NO152143B - EASY BUILDING ELEMENT - Google Patents

Description

The present invention relates to a profiled light building element and the distinctive feature of the element according to the invention is as stated in the patent claims.

The building element is designed for residential buildings, office buildings, factories, warehouses and operational buildings.

For many years, plate-shaped and other "sandwich" constructions with e.g. covering, load-bearing, insulating and decorative properties with external layers or sides of plastic, concrete, plaster or wood laminated to a core of insulating material or other materials.

Weight, format and a limited number of variants have been the primary obstacles to widespread use of such elements. Profitability has often been limited to larger projects.

The purpose of this invention is to use modern material technology and insulation materials to produce^

"load-bearing building elements with high insulation,

with finished surfaces and low weight".

Format and weight must allow transport bg assembly without expensive equipment. The cross-section can advantageously be 20 x 20 cm and the length 1-5 metres.

Surfaces, colors and dimensions make the elements suitable for many types of buildings and architecture.

The building elements can be used for foundation walls, load-bearing walls, facades, intermediate walls, superstructures and in floor partitions and stairs.

The invention comprises a profiled light building element consisting of at least one insulating core element which is partially enclosed by at least two cover elements which are attached to the core element and protect it. The profiled cover elements give the building element its load-bearing strength.

The distinctive feature of the building element according to the invention is that it is composed of a core element consisting of one or more insulation materials and at least two cover elements designed as shallow channel profiles with webs and flanges, where the outer width dimensions of the flanges are at least 1.2 times the thickness of the web and the distance between the flanges of two opposite cover elements is at least equal to the sum of the width measurements of the two flanges.

The cover elements advantageously consist of concrete and/or reinforced concrete in the form of shallow channel profiles which therefore do not completely enclose the core element. This prevents cold bridges.

For an easier understanding of the invention, reference is made to the more detailed presentation in Figures 1-6 with exemplary and/or preferred embodiments.

Fig. 1 shows a section through a building element comprising an insulating core element 1, which is advantageously rigid and which is partially enclosed by and firmly attached to two thin-walled, profiled cover elements 2 with a shallow channel cross-section.

The building elements are designed so that they can be built on top of each other for walls or used in floor constructions, roofs and stairs. As the elements are advantageously load-bearing, trusses or other load-bearing structures can often be spared.

The profiled cover elements consist of a web 2a with an extension at each edge in the form of flanges 2b. The thickness of web 2a depends on the choice of material and the load the building element must be subjected to.

The flanges 2b form contact surfaces, attachment surfaces and sealing surfaces against other elements or building parts. The flanges' task is also to absorb compressive, bending and tensile stresses. Their shape, dimensions and any reinforcement are adapted to fulfill these tasks under different loads.

If the insulating core element 1 does not have sufficient strength to bind the cover elements 2 together or it is necessary for building engineering reasons that the cover elements 2 are more firmly connected, they can advantageously be connected to each other with wires, rods or nets of steel or other material indicated by 4 in fig. . 2.

If insulating materials with low binding strength are used in the core element 1, the cover elements 2 can be bound together with fixed "bridges" of concrete, wood or other material between the flanges 2b without such an embodiment being shown in particular.

The insulating element, core element, can consist of one or more materials that are given shapes and dimensions according to requirements for, among other things, insulation, the size of the building element and the shape of the flanges, the thickness of the covering elements, reinforcing ribs, need for channels between the flanges, etc.

The choice of insulation materials is determined by binding strength, resistance to moisture, fire, insects, age resistance and dimensional stability,

Advantageously, the core element 1 does not fill the space between the flanges 2b. The horizontal channels y fig. 3-6 which thereby arises can be used for several purposes.

Cotton wool is normally placed in the ducts to seal between the building elements. At the same time, they can be used for horizontal piping. Blocks and planks for attaching door and window frames are glued between the flanges in the channels.

The channels make it possible to connect the flanges with "bridges", i.e. blocks of concrete, wood or other material which are cast or glued between the flanges in order to thereby establish a fixed connection between the cover elements 2 as described above when e.g. the core element 1 has too little binding strength.

In order for the building element to have the lowest possible weight and at the same time high strength, one or both deck elements 2 can be reinforced with ribs 5, fig. 3 which are preferably partial thickenings of life. The width, depth and distance between the ribs depends on the load the building element is to be subjected to. Another way to reinforce the building element is to insert a third stiffening element 6 inside the core element 1 in addition to the two outer cover elements 2, as shown schematically in fig. 4. The third element also has flanges 6b and can be reinforced with ribs (not shown) in the same way as the cover elements.

Tensile stresses in building elements used over openings and as floor dividers can advantageously be taken up by reinforcement 9 in the lower flange 2b as indicated in fig. 5.

In pressure-stressed constructions such as e.g. a foundation wall is the building element's one covering element 2a thickened and possibly reinforced 10, fig. 6.

During the construction of walls, it is advantageous to join the elements in a cement-based adhesive. The joints become narrow and are easy to correct.

The wall rafters do not require regular plastering. The building elements can be given surfaces for painting and wallpapering or delivered with fully finished surfaces that can be painted or coated with tiles, brick, acrylic etc.

Houses built from such building elements are significantly more resistant to fire or water leaks than wooden houses or houses insulated with cardboard and mineral wool. The elements have a high insulating capacity and negligible thermal bridges.

The houses become stuffy and warm.

Construction time, labor costs and subsequent maintenance can be significantly reduced.

Claims (7)

1. Profiled lightweight building element consisting of at least one insulating core element which is partially enclosed by at least two cover elements, characterized in that the building element is composed of a core element (1) consisting of one or more insulation materials and at least two cover elements (2) designed as shallow channel profiles with webs and flanges, where the outer width dimensions of the flanges (2b) are at least 1.2 times the thickness of the life (2a) and the distance between the flanges (2b) of two opposite cover elements (2) is at least equal to the sum of the width measurements of the two flanges, as the shallow channel profiles thus partially enclose the core element. 2. The building element as specified in claim 1, characterized in that the cover elements (2) are attached to the core element (1) and/or the cover elements are interconnected with wires, rods or nets (4), or with connecting blocks of wood, concrete or other material. 3. Building element as specified in claim 1 or 2, characterized in that one or both of the covering elements (2) in the building element are reinforced with ribs (5), preferably in the form of partial thickenings of the web (2a), as the dimensions of the ribs (5) and mutual distance is determined by the load the building element is to be subjected to. 4. Building element as stated in claims 1-3, characterized in that it is reinforced with a third stiffening element (6) inside the core element (1) to relieve and supplement the two cover elements (2), this element (6) also has flanges (6b) and can be reinforced with ribs. 5. Building element as specified in claims 1-4, characterized in that the core element (1) does not fill the space between the flanges (2b) of two cover elements (2) or the spaces between these flanges and a third stiffening element (6) on at least one side of the building element so that a channel or channels (y) are formed. 6. The building element as specified in claims 1-5, characterized in that the building element's flanges (2b), preferably those on the underside, are reinforced (9). 7. Building element as specified in claims 1-6, characterized in that the web (2a) of at least one of the covering elements is thicker and/or reinforced (10).