JPH0197744A - Shearing reinforcing structure of shear head section in flat plate building - Google Patents

Abstract

PURPOSE: To enhance the shear strength of a shear head part by arranging on the shear head part a plurality of PC steel rods connected together at their upper ends, in such a way that the PC steel rods are extended radially about a column and located in positions where they intersect an imaginary shear plane. CONSTITUTION: This shear reinforcement structure is for a shear head part 10 which serves as a joint between a flat plate-shaped slab 12 and a column 11. A plurality of PC steel rods 17 are arranged on the shear head part 10 and in positions where they intersect an imaginary shear plane 21 generated on the shear head part 10, in such a way that the steel rods 17 are extended radially about the column 11 on plan view and slanted so that their centers are located above their outer peripheries. The PC steel rods 17 have their respective upper ends connected together by a ring member 19 and have their respective lower ends either connected together by a ring member 20 or buried in a precast concrete panel around the column 11. Therefore, each PC steel rod 17 resists a tension applied to the imaginary shear plane 21, enhancing shear strength.

Description

DETAILED DESCRIPTION OF THE INVENTION "Field of Industrial Application" The present invention relates to a shear reinforcement structure for a shear head portion, that is, a joint portion between a slab and a column in a flat plate structure building.

"Prior Art and its Problems" A flat plate structure has been known as one of the structural types of buildings. Flat plate structure is a type of flat slab structure in which a flat slab is supported by pillars without using beams, but the capital (column enlarged part) that is provided in the case of general flat slab structure is omitted.
As shown in FIG. 5, the slab 2 is directly joined to the column head of a column 1 having an equal cross section. In addition,
Reference numeral 1' is a pillar on the upper floor.

In such a flat plate structure, a large shearing force is applied to the shear head portion 3, that is, the joint between the column l and the slab 2, so the shear strength of the shear head portion 3 must be sufficiently increased. For this reason, conventionally, shear reinforcing bars 4 as shown in FIG.
The reinforcing bars 4 are arranged so as to intersect with the virtual shear plane 5 as shown by the broken line, and the virtual shear plane 5 is
The shear resistance is increased by resisting the tensile force acting on the material.

However, in order for sufficient shear reinforcing effect to be exerted by the above-mentioned reinforcing bars 4..., the required number of reinforcing bars 4 is extremely large, generally reaching several dozen.
For this reason, reinforcing bars for bending reinforcement in slab 2 (not shown)
In addition, a large number of reinforcing bars intersect with each other in the shear head section 3, and therefore, if the reinforcing bars are arranged in the shear head section 3, reinforcing work becomes extremely difficult. Further, since a large number of reinforcing bars are arranged, there is a possibility that the shear head portion 3 may not be sufficiently filled with concrete during concrete pouring.

This invention was made in view of the above circumstances, and an object thereof is to provide an effective shear reinforcing structure for a shear head portion.

"Means for Solving the Problems" In order to achieve the above object, the first invention provides the above-mentioned flat plate structure building in which a flat slab is joined to and supported by the head of a column. A shear reinforcement structure for a shear head portion that is a joint between a slab and the column,
By arranging a plurality of PGI1 rods in the shear head part radially around the pillar in plan view and diagonally so that the center side is located above the outer peripheral side,
It is characterized in that these PC steel bars intersect with a virtual shear plane generated in the shear head portion, and the upper and lower ends of these PC steel bars are connected to each other.

Further, a second invention provides a shear reinforcement structure for a shear head portion that is a joint portion between the slab and the column in a flat plate structure building in which a flat slab is supported by being joined to the former column head. In the shear head portion,
By arranging a plurality of PC steel bars radially around the pillar in a plan view and diagonally so that the center side is located above the outer circumferential side, a virtual shear surface generated by the PC steel bars at the shear head part is created. The upper ends of these PC steel bars are connected to each other, and the lower ends of these PC steel bars are placed in a precast concrete slab placed around the column at the bottom of the shear head part. It is characterized by the fact that it is buried, and reinforcing bars that serve as bending reinforcing bars for the slab are buried in the precast concrete slab.

"Function" In the shear reinforcing structure of the present invention, PC steel rods, which have much higher tensile strength than reinforcing bars, are arranged to intersect with the virtual shear plane that occurs in the shear head.
The steel rod resists the tensile force acting on the virtual shear plane, improving the shear strength of the shear head and effectively preventing shear failure.

``Example'' Hereinafter, an example of the present invention will be described with reference to the drawings.

First, a first embodiment will be described with reference to FIGS. 1 and 2. FIG. 1 is an elevational sectional view of a shear head portion 10 according to the structure of the first embodiment, and FIG. 2 is a plan sectional view thereof, in which reference numeral 11 denotes a column! 1' is the column on the upper floor, 12 is the slab joined to the column head of column 11, and 13.14 is the slab 12.
Upper end reinforcement and lower end reinforcement for bending reinforcement arranged inside, 15
... is P for introducing prestress into slab 12
It is C steel wire. Each of the above components is the same as in the conventional general flood plate structure, but in this embodiment, a reinforcing member 16 is arranged in the shear head part 10 to increase the shear strength of the shear head part 10. There is.

This reinforcing member 16 includes a plurality of (12 in this example) P
C steel bars 17... are arranged radially around the pillar 11 in plan view as shown in FIG. 2, and diagonally so that the center side is located above the outer peripheral side as shown in FIG. The upper and lower ends of the PCA rods 17 are respectively fastened to ring members 19 and 20 made of steel plates by nuts 18.

The PCA rods 17 in the reinforcing member 16 have much better tensile strength than reinforcing bars of the same diameter, and these PC steel bars 17 are arranged diagonally. As a result, it intersects with a virtual shear plane 21 (shown by a broken line in FIG. 1) generated at the shear head portion lO. Note that the external dimensions of the reinforcing member 16 (diameter dimensions of the ring member 20) are within the range where shear reinforcement is required, that is, as shown in FIG. , and as a result, each PCw4 rod 17...
It intersects with all the virtual shear planes 21 including the virtual shear plane 21a located at the outermost periphery.

The reinforcing member 16 described above is assembled in advance into a predetermined shape and size, and then transported to the site and used. In order to arrange this reinforcing member 16 on the shear head part 10, after assembling the column form and floor form (both not shown), it is necessary to install it horizontally on the upper part of the floor form with a spacer 22 interposed therebetween. After that, the lower end reinforcement 14..., the upper end reinforcement 13..., and the PC steel wire 15... are arranged in the upper part of the floor formwork, and then inside the column formwork and on the floor formwork. If concrete is poured on each column, column 11. Slab 12
At the same time as the reinforcing member 16 is formed, the reinforcing member 16 is buried in the concrete, and the construction of the shear head portion IO is completed.

Note that the head of the reinforcing member 16, that is, the ring member 19 is exposed from the upper surface of the slab 12, but this part is not connected to the column l on the upper floor.
Once the hole is formed, it will be buried in its lower end.

A reinforcing member 16 as described above is arranged on the shear head portion 10,
The PC steel rod 17 of the reinforcing member 16... is the virtual shear surface 2
In the structure of this embodiment, these PC steel rods 17... cross the virtual shear plane 2.
1 and thus the shear capacity of the shear head IO is sufficiently enhanced. And PCf
! Since the i4 rods 17... have much better tensile strength than reinforcing bars, the required number of bars is smaller than when reinforcing shear with reinforcing bars. There is no difficulty in accommodating the reinforcing bars or reinforcing work, and the concrete filling properties of the shear head portion 10 are not deteriorated.

Also, each PC, w stick! 7... are connected to each other by ring members 19 and 20 at their upper and lower ends, respectively, so when performing shear reinforcement with reinforcing bars, sufficient strength is required to anchor the reinforcing bars to the concrete. While the fixing length is required, the above reinforcing member 1
6, it is not necessary to ensure a fixing length for the PCC frame rods 17. Moreover, the ring member 20 connecting the lower ends of the PC steel bars 17 can also exhibit a confining effect to suppress deformation when compressive force is applied to the slab 12. It is.

The first embodiment has been described above, and next, the second embodiment will be described with reference to FIGS. 3 and 4.

In FIGS. 3 and 4, the same components as in the first embodiment are designated by the same reference numerals.

In this second embodiment as well, a reinforcing member 3° for increasing the shear strength is provided in the shear head portion IO, as in the case of the first embodiment. Similar to the reinforcing member 16 in the first embodiment, the reinforcing member 30 in this second embodiment has a plurality of (12 in this example) PC steel bars 17...
The PC steel rods 17 are arranged radially around 1 and diagonally so that the center side is located above the outer circumferential side.
The upper end of the ring member 1 is connected to the nut 18 by the nut 18...
9, but the lower ends of these PC steel bars 17... are buried in a precast concrete slab (hereinafter referred to as PCM slab) 31, and the PC steel bars 17...
It is configured such that it is fastened to the a version 31 by nuts 18.

As shown in FIG. 4, the PCa version 31 has an approximately rectangular outer shape in plan view, and has a pillar in the center.
An opening 32 matching the cross-sectional shape of 1 is formed. Also, in this PCa version 31, there are 12 slabs.
Reinforcing bars 33, which serve as lower end reinforcements for bending reinforcement, are buried vertically and horizontally at predetermined intervals, and the ends of these reinforcing bars 33 each protrude a predetermined length from the outer periphery of the PCa plate 31. . In addition, some of the reinforcing bars 33...
Reinforcement is arranged across the opening 32 formed in the center of the Ca plate 31.

The above-mentioned reinforcing member 30 is manufactured in advance to a predetermined shape and size at a precast factory or the like, and then transported to the site and used. This reinforcing member 30 serves as a formwork when the PCa plate 31 pours concrete into the shear head portion 10. In other words, the construction of the shear head section 10 involves assembling a column formwork (not shown), then supporting the central part of the PCa plate 31 by the column formwork, placing the reinforcing member 30 on the shear head section 10, and then constructing the shear head section 10. The PCa plate 3 is placed on the outer circumferential side of the reinforcing member 30 arranged like this! A floor formwork (not shown) is assembled continuously on the lower surface of the floor formwork, and then lower end reinforcements 14 are arranged on the floor formwork and these lower end reinforcements 14 are embedded in the PCa plate 31. In addition to connecting the reinforcing bars 33... with the upper end reinforcing bars 13...
..., PCM line! 5... respectively, and then
Concrete may be placed inside the column formwork, on the top of the PCa plate 31, and on the top of the floor formwork. As a result, pillar 11. At the same time as the slab t2 is formed, the reinforcing member 30 is buried in the concrete, and the construction of the shear head portion IO is completed.

In the above-mentioned reinforcing member 30, each PC steel rod 17... intersects with all the virtual shear planes 21 generated in the shear head part 10, and the shear strength is sufficiently increased. In addition to strengthening the PCa version 31, shear head section I
Since it can be used as a formwork in the shear head section 10, it is possible to save labor in the floor formwork construction. The work of arranging reinforcement at the bottom end can be omitted and the workability is good. In addition, the reinforcing bars 33 buried in the PCa plate 31 and the lower end reinforcing bars 14 arranged on the floor formwork
. . . may be made by appropriate means such as welding or mechanical joining using a sleeve. Also,
By increasing the concrete strength of the PCa plate 31 in this reinforcing member 30, it is also possible to further increase the shear strength of the shear head portion IO in conjunction with the reinforcement of shear strength by the PC steel rods 17.

The present invention has been described in detail above, but the number of PC steel rods 17, the ring member 19.20, or the PCa version 3! It goes without saying that the shape and the like are not limited to the above embodiments, and may be changed as appropriate depending on design conditions and the like.

"Effects of the Invention" As explained in detail above, according to the first invention, a plurality of PC14Ms are installed in the sear head! are arranged radially so that the center side is located above the outer circumferential side.
Since the Cj14 rod was made to intersect the virtual shear plane,
These PC steel bars can resist the tensile force acting on the virtual shear surface, sufficiently increasing the shear strength, and by using PC steel bars, which have much superior tensile strength compared to reinforcing bars, the required number of bars can be reduced. Therefore, the reinforcing steel in the shear head part and reinforcement work are improved, and the concrete filling properties in the shear head part are not deteriorated.
Since the upper and lower ends of the steel rods are connected to each other, the 20W4 rod does not require any length to be anchored to the concrete.

According to the second invention, the lower end of the PCj64 bar is buried in a precast concrete slab, and the reinforcing bars serving as bending reinforcement for the slab are buried in the precast concrete slab. In addition to the effects achieved by the invention described above, form work and reinforcement work for the shear head section are simplified, resulting in excellent workability.

[Brief explanation of the drawing]

1 and 2 show a first embodiment of the present invention, FIG. 1 being a vertical cross-sectional view of a shear head portion, and FIG. 2 being a plan cross-sectional view. 3 and 4 show a second embodiment of the present invention, in which FIG. 3 is an elevational sectional view of the shear head section, and FIG.
The figure is a plan sectional view. FIG. 5 is an elevational sectional view showing a conventional reinforcement structure for a shear head part in a flat plate structure building. 10... Shear head part, 11... Pillar,
12...Slab, 16...Reinforcement member,
゛ 17...PC steel bar, 19.20...
...Ring member, 21...Virtual shear plane, 30.
...Reinforcement member, 31...Precast concrete plate, 33...Reinforcement bar.

Claims (2)

[Claims] (1) A shear reinforcement structure for a shear head portion that is a joint between the slab and the column in a flat plate structure building in which a flat slab is connected to and supported by the head of a column, comprising: By arranging a plurality of PC steel bars in the shear head part radially around the pillar in a plan view and diagonally so that the center side is located above the outer peripheral side, the PC steel bars can be placed in the shear head part. A shear reinforcement structure for a shear head part in a flat plate structure building, characterized in that the upper and lower ends of the PC steel bars are connected to each other so as to intersect with a generated virtual shear plane. (2) A shear reinforcement structure for a shear head portion that is a joint portion between the slab and the column in a flat plate structure building in which a flat slab is connected to and supported by the column head of a column, comprising: By arranging a plurality of PC steel bars in the shear head part radially around the pillar in a plan view and diagonally so that the center side is located above the outer circumference side, the PC steel bars can be placed in the shear head part. The upper ends of these PC steel rods are connected to each other so as to intersect with the generated virtual shear plane, and the lower ends of these PC steel rods are connected to a precast wire placed around the pillar at the bottom of the shear head part. buried in concrete slab,
A shear reinforcement structure for a shear head portion of a flat plate structure building, characterized in that reinforcing bars serving as bending reinforcing bars for the slab are buried in the precast concrete slab.