KR200186222Y1 - Deck plate - Google Patents

Abstract

1. Technical field to which the invention described in the claims belong

Deck Plate

2, the technical problem to devise

The present invention reduces the amount of concrete poured during the construction of the structure by inserting a hollow tubular member in the deck plate having a truss structure, and using the resonance phenomenon in the tubular member to reduce the noise and vibration introduced into the structure The purpose is to provide a deck plate that can be reliably absorbed.

3. Summary of draft solution

The present invention is a base plate formed with a plurality of grooves; A plurality of truss means freely installed in parallel with a plurality of upper parts of the base plate at predetermined intervals; A plurality of pipe members which are hollow bodies positioned at a predetermined height from an upper surface of the base plate; And a plurality of supporting means mounted to cross the pipe member and supporting the pipe member to be positioned at a predetermined height from the base plate.

4. Significant use of the design

The present invention relates to a deck plate formed by welding a tube member.

Description

Deck Plates {DECK PLATE}

The present invention relates to a deck plate used for constructing a structure such as reinforcement-concrete slab or a wall, and in particular, by fixing a hollow pipe member to a deck plate having a truss structure, The present invention relates to a deck plate capable of reliably absorbing noise and vibration introduced into a structure on which the deck plate is mounted from the outside by using resonance of the pipe member itself.

In general, reinforced concrete structures that are applied to apartment walls, bridge decks, and high-rise buildings, etc., are a composite structure that uses both concrete as a compression material and rebar as a tension material. The most common method of constructing such a reinforced structure is to form a form that forms the outer surface of the concrete, reinforce the reinforcement to match the structural strength of the structure on the form, and inject concrete to form the form when the curing is completed. It is a process of removal.

These formwork is generally hypothesized of plywood and lumber, etc. Since the work such as reinforcement on the formwork must have a substantial strength. Therefore, a considerable period of time is required for the removal of formwork after curing of the formwork itself and concrete. The use of such formwork has been improved in two directions. One solution is to improve the formwork itself, and to improve it by easy construction or dismantling, beautiful surface formation without the need for finishing work, and repeated use due to great durability. Another method is to use a formwork that does not use formwork, that is, a structure used to form the outer surface of concrete as it is part of the reinforced concrete structure. In such a formwork, a deck plate having a large curved section has been generally used.

Next, a description will be briefly made with reference to FIGS. 1 to 3 attached to the conventional deck plate.

In the conventional deck plate shown in FIGS. 1 to 3, one upper reinforcing bar 2 and two lower reinforcing bars 3 are positioned above the base material 1 and the upper reinforcing bar 2 is peaked. The two lower reinforcing bars 3 are arranged in a triangular shape with a low point. Two wavy reinforcing bars 4 are welded to the upper reinforcing bars 2 and the two lower reinforcing bars 3 to form a truss structure 5. The lower reinforcing bar (3) is located approximately 30mm in height from the upper surface (1a) of the base material (1) is in accordance with the specification to prevent corrosion of the reinforcing bar.

The bottom of the corrugated rebar 4 is bent outward and protrudes outward by a predetermined length at the bent position 4d. The portion 4c which is bent and protrudes outward is able to contact the upper surface 1a of the base material 1. In this way, a truss 5 having a side triangular shape is formed.

At this time, a plurality of trusses 5 are freely arranged in parallel with a predetermined interval on the upper surface of the base material (1). Subsequently, the lower surface of the protrusion 4c is welded to the upper surface 1a of the base material 1 to form a deck plate.

Here, all the members are joined by welding.

In the conventional deck plate formed as described above, concrete is poured, and after the concrete is hardened, the floor of the building is composed of deck plates and concrete.

However, when constructing a structure such as a floor or a wall of a building using a conventional deck plate having the structure as described above, there is a problem that a large amount of concrete is required due to the empty space between the trusses of the deck plate As a result, the overall construction cost is increased by increasing the material cost, which takes up an absolute part in the construction of the structure, and there is a problem in that a considerable amount of work and work time are required when placing concrete.

In addition, when the deck plate is a multi-layer structure installed on the floor, etc., the noise and vibration generated from the outside is absorbed into the structure as it is transmitted to the lower floor, causing a large noise pollution and vibration pollution, causing great obstacles to living life. There was a problem letting.

Therefore, the present invention was devised to solve the above problems, and the hollow pipe member is welded in the deck plate having the truss structure to reduce the empty space in the deck plate to reduce the amount of concrete poured during construction of the structure. In addition, the object of the present invention is to provide a deck plate capable of reliably absorbing noise and vibration introduced into a structured deck plate from the outside by using resonance of the pipe member itself.

1 is a perspective view of a tech plate according to the prior art.

Figure 2 is a front view of the deck plate according to the prior art.

3 is a side view schematically showing FIG.

Figure 4 is a perspective view showing the configuration of a first embodiment of the present invention.

5 is a front view of FIG. 4.

6 is a plan view of FIG. 4.

7 is a side view of FIG. 4.

8 is a use state of the deck plate according to the present invention.

9 is a perspective view showing the configuration of a second embodiment of the present invention.

10 is a front view of FIG. 9;

FIG. 11 is a plan view of FIG. 9;

12 is a side view of FIG. 9;

* Explanation of symbols for main parts of drawing

11: upper support member 12: lower support member

13 pipe member 23 support bar

In order to achieve the above object, the present invention, a base plate is formed with a plurality of grooves; a plurality of truss means freely installed in parallel with a predetermined interval on the upper portion of the base plate; A plurality of pipe members which are hollow bodies positioned at a predetermined height from an upper surface of the base plate; And a plurality of supporting means mounted to cross the pipe member and supporting the pipe member to be positioned at a predetermined height from the base plate.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings of FIG. 4, and the same components as in the prior art use the same reference numerals, and a description thereof will be omitted.

The present invention is to reduce the amount of concrete poured during the construction of the structure by welding the hollow pipe member in the deck plate used for the construction of the structure such as reinforced concrete slab or wall, the structure is equipped with the deck plate from the outside It is implemented to reliably absorb the noise and vibration introduced into the inside using the resonance phenomenon of the pipe member itself.

4 to 7 show a first embodiment of the deck plate according to the present invention, the deck plate of the present invention, one side of the connection between the upper apex of the upper truss of the truss, one end thereof A plurality of upper support members 11 are welded to the upper reinforcing bar 2, a plurality of lower support members 12 are installed in parallel with the upper support member 11 and welded to the lower reinforcing bar 3, and the upper surface It is welded to the upper support member 11, the lower surface is composed of a plurality of pipe members 13 formed in a hollow shape welded to the lower support member 12.

Here, the upper and lower support members 11 and 12 are provided to cross the tube member 13, and the tube member 13 is prevented from moving in the deck plate 10. It functions to weld and support on the upper and lower surfaces of (13).

The manufacturing method of the deck plate which has the above structure is demonstrated in detail.

First, a triangular shape in which one upper reinforcing bar 2 and two lower reinforcing bars 3 are set at the upper part of the upper reinforcing bar 2, and the two lower reinforcing bars 3 are at the bottom of the base material 1, respectively. To place. Then, the waved reinforcing bars (4) are welded to connect the upper bar (2) and one lower bar (3) on both sides of the upper bar (2), respectively. Accordingly, the upper apex 4b of the reinforcing bar 4 is fixed to one side of the upper reinforcing bar 2, and the lower apex 4c is fixed to the upper surface of the base material 1, so that the truss is an isosceles side It is formed in the shape of a triangle. In addition, the lower support member 12 is welded to the lower reinforcing bar 3, the pipe member 13 is welded to the lower support member 12, and the upper support member 11 to the pipe member 13. )). Finally. The upper support member 11 is welded to the upper rebar 2.

The deck plate of the present invention is manufactured in the same manner as described above.

A use state of the first embodiment of the present invention will be described with reference to FIG. 8.

The deck plate of the present embodiment is placed on a mold to fill a predetermined concrete 60, and each end of the upper reinforcing bar 2, the lower reinforcing bar 3 and the base member 1 is attached to the structure (mainly steel or steel frame). Fix it to be one. Next, the concrete 60 is filled in the mold, and after the concrete is hardened, the building is constructed from deck plates and concrete.

Here, the deck plate of the above embodiment, can reduce the amount of concrete pour amount corresponding to the predetermined volume occupied by the pipe member 13, it is possible to build the structure with less concrete amount than the existing deck plate Will be.

In addition, even when various noises and vibrations generated from the outside flow into the structure, the noises and vibrations introduced from the outside may be reliably absorbed through resonance in the hollow portion of the pipe member 13. That is, even when noise and vibration are generated at the same time due to movement of a person or operation of a machine on a structure constructed by using the deck plate on which the pipe member 13 is mounted, the generated noise and vibration are generated in the pipe member. (13) It is extinguished through resonance.

On the other hand, since the pipe member 13 is firmly attached by the upper support member 11 and the lower member 12, the external force resistance strength of the deck plate increases, so that a horizontal vibration load such as an earthquake is transmitted to the structure. Even if the earthquake resistance is greatly increased, it can be used without restriction on the place of use.

9 to 12 show a second embodiment of the present invention, connecting the upper reinforcing bar (2) and the lower reinforcing bar (3) of the deck plate in the form of an inverted V-shape, the bent portion of the base material (1 And a support bar 22 welded to side surfaces of the upper reinforcing bar 2 and the lower reinforcing bar 3 and welded to the truss structure formed by the reinforcing bar 21. do.

In addition, the reinforcing bars 21 are connected to each other in a V shape, and the connecting bars 23 for preventing horizontal displacement of the truss structure formed by the reinforcing bars 21 are provided.

The manufacturing method and use example of the deck plate is the same as in the case of the first embodiment described above, so a description thereof will be omitted.

The present invention described above is not limited to the above-described embodiments and drawings, and various substitutions, modifications, and changes are possible within the scope without departing from the technical spirit of the present invention. It will be apparent to those who have

As described above, according to the present invention, by welding a hollow tube member in a deck plate used for constructing a structure such as reinforcement-concrete slab or a wall, concrete equivalent to the volume of the tube member when constructing the structure It can reduce the amount of material used to reduce the total cost of materials by reducing the material cost, which takes up an absolute portion of the construction cost.

In addition, by using its own resonance phenomena generated in the pipe member there is an effect to reliably absorb various noises and vibrations introduced into the structure from inside and outside the structure to maintain a comfortable living environment.

Claims (4)

A base plate having a plurality of grooves formed therein; A plurality of truss means freely installed in parallel with a plurality of upper parts of the base plate at predetermined intervals; A plurality of pipe members which are hollow bodies positioned at a predetermined height from an upper surface of the base plate; And A plurality of supporting means mounted to cross the pipe member and supporting the pipe member to be positioned at a predetermined height from the base plate; Deck plate comprising a. The method of claim 1, The support means, The first support means of the U-shaped welded to the upper side of the pipe member, the predetermined portion is bent, The deck plate is welded to the lower side of the pipe member, and includes a second support means located at a predetermined height in the base plate The method according to claim 1 or 2, The truss means is a deck plate consisting of a plurality of lattice bars fixed to connect the upper reinforcement and the lower reinforcement, the upper reinforcement and the lower reinforcement and the upper reinforcement arranged to have a triangular composition as a peak and the two lower reinforcement to the bottom . The method of claim 3, The upper reinforcement and the lower reinforcing bar is connected by a latticed lattice material, one side of which is fixed to the bottom base plate and the upper vertex of the deck plate made of reinforcing bars connected to the outer circumference of the upper reinforcement.