WO2013069971A1

WO2013069971A1 - Container house having structural stability

Info

Publication number: WO2013069971A1
Application number: PCT/KR2012/009368
Authority: WO
Inventors: 엄호섭
Original assignee: Eom Ho Seob
Priority date: 2011-11-10
Filing date: 2012-11-08
Publication date: 2013-05-16
Also published as: RU2605101C2; GB201409980D0; GB2511676A; KR20130051596A; RU2014123154A; CN103958797A; JP2015501892A; US20140318036A1

Abstract

The present invention relates to a container house (200) having structural stability and including: a main body (210) having an inner space and a passage connecting the inside to the outside; and a plurality of piles (220) firmly fixing the main body to the ground, wherein the plurality of piles vertically pass through the main body and stick in the ground. The present invention has the advantage in which the main body is firmly fixed to the ground, wherein the main body may be conveniently and easily fixed to the ground by using the piles that pass through a cover portion of the main body to stick in the ground. That is, since the single or multi-storied main body is fixed to the ground due to the plurality of piles that firmly stick in the ground, the container house may be stably maintained even through natural disasters such as hurricanes, earthquakes, and the like. Thus, it is possible to comfortably live in poor surroundings such as a desert and grassland.

Description

Container house with structural stability

The present invention relates to a container house used as a living space, and more particularly, to secure the body of the container house firmly to the ground, through the corner portion of the body using the piled piled into the ground convenient and convenient to the ground A container house having structural stability that can be fixed.

In addition, the present invention is used to install at least one of the piles used to fix the main body to the ground to the upper to install a solar panel or blade for self-developing on the top, or the internal space of the pile to the outside of the main body The present invention also relates to a container house having structural stability that can be utilized as an installation space of a communication line connecting a communication repeater such as an antenna to be installed and a receiver such as a television to be installed inside the main body.

Container houses are a kind of ready-made building that can be installed at the factory after being made at the factory. The container house is different from the conventional buildings that were manufactured using the sandwich panel, which can be quickly installed compared to the conventional building, and has the advantage of being used by moving to another place of use where the use is completed.

The container house is manufactured as a finished product at the factory and then moved to a location to be installed by a van. Therefore, there is a limit on the size. That is, a typical container house is limited to about 3 to 4 meters in width and can be manufactured only about 10 to 12 meters in length.

Such a container house has the advantage of being able to make and sell a certain model in advance because of the feature that is made in the factory and transported to the installation point by van. Therefore, when a small building is urgently needed or when a building for a limited time needs to be used, there is a convenience in that it is possible to purchase or rent a container house prepared in advance and install it in a desired place. For this reason, container houses are increasingly being used.

In the construction sites that mainly use such container houses, offices and accommodations need to be installed quickly, and after construction is completed, they must move to other sites and rebuild and use the same sized offices and accommodations. The container house is used because of its ability to move to another location.

However, the container house, which is limited in size due to the width of the road and the length of the truck due to the use of the road during transportation, is installed in a multi-storey type for use by a large number of people, and is manufactured by separating surrounding facilities such as stairs. It is common to assemble and use at the installation site.

Another use example is temporary housing and temporary housing used in tourist attractions, and it is also used as a dormitory for occupants' houses and schools that require temporary residence until completion of construction.

Therefore, in recent years, container houses are made with high-quality exteriors and interiors similar to those of general residential buildings, and these container houses are widely used as general accommodations due to their differentiated design from conventional container houses. .

Also, in recent years, a prefabricated container house has been produced, which is constructed to prefabricate the container house to save transportation costs and to move easily. However, most of the prefabricated container houses are made of ABS and FRP materials, which are lightweight and high-strength plastics, so that the transport and installation are good, but they are vulnerable to strong winds so that they can be firmly fixed to the ground.

On the other hand, domestic patent registration No. 074237 discloses a technique for fixing the prefabricated container house to the ground. As shown in FIG. 1, the technique firmly anchors the steel structure 110 to the ground with anchors or concrete, and secures the prefabricated container house 100 on top of the steel structure 110, but at four corners. By installing the support 120 is a magnetic holder 130 is built, the prefabricated container house 100 by the magnetic force of the magnetic holder 130 is configured to be firmly fixed to the steel structure (110). In other words, this technology is a prefabricated container house 100 is firmly secured to the steel structure 110 is fixed to the ground by the magnetic force is supplied to the magnetic holder 130 or stopped in accordance with the power (on), off (off) It is configured to be fixed or detached.

By the way, this technique is not only to provide a separate steel structure 110 to secure the prefabricated container house 100 to the ground, but also to complex the steel structure 110 must be firmly fixed to the ground using anchors or concrete The process must be carried out. In addition, the technology has to be provided with an expensive magnetic holder 130 for fixing the prefabricated container house 100 to the steel structure 110 fixed to the ground, as well as the prefabricated container house ( There is a problem that the configuration relationship is complicated, such as having to provide a member for fastening and fixing to 100.

Accordingly, the present invention has been made in order to solve the problems of the prior art as described above, while the main body of the container house is firmly fixed to the ground, through the corners of the main body by using piled piled into the ground on the ground The object is to provide a container house having a structural stability that can be fixed conveniently and conveniently.

The present invention also provides a container house with structural stability used to extend at least one of the piles used to secure the body to the ground to the top to install self-powered solar panels or blades thereon. There is another purpose.

In addition, the present invention is a container house having a structural stability that can be utilized as the installation space of the communication line connecting the communication repeater such as an antenna to be installed on the outside of the main body and the receiver such as a television to be installed inside the main body of the pile There is another purpose to provide.

The container house having the structural stability of the present invention includes a main body having an inner space and a passage connecting the inside and the outside, and a plurality of piles which firmly fix the main body to the ground but penetrate the upper and lower sides of the main body to be fixed to the ground. Characterized in that it comprises a.

The main body of the present invention includes a bottom plate, a front plate, a pair of side plates, a top plate and a back plate, each of which has a through hole in which a plurality of piles penetrate through the corners of the top plate and the bottom plate. Can be formed.

The main body of the present invention is arranged in a plurality of layers, a plurality of piles can be fixed in the ground penetrating through the vertical direction of the main body arranged in a plurality of layers.

In the present invention, at least one of the plurality of piles may be extended upward by a predetermined length, and a blade of a solar panel or a wind turbine of a solar power plant for self-generation may be installed at an upper portion thereof.

The pile of the present invention can be configured as a hollow hollow inside.

The plurality of piles of the present invention may be composed of a solid pile filled in its entirety or a hollow pile thereof, or a portion of the pile may be composed of a solid pile.

In the present invention, the transverse cross section and the through hole of the pile can be the same shape.

In the internal space of the file of the present invention, a communication line connecting a communication relay installed outside the main body and a receiver installed inside the main body may be further installed.

The present invention has a merit that the main body of the container house is firmly fixed to the ground, but the main body is conveniently and conveniently fixed to the ground by using piled files that penetrate the corner of the main body. In other words, the present invention is fixed to the ground firmly fixed to the ground due to a plurality of piles firmly stuck to the ground, it is possible to maintain stability even in natural disasters such as typhoons, earthquakes, etc. Comfortable living is possible even in the environment.

In addition, the present invention extends to at least one of the piles used to secure the main body to the ground to be used to install a solar panel and / or a blade of the wind turbine of the solar power plant for self-generation at the top thereof. There are advantages to it. That is, the present invention can be used by installing the solar panel and / or the blade of the wind turbine of the solar power plant on the top of the pile, it is possible to live comfortably using self-generated power in remote islands and remote areas.

In addition, the present invention has the advantage that the internal space of the file can be utilized as an installation space of a communication line connecting a communication repeater such as an antenna to be installed outside the main body and a receiver such as a television to be installed inside the main body. In other words, the present invention can utilize the internal space of the file located in the internal space of the main body as the installation space of the communication line, it is possible to receive a smooth radio wave even in remote islands or remote areas, such as living a cultural life is possible.

1 is an exploded perspective view showing the configuration of the prefabricated container house according to the prior art,

2 is an exploded perspective view showing the configuration of the container house having a structural stability of the monolayer according to the first embodiment of the present invention,

3 is a perspective view and a partially enlarged view showing the configuration of the main body of the container house shown in FIG.

4 is an installation perspective view of the container house illustrated in FIG. 2 installed on the ground;

5 is a cross-sectional view taken along the line A-A of the container house shown in FIG.

FIG. 6 is a perspective view illustrating a configuration relationship of a container house having structural stability of a multilayer according to a second exemplary embodiment of the present invention.

7 is a cross-sectional view taken along the line B-B of the container house shown in FIG.

8 is a perspective view showing the configuration of the container house having a structural stability of the multilayer according to a third embodiment of the present invention,

9 is a cross-sectional view taken along the line C-C of the container house shown in FIG.

10 is a cross-sectional view showing the configuration of the container house having a structural stability is installed solar panel of the photovoltaic power generation equipment according to a fourth embodiment of the present invention,

11 is a cross-sectional view showing the configuration of the container house having a structural stability installed blades of the wind power generator according to the fifth embodiment of the present invention,

12 is a cross-sectional view showing the configuration of the container house having a structural stability in which the solar panel and the blade of the wind turbine of the solar power plant according to the sixth embodiment of the present invention is installed,

FIG. 13 is a cross-sectional view illustrating a configuration relationship of a container house having structural stability in which a communication line connected to an antenna according to the seventh embodiment of the present invention is installed.

In the following, preferred embodiments of a container house having structural stability according to the present invention will be described in detail with reference to the accompanying drawings.

2 is an exploded perspective view showing the configuration of the container house having a structural stability of a single layer according to the first embodiment of the present invention, Figure 3 is a perspective view showing the configuration of the body of the container house shown in FIG. 4 is a partially enlarged view, and FIG. 4 is a perspective view showing an installation of the container house shown in FIG. 2 on the ground, and FIG. 5 is a cross-sectional view of the container house shown in FIG. 4 taken along line AA.

As shown in Figures 2 to 5, the container house 200 having structural stability according to this embodiment is the main body 210 and the main body 210 is manufactured in the shape of a rectangular parallelepiped like a conventional container house It is firmly fixed to, but consists of a plurality of piles 220 to penetrate and fix the ground penetrating the corner portion of the body 210.

Here, the main body 210 is configured to include a bottom plate 211, the front plate 212, a pair of side plates 213, the top plate 214 and the back plate 215, therein living or There will be a space where various facilities for working can be installed. Meanwhile, a door and a window may be installed at the front plate 212, and a window may be installed at the side plate 213.

In the corners of the bottom plate 211 and the top plate 214, through

holes

211a and 214a through which the piles 220 may pass are formed, respectively. In this case, the through

holes

211a and 214a are formed at positions corresponding to each other such that the piles 220 penetrate the top plate 214 and the bottom plate 211 in a vertical state. Here, the through

holes

211a and 214a are formed in a frame installed along the edge of the main body 210, but are formed in a corner portion of the frame. That is, the through

holes

211a and 214a are preferably formed around the fitting grooves fitted to the van so as not to move when carrying the container house by the van.

In addition, the through

holes

211a and 214a are formed in the same shape as the pile 220, and furthermore, are formed to be the same or slightly larger than the outer size of the pile 220 so that the pile 220 is formed in the through

holes

211a and 214a. It is desirable to configure it so that it does not move as much as possible. On the other hand, as the through

holes

211a and 214a are formed around the through

holes

211a and 214a, a reinforcing member for reinforcing strength may be further provided.

The pile 220 is fixed to the ground through the top plate 214 and the bottom plate 211 through the through

holes

214a and 211a of the bottom plate 211 to fix the main body 210 to the ground. It plays a role. Accordingly, the pile 220 is configured to have a length that is the sum of the length of the main body 210 and the length of being embedded in the ground. That is, the lower end of the pile 220 is firmly embedded in the ground by a predetermined length, and the upper end has a height that is flush with the outer surface of the top plate 214 or slightly protrudes upward. Here, the depth at which the lower end of the pile 220 is hit by the ground may be such that the body 210 can be firmly supported.

In addition, the pile 220 is formed in the same shape as the through

holes

214a and 211a of the top plate 214 and the bottom plate 211, and is further smaller or smaller than the size of the through

holes

211a and 214a. It is preferable that the pile 220 is formed so that the pile 220 does not move as much as possible in the through

holes

211a and 214a.

In addition, the pile 220 may be configured of a hollow hollow or a solid solid filled therein. Here, the solid type may be configured to have a solid structure as a rod or a material of its own, or to fill a separate material such as concrete in the hollow pile to have a solid structure. For example, the concrete pile is filled with concrete (CFT; CONCRETE FILLED TUBE), the hollow pile is filled with reinforcing materials such as reinforcement, or the hollow pile is filled with the above reinforcement. After filling the concrete can be configured in a variety of ways, such as.

In constructing the pile 220 of this embodiment as described above, in the case of the hollow type has an advantage that can be used to utilize the internal space, in the case of the solid type can be more firmly fixed to the main body 210 There is an advantage. Therefore, the container house 200 of this embodiment may be configured as a solid pile or a hollow pile 220, or a portion may be a solid pile and the rest of the pile pile 220. On the other hand, the pile 220 may be composed of a circular pipe having a circular cross section thereof or a square pipe having a rectangular cross section thereof. In addition, it is preferable that the lower end of the pile 220 has an open shape so as to be more smoothly embedded in the ground, or the lower predetermined portion has a tapered shape such that its size becomes smaller toward the lower end.

Since the pile 220 of this embodiment serves to firmly fix the main body 210 to the ground as described above, a plurality of piles such as reinforcing bars are inserted into one of the through

holes

211a and 214a and driven into the ground. It can be fixed. That is, the pile 220 of this embodiment should be interpreted in a broad sense, which is composed of one or more inserted into one of the through

holes

211a and 214a and embedded in the ground.

As the pile 220 penetrates the through

holes

214a and 211a of the top plate 214 and the bottom plate 211 as described above, the pile 220 is positioned at corners of the inner space of the main body 210, respectively. do. Therefore, in the case of the hollow-shaped pile 220, the inner space of the pile 220 can be utilized as a passage for connecting the inside and the outside, such as a communication line to be described later. In addition, the pile 220 may be integrated by welding around the through-

holes

214a and 211a of the top plate 214 and the bottom plate 211 for firm coupling with the main body 210.

In the above embodiment, the pile 220 penetrates the inside of the main body 210 to be fixed to the ground, but the pile 220 penetrates to the corners near the top and bottom of the main body 210 to be fixed to the ground. By installing each of the fixing members, the pile 220 may be configured to be fixed to the ground in a state located outside the main body 210. That is, the container house 200 of this embodiment has the advantage that the main body 210 can be conveniently and conveniently fixed to the ground by using the piles 220 penetrating the corner of the main body 210 to the ground.

FIG. 6 is a perspective view illustrating a configuration relationship of a container house having structural stability of a multilayer according to a second embodiment of the present invention, and FIG. 7 is a cross-sectional view taken along line B-B of the container house shown in FIG. 6.

As shown in FIGS. 6 and 7, the container house 300 having the structural stability of the multi-layer of this embodiment is arranged such that the main body 210 configured as shown in FIGS. The main body 210 is configured to be firmly fixed to the ground using a pile 320 having the same concept as the first embodiment. Here, the pile 320 is composed of the length of the sum of the length of the pile to the ground and the height of the multi-layer, the lower end of the pile 220 is formed of the length enough to firmly support the body 210 is embedded in the ground Just do it.

FIG. 8 is a perspective view illustrating a configuration of a container house having structural stability of a multilayer according to a third exemplary embodiment of the present invention, and FIG. 9 is a cross-sectional view taken along the line C-C of the container house shown in FIG. 8.

As shown in Figs. 8 and 9, the container house having the structural stability of the duplex of this embodiment is constructed in the same concept as the container house 300 of the second embodiment, with some floors underground and the other floors above ground. Can be used to locate.

That is, the container house of this embodiment may be used on the ground as shown in Figs. 6 and 7, and if necessary, some floors may be located underground and the remaining floors may be used in the ground as shown in Figs. have.

10 to 12 show the configuration of the container house having a structural stability in which the blades of the solar panel and / or the wind turbine generator of the solar power plant according to the fourth embodiment to sixth embodiment of the present invention It is a cross section.

As shown in Figs. 10 to 12, the container houses 400, 500, and 600 having the structural stability of this embodiment are at least one of the piles 220 constituting the container house 200 of the first embodiment. The

piles

420, 520, and 620 extend upward by a predetermined length, and the solar panels 430 and / or the blades 530 of the wind turbine are installed on top of the piles. On the other hand, the container house having the structural stability of this embodiment extends at least any one of the piles constituting the container house 300 of the second and third embodiments to the top by a predetermined length to self It may also be configured by installing a solar panel and / or a blade of the wind power generator of the solar power plant for power generation.

As shown in FIG. 13, the container house 700 having the structural stability of this embodiment is configured in the same manner as the container house 200 of the first embodiment, but has a pile 720 located in an internal space of the main body 210. An installation space of a communication line 740 connecting a communication repeater such as an antenna 730 installed outside the main body 210 and a receiver such as a television (not shown) to be installed inside the main body 210. It is configured to utilize. On the other hand, the container house having the structural stability of this embodiment is configured in the same manner as the container house 300 of the second and third embodiments, the internal space of the file located in the internal space of the main body antenna, etc. It can also be configured to utilize as a communication line for connecting a communication repeater and a receiver such as a television (not shown) to be installed inside the main body.

Therefore, the container house having the structural stability of the present invention exemplified in the above embodiments is fixed to the ground firmly on the ground due to a plurality of piles firmly fixed to the ground, so that the nature of typhoons, earthquakes, etc. Stability can be maintained even in disasters, allowing comfortable living even in harsh environments such as deserts and grasslands.

In addition, the container house having the structural stability of the present invention can be used by installing the solar panels and / or blades of the wind power generator on the top of the pile, so comfortable residence using self-generated power in remote islands or remote areas, etc. Is possible.

In addition, the container house having the structural stability of the present invention is a communication repeater such as an antenna installed in the interior space of the file located in the interior space of the main body and a receiver such as a television (not shown) to be installed inside the main body As it can be used as an installation space of communication lines connecting, it is possible to receive radio waves smoothly even in remote islands and remote areas, so it is possible to live comfortably such as living a cultural life.

In the above description of the technical details of the container house having the structural stability of the present invention together with the accompanying drawings, but this is illustratively described the best embodiment of the present invention. Therefore, the present invention is not limited to the above-described embodiments, and various modifications and variations can be made without departing from the spirit and scope of the present invention, and therefore, such modifications will be apparent to those skilled in the art. Examples or modifications will also belong to the claims of this invention.

Claims

A main body having an inner space and a passage connecting the inside and the outside;

The container house having a structural stability, characterized in that it comprises a plurality of piles to secure the main body firmly to the ground but penetrates and fixed in the ground through the vertical direction.
The method according to claim 1,

The main body includes a bottom plate, a front plate, a pair of side plates, a top plate and a back plate, the corner portion of the top plate and the bottom plate through holes through which the plurality of piles are respectively disposed Container houses having structural stability, characterized in that each formed.
The method according to claim 1,

The main body is arranged in a plurality of layers, the plurality of piles is a container house having a structural stability, characterized in that the penetrating and fixed in the ground penetrates in the vertical direction of the main body arranged in a plurality of layers.
The method according to any one of claims 1 to 3,

At least one of the plurality of piles extend upward by a predetermined length, the container house having a structural stability, characterized in that the upper portion of the solar panel of the solar power plant or a wind turbine of the solar power plant is installed.
The method according to any one of claims 1 to 3,

The pile is a container house having a structural stability, characterized in that the hollow hollow inside.
The method according to any one of claims 1 to 3,

The plurality of piles may be composed of a solid pile filled with the inside thereof or a hollow pile thereof, or a portion of the pile may be configured with the solid pile and the remainder of the hollow pile. Having a container house.
The method according to claim 2,

The transverse cross section of the pile and the through-hole container house having a structural stability, characterized in that the same shape.
The method according to claim 5,

Container house having a structural stability, characterized in that the communication space for connecting the communication relay is installed on the outside of the main body and the receiver is installed in the interior of the pile is further installed.