KR102180280B1 - Hollow Core Slab Joint Structure Using Reinforcement Member - Google Patents

Abstract

The present invention relates to a structure of a hollow slab joint for a parking lot using reinforcing hardware, and more specifically, a connection hardware is embedded in the joint between the hollow slabs and the reinforcing hardware is joined to prevent sagging at the joint of the hollow slab. It relates to a hollow slab joint structure for parking lots using reinforced steel to improve the bending performance, shear performance and fire resistance performance.
A preferred embodiment of the present invention is a hollow slab which is disposed adjacent in the width direction, and is buried by protruding fixtures on both sides of the width direction; Consisting of a horizontal reinforcement part and a vertical reinforcement part, the vertical reinforcement part is inserted between the hollow slab on both sides and the joint part of the hollow slab, and the horizontal reinforcement part is welded to the fixing hardware of the hollow slab and the hollow slab on both sides. It is done by doing.

Description

Hollow Core Slab Joint Structure Using Reinforcement Member for Parking Lots Using Reinforced Hardware

The present invention relates to a structure of a hollow slab joint for a parking lot using reinforcing hardware, and more specifically, a connection hardware is embedded in the joint between the hollow slabs and the reinforcing hardware is joined to prevent sagging at the joint of the hollow slab. It relates to a hollow slab joint structure for parking lots using reinforced steel to improve bending performance, shearing performance, and fire resistance performance.

Hollow Core Slab is precast concrete manufactured at the factory, and it is manufactured by introducing prestress during manufacturing. Hollow slabs such as this are formed with hollows in each thickness, and prestress is introduced by placing a strand between the hollow and the hollow.General hollow slabs are made to pour 100mm or more of an overlaid concrete slab on the top of a factory-made product, so that the slab's rigidity And be united with.

The statutory fire-resistant structure is designated by the Building Act and is recognized as a structural member itself without additional fire-resistance reinforcement (spraying or applying paint, board, etc.). Among these legal fireproof structures, the slab is based on a concrete thickness of 100mm or more, so if you pour 100mm or more of overlaid concrete on the top of the hollow slab, it becomes a legal fireproof structure. If the reinforced concrete is not poured, a separate fireproof structure certification must be obtained because the statutory fireproof structure cannot be obtained as the shear surface cannot secure the same thickness of concrete over 100mm due to the hollow inside the hollow slab.

Hollow slabs are produced with a unit width of 1,200mm, and the connection between the unit widths is integrated by placing mortar on the joints, and the joist connection of this part is vulnerable in case of fire, and fire resistance performance may be degraded.

In particular, pouring concrete on the upper part of the slab causes a great loss to air and cost, and in the case of parking lot, the live load is as small as 3.0kN/m ² , so it is possible to apply without overlaid concrete on the upper part of the hollow slab. If the top of the hollow slab for parking lot is not poured, the legal fireproof structure will not be established, and cracks may occur in the joist, resulting in a problem of deterioration in usability.

As a background technology of the present invention, there is Patent Registration No. 1449708 "Improving the integrity with reinforced concrete using reinforcement for shear reinforcement and the structure of improving the shear strength of a hollow slab and a construction method using the same" (Patent Document 1). In the background art,'a hollow slab (S) made of precast concrete, which penetrates in the longitudinal direction and has at least one hollow (H) in the width direction, and in which a plurality of strands are arranged to avoid the hollow (H); The hollow slab (S) adjacent to the hollow slab (S) is formed by being disposed in the width direction and connected to the lower end of the space spaced apart from each other, and the lower part is provided with a hook portion 122 formed in a hook shape at both ends Plate material 100; And, a shear reinforcement reinforcing bar 200 attached to and installed on the upper part of the lower plate 100; the lower plate 100 is made of a steel plate 120 or a PC plate 140, It is connected continuously in the longitudinal direction of the hollow slab (S) between adjacent hollow slabs (S), and after the lower plate member 100 to which the shear reinforcing reinforcing bar 200 is attached is installed, on the top of the hollow slab (S) Overlay concrete 300 is poured, and the hook portion 122 is installed on both ends of the bent portion of the bottom of the hollow slab S located on both sides. It proposes a structure for improving the integrity and improving the shear strength of the hollow slab.

However, the background technology requires a space between the hollow slabs (S), is difficult to install, and has a problem in that the bending performance due to sagging at the joint cannot be improved.

Patent Registration No. 1449708 "Improving the integrity with reinforced concrete using reinforcement for shear reinforcement and the structure of improving the shear strength of the hollow slab and the construction method using the same"

The present invention is to solve the above problems, and the connection hardware is embedded in the joint between the hollow slabs and the reinforcing hardware is joined to improve the bending performance due to deflection at the joint of the hollow slab and occur at the joint. The purpose of this is to provide a hollow slab joint structure for parking lots using reinforcing hardware that can improve the shearing performance that can be achieved and improve fire resistance by preventing cracks in the joints.

The present invention is disposed adjacent in the width direction, a hollow slab which is buried by protruding fixing hardware on both sides of the width direction; Consisting of a horizontal reinforcement part and a vertical reinforcement part, the vertical reinforcement part is inserted between the hollow slab on both sides and the joint part of the hollow slab, and the horizontal reinforcement part is welded to the fixing hardware of the hollow slab and the hollow slab on both sides. The reinforcement hardware is to provide a hollow slab joint structure for parking lots using reinforcing hardware, characterized in that a plurality of through-holes are passed through the vertical reinforcement part, and reinforcement plates with through-holes are joined to both sides of the through-holes of the vertical reinforcement part. do.

In addition, the hollow slab is constructed by cutting the upper surface at regular intervals in the longitudinal direction to form a pocket part, and to be buried so that the fixing hardware is exposed from the pocket part.In the reinforcement hardware, the vertical reinforcement part is formed from the upper part of the joint part of the hollow slab and It is intended to provide a hollow slab joint structure for parking lots using reinforcement hardware, characterized in that it is configured to be inserted into and the horizontal reinforcement parts are joined to the fixing hardware protruding from the pockets on each side.

In addition, the fixture is buried so as to be exposed to the lower surface of the hollow slab, and the reinforcement hardware is configured such that the vertical reinforcement part is inserted from the lower part of the joint of the hollow slab and the hollow slab to the upper part, and the horizontal reinforcement part is exposed to the lower surface of the hollow slab. It is intended to provide a hollow slab joint structure for parking lots using reinforced hardware, characterized in that it is bonded to a fixture.

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The hollow slab joint structure for parking lot using the reinforcement hardware of the present invention is configured to embed the connecting hardware into the joint between the hollow slabs and join the reinforcing hardware to improve the bending performance and the joint part due to deflection at the joint of the hollow slab. It has a very useful effect that can improve the shearing performance that may occur in the joint, and also improve the fire resistance by preventing the occurrence of cracks in the joint.

The following drawings attached to the present specification illustrate preferred embodiments of the present invention, and serve to further understand the technical idea of the present invention together with the detailed description of the present invention, so the present invention is limited to the matters described in the accompanying drawings. It is limited and should not be interpreted.
1 is a cross-sectional view and a plan view of a first embodiment of a hollow slab joint structure for a parking lot using a reinforcing hardware of the present invention.
2 is a cross-sectional view and a bottom view of a second embodiment of a hollow slab joint structure for a parking lot using the reinforcing hardware of the present invention.
3 to 7 are perspective views and cross-sectional views showing various embodiments of the reinforcement hardware of the present invention.

In the following, the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the disclosed embodiments are illustrative for a clear understanding of the present invention, and the present invention is not limited thereto.

Hereinafter, the technical configuration of the present invention will be described in detail according to a preferred embodiment.

1 is a cross-sectional view and a plan view of a first embodiment of a hollow slab joint structure for a parking lot using a reinforcing hardware of the present invention, and FIG. 2 is a cross-sectional view of a second embodiment of a hollow slab joint structure for a parking lot using the reinforcing hardware of the present invention. And a bottom view.

The hollow slab joint structure for a parking lot using the reinforcing hardware of the present invention is constructed by embedding connection hardware 11 on both sides of the hollow slab 10 in the width direction, and the width of the hollow slab 10 and the hollow slab 10 The connecting hardware 11 of the hollow slab 10 is connected to each other by fitting the reinforcing hardware 20 to the joint of the hollow slab 10 so that the connecting hardware 11 faces each other at the time of directional jointing. It is to reinforce to improve the flexural performance and shear performance due to deflection at the joint of (10) and to improve the fire resistance performance.

The hollow slab 10 has a hollow 16 formed therein for each thickness, and a stranded wire is disposed between the hollow 16 and the hollow 16 to introduce prestress. In the drawings, the strands are not shown for convenience.

The hollow slab 10 is disposed adjacent to each other in the width direction, and the fixing hardware 11 protrudes and is buried at both sides in the width direction, and the reinforcement hardware 20 consisting of a horizontal reinforcement part 21 and a vertical reinforcement part 22 This vertical reinforcement part 22 is inserted between the hollow slab 10 on both sides and the joint part of the hollow slab 10 so that the horizontal reinforcement part 21 fixes the hollow slab 10 and the hollow slab 10 on both sides. It is bonded to the hardware 11 to be configured.

In both the first and second embodiments of the present invention, the connecting hardware 11 faces each other when the hollow slab 10 and the hollow slab 10 are joined in the width direction, so that the reinforcing hardware 20 is placed in the hollow slab ( 10) is inserted into the joint of the hollow slab 10 to mutually join the connecting hardware 11 of the hollow slab 10. In the first embodiment, as in FIG. 1, the reinforcing hardware 20 at the joint of the hollow slab 10 In the second embodiment, as shown in FIG. 2, the reinforcing hardware 20 is inserted from the bottom to the top at the joint of the hollow slab 10 to be joined.

In the first embodiment of the present invention, the hollow slab 10 is disposed adjacent to each other in the width direction, as shown in FIG. 1, and the hollow slab 10 has a fixture 11 in advance so as to be located above the height of the hollow slab 10. ) Is purchased and composed.

As shown, the fixing hardware 11 has one side embedded in the hollow slab 10 and the other side protruding outward in the width direction of the hollow slab 10.

1A, the reinforcing hardware 20 is configured such that the vertical reinforcing part 22 is inserted from the top to the bottom of the joint of the hollow slab 10 and the hollow slab 10, and vertically in the horizontal reinforcing part 21 The lower surfaces of both sides of the reinforcing part 22 are seated on the fixing hardware 11 protruding to the outside, respectively, so that they can be joined by various known methods such as welding.

In particular, as shown in FIG. 1, the hollow slab 10 has the upper surface cut to a predetermined size at regular intervals in the longitudinal direction to form the pocket portion 12, and the fixture 11 is exposed from the pocket portion 12. In order to be embedded and configured so that the horizontal reinforcing portions 21 are joined to the fixing hardware 11 protruding from the pocket portions 12 on each side, the joining operation of the fixing hardware 11 and the reinforcing hardware 20 is performed. It may be facilitated, and the pocket part 12 may be filled with post-cast concrete so that the vertical reinforcement part 22 is sufficiently embedded and fixed.

In the second embodiment of the present invention, as shown in FIG. 2, the fixing hardware 11 is embedded so as to be exposed to the lower surface of the hollow slab 10, and the reinforcing hardware 20 has a vertical reinforcement part 22 having a hollow slab ( 10) and the hollow slab 10 is configured to be inserted from the bottom of the joint to the top, and the horizontal reinforcing part 22 is welded to the fixture 11 exposed to the lower surface of the hollow slab 10, etc. Can be joined.

The fixing hardware 11 may be formed by bending a wire such as reinforcing bar, as in FIG. 1, and may be made of a plate material, as in FIG. 2. In addition, angles and angles are bonded to the plate. It can be made in various shapes, such as a shape, a shape in which a stud is bonded to a plate, and a re-bar.

If necessary, the fixing hardware 11 may be formed by bonding a separate fixing reinforcement (not shown) for fixing inside the hollow slab 10.

3 to 7 are perspective views and cross-sectional views showing various embodiments of the reinforcement hardware of the present invention.

The reinforcing hardware 20 consists of a plate-shaped horizontal reinforcement part 21 of a predetermined size and a plate-shaped vertical reinforcement part 22 formed in a right angle direction from the central part of the horizontal reinforcing part 21 to be formed in a T-shape. As shown in FIGS. 3 to 7, the vertical reinforcing part 22 may be additionally configured to increase adhesion to concrete when concrete is placed at the joint between the hollow slab 10 and the hollow slab 10.

As shown in FIG. 3, the reinforcing hardware 20 is formed by having a plurality of through holes 221 through the vertical reinforcing part 22 so that the concrete on both sides of the vertical reinforcing part 22 communicates with each other to increase adhesion. 4, the reinforcing hardware 20 has a reinforcing plate 27 having a through hole 227 on both sides of the through hole 221 of the vertical reinforcing part 22, and the through hole 221 ( The reinforcing plate 27 itself may also serve as a shear connector by being joined by various known methods such as welding so that the 227 is aligned.

In addition, as shown in FIG. 5, the reinforcing hardware 20 is a bolt 231 by attaching a separate backing plate 23 to protrude higher than the height of the vertical reinforcing part 22 on one side of the vertical reinforcing part 22. The vertical reinforcement part 22 and the overplate 23 are combined so that the vertical reinforcement part 22 and the overplate 23 have a step so that the bolt 231 functions as a shear connector while increasing the adhesion to concrete. It can be done.

In addition, as shown in FIG. 6, the reinforcing hardware 20 is fitted with a separate fitting plate 25 so as to be orthogonal to the vertical reinforcing part 22 on the upper part of the vertical reinforcing part 22 to be joined by various known methods such as welding. Also, as shown in FIG. 7, the reinforcement hardware 20 is a joint of the hollow slab 10 so that the reinforcing bars 26 are joined to protrude to both sides at a certain height of the vertical reinforcing part 22 It can be buried and settled in concrete poured into the part.

At this time, the reinforcing bar 26 may be joined to the vertical reinforcing part 22 by welding or the like, and as shown, it is inserted so as to protrude to both sides in the width direction of one side of the vertical reinforcing part 22. The top portion 226 is formed to protrude, and a separate through hole is formed in the insertion fixing portion 226 so that the reinforcing bar 26 is fitted in the width direction of the vertical reinforcing portion 22. ) Can be inserted.

The hollow slab joint structure for a parking lot using the reinforcing hardware of the present invention as described above is configured to embed the connecting hardware in the joints between the hollow slabs and bond the reinforcing hardware to improve the bending performance by sagging at the joint of the hollow slab. It has a very useful effect of improving the shearing performance that may occur at the joint and preventing the occurrence of cracks at the joint and improving the fire resistance performance.

Until now, the present invention has been described in detail with reference to the presented embodiments, but those of ordinary skill in the art can make various modifications and modifications without departing from the technical spirit of the present invention with reference to the presented embodiments. will be. The present invention is not limited by such modifications and modifications, but is limited by the claims appended below.

10: hollow slab
11: fixture
12: pocket part
20: reinforcement hardware
21: horizontal reinforcement
22: vertical reinforcement
221: through hole
227: through hole
23: Overlay
25: mounting plate
26: rebar
27: reinforcement plate

Claims (9)

A hollow slab 10 disposed adjacent to each other in the width direction and in which the fixing hardware 11 protrudes and is buried on both sides of the width direction;
Consisting of a horizontal reinforcement part 21 and a vertical reinforcement part 22, the vertical reinforcement part 22 is inserted between the joints of the hollow slab 10 and the hollow slab 10 on both sides, and the horizontal reinforcement part 21 A reinforcing hardware 20 configured by welding to the fixing hardware 11 of the hollow slab 10 and the hollow slab 10 on both sides; includes,
The reinforcing hardware 20 has a plurality of through holes 221 through the vertical reinforcing part 22, and a reinforcing plate with through-holes 227 through both sides of the through holes 221 of the vertical reinforcing part 22 ( 27) A hollow slab joint structure for parking lots using reinforcing hardware, characterized in that it is joined. The method according to claim 1,
The hollow slab 10 has an upper surface cut at regular intervals in the longitudinal direction to form a pocket portion 12,
It is configured to be embedded so that the fixing hardware 11 is exposed from the pocket portion 12,
The reinforcing hardware 20 is configured such that the vertical reinforcing part 22 is inserted from the top to the bottom of the joint of the hollow slab 10 and the hollow slab 10, and the horizontal reinforcing part 21 is provided with pockets 12 on both sides, respectively. A hollow slab joint structure for parking lots using reinforced hardware, characterized in that it is configured to be joined to the fixing hardware 11 protruding from). The method according to claim 1,
The fixing hardware 11 is embedded so as to be exposed to the lower surface of the hollow slab 10,
The reinforcing hardware 20 is configured such that the vertical reinforcing portion 22 is inserted from the lower portion of the joint portion of the hollow slab 10 and the hollow slab 10 to the upper portion,
A hollow slab joint structure for a parking lot using a reinforcing hardware, characterized in that the horizontal reinforcing part 22 is joined to the fixture 11 exposed on the lower surface of the hollow slab 10. delete delete delete delete delete delete

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