KR200497973Y1 - prefab container architecture - Google Patents

Abstract

This design relates to a prefabricated container building, which can be used by connecting and assembling a large number of containers made of a certain size, which has the effect of expanding the internal space and enabling use.
The present invention for realizing this is a prefabricated container building that is used by connecting a plurality of containers (10, 20), and the containers (10, 20) have open space portions (15, 25) on the corresponding side walls of each other. Formed to a certain size; The containers on both sides (10, 20) are provided with step portions (11, 21) at the top of the space portions (15, 25); A support bar 30 is connected to the inside of the step portions 11 and 21 to reinforce the support force; Reinforcement frames 12 and 22 for supporting the support 30 are welded and fixed to the inside of the step portions 11 and 21.

Description

Prefab container architecture {prefab container architecture}

The present invention relates to a prefabricated container building, and more specifically, to a prefabricated container building to improve the efficiency and convenience of container use by forming a structure in which a large number of containers are placed in close contact with each other and spatially connected to each other.

In general, container structures are used as temporary buildings such as offices or management booths at construction sites by forming doors and windows in container boxes used for cargo transportation.

Since these container structures have the advantage of low unit cost and short construction period, they are not limited to a single booth type but are connected to multiple structures and are used as various types of structures.

In particular, recently, electricity, water, or gas are supplied to enable working or living inside the container, so it is being manufactured as a residential type.

However, in the prior art, because containers were manufactured to a certain size, there was a problem in that it was difficult to expand space by connecting multiple containers in a prefabricated manner.

Republic of Korea Patent Registration No. 1669795 (registered on October 21, 2016) Republic of Korea Patent Registration No. 1594472 (registered on February 5, 2016)

The present invention was proposed to improve the problems in the prior art described above, and aims to improve the utilization efficiency of container buildings by providing a technology that can be used as buildings of various sizes by connecting multiple containers as needed. There is a purpose.

The present invention to achieve the above object is a prefabricated container building in which a plurality of containers are connected to each other, wherein open space portions are formed to a certain size on side walls corresponding to each container; The containers on both sides are provided with a stepped portion at the top of the space portion; A support bar is connected to the inside of the stepped portion to reinforce the bearing force; A reinforcing frame for supporting the support is welded and fixed to the inside of the step portion.

In addition, the support is characterized in that it forms a truss connection structure in which the upper part is connected and fixed to the step at a certain angle, and the lower part is continuously connected and fixed to the reinforcing frame.

The container building of the present invention can be used by connecting and assembling a plurality of containers manufactured to a certain size, which has the effect of expanding the internal space and enabling use.

In particular, connection support can be provided by truss supports at both connection parts, which has the advantage of improving the bearing capacity and rigidity of the connection part.

1 is a schematic cross-sectional view of a state before container connection according to an embodiment of the present invention.
Figure 2 is a schematic cross-sectional view of the container connection state of the present invention.
Figure 3 is an enlarged view of part A of Figure 2.
Figure 4 is a state diagram of the truss-type support assembly of the present invention.
Figure 5 is a cross-sectional perspective view of the container connection part of the present invention.
Figure 6 is a perspective view of the support part in the present invention.
Figure 7 is an enlarged cross-sectional view of a connection assembly according to another embodiment of the present invention.

Hereinafter, specific embodiments of the present invention will be examined in detail with reference to the accompanying drawings.

The embodiments of the present invention may be modified in various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. This embodiment is provided to more completely explain the present invention to those with average knowledge in the art.

Accordingly, the shapes of components expressed in the drawings may be exaggerated to emphasize a clearer description. It should be noted that the same configuration may be indicated by the same reference numeral in each drawing. Additionally, detailed descriptions of the functions and configurations of known technologies that are judged to unnecessarily obscure the gist of the present invention may be omitted.

First, looking at the prefabricated container building structure according to an embodiment of the present design through FIGS. 1 to 6, as follows.

The prefabricated container in this embodiment is used by connecting two containers (10, 20) manufactured to a certain size and standard.

At this time, open spaces 15 and 25 are formed of a certain size on the corresponding side walls of the containers 10 and 20 so that the indoor space can be connected, and space portions 15 are formed on both sides of the containers 10 and 20. , 25) is provided with a step portion (11, 21) at the upper end, and a support bar (30) is connected to the inside of the step portion (11, 21) to reinforce the bearing force, and is used to support the support pole (30). Reinforcement frames 12 and 22 are welded and fixed to the inside of the step portions 11 and 21.

In particular, the support 30 is angled at a certain angle to form a truss connection structure in which the upper part is connected and fixed to the step portions 11 and 21, and the lower part is continuously connected and fixed to the reinforcing frames 12 and 22.

That is, a plurality of supports (30) made of a certain length are connected and fixed to the step portions (11, 21) and the reinforcing frames (12, 22) using fastening bolts (31, 32) while alternating up and down in a zigzag form. By doing so, truss-shaped support can be achieved.

At this time, the truss 30 has a pipe shape, and both ends form pressing portions 30a and 30b that form a flat surface by pressure, and the pressing portions 30a and 30b are connected to the fastening bolts 31 and 32. Connection and fixation with the step portions 11 and 21 and the reinforcement frames 12 and 22 are achieved.

In addition, it can be seen that the reinforcement frames 12 and 22 are constructed with an increased length compared to the step portions 11 and 21.

Meanwhile, the step portions 11 and 21, the reinforcing frames 12 and 22, and the supports 30 are formed on the top, bottom, left, and right sides of the containers 10 and 20, respectively, around the openings 15 of the containers 10 and 20. Connection durability can be improved.

Let's look at the effects of using the prefabricated container building of this invention.

First, in order to connect, the two containers 10 and 20 forming the spaces 15 and 25 are placed in close contact with each other to face each other, and the connection portion is strengthened using the support 30.

At this time, primary fixation is performed at regular intervals using bolts (not shown) at each contact area.

In particular, a plurality of supports 30 are installed continuously in a zigzag-shaped truss structure at the upper ceiling of the container, and the upper and lower ends of each support 30 are connected using a plurality of fastening bolts 31 and 32. They are connected to the step portions 11 and 21 and the reinforcement frames 12 and 22, respectively.

When the support 30 is installed in this form, a strong support force can be applied to the container connection, so that separation or damage to the container connection is prevented even when a strong external force such as a typhoon or earthquake is applied, thereby ensuring a stable connection. The state can be maintained.

Therefore, the container building of the present invention can be used by connecting and assembling a large number of containers manufactured of a certain size, which has the effect of expanding the internal space and enabling use.

In particular, connection support can be provided by truss supports at both connection parts, which has the advantage of improving the bearing capacity and rigidity of the connection part.

Meanwhile, Figure 7 shows a configuration according to another embodiment of the present invention. Elastic springs 40 for elastic support are connected to the lower ends of the reinforcing frames 12 and 22 exposed downward from the ceiling of the container connection section. do.

In addition, a screen 50 made of cloth or steel plate is provided at the bottom to prevent external exposure of the elastic spring 40, and hanging straps 51 are connected to both ends of the screen 50, and the hanging strap A locking protrusion (22a) is provided in a form bent at a right angle at the lower end of the reinforcing frames (12, 22) so that (51) can be hung.

When such a configuration is achieved, when the containers 10 and 20 are connected, the reinforcing frames 12 and 22 on both sides form a structure in which elastic support is provided by mutual elastic springs 40, thereby improving the buffering function. .

In particular, when vibration due to a typhoon or earthquake is transmitted from the outside, the elastic spring 40 can absorb shock, which has the advantage of maximizing structural stability at the container connection area.

In addition, a screen 50 is provided at the bottom of the elastic spring 40 to prevent external exposure of the support 30 and the elastic spring 40, thereby improving aesthetics and preventing the inflow of birds, thereby improving facility management efficiency. It becomes possible.

In particular, since the screen 50 is provided with a hanging strap 51 that can be hung on the catching protrusion 22a, it has the advantage of being easy to install and replace.

Although specific embodiments of the present invention have been described and shown above, it is obvious that the container building structure of the present invention can be implemented in various modifications by those skilled in the art.

For example, in the above embodiment, a form of connecting two containers is described and shown, but if necessary, three or more containers can be used by connecting them in a prefabricated manner.

Additionally, the installation of the support can be applied not only to the ceiling but also to the floor and both sides.

Accordingly, such modified embodiments should not be understood individually from the technical spirit or scope of the present invention, and such modified embodiments should be included within the scope of the appended claims of the present invention.

10,20: Container 11,21: Stepped portion
12,22: Reinforcement frame 15,25: Opening part
30: Support 30a, 30b: Compressed portion
31,32: fastening bolt

Claims (6)

In a prefabricated container building that is used by connecting a number of containers (10, 20),
Open space portions (15, 25) of a certain size are formed on corresponding side walls of the containers (10, 20);
The containers on both sides (10, 20) are provided with step portions (11, 21) at the top of the space portions (15, 25);
A support bar 30 is connected to the inside of the step portions 11 and 21 to reinforce the support force;
Reinforcement frames 12 and 22 for supporting the support 30 are welded and fixed to the inside of the step portions 11 and 21,
The support 30 forms a truss connection structure in which the upper part is connected and fixed to the step portions 11 and 21 at a certain angle, and the lower part is continuously connected and fixed to the reinforcing frames 12 and 22,
Both ends of the support 30 form press parts (30a, 30b) forming a flat surface by pressure, and step portions (11, 21) are formed by fastening bolts (31, 32) in the press parts (30a, 30b). ) and a prefabricated container building characterized by connection and fixation with the reinforcement frames (12, 22) . delete In claim 1,
A prefabricated container building, characterized in that the reinforcing frames (12, 22) have an increased length compared to the step portions (11, 21). In claim 1,
The stepped portions 11 and 21, the reinforcing frames 12 and 22, and the supports 30 are respectively configured on the upper, lower, left, and right sides around the opening portion 15 of the containers 10,20. Prefabricated container buildings. delete In claim 3,
The reinforcing frames 12 and 22 are configured with elastic springs 40 connected to each other for elastic support at the lower ends exposed downward due to the increased length, and a screen to prevent the elastic springs 40 from being exposed to the outside. (50) is provided at the lower part, and hanging straps (51) are connected to both ends of the screen (50), and a catching protrusion (51) is provided at the lower end of the reinforcement frames (12, 22) so that the hanging strap (51) can be hung. 22a) A prefabricated container building characterized in that it is provided in a form bent at a right angle.

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