KR20210006619A - Tension fixture by twisting & deck plate installation method using the same - Google Patents

Abstract

The present invention relates to a fixture and a deck plate installing method using the same, wherein the fixture fixes a deck plate by simply connecting a reinforcing bar exposed from a beam member of reinforced concrete to a truss bar at an upper portion of the deck plate. The tensile fixture includes: a wire having a predetermined length; connection rings provided on both ends of the wire; and a twisting induction member having a penetrating hole through which the wire penetrates.

Description

Tension fixture by twisting & deck plate installation method using the same}

The present invention relates to a fixture and a deck plate installation method for fixing a deck plate by simply connecting the truss bar on the deck plate and the reinforcing bar exposed in the reinforced concrete beam member.

The reinforced concrete structure applied to the building is a composite structure that utilizes the tensile resistance of reinforcing bars and the compression resistance of concrete. When constructing a reinforced concrete structure, a form that forms the outer surface of the concrete is installed, reinforced on the formwork to match the design strength of the structure, and concrete is poured, and the formwork is removed when curing is completed.

However, installation and dismantling of the formwork takes a lot of air, and the formwork damaged during dismantling cannot be recycled, resulting in waste of materials and industrial waste caused by waste materials.

There is a method of using a deck plate in the slab section of each floor of a building as a formless construction method to solve the above disadvantages. With the use of the deck plate, there is no need to install and dismantle the formwork, reduce the generation of industrial waste, facilitate wiring and installation of pipes under the deck plate, safe work, and shorten the overall construction period. In addition, it is possible to shorten the air required for reinforcing reinforcement by using a deck plate shipped in a state in which a truss muscle composed of a combination of a lattice bar, a top chord, and a bottom chord is coupled to the deck plate upper surface.

This deck plate is fixed with both ends mounted on the reinforced concrete beam member. The fixing work of the deck plate is to prevent horizontal movement during concrete pouring, and conventionally, as shown in [Reference Photo 1] and [Reference Photo 2] below, the hooks at both ends of the connecting member are embedded and protruded into the beam member, respectively. The connection reinforcing bar was hung on the truss bar connected to the top of the deck plate, and the contact point was welded.

[Reference photo 1]

[Reference photo 2]

However, since such welding work always involves a risk of fire, a fire response plan must be prepared together, and the manpower and time required for the welder increase construction cost and cause delays in construction.

Registered utility model 20-0186281 Conventional techniques such as "rebar connecting ring for deck plate" provide a means to fix the installation state of the deck plate without welding work, but such conventional techniques include beam member connection reinforcement and deck plate truss There is a limitation that it can be applied only when the distance between the abdominal muscles is kept constant within an extremely limited range.

1. Registered utility model 20-0186281 "Reinforced bar connection for deck plate" 2. Registered Patent 10-1216166 "Deck plate including shear connection fixture" 3. Registered Patent 10-1068636 "Automatic disassembly type fixing pin for fixing deck plate and construction method of deck plate slab using the same" 4. Patent Publication No. 10-2010-0024768 "Deck plate and its arrangement structure"

An object of the present invention is to provide a fixture that can be conveniently applied universally without welding work, and a method of suppressing movement due to concrete pouring work by fixing a deck plate as it is installed using the same.

In order to solve the above-described problems, the present invention provides "a wire having a predetermined length; Connecting rings provided at both ends of the wire; And a twist inducing member having a through hole through which the wire passes. It provides a tension fixture consisting of".

The wire may be manufactured in a single linear type, or may be manufactured so that the middle portion is bent to form an upper inflection point, and the middle portion of the wire may be configured to be disposed in the through hole of the tension fixture.

The connection ring may be configured as a hook type or a clip type.

As the twist inducing member, a grooved bolt or eye bolt provided with a bolt head at the top may be applied, and a ring-shaped member may be applied as the twist inducing member.

In addition, the present invention is a method using the tension fixture, "(a) mounting the deck plate on the beam member according to the design; (b) hooking and connecting the connecting rings at both ends of the tension fixture to the reinforcing bar buried and protruding in the beam member and the truss bar coupled to the upper portion of the deck plate, respectively; (c) applying a rotational force to the twist inducing member so that the wire is twisted downwards in the twist inducing member so that the wire is connected to the reinforcing bar and the truss to apply tension; A deck plate installation structure including ”is provided together.

According to the present invention, since the welding work for fixing the deck plate is unnecessary, the risk of fire is eliminated, the work manpower required and the working time are reduced, thereby reducing the construction cost and shortening the construction period.

[Fig. 1] shows an embodiment of a tension fixture provided by the present invention.
[Fig. 2] shows embodiments of a linkage.
[Fig. 3] shows embodiments of the twist inducing member to which the bolt head is coupled.
[Fig. 4] shows an embodiment of a ring-shaped twist inducing member.
[Fig. 5] shows an implementation process of the deck plate installation method provided by the present invention.

Hereinafter, the present invention will be described in detail together with the accompanying drawings.

As shown in [Fig. 1], the present invention is a "wire 110 having a predetermined length; Connection rings 120 provided at both ends of the wire 110; And a twist inducing member 130 having a through 131 hole through which the wire 110 passes. It provides a "tension fixture 100" comprising a.

The wire 110 may have a diameter of 2 to 4 mm in consideration of a twisting operation (an operation of applying a rotational force to a twist inducing member to twist the wire, hereinafter the same) to be described later. The "predetermined length" is the length of the beam member 200, the reinforcing bar 210 and the deck plate 300, the length of the truss bar 310 is more than the normal installation distance, it is appropriate to apply a wire having a length of 10 to 20 cm Do.

The wire 110 may be manufactured to be bent so that the middle end forms an upper inflection point. In this case, the interruption of the wire 110 is disposed in the through hole 131 of the tension fixture 130 so that the wire 110 is naturally twisted downward during a twisting operation to be described later. Of course, it is possible to make the wire 110 straight so that it can be bent and used at the construction site.

When the wire 110 is wound around the twist inducing member 130, it may be unwound by vibration, but when it is twisted downward, it is not unwound again.

Connection rings 120 are provided at both ends of the wire 110. The connection ring may be configured as a hook-type connection ring (120a) or a clip-type connection ring (120b) as shown in [Fig. 2]. Specifically, both ends of the wire can be bent in a hook shape, a separate hook-shaped member is welded to both ends of the wire to be coupled, or both ends of the wire are wound around a clip-shaped member and twisted to be bonded.

As the twist inducing member 130, a grooved bolt 130a or an eye bolt 130b provided with a bolt head 132 at the top as shown in FIG. 3 may be applied.

In addition, as shown in Fig. 4, the ring-shaped member 130c may be applied as the twist inducing member. In this case, the through hole of the ring-shaped member 130c becomes a through hole 131 through which the wire passes. The ring-shaped member 130c is not limited in shape such as circular, elliptical, or eight-shaped.

In addition, the present invention is a method of using the tension fixture 100, "(a) mounting the deck plate 300 on the beam member 200 according to the design; (b) the reinforcing bars 210 at both ends of the tension fixture 100 are buried and protruded in the beam members 200, respectively, and the truss bars 310 coupled to the top of the deck plate 300 Walking and connecting; (c) By applying a rotational force to the twist inducing member 130, the wire 110 is twisted downwards of the twist inducing member 130 and the wire 110 is between the reinforcing bar 210 and the truss bar 310. Connecting to and applying tension; A deck plate installation structure including ”is provided together.

The step (a) is a step of mounting the deck plate 300 on the beam member 200. In this step (a), all cases of mounting the deck plate 300 on the top of the beam member 200 or on the protruding jaw on the side of the beam member 200 as shown in (a) of [Fig. 5] Include.

In the step (b), as shown in (b) of [Fig. 5], the connecting ring 120 at both ends of the tension fixture 100 provided by the present invention is a beam member 200, a reinforcing bar 210 and a deck plate (300) It is a step of hooking each truss muscle 310 to connect.

The step (c) is a step of fixing the deck plate 300 as it is mounted on the beam member 200 by twisting the wires 110 of the tensioning fixture 100 so that the tension acts. Specifically, as shown in (c) of [Fig. 5], when a rotational force is applied to the twist induction member 130, the wire 110 is twisted downwards of the twist induction member 130 and the wire 110 It becomes taut, and accordingly, the deck plate 300 is fixed in a form in which the beam member 200 grabs the deck plate 300 through the tension fixture 100 as a medium.

When applying a rotational force to the twist inducing member 130, a rotating mechanism 400 that is electrically or manually operated according to the type and shape of the twist inducing member 130 may be used. When the bolt head 132 is formed on the twist inducing member 130, a rotating mechanism 400 such as a driver, an electric screwdriver, a torque wrench, and an electric torque wrench may be used. When the ring-shaped member 130c is applied as the twist inducing member 130, rotational force can be applied by the operator's hand without a separate tool, and if necessary, an electric or manual rotating mechanism 400 combined with a binding device may be used. It may be possible (see [Fig. 4]).

In the above, the present invention was examined in detail together with specific examples. However, the present invention is not limited by the above embodiments, and may be modified and modified within the scope without departing from the gist of the present invention. Accordingly, the claims of the present invention include such modifications and variations.

100: tension fixture 110: wire
120, 120a, 120b: connecting ring 130, 130a, 130b, 130c: twist inducing member
131: through hole 132: bolt head
200: beam member 210: reinforcement (beam member)
300: deck plate 310: truss root
400: rotating mechanism

Claims (6)

A wire having a predetermined length;
Connecting rings provided at both ends of the wire; And
A twist inducing member having a through hole through which the wire passes; Tension fixture comprising a.
In claim 1,
The wire is bent so that the middle end forms the upper inflection point,
Tensile fixture, characterized in that the interruption of the wire is disposed in the through hole of the tension fixture.
In claim 1,
The connecting ring is a tension fixture, characterized in that configured in a hook type or a clip type.
In claim 1,
The twist inducing member is a tension fixture, characterized in that the grooved bolt or eye bolt provided with a bolt head at the top.
In claim 1,
The twist inducing member is a tension fixture, characterized in that the ring-shaped member.
As a method using the tensile fixture of any one of claims 1 to 5,
(a) mounting the deck plate on the beam member according to the design;
(b) hooking and connecting the connecting rings at both ends of the tension fixture to the reinforcing bar buried and protruding in the beam member and the truss bar coupled to the upper portion of the deck plate, respectively;
(c) applying a rotational force to the twist inducing member so that the wire is twisted downwards in the twist inducing member so that the wire is connected to the reinforcing bar and the truss to apply tension; Deck plate installation structure comprising a.

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