RU2806557C1 - Prefabricated house - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to a prefabricated house made from a sea container. A prefabricated house contains at least one sea container and at least one technological block located outside the volume of the sea container for installing means, instruments and life support systems with underwater pipes and cables, and the connecting surfaces of the sea container and the technological block are equipped with male-female type guide elements , in the communicating planes of the sea container and the technological block there are holes for placing underwater pipes and cables, and the sea container and the technological block are equipped with elements for fixing their relative position after installation.

EFFECT: reduced labour costs during installation.

8 cl, 9 dwg

Description

The invention relates to the field of construction, in particular to a prefabricated building made from a sea container, and can be used in the construction of buildings with the possibility of relocating the constructed house.

Shipping containers are strong and durable because they are designed to withstand harsh conditions, such as on ocean-going ships or when being sprayed with road salt during road transport. Due to their wide application, used shipping containers and new shipping containers are available all over the world.

There are a large number of buildings based on shipping containers. Due to their shape and material, shipping containers can be modified for different household purposes.

All shipping containers are the same width, and most have two standard measurements - height and length. They are thus modular elements that can be combined into larger structures. This simplifies design, layout and transportation, and the construction of buildings from shipping containers is solved by simply installing them in a predetermined order.

Shipping containers are low in height. When building houses from shipping containers, internal space is used to accommodate communications. This circumstance reduces the internal volume used for housing and reduces the comfort of living in them, which is the main disadvantage of such houses.

The building from a sea container “Guest House” is known [https://www.poteetarchitects.com/container-guest-house].

From the name and appearance it is clear that this house is intended only for temporary residence and is not suitable for permanent family residence.

There is a well-known building made from sea containers, the project of which was implemented in Kharkov. Ukraine [https://drozdov-partners.com/en/projects/anti-patio/]. This house can be used for living. This project also shows the possibility of building houses from shipping containers on inclined surfaces. However, the specified house cannot be implemented as a serial project.

The closest to the claimed invention is the house, https://containerhomehub.com/eco-friendly-crossbox-house/, designed Gillet Architects, a renowned French architectural firm, called the Eco-Friendly CrossBox House, designed to accommodate a small family. The house was created using old shipping containers by recycling them, making it as livable as any other. This project is a prototype of a 3D modular industrial building constructed from four 40-foot shipping containers. The goal of this project is to build affordable housing with special attention to environmental issues. With an industrial approach, construction time is reduced as prices come down [https://containerhomehub.com/eco-friendly-crossbox-house/].

However, the disadvantage of this house is the small height of the interior due to the need to use the internal space to install water supply and drainage systems, electrical distribution, and thermal control systems.

In addition, to connect external communications during the construction process to a building under construction, it is necessary to take into account the location of the inputs and outputs of life support systems, which also leads to the need to individualize projects in each specific case. And the individualization of such buildings leads to an increase in their value.

All of the above leads to the fact that it is difficult to create a technology for mass production of houses from sea containers with high living comfort in them.

The basis of the invention is the task of unifying prefabricated buildings from sea containers to simplify their assembly at the construction site, reduce manufacturing costs, and enable mass production.

The problem is solved by the fact that a prefabricated house consists of at least one sea container equipped with means, instruments and life support systems, according to the invention, contains at least one technological unit outside the volume of the sea container for installing means, devices and systems life support. with underwater pipes and cables, moreover, the connecting surfaces of the sea container and the technological block are equipped with guide elements of the protrusion-recess type, in the communicating planes of the sea container and the technological block there are holes for placing underwater pipes and cables, and the sea container and the technological block are equipped with elements for fixing their mutual . position after installation.

The technological unit may be located under a sea container.

The technological unit can be located above the sea container.

The technological unit is made in the form of a collapsible frame structure.

The technological block can be equipped with devices for adjusting the horizontal position.

A door can be made on the side surfaces of the frame structure of the technological unit.

The frame structure of the technological unit can have guides for installing drawers on them.

On the outer surface of the technological block, seats can be located for installing devices for generating environmentally friendly energy.

Making a prefabricated house from technologically separated volumes in the form of a sea container and technological blocks intended for the installation of means, instruments and life support systems makes it possible to unify various options for constructing the house itself. At the same time, the possibility of combining the surfaces of a container and a technological block by equipping them with guide elements such as protrusions and depressions makes it possible to easily connect sea containers and technological blocks used for home use into a single building. Making holes in the mating planes of the sea container and the technological block for placing pipes and harnesses for connecting means, instruments and life support systems makes it possible to obtain houses with predetermined parameters. The manufacture of premises from sea containers for people, as well as technological blocks, can be produced separately and in series at one or several manufacturing plants, and they will always be compatible. Supply to the consumer at the construction site, where only the assembly of the prefabricated house will be carried out, is possible from different factories. Thus, a technical result is achieved, namely, the possibility of mass production of prefabricated buildings from sea containers.

The presence of parts for fixing the relative position of the sea container and technological blocks increases the reliability of the erected structure.

The ability to install technological blocks on the bottom and top of a sea container allows you to correctly place funds, instruments and life support systems. For example, it is better to place a water container in the upper technological block, since it is possible to place a solar water heater in close proximity, for example, in areas with a hot climate. It is better to place air thermoregulation systems in the lower technological block, since the inlet ventilation openings are usually located at the bottom of the room, and the outlet openings at the top. Accordingly, the supply fan should be located in the lower technological block, and the exhaust fan - in the upper technological block.

However, in houses with a simplified configuration, it is possible to use one technological unit.

Making the technological unit for a sea container in the form of a collapsible frame structure makes it easier to transport. When disassembled, the structural elements of the block can be transported directly in the container. In this case, the technological block will have to be removed at the construction site.

The supply of the technological block with devices for adjusting the horizontal position makes it possible to reduce the requirements for the horizontality of the supporting surfaces on which the prefabricated house is installed, which increases the unification of the structure as a whole.

Making doors on the side surfaces of the frame structure of a technological unit for a sea container or installing drawers makes it possible to unify technological units, since there is a constant possibility of changing the configuration of means, instruments and life support systems.

The arrangement of seats for installing devices for generating environmentally friendly energy on the external surface, for example, installing solar panels on the roof of a prefabricated house and batteries in the technological unit itself allows us to solve the issue of creating comfortable conditions in the living space of a prefabricated house.

It is also possible to install vertical wind turbines on the roof of a prefabricated house to generate electricity.

The claimed invention is explained by a detailed description of a specific example of its implementation and the accompanying drawings.

Figure 1 shows a prefabricated house with a technological unit with drawers installed under a sea container, left view;

Figure 2 is a prefabricated house with a technological unit with drawers installed under a sea container, front view;

Figure 3 - prefabricated house with a technological unit with drawers installed under a sea container, right view;

Figure 4 - prefabricated house with a technological block with a lifting door installed above a sea container, left view;

Figure 5 is a prefabricated house with a technological block with a lifting door installed above a sea container, front view;

Figure 6 is a prefabricated house with a technological block with a lifting door installed above a sea container, right view;

Figure 7 is an embodiment of a device for adjusting the horizontal position of the technological unit;

Fig. 8 - collapsible frame structure of the technological unit, side view;

Fig.9 - collapsible frame structure of the technological unit, top view.

The prefabricated house contains at least one sea container 1 and a technological block 2 (Fig. 1-Fig. 6). It is possible to complete the sea container 1 simultaneously with two technological blocks 2 from the bottom and top of the sea container 1.

Also, in the case of building a house with two or more floors, it is possible to install several sea containers 1 with the location of the technological block 2 between them (not shown). In this case, the location of the technological block between two sea containers 1 does not exclude the construction of a ladder from the lower sea container to the upper one, since the design of the technological block allows this to be done.

When the technological block 2 is located under the sea container 1 (Fig. 1-Fig. 3) on the foundation of a prefabricated house, it is desirable that the technological block 2 be equipped with a device 3 for adjusting the horizontal position. Device 3 in its simplest form (Fig. 7) is a bolt 4 with a spherical end, mounted on a thrust bearing 5 with a spherical cavity. In this case, the bolt 4 is screwed into the nut 6, fixed to the opening in the longitudinal beam 7 of the technological block 2. This allows the use of simple foundation options during construction, without particularly paying attention to their plane. Since the houses themselves made from sea containers 1 are light in weight, they do not require complex foundation work, which is a big advantage.

Technological block 2 has a frame structure (Fig. 8-Fig. 9). In this case, the number of longitudinal beams 7, transverse beams 8 and vertical posts 9 depends on the requirements laid down in the design, as well as on the length of the 20- or 40-foot containers used.

Technological block 2 can be made with removable side panels (not shown) or an opening door 10 or drawers 11.

Preferably, the technological blocks 2 are made with thermally insulated walls.

Also, for use in areas with heavy snow loads, it is possible to use gable roofs installed on the upper technological block 2, for which installation spaces can be provided in the block.

As an example, in technological block 2, located under container 1, it is supposed to install a sewerage pipe, water supply, warm and cold air generation and supply systems and, if necessary, gas storage and supply systems.

At the same time, in the upper technological block 2 it is possible to install power distribution systems, computer and telephone networks, electricity batteries, and tanks with heated water. Wiring of the computer network is required, since container 1 is made of metal and shields the passage of the signal. Batteries and tanks with heated water are preferably installed in the upper technological block 2, since it is possible to install solar panels on the roof of the house, as well as a solar water heater.

The assembly of a prefabricated house is carried out as follows.

Foundation work is carried out at the selected site. There are several simple foundation options, for example, a concrete slab or a screw foundation on posts, the number and location of which corresponds to the location of the devices 3 for adjusting the horizontal position of the technological block 2. In any case, due to the relatively low weight, the design of a prefabricated house does not require significant foundation work.

The technological block 2 is installed on the foundation and, by adjusting the devices 3, the horizontal position of the upper surface of the technological block 2 is set. All necessary pipes and technological boxes are placed in accordance with the design. Using a lift, a sea container 1 is installed, while the protrusions 12 located on the upper longitudinal beams 7 are aligned with the depressions located on the sea container 1 (not shown).

Perform work on connecting pipes, process boxes and wiring.

Install the upper technological block 2 using a lift. Pipes, technological boxes and wiring are also connected.

Thus, the process of assembling a prefabricated house takes minimal time.

The inventive prefabricated house can have a very wide application.

From prefabricated mass-produced houses, it is possible to build settlements in the shortest possible time to accommodate a large number of residents, which allows them to be used in areas affected by war or natural phenomena.

The prefabricated houses themselves are highly reliable and can be used in seismic areas.

Because shipping container homes can now be manufactured using highly insulating materials, prefabricated homes can be used in areas with low temperatures and areas with high temperatures.

Due to the unpretentiousness of prefabricated houses to the foundation, they can be assembled both on sandy soils and in swampy places.

In addition, such houses can be installed as attic floors on already constructed houses with flat roofs. The relatively light weight of prefabricated buildings makes it possible not to strengthen the foundation for the construction of such additional attic floors.

The possibility of using the upper surface of the technological block 2, located above the sea container 1, to accommodate solar panels or wind power generation units allows the creation of prefabricated buildings independent of external sources. At the same time, it is possible to place a battery in the technological blocks to save the generated electricity.

Thus, the prefabricated house in question is highly environmentally friendly; the production allows the disposal of already used sea containers, including containers with damaged walls, for the production of technological blocks.

Claims (8)

1. A prefabricated house consisting of at least one sea container equipped with means, instruments and life support systems, characterized in that it contains at least one technological unit outside the volume of the sea container for installing means, instruments and life support systems with underwater pipes and cables , wherein the connecting surfaces of the sea container and the technological block are equipped with guide elements of the protrusion-recess type, in the communicating planes of the sea container and the technological block there are holes for placing underwater pipes and cables, and the sea container and the technological block are equipped with elements for fixing their relative position after installation. 2. A prefabricated house according to claim 1, characterized in that the technological unit is located under a sea container. 3. A prefabricated house according to claim 1, characterized in that the technological unit is located above the sea container. 4. A prefabricated house according to claim 1, characterized in that the technological unit is made in the form of a collapsible frame structure. 5. A prefabricated house according to claim 4, characterized in that the technological unit is equipped with devices for adjusting the horizontal position. 6. A prefabricated house according to claim 4, characterized in that a door is made on the side surfaces of the frame structure of the technological block. 7. A prefabricated house according to claim 4, characterized in that the frame structure of the technological unit contains guides for installing drawers on them. 8. A prefabricated house according to claim 4, characterized in that on the outer surface of the technological block there are seats for installing devices for generating environmentally friendly energy.