KR101162836B1 - Props for standard is differs container load - Google Patents

Abstract

The present invention relates to a pedestal for loading containers of different sizes, and more particularly, in the form of disposing large containers on small containers, in order to prevent small containers as well as large containers from moving when they are loaded on a container carrier. will be.
The present invention for the above is composed of a pair of center pedestals, seven pairs of left pedestals and seven pairs of right pedestals, the seven pairs of left and right pedestals are a multi-layer frame, the bottom is the same as the width of a small container The hole is formed in the same position as the hole formed in the edge of the small container, the upper portion is the same as the width of the large container, the hole is formed in the same position as the hole formed in the edge of the large container, the left and right of the seven pairs The pedestal is characterized in that the pressing surface is formed on the upper frame of each pedestal so as to press each other is configured to press the supporting surface to the lower frame,
According to the present invention, the container is connected in the form of pressing between each other and is pressed by the weight of the container has the effect of forming a large support force as a pedestal, and when used as a container pedestal in order to arrange the length of the pressing surface and the supporting surface Can be quickly and easily deployed, which greatly improves workability and saves labor. In addition, since the container stand is about the same width as the container, the container stand is separated and This has the effect of providing convenience in carrying, transporting and storing.

Description

Props for standard is differs container load}

The present invention relates to a pedestal for loading containers of different sizes, and more particularly, in the form of disposing large containers on small containers so that large containers as well as small containers are not connected to each other when loaded on a container carrier. The present invention relates to a container loading pedestal having different specifications.

As is well known, various industrial products use containers used to facilitate transportation and to prevent damage of industrial products. When exporting industrial products to containers containing industrial products as described above, inexpensive container carriers are used. Will be used.

However, the above containers can be classified into two kinds of different sizes, and when two kinds of containers of different sizes are not connected to each other when loaded on the container carrier, the container carrier is moved by waves while sailing. Since containers move individually, there is a problem in that they cannot lose their center of gravity and sail safely.

Conventionally, in order to solve the problems described above, when using two container containers of different sizes in the container carrier ship, the container support is used, as shown in Figure 1, the width of the container support 60 (96 inches) is It is formed to be equal to the width of the small container (96 inches), and the lower portion of the container holder is formed with a hole 61 in the same position as the hole formed at the edge of the small container (96 inches), and the large container (102 inches) The hole 62 is formed in the same position as the hole formed in the edge of ().

In the case of the container pedestal configured as described above, the holes formed in the lower part are not confused because each one is formed at the edge, but the holes formed in the upper part are formed in different positions.

Then, when loading on the container carrier, 15 small containers are loaded, and 15 container pedestals are placed in the same number as the number of small containers, and at the position of the hole formed in the container pedestal for loading 14 large containers thereon. There was a lot of confusion when placing the container stand because it had to be aligned.

In particular, since both ends of each container stand are formed in a straight line, a supporting force is not formed due to a connection between them, so that the function as a container stand is deteriorated.

In order to solve the above disadvantages, as shown in FIG. 2, there is one configured to be three times as large as the width of the container having a smaller width in the width of the container pedestal 60.

In the case of such a configuration can be solved to some extent the disadvantages in the above-mentioned support capacity, but because the size of the container base is very large, there was a problem that is not easy during transportation and handling.

Container loading pedestal of the different standards of the present invention devised to actively solve the conventional problems as described above is formed in a form in which both ends of the container pedestal is connected to each other to form a support force by the mutual connection as a container pedestal It improves the function and makes it easy to identify the order of placing the container, so it is quick and easy to place the container for use, and the container stand is almost the same width as the container width. The aim is to provide convenience in the handling process.

Container loading pedestal according to the present invention for achieving the above object is composed of a pair of center pedestal, seven pairs of left pedestal and seven pairs of right pedestal,

The seven pairs of left pedestals and seven pairs of right pedestals are multi-layer frames, the lower part of which is equal to the width of a small container, the hole is formed at the same position as the hole formed on the edge of the small container, and the upper part is equal to the width of a large container. Hole is formed in the same position as the hole formed at the edge of a large container,

The seven pairs of the left pedestal and the seven pairs of the right pedestal is characterized in that the pressing surface is formed in the upper frame so as to press each other is configured to press the supporting surface to the lower frame.

According to the present invention as described above, since the container is connected in a pressing form between each other and is pressed by the weight of the container, there is an effect that the support force is largely formed as a support,

In addition, when using as a container stand can be identified by the order of placing the length of the pressing surface and the supporting surface can be placed quickly and easily to place the work, thereby greatly improving the workability accordingly, thereby reducing the labor force,

In addition, since the size of the container base is almost the same as the width of the container, there is an effect that can provide convenience when removing the container base, transport and storage.

1 and 2 is a perspective view showing a configuration of a conventional container stand, Figure 3 is a perspective view showing a configuration of one container stand according to the present invention, Figure 4 is a perspective view showing a configuration connected to two container pedestal according to the present invention, Figure 5, 6 is a perspective view showing the main portion of the use of the container stand according to the present invention, Figure 7 is a front view showing the entire use of the container stand according to the present invention, Figure 8 is a full use state of the container stand according to the present invention This is a front view of the assembly.

Referring to the accompanying drawings, the configuration of the container mounting pedestal different from the standard according to the present invention will be described in detail as follows.

The container loading pedestal according to the present invention is different from each other, and includes a pair of center pedestals Y, seven pairs of left pedestals A to G, and seven pairs of right pedestals A 'to G'.

The center pedestal (Y) is a single-layer frame, the horizontal width (P) is a small container width (96 inches), the hole 10 is formed at the same position as the hole formed in the edge of the small container at the bottom,

The seven pairs of left pedestals (A-G) and the seven pairs of right pedestals (A'-G ') consist of a multi-layer frame, the bottom of which is equal to the width of a small container (96 inches), formed at the edge of the small container. A hole 10 is formed in the same position as the hole, the upper portion is equal to the width of the large container (102 inches), the hole 20 is formed in the same position as the hole formed in the edge of the large container,

The seven pairs of left pedestals A to G and the seven pairs of right pedestals A 'to G' have the same configuration, and the pressing surface 30 and the lower portion of each pedestal can press the pedestals together. Supporting surface 30 'is formed,

The pressing surface 30 and the supporting surface 30 'formed on each pedestal have a center of a pair of center pedestals Y among seven pairs of left and right pedestals A-G, A'-G'. A pair of left and right pedestals (G, G ') disposed inwardly is the longest of 1/2 of the width of the small container (96 inches), and in addition to the pair of left and right pedestals (G, G'). The size of the pressing surface 30 and the supporting surface 30 'formed on the left and right pedestals is smaller and smaller as the distance from the pair of center pedestals Y is increased. Pressing surface 30 and the supporting surface 30 'is formed on each pedestal so as to be smaller by 1/6,

The pair of center pedestals Y, the seven pairs of left pedestals A to G, and the seven pairs of right pedestals A 'to G' are of separate configurations, or the pair of pedestals are supported by each other. It may be an integral configuration connected by a connection frame 40 provided with 41, the integral connection means of the pair of pedestals and the connection frame is a welding or bolted configuration.

The pair of center pedestals (Y), seven pairs of left pedestals (A to G) and seven pairs of right pedestals (A 'to G') may be marked with a sequence number for convenient use when connecting each pedestal. .

In the drawings, reference numeral 50 denotes a large container (102 inches) and 51 denotes a small container (96 inches).

If described in detail the operation of the container mounting pedestal different from the standard according to the present invention as follows.

The container loading pedestal according to the present invention is used only when loading 96-inch containers 51 having a small size and 102-inch containers 50 having a large size at the same time.

First, 15 small 96-inch containers 51 are loaded on the container carrier, and a pair of center pedestals (Y), seven pairs of left pedestals (A to G), and seven pairs of right pedestals (A ') are placed thereon. Install it by connecting ~ G ').

More specifically, a pair of center pedestals (Y) are installed on the center of the 15 small 96-inch containers (51), a pair of holes formed before and after the edge of the small 96-inch container (51) Align the hole 10 formed in the center pedestal (Y) and fix it with a known pin.

And based on a pair of center pedestal (Y) to seven pairs of left pedestal (G) ~ (A) in order, and seven pairs of right pedestal (G ')-(A') in order to install, The hole 10 formed at the bottom is made to coincide with the hole formed before and after the edge of the small 96-inch container 51 and fixed with a known pin.

Then, the pair of center pedestals Y, the seven pairs of left pedestals A to G, and the seven pairs of right pedestals A 'to G' are provided with the upper formed pressing surface 30 of each pedestal. Press the surface (30 ') is in the form.

As described above, after installing a pair of center pedestals (Y), seven pairs of left pedestals (A to G), and seven pairs of right pedestals (A 'to G') on 15 96-inch containers (51), On the top of the pedestal, 102-inch container 50 having a large size is placed. The holes 20 and the holes formed at the edges of the 102-inch container 50 are formed at the same position as the 102-inch container 50 on the top of each pedestal. And match with a known pin.

A pair of center pedestals (Y), seven pairs of left pedestals (A to G), and seven pairs of right pedestals (A 'to G') between the small 96-inch containers and the large 102-inch container as described above. ) Is installed, the pressing surface 30 formed on each pedestal is treated to the support surface 30 ', and pressed by the weight of the large 102-inch container is to maintain a solid connection.

The pedestals have the same function as the pedestal even when the pedestals are connected to each other by a detachable structure or a connecting frame 40 provided with the supporting rod 41.

However, when each pair of pedestals are connected by the connecting frame 40, it can be used more conveniently than the configuration of the detachable pedestal when installing between the containers or when carrying and handling.

10:20: Hole
30: pressing surface
A ~ G: left pedestal
A '~ G': right foot
Y: center bracket

Claims (3)

The container loading pedestal consists of a pair of center pedestals (Y), seven pairs of left pedestals (A to G), and seven pairs of right pedestals (A 'to G'),
The pair of center pedestals (Y) is a single-layer frame, the width (P) is equal to the width of the small container (96 inches), the hole 10 is formed at the same position as the hole formed in the edge of the small container at the bottom ,
The seven pairs of left and right pedestals (A-G) (A'-G ') are multi-layer frames, the bottom of which is equal to the width of a small container (96 inches) and the hole 10 at the same position as the hole formed at the edge of the container. ) Is formed, the upper portion is equal to the width of the large container (102 inches), the hole 20 is formed in the same position as the hole formed in the edge of the container,
The seven pairs of left and right pedestals (A-G) (A'-G ') are provided with a pressing surface 30 and a support surface 30' at the bottom of each pedestal so as to press each other,
The size of the pressing surface 30 and the supporting surface 30 'formed on the pair of center pedestals Y, the seven pairs of left pedestals A to G, and the seven pairs of right pedestals A' to G ' A pair of left and right pedestals G and G 'disposed inwardly around a pair of center pedestals Y is formed to be the longest at 2/1 of a width of a small container (96 inches), and the pair In addition to the left and right pedestals (G, G ') of the pressing surface 30 and the support surface (30') formed on the left and right pedestals are farther away from the pair of left and right pedestals (G, G ') Container loading table of different sizes, characterized in that it is configured to become smaller. The pedestal of claim 1, wherein the pair of center pedestals Y, the seven pairs of left pedestals A through G, and the seven pairs of right pedestals A 'through G' each have a pair of pedestals. 41) is provided by the connecting frame 40 is provided integrally characterized in that the container mounting pedestal of different standards. delete

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