JPH0663297B2 - Flat plate slab method using sandwich panel - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a flat plate slab construction method using a sandwich concrete panel to further tightly bond a column and a flat plate slab.

(Prior Art) As a shear reinforcing means for a flat concrete slab, a method of increasing the thickness of the slab, a reinforcing method of a steel frame, a reinforcing bar, an iron plate or the like is generally performed.

(Problems to be Solved by the Invention) The above-mentioned conventional reinforcing means have problems that the work at the site is complicated and that the arrangement of the PC steel wire, the wiring, the reinforcing bar and the like requires labor.

This invention was conceived in order to solve the above-mentioned conventional problems, and its purpose is to reduce the number of work steps in the field, facilitate wiring and bar arrangement, and also connect columns and flat plate slabs. It is to provide a new construction method capable of obtaining a flat plate slab excellent in close shear strength.

(Problems to be solved by the invention) This invention according to the above-mentioned object uses a sandwich concrete panel formed by placing concrete between upper and lower steel plates, as a part of a stigma of a flat plate slab,
With the sandwich concrete panels, it seeks to increase the shear strength of flat plate slabs.

The sandwich concrete panel, the outer peripheral side of the steel plate arranged vertically with a required interval, closed by a steel plate,
The flat plate slab is made up of a flat box body with a column hole in the center of the upper and lower steel plates, and concrete placed inside the flat box slab. Formed. Further, the upper steel plate and the side steel plate of the panel have a large number of stud bolts, which enable the sandwich concrete panel and the post-cast concrete to be integrated.

The thickness of the sandwich concrete panel can be arbitrarily set including the thicknesses of the upper and lower steel plates. Further, since the lower steel plate also has a problem of fire resistance, it may be considered a fire resistant coating or the like, or it may be considered as a formwork by making it as thin as possible, but the upper steel plate is determined by calculation by design.

(Operation) In the cast flat plate slab according to the present invention, the shear strength is increased by the sandwich concrete panel forming a part of the stigma. The sandwich panel in which concrete is sandwiched between the upper and lower steel plates exhibits greater proof strength than the case where it is composed of concrete only, as is clear from the experiment of the confined effect due to the restraint by the steel plates.

Further, due to the blockage of the outer peripheral side of the upper and lower steel plates, the placement of the internal concrete becomes the opening of the peripheral edge of the column hole in contact with the column, so the internal concrete is easily restrained on the column side, and it becomes difficult to deform to the closed peripheral side, As a result, the shear strength is further increased by the combination of the strengths of concrete and steel plate.

(Example) In the figure, 1 is a sandwich concrete panel, which is a rectangular steel plate 3 in which four corners are obliquely cut and a column hole 2 is formed in the central portion 3.
4 are arranged vertically with a required space between them, and the upper and lower steel plates 3,
The flat box body is formed by closing the outer peripheral side of 4 with a side steel plate 5, and concrete 6 is cast from the opening at the peripheral edge of the column hole 2. A large number of stud bolts 7, 7 are planted on the surfaces of the upper steel plate 3 and the side steel plate 5.

The sandwich concrete panel 1 is installed on the stigma by inserting the main bar 9 of the pillar 8 into the pillar hole 2, and although not shown in the drawing, after installation, a slab formwork frame is formed at the same level as the lower surface of the lower steel plate 4, Furthermore, after laying PC steel wires and reinforcing bars, slab concrete is placed. Slab concrete is sandwich concrete panel 1
Further, the flat plate slab 10 is formed by being cast on the slab formwork, and the lower part of the slab around the stigma has a San-Gerache structure in which concrete is sandwiched between steel plates.

The strength of the concrete in the flat box body should be as high as possible. Shear strength of concrete is generally Indicated by.

Here, if the design strength is F _C = 300 kg / cm ² , τ ₁ = 1.36 kg / cm ^{2 If the} sandwich concrete part is F _C = 800 kg / cm ² , τ ₂ = 29.98 kg / cm ² τ ₂ / τ ₁ = 29.98 / 18.36 times, but 40 / 1.63 = 24.5c if the slab thickness is 40 cm
The same strength can be obtained at about m.

(Effect of the Invention) As described above, the present invention closes the outer peripheral sides of the steel plates 3 and 4 arranged vertically with a required space therebetween with the steel plate 5, and forms the column hole 2 in the central portion of the upper and lower steel plates 3 and 4. A sandwich concrete panel 1 is formed from the installed flat box body and the cast concrete 6 inside, and the sandwich concrete panel 1 is attached around the pillar as a part of the slab's stigma, and then slab concrete is poured. Further, since the sandwich concrete panel 1 forms the flat plate slab 10 having increased shear strength, it is not necessary to provide various reinforcements for increasing shear strength around the stigmas of the slab. Therefore, the wiring of the PC steel wire and the reinforcement of the reinforcing bar are facilitated, the labor required for the work is reduced, and the slab can be formed thinner than the conventional one, so that the weight is reduced.

[Brief description of drawings]

Drawing shows 1 of flat plate slab construction method according to the present invention.
FIG. 1 is a plan view of a sandwich concrete panel, FIG. 2 is a schematic sectional view of a pillar and a sandwich concrete panel, and FIG. 3 is a schematic sectional view of a pillar and a flat plate slab. is there. 1 …… Sandwich concrete panel 2 …… Pillar hole 3 …… Upper steel plate 4 …… Lower steel plate 5 …… Side steel plate 6 …… Concrete 7 …… Stud bolt 8 …… Pillar, 9 …… Main bar 10 …… Flat Plate slab

Claims (1)

[Claims] 1. A flat box body in which the outer peripheral sides of steel sheets arranged vertically with a required space therebetween are closed from the steel sheets, and a column hole is bored in the central portions of the upper and lower steel sheets, and concrete cast therein. A sandwich concrete panel is formed, the sandwich concrete panel is attached around the pillar as a part of the slab's stigma, and then slab concrete is cast, and a flat plate slab whose shear strength is increased by the sandwich concrete panel is formed. A flat plate slab method using a sandwich panel characterized by being formed.