CONTAINER HOUSE HAVING STRUCTURAL STABILITY

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 corner portions 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

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a National phase of PCT Patent Application No. PCT/KR2012/009368 having International filing date of Nov. 8, 2012, which claims the benefit of priority of Korean Patent Application No. 10-2011-0116824 filed on Nov. 10, 2011. The contents of the above applications are all incorporated by reference as if fully set forth herein in their entirety.

TECHNICAL FIELD

The present invention relates to a container house used in residential space, and more particularly, to a container house having structural stability which can conveniently and easily fix the main body to the ground by using piles that firmly fix the main body of the container house to the ground and pass through corner portions of the main body to stick in the ground.

Further, the present invention also relates to a container house having structural stability which extends at least any one of piles used for fixing a main body to the ground to the top to use the extended pile for installing self-generation solar panel or blade on the top or use an inner space of the pile as an installation space for a communication line that connects communication relays such as an antenna, and the like to be installed outside the main body, and the like and receivers such as a television, and the like to be installed inside the main body.

BACKGROUND ART

A container house is a kind of temporary building as ready-made goods that can be installed in a desired place after being made in a factory. The container house is different from a temporary building that was manufactured by using a sandwich panel in the related and has advantages that the container house can be installed more rapidly than the building in the related art and the container house is moved from a place where the use thereof is completed to another usage place to be used.

The container house is moved to a position to be installed through a truck and installed at the position after being manufactured in the factory as finished goods. Therefore, the size of the container house is limited. That is, in general, the width of the container house is limited to approximately 3 to 4 and the container house can be manufactured only in a length of approximately up to 10 to 12 m.

The container house has an advantage that the container house can be sold while a predetermined model has been made in advance due to a feature that the container house is made in the factory and transported to an installation location through the truck. Therefore, when a small-size building is urgently required or when a building to be temporarily used is required, it is convenient that such a ready-made container house is purchased or leased to be installed at a desired place and thereafter, used. The use of the container house has gradually increased due to such a reason.

In a construction site primarily using the container house, since offices and accommodations need to be rapidly installed and offices and accommodations having the same scale need to be moved to another site and constructed again after a construction is completed, the container house is used due to advantages that the container is easily installed and dismantled and is movable to another place.

However, the container house which is limited in size thereof depending on the width of a road and the length of the truck because of the use of the road in transportation is installed and used in multi-stories in order for a plurality of persons to use the container house, while the container house is manufactured by separating a surrounding facility such as stairs and the container house and the surrounding facility are generally assembled and used.

As another example, the container house is used as a temporary accommodation used temporarily used in a tourist spot and an accommodation of residents at which the residents temporarily needs to reside until a construction is completed due to the construction, and a boarding house of a school.

Accordingly, in recent years, a container house has been manufactured, in which an exterior and an internal interior are made luxuriously to be similar as a general residential building and the container house is widely used with perfection as a general accommodation due to a design differentiated from a monolithic container house in the related art.

Further, in recent years, a prefabricated container house has appeared, which is manufactured to save transportation cost and conveniently move by configuring the container house a prefabricated manner. However, since most prefabricated container houses are made of ABS, FRP, and the like which are lightweight and high-strength plastic series materials, it is favorable to transport and install the prefabricated container house, but the prefabricated container houses are weak to a strong wind. Therefore, it is very important to firmly fix the prefabricated container houses.

Meanwhile, a technology that fixes the prefabricated container house to the ground is disclosed in Korean Patent Registration No. 0704237. As illustrated in FIG. 1, the technology firmly fixes an iron structure 110 to the ground by means of an anchor or concrete and fixes a prefabricated container house 100 on the top of the iron structure 110 and installs piles 120 incorporated with magnetic holders 130 at four corners to firmly fix the prefabricated container house 100 to the iron structure 110 by magnetic force of the magnetic holders 130. That is, the technology is configured in such a manner that the magnetic force is supplied or interrupted to be supplied to the magnetic holders 130 according to on and off of power, and as a result, the prefabricated container house 100 is firmly fixed to or separated from the iron structure 110 safely fixed to the ground.

However, the technology needs to perform a complicated process in which the iron structure 110 is separately provided to fix the prefabricated container house 100 to the ground and the iron structure 110 needs to be firmly fixed to the ground by using the anchor or concrete. Further, the technology has a problem that a complicated configuration relationship that a high-price magnetic holder 130 for fixing the prefabricated container house 100 to the iron structure 110 fixed to the ground needs to be provided and members for fastening and fixing the magnetic holder 130 to the prefabricated container house 100 need to be provided.

DETAILED DESCRIPTION OF THE INVENTION

Technical Problem

Accordingly, the present invention is contrived to solve the problem in the related art described above and an object of the present invention is to provide a container house having structural stability which can conveniently and easily fix the main body to the ground by using piles that firmly fix the main body of the container house to the ground and pass through corner portions of the main body to stick in the ground.

Further, another object of the present invention is to provide a container house having structural stability which extends at least any one of piles used for fixing a main body to the ground to the top to use the extended pile for installing self-generation solar panel or blade on the top.

In addition, yet another object of the present invention is to provide a container house having structural stability which use an inner space of the pile as an installation space for a communication line that connects communication relays such as an antenna, and the like to be installed outside the main body, and the like and receivers such as a television, and the like to be installed inside the main body.

Means for Solving the Problem

A container house having structural stability of the present invention includes: a main body having an inner space and a passage connecting the inside to the outside; and a plurality of piles firmly fixing the main body to the ground, and pass through the main body vertically to stick in the ground.

The main body of the present invention is configured to include a bottom plate, a front plate, a pair of side plates, a top plate, and a rear plate, and through-holes through which the plurality of piles pass may be formed at corner portions of the top plate and the bottom plate, respectively.

The main body of the present invention may be arranged in multiple stories and the plurality of piles pass through the main body arranged in the multiple stories vertically to stick in the ground.

At least any one of the plurality of piles may be extended to the top by a predetermined length and a solar panel of a self-generation solar power generating facility or a blade of a wind power generating device may be installed on the top.

The pile of the present invention may be configured in a hollow shape in which the inside thereof is empty.

All of the plurality of piles may be constituted by a discoidal pile in which the inside is filled up or a hollow pile in which the inside is empty or some of the plurality of piles may be constituted the discoidal piles and the remainder of the plurality of piles may be constituted by the hollow piles.

In the present invention, a transverse cross-section of the pile and the through-hole may have the same shape.

A communication line connecting a communication relay installed outside the main body and a receiver installed inside the main body may be further installed in the inner space of the pile of the present invention.

Effect of the Invention

The present invention has an advantage that the main body can be conveniently and easily fixed to the ground by using piles that firmly fix the main body of the container house to the ground and pass through corner portions of the main body to stick in the ground. That is, as a single-storied or multiple-storied main body is firmly fixed to the ground by a plurality of piles that firmly stick in the ground, the container house can be maintained even in natural disasters such as hurricanes, earthquakes, and the like. Therefore, it is possible that persons comfortably live in poor environments such as a desert, grassland, and the like.

Further, the present invention has an advantage that at least any one of piles used for fixing a main body to the ground is extended to the top to install the extended pile for installing a solar panel of a self-generation solar generating facility and/or a blade of a wind power generating device on the top. That is, since the present invention can be used by installing the solar panel of the self-generation solar generating facility and/or the blade of the wind power generating device on the top, persons can conveniently reside in a remote island or the wild by using self-generated power.

Moreover, the present invention has an advantage that an inner space of the pile can be used as an installation space for a communication line that connects communication relays such as an antenna, and the like to be installed outside the main body, and the like and receivers such as a television, and the like to be installed inside the main body. That is, in the present invention, since the inner space of the pile positioned the inner space of the main body can be used as the installation space for the communication line, convenient residence such as a cultural life, and the like can be achieved because a wave can be smoothly received even in the remote island or the wild.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 is an exploded perspective view illustrating a configuration relationship of a prefabricated container house in the related art.

FIG. 2 is an exploded perspective view illustrating a configuration relationship of a container house having structural stability of a single story according to a first embodiment of the present invention.

FIG. 3 is a perspective view and a partially enlarged diagram illustrating the configuration relationship of the container house illustrated in FIG. 2.

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

FIG. 5 is a cross-sectional view of the container house illustrated in FIG. 4 taken along line A-A.

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

FIG. 7 is a cross-sectional view of the container house illustrated in FIG. 6 taken along line B-B.

FIG. 8 is a perspective view illustrating a configuration relationship of a container house having structural stability of multiple stories according to a third embodiment of the present invention.

FIG. 9 is a cross-sectional view of the container house illustrated in FIG. 8 taken along line C-C.

FIG. 10 is a perspective view illustrating a configuration relationship of a container house having structural stability in which a solar panel of a solar generation facility is installed according to a fourth embodiment of the present invention.

FIG. 11 is a perspective view illustrating a configuration relationship of a container house having structural stability in which a blade of a wind power generating device is installed according to a fifth embodiment of the present invention.

FIG. 12 is a perspective view illustrating a configuration relationship of a container house having structural stability in which a solar panel of a solar generation facility and a blade of a wind power generating device according to a sixth embodiment of the present invention.

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

BEST MODE FOR CARRYING OUT THE INVENTION

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

FIG. 2 is an exploded perspective view illustrating a configuration relationship of a container house having structural stability of a single story according to a first embodiment of the present invention. FIG. 3 is a perspective view and a partially enlarged diagram illustrating the configuration relationship of the container house illustrated in FIG. 2. FIG. 4 is an installation perspective view of a state in which the container house illustrated in FIG. 2 is installed on the ground. FIG. 5 is a cross-sectional view of the container house illustrated in FIG.4 taken along line A-A.

As illustrated in FIGS. 2 to 5, the container house 200 having structural stability according to the embodiment includes a main body 210 which is manufactured in a rectangular parallelepiped shape which is the same as that of the existing container house and a plurality of piles 220 which firmly fix the main body 210 to the ground, and pass through corner portions of the main body 210 and stick in the ground.

Herein, the main body 210 is configured to include a bottom plate 211, a front plate 212, a pair of side plates 213, a top plate 214, and a rear plate 215 and has a space in which various facilities where persons reside or perform business are installed, which is provided therein. Meanwhile, a door and a window may be installed on the front plate 212 and the window may be installed on the side plate 213.

Meanwhile, through-holes 211a and 214a through which respective piles 220 may pass are formed at corners on the bottom plate 211 and the top plate 214, respectively. In this case, the through-holes 211a and 214a are formed at positions corresponding to each other so that the piles 220 pass through the top plate 214 and the bottom plate 211 in a vertical state, respectively. Herein, the through-holes 211a and 214a are formed on a frame installed on a circumference of the main body 210 and formed at corner portions in the frame. That is, the through-holes 211a and 214a are preferably formed around a fitting groove which fits in a truck so that the container house does not move in transporting the container house through the truck.

Further, the through-holes 211a and 214a are formed in the same shape as the pile 220 and furthermore, the through-holes 211a and 214a are formed to be the same as or slightly larger than an outer size of the pile 220, and as a result, the pile is preferably configured so that the pile 220 does not move in the through-holes 211a and 214a. Meanwhile, as the through-holes 211a and 214a are formed around the through-holes 211a and 214a, a reinforcement member for reinforcing strength, and the like may be installed.

The piles 220 stick in the ground through the through the through-holes 214a and 211a of the top plate 214 and the bottom plate 211 constituting the main body 210 to serve to firmly fix the main body 210 to the ground. Therefore, the piles 220 are configured to have approximately a length acquired by adding approximately a length to stick in the ground to the height of the main body 210. That is, the bottoms of the pile 220 firmly stick in the ground at a predetermined length and the tops of the piles 220 has the same height as an outer surface of the top plate 214 or a height to protrude slightly upward. Herein, depths at which the bottoms of the piles 220 stick in the ground may be approximately depths to firmly support the main body 210.

Further, the piles 220 are formed in the same shape as the through-holes 214a and 211a of the top plate 214 and the bottom plate 211 and furthermore, formed in the same size as or slightly smaller than the through-holes 211a and 214a, and as a result, the piles 220 are preferably configured so as not to move in the through-holes 211a and 214a.

In addition, the piles 220 may be configured in a hollow shape of which the inside is hollow and a discoidal shape of which the inside is filled up. Herein, the discoidal shape may have a discoidal structure as a material thereof like a rod or a bar or a discoidal structure in which a separate material such as concrete, or the like is filled up in the hollow pile. For example, the piles 220 may be configured in various methods such as configuring the concrete to be filled up in the hollow pile (CFT; concrete filled tube), configuring a reinforcement material such as rebar to be filled up in the hollow pile, or filling up the reinforcement material in the hollow pile and thereafter, further filling up the concrete.

In configuring the piles 220 of the embodiment as described above, the hollow piles have an advantage that the hollow piles 220 may be used to use the inner space thereof and the discoidal piles have an advantage that the piles 220 may more firmly fix the main body 210. Accordingly, in the container house 200 of the embodiment, all of the piles 220 may be constituted by the discoidal or hollow piles 220 or some of the piles 220 may be constituted by the discoidal piles 220 and the remainder of the piles 220 may be constituted by the hollow piles 220. Meanwhile, the piles 220 may be configured by a circular pipe of which a transverse cross-section is circular or a quadrangular pipe of which a transverse cross-section is quadrangular. Further, the bottoms of the piles 220 preferably have to a shape opened to more smoothly stick in the ground or a tapered shape so that the size of a predetermined lower part is gradually decreased toward the bottom.

Since the piles 220 of the embodiment serve to firmly fix the main body 210 to the ground as described above, a plurality of piles such as the rebar may be inserted into one through-hole 211a or 214a and stick in the ground. That is, the pile 220 needs to be analyzed as a wide meaning that the pile 220 is constituted by one or more piles which are inserted into one through-hole 211a or 214a and stick in the ground.

As the piles 220 pass through the through-holes 214a and 211a of the top plate 214 and the bottom plate 211 as described above, the piles 220 are positioned at corner portions of an inner space of the main body 210. Accordingly, in the case of the hollow piles 220, the inner space of the pile 220 may be used as passages for connecting the inside and the outside, such as a communication line to be described below. Further, the pile 220 may be welded and integrated around the through-holes 214a and 211a of the top plate 214 and the bottom plate 211 for solid joining with the main body 210.

In the embodiment, the pile 220 is configured to be fixed to the ground through the inside of the main body 210, but fixing members in which the piles 220 pass through the main body to be fixed to the ground are installed at corner portions around the top and the bottom of the main body 210, respectively, and as a result, the piles 220 may be configured to be fixed to the ground while the piles 220 are positioned outside the main body 210. That is, the container house 200 of the embodiment has an advantage to conveniently and easily fix the main body 210 to the ground by using the piles 220 that pass through the corner portions and stick in the ground.

MODE FOR CARRYING OUT THE INVENTION

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

As illustrated in FIGS. 6 and 7, the container house 300 having structural stability of multiple stories is configured in such a manner that the main body 210 configured as illustrated FIGS. 2 to 5 are arranged in multiple stories and the main body 210 arranged as above is firmly fixed to the ground by using piles having the same concept as the first embodiment. Herein, the piles 320 have a length acquired by adding a length to stick in the ground to the height of the multiple stories, however, the piles 320 may have a length for the bottoms of the piles 220 to stick in the ground and firmly support the main body 210.

FIG. 8 is a perspective view illustrating a configuration relationship of a container house having structural stability of multiple stories according to a third embodiment of the present invention. FIG. 9 is a cross-sectional view of the container house illustrated in FIG. 8 taken along line C-C.

As illustrated in FIGS. 8 and 9, the container house having structural stability of multiple stores of the embodiment is configured as the same concept as the container house 300 of the second embodiment, and the container house may be used by positioning some stories underground and remaining stories on the ground.

That is, the container house of the embodiment may be used by positioning the stories on the ground as illustrated in FIGS. 6 and 7 and by positioning some stories underground and remaining stories on the ground as necessary as illustrated in FIGS. 8 and 9.

FIGS. 10 to 12 are cross-sectional views illustrating a configuration relationship of a container house having structural stability in which a solar panel of a solar generation facility and a blade of a wind power generating device according to fourth to sixth embodiments of the present invention.

As illustrated in FIGS. 10 to 12, the container houses 400, 500, or 600 having structural stability of the embodiment is configured by extending at least any one 420, 520, or 620 of piles 220 constituting the container house 200 according to the first embodiment to the top by a predetermined length to install the extended pile for installing a solar panel 430 of a self-generation solar generating facility and/or a blade 530 of a wind power generating device on the top. Meanwhile, the container house having structural stability of the embodiment may be configured by extending at least any one pile of the piles 320 constituting the container house 300 according to the first and second embodiments to the top by a predetermined length to install the extended pile for installing a solar panel of a self-generation solar generating facility and/or a blade of a wind power generating device on the top.

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

As illustrated in FIG. 13, the container house 700 having structural stability of the embodiment is configured to be similar as the container house 200 of the first embodiment and configured to use an inner space of a pile 720 positioned in an inner space of the main body 210 as an installation space for a communication line 740 that connects communication relays such as an antenna 730, and the like to be installed outside the main body 210, and the like and receivers such as a television (not illustrated), and the like to be installed inside the main body 210. Meanwhile, the container house having structural stability of the embodiment is configured to be similar as the container house 300 of the first and second embodiments and configured to use an inner space of a pile positioned in an inner space of the main body as an installation space for a communication line that connects communication relays such as an antenna, and the like to be installed outside the main body, and the like and receivers such as a television (not illustrated), and the like to be installed inside the main body.

INDUSTRIAL APPLICABILITY

Therefore, in the container houses having structural stability exemplified according to the embodiments, as a single-storied or multiple-storied main body is firmly fixed to the ground by a plurality of piles that firmly stick in the ground, the container house can be maintained even in natural disasters such as hurricanes, earthquakes, and the like. Therefore, it is possible that persons comfortably live in poor environments such as a desert, grassland, and the like.

Further, since the container house having structural stability according to the present invention can be used by installing the solar panel of the self-generation solar generating facility and/or the blade of the wind power generating device on the top, persons can conveniently reside in a remote island or the wild by using self-generated power.

Further, in the container house having structural stability according to the present invention, since an inner space of a pile positioned in an inner space of the main body can be used as an installation space for a communication line that connects communication relays such as an antenna, and the like to be installed outside the main body, and the like and receivers such as a television (not illustrated), and the like to be installed inside the main body, convenient residence such as a cultural life, and the like can be achieved because a wave can be smoothly received even in the remote island or the wild.

Although technical items of the container house having structural stability of the present invention have been described together with the accompanying drawings, the most favorable embodiment of the present invention will be exemplarily described. Accordingly, the present invention is not limited to the embodiment disclosed above and since it is apparent to those skilled in the art that various modifications and changes can be made without departing from the spirit and the scope of the present invention, changed examples or modified examples will also be included in the appended claims.

Claims

1. A container house having structural stability, comprising:

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

a plurality of piles firmly fixing the main body to the ground, and pass through the main body vertically to stick in the ground.

2. The container house having structural stability of claim 1, wherein:

the main body is configured to include a bottom plate, a front plate, a pair of side plates, a top plate, and a rear plate, and through-holes through which the plurality of piles pass are formed at corner portions of the top plate and the bottom plate, respectively.

3. The container house having structural stability of claim 1, wherein:

the main body is arranged in multiple stories and the plurality of piles pass through the main body arranged in the multiple stories vertically to stick in the ground.

4. The container house having structural stability of claim 1, wherein:

at least any one of the plurality of piles is extended to the top by a predetermined length and a solar panel of a self-generation solar power generating facility or a blade of a wind power generating device is installed on the top.

5. The container house having structural stability of claim 1, wherein:

the pile is configured in a hollow shape in which the inside thereof is empty.

6. The container house having structural stability of claim 1, wherein:

all of the plurality of piles are configured by a discoidal pile in which the inside is filled up or a hollow pile in which the inside is empty or some of the plurality of piles are constituted the discoidal piles and the remainder of the plurality of piles are constituted by the hollow piles.

7. The container house having structural stability of claim 2, wherein:

a transverse cross-section of the pile and the through-hole have the same shape.

8. The container house having structural stability of claim 5, wherein:

a communication line connecting a communication relay installed outside the main body and a receiver installed inside the main body is further installed in the inner space of the pile.

9. The container house having structural stability of claim 2, wherein:

at least any one of the plurality of piles is extended to the top by a predetermined length and a solar panel of a self-generation solar power generating facility or a blade of a wind power generating device is installed on the top.

10. The container house having structural stability of claim 3, wherein:

at least any one of the plurality of piles is extended to the top by a predetermined length and a solar panel of a self-generation solar power generating facility or a blade of a wind power generating device is installed on the top.

11. The container house having structural stability of claim 2, wherein:

the pile is configured in a hollow shape in which the inside thereof is empty.

12. The container house having structural stability of claim 3, wherein:

the pile is configured in a hollow shape in which the inside thereof is empty.

13. The container house having structural stability of claim 2, wherein:

all of the plurality of piles are configured by a discoidal pile in which the inside is filled up or a hollow pile in which the inside is empty or some of the plurality of piles are constituted the discoidal piles and the remainder of the plurality of piles are constituted by the hollow piles.

14. The container house having structural stability of claim 3, wherein:

all of the plurality of piles are configured by a discoidal pile in which the inside is filled up or a hollow pile in which the inside is empty or some of the plurality of piles are constituted the discoidal piles and the remainder of the plurality of piles are constituted by the hollow piles.

15. The container house having structural stability of claim 11, wherein:

a communication line connecting a communication relay installed outside the main body and a receiver installed inside the main body is further installed in the inner space of the pile.

16. The container house having structural stability of claim 12, wherein:

a communication line connecting a communication relay installed outside the main body and a receiver installed inside the main body is further installed in the inner space of the pile.