DE9410139U1 - Modular prefabricated house - Google Patents

Description

The invention relates to a modular prefabricated house.

It is not necessary to be an expert to realise that houses built from conventional materials and using conventional construction methods are increasingly failing to fulfil their original purpose: to provide residents with a roof over their heads at a price that the average earner can afford.
Painful experiences of residents in increasingly large areas threatened by flooding show that houses built using conventional construction methods cannot withstand increasingly frequent floods without major damage.

Houses contribute significantly to local and global climate deterioration through _CO2 emissions due to their high energy consumption, which is mainly covered by fossil fuels.

The invention is based on the object of designing a prefabricated house in such a way

- that it can withstand natural disasters such as floods, hurricanes, landslides and earthquakes without major damage.

- that it is able to use its energy requirements partly or fully from solar and wind power without it costing significantly more.

- that it has a high degree of industrial prefabrication,

which can significantly reduce installation time at the site and costs.

This object is achieved according to the invention in that the outer shell of the house is made of aluminum or steel; of materials which give the prefabricated house high strength and tightness.

Although the production of aluminum causes high electrical energy consumption, the ecological balance of a house with an aluminum shell is favorable and ecologically sensible. The energy payback time index is 0.2, which means that thanks to the aluminum construction, the house generates five times more energy from the sun and wind over the course of its life than was required to produce the aluminum shell from fossil fuels. Because aluminum can be recycled without restriction and without loss of value - and again and again - the energy payback time index improves twenty-fold and is then only 0.01.

The interior is made of complete panel walls made of wood with heat-insulating granules. Because the wooden panels are protected against pests and moisture by the metal shell, they do not need to be treated with harmful chemicals.

For transport reasons, the prefabricated house is divided vertically into several floor modules, so that each module has a complete floor with external walls, internal walls, partition walls, floor,

Windows, doors, heating pipes and radiators, sanitary components and electrical installation. This makes it possible to carry out all otherwise complex construction work in the manufacturing plant.
In this way, floor modules with a width of up to 6 meters, a height of up to 3 meters and a length of up to 2 meters are created, which means that they can be transported to any assembly site, first by water and then by road. At the assembly site, the prefabricated house can be erected in a short time using a crane according to the invention. In this way, it is possible to build prefabricated houses with a living area of 75 to 200 m ¹ relatively inexpensively and with minimal land space, thus fulfilling the wishes of almost all potential home buyers worldwide.

The reinforcements of the external walls, which are made of square tubes, can also be used as free solar panels in the form of solar facades. At the moment there is no great financial incentive to save energy costs in this way, but in a few years the prices of fossil fuels will rise progressively, with simultaneous government restrictions on energy consumption, so that the solar system according to the invention can be activated at any later time*. For the same reason, the foundation of the prefabricated house is designed in such a way that it can be retrofitted with a rotating device at some point in time, so that the use of wind and sun is even more effective.

Advantageous embodiments of the invention are illustrated in the drawings using embodiments of the invention and explained in more detail in the following description, indicating further advantages,
Show it

Fig. 1 modular prefabricated house made up of storey modules according to the invention with mechanical turning device;

Fig. 2 Foundation module with rotating device;
Fig. 3 complete basic floor module;
Fig. 4 complete upper floor module;
Fig. 5 complete attic floor module;
Fig. 6 modular prefabricated house, rotatably arranged in a water basin;

Fig. 7 Connection between individual floor modules;

Fig. 8 Side view of the prefabricated house;
Fig. ? Solar wall view of the prefabricated house;
Fig. 10 Living space-saving room layout of the prefabricated house;

Fig. 11 Prefabricated house design with buoyant foundation for areas at risk of flooding;
Fig. 12 Prefabricated house design with foundation columns for

areas at risk of flooding;
Fig. 13 Prefabricated house design for slope;
Fig. 14 Roof floor module as swimming pool roof;
Fig. 15 Prefabricated house design as houseboat;
Fig. IS prefabricated house design with distillation plant

for sea water;

Fig. 17 for installation on the flat roof of a high-rise building;

Fig. 18 Prefabricated house design with outer shell made of conventional bricks.

Fig. 1 shows a modular prefabricated house according to the invention in cross section. 10 is a foundation module, preferably made of steel, on which the prefabricated house is placed. Foundation 10 is made up of at least four metal housings 11, which are arranged in a circle and firmly connected by metal supports 12. Metal housings 11 are also connected by a centrally arranged pipe 13 with the help of metal supports 14. Each of the metal housings 11 is firmly connected to columns 15, which are buried in the ground and filled with concrete. If it is desired that the house can be rotated, a rocker 16, which is pivotally mounted in the housing 11 with the help of bolts 17, can be installed later. Heavy-duty wheel 18 is rotatably mounted in rocker 16 and a threaded screw 19 acts on the other side of the rocker, with which it is possible to lift heavy-duty wheels 18 so far that the prefabricated house is only supported by heavy-duty wheels 18. One of the heavy-duty wheels 18 is driven by an electric gear motor. This allows the prefabricated house to be turned in any desired direction towards the sun and wind.

Basic floor module 21 is placed on foundation 10 and with the help of central tube 22 and central plastic

fabric ring 23. Ring 24, which is firmly connected to pipe 13, prevents the prefabricated house from tipping over in the event of a hurricane. Floor beams 25 ensure the longitudinal and transverse strength of the basic storey module. Side walls of storey modules are made of aluminum or sheet steel 26, which are stiffened with square tubes 27. Floor and wall panels made of aluminum can be built in the optimal position using welding devices and then welded to form modules. Wooden panel 28 consists of a frame made of squared timber 29, which is closed on both sides with wooden panels 13 and profile boards 31 and filled with insulation granulate in between. Panels for interior fittings can also consist of plasterboard, onto which paint, wallpaper or tiles can be applied. Since storey modules have their full strength when installed, welded threaded blocks 34 under square profile 33 are used for gentle transport of individual storey modules, into which eyelets with threaded screws can be screwed and then lifted with a crane using the appropriate frame.
Upper floor module 35 is provided with angle profile 36 on the lower part, which fulfils several functions. Angle profile 36 positions upper floor module 35 on base floor module 21, conceals connection point and holds floor panel 37 and thus also wall panel 38 on the other side. Side walls and partition walls are positioned with the help of corner strips 63.
In the floor panel, 37 are heating pipes 39, electrical cables

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with lamps, television, telephone cable and drain pipes

41 and are industrially prefabricated as a unit, floor panel 37, the lower side of which is the ceiling of the lower floor, is equipped with radiators

42. The heating effect is increased by the electrically driven propeller 43 because it pushes the rising warm air downwards. If cold liquid is allowed to circulate through radiator 43, an effective, noiseless and turbulence-free air conditioning system is created.

The roof floor module 44 is also placed on the upper floor module 35 in the same way, a seal 45 can be arranged between floor modules, floor modules can also be secured with assembly foam 46, which is injected under the angle profile 36, centrally routed supply and disposal lines are led through pipe 13 from the prefabricated house into the corresponding schematically indicated lines 47.

Fig. 6 shows a prefabricated house design where the prefabricated house is rotatably mounted in a round water basin 48. The house is rotated with the help of the electric motor 4?, the lever 50 of which is connected to the prefabricated house and drives the rubber wheel 51 which rolls on the periphery of the round basin. The prefabricated house is centered by the plastic ring 23 located in the pipe 22 and the pipe 52 which is firmly connected to the water basin 48.
By rotating the prefabricated house, energy costs can be saved in many ways and living comfort can be increased.

In the morning, in the late afternoon and in winter, when the sun shines at a flat angle, the vertical solar wall 53 with the winter garden 54 built on the top floor is turned towards the sun. As the sun rises, the angle of radiation to the solar wall 53 becomes increasingly unfavourable and the winter garden 54 heats up more; for this reason, the prefabricated house is then turned by 180° so that the solar roof 55 is illuminated almost vertically and the winter garden is in the shade. Pivoting photovoltaic systems 56 can be installed on the top floor, which can then be pivoted out according to the angle of the sun's rays.
At night and when it is cloudy, the prefabricated house with the windowless solar wall can be turned towards the wind, which means that heat radiation from the prefabricated house to the outside is minimal and the wind turbine 57 installed on the solar roof 55 can be optimally powered in order to supply it with E-energy in times of no sun. Wind turbines installed on the rotating prefabricated house can be built more cheaply and quietly than conventional ones, which can be rotated around a vertical axis.
Because the prefabricated house according to the invention has its own transverse and longitudinal strength, problems that would otherwise be difficult in construction can be solved in a simpler and cheaper way.

Fig. 10 shows the rational living space layout of the prefabricated house according to the invention.

Fig. 11 shows a prefabricated house which can be raised by buoyant foundation 58 in case of flooding

and protected from damage. Positioning columns 59 prevent the floating prefabricated house from drifting and enable it to be repositioned on the existing foundation base 60 after the water has receded.
In view of the increasing frequency of floods, the ability of a house to float is becoming one of the most important properties for ever larger flood areas. In conventional prefabricated houses, due to their wall construction, flood damage is particularly severe because the mineral wool in the walls absorbs water through osmosis, even if only a small part of it has come into contact with water; months after the flood, the walls are still damp,

Fig. 12 shows the prefabricated house composed of a base floor module and a roof floor module and built on columns 61, which makes it flood-proof.
Fig. 13 shows a prefabricated house built on a slope and supported by columns 62. By eliminating the need for complex foundations, this type of construction is much cheaper than conventional houses on a slope, so that plots of land considered unusable can be used to build attractive houses.

Fig. 14 shows the use of the roof floor module according to the invention as a cover for a swimming pool, with the solar roof 55 heating the pool water and the photovoltaic system 56 supplying the system with electricity.

Fig. 15: Prefabricated house with buoyant foundation is an ideal houseboat or residential ship.

Fig. 16: Solar roof can also be used as a distillation plant for converting sea water into drinking water. Enriched salt water 65 created as a byproduct of distillation can be used for therapeutic purposes.

Fig. 17: Due to the relatively low weight of floor modules, prefabricated houses according to the invention can be placed on flat roofs of high-rise buildings using a crane to create new living spaces.
Fig. 18: Expansion panels, complete with all supply and disposal lines according to the invention, can be installed in
a shell built from conventional bricks and covered with a complete roof storey module according to the invention, thus saving time and money.

Claims (1)

Applicant: Andre Kusan Oberstraße 2 D-56587 Straßenhaus Designation: Modular prefabricated house Protection claims 1. Modular prefabricated house characterized by the following features a) Prefabricated house consists of foundation module (10), base floor module (21), upper floor module (35) and attic floor module (44), which are completely finished and ready for living, b) The outer shells of the modules are made of aluminum or steel plates (26), which are stiffened by square tubes (27) and through which liquid circulates and can thus be used as a solar facade. c) Lower part of metal shells of storey modules has an angle profile (3S). d) Heating pipes (39), waste disposal pipes (41), electrical cables (40), television cables and telephone cables are integrated into the floor panel (37) e) A radiator (42) with a fan (43) is installed on the deck of the prefabricated house living area. f) Prefabricated house is made of metal casings (11) pivoting heavy-duty wheels <18> driven by an electric gear motor (20) and centered with the help of the pipe <13> through which supply and disposal lines run, and with the base module (21) firmly connected to the central pipe (225) centered and rotatably mounted. g) Photovoltaic system is pivotably mounted on the roof floor, h) Wind turbine (57) is mounted on the solar roof (55) i) Prefabricated house has a floating foundation and is positioned by column (59) and swing-out forks connected to prefabricated house. j) Prefabricated house is built on the slope with the help of columns (62). k) Attic floor can be used as roofing for swimming pools. 1) Attic floor can also be used as roofing for flat roof bungalows. m) The prefabricated house can be mounted in a round water basin (48) and rotated by an electric motor (4?) with the help of a rubber wheel that rolls around the periphery of the water basin. n) Solar walls and solar roof of the prefabricated house can be used as a distillation plant. o) Prefabricated house with buoyant foundation can be used as a houseboat. P) Prefabricated house can be placed on top of low-rise buildings. q) Built-in panels according to the invention can be installed in outer shell of a house made of conventional bricks from above and covered with an attic according to the invention.