RU2605101C2 - House-container with stable structure - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: present invention relates to a container house, used as a place of residence. Container house with a stable design, comprising a main body having an interior space and a passage connecting interior space with outside, and a plurality of piles. Piles, vertically passing through main body, are fixedly secured said main body on a piece of land and are sunk into soil of said land.

EFFECT: technical result is high stability of structure under external action.

8 cl, 13 dwg

Description

Technical field

The present invention relates to a container house used as a place of residence, in particular to a container house with a stable structure, which makes it convenient and easy to fix its main body on a plot of land through the use of piles that fixedly fix the main body of the container house on plot of land, passing through the corner sections of the main body with a deepening in the ground.

The present invention also relates to a container house with a stable structure, in which at least one of the piles used to secure the main body to a piece of land is made protruding, using the top of the protruding pile to install a solar panel or wind turbine impeller, or using the internal cavity of the pile as a place for laying a communication line connecting an external communication receiving device such as an antenna or the like, installed outside the main body, and a receiver such as a TV or the like, mounted inside the main body.

State of the art

The container house, which is a type of temporary buildings of full factory readiness, can be installed in the desired place immediately after manufacture at the factory. The container house is different from temporary buildings erected from sandwich panels in place and has the advantage that it can be installed faster than other temporary buildings known from the prior art, and can also be moved from one place of its use to another place .

The container house is transported to the installation site using a truck immediately after manufacture at the factory and installed on site. Therefore, the size of the container house is limited. Moreover, the width of the container house is generally limited to about 3-4 m, and the length with which the container house can be made is about 10-12 m.

The container house has such an advantage that it can be sold already in the manufacture of a certain model due to the fact that the container house is manufactured at the factory and then transported to the installation site by truck. Therefore, when a small and temporary building is urgently required for living, it is quite convenient to purchase or rent a finished container house and immediately after that install it in the desired place of use. The use of container houses is constantly growing due to this reason.

Container houses are primarily used on construction sites, since offices and living spaces of one type must be quickly installed or offices and living and living spaces must be moved to another construction site after completion of construction at the previous construction site, and here houses -containers are used due to the advantage that they are easily installed and dismantled, as well as easily moved to another place.

However, the container house, which is limited in size depending on the width of the road and the length of the truck, limited by the rules, is often used in a multi-storey version for the use of the container house by a relatively large number of people, while such a container house is made with the manufacture of separate external devices of the type stairs, while the container house and its external devices are assembled and used on site.

As another example, a container house can be used as temporary housing in tourist places or to accommodate residents temporarily in need of housing because of the repair or continued construction of their permanent housing, as well as a hostel at school.

Accordingly, in recent years, container houses have begun to be manufactured, in which the interior and exterior decoration is done to high standards, similar to modern residential buildings, while container houses are widely used as permanent housing due to their perfect design, different from monolithic residential buildings. houses.

Also, in recent years, fully prefabricated container houses have spread widely, as their manufacture allows to reduce transport costs and ensure ease of movement due to the full production in the factory. Since most prefabricated container houses are made of ABS plastic, fiberglass, and similar materials, the transportation and installation of a fully prefabricated container house is quite easy, but such a container house can withstand little wind load. Therefore, the reliable fastening of container houses is a rather important technical task.

The patent KR0704237 discloses a technology for fixing a container house of full factory readiness on a plot of land. As shown in FIG. 1, according to this technology, the steel structure 110 is stably fixed to the ground using an anchor device or concrete and is attached to the container house 100 with the top of this steel structure 110 by installing racks 120 with magnetic holders 130 at four corners to fix the container house 100 on a steel structure 110 due to the magnetic force of the magnetic holders 130. This means that this technology assumes that the magnetic force is applied or removed by turning the magnet on or off oh force generated by magnetic holders 130, resulting in house container 100 is fixedly attached or detached from the steel structure 110 fixedly secured on the plot.

However, this technology is a complex process in which it is necessary to provide a separate steel structure 110 for fixing the container house 100 to the land, and it is necessary to first firmly fix the steel structure 110 to the land using an anchor device or concrete casting. Further, this technology has the disadvantage that it has relatively complex interconnections between the elements, and that it is necessary to provide relatively expensive magnetic holders 130 for fixing the container house 100 to the steel structure 110 after it is fixed to the ground, as well as the elements for connecting and fixing the magnetic holders 130 on the container house 100.

Disclosure of invention

Technical problem

Accordingly, the present invention was created to solve the above problems of the prior art, and the purpose of the present invention is to provide a home container with a stable structure, which makes it convenient and easy to fix its main body on a plot of land through the use of piles that fixedly fix the main body of the house -container on a plot of land, passing through the corner sections of the main building with a burial ground in the plot of land.

Another objective of the present invention is the provision of a container house with a stable structure, in which at least one of the piles used to secure the main body to a piece of land is made protruding, using the top of the protruding pile to install a solar panel or impeller on it wind generator.

Another objective of the present invention is the provision of a home container with a stable structure, in which the internal cavity of the hollow piles is used as a place for laying a communication line connecting an external communication receiver such as an antenna or the like, installed outside the main body, and installing a receiver of the type TV, etc., installed inside the main body.

Means for solving a technical problem

A container house with a stable structure is proposed, including a main body having an internal space and a passage connecting the internal space to the external space, and a plurality of piles that still fix the main body on the land, which vertically pass through the main body and are buried in the ground of the land.

The main body of the present invention may include a bottom panel, a front panel, a pair of side panels, a top panel and a rear panel, and through holes are made in the corner portions of the upper panel and the bottom panel, through which a plurality of piles pass, respectively.

The main body of the present invention can be arranged from multiple floors, with many piles vertically passing through many floors and buried in the ground.

At least one of the many piles can be elongated and protrude up to a certain height, while a solar solar panel or an impeller of a wind generator is installed on the upper part of the protruding piles.

The pile can be made hollow with an empty internal cavity.

Each of the many piles can be made in the form of piles with a disk shoe with a filled internal cavity or hollow piles with an empty internal cavity or some of the many piles can be made in the form of piles with disk shoes with a filled internal cavity, and the remaining piles can be made in the form of hollow piles.

In the present invention, the pile and the through hole may have the same cross-sectional shape.

The container house of the present invention may further include a communication line connecting an external communication receiving device mounted outside the main body and a receiver installed inside the main body, which is laid in the inner cavity of the pile.

Advantages of the Invention

The present invention has the advantage that the main body can be conveniently and easily fixed to the land due to the use of piles, which fixedly fix the main body of the container house on the land, passing through the corner sections of the main body with the soil being buried in the ground. This means that a one-story or multi-story main building is firmly fixed on the land with the help of many piles securely fixed in the soil of the land, due to which the container house is stable even in the event of natural disasters such as hurricanes, earthquakes, etc. Thus, it is possible to provide comfortable living in areas unsuitable for life, such as deserts, steppes, etc.

Further, the present invention has the advantage that at least one of the piles used to fasten the main body to the land can be protruded using the top of the protruding pile to install a solar panel and / or impeller on the wind generator . This means that since the present invention can be used to mount a solar generator and / or an impeller of a wind generator on top of the solar panel, people can conveniently live on remote islands or in the wild using self-generated energy.

Moreover, the present invention has the advantage that the internal cavity of the hollow pile used can be used as a place for laying a communication line connecting an external communication receiving device, such as an antenna or the like, installed outside the main body, and installing a receiver such as a television and etc. inside the main body. This means that since the internal cavity of a hollow pile can be used as a place for laying a communication line, it can provide full-fledged accommodation without interruption from cultural life and events, which is achieved by providing the possibility of receiving a signal even on remote islands or in the wild.

Brief Description of the Drawings

FIG. 1 is an exploded perspective view illustrating a construction of a factory-made container house of the prior art.

FIG. 2 is a partially exploded perspective view illustrating a one-story container house with a stable structure according to a first embodiment of the present invention.

FIG. 3 is an enlarged perspective view with local views illustrating the construction of the container house shown in FIG. 2.

FIG. 4 is a perspective view illustrating a state in which the container house shown in FIG. 2, installed on a plot of land.

FIG. 5 is a cross-sectional view of a container house in the state shown in FIG. 4, along line AA.

FIG. 6 is a perspective view illustrating a multi-storey container building with a stable structure according to a second embodiment of the present invention.

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

FIG. 8 is a perspective view illustrating a multi-storey container building with a stable structure according to a third embodiment of the present invention.

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

FIG. 10 is a perspective view illustrating a stable container house having a solar solar panel installed in accordance with a fourth embodiment of the present invention.

FIG. 11 is a perspective view illustrating a stable container house having a wind turbine impeller mounted in accordance with a fifth embodiment of the present invention.

FIG. 12 is a perspective view illustrating a stable container house on which a solar solar panel and a wind turbine impeller are mounted in accordance with a sixth embodiment of the present invention.

FIG. 13 is a perspective view illustrating a stable container house on which an antenna and a communication line are mounted in accordance with a seventh embodiment of the present invention.

The best embodiment of the invention

Hereinafter, preferred embodiments of the sustainable container house of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 2-5, the container house 200 having a stable structure according to an embodiment of the present invention includes a main body 210, which is made in the form of a rectangular parallelepiped, as in a conventional container house, and a plurality of piles 220, fixedly securing the main body 210 in the area lands that vertically pass through the main body 210 and are buried in the soil of a piece of land.

Here, the main body 210 is designed to include a lower panel 211, a front panel 212, a pair of side panels 213, an upper panel 214 and a rear panel 215 and has an interior space in which various objects and amenities for living or working people are housed. Also, a door and a window can be arranged in the front panel 212, and a window can be arranged in the side panel 213.

Here, at the corners of the lower panel 211 and the upper panel 214, through holes 211a and 214a are made through which piles 220 can pass, respectively. In this case, the through holes 211a and 214a are made in positions corresponding to each other so that the piles 220 can pass through the lower panel 211 and the upper panel 214, respectively, in their vertical position. Here, the through holes 211a and 214a are made in a frame mounted around the perimeter of the main body 210, namely in the corner sections of this frame. This means that the through holes 211a and 214a are preferably made in fittings that are used to dowel and fasten the container house to the truck to provide immobility during transportation of the container house.

Further, the through holes 211a and 214a have the same cross-sectional shape as the pile 220, moreover, the through holes 211a and 214a are made in the cross section exactly the same or slightly larger than the external cross-sectional dimensions of the pile 220, i.e. . it is preferable that the configuration of the pile 220, which does not allow it to move in the through holes 211a and 214a. At the same time, since the through holes 211a and 214a are formed around the perimeter, the through holes 211a and 214a can be reinforced with reinforcing elements to increase their strength.

Piles 220 are buried in the ground of the land and pass through the through holes 214a and 211a of the upper panel 214 and the lower panel 211 included in the structure of the main body 210, for firmly fixing the main body 210 on the land. Therefore, the length of the pile 220 is approximately the sum of the length equal to the depth of penetration of the pile into the soil and the length equal to the height of the main body 210. This means that the lower part of the pile 220 is firmly buried in the soil to a given depth, and the upper part of the pile 220 has the same length as the height of the outer surface of the upper panel 214 from the level of the land or this height and the height of the small protrusion of the pile from above. Here, the penetration of piles 220 into the ground should be a depth that provides reliable support for the main body 210.

Further, the piles 220 have the same cross-sectional shape as the through holes 211a and 214a of the upper panel 214 and the lower panel 211, moreover, they are made in the cross section exactly the same or slightly smaller than the size of the through holes 211a and 214a, t .e. it is preferable that the configuration of the pile 220, which does not allow it to move in the through holes 211a and 214a.

Additionally, piles 220 can be configured hollow with an internal cavity and can be configured as piles with a disk shoe with a filled internal cavity. Here, in piles with a disk shoe, the material of the shoe may be the same as the material of the casing or body of the pile, or the internal cavity of the hollow pile with the disk shoe may be filled with concrete or other material. For example, piles 220 can be made in various ways, for example, in the form of a bored pile with concrete casing (tubular steel-concrete pile) poured, while hollow piles can be filled with concrete using reinforcement or other similar reinforcing elements.

When choosing piles 220, for example from the above, it is possible to choose hollow piles that have such an advantage that their internal space can be used, and piles with a disk shoe have the advantage that piles 220 can be more firmly fixed in the ground. Accordingly, in the container house 200 of this embodiment, all piles 220 can be made in the form of piles with a disk shoe or hollow piles, or some of the piles 220 can be made in the form of piles with a disk shoe, and the remaining piles 220 - in the form of hollow piles. Piles 220 may also be configured as a round pipe with a circular cross section or a square pipe with a square cross section. Further, it is preferable to make the lower end of the piles 220 open for easier immersion in the soil or a pointed shape so that its cross section smoothly decreases from a certain length towards the lower end.

Since piles 220 of this embodiment are used to securely fasten the main body 210 to a piece of land as described above, each of the plurality of piles or their fittings can be inserted into one through hole 211a and one through hole 214a and buried in the ground. This means that the pile 220 needs to be analyzed for its width for the case when the pile 220, consisting of one or more piles, is inserted into one through hole 211a and one through hole 214a and buried in the ground.

Since the piles 220 pass through the through holes 214a and 211a of the upper panel 214 and the lower panel 211, as described above, the piles 220 are arranged to pass through the corner sections of the main body 210. Accordingly, in the case of using the hollow piles 220, the internal cavity of the piles 220 can be used in as the laying of communications from inside out to the type of communication line, as will be described below. Further, the pile 220 can be integrated with through holes 214a and 211a of the upper panel 214 and the lower panel 211 by welding around their circumference for their permanent connection with the main body 210.

In this embodiment, the pile 220 is configured to be secured to a piece of land passing through the main body 210, and the fixing elements of the main body through which the piles 220 pass are mounted in corner portions from the upper part to the lower part of the main body 221, respectively as a result of which the piles 220 can be configured so that first the piles 220 can be fixed on a plot of land separately from the main body 210. This means that the container house of the present invention has the advantage of being convenient th and simple fixing of the main body 210 to the land portion by using piles 220 passing through the corner portions and buried in the ground.

Embodiments of the invention

In FIG. 6 is a perspective view illustrating a multi-storey container building with a stable structure according to a second embodiment of the present invention. In FIG. 7 is a cross-sectional view of the container house shown in FIG. 6 along line B-B.

As shown in FIG. 6 and 7, the container house 300 with a stable structure is multi-storey, with each of the main bodies 210 stacked on top of each other configured as illustrated in FIG. 2-5, and securely mounted on a plot of land using piles having the same device as in the first embodiment. Here, piles 320 have a length equal to the sum of the depth of penetration into the soil and the total height of all floors.However, piles 320 may have a length, like piles 220, sufficient to deepen the bottom of piles 220 into the ground and firmly fix the main body 210.

In FIG. 8 is a perspective view illustrating a multi-storey container building with a stable structure according to a third embodiment of the present invention. In FIG. 9 is a cross-sectional view of the container house shown in FIG. 8 along line C-C.

As shown in FIG. 8 and 9, the container house with a stable structure is multi-storey in the same concept as the container house 300 in the second embodiment, with the difference that in this container house, part of the floors are underground floors, and the rest rise above the land .

This means that the container house of this embodiment can be used by placing part of the floors above the level of the land, as shown in FIG. 6 and 7, and due to the location of part of the floors below the level of the land with the location of the remaining floors above as required, as shown in FIG. 8 and 9.

In FIG. 10-12 are perspective views illustrating a sustainable container house having a solar solar panel for a wind turbine impeller installed in accordance with the fourth, fifth, and sixth embodiments of the present invention.

As shown in FIG. 10-12, the container house 400, 500 or 600 with a stable construction according to these embodiments has piles 220, as in the container house 200 of the first embodiment, and at least one elongated pile 420, 520 or 620, protruding above the main housing to a certain height for installation on the top of the protruding piles on top of the solar panel 430 solar and / or impeller 530 of the wind generator. At the same time, the container house with a stable construction according to this embodiment can be configured by lengthening at least one pile of piles 320 included in the construction of the container house 300 according to the second or third embodiment to a certain height with installation on the top elongated piles of solar panel and / or wind turbine impeller.

In FIG. 13 is a perspective view illustrating a stable container house on which an antenna and a communication line are mounted in accordance with a seventh embodiment of the present invention.

As shown in FIG. 13, the robust house container 700 of this embodiment is configured like the house container 200 of the first embodiment, with the difference that the internal space of the pile 720 passing through the main body 210 is used as the installation space for laying the communication line 740 connecting an external communication receiver such as an antenna 730 or the like installed outside the main body 210 and a television type receiver (not shown) and the like installed inside the main body 210. At the same time, d the om-container with a stable construction according to this embodiment can be configured like a house-container 300 according to the second or third embodiment by using a hollow pile passing through the main body, the inner cavity of which is used as a mounting space for laying a communication line connecting the external a communication receiver such as an antenna or the like installed outside the main body and a receiver such as a television (not shown) or the like installed inside the main body 210 .

Industrial applicability

Thus, the container house with a stable structure, demonstrated by examples of private embodiments, both having a one-story main building and a multi-story main building, is firmly fixed to the land by using multiple piles firmly installed in the ground of the land, so the container house It is stable even in the case of natural disasters such as hurricanes, earthquakes, etc. Thus, it is possible to provide a comfortable stay for people in areas unsuitable for life, such as deserts, steppes, etc.

Further, since the container house of the stable construction of the present invention can be used with a solar generator and / or a wind turbine impeller mounted on top of the solar panel, people can conveniently live in remote islands or in the wild using self-generated energy.

Further, in the container house of the stable construction of the present invention, since the internal cavity of the pile passing through the main body can be used to lay a communication line connecting an external communication receiver such as an antenna or the like installed outside the main body and the receiver such as a TV (not shown), etc., installed inside the main building, full-fledged accommodation can be provided without interruption from cultural life and events, which is achieved by providing the possibility of obtaining Nala even on remote islands or in the wild.

Although the house-container with a stable construction of the present invention has been described using the accompanying drawings with the disclosure of embodiments of the invention by examples, it should be understood that the present invention is not limited to the disclosed embodiments, and one skilled in the art should understand that various modifications are possible and changes without departing from the essence and scope of protection of the present invention, while all such modified examples or modified examples will also cover be appended by the claims.

Claims (8)

1. A container house with a stable structure, including:
the main body having an inner space and a passage connecting the inner space with the outer space; and
a plurality of piles fixedly fixing the main body on the land, which vertically pass through the main body and are buried in the soil of the land. 2. The container house according to claim 1, characterized in that the main body includes a bottom panel, a front panel, a pair of side panels, a top panel and a rear panel, while through holes are made in the corner portions of the upper panel and the bottom panel through which many piles, respectively. 3. The container house according to claim 1, characterized in that the main building is made up of many floors, and many piles vertically pass through many floors and are buried in the ground. 4. A container house according to any one of claims 1 to 3, characterized in that at least one of the plurality of piles is elongated and protrudes up to a certain height, while a solar solar panel or impeller is installed on the top of the protruding pile wind generator. 5. A container house according to any one of claims 1 to 3, characterized in that the pile is hollow with an empty internal cavity. 6. A container house according to any one of claims 1 to 3, characterized in that each of the plurality of piles is made in the form of a pile with a disk shoe with a filled internal cavity or a hollow pile with an unfilled internal cavity or some of the many piles are made in the form piles with disk shoes with filled internal cavities, and the remaining piles are made in the form of hollow piles. 7. The container house according to claim 2, characterized in that the pile and the through hole have the same cross-sectional shape. 8. The container house according to claim 5, characterized in that it further includes a communication line connecting an external communication receiving device installed outside the main body and a receiver installed inside the main body, which is laid in the inner cavity of the pile.

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