corresponding to 210b of FIG. 5) formed between the bending positions forms a part of the first side, and a third extension section formed between the second bending position and the third bending position ( (Corresponding to 210c of FIG. 5) forms the third edge, and a fourth extension section (corresponding to 210d of FIG. 5) formed between the third and fourth bending positions is a part of the second edge And a fifth extension section (corresponding to 210e of FIG. 5) formed between the fourth bending position and the fifth bending position to form the reinforcing reinforcing bar portion, and the fifth bending position and the sixth bending position A sixth extension section (corresponding to 210f of FIG. 5) formed therebetween connects with the second extension section to form the first edge, and a seventh section formed between the sixth and seventh bend positions. An extended section (corresponding to 210g in FIG. 5) forms the fourth edge, and an eighth extended section (corresponding to 210h in FIG. 5) formed between the seventh and eighth bent positions is the fourth. The second edge is connected to the extension section (corresponding to 210d in FIG. 5), and the ninth extension section (corresponding to 210i in FIG. 5) formed between the eighth bent position and the second end 2 It is bent at each of the plurality of bending positions to form a hook portion.

6 is a perspective view of a belt reinforcement according to a third embodiment of the present invention. 6, the belt reinforcing bar 300 according to the third embodiment of the present invention is manufactured by bending and molding one reinforcing bar extending in a straight line as in the first embodiment shown in FIGS. 3 and 4 As a result, the first straight extension part 310a, the first bent part 320a, the second straight extension part 310b, the second bent part 320b, the third straight extension part 310c, 3 bent part 320c, fourth straight extension part 310d, fourth bent part 320d, fifth straight extension part 310e, fifth bend part 320e, sixth straight extension part 310f, The sixth bent portion 320f, the seventh straight extension portion 310g, the seventh bent portion 320g, the eighth straight extension portion 310h, the eighth bent portion 320h, the ninth straight extension portion 310i , The ninth bent portion 320i, the tenth straight extension portion 310j, the tenth bent portion 320j, the eleventh straight extension portion 310k, the eleventh bent portion 320k, the twelfth straight extension portion 310l ), the 12th bent part 310l, the 13th straight extension part 310m, the 13th bend part 320m, the 14th straight extension part 310n, the 14th bend part 320n, the 15th straight extension part ( 310p), a fifteenth bent portion 320p, a sixteenth straight extension portion 310q, a sixteenth bent portion 320q, and a seventeenth straight extension portion 310r.

In the belt reinforcing bar 300, a second straight extension part 310b, a sixth straight extension part 310f, a seventh straight extension part 310g, an eighth straight extension part 310h, and a fourth straight extension part 310d , The 16th straight extension 310q, the 12th straight extension 310l, the 13th straight extension 310m, the 14th straight extension 310n and the 10th straight extension 310j are rectangular rim reinforcement A portion is formed, and the fifth straight extension part 310e, the third straight extension part 310c, and the eleventh straight extension 310k form a reinforcing reinforcing bar part that connects and reinforces two opposite sides of the frame reinforcing bar part at a right angle. , The ninth straight extension part 310i and the fifteenth straight extension part 310p form a connection reinforcing bar part that obliquely connects two opposite sides of the rim reinforcement part, and the first straight extension part 310a and the 17th straight extension part Each of 310r forms a hook portion.

In the frame reinforcing bar portion forming a rectangle, the sixth straight extension part 310f, the second straight extension part 310b, the tenth straight extension part 310j, and the 14th straight extension part 310n are sequentially connected in a straight line. A first side is formed, and the eighth straight extension part 310h, the fourth straight extension part 310d, the 16th straight extension part 310q, and the twelfth straight extension part 310l are sequentially connected in a straight line. The first side is arranged in parallel to form a second side facing each other, the seventh straight extension 310g forms a third side connecting the first side and the second side, and the thirteenth straight extension 310m Is connected to the first side and the second side and forms a fourth side arranged parallel to the third side.

The ninth straight extension part 310i and the fifteenth straight extension part 310p, which are connection reinforcing bars, are disposed to be inclined in the same direction.

The ninth linear extension 310i is disposed between the fifth linear extension 310e and the third linear extension 310c, which are two adjacent reinforcing reinforcing bars. Both ends of the ninth linear extension 310i are generally located at a point where the first edge portion and the third linear extension portion 310c intersect, and a point where the second edge portion and the fifth linear extension portion 310e intersect.

The fifteenth linear extension 310p is disposed between the third linear extension 310c and the eleventh linear extension 310k, which are two adjacent reinforcing reinforcing bars. Both ends of the fifteenth linear extension 310p are generally located at a point where the second edge portion and the third linear extension portion 310c intersect, and a point where the first edge portion and the eleventh linear extension portion 310k intersect.

A method of manufacturing a reinforcing bar for a reinforced concrete reinforcement structure according to a third embodiment of the present invention is for manufacturing the reinforcing bar shown in FIG. 6, and from the first end to the second end on the material reinforcement extending in a straight line In order to set a plurality of bending positions (respectively corresponding to, 320a, 320b, 320c, 320d, 320e, 320f, 320g, 320h, 320i, 320j, 320k, 320l, 320m, 320n, 320p, and 320q in FIG. 6) A bending position setting step, wherein the material reinforcement is bent at each of the plurality of bending positions, and a third side connecting the first side and the second side and the first side and the second side disposed side by side, and A rectangular frame reinforcing bar portion having a fourth edge portion, a plurality of reinforcing reinforcing bar portions crossing the inner region of the frame reinforcing bar portion and connecting the first and second edge portions, and an inner region of the frame reinforcing bar portion. At least one connection reinforcing bar portion that is one less than the number of the reinforcing reinforcing bar portions connecting the first and second side portions, and two reinforcing bar portions among the plurality of reinforcing bar portions on the first and second side portions And a bending step of forming first and second claws respectively positioned near the two portions connected to each other.

7 is a perspective view of a belt reinforcement according to a fourth embodiment of the present invention. 4, the belt reinforcement 400 according to the fourth embodiment of the present invention is manufactured by bending a single reinforcing bar extending in a straight line as in the first embodiment shown in FIGS. 3 and 4 As a result, the first straight extension part 410a, the first bent part 420a, the second straight extension part 410b, the second bent part 420b, the third straight extension part 410c, and the second 3 bent portion 420c, fourth straight extension portion 410d, fourth bent portion 420d, fifth straight extension portion 410e, fifth bent portion 420e, sixth straight extension portion 410f, The sixth bent portion 420f, the seventh straight extension portion 410g, the seventh bent portion 420g, the eighth straight extension portion 410h, the eighth bent portion 420h, the ninth straight extension portion 410i , A ninth bent portion 420i, and a tenth linear extension portion 410j.

In the belt reinforcing bar 400, the sixth straight extension part 410f, the seventh straight extension part 410g, the eighth straight extension part 410h, and the ninth straight extension part 410i form a rectangular frame reinforcement part, The second straight extension part 410b, the third straight extension part 410c, the fourth straight extension part 410d, and the fifth straight extension part 410e are connected reinforcing bars that obliquely connect two opposite sides of the frame reinforcing bar part. And the first straight extension part 410a and the tenth straight extension part 410j each form a hook part.

The first edge of the seventh straight extension portion 410g is formed in the rim reinforcing bar portion forming a rectangle, and the ninth straight extension portion 410i is disposed in parallel with the first edge to form a second edge facing each other. 6 The straight extension part 410f forms a third side connecting the first side and the second side, and the eighth straight extension part 410h connects the first side and the second side and is parallel to the third side. A fourth side to be disposed is formed.

The second straight extension part 410b, the third straight extension part 410c, the fourth straight extension part 410d, and the fifth straight extension part 410e, which are connection reinforcing bars, extend in a zigzag shape in sequence. The first bent portion 420a formed between the first linear extension portion 410a and the second linear extension portion 410b is an eighth straight extension portion 410h that is a fourth side and a ninth straight line portion that is a second side portion. The second bent portion 420b is generally located at the eighth bent portion 420h formed between the extension portions 410i and is formed between the second straight extension portion 410b and the third straight extension portion 410c ) And the fourth bent portion 420d positioned between the fourth straight extension portion 410d and the fifth straight extension portion 410e is positioned on the seventh straight extension portion 410g, which is a first edge, and a third The third bent portion 420c formed between the linear extension portion 410c and the fourth linear extension portion 410d is positioned on the ninth linear extension portion 410i, which is a second side portion.

The manufacturing method of the reinforcing bar for reinforced concrete reinforced structures according to the fourth embodiment of the present invention is for manufacturing the reinforcing bar shown in FIG. 7, and from the first end to the second end on the material reinforcing bar extending in a straight line. A bending position setting step of sequentially setting a plurality of bending positions (respectively corresponding to 420a, 420b, 420c, 420d, 420e, 420f, 420g, 420h, 420i in FIG. 7), and the plurality of bending positions A rectangular frame reinforcing bar portion having a first edge portion and a second edge portion arranged in parallel by bending material reinforcing bars, and a third edge portion and a fourth edge portion connecting the first edge portion and the second edge portion, and the A bending step of forming a plurality of connection reinforcing bar portions crossing the inner region of the frame reinforcing bar portion and connecting the first and second edge portions, and first and second hook portions positioned near two vertices of the frame reinforcing bar portion. do. The plurality of connection reinforcing bar portions are connected and extended in a zigzag shape.

Although the present invention has been described through the above embodiments, the present invention is not limited thereto. The above embodiments may be modified or changed without departing from the spirit and scope of the present invention, and those skilled in the art will recognize that such modifications and changes also belong to the present invention.

100, 200, 300, 400: band reinforcement

Claims (18)

One material reinforcing bar extending in a straight line is formed by bending at a plurality of points,
A rectangular frame reinforcing bar portion having a first side and a second side disposed side by side, and a third side and a fourth side connecting the first side and the second side;
A reinforcing reinforcing bar portion crossing the inner region of the rim reinforcing bar portion and connecting the first edge portion and the second edge portion; And
And first and second hook portions formed on each of the two portions connected to the reinforcing reinforcing bar portion on the first side and the second side,
A first straight extension, a first bend, a second straight extension, a second bend, a third straight extension, a third bend, and a fourth straight extension sequentially along the extension direction of the material reinforcing bar , A fourth bent portion, a fifth straight extension, a fifth bend, a sixth straight extension, a sixth bend, a seventh straight extension, a seventh bend, an eighth straight extension, an eighth bend, and It has a ninth straight extension,
The first straight extension part forms the first hook part while forming an acute angle with the second straight extension part,
The second straight extension part and the sixth straight extension part are connected to form the first edge part,
The third linear extension part forms the third edge part,
The fourth straight extension part and the eighth straight extension part are connected to form the second edge part,
The fifth straight extension part forms the reinforcing reinforcing bar part,
The seventh linear extension portion forms the fourth edge portion,
The ninth linear extension portion forms the second claw portion while forming an acute angle with the eighth linear extension portion,
The concave inner region of the first bent portion faces the concave inner region of the fifth bent portion, and the concave inner region of the fourth bent portion faces the concave inner region of the eighth bent portion,
Band reinforcement for reinforced concrete reinforced structures. delete delete The method according to claim 1,
The reinforcing reinforcing bar portion forms a right angle with the first side and the second side, a reinforcing bar for a reinforced concrete structure. delete delete A rectangular frame reinforcing bar portion having a first side and a second side disposed side by side, a third side and a fourth side connecting the first and second sides, and an inner region of the frame reinforcing bar portion. Reinforcing reinforcing bar portions crossing the first side and connecting the second side portions, and first and second claws formed on the first side and the second side, respectively, near two portions connected to the reinforcing reinforcing bar portion As a method of manufacturing a band reinforcement for reinforced concrete reinforced structures,
The first bending position, the second bending position, the third bending position, the fourth bending position, the fifth bending position, the sixth bending position, the seventh bending position, in order from the first end to the second end on the material reinforcing bar extending in a straight line. A bending position setting step of setting a bending position and an eighth bending position; And
Including a bending step of bending the material reinforcement at each of the plurality of bending positions,
In the bending step, the material reinforcing bar has an acute angle with a first extension section formed between the first end and the first bending position and a second extension section formed between the first bending position and the second bending position. The first claw portion is formed, the second extension section forms a part of the first side, and a third extension section formed between the second bent position and the third bent position forms the third side And a fourth extension section formed between the third bent position and the fourth bent position forms a part of the second side, and a fifth extension formed between the fourth bent position and the fifth bent position A section forms the reinforcing reinforcing bar part, and a sixth extension section formed between the fifth bending position and the sixth bending position connects with the second extension section to form the first edge, and the sixth bending position A seventh extension section formed between the and the seventh bending position forms the fourth edge, and an eighth extension section formed between the seventh bending position and the eighth bending position follows the fourth extension section. The second edge is formed by lowering, and a ninth extension section formed between the eighth bent position and the second end forms the second claw part while forming an acute angle with the eighth extension section, and the first bent position The concave region of the first bent portion formed at faces the concave inner region of the fifth bent portion formed at the fifth bent position, and the concave inner region of the fourth bent portion formed at the fourth bent position is the eighth bent position A method of manufacturing a belt reinforcement for a reinforced concrete reinforced structure, which is bent at each of the plurality of bending positions so as to face the concave inner region of the eighth bent portion formed in. delete delete delete delete delete delete delete delete delete delete delete

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