EE05842B1 - Modular house module and modular house modular system - Google Patents

Abstract

The subject of the invention is a module of a modular building comprising right parallelepiped or cuboid frames and wall, ceiling and floor elements fastened to the frame. The frame is formed from timber or laminated timber or from laminated timber balk. Wall, ceiling and floor elements are fastened between the balks so that they do not protrude from the frame neither inwards nor outwards, enabling to connect the modules easily by connecting the frames placed against each other. The building will be formed from the mentioned modules by placing them in desired position either one beside the other and/or upon the other by fixing the frames of modules connected to each other.

Description

 TECHNICAL FIELD

The invention belongs to the field of construction, more specifically to the field of temporary and permanent, expandable, transformable, demountable and multifunctional buildings, including residential and auxiliary buildings, assembled from factory-produced modules, and corresponding modular house modules and modular house systems.

STATE OF THE ART

US Patent Application No. US2016/0319534 describes a modular system for constructing temporary and permanent buildings, comprising two central metal structures that are movable and independent of each other, which are connectable and detachable; multi-purpose floor slabs loosely placed on the lower beams of the central structure, and multi-purpose ceiling slabs mounted on the upper beams of the central structure, independent partitions mounted on the edges of the central structure (or on the uprights), and connectable and detachable mechanical connectors suitably mounted at suitable points on the central structure, wherein the mechanical connectors may be made of metal, strong plastic, wood or other suitable material, the same or different from the central structure. The length of the module is 1.5 to 6.4 meters, the width is 1.25 to 2.6 meters, and the height is up to 3.4 meters. Since the central frame is made of metal, it has good thermal conductivity, which is why in harsher climates it is necessary to insulate the house from the outside, which in turn makes it more difficult to disassemble the house and rearrange the modules.

European patent application EP1308569 describes a house constructed from modules having a frame, for example of wood, to which are attached a floor element, a ceiling element and wall elements and fastening elements for fastening the modules to each other and, in the case of the lower modules, also to the foundation. Since the wall elements are fastened to the frame, it is complicated to connect the modules to each other when assembling a house consisting of several modules.

The modular house system, with modules that are easily installed, expanded, redesigned, disassembled, and relocated, is well known (see http://www.treehugger.com/modular-design/andrew-maynard-prefab-from-australia.html),

which includes room modules with a steel frame that allows the modules to be arranged according to the owner's needs and budget, allowing them to be relocated and added to. The modules are supported by transverse beams that are strong enough to support a second floor. The roof is equipped with means for collecting rainwater. Since the room module frame has good thermal conductivity, it is necessary to insulate the house from the outside, which in turn makes it more difficult to assemble, disassemble and relocate the modules.

To eliminate the aforementioned disadvantages and achieve technical and other advantages, technical solutions are needed that allow easier connection, disconnection and relocation of modules compared to known solutions and that are more suitable for regions with harsher climates. The invention is directed to eliminating this technical problem.

ESSENCE OF THE INVENTION

The object of the invention is achieved by a modular house module comprising a cuboid frame and wall, ceiling and floor elements attached to the frame, the frame being formed of wood or glued timber or beams composed of wood or glued timber, and the wall, ceiling and floor elements being attached between the beams in such a way that they do not extend inward or outward from the frame, allowing easy connection of the modules by connecting the frames placed opposite each other. The cross-section of the beam is preferably square, preferably with a side length of 10 to 30 cm, preferably 25 cm. The module is preferably cubic in shape, with a width of about 3 meters. The width and height of the module may be equal, and the length is twice the width, for example 3 x 3 x 6 meters. The beams of the frame are equipped with fastening elements for fastening the modules to each other, next to each other or on top of each other so that the frame of one module is opposite the frame of the other.

The ceiling or floor element of the module, or preferably both, is equipped with a channel running along the edge of the wall, preferably along the entire perimeter of the module, for electrical and low-voltage cables, water supply, gas and ventilation pipes.

The module may be equipped with a gable roof consisting of a corner piece with a triangular surface and left and right eaves pieces (in the case of a cubic module). The gable roof of the module may additionally include a roof element spacer and an eaves spacer (in the case of a cuboid module).

The object of the invention is also achieved by a modular house modular system consisting of two types of modules according to any of the preceding descriptions, wherein one type of modules is cubic, preferably with dimensions of 3 x 3 x 3 meters, and the other type of modules is cuboid, preferably with dimensions of 3 x 3 x 6 meters. The modular house modular system may further comprise a set of gable roof elements consisting of a corner piece with a triangular surface and left and right eaves pieces (in the case of a cubic module), or the set of gable roof elements further comprises a spacer and an eaves spacer (in the case of a cuboid module).

LIST OF ILLUSTRATIONS

Figure 1 shows a modular house module according to a first embodiment of the invention.

Figure 2 shows a modular house module according to a second embodiment of the invention.

Figure 3 shows a cross-section of the ceiling elements of two interconnected modules.

Figure 4 shows a cross-section of the floor elements of two interconnected modules.

Figure 5 shows a set of roof elements for a modular house module according to the invention, according to one embodiment of the invention.

Figure 6 is a front view of the module shown in Figure 5.

Figure 7 shows a set of roof elements for a modular house module according to the invention, according to a second embodiment of the invention.

Figure 8 is a front view of the module shown in Figure 7.

Figure 9 shows the construction of the roof element in more detail.

Figure 10 shows an alternative construction of a roof element.

Figure 11 shows an alternative design of a window frame.

EXAMPLES OF IMPLEMENTATION OF THE INVENTION

A first embodiment illustrating the invention is shown in Figure 1. The modular house module 1 is cubic in shape, comprising beams, preferably vertical and horizontal.

at the edges of the frame 4 module made of wooden beams (2 and 3, respectively). The frame has fastening elements on the sides of the frame for fastening wall panels 5 (including, for example, a glass panel 6), as well as floor or ceiling panels (7 and 11, respectively) to the beams of the frames completely between the beams so that the panels do not extend inward or outward from the frame. Such a construction allows several modules to be easily connected to each other as needed, e.g. when building, remodeling, relocating and demolishing a modular house according to the user's wishes. The frames are equipped with fastening elements for fastening the modules to each other, for example next to each other or on top of each other so that the frame of one module is opposite the frame of the other.

The frame beam is preferably made of solid wood, but can also be made of glued laminated timber or composed of several wooden or glued laminated timber elements. Alternatively, the frame beam can also be made of concrete, plastic or other suitable material, and also contain metal elements. The cross-section of the frame beam is of a suitable shape, i.e. the beam can also be a log or a half-log, but the beam is preferably rectangular, preferably square. The dimensions of the cross-section of the beam are selected on the one hand to be sufficient to ensure the necessary load-bearing capacity and rigidity (taking into account the dimensions of the module) and on the other hand to take into account the external appearance of the module, since the frame is preferably not additionally covered from the outside or inside. The cross-section of the beam can be from 10cm x10cm, preferably 25cm x 25cm.

The dimensions of the module are preferably chosen such that the modules can be easily transported by road, preferably as standard cargo; therefore, the preferred module size may depend on the laws in force in the country of manufacture or sale. On the other hand, the dimensions of the module may be chosen based on the de facto standard dimensions of the materials and elements used (frame beams, boards used in interior and exterior finishing, etc.) in the region of manufacture or installation of the module. For example, the width of the module is preferably up to about 3 meters and the length is up to about 9 meters, preferably about 6 meters (in this application, in the case of dimensions, ca means up to +/-15cm). According to a preferred variant, the module is cubic, preferably with dimensions of about 3m x 3m x 3m. According to a second preferred variant, the module is cuboid-shaped, preferably with equal height and width, and twice as long compared to them, for example with a height and width of 3m and a length of about 6m (see Fig. 2, where the frame 4' is formed by horizontal beams 2' and 2", whereby beam 2' is twice as long as beam 2"). According to a third preferred variant, the length of the module is three times greater than its width and height. According to a particularly preferred variant, the set of modules consists of cubic modules and

of cuboid modules, with the widths and heights of both types of modules being equal, and the length of the cuboid module being either 3 times longer or preferably 2 times longer than the length of the cubic module. In this case, it is possible to build buildings of practically any configuration (floor area) with two sizes of modules.

All wall elements 5 are fixed between the frame, i.e. the wall elements do not extend beyond the frame either inside or outside the house. The wall element is preferably made in one piece and contains insulation, internal and external finishing layers and elements that provide rigidity to the wall and the module as a whole. The wall is fixed to the frame with suitable fastening means, for example nails, screws, clamps, bolts, pins or the like, whereby the fastening means are preferably suitable for disassembly to enable the walls to be removed and relocated. An airtight and low thermal conductivity connection must be ensured between the wall and the frame. For this purpose, suitable assembly foam and/or suitable seals are used. When installing the wall element, the internal and external finishing layers may also be installed separately, after the wall has been fixed between the frame.

The wall thickness is determined on the one hand by the permissible thermal conductivity and on the other hand by the dimensions of the frame beam, whereby in the case of a beam with a cross section of 25cm x 25cm, the wall thickness is up to 25cm. Suitable wall structures and materials are well known in the construction field, which ensure the required strength and thermal conductivity and compliance with the requirements for the energy efficiency of the building.

The window element 6 preferably extends into the frame, i.e. the frame also functions as a window frame at the same time. The window element is preferably a multiple, e.g. triple window package, which is secured with suitable fastening elements and assembly foam and/or suitable seals.

A wall element may also contain a door or a smaller window.

The floor element 7 of the module, the cross-section of which is shown in Figure 4 (two floor elements are shown connected together), is also preferably fixed between the frame so that it does not extend outside the frame (allowing the modules to be easily placed on top of each other if necessary) and preferably not inwardly. The floor element consists of supporting elements, insulation and covering elements, for example floorboards 8. The floor element is preferably equipped with a channel 9 running along the edge of the wall, preferably along the entire perimeter of the module, for electrical and low-voltage cables, water supply, gas and ventilation pipes. The cross-section of the channel may be rectangular or preferably widening towards the interior of the floor, see 9'). Plugs, switches, lamps, speakers and sensors can be placed in the desired location and, if necessary

easy to place around. When adding a new module, the circuits are connected either in a junction box or preferably with special connectors. The channel is covered with a removable and reusable cover 10. Preferably, an opening in the frame beam corresponding to the channel is preferably openable and reclosable to allow the communication to be carried from one module to another when installing the modules.

The ceiling element 11 of the module, the cross-section of which is shown in Figure 3, is also preferably fixed between the frame so that it does not extend outside the frame (allowing the modules to be easily placed on top of each other if necessary) and preferably not inwardly. The ceiling element consists of supporting elements, insulation and covering elements 12, e.g. ceiling tiles. The ceiling element is also preferably equipped with a channel 13 for communications running along the edge of the wall, preferably along the entire perimeter of the module. The channel is covered with a removable and reusable cover 14. Preferably, an opening in the frame beam, preferably openable and reclosable, is provided in line with the channel to enable the communication to be carried from one module to another when the modules are installed.

Preferably, the ceiling element and its connections to the frame are made waterproof, i.e. the ceiling element also functions as a roof. The roof of the module may have a system for draining or recycling rainwater and/or snowmelt.

The floor and ceiling element can be manufactured as a universal element, which is suitably finished on both sides and suitable for use as both a floor and a ceiling element. Such a construction is particularly suitable for the construction of multi-storey buildings, as such a universal element is particularly suitable for use as a suspended ceiling.

A modular house is formed from the described modules by connecting the modules in the desired arrangement next to each other and/or on top of each other, mechanically attaching the frames of the connected modules to each other. Suitable fastening means are used to attach the modules, e.g. pins, nails, screws, clamps, bolted joints, etc. The through fastening elements (nails, bolted joints, screws) are preferably hidden in the channel of the floor and ceiling element (the connection is conditionally shown in Figures 3 and 4 by a double dotted line 15). A suitable seal is placed between the frames or the gap between the frames is sealed, e.g. with assembly foam.

The module is placed on a suitable foundation, e.g. on screw foundation elements. The screw foundation can be equipped with a height adjuster or the height adjuster can be mounted under the module on top of the screw adjuster, so that the module can be easily leveled during installation or later use.

The modules according to the invention are manufactured and finished in the factory and delivered to the construction site. The modules are given the desired functionality in the factory - a living space, a utility room or an outbuilding, for example a living room, a bedroom, a kitchen, a study, a bathroom, a laundry room, a toilet, a sauna, including a steam room for a smoke sauna, a laundry room, an entrance hall, a vestibule, a shed, a garage, a summer kitchen, a winter garden, a playhouse, a swimming pool, a balcony, a staircase.

Preferably, the modular system includes a central module equipped with the technologies necessary for the functioning of the building (water and sewage, hot water boiler, electrical panel, communications, sewage, ventilation, security center, router). The same module can also contain a toilet or WC and a shower. The central module is installed above the communications brought to the plot.

The module according to the invention may be equipped with a so-called flap, which in the closed state is parallel to the wall panel (including the window panel) and is rotatably attached to the frame and the wall at its bottom so that the flap can be rotated into a terrace.

The modular system according to the invention preferably also comprises a set of gable roof elements, which according to one embodiment shown in Fig. 5 (top view) and Fig. 6 (front view) consists of a corner piece element 23, a right-hand eaves piece 22, and a left-hand eaves piece 21. A set of these three elements is suitable and sufficient for a module with a square floor area. For a module with a rectangular floor area, in addition to these gable roof elements, an insert 24 and an eaves insert 25 are also required, see Fig. 7 (top view) and Fig. 8 (front view).

Fig. 9 shows the construction of the gable roof and the gable roof elements 1, 2 and 3 in more detail. The roof element 23 consists of a pyramid-shaped support structure formed by upright beams 26 and a base frame formed by beams 27. A covering element 28 is attached to the beams 26. The covering element may be boards, shavings, shingles, reeds or the like, and is attached to the beams 26 in a suitable manner, for example with nails, screws, clips, special fastening elements, rope, or the like. The roof element 23 is preferably attached to the beams 2 of the module frame in a suitable manner, for example with clips 29, screws, nails or the like. The roof element may be made to be weatherproof, but if the ceiling panel of the module is made to be weatherproof, the roof element does not have to be weatherproof.

Fig. 10 shows an alternative construction of a gable roof and an alternative module 30, which consists of a covering plate 31 made of a suitable material analogously to the previous embodiments, and

vertical beams 32, each of which is connected at right angles to horizontal beams 33 at one end, and diagonal beams 34 connected to the vertical and horizontal beams at the other end. The module 30 is lifted onto the module during installation and secured to the beams 2 and 3 of the module frame with suitable fastening means.

Fig. 11 shows an alternative option for attaching window frames and other similar elements (a wall element containing a door) not between the beams 2 of the module frame, but on them. The window frame 35 is attached with suitable fastening means, e.g. nails or screws 36.

The modules and modular system according to the present invention enable buildings to be easily erected, expanded, redesigned, relocated or removed. Appropriately dimensioned mock-ups, models, blocks, etc. can be used to plan the desired building. Given the simple basic form, the module model can also be folded from paper or other suitable material. Appropriate 3D software can be used to plan a modular house. Since the modules are standard, the owner can sell the modules that have turned out to be redundant on the secondary market or exchange one module for another to transform the building. To facilitate the functioning of the secondary market, the software solution of the conventional purchasing environment can be combined with 3D software for planning a modular house.

There are no restrictions on the interior and exterior design of a module and modular house, except that the frame beams generally remain visible from both inside and outside the building.

Claims (14)

1. A modular house module comprising a cuboid frame and wall, ceiling and floor elements attached to the frame, characterized in that the frame is formed of wooden or glued timber beams and the wall, ceiling and floor elements are attached between the beams so that they do not extend inward or outward from the frame, allowing the modules to be connected by connecting frames placed opposite each other. 2. The module according to claim 1, characterized in that the cross-section of the beam is square, with the side of the square being 10 to 30 centimeters. 3. The module according to claim 1, characterized in that the cross-section of the beam is square, with the side of the square being 25 centimeters. 4. The module according to claims 1 to 3, characterized in that the module is cubic in shape. 5. The module according to claims 1 to 3, characterized in that the width of the module is 3 meters. 6. The module according to claims 1 to 4, characterized in that the width and height of the module are equal and the length is twice the width. 7. A module according to claim 6, characterized in that the width of the module is 3 meters. 8. A module according to claims 1 to 7, characterized in that the frame beams are provided with fastening elements for fastening the modules to each other, next to each other or on top of each other so that the frame of one module is opposite the frame of the other. 9. A module according to claims 1 to 8, characterized in that the ceiling element or floor element is provided with a channel running along the edge of the element, preferably along the entire perimeter of the module, for electrical and low-voltage cables, water supply, gas and ventilation pipes. 10. A module according to claims 1 to 9, characterized in that the module is provided with a gable roof consisting of a corner piece with a triangular surface and left and right eaves pieces. 11. A module according to claim 10, characterized in that the module is provided with a gable roof comprising a spacer and an eaves spacer. 12. A modular house system consisting of two types of modules according to any preceding claim, wherein one type of module is cubic in shape, preferably with dimensions of 3 x 3 x 3 meters, and the other type of module is cuboid in shape, preferably with dimensions of 3 x 3 x 6 meters. 13. A modular house modular system according to claim 12, characterized in that it includes a set of gable roof elements consisting of a corner piece with a triangular surface and left and right eaves pieces. 14. A modular house modular system according to claim 13, characterized in that it includes a set of gable roof elements consisting of a corner piece with a triangular surface, left and right eaves pieces, a spacer piece, and a spacer piece without eaves.