KR100966221B1 - Floor structure of container - Google Patents

Abstract

The present invention relates to a floor structure of a container in which a concrete layer is formed, and more specifically, concrete that can prevent the floor ringing caused by vibration by forming a concrete layer rather than plywood in an inner space of a base rail installed at the bottom of the container. It relates to the bottom structure of the layered container.

The floor structure of the container formed with a concrete layer according to the present invention is a base rail consisting of the front and rear rails installed at the front and rear, and the side rails connected to both ends of the front and rear rails, and a predetermined interval inside the base rail. It is characterized in that it comprises a plurality of supports, and a concrete layer for curing by pouring concrete after installing the wire mesh in the space formed by the connection of the base rail and the support.

Container, concrete floor, space part, wire mesh, hot water pipe

Description

Floor structure of container with concrete layer {Floor structure of container}

The present invention relates to a floor structure of a container in which a concrete layer is formed, and more specifically, concrete that can prevent the floor ringing caused by vibration by forming a concrete layer rather than plywood in an inner space of a base rail installed at the bottom of the container. It relates to the bottom structure of the layered container.

In general, a container is a box-type container developed for the safe transportation or storage of cargoes. The container has a size suitable for a purpose and has fireproof and airtightness. It is also used as a simple building such as a residential means or office where the back temporarily lives.

In particular, the bottom of the container uses a plurality of rails and plywood to block or balance moisture.

As shown in Figure 5, the conventional container bottom structure is a plurality of rails 100 are interconnected to meet the specifications of the container, a plurality of supports 200 are installed inside the rail 100, the support The plywood 300 is installed on the upper portion of the 200.

However, the prior art has a problem that the floor ringing phenomenon caused by vibration due to the empty space in the lower part of the plywood is severely generated, and the corrosion of the plywood proceeds rapidly due to moisture or animals such as rats and breaks. In addition, it is necessary to install the iron plate indoors to prevent fire, but because the unit price is expensive, individual buyers avoid construction, there was a problem that the additional cost due to the increase in labor costs when constructing the iron plate.

The present invention provides a floor structure of the container is formed with a concrete layer to prevent the floor phenomena caused by vibration, while preventing the floor ringing due to vibration by forming a concrete layer rather than plywood in the inner space of the base rail installed on the bottom of the container The purpose is.

The present invention provides a base rail comprising front and rear rails installed at the front and rear and side rails connected to both ends of the front and rear rails, a plurality of supports installed at regular intervals in the base rail, and the base. After installing the wire mesh in the space formed by the connection of the rail and the support characterized in that it comprises a concrete layer for curing by pouring concrete.

The present invention has the effect of preventing the floor ringing caused by vibration by forming a concrete layer rather than plywood in the inner space of the base rail installed on the bottom of the container.

In addition, there is an effect that can prevent the fire by the non-combustible plywood installed on the top of the concrete layer.

The floor structure of the container formed with a concrete layer according to the present invention is a base rail consisting of the front and rear rails installed at the front and rear, and the side rails connected to both ends of the front and rear rails, and a predetermined interval inside the base rail. It is characterized in that it comprises a plurality of supports, and a concrete layer for curing by pouring concrete after installing the wire mesh in the space formed by the connection of the base rail and the support.

In addition, the concrete layer is characterized in that formed in a position lower than the upper surface of the base rail.

In addition, the hot water pipe is installed on the upper portion of the wire mesh.

In addition, a non-flammable plywood is further installed on top of the concrete layer.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

1 is an exploded perspective view illustrating a bottom structure of a container in which a concrete layer is formed according to the present invention, FIG. 2 is a cross-sectional view taken along line AA of FIG. 1, and FIG. Figure 4 is a perspective view, Figure 4 is a cross-sectional view showing another example of the bottom structure of the container with a concrete layer according to the present invention.

As shown in Figure 1 and 2, the bottom structure of the container is formed with a concrete layer according to the present invention is a base rail (1), a plurality of supports (2) which are installed at regular intervals inside the base rail (1) ), And a concrete layer (3) for placing and curing concrete after installing the wire mesh (5) in the space (4) formed by the connection of the base rail (1) and the support (2).

The floor structure of the container with a concrete layer formed as described above can be applied to the floor structure of a mobile house in addition to the container.

The base rail 1 is composed of front and rear rails 11 and 12 installed at the front and rear sides and side rails 13 installed at both ends of the front and rear rails 11 and 12. The joining of the front and rear rails 11 and 12 and the side rails 13 is performed by welding.

The front and rear rails (11, 12) is made of an angle of a square shape, the lift of the unloading device is inserted into one side of any one of the front rail 11 or the rear rail 12 so that carrying can be carried out. One or more pockets 14 are formed.

Preferably, the side rails 13 use square tubes, and are welded to both ends of the front and rear rails 11 and 12 by welding.

The support 2 is made of a square tube and is joined to the inside of the front and rear rails 11 and 12 by welding.

The support 2 is preferably formed to have a wider side area than the planar area for bonding the wire mesh 5 to be described later. In addition, the support (2) forms a plurality of through-holes 21 to allow the hot water pipe (6) to pass through when installing the heating facilities on the bottom of the container (8).

Meanwhile, a plurality of spaces 4 are formed while a plurality of supporters 2 are connected to the inside of the base rail 1. After the wire mesh 5 is installed in the space 4, the concrete layer 3 for pouring and curing the concrete is formed. The wire mesh 5 is arranged in a mesh shape using a plurality of wires, and is fixed to the inner wall of the base rail 1 and both side walls of the support 2 by welding.

The wire mesh 5 is evenly formed in the cross section so as to facilitate bonding to the side walls of the base rail 1 and the support 2.

When the installation of the wire mesh 5 is completed, the concrete is poured and cured to form a concrete layer (3). In particular, the concrete is poured after the plywood is installed in advance in the lower or upper portion of the wire mesh 5 before the concrete is poured.

Meanwhile, before placing the concrete, a plurality of square tubes may be further installed at the lower portion of the wire mesh 5 to reinforce the bearing force of the concrete layer 3.

The concrete layer 3 is preferably formed at a position lower than the upper surface of the base rail (1). The reason is to prepare an installation space in advance in case of installing the finishing material on the upper part of the concrete layer (3).

The concrete is to fill all the space portion 4, it is preferable to fill only the remaining portion of the space portion 4 of the rail on which the pocket 14 is formed except the length enough to lift the lifting device.

Accordingly, by forming the concrete layer 3 in the space portion 4 to prevent the floor ringing caused by vibration, while in the bottom structure of the existing container in which the shape of the plywood was deformed by moisture over time The problem does not occur.

As shown in FIG. 3, the hot water pipe 6 connected to the boiler is installed at the top of the wire mesh 5 for heating the bottom of the container. The hot water pipe 6 passes through the through-hole 21 formed in the support 2 to be evenly disposed on the bottom of the container.

As shown in FIG. 4, a nonflammable plywood 7 is further installed on the concrete layer 3. In particular, when the non-combustible plywood (7) is installed on the upper portion of the concrete layer (3) is installed so as not to protrude above the upper surface of the base rail (1).

The non-combustible plywood 7 is alternatively used in flameproof plywood, iron plate, etc. to withstand fire well.

As described above, the bottom structure of the container with a concrete layer according to the present invention is formed by the vibration by forming a concrete layer (3) rather than plywood in the inner space of the base rail (1) installed on the bottom of the container (8) It can prevent floor ringing and prevent fire.

Although the present invention has been described with reference to the accompanying drawings, it will be apparent to those skilled in the art that many various obvious modifications are possible without departing from the scope of the invention from this description. Therefore, the scope of the invention should be construed by the claims described to include examples of many such variations.

1 is an exploded perspective view showing a bottom structure of a container with a concrete layer formed according to the present invention.

2 is a cross-sectional view taken along the line A-A of FIG.

Figure 3 is a perspective view showing another example of the floor structure of the container with a concrete layer formed according to the present invention.

Figure 4 is a cross-sectional view showing another example of the floor structure of the container with a concrete layer formed according to the present invention.

5 shows a conventional technique.

<Explanation of symbols for the main parts of the drawings>

1: Base Rail

    11: front rail

    12: rear rail

    13: side rail

    14: Pocket

2: support

    21: through

3: concrete layer

4: space part

5: wire mesh

6: hot water pipe

7: nonflammable plywood

8: container

Claims (4)

Base rail (1) consisting of the front and rear rails (11, 12) installed in the front, rear, side rails (13) connected to both ends of the front and rear rails (11, 12), and the base rail (1) After installing the wire mesh 5 in a plurality of supports (2) are installed at a predetermined interval inside the space, and the space portion (4) formed by the connection of the base rail (1) and the support (2) A concrete layer 3 which is poured and cured; The concrete layer (3) is formed at a position lower than the upper surface of the base rail (1), the non-combustible plywood (7) is further installed on the concrete layer (3); The wire mesh (5) is arranged in a mesh shape using a plurality of wires and is fixed by welding to the inner wall of the base rail (1) and both side walls of the support (2); Hot water pipe (6) is installed on the upper portion of the wire mesh (5), the bottom structure of the container with a concrete layer, characterized in that a plurality of square tubes are further installed in the lower portion of the wire mesh (5). delete delete delete

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