JP2003064823A - Corner part reinforcing structure for reinforced concrete construction member - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a corner part reinforcing structure for a reinforced concrete construction member capable of preventing progress of a crack near a corner part of an opening formed in the reinforced concrete construction member or near a portion with an abrupt change in sectional areas and capable of enhancing adhesion of a reinforcing bar to concrete. SOLUTION: The reinforcing structure is for preventing an occurrence or progress of the crack in the corner part 52 formed on the reinforced concrete construction member 5. It is characterized by that a high-strength reinforcing bar 53 formed by a deformed bar or a deformed prestressing steel bar of high strength (685-1,275 N/mm<2> ) with yield strength and tensile strength higher in comparison with a deformed bar of normal strength (about 295 N/mm<2> ) and having a hook part and a ring part in appropriate positions is arranged in a neighborhood of the corner part 52.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a corner reinforcing structure for a reinforced concrete member suitable for a reinforced concrete wall or slab.

[0002]

2. Description of the Related Art At a corner of an opening of a wall or a slab, which is a plate member made of reinforced concrete, the rigidity suddenly changes at this corner, so that stress and strain are concentrated. For this reason, strain due to dry shrinkage of concrete and strain due to stress during earthquakes are often concentrated in the corners, and cracks often occur in the vicinity.

In order to prevent and reduce the occurrence of these cracks, conventionally, as shown in FIG. 20, in the vicinity of the corner 12 of the opening 11 in the reinforced concrete wall 10, a place where a crack 13 is expected to occur is formed. The deformed reinforcing bar 14 of ordinary strength (about 295 N / mm ² ) was reinforced so as to be orthogonal to the crack 13.

By thus integrating the concrete and the deformed bar 14 with each other, the apparent tensile strength of the concrete can be increased and the occurrence of cracks 13 can be reduced. In addition, reference numeral 15 in FIG.
6 is a beam.

[0005]

However, in the conventional reinforcing structure using the deformed bar 14 of ordinary strength, the opening 11
Crack width 0.1m in the concrete near the corner 12
When a crack 13 of about m is generated, the deformed reinforcing bar 14 locally pulls and yields at the position of the crack 13 at the same time when the crack 13 is generated, so that it is not possible to effectively restrain the subsequent increase in the crack width.

Therefore, once the crack 13 having a crack width of about 0.1 mm occurs, as will be described below,
There is a problem that the crack width develops relatively easily to the extent of exceeding 0.3 mm, which is said to deteriorate the durability of the building.

That is, when a crack 13 of about 0.1 mm occurs in concrete, the crack 13 is sandwiched between the cracks 5
When the deformed reinforcing bar 14 having a diameter of about 10 mm is used, the adhesive strength of the reinforcing bar 14 is reduced within a range of D (D: diameter of the reinforcing bar), and concrete is 0.1 mm / ((10 mm)
Distortion of about × 5) = 2 × 10 −3 occurs.

Since this strain amount exceeds the yield strain amount of 1.5 × 10 −3 of the deformed rebar 14 having normal strength, the deformed rebar 14 having normal strength undergoes tensile yield. For this reason, the deformed bar 14 of ordinary strength against the subsequent increase in strain is
The reinforcing effect cannot be exerted. And the crack width is
It progresses relatively easily to the extent of exceeding 0.3 mm, which is said to deteriorate the durability of the building.

On the other hand, for the minute deformation as considered here, for the reasons explained below, the irregularity of the surface of the deformed rebar 14 alone does not provide sufficient adhesive force for the concrete and requires concrete. It is believed that they cannot be restrained to some extent.

That is, after the mold is removed from the mold 3 to 4 days after the concrete is poured, the concrete starts to be dried, and the drying shrinkage also starts. At this time, since the time since the concrete was placed is short,
The strength is not sufficiently developed and is about half of the design standard strength.

In proportion to this, the adhesion strength of concrete (about 1/10 of compressive strength) is also low, and the unevenness of the reinforcing bar surface alone does not sufficiently transmit the distortion of the concrete to the reinforcing bar, and the reinforcing effect of the reinforcing bar is sufficient. It cannot be demonstrated to.

When 7 days or more have passed from the placing of concrete, the concrete strength reaches the design standard strength and the adhesion strength becomes sufficiently high.

As described above, the conventional reinforcing structure in which the bar-shaped deformed bar 14 is simply laid out has a problem in that the desired effect cannot be obtained.

The object of the present invention is to solve the above problems, and the development of cracks generated in the vicinity of the corners of the openings formed in the reinforced concrete member and the portion where the cross-sectional area changes abruptly. It is a technical object to provide a corner reinforced structure of a reinforced concrete member capable of preventing the above-mentioned problem and improving the adhesive force of the reinforcing bar to the concrete.

[0015]

The present invention is a corner reinforced structure for a reinforced concrete member, and is configured as follows in order to solve the above-mentioned technical problems. That is, the present invention is a reinforcing structure for preventing the occurrence and development of cracks in the vicinity of the corner of the opening formed in the reinforced concrete member, or in the vicinity of the corner of the portion where the cross-sectional area changes abruptly, and has a normal strength ( 295 N / mm ² ) high-strength (6855-1,275 N / mm ² ) deformed rebar or high-strength reinforcing bar formed by deformed PC steel bar, which has higher yield strength and tensile strength than deformed rebar. It is characterized in that it is arranged near the corner.

According to the corner reinforcing structure of the reinforced concrete member, the high-strength reinforcing bar formed by the high-strength deformed bar or the deformed PC steel bar is 2.3 to 10% of the normal-strength bar.
It has 4.3 times the yield strength and its yield strain is 3.3 x 1
It is about 0-3 to 6.2 × 10-3, and the high-strength reinforcing bar does not yield even if a minute crack with a crack width of about 0.1 mm occurs in concrete.

Therefore, even if the above-mentioned cracks occur, the concrete can be sufficiently restrained by the high-strength reinforcing bars, so that the development of the cracks can be effectively prevented, and for example, cracks having a width of 0.1 mm can be formed. Even if it occurs, the crack width can be prevented from progressing to 0.3 mm, which is considered to adversely affect the durability of the building.

Further, the high-strength deformed bar or deformed PC steel bar used for the high-strength reinforcing bar of the present invention has a yield strength of 2.3 to 4.3 times that of a normal-strength deformed bar as described above. Therefore, as for the ultimate yield strength at the corners, it is possible to obtain a higher ultimate yield strength with a smaller amount of reinforcement as compared with the case of using the conventional deformed reinforcing bar of ordinary strength.

Further, the tensile strength (Young's modulus) of the high-strength deformed bar or the deformed PC steel bar used for the high-strength reinforcing bar of the present invention is the same as that of the conventionally-strength deformed bar of ordinary strength, which causes cracking. The prevention has the same effect as the conventional one.

On the other hand, in order to reduce the cracking of concrete, it is necessary that the concrete and the reinforcing member work together. Therefore, in the present invention, the reinforcing bar is appropriately formed with a ring or a hook. As a result, when the mold is released from the mold, the strength of the concrete development is insufficient and the bond strength is low.
Reinforcement rings and hooks get caught in concrete,
The strength of the concrete (about 1 to 3 times the compressive strength) enhances the integrity with the concrete, and even small strains in the concrete can be transmitted to the reinforcing bar, so that the effect of the reinforcing bar can be exhibited.

That is, in the present invention, the shape of the high-strength reinforcing bar has an oval ring portion, a linear portion extending from both ends of the ring portion, and a hook portion provided at the tip of the linear portion. A shape or a circular ring portion, an L-shaped portion extended from the ring portion, and a hook portion provided at both ends of the L-shaped portion are formed.

By forming the high-strength reinforcing bar in such a shape, the integrity of the high-strength reinforcing bar and the concrete can be enhanced, and a high reinforcing effect can be exerted even for minute deformation.

Further, the reinforcing effect can be enhanced by using other shapes of high strength reinforcing bars. For example, the high-strength reinforcing bar is substantially L-shaped, each side forming the L-shape is elongated U-shaped, and hook portions are provided at both ends of the U-shape so that each side of the L-shape is a corner. Place along both sides of the section,
Alternatively, the high-strength reinforcing bar is formed into a rectangular mesh shape by welding long and short linear members vertically and horizontally, and the substantially center of the rectangle is arranged in the vicinity of the corner, and the long side of the rectangle is the corner. It can be arranged diagonally to both sides of the part.

Thus, by forming the high-strength reinforcing bar in a U shape or a mesh shape, a bar-shaped reinforcing bar is provided with a double or multiple overlapping portion, and the overlapping portion is formed on the crack line where generation is expected. By arranging them, the effective cross-sectional area of the high-strength reinforcing bar can be increased by a factor of two or more, so that a high reinforcing effect can be obtained in combination with the above-mentioned improvement of the adhesion performance.

Further, the cross-sectional shape of the high-strength reinforcing bar of the present invention is the same as that of the conventional deformed reinforcing bar, it can be easily accommodated with the wall reinforcing bar and the slab reinforcing bar, and it does not hinder concrete pouring.
Furthermore, high-strength deformed reinforcing bars and deformed PC used for high-strength reinforcing bars
The cost of steel bars is slightly higher than that of ordinary strength deformed bars. For these reasons, the high-strength reinforcing bar of the present invention is very easy to carry and install, and
The workability is very good and the production cost is low.

[0026]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of a corner reinforcing structure for a reinforced concrete member according to the present invention will be described below in detail with reference to the drawings. (First Embodiment) FIG. 1 is a view showing a reinforced concrete wall 5 of a first embodiment to which a corner reinforcing structure of a reinforced concrete member of the present invention is applied. The reinforced concrete wall 5 is provided with a square opening 51 in the substantially central portion thereof. Four corners (corners) in this opening 51
In the vicinity of 52, 52 ..., High-strength reinforcing bars 53, 53 ... In FIG. 1, reference numeral 54 is a pillar, 55 is a beam, and 57 and 58 are both sides of the corner portion 52.

The high-strength reinforcing bar 53 has a normal strength (295 N).
/ Mm ² ) Higher strength than deformed rebar (685-1, 2
75 N / mm ² ) deformed rebar, as described below,
It has a shape that can be easily fixed on concrete. The cross-sectional shape of the high-strength reinforcing bar 53 is the same as that of a normal-strength deformed reinforcing bar, and many irregularities are formed on its surface.

As described above, from 3 to 3
Although it is removed from the mold after 4 days, the strength of the concrete is not sufficiently expressed at this time, and the adhesive strength of the concrete is proportionally low, and the unevenness of the surface of the reinforcing bar alone causes sufficient distortion of the concrete to the reinforcing bar. Therefore, the reinforcing effect of the reinforcing bar is not sufficiently exerted. That is, in order to reduce the cracking of concrete, it is necessary that the concrete and the reinforcing member work together.

Therefore, the high-strength reinforcing bar 53 of the present invention is formed by appropriately forming a ring and a hook, so that the ring and the hook of the high-strength reinforcing bar 53 are insufficient at the time of demolding, where the concrete developing strength is insufficient and the adhesive strength is low. Is caught on the concrete, the supporting force of the concrete enhances the integrity with the concrete, and even a small strain of the concrete can be transmitted to the high-strength reinforcing bar 53, so that the effect of the high-strength reinforcing bar 53 can be exerted.

That is, the high-strength reinforcing bar 53 is, as shown in FIG. 2, an oval ring portion 62 and this ring portion 62.
Has straight portions 60, 60 extending from both ends thereof, and hook portions 61, 61 provided at the tips of these straight portions 60, 60. With such a shape, the integrity with concrete can be improved.

As shown in FIG. 3, the high-strength reinforcing bar 53 has linear portions 60, 60 substantially orthogonal to the crack 56 which is expected to occur in the vicinity of the corner 52, and the ring portion 62. Are arranged so as to overlap the cracks 56. As a result, the effective cross-sectional area of the high-strength reinforcing bar 53 with respect to the crack 56 can be doubled, so that the reinforcing effect can be sufficiently exerted.

The high-strength reinforcing bar 53 has a yield strength that is 2.3 to 4.3 times that of ordinary-strength deformed bar, and its yield strain is 3.3 × 10 −3 to 6.2 × 10. It is about -3. Therefore, even if a minute crack 56 with a crack width of about 0.1 mm occurs in the concrete, the high-strength reinforcing bar 53
Will not surrender.

Therefore, a crack 56 is formed near the inside corner 52.
Even if the cracks occur, the concrete can be sufficiently restrained by the high-strength reinforcing bars 53, so that it is possible to effectively prevent the crack width from expanding, and for example, 0.
A crack width of about 1 mm does not progress to 0.3 mm, which is considered to adversely affect the durability of the building.

Further, since the high-strength deformed bar used for the high-strength reinforcing bar 53 of the present invention has a yield strength 2.3 to 4.3 times that of the normal-strength deformed bar as described above, Regarding the ultimate yield strength of the corner portion 52, it is possible to obtain a higher ultimate yield strength with a small amount of reinforcement, as compared with the case where a deformed reinforcing bar of ordinary strength is used as in the conventional case.

Further, the tensile strength (Young's modulus) of the high-strength deformed reinforcing bar used for the high-strength reinforcing bar 53 of the present invention is the same as that of the ordinary-strength deformed reinforcing bar which has been conventionally used, and the cracking is prevented by the conventional method. Has the same effect as.

The high-strength reinforcing bar 53 has the same cross-sectional shape as that of the conventional deformed reinforcing bar, fits well with the wall reinforcing bar and the slab reinforcing bar, and does not hinder concrete pouring.
The cost of the high strength deformed bar used for the high strength reinforcing bar 53 is also
Slightly higher than ordinary strength deformed bar. Therefore, the high-strength reinforcing bar 53 of the present invention is very easy to carry and attach, has excellent workability, and is inexpensive to manufacture.

Furthermore, the high-strength reinforcing bar 53 of the present invention can be made relatively small and lightweight, and the optimum size and number can be selected according to the construction conditions. (Second Embodiment) FIG. 4 shows a reinforced concrete wall 7 according to a second embodiment of the present invention. In this reinforced concrete wall 7, instead of the high-strength reinforcing bar 53 of the reinforced concrete wall 5 of FIG. 1, substantially L-shaped high-strength reinforcing bars 70, 70 ... Are arranged near the corner 52. Other than that, it is the same as the reinforced concrete wall 5 of FIG.

The high-strength reinforcing bar 70 of the reinforced concrete wall 7 has a circular ring portion 73, as shown in FIG.
L-shaped portions 71, 71 extended from the ring portion 73,
The L-shaped portions 71, 71 have hook portions 72, 72 provided at the tips of the respective sides.

As shown in FIG. 6, the high-strength reinforcing bar 70 is arranged such that both sides of the L-shaped portions 71, 71 are arranged along both sides 57, 58 of the corner portion 52 in the opening 51. The reinforced concrete wall 7 has the same effect as the reinforced concrete wall 5 described above. (Third Embodiment) FIG. 7 shows a reinforced concrete wall 8 according to a third embodiment of the present invention. This reinforced concrete wall 8 uses, in place of the high-strength reinforcing bar 53 of the reinforced concrete wall 5 of FIG. 1, a substantially L-shaped high-strength reinforcing bar 80 having doubled sides. Others are similar to the reinforced concrete wall 5.

As shown in FIG. 8, the high-strength reinforcing bar 80 has U-shaped sides 81 and 81 forming an L-shape.
It is formed in a letter shape and has hook portions 82 and 83 at both ends thereof. Then, the hook portions 82, 8 of the respective sides 81, 81
The end portion on the opposite side of 3 is joined by welding to form an L-shape. As shown in FIG. 9, the high-strength reinforcing bar 80 has sides 81, 81 on both sides 57, 58 of the inner corner portion 52.
Are arranged along.

This reinforced concrete wall 8 also has the same effect as the above-mentioned reinforced concrete wall 5. In particular,
Since both sides 81, 81 of the high-strength reinforcing bar 80 have a shape in which the reinforcing bars are doubled, the effective cross-sectional area is doubled and the reinforcing effect is enhanced. (Fourth Embodiment) FIG. 10 shows a reinforced concrete wall 9 according to a fourth embodiment of the present invention. This reinforced concrete wall 9 is obtained by replacing the high-strength reinforcing bar 53 of the reinforced concrete wall 5 of FIG. 1 with a mesh-shaped high-strength reinforcing bar 90. Others are the reinforced concrete wall 5 of FIG.
Is the same as.

As shown in FIG. 11, the high-strength reinforcing bar 90 has a rectangular mesh shape in which a straight long-side member 91 and a short-side member 92 are connected vertically and horizontally with a pitch of about 50 mm. Has been formed.

As shown in FIG. 10, the high-strength reinforcing bar 90 is arranged such that the center of the long side member 91 is arranged near the corner 52 and the long side member 91 has both sides 57 of the corner 52. ，
It is arranged obliquely with respect to 58.

Further, the long side member 91 is substantially orthogonal to the crack 56 expected to occur in the vicinity of the entering corner portion 52, and the substantially central portion of the long side member 91 is located on the crack 56. It is located in.

This reinforced concrete wall 9 has the same function and effect as the above-mentioned reinforced concrete wall 5. Also,
The high-strength reinforcing bar 90 is easy to manufacture because it only connects the linear long-side member 91 and the short-side member 92. (Fifth Embodiment) FIG. 12 shows a high-strength reinforcing bar 100 according to a fifth embodiment of the present invention. This high strength reinforcement 100
Like the high-strength reinforcing bar 53 shown in FIG. 2, is formed by a high-strength deformed reinforcing bar, and has an oval ring portion 62 and straight portions 60 extending from both ends of the ring portion 62. , 60 and hook portions 61, 61 provided at the tips of these linear portions 60, 60.

Further, in this high strength reinforcing bar 100, both ends 101, 101 of a portion where the straight line portions 60, 60 and the ring portion 62 overlap each other are joined by spot welding. As a result, the rigidity and strength of the high-strength reinforcing bar 100 can be further increased.

Incidentally, also in the high-strength reinforcing bars 53, 70, 80 shown in FIGS. 1 to 11, the portions where the reinforcing bars intersect can be spot-welded, whereby rigidity and strength can be increased. (Sixth Embodiment) FIG. 13 shows a high-strength reinforcing bar 105 according to a sixth embodiment of the present invention. This high-strength reinforcement 105
Is formed into a shape similar to that of the high-strength reinforcing bar 100 of FIG. 12 by joining two substantially S-shaped divided pieces 106 and 107. The divided pieces 106 and 107 have the same shape, and the hook portions 6 facing each other are provided at both ends thereof.
It has 1, 61.

The divided pieces 106 and 107 are arranged on the left and right in the opposite directions, and the ends on the opposite sides are overlapped with each other to form the hook portions 61, 107.
In the state where the ring portion 62 is formed by 61, the end edges 108, 108 of the hook portions 61, 61 are welded to each other.

This high-strength reinforcing bar 105 is relatively easily bent even if a high-strength reinforcing bar that is difficult to bend is used by dividing the whole into two simple divided pieces 106 and 107. It is possible to improve the efficiency in mass production.

The high-strength reinforcing bar 105 has both ends 10 of the portion where the ring portion 62 and the straight portion 60 overlap.
1, 101 can also be joined by spot welding, which can further increase rigidity and strength. (Seventh Embodiment) FIG. 14 shows a high-strength reinforcing bar 110 according to a seventh embodiment of the present invention. This high strength reinforcement 110
Is the ring portion 62 of the high-strength reinforcing bar 105 shown in FIG.
Is oriented in the same direction as the hook portion 61.

That is, this high-strength reinforcing bar 110 is 2
It is one in which individual divided pieces 111 and 112 are joined,
Each of the divided pieces 111 and 112 has a linear portion 113 and hook portions 61 and 61 provided at both ends thereof so as to be oriented in the same direction.

Then, these divided pieces 111, 11
2 are arranged on the left and right in the same direction, and the ends on the opposite sides are overlapped, so that both hook portions 6
In a state where the ring portion 62 is formed by 1, 1, the end edges 114, 114 of the hook portions 61, 61 are butted and welded to each other.

As shown in FIG. 15, the high-strength reinforcing bar 110 has an elliptical ring portion 62 and a J-shaped hook portion 6.
The virtual plane formed by each of 1 and 61 can be arranged so as to be substantially parallel to the wall surface 116 of the reinforced concrete wall 115. In this case, the size of the ring portion 62 and the hook portions 61, 61 can be arbitrarily set regardless of the thickness of the concrete wall 5, and the mounting work becomes easy.

The high strength reinforcing bar 110 is shown in FIG.
As shown in (A) and (B), the virtual plane formed by each of the ring portion 62 and the hook portions 61, 61 can be arranged so as to be substantially perpendicular to the wall surface 116.

In this case, as shown in FIG. 16B, the sizes of the ring portion 62 and the hook portions 61, 61 are
Reinforcing bars 117,1 on both sides of the reinforced concrete wall 115
It is necessary to set it so that it enters between 17 but three high-strength reinforcing bars forming the ring portion 62 are formed in the corner portion 5 of the opening 51.
Since it is arranged close to 2, the reinforcing effect is high. (Eighth Embodiment) FIG. 17 shows a high-strength reinforcing bar 120 according to an eighth embodiment of the present invention. This high strength reinforcing bar 120
13 is such that the virtual plane formed by the ring portion 62 and the virtual plane formed by the hook portions 61, 61 are substantially perpendicular to each other.
This is the same as the high-strength reinforcing bar 105.

As shown in FIG. 18, the high-strength reinforcing bar 120 is arranged so that the virtual plane formed by the hook portions 61, 61 is substantially parallel to the wall surface 116 of the reinforced concrete wall 115, and the ring portion 62 is used. The formed virtual plane can be arranged so as to be substantially perpendicular to the wall surface 116.

As a result, the work of arranging is facilitated, and the ring portion 62 is formed at the corner 52 of the opening 51.
Since the high-strength reinforcing bars of the book are arranged close to each other, the reinforcing effect is improved. (Ninth Embodiment) FIGS. 19A and 19B are high-strength reinforcing bars 125 and 135 of a ninth embodiment according to the present invention, respectively.
Indicates. These high-strength reinforcing bars 125 and 135 are composed of two divided pieces 126 and 127 having the same shape and different sizes.
Are joined together.

Each of the divided pieces 126 and 127 has linear portions 128 and 129 and the linear portions 128 and 12, respectively.
Hook parts 130, 13 provided at the both ends of 9 in the same direction
It has 0, 131 and 131.

Then, the high-strength reinforcing bar 12 shown in FIG.
5 is a state in which the hook portions 130 and 131 are oriented in opposite directions, and the straight portions 128 and 1 of the divided pieces 126 and 127 are
29 are overlapped and appropriate portions 132, 132
Are joined by spot welding.

In addition, the high strength reinforcing bar 135 of FIG.
With the hooks 130 and 131 in the same direction,
The straight portions 128 and 129 of the divided pieces 126 and 127 are overlapped and joined by spot welding the appropriate portions 132 and 132.

These high strength reinforcing bars 125 and 135 are
Only spot welding the linear parts 128 and 129,
Unlike the high-strength reinforcing bar described above, it is not necessary to butt the edges of the split pieces and perform flash butt welding,
Welding work is easy and costs can be reduced.

By arranging the virtual plane formed by the hooks 130 and 131 in parallel with the wall surface,
When viewed from above, the entire width is only one rebar, which makes it easier to place concrete. This also applies to the above-mentioned high-strength reinforcing bar.

In the above-mentioned first to tenth embodiments,
The present invention is applied to a reinforced concrete wall 5, 7, 8, 9, 115
However, the present invention can be applied to reinforced concrete slabs and the like. Also,
In the above-described embodiment, the case where the present invention is applied to the corner of the opening has been described, but the present invention can also be applied to a portion such as a stepped portion of a reinforced concrete structure member where the cross-sectional area changes abruptly.

Further, in the above-mentioned embodiment, the high strength reinforcing bars 53, 70, 80, 90, 100, 105, 110, 1
Although high-strength deformed bar was used as 20,125,135, instead of this, high strength (685-1,275 N / m
the deformed PC steel rod of m ²⁾ can be used.

[0065]

As described above, according to the present invention,
Because the corners are reinforced by high-strength deformed rebar having a yield strength of 2.3 to 4.3 times that of ordinary-strength deformed rebars and high-strength reinforcing bars formed by deformed PC steel bars, Even if the concrete cracks with a width of about 0.1 mm, the high-strength reinforcing bar does not yield.

Therefore, even if a crack having a width of about 0.1 mm is generated, the concrete can be sufficiently restrained by the high-strength reinforcing bars, so that the width of the crack adversely affects the durability of the building. It is possible to effectively prevent the extension to 0.3 mm. this is,
This was not possible with conventional ordinary strength reinforcing bars.

Further, the high-strength reinforcing bar of the present invention can enhance the integrity with concrete by appropriately providing the ring portion and the hook portion, or by forming them in the shape of a mesh, and against a slight deformation. Can also have a high reinforcing effect.

[Brief description of drawings]

FIG. 1 is a view showing a first embodiment of a corner reinforcing structure for a reinforced concrete structure member according to the present invention.

FIG. 2 is a diagram showing a high-strength reinforcing bar of the first embodiment according to the present invention.

FIG. 3 is a diagram showing an arrangement of high-strength reinforcing bars according to the first embodiment of the present invention.

FIG. 4 is a diagram showing a second embodiment of a corner reinforcing structure for a reinforced concrete structure member according to the present invention.

FIG. 5 is a diagram showing a high-strength reinforcing bar of a second embodiment according to the present invention.

FIG. 6 is a diagram showing an arrangement of high-strength reinforcing bars according to a second embodiment of the present invention.

FIG. 7 is a diagram showing a third embodiment of a corner reinforcing structure for a reinforced concrete structure member according to the present invention.

FIG. 8 is a diagram showing a high-strength reinforcing bar of a third embodiment according to the present invention.

FIG. 9 is a diagram showing an arrangement of high-strength reinforcing bars according to a third embodiment of the present invention.

FIG. 10 is a view showing a fourth embodiment of the corner reinforcing structure for a reinforced concrete structure member according to the present invention.

FIG. 11 is a diagram showing a high-strength reinforcing bar of a fourth embodiment according to the present invention.

FIG. 12 is a diagram showing a high-strength reinforcing bar of a fifth embodiment according to the present invention.

FIG. 13 is a diagram showing a high-strength reinforcing bar of a sixth embodiment according to the present invention.

FIG. 14 is a diagram showing a high-strength reinforcing bar of a seventh embodiment according to the present invention.

FIG. 15 is a view showing a usage example of the high-strength reinforcing bar of the seventh embodiment according to the present invention.

16 (A) is a diagram showing an example of using the high-strength reinforcing bar of the seventh embodiment according to the present invention, and FIG. 16 (B) is FIG.
It is an XX sectional view of (A).

FIG. 17 (A) is a diagram showing a high-strength reinforcing bar of an eighth embodiment according to the present invention, FIG. 17 (B) is a view taken in the direction of arrow Y of FIG. 17 (A), and FIG. 17 (C) is It is a Z arrow line view of FIG. 17 (A).

FIG. 18 is a view showing a usage example of the high-strength reinforcing bar of the eighth embodiment according to the present invention.

FIG. 19 is a view showing a high-strength reinforcing bar of a ninth embodiment according to the present invention.

FIG. 20 is a view showing an opening reinforcing structure of a reinforced concrete wall according to a conventional example.

[Explanation of symbols]

5,7,8,9,115 Reinforced concrete wall 51 Opening 52 Entry corner (corner) 53,70,80,90,100,105,110,1
20, 125, 135 High-strength reinforcing bar 56 Crack 57, 58 Both sides 60, 71, 81, 113, 128, 129 Corner portion Straight portion 61, 72, 82, 130, 131 Hook portion 62, 73 Ring portion

Claims (5)

[Claims] 1. A reinforcing structure for preventing the occurrence and development of cracks in the vicinity of the corner of an opening formed in a reinforced concrete member, or in the vicinity of the corner of a portion where the cross-sectional area changes abruptly, and having a normal strength (295N / mm ² approximately) as compared to the deformed bar yield strength and tensile strength higher high strength (685～
1,275 N / mm ² ) Deformed reinforcing bars or deformed PC steel rods having high strength reinforcing bars are arranged in the vicinity of the corners. 2. In order to prevent the occurrence and development of cracks in the vicinity of the corners of the openings formed in the reinforced concrete member or in the vicinity of the corners of the portion where the cross-sectional area changes abruptly, the yield strength is higher than that of deformed rebars of ordinary strength. A high-strength deformed rebar having high strength and tensile strength or a high-strength reinforcing bar formed by a deformed PC steel rod is arranged near the corner, and the high-strength reinforcing bar is an oval ring. A corner reinforcing structure for a reinforced concrete member, comprising: a portion, a straight portion extending from both ends of the ring portion, and a hook portion provided at a tip of the straight portion. 3. In order to prevent the occurrence and development of cracks in the vicinity of the corner of the opening formed in the reinforced concrete member or in the vicinity of the corner where the cross-sectional area changes abruptly, the yield strength is higher than that of deformed rebar of ordinary strength. A high-strength deformed reinforcing bar having high strength and tensile strength or a high-strength reinforcing bar formed by a deformed PC steel rod is arranged in the vicinity of the corner, and the high-strength reinforcing bar has a circular ring portion. And a L-shaped portion extending from the ring portion, and hook portions provided at both ends of the L-shaped portion, a corner reinforcing structure for a reinforced concrete structure member. 4. In order to prevent the occurrence and development of cracks in the vicinity of the corners of the openings formed in the reinforced concrete member or in the vicinity of the corners of the portion where the cross-sectional area changes abruptly, the yield strength is higher than that of deformed rebars of ordinary strength. A high-strength deformed rebar having high strength and tensile strength or a high-strength reinforcing bar formed by a deformed PC steel rod is arranged near the corner, and the high-strength reinforcing bar is substantially L-shaped. Yes, each side that forms the L-shape is an elongated U-shape, and there are hook portions at both ends of the U-shape, and each side of the L-shape is arranged along both sides of the corner. A corner reinforced structure for reinforced concrete members. 5. In order to prevent the occurrence and development of cracks in the vicinity of the corner of the opening formed in the reinforced concrete member or in the vicinity of the corner of the portion where the cross-sectional area changes abruptly, the yield strength is higher than that of deformed rebar of ordinary strength. A high-strength deformed rebar having high strength and tensile strength or a high-strength reinforcing bar formed by a deformed PC steel rod is arranged in the vicinity of the corner, and the high-strength reinforcing bar is a long or short linear member. Are formed in a rectangular mesh shape by being joined vertically and horizontally, and substantially the center of the rectangle is arranged in the vicinity of the corner, and the long sides of the rectangle are arranged obliquely with respect to both sides of the corner. A corner reinforced structure for reinforced concrete members.