GB2604937A

GB2604937A - Arrangement of a prefabricated module for building a thermally insulated wall and/or thermally insulated ceiling

Info

Publication number: GB2604937A
Application number: GB2106666.7A
Authority: GB
Inventors: Mathe Laszlo
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-03-17
Filing date: 2021-05-11
Publication date: 2022-09-21
Also published as: EP4308769A1; WO2022194364A1

Abstract

The invention relates to an arrangement of at least one prefabricated module (1) for building a thermally insulated wall and/or thermally insulated ceiling, a module (1), a method and a building, wherein the module (1) comprises at least one thermal insulation means (2) and at least one stiffening means (3), wherein the stiffening means (3) has at least one lateral surface (4), one bottom surface (5) and one top surface (6), wherein the stiffening means (3) extends through the thermal insulation means (2) so that the stiffening means (3) is surrounded at least partially by the thermal insulation means (2), wherein the arrangement comprises a holding means (7), wherein the stiffening means (3), in particular in its end portion (8), is connected to the holding device (7) via a connecting means (9), and wherein the holding means (7) extends at least partially across at least one, in particular two opposite, lateral surface/s (4) of the stiffening means (3). The holding means may be a mounting rail.

Description

Arrangement of a prefabricated module for building a thermally insulated wall and/or thermally insulated ceiling The invention relates to an arrangement, a module and a method according to the preambles of the independent patent claims.

In the state of the art, in particular in the construction of modular homes, different prefabricated wall elements are known for building a thermally insulated wall of a building. For example, wall elements are known in which a wooden frame constitutes the supporting structure. Between the wooden beams of the wooden frame, mineral wool is used as insulating material and, subsequently, both sides of the wooden frame are clad. However, a disadvantage of these conventional wall elements is that the prefabricated wall elements are fastened directly to the ground so that pest infestation and mould formation due to condensate water are unavoidable. In addition, the strength of these conventional wall elements is determined solely by the wooden beams.

The object of the invention is to overcome the disadvantages of the state of the art. In particular, an object of the invention is to create an arrangement and a module relating thereto which facilitate/s long durability and strength as well as an efficient and cost-saving superstructure.

In particular, the object according to the invention is solved by the features of the independent patent claims.

The invention in particular relates to an arrangement of at least one prefabricated module and at least one holding means for building a thermally insulated wall and/or thermally insulated ceiling, wherein the module comprises a thermal insulation means and a stiffening means, wherein the stiffening means has at least one lateral surface, one bottom surface and one top surface, wherein the stiffening means extends through the thermal insulation means so that the stiffening means is surrounded at least partially by the thermal insulation means, wherein the stiffening means, in particular in its end portion, is connected to the holding device via a connecting means, and wherein the holding means extends at least partially across at least one, in particular two opposite, lateral surface/s of the stiffening means.

The module can be designed as wall module or ceiling module. Optionally, the module is composed of at least one thermal insulation means and at least one stiffening means.

The thermally insulated wall may be composed of multiple modules, in particular wall modules, or comprise multiple modules, in particular wall modules. The modules can be fabricated separately. Further, the thermally insulated wall may optionally be assembled from the individual modules at the set-up site, in particular at the construction site.

The thermally insulated ceiling may be composed of multiple modules, in particular ceiling modules, or comprise multiple modules. The modules, in particular ceiling modules, may be produced separately. Further, the thermally insulated ceiling may optionally be assembled from the individual modules at the set-up site, in particular at the construction site.

The at least one module may comprise at least one thermal insulation means and at least one stiffening means. The module may be configured for building a, in particular load-bearing, wall or ceiling.

Optionally, it is provided that the module is designed as an outer wall. A surface, in particular the outer surface, of the outer wall may be designed in such a way that it can be plastered. Another surface, in particular the inner surface, of the outer wall may be designed in such a way that gypsum boards can be fastened to it.

Optionally, it is provided that the module is designed as an inner wall. At least one surface, in particular the inner surface and/or the outer surface, of the inner wall may be designed in such a way that gypsum boards can be fastened to it.

The stiffening means may be designed to stiffen and/or reinforce the modules. In particular, the stiffening means may be configured to transfer load. The stiffening means may preferably by designed as a post and/or act as a post.

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The thermal insulation means may be designed to insulate the modules. In particular, the thermal insulation means may be designed in such a way that temperature fluctuations of the stiffening means can be reduced and/or prevented.

The thermal insulation means may be designed to stiffen and/or reinforce the modules. In particular, the thermal insulation means may be designed torsion-resistant and/or to receive pressure forces. Optionally, the thermal insulation means is designed as a torsion-resistant, in particular plate-shaped, body.

The arrangement may comprise at least one holding means. Optionally, the at least one holding means of the arrangement may be composed of multiple holding means.

Optionally, it is provided that the stiffening means is arranged in the thermal insulation means without projecting beyond it. It may be provided that the bottom surface and/or the top surface of the stiffening means is/are substantially flush with the thermal insulation means. However, the stiffening means may also project beyond the thermal insulation means on at least one side.

The holding means may be designed in such a way that a U-shaped profile or a trough-shaped profile is formed for receiving the stiffening means, in particular an end portion thereof. In particular, it may be provided that the holding means is configured to receive the stiffening means, in particular an end portion of the stiffening means.

Optionally, the stiffening means, in particular in its end portion, may be connected to the holding means. In particular, the stiffening means may be connected to the holding means via at least one connecting means, in particular at least one screw.

Optionally, the connecting means may be composed of at least two connecting means parts or may comprise at least two connecting means parts.

The connecting means may be designed to non-positively and/or positively connect the holding means to the stiffening means.

The holding means may extend at least partially across at least one lateral surface of the stiffening means. Preferably, the holding means extends across two opposite lateral surfaces of the stiffening means.

Optionally, the stiffening means has a round, quadrangular, pentagonal, hexagonal, heptagonal, octagonal, nonagonal, decagonal or polygonal cross section and/or longitudinal section.

Optionally, the thermal insulation means has a quadrangular, pentagonal, hexagonal, heptagonal, octagonal, nonagonal, decagonal or polygonal cross section and/or longitudinal section.

Optionally, the module, the stiffening means and/or the thermal insulation means are cuboid.

In the context of the present invention the ground can be understood as the ground on which the arrangement is arranged. Optionally, the ground may be a foundation, a building ceiling and/or the earth's surface.

Optionally, it is provided that the holding means is configured to fix the module on the ground on which the arrangement is arranged.

Optionally, it is provided that the holding means is configured to fix the module on the one further, in particular vertically or horizontally arranged, module.

The holding means may be designed to non-positively and/or positively connect the modules, in particular the stiffening means, to the ground.

The holding means may be designed to non-positively and/or positively connect the modules, in particular the stiffening means, to a further, in particular vertically or horizontally arranged, module.

Optionally, the holding means is designed to fasten and/or fix the at least one module on the ground on which the arrangement is arranged. The holding means may be designed to non-positively connect the module to the ground.

Optionally, the holding means is designed to fasten and/or fix the at least one module on a further, in particular vertically or horizontally arranged, module. The holding means may be designed to non-positively connect the module to the further module.

Optionally, it is provided that the holding means abuts, in particular directly, the stiffening means, in particular one lateral surface, preferably two opposite lateral surfaces of the stiffening means.

Optionally, it is provided that the module is fastened to and/or supported by the ground, in particular exclusively, via the holding means.

Optionally, it is provided that the module is connected to a further, in particular vertically arranged, module, in particular exclusively, via the holding means.

Optionally, it is provided that at least a part of the holding means is arranged in the area of a lateral surface of the stiffening means. In particular, at least a part of the holding means may abut in the area of a lateral surface of the stiffening means.

Optionally, it may be provided that the holding means extends across the stiffening means in the range of 2 cm up to and including 50 cm, in particular in the range of 4 cm up to and including 10 cm, preferably in the range of 6 cm up to and including 10 cm.

In particular, the connecting means allows establishing, in particular direct, contact between the holding means and the stiffening element.

Optionally, it is provided that the connecting means allows the holding means, in particular the at least one part of the holding means which abuts the stiffening means, to be contractible. Optionally, this allows a non-positive and/or positive connection to be established between the holding means and the stiffening means.

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Optionally, it is provided that the modules are fastened to the ground via the holding means. It may be provided that the modules are connected to the ground, in particular exclusively, via the connecting means and/or the holding means.

In particular, the holding means of the wall module can be fastened to the ground with at least one fastening means, in particular a screw and optionally a washer.

Optionally, it is provided that the modules are fastened to a further module via the holding means. It may be provided that the modules are connected to a further module, in particular exclusively, via the connecting means and/or the holding means.

In particular, it may be provided that a horizontally arranged module, in particular a ceiling module, is connected to a vertically arranged module, in particular a wall module and preferably the stiffening means of the wall module, via the holding means. Thus, optionally, a wall and a ceiling, and thus optionally a house consisting of modules according to the invention, can be built.

In particular, the holding means of the ceiling module can be fastened to the wall module, in particular the stiffening means of the wall module, via at least one fastening means, in particular a screw and optionally a washer.

In the context of the present invention the holding means can be regarded as abutting the stiffening means even if at least one connecting element is arranged between the holding means and the stiffening means, for example.

Optionally, it is provided that the lateral surface of the stiffening means is surrounded by the thermal insulation means.

Optionally, it is provided that all lateral surfaces of the stiffening means are surrounded by the thermal insulation means.

In particular, the lateral surface or all lateral surfaces may be surrounded substantially completely by the thermal insulation means.

Optionally, the thermal insulation means can be designed to receive the stiffening means.

In particular, it may be provided that the thermal insulation means has recesses in(to) which the stiffening means can be arranged and/or inserted.

In particular, it may be provided that the thermal insulation means has recesses in(to) which the connecting means and/or the further connecting means can be arranged and/or inserted.

Optionally, it is provided that the lateral surface of the stiffening means abuts and/or borders the thermal insulation means.

Optionally, it is provided that all lateral surfaces of the stiffening means abut and/or border the thermal insulation means.

In particular, one or all lateral surface's can be arranged directly on the thermal insulation means.

Optionally, all lateral surfaces of the stiffening means can be arranged within the thermal insulation means.

Optionally, it is provided that the bottom surface and/or the top surface of the stiffening means is/are substantially flush with the associated side of the thermal insulation means.

In other words: It may be provided that the bottom surface and/or the top surface are not surrounded and/or not encompassed by the thermal insulation means. In other words: The bottom surface and/or the top surface are not surrounded by the thermal insulation means.

Optionally, it is provided that the arrangement comprises a further holding means.

Optionally, it is provided that the stiffening means is connected to the further holding means, in particular in a further end portion of the stiffening means.

Optionally, it is provided that the stiffening means is connected to the further holding means via a further connecting means.

In particular, it may be provided that the further end portion of the stiffening means is opposite to the end portion of the stiffening means.

In its lower end portion, the stiffening means is optionally connected to the holding means. In its upper end portion, the stiffening means is optionally connected to the further holding means.

In particular, it may be provided that the stiffening means and/or the module is/are connected to one holding means each on both sides.

In the context of the present invention an end portion can be understood as a portion in the area of an end of the stiffening means. The end portion may have a length in the range of 3 cm up to and including 20 cm, measured from the associated top surface or bottom surface.

Optionally, it is provided that the further holding means extends at least partially across a lateral surface of the stiffening means.

In particular, the further holding means may extend across two opposite lateral surfaces of the stiffening means.

Optionally, it is provided that the holding means is configured to connect and/or to couple at least two modules to one another.

Optionally, it is provided that the further holding means is configured to connect and/or to couple at least two modules to one another.

In particular, the holding means and/or the further holding means allow/s a thermally insulated wall or thermally insulated ceiling to be composed of the individual modules.

The arrangement, in particular the thermally insulated wall or thermally insulated ceiling, may have a length in the range of 100 cm up to and including 50000 cm. The arrangement, in particular the thermally insulated wall or thermally insulated ceiling, may have a width in the range of 10 cm up to and including 50 cm. The arrangement, in particular the thermally insulated wall or thermally insulated ceiling, may have a height in the range of 100 cm up to and including 1300 cm.

The holding means and/or the further holding means may be designed to create a non-positive and/or positive connection between the modules.

Optionally, it is provided that two modules are connected to one another via a, in particular four, coupling means. Optionally, it is provided that the, in particular abutting, modules are connected to one another via a, in particular four, coupling means. Optionally, it is provided that two modules are glued together. Optionally, it is provided that the, in particular abutting, modules are glued together.

Optionally, the at least one coupling means may be configured to fix the modules to one other and, optionally, to secure them in their position relative to each other. This allows a straight wall and/or straight ceiling to be composed of multiple modules.

The coupling means may have a toothed profile and optionally be designed to be inserted into the thermal insulation means.

In particular, a coupling means is arranged at a distance in the range of 2 cm up to and including 20 cm, in particular in the range of 3 cm up to and including 10 cm, from the respective outer surface of the respective module in order to connect and/or fix two modules.

By gluing the modules together, the wall and/or the ceiling can be made tight. Optionally, EPS foam can be used for gluing.

Optionally, it is provided that the thermal insulation means has a recess, in particular a groove.

Optionally, it is provided that the recess is designed to receive the holding means and/or the further holding means.

Optionally, it is provided that the recess is in particular designed to receive the holding means, which extends across the lateral surface of the stiffening means.

Optionally, it is provided that the recess is in particular designed to receive the further holding means, which extends across the lateral surface of the stiffening means.

The thermal insulation means may have at least one recess, in particular at least one groove.

Optionally, the holding means is at least partially surrounded by the thermal insulation means. In particular, the holding means may be at least partially arranged in the thermal insulation means, in particular in the recess of the thermal insulation means.

Optionally, the further holding means is at least partially surrounded by the thermal insulation means. In particular, the further holding means may be arranged, at least partially, in the thermal insulation means, in particular in the recess of the thermal insulation means.

The recess may be arranged in an end portion of the thermal insulation means.

Optionally, the recess is configured to receive the two leg portion of a U-shaped thermal insulation means.

Optionally, it is provided that the holding means is connected to the ground on which the arrangement is arranged via a fixing means, in particular a screw and optionally a washer, so that the module may optionally be fastened to the ground.

Optionally, it is provided that the further holding means is connected to the ceiling via a further fixing means, in particular a screw with optionally a nut and/or optionally a washer, wherein the module can optionally be fastened on the ceiling of the arrangement.

Optionally, it may be provided that the holding means is connected to the ground via at least one screw, in particular an eye bolt, and optionally via at least one washer device, in particular a washer, which optionally allows the module to be fastened to the ground Optionally, it is provided that the holding means of a, in particular horizontally arranged, module is connected to a, in particular vertically arranged, module, in particular to its stiffening means, via a fixing means, in particular a screw and a washer, which optionally allows the, in particular horizontally arranged, module to be fastened to a further, in particular vertically arranged, module.

Optionally, it may be provided that the holding means and/or the further holding means is/are connected to a further module, in particular to its stiffening means, via at least one screw, in particular an eye bolt, and optionally via at least one washer device, in particular a washer, which optionally allows the, in particular horizontally arranged, module to be fastened to a further, in particular vertically arranged, module.

Optionally, it is provided that the holding means and/or the further holding means is/are made of metal, in particular galvanised metal, and is/are preferably designed as a U-profile.

Optionally, it is provided that the holding means and/or the further holding means comprise/s metal, in particular galvanised metal, and is/are preferably designed as a U-profile.

Optionally, the holding means and/or the further holding means is/are produced by a rolling process.

Optionally, it is provided that the stiffening means is made of metal or plastic.

Optionally, it is provided that the stiffening means comprises metal or plastic.

Optionally, it is provided that the stiffening means has a 7-shaped, C-shaped, U-shaped and/or rectangular cross section.

The stiffening means may be connected to the holding means via at least two connecting means, in particular two self-cutting screws. The connecting means may each be inserted into the stiffening means through the holding means from mutually opposite sides.

The stiffening means may be connected to the further holding means via at least two further connecting means, in particular two self-cutting screws. The further connecting means may each be inserted into the stiffening means through the further holding means from mutually opposite sides.

Optionally, it is provided that the stiffening means is made of wood.

Optionally, it is provided that the stiffening means comprises wood.

In particular, the stiffening means may have a cross-section of 5 cm times 5 cm, 5 cm times 10 cm, 5 cm times 15 cm, 5 cm times 20 cm or 15 cm times 15 cm. In particular, the stiffening means may have a height of 100 cm up to and including 600 cm.

Optionally, it is provided that a reinforcing means, in particular a nail plate, is arranged on the bottom surface and/or on the top surface of the stiffening means.

The reinforcing means may be configured to reinforce and/or stabilise the stiffening means.

The reinforcing means may be configured to reinforce and/or stabilise the bottom surface and/or the top surface of the stiffening means.

This reinforcement and/or stabilisation can optionally prevent and/or reduce a so-called tearing out and/or so-called breaking open of the stiffening means.

The reinforcing means can be inserted into the stiffening means with a press, in particular a hydraulic press.

The reinforcing means may be designed in such a way that the bottom surface of the stiffening means is arranged at a distance from the holding means.

The reinforcing means may be designed in such a way that the top surface of the stiffening means is arranged at a distance from the further holding means.

The reinforcing means may be designed in such a way that the reinforcing means substantially covers the entire bottom surface and/or top surface of the stiffening means.

Optionally, it is provided that the connecting means and/or the further connecting means extend/s through the stiffening means transversely to the direction of extension of the wood fibre.

Optionally, it is provided that the connecting means and/or the further connecting means project/s beyond the stiffening means on both sides.

In particular, the connecting means may be designed in such a way that at least a part of the connecting means extends through the stiffening means.

Optionally, at least a part of the connecting means may extend from a side of the stiffening means to another, in particular opposite, side of the stiffening means.

Optionally, the connecting means may project beyond the stiffening means on both sides.

In particular, the further connecting means may be designed in such a way that at least a part of the further connecting means extends through the stiffening means.

Optionally, at least a part of the further connecting means may extend from a side of the stiffening means to another, in particular opposite, side of the stiffening means.

Optionally, the further connecting means may project beyond the stiffening means on both sides.

In particular, the connecting means and/or the further connecting means may be designed as a threaded screw, which is passed through the stiffening means. Optionally, the stiffening means can be connected to the holding means and/or the further holding means on both sides.

Optionally, it is provided that a waterproof layer is arranged and/or attached in at least one end portion of the stiffening means.

The waterproof layer may, for example, be designed as a bituminous layer. In particular, it may be provided that the stiffening means, in particular the end portions of the stiffening means, are immersed in a waterproof liquid in order to be able to create the waterproof layer.

Optionally, the waterproof layer may have a length in the range of 2 cm up to and including 12 cm, measured from the respective top surface or bottom surface of the stiffening means.

Optionally, it is provided that the thermal insulation means is made of plastic, in particular extruded polystyrene or expanded polystyrene.

Optionally, it is provided that the thermal insulation means comprises plastic, in particular extruded polystyrene or expanded polystyrene.

Optionally, it is provided that the module has a width in the range of 10 cm up to and including 50 cm, a height in the range of 100 cm up to and including 1300 cm and/or a length in the range of 100 cm up to and including 160 cm.

The module and/or the thermal insulation means may have a width of 10 cm, 15 cm, 20 cm, 25 cm, 33 cm or 50 cm.

Optionally, it is provided that the thermal insulation means has a width in the range of 10 cm up to and including 50 cm, a height in the range of 100 cm up to and including 1300 cm and/or a length in the range of 100 cm up to and including 160 cm.

In particular, the module and/or the thermal insulation means may have a length of 100 cm, 110 cm, 120 cm, 130 cm, 140 cm, 150 cm or 160 cm.

The thermal insulation means may project beyond the stiffening means of the module, in particular of the ceiling module, in the range of 1 cm to 10 cm, in particular 2 cm.

Between the floor and the thermal insulation means of the module, in particular of the ceiling module, a soundproofing means, in particular an impact sound insulation, may be arranged.

Optionally, it is provided that the stiffening means has a width in the range of 5 cm up to and including 50 cm, a height in the range of 100 cm up to and including 1300 cm and/or a length in the range of 5 cm up to and including 50 cm.

In particular, the stiffening means may have a width and/or length of 5 cm, 10 cm, 15 cm, 20 cm.

Optionally, it is provided that the holding means has a width in the range of 10 cm up to and including 50 cm, a height in the range of 5 cm up to and including 50 cm and/or a length in the range of 100 cm up to and including 1350 cm.

Optionally, it is provided that a protecting means, in particular a bituminous sheet, is provided between the holding means and the ground.

Optionally, it is provided that a protecting means, in particular a bituminous sheet, is provided between the further holding means and the ceiling of the arrangement.

Optionally, it is provided that a protecting means, in particular a bituminous sheet, is provided between the holding means and/or the further holding means of the, in particular horizontally arranged, module and the further, in particular vertically arranged, module of the arrangement.

In particular, the protecting means is designed to protect the holding means and/or the further holding means against damage, in particular scratches.

The protecting means may be further configured to prevent noise which might be produced by a movement of the holding means and the ground.

The protecting means may be further configured to prevent noise which might be produced by a movement of the further holding means and the ceiling of the arrangement.

Optionally, it is provided that a fire protection means, in particular a fireproof plate, a fireproof plasterboard or a magnesium oxide board, is arranged on the stiffening means and/or the module.

The fire protection means may be composed of at least one fire protection means or comprise at least one fire protection means.

The fire protection means and/or the module may be designed in such a way that the wall or ceiling composed of the modules is fireproof and/or at least flame retardant.

In particular, the invention relates to a module, in particular a wall module and/or a ceiling module, wherein the module comprises at least one thermal insulation means and at least one stiffening means.

Optionally, it is provided that the stiffening means has at least one lateral surface, one bottom surface and one top surface.

Optionally, it is provided that the stiffening means extends through the thermal insulation means so that the stiffening means is at least partially surrounded by the thermal insulation means.

Optionally, it is provided that the module is designed to build an arrangement according to the invention.

Optionally, it is provided that the module is designed according to the invention. In particular, the module may have all above-described features individually or in combination.

Optionally, it is provided that the module has a weight in the range of 5 kg up to and including 100 kg, in particular in the range of 25 kg up to and including 75 kg, and preferably below 50 kg.

The module may be designed in such a way that it may be carried by a maximum of two people.

In particular, the invention relates to a method for building a thermally insulated wall and/or thermally insulated ceiling.

First, a holding means, in particular a U-profile, can be connected to the ground on which the thermally insulated wall is arranged or to a further module.

Then, a module may be inserted into the holding means. Thereby, an end portion of a stiffening means of the module is optionally arranged in the holding means.

As a next step, the holding means can be connected to the module, in particular to the stiffening means of the module, via a connecting means.

The module may in particular be designed according to the invention. In particular, the module may have all above-described features individually or in combination.

Optionally, it is provided that a further module according to the invention is inserted into the holding means so that an end portion of the stiffening means of the further module is arranged in the holding means.

Optionally, it is provided that the further module is connected to the module which is already arranged in the holding means via at least one coupling means. The coupling means allows the position of the two modules to be fixed relative to one another.

Optionally, the two modules are glued together.

Optionally, it is provided that the holding means is connected to the further module, in particular to the stiffening means of the further module, via a connecting means.

Optionally, it is provided that an arrangement according to the invention is created with this method.

Optionally, it is provided that a further holding means is arranged in a further end portion of the stiffening means.

In a further step, the further holding means can be connected to the module, in particular to the stiffening means of the module, via a further connecting means.

The further end portion may be opposite to the first end portion of the module.

Optionally, it is provided that prior to connecting the holding means to the module, the module and/or the holding means is/are drilled into or drilled through, thus creating a borehole.

In a further step, the connecting means may be inserted into the borehole so that the holding means can be connected to the module.

Optionally, it is provided that prior to connecting the further holding means to the module, the module and/or the further holding means is/are drilled into or drilled through, thus creating a further borehole.

In a further step, the further connecting means may be inserted into the further borehole so that the further holding means can be connected to the module.

Optionally, it is provided that prior to connecting the holding means to the further module, the further module and/or the holding means is/are drilled into or drilled through, thus creating a borehole.

In a further step, the connecting means may be inserted into the borehole so that the holding means can be connected to the further module.

Optionally, it is provided that prior to connecting the further holding means to the further module, the further module and/or the further holding means is/are drilled into or drilled through, thus creating a further borehole.

In a further step, the further connecting means may be inserted into the further borehole so that the further holding means can be connected to the further module.

In particular, the invention relates to a building comprising at least one module according to the invention or composed of at least one module according to the invention.

In particular, the modules are configured to build an arrangement according to the invention and/or a building according to the invention.

Further features according to the invention optionally emerge from the claims, the description of the exemplary embodiments and the figures.

The mentioned semantic sequence of the method steps does not necessarily correspond to the chronological sequence.

The invention is now further explained on the basis of non-exclusive and/or non-limiting exemplary embodiments.

Figs. la to lc show schematic graphic illustrations of a first embodiment of the arrangement according to the invention, wherein the thermally insulated wall is composed of three modules, Figs. 2a to 2c show schematic graphic illustrations of embodiments of modules according to the invention, Fig. 3 shows a schematic graphic illustration of an embodiment of a module according to the invention with a fire protection means, and Fig. 4 shows a schematic graphic illustration of an embodiment of a building according to the invention.

Unless otherwise indicated, the reference numbers correspond to the following components: Module 1, thermal insulation means 2, stiffening means 3, lateral surface 4, bottom surface 5, top surface 6, holding means 7, end portion 8, connecting means 9, further holding means 10, further end portion 11, further connecting means 12, reinforcing means 13, fire protection means 14, spacer element 15 and coupling means 16.

Fig. la shows a schematic graphic illustration of the arrangement according to the invention. In Figures lb and 1c, details of figure la are schematically shown.

According to this embodiment, the thermally insulated wall comprises three modules 1 according to the invention. The individual modules 1 are each connected and glued to each other via four coupling means 16.

The individual modules 1 are prefabricated and configured to build a thermally insulated wall.

Each of these modules 1 comprises a thermal insulation means 2 and two stiffening means 3. The cuboid stiffening means 3 have four lateral surfaces 4, a bottom surface 5 and a top surface 6.

The thermal insulation means 2 are made of plastic, in particular extruded polystyrene or expanded polystyrene. The thermal insulation means 2 is designed to receive the stiffening means 3. According to this embodiment, the thermal insulation means 2 have cut-outs for receiving the stiffening means 3.

According to this embodiment, the stiffening means 3 extend through the thermal insulation means 2. In other words: The stiffening means 3 are at least partially surrounded by the thermal insulation means 2.

In addition, all lateral surfaces of the stiffening means 3 are surrounded, in particular substantially completely, by the thermal insulation means 2. According to this embodiment, the bottom surface 5 and/or the top surface 6 of the stiffening means 3 is/are substantially flush with the associated side of the thermal insulation means 2. In other words: The bottom surface 5 and the top surface 6 are not surrounded by the thermal insulation means 2.

The arrangement comprises a holding means 7 and a further holding means 10. The holding means 7 and the further holding means 10 are made of metal and designed as a U-profile.

The holding means 7 and the further holding means 10 are configured to connect the wall modules 1 and to couple them to one another. The holding means 7 is further configured to fix and fasten the module 1 on the ground on which the arrangement is arranged.

The holding means 7 can be connected to the ground on which the arrangement is arranged via a fixing means, in particular a screw and a washer, which is not shown.

Optionally, the further holding means 10 may be connected to the ceiling of the arrangement via a further fixing means, in particular a screw and a washer, which is not shown.

According to this embodiment, the stiffening means 3 are connected to the holding means 7, in particular in their end portions 8, via a connecting means 9.

According to this embodiment, the stiffening means 3 are connected to the further holding means 10, in particular in their further end portions 11, via a further connecting means 12. The further end portions 11 are opposite to the end portions 8.

According to this embodiment, the holding means 7 and the further holding means 10 extend at least partially across two opposite lateral surfaces 4 of the stiffening means 3.

According to this embodiment, the stiffening means 3 are made of wood.

The connecting means 9 and the further connecting means 12 extend transversely to the direction of extension of the wood fibre through the respective stiffening means 3.

The connecting means 9 and the further connecting means 12 further project beyond the respective stiffening means 3 on both sides.

Further, a reinforcing means 13, in particular a nail plate, is arranged on the bottom surface 5 and/or on the top surface 6 of the stiffening means 3. The reinforcing means 13 allows the bottom surface 5 and the top surface 6 to be reinforced.

Further, the reinforcing means 13 are designed in such a way that the respective bottom surface 5 of the stiffening means 3 is arranged at a distance from the holding means 7.

Further, the reinforcing means 13 are designed in such a way that the respective top surface 6 of the stiffening means 3 is arranged at a distance from the further holding means 10.

The thermal insulation means 2 each have four recesses, in particular four grooves, which are not shown. These recesses are arranged in the respective end portions 8 of the thermal insulation means 2. The recesses are designed to receive the holding means 7 and the further holding means 10.

In particular, the recesses are designed to receive the holding means 7 and the further holding means 10, which extend across the lateral surface 4 of the stiffening means 3.

Between the holding means 7 and the ground on which the arrangement is arranged, a protecting means, in particular a bituminous sheet, which is not shown, is provided.

The modules 1 have a width in the range of 10 cm up to and including 50 cm, a height in the range of 100 cm up to and including 1300 cm and/or a length in the range of 100 cm up to and including 160 cm.

The thermal insulation means 2 have a width in the range of 10 cm up to and including 50 cm, a height in the range of 100 cm up to and including 1300 cm and/or a length in the range of 100 cm up to and including 160 cm.

The stiffening means 3 have a width in the range of 5 cm up to and including 50 cm, a height in the range of 100 cm up to and including 1300 cm and/or a length in the range of 5 cm up to and including 50 cm.

The holding means 7 have a width in the range of 10 cm up to and including 50 cm, a height in the range of 5 cm up to and including 50 cm and/or a length in the range of 100 cm up to and including 1300 cm.

The modules 1 have a weight in the range of 5 kg up to and including 100 kg, in particular in the range of 25 kg up to and including 75 kg, and preferably below 50 kg. In particular, the individual modules 1 are designed in such a way that they can be carried by two people.

The thermally insulated wall according to this embodiment is created according to the following method steps.

First, the holding means 7 is connected to the ground on which the thermally insulated wall will be arranged.

Then, the individual modules 1 are inserted into the holding means 7 so that an end portion 8 of the stiffening means 3 is arranged in the holding means 7.

Subsequently, according to this embodiment, the holding means 7 and the stiffening means 3 of the module 1 are drilled through so that a borehole is created.

Then, the connecting means 9 is inserted into the borehole, whereby the holding means 7 is connected to the module 1. Via the connecting means 9 the holding means 7 may optionally be contracted so that a non-positive and/or positive connection is facilitated.

Subsequently, a further wall module 1 is inserted into the holding means 7 so that an end portion 8 of the stiffening means 3 of the further module is arranged in the holding means 7.

According to this embodiment, the further module 1 is connected to the module 1 which is already arranged in the holding means via at least one coupling means 16 and the two modules 1 are glued together.

Then, the holding means 7 is connected to the further module 1, in particular to the stiffening means 3 of the further module 1 according to the above-described steps via at least one connecting means 9.

After the modules 1 of the thermally insulated wall have been connected to the holding means 7 a further holding means 10 is arranged in a further end portion 11 of the stiffening means 3.

Subsequently, according to this embodiment, the further holding means 10 and the stiffening means 3 of the respective module 1 are drilled through so that a further borehole is created.

Then, one further connecting means 12 each is inserted into the further borehole, whereby the further holding means 10 is connected to the module 1. Via the further connecting means 12 the further holding means 10 may optionally be contracted so that a non-positive and/or positive connection is facilitated.

These steps are repeated until each module 1 is connected to the further holding means 10.

Figs. 2a to 2c show schematic graphic illustrations of the cross section of further embodiments of the module 1 according to the invention. The features of the embodiments according to Figs. 2a to 2c may preferably correspond to the features of the embodiment according to Figures la, lb and/or lc.

Figure 2a shows the cross section of a module 1 according to the invention comprising stiffening means 3 made of metal. Further, the cross section of the stiffening means 3 is substantially U-shaped.

Figure 2b shows the cross section of a module 1 according to the invention comprising stiffening means 3 made of metal. Further, the cross section of the stiffening means 3 is substantially 7-shaped.

Figure 2c shows the cross section of a module 1 according to the invention comprising stiffening means 3 made of metal. Further, the cross section of the stiffening means 3 is substantially rectangular.

Fig. 3 shows a schematic graphic illustration of the cross section of a further embodiment of the module 1 according to the invention. Preferably, the features of the embodiment according to Fig. 3 may correspond to the features of the embodiment according to Figures lb, lb, lc, 2a, 2b and/or 2c.

According to this embodiment, a fire protection means 14, in particular a fireproof plate, a fireproof plasterboard or a magnesium oxide board, is arranged on the stiffening means 3 via spacer elements 15.

Fig. 4 shows a schematic graphic illustration of the cross section of a first embodiment of a building according to the invention. The features of the embodiments according to Fig. 4 may preferably correspond to the features of the embodiment according to Figures 1 a, 1 b, 1 c, 2a, 2b, 2c and/or 3.

The building comprises modules 1, which are configured to build a thermally insulated wall and/or a thermally insulated ceiling.

According to this embodiment, the holding means 7 of the modules 1, in particular the modules 1 configured as wall modules, is connected to the ground via a screw and a washer. According to this embodiment, the holding means 7 of the modules 1, in particular of the modules 1 configured as ceiling modules, is connected to the stiffening means 3 of the wall modules via a screw and a washer.

This exemplary configuration allows the inventive effects to be achieved.

The invention is not limited to the illustrated embodiments, but rather comprises any arrangements, modules 1 and methods according to the following patent claims.

The scope of protection of the invention is not limited to this exemplary embodiment, but comprises any arrangements, modules 1 and methods within the scope of the following patent claims.

Claims

Claims 1. An arrangement for building a thermally insulated wall and/or thermally insulated ceiling, comprising at least one, in particular prefabricated, module (1) and at least one holding means (7), - wherein the module (1) comprises a thermal insulation means (2) and a stiffening means (3), - wherein the stiffening means (3) has at least one lateral surface (4), optionally a bottom surface (5) and optionally a top surface (6), wherein the stiffening means (3) extends through the thermal insulation means (2), wherein the stiffening means (3), in particular in its end portion (8), is connected to the holding means (7) via a connecting means (9), and wherein the holding means (7) extends along at least a part of a lateral surface or a part of two opposite lateral surfaces of the stiffening means (3).
2. The arrangement according to claim 1, characterized in that the holding means (7) is configured to fix the module (1) on the ground on which the arrangement is arranged, - and/or in that the holding means (7) is configured to fix the module (1) on a further, in particular vertically arranged, module.
3. The arrangement according to claim 1 or 2, characterized - in that the holding means (7) abuts, in particular directly, the stiffening means (3), in particular a lateral surface (4) of the stiffening means (3), and/or in that the module (1), is fastened to and/or supported by the ground, in particular exclusively, via the holding means (7), - and/or in that the module (1), is connected to a further, in particular vertically arranged, module, in particular exclusively, via the holding means (7).
4. The arrangement according to one of the preceding claims, characterized - in that the lateral surface (4), in particular all lateral surfaces (4), of the stiffening means (3) is/are surrounded, in particular substantially completely, by the thermal insulation means (2), - and/or in that the lateral surface (4), in particular all lateral surfaces (4), of the stiffening means (3) abut/s, in particular directly, the thermal insulation means (2), - and/or in that the bottom surface (5) and/or the top surface (6) of the stiffening means (3) is/are substantially flush with the respective associated side of the thermal insulation means (2).
5. The arrangement according to one of the preceding claims, characterized - in that the arrangement comprises a further holding means (10), in that the stiffening means (3) is connected to the further holding means (10), in particular in a further end portion (11) of the stiffening means (3), via a further connecting means (12), - and in that the further holding means (10) optionally extends along at least a part of a lateral surface or a part of two opposite lateral surfaces of the stiffening means (3).
6. The arrangement according to one of the preceding claims, characterized in that the holding means (7) and/or the further holding means (10) is/are configured to connect and/or to couple at least two modules (1) to one another, and/or in that two modules (1) are connected to one another via a, in particular four, coupling means (16), and/or in that two modules (1) are glued together.
7. The arrangement according to one of the preceding claims, characterized in that the thermal insulation means (2) has a recess, in particular a groove, wherein the recess is designed to receive the holding means (7) and/or the further holding means (10), - and/or in that the recess is in particular designed to receive the holding means (7), which extends across the lateral surface (4) of the stiffening means (3), - and/or in that the recess is in particular designed to receive the further holding means (10), which extends across the lateral surface (4) of the stiffening means (3).
8. The arrangement according to one of the preceding claims, characterized in that the holding means (7) is connected to the ground on which the arrangement is arranged via a fixing means, in particular a screw and optionally a washer, - and/or in that the holding means (7) of a, in particular horizontally arranged, module (1) is connected to a, in particular vertically arranged, module (1) via a fixing means, in particular via a screw and optionally a washer.
9. The arrangement according to one of the preceding claims, characterized in that the holding means (7) and/or the further holding means (10) is/are made of metal, in particular galvanised metal, and is/are preferably designed as a U-profile, and/or in that the holding means (7) and/or the further holding means (10) comprise/s metal, in particular galvanised metal, and is/are preferably designed as a U-profile.
10. The arrangement according to one of the preceding claims, characterized in that the stiffening means (3) is made of metal or plastic, and/or in that the stiffening means (3) comprises metal or plastic, - and/or in that the stiffening means (3) has a 7-shaped, C-shaped, U-shaped and/or rectangular cross section.
11 The arrangement according to one of the preceding claims, characterized -in that the stiffening means (3) is made of wood, -and/or that the stiffening means (3) comprises wood.
12. The arrangement according to claim 11, characterized - in that a reinforcing means (13), in particular a nail plate, is arranged on the bottom surface (5) and/or on the top surface (6) of the stiffening means (3) so that the bottom surface (5) and/or the top surface (6) is/are reinforced, - and/or in that the reinforcing means (3) is designed in such a way that the bottom surface (5) and/or the top surface (6) of the stiffening means (3) is/are arranged at a distance from the holding means (7) and/or the further holding means (10).
13. The arrangement according to claim 11 or 12, characterized in that the connecting means (9) and/or the further connecting means (12) extend/s transversely to the direction of extension of the wood fibre through the stiffening means (3), and/or in that the connecting means (9) and/or the further connecting means (12) project/s beyond the stiffening means (3) on both sides.
14 The arrangement according to one of claims 11 to 13, characterized in that a waterproof layer is arranged and/or attached in at least one end portion (8) of the stiffening means (3).
15. The arrangement according to one of the preceding claims, characterized in that the thermal insulation means (2) is made of plastic, in particular extruded polystyrene or expanded polystyrene, or in that the thermal insulation means (2) comprises plastic, in particular extruded polystyrene or expanded polystyrene.
16. The arrangement according to one of the preceding claims, characterized in that the module (1) has a width in the range of 10 cm up to and including 50 cm, a height in the range of 100 cm up to and including 1300 cm and/or a length in the range of 100 cm up to and including 160 cm, and/or in that the thermal insulation means (2) has a width in the range of 10 cm up to and including 50 cm, a height in the range of 100 cm up to and including 1300 cm and/or a length in the range of 100 cm up to and including 160 cm, - and/or in that the stiffening means (3) has a width in the range of 5 cm up to and including 50 cm, a height in the range of 100 cm up to and including 1300 cm and/or a length in the range of 5 cm up to and including 50 cm, - and/or in that the holding means (7) has a width in the range of 10 cm up to and including 50 cm, a height in the range of 5 cm up to and including 50 cm and/or a length in the range of 100 cm up to and including 1350 cm.
17 The arrangement according to one of the preceding claims, characterized in that a protecting means, in particular a bituminous sheet, is provided between the holding means (7) and the ground.
18. The arrangement according to one of the preceding claims, characterized in that a fire protection means (14), in particular a fireproof plate, a fireproof plasterboard or a magnesium oxide board, is arranged on the stiffening means (3) and/or the module (1).
19. A module (1), characterized in that the module (1) comprises a thermal insulation means (2) and a stiffening means (3), - in that the stiffening means (3) has at least one lateral surface (4), optionally a bottom surface (5) and optionally a top surface (6), - and in that the stiffening means (3) extends through the thermal insulation means (2) so that the stiffening means (3) is at least partially surrounded by the thermal insulation means (2).
20. The module (1) according to claim 19, characterized in that the module (1) is designed to build an arrangement according to one of claims 1 to 18.
21 The module (1) according to claim 19 or 20, characterized in that the module (1) has a weight in the range of 5 kg up to and including 100 kg, in particular in the range of 25 kg up to and including 75 kg, and preferably below 50 kg.
22 A method for building a thermally insulated wall and/or thermally insulated ceiling, wherein the method comprises the following steps: - Connecting a holding means (7), in particular a U-profile, to the ground on which the thermally insulated wall will be arranged or to a further module (1), - inserting a module (1) according to one of claims 19 to 21 into the holding means (7) so that an end portion (8) of the stiffening means (3) is arranged in the holding means (7), - connecting the holding means (7) to the module (1), in particular to the stiffening means (3) of the module (1), via a connecting means (9).
23. The method according to claim 22, characterized by - inserting a further module (1) according to one of claims 19 to 21 into the holding means (7) so that an end portion (8) of the stiffening means (3) of the further module is arranged in the holding means (7), - connecting the further module (1) to the module (1) via at least one coupling means (16) and optionally gluing the two modules (1) together, connecting the holding means (7) to the further module (1), in particular to the stiffening means (3) of the further module (1), via a connecting means (9).
24 The method according to claim 22 or 23, characterized -in that an arrangement according to claims 1 to 18 is created with the method, -and/or in that the module is designed according to one of claims 19 to 21.
25. The method according to one of claims 22 to 24, wherein the method further comprises the following steps: arranging a further holding means (10) in a further end portion (11) of the stiffening means (3), connecting the further holding means (10) to the module (1), in particular to the stiffening means (3) of the module (1), via a further connecting means (12).
26. The method according to one of claims 22 to 25, wherein prior to connecting the holding means (7) and/or the further holding means (10) to the module (1), the method comprises the following steps: - drilling through and/or into the module (1), in particular the stiffening means (3) of the module (1), the further module (1), in particular the stiffening means (3) of the further module (1), the holding means (7) and/or the further holding means (10), thus creating a borehole, - inserting the connecting means (9) or the further connecting means (12) into the borehole so that the holding means (7) and/or the further holding means (10) is connected to the module (1) and/or to the further module (1).
27. A building, comprising at least one module according to claims 19 to 21.