SE463775B - Building element - Google Patents

Abstract

A building element serving as both a support element and a casting form, and comprising self-supporting insulation panels stood on edge and arranged at a distance from each other, with the space between them filled with concrete. The building element 2 extends vertically, and without division, across at least one basement floor or ground floor and comprises at least one vertical concrete column B3 surrounded by the insulation panels 2a, 2b and, arranged between these, insulation elements 4. <IMAGE>

Description

This and other objects of the invention are fulfilled in that the building element has obtained the features stated in the characterizing parts of the claims.

Figure description Fig. 1 is a perspective view of a basement house, the lower floor of which is built up of building elements according to the invention, Fig. 2 is a perspective view of one of the building elements in Fig. 1, and Fig. 3 is a section of the building element according to the line III - III in Fig. 2, which building element is shown mounted in connection with a base plate, for example in the housing shown in Fig. 1.

Preferred embodiment A basement house 1 consists of an upper floor 19 and a lower floor 1b. The lower floor 1b is built up of a plurality of wall elements 2 according to the invention. Suitable height is about 270 cm, and width about 120 cm and total thickness about 25 cm for all elements 2.

Each element 2 consists of two identical insulating sheets 2a and Zb of some suitable, moisture-insensitive, durable plastic material, such as styrene cellular plastic. The insulating discs Za and Zb are kept at a suitable predetermined distance from each other by a suitable number and suitably distributed conventional spacer elements 3, which are schematically shown in Fig. 3.

The space between the insulating boards 2a and 2b is intended to be filled with concrete, as described below, however, insulating plates are fastened (suitably glued) between the insulating boards, for example of the same material as the insulating boards Za and 2b and with a thickness corresponding to the distance between the insulating boards. Three such tiles 4a, 4b and hc are shown in Fig. 2. The tile 4b has an area approximately corresponding to the area of a (basement) window F, and the tiles ha and 4c each have an area corresponding to half a basement window_F1 + F2.iAll 10 25 30 35 f:, '^ “f F: = - OI lt * - \ .. |' The height of 3 tiles 4 is the same. The side edges of the plates 4a and 4c facing each other are in line with the side edges of the insulating boards Za and 2b, and there is a distance between the plate 4a and the plate 4b respectively. between the plate 4b and the plate 4c. The insulating boards Za and Zb are bevelled at their lower edges, otherwise they have a constant thickness. The insulating boards Za, Zb and the plates 4 assembled with the spacer elements 3 between these form prefabricated wall elements.

After a plurality of wall elements 2 have been placed next to and against each other in the manner shown in Fig. 1 on a gravel bed or other surface and braced up in a suitable manner and the joints between the elements have been sealed, concrete is poured from above between the insulating boards 2a and 2b. After burning, this supporting element for the resting spaces between them forms the concrete the rest of the housing 1, which supporting element consists of a lower concrete slab or beam B1, with enlarged resting bottom part between the insulating boards 2a and 2b beveled towards the substrate, a upper, horizontal concrete beam B2 and two concrete pillars B3 extending between these beams. In the area of the insulating plates 4, the concrete has not penetrated.

The building elements 2 described above and shown in connection with Fig. 2 are each intended to be below ground level with their lower part corresponding to the height of the lower concrete slab B1 and with their upper part corresponding to the total height of the concrete columns B1 and the upper concrete beam BZ above ground level. The lower concrete slab can then have a height of about 190 cm and the upper concrete beam a height of about 20 cm. These heights can of course vary and be adapted to different conditions. the part of the element is located above ground level, which If the whole element or the larger one is the case for the elements shown on the far right in Fig. 1, the concrete pillars are suitably made high and the lower concrete slab low. The undersides of the wall elements 2 suitably rest on a flat gravel bed and not necessarily on a cast 10 ZÛ 25 3D 4 base plate. It is advantageous that, if a cast base plate is to form a floor, first raise and pour concrete into the elements 2 and, after the concrete has burned, first lay a marble insulation 5 inside the elements and then cast a bottom plate 6 of concrete on top of the marque insulation. , so that the side edge of the plate f D supports the outer side of one of the insulating sheets of the wall elements 2, whereby the bottom plate is cast without a special shape and is also insulated in its edge areas. This is shown in Fig. 3. Alternatively, a croft floor layer can replace the base plate and awning insulation. The outer insulation boards Za located above ground level can be polished if desired.

It is further suitable to reinforce the wall elements 2 by inserting reinforcement bars vertically in the spaces of the concrete pillars B3, which bars also extend through the lower concrete slab B1 and possibly through the upper concrete beam BZ and / or horizontally in the latter slab and the latter beam. These horizontal bars can extend over several wall elements.

To increase the degree of insulation, the vertical concrete columns can be made as thick as the distance between the insulation boards 2a, Zb and extend from the upper horizontal concrete beam B2 to a low, lower horizontal concrete beam and insulating plates of any height are arranged between these horizontal concrete beams. which insulating plates can either have the same thickness as the distance between the insulating boards Za, Zb (and be formed in one piece with these) or can be thinner than this distance so that a very thin lower concrete slab is formed between the concrete pillars. Irrespective of the thickness of the insulating plates 4, these can be formed in one piece with the insulating sheets Za, 2b or be glued to them. Also, not all spaces intended for concrete pillars need to be filled with concrete, for example when you later wish to occupy windows in these places. mi'

Claims (7)

10 15 20 25 30 5 163 772 PATENT REQUIREMENTS Building elements serving as both supporting elements and molds and comprising edge-set, self-supporting insulating boards arranged at a distance from each other with the space between them filled with concrete, the building element (2) extending undivided vertically over at least one basement. or ground floor and comprises at least one vertical concrete pillar (B3) surrounded by the insulating boards (Za, Zb) and insulating elements (4) arranged therebetween, characterized by a horizontal concrete beam (B1) extending along the entire lower part of the building element the said concrete pillar (B3). Building element according to claim 1, characterized in that a horizontal concrete beam (B2) extending along the entire upper part of the building element is connected to the said concrete pillar (B3). Building element according to Claim 1 or 2, characterized in that the height of the lower concrete beam (B1) constitutes a substantial part of the height of the building element and essentially corresponds to the part of the building element which is located below ground level. Building element according to one of the preceding claims, characterized in that at least a part of the thickness of the lower concrete beam (B1) perpendicular to the insulating boards (Za, Zb) is equal to or thinner than the thickness of the column (B3). Building element according to one of the preceding claims, characterized in that the lower surface of the lower concrete beam (B1) rests on the ground surface and preferably has an area which is larger than the cross-sectional area of the lower concrete beam at its upper part. Building element according to claim 5, characterized in that a drawn surface at a distance from its lower edge abuts against a horizon of one side of the insulating board (Zb) on one side of the concrete slab (6). 6) and an underlying insulation (5). Building element according to one of the preceding claims, wherein the number of pillars is at least two, characterized in that an insulating element (4) with a thickness corresponding to the distance between the insulating boards (Za, Zb) is fixed between them, preferably by gluing, and that any insulating elements on either side of the said insulating element extend to the side edges of the insulating sheets. IJ '