NO810158L - BUILDING ELEMENT. - Google Patents

Description

The present invention relates to a building element.

Usually, an outer wall is built up of building elements of one kind or another or with wooden beams which are then insulated with e.g. mineral wool mats and covered on the outside with metal, panels or other material.

The present invention relates to a building element which significantly facilitates the construction of a wall in that the building element, by its design, significantly simplifies the construction of a wall with conventional properties with regard to k-value, bearing capacity, etc. Furthermore, the present building element is very advantageous to use by building in special areas of the world, as discussed below.

The present invention thus relates to a building element for the construction of residential houses, factory premises, etc., where the element comprises an outer profile and an inner profile closed in cross-section, the short sides of which are attached to the inner surface of the outer profile.

The invention is characterized by the fact that the element comprises an outer profile, closed in cross-section, as well as an inner profile, closed in cross-section, the short sides of which are attached to the inner surface of the outer profile, and in that the long sides of the inner profile are essentially parallel to the long sides of the outer profile, whereby the a torsionally and flexurally rigid element is formed where three essentially parallel chambers are formed.

The invention shall be described in more detail below in connection with the attached drawing, where

fig. 1 shows a longitudinal view of an element according to the invention,

fig. 2 shows a cross-section along the line A-A i

fig. 1,

fig. 3 shows a cross-section according to fig. 2 through a number of joined elements.

In fig. 1 and 2 show a building element 1 according to the invention. In fig. 1 shows a longitudinal view of element 1. The elements are preferably made with floor height or with another desired height. In fig. 2 shows a cross-section along the line A-A in fig. 1 where the element is rotated 180° compared to the one in fig. 1 shown figure.

The building element 1 can be used for the construction of all kinds of buildings such as residential houses, factory premises, etc., and also for the construction of so-called noise screens and walls between piles with pile cover.

The building element 1 comprises an outer, cross-sectionally closed profile 2 and an inner, cross-sectionally closed profile 3 whose short sides 4,5 are attached to the inner surface 6 of the outer profile 2. The long sides 7,8 of the inner profile 3 are mainly parallel to the outer profile .2 long sides 9,10. This means that element 1 is exceptionally torsionally and flexurally rigid. Furthermore, an element 1 is obtained with three essentially parallel chambers 11,12,13.

The building element 1 according to the invention is preferably produced in a manner corresponding to the method specified in the Swedish patent no. 7714137-2, namely by wrapping paper, preferably kraft paper, on a core which is designed with straight or convex parts around its circumference, following that the paper is provided with a layer of glue.

This creates a very strong box-shaped body with a closed profile, seen in cross-section.

In this way, the outer 2 or the inner 3 profile separately after which the two profiles 2,3 are joined, preferably by gluing to those in fig. 1,2,3 displayed items.

Of course, the building element can be partially or completely made of another material.

Producing the element 1 from kraft paper in the manner indicated above, or from a material with similar properties, has the particular advantage that the element 1 has a very high toughness combined with high bending and torsional stiffness.

This advantage is particularly noticeable with regard to construction in areas where earthquakes occur. Furthermore, the elements are cheap to produce.

The fact that the element 1 is provided with three chambers 11,12,13 implies great advantages. For building in a Nordic climate, the outer chamber 13 or the middle chamber 12 is intended to form a mold for concrete... The concrete 14 gives a very high strength to the element. Of the remaining two chambers 12,11 resp. 13,11, one is used for insulation purposes and the other for e.g. pipe penetrations 16 etc. In fig. 3 shows an embodiment of the above at element 100 and an embodiment at element 101. The insulation 15 can consist of mineral wool or other suitable insulating material.

When there is no need, in terms of strength, for casting concrete in the element, the outer chamber is appropriately supplied with a heavier insulation 16 and the inner chamber with a lighter insulation 17 as shown in element 102 in fig. 3. The middle chamber 12 is thereby empty, and thus provides good insulation both against heat and cold and against sound.

In developing countries, the insulation materials can consist of local materials, such as e.g. growth parts.

A very valuable adaptation of the present invention is building in desert areas. Here, e.g. storey high building elements 1 after which one or two of the chambers 11,12,13 are filled with sand. The sand's high specific heat results in very good heat equalization during the day. The weight of the sand means that the building stands up very well against strong sandstorms.

As can be seen from the above with regard to adaptations, it is a very big advantage of the building element according to the invention that it can be used in an optimal way from the point of view of geographical local needs and conditions with regard to material and insulation. Of course, the outside 18 of the building element 1 can be provided with cladding, e.g. boards or are provided with plaster or other facade material.

As can be seen from fig. 3, the outer profile's 2 short sides 19,20 form an angle with each other in cross-section. For-

OE OE

incrementally, the angle is 60' to 90', but may be less.

This provides a large contact surface between two adjacent elements, which means that the joint between the elements and if the elements are glued together, becomes strong.

In fig. 2 and 3 show an embodiment of the element 1 (102) where the longer 10 of the outer profile's long sides is outwardly convex. The design provides an outer wall 18 which is strong against indentation. The element 101 has a corresponding design of the shorter 9 of the long sides 9,10.

The invention can be varied in a number of ways. Thus, the outer and inner profiles can be given a different shape than that shown in the drawing without deviating from the idea of the invention.

The invention is thus not to be considered limited to the above stated embodiments as it can be varied within the framework of the following claims.

Claims (4)

1. Building element for the construction of residential houses, factory premises, etc., where the element (1) comprises an outer profile (2) as well as an inner cross-section closed profile (3), whose short sides (4,5) are attached to the outer profile (2) inner surface (6), characterized in that the outer profile (2) is closed around an inner profile (3) and that the long sides (7,8) of the inner profile (3) are essentially parallel to and located at a distance from the outer profile (3) long sides, whereby a torsionally and flexurally rigid element is formed where three essentially parallel lying chambers (11,12,13) are formed. 2. Building element according to claim 1, characterized in that the short sides (19, 20) of the outer profile (2) in cross-section form an angle with each other, preferably an angle of 60v'-90". 3. Building element according to claim 2, characterized in that the shorter (9) or the longer (10) of the outer profile's (2) long sides (9,10) are outwardly convex. 4. Building element according to claim 1, 2 or 3, characterized in that the element (1) is made up of a large number of layers of kraft paper where each layer is glued to the surrounding layer.