CZ2010861A3 - Framed module for building modular structure and system of framed modules - Google Patents

Abstract

The frame module (1) for the modular structure of the building support frameworks comprises a set of metallic base profiles (10) welded to each other in the shape of an outer skeleton of a rectangular prism whose edges are defined by metal base profiles (10). The solution is also a system of frame modules, where some of the frame modules are anchored to the substrate to form the building's supporting structure and the frame modules are adjacent to each other by bolts and nuts.

Description

Technical field

BACKGROUND OF THE INVENTION The present invention relates to frame modules for the modular construction of load-bearing frameworks for buildings and to a system of such frame modules.

BACKGROUND OF THE INVENTION

Various types of modular building structures are known, for example, prefabricated concrete panel structures, sheet metal or sandwich panel structures, all-wall custom-made panels consisting of a sheathed wooden frame with a slatted grid and insulation, and the like. The disadvantages of these structures are, in particular, that they are not sufficiently variable and at the same time simple and quick to assemble, and that, in order to unload the panels and other structural elements from the means of transport at the construction site and possibly to move them at the construction site, weight of crane is needed, which increases the cost of construction and limits the possibility of construction by self-help, ie construction without construction company and technology.

SUMMARY OF THE INVENTION

The aforementioned drawbacks are largely eliminated by the frame module for the modular structure of load-bearing frameworks of buildings, which according to the invention comprises a system of metal base profiles welded to each other in the shape of an outer carcass of a rectangular rectangular prism whose edges are defined by metal base profiles. The metal base profiles are preferably L profiles and / or U profiles.

In terms of statics, it is in many cases preferred that the frame module further comprises metal reinforcement elements mounted within the frame module parallel to at least one side thereof. The reinforcing elements may be

Advantageously, the reinforcing profiles are welded to form a rectangular reinforcing frame which is fixed within the frame module parallel to its smallest side. Optionally, the reinforcing elements may be reinforcing bars, each of which are welded to the inner side of adjacent mutually parallel metal profiles and extending diagonally along at least a portion of one side of a prism formed by the frame module.

Preferably, at least some of the metal base profiles are provided with pre-drilled screw holes for connecting the frame modules to each other and / or fastening the frame modules to the substrate.

From the standpoint of using frame modules for as simple a modular building construction as possible, it is advantageous if the width of the frame module is equal to 312 mm or 625 mm or the whole multiple of 625 mm, further when the depth of the frame module is 100 to 250 mm.

It is also preferred that the metal base profiles are steel profiles and the frame module is galvanized.

Disadvantages of the prior art are also solved by a system of the above-mentioned frame modules, whereby to form the load-bearing structure of the building some of the frame modules are anchored to the substructure to create load-bearing structures of the building walls. The modules are mounted on anchored frame modules to create lintel and lintel lintels and ceilings.

BRIEF DESCRIPTION OF THE DRAWINGS

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic front view of one embodiment of the frame module of the present invention; FIG. 2 is a side view of the frame module of FIG. 1;

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1 is a schematic plan view of the frame module of FIG. 1; and FIG. 4 is a section AA of FIG. 1.

Description of exemplary embodiments

The frame module 1 shown in FIGS. 1 to 4 is formed from twelve metal L-profiles 10, for example L-profiles with 45 mm and 3 mm thick sides, which are welded to each other in the shape of an outer block carcass. The height, width and depth of the frame module 1 is determined by the length of the L profiles 10 used, respectively the purpose of using the frame module 1.

Depending on the purpose and size of the particular module 1, each module 1 may be supplemented with reinforcing elements, for example reinforcing frames 11, which are formed by welding four L profiles and welded or screwed or other fasteners fixed within the frame module parallel to the two smallest sides of the prism formed The frame module 1 may, for example, be provided with four reinforcing frames 11 arranged parallel to each other and spaced apart from one another.

Other possible reinforcing elements are reinforcing bars 12, which are welded to the inner side of the two L-shaped sections 10 so that they extend obliquely along a portion of the imaginary wall of the frame module 1. It is particularly preferred that in each region of the frame module 1 delimited by two adjacent reinforcing frames 11, or even in the region defined by the reinforcing frame 11a with the parallel imaginary wall of the frame module 7, four reinforcing bars 12 are fastened in such a way that one reinforcing bar 12 is arranged along each wall portion of the defined area. The two parallel sides of the frame module 1 in a given demarcated area are non-parallel, while the axes of the reinforcing bars 12 extending in the region along two adjacent sides of the frame module 1 may cross at or near the edge formed by these adjacent sides.

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For example, frame modules 1 having a height of 2650 mm, a width of 625 mm and a depth of 240 mm can be used for the construction of the building wall. These frame modules 1 are positioned and anchored to the substrate side by side and connected to each other by screws and nuts with washers using pre-drilled through holes 7. For example, screws of size M10 are usable. For greater variability in the use of the frame modules 1, i.e. for greater variability, in particular in the ground plan of the building, the frame modules are formed in several other widths, for example half width 312 mm, double width 1250 mm and the like. In the area in which the window opening is to be left, frame modules 1 of reduced height are used, for window lintels other frame modules 1 of reduced height are used, which are of course also applicable to the above-door lintel. Alternatively, the window opening can be created by leaving free space at full height and the lintel is then formed by ceiling frame modules 1, which preferably have dimensions of 1680 mm x 580 mm x 350 mm - in working position the height of frame module 1 forming the ceiling of the building 350 mm. Another suitable dimension for the frame module 1 applicable to the ceiling structure of the building is 5000 mm x 625 mm x 350 mm. Obviously, such large frame modules 1 need to be provided with reinforcing elements, for example seven reinforcing frames 11 and sixteen shorter reinforcing bars 12 and sixteen longer reinforcing bars 12, which are arranged in the manner described above. While the frame modules 1 for building the building walls are preferably formed from L profiles, in the frame modules for the ceiling construction it is suitable to use U profiles at least for the faces of the frame modules 1, that is to say the smaller sides of the box. perpendicularly meet two outer or even inner walls of the building, it is desirable to use a frame module 1 which has a square plan and whose width and depth are equal to the depth of the frame modules 1 forming adjacent walls of the building. For example, the dimensions of the corner frame module may be 2650 mm x 240 mm x 240 mm. Additional frame modules 1 can be attached to the ceiling frame modules 1 in some places to form an attic.

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The frame modules 1 are preferably provided with pre-drilled holes 7 for connecting screws. Alternatively, it is possible to drill these holes 7 as required during the construction of the building.

As mentioned above, the frame modules 1 preferably have a width of 625 mm or whole multiples of 625 mm, corresponding to the width of standardly sold gypsum boards, OSB boards and similar cladding panels. When cladding a structure composed of frame modules 1, there is no need to adjust the width of the gypsum board, which saves time and material. The depth of the frame modules 1 is preferably 100 mm for the inner wall partitions and up to 250 mm for the outer walls of the building. Of course, it is also possible to produce frame modules 1 in other dimensions as required; these dimensions, individual metal profiles and reinforcement elements may be replaced by other dimensions, cross-sections or reinforcement elements depending on the loading of the system elements and the selected material.

The construction of the building of the frame modules 1 according to the invention can be carried out on any suitable level ground, for example on a leveled soil surface, on a gravel embankment with a bearing foundation foot or on a cast concrete foundation slab. Anchoring elements are placed and fastened to this base, in which frame modules are placed according to the required floor plan of the building. Subsequently, the roof frame modules 1 are fixed to the walls of the frame modules 1 over the entire floor plan of the building, on which the wooden slats and roofing can later be fixed. The exterior cladding of the building consists of OSB panels 22, or any wood or cement fiber boards, cetris boards or outdoor gypsum boards, which are fixed to the frame modules 1, for example by means of screws. On the outside of the building, polystyrene insulation boards can be attached to these OSB boards, which can then be coated with lime glue and a silicone façade. The interior of the frame modules 1 is preferably filled with thermal insulation, and the interior of the frame modules 1 is also preferably used for guiding

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installation elements such as water and sewage pipes, wiring and the like. On the inside of the building, the frame modules 1 are covered with a vapor-proof foil and covered with fire-resistant gypsum boards. The frame modules 1 forming the inner wall partitions are coated on both sides with a vapor-proof foil and subsequently fastened to them by means of screws as a lining of a fire gypsum board. The construction of the floor is similar to other buildings and includes, for example, floor cotton or polystyrene, OSB boards on which the desired type of floor covering (carpet, parquet, PVC, floating floor, tiles and the like) can be laid. The ceiling or roof structure constituting the frame modules 1 is also covered by a vapor-proof foil and lined with fire-resistant gypsum plasterboards on the inside of the building, i.e. in the ceiling area.

Construction of buildings from frame modules 1 is time-consuming and financially demanding, offers great variability of ground plan layout, does not require a large range of specialized professional professions, and unlike other modular constructions there is no crane needed to move construction modules. The frame modules 1 as well as the cladding panels or panels can be easily handled by the builder alone or in pairs with the assistant. The builder can design the building himself according to his requirements and needs and even build it himself, while professional workers will only need to carry out the electrical installation, eventually sewerage and water supply. It is also possible to extend the building additionally, modify the floor plan or relocate the interior wall partitions.

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Claims (10)

PATENT CLAIMS A frame module (1) for the modular construction of load-bearing frameworks of buildings, characterized in that it comprises a set of metal base profiles (10) welded together to form an outer carcass of a rectangular rectangular prism whose edges are defined by the metal base profiles (10). Frame module according to claim 1, characterized in that the metal base profiles (10) are L profiles and / or U profiles. The frame module according to claim 1 or 2, characterized in that it further comprises metal reinforcement elements mounted within the frame module (1) parallel to at least one side thereof. Frame module according to claim 3, characterized in that the stiffening elements are stiffening profiles welded in the form of a rectangular stiffening frame (11), which is fixed inside the frame module (1) parallel to its smallest side. Frame module according to claim 3, characterized in that the stiffening elements are stiffening bars (12), each end welded to the inner side of adjacent mutually parallel metal profiles (10) and extending obliquely along at least a portion of one side of the frame module (1). Frame module according to any one of the preceding claims, characterized in that at least some metal base profiles (10) are provided · * ·· • 9 • * · • • • · 99 • · · • • 9 9 • * 9 • • * 9 • • 9 9 • 9 9 9 ^ 9 pre-drilled holes (7) for screws to connect the frame modules (1) together and / or to secure the frame modules (1) to the substrate. Frame module according to any one of the preceding claims, characterized in that the width of the frame module (1) is equal to 312 mm or 625 mm or a whole multiple of 625 mm. Frame module according to any one of the preceding claims, characterized in that the depth of the frame module (1) is 100 to 250 mm and the height of the frame module (1) is 2650 mm. Frame module according to any one of the preceding claims, characterized in that the metal base profiles (10) are steel profiles and the frame module (1) is galvanized. Frame module assembly according to any one of claims 1 to 9, characterized in that to form the load-bearing structure of the building, some of the frame modules (1) are anchored to the substrate for forming the load-bearing structures of the building walls. interconnected by connecting bolts with nuts and washers and another of the frame modules (1) are fastened to anchored frame modules (1) to create lintel and lintel lintels and ceilings of the building.