NL9401278A - Building system for application in semi-permanent construction. - Google Patents

Description

CONSTRUCTION SYSTEM FOR APPLICATION IN SEMI-PERMANENT CONSTRUCTION

The invention relates to a building wall system for use in semi-permanent construction, provided with building wall elements with a profile all around and provided with coupling elements to be fitted in the profile for coupling the building wall elements.

Such a building wall system is known from international patent application no. PCT / NL91 / 00115 (Publication No. WO 92/01124). The known building wall system can be built up from building wall elements which are manufactured from a layer of polyurethane foam material and from parallel concrete slabs, between which the layer lies. In a horizontal or vertical context, neighboring building wall elements are connected by differently shaped coupling elements and concrete slabs.

The drawback of the known building system and the building wall elements is the complex construction method and the relatively expensive production and composition of the known building wall elements.

The present invention aims to avoid the above-mentioned drawbacks.

To this end, the building system according to the invention has the feature that the building wall elements are suitable for forming all walls (walls, ceiling (s), floor (s)), and that the building wall elements are integrally manufactured from the plastic foam material.

The advantage of the building system according to the invention is that it is universally applicable for walls, ceilings, floors and the like, and that building wall elements coupled both horizontally and vertically can also be mutually connected in a uniform manner by means of identically shaped simple coupling elements. and built into a building, such as a house or housing block, school, hospital, etc.

The building wall elements preferably manufactured entirely from the same plastic foam material (e.g. styrofoam; EPS) according to the invention are light in weight, and because of their composition of only one material, the method for their manufacture is particularly simple.

Furthermore, a single-walled construction, that is to say without a cavity, is possible, which makes the construction system according to the invention suitable for semi-permanent or utility construction, and it is very suitable for, for example, the temporary reception of, for example, refugees or the homeless, because it is possible to assemble many shelters in a very short time with the construction system. Examples include the (shell) construction of temporary shelters in earthquake-prone areas or the construction of (temporary) homes in, for example, Third World countries. If desired, a factory can be set up there to produce the plastic foam material on site from the raw material for it. The use of plastic foam material (EPS hard foam) is environmentally friendly and, in combination with the use of wooden coupling elements, can in principle be fully recycled.

In a special embodiment, the building wall elements in the building system according to the invention have a size of approximately 1 meter in length, 0.5 meters in width and 0.2 meters in thickness.

The advantage of this is that building wall elements with such a size form a simplicity or multiple of the surface of, for instance, a window or a door. The omission in the walls of one (or more) building wall element (s) provides the possibility of arranging a window there, while the omission of two stacked construction wall elements with their short side one above the other, the size of a door. form. If desired, of course, 4 or 8 neighboring building wall elements can of course also be omitted for forming a window or door.

It is also an advantage that, when the building wall element is omitted, the contours of the window or door are completely delimited by coupling elements, which are thereby available as a door frame, window frame or connecting means for, for example, hinges and the like.

The present invention, together with the further associated advantages, will be further elucidated with reference to the annexed drawing. In it shows:

Figure 1 shows a preferred embodiment of a building wall element according to the invention for use in the building system according to the invention;

Figure 2 shows a side view of the building wall element of figure i;

Figure 3 shows the manner in which edges of neighboring building wall elements are coupled in detail by means of a coupling element;

Figure 4 shows an alternative to the method of coupling of Figure 3;

Figure 5 is a part of a building, which is built up from building wall elements and coupling elements in accordance with Figure 3/4; and

Figure 6 shows a detailed view at the location of a corner of the building of figure 5.

Fig. 1 shows a perspective view of building wall element 1, which in the shown embodiment has a uniform, closed channel 2 extending over the full circumference of building element 1. The channel 2 is formed as a recessed part, which is arranged along the peripheral edge of the building element 1. The building wall element 1 is integrally made of plastic material, such as styrofoam, also called styropor or EPS (hard foam), or, for example, polyurethane foam. Manufacturing from one and the same plastic foam material is advantageous for quick and simple mass production of building wall elements. The production for manufacturing the elements is therefore simple in design.

The U-shaped channel 2, in the shown embodiment of figures 1-3, having a square cross-section, is located in the perpendicular bisector plane between the outer surfaces 3 and 4 of the element 1.

Figure 3 schematically shows in cross-section the manner in which two neighboring building wall elements 1 and 11 are built up by means of a coupling element 5, after having been placed on top of each other with their short sides or pushed together in the manner shown. In the final situation about half of the coupling element 5 will fall into the channel 2 of the building element 1, while the other half of the coupling element 5 will almost entirely fall into the channel 2 'of the building wall element 1'. If desired, a suitable adhesive can be applied to the various contact surfaces for coupling together. The coupling elements 5 can be arranged as a beam or as a upright on the construction site.

At the construction site, the various building wall elements 1, which are connected to each other by means of the coupling elements 5, are placed on a previously flattened surface. Starting from a flat bottom thus built up from the various building wall elements 1, elements are erected at those places on the bottom, where walls are to be erected, usually after having previously adhered them to the substrate, whereby the desired locations are omitting elements, windows and doors can be formed.

Figure 5 shows a schematic representation of a building consisting of different rooms, the roof of which has been left out to increase the view of the interior of the building. For the purpose of uniform construction, the various building wall elements 1 preferably have a standard size of 1x0.5x0.2 m. After all walls have been built up to, for example, 2 m, a ceiling is assembled from the same elements 1, the different elements of which are again the same coupling elements 5 can be formed into a whole ceiling.

The outer surfaces 3 and 4 of the building element 1 are provided with shallow grooves or slots 6, in which a reinforcement can be provided if desired, in order to make possible the plastering of the surfaces 3 and 4 if desired. This also promotes the stability and cohesion of the coupled elements of the shaped structure.

The building elements preferably made of a white and therefore sun-reflecting foam material have good sound insulation properties and a very good heat and / or cold thermal insulation value. The transverse stability of the construction shown schematically in fig. 3 is more than sufficient, because the corresponding contact surfaces with which the wall element 1 makes contact with the building wall element 1 'via the coupling element 5 or not, as shown in fig. 3. The lightweight construction wall elements also make transport, loading and unloading easy. Furthermore, processing of the building wall element 1 made of plastic foam material is simple. It goes without saying that the bottom, whether or not provided with an armament, consisting of elements 1 can also be filled with sand and / or concrete. Furthermore, it may be desirable to anchor the upright coupling elements in the bottom in an appropriate manner, in order to prevent both the displacement of the formed bottom and the undesired displacement of the walls of a building structure.

The coupling elements 5, which are elongated and have a cross-section adapted to the shape of the channel 2, are manufactured, for example, from: wood, plastic, metal, such as stainless steel, etc. Wood has the advantage of being locally available and easy to process under conditions, as well as being environmentally friendly and recyclable.

Figure 4 shows two building elements 8 and 8 'provided with corresponding dovetail-shaped channels 7 and 71 for interconnecting with the aid of a coupling element 9 provided on two sides with dovetail joints in the embodiment shown. The coupling takes place by sliding the dovetail into channels 7 and 7 '. This has the advantage that no glue is required to establish a firm connection between the building wall elements 8 and 81. If desired, the embodiments of Figures 3 and 4 can be combined into a U-shaped connection on one side of the coupling element and dovetail-shaped connection on the other side. Figure 4 further shows that the grooves 6 have a dovetail, trapezoidal shape. The advantage of this is that by using this shape, even without using a reinforcement, the finishing material applied by the plasterer, after curing, is stuck in the grooves 6 and on the surfaces 3 and 4.

Figure 5 shows a virtually finished building, which is constructed in the manner explained from construction wall elements 1 and coupling elements 5. The styrofoam construction wall elements, which have been omitted from the figure, can be easily adjusted to the desired shape by means of a hot filament. .

Figure 6 shows a detail of a corner in the building of Figure 5. The bottom built up from building wall elements 1 is bounded by a coupling element 5, shown in cross section, which rests against one side of a beam 10. One on the other side of the beam 10 attached and also shown in cross-section, coupling element 5 supports the vertical building wall elements 1 of the left side wall. The front wall containing a window is also supported by a partially shown coupling element 5. By pouring concrete or sand on the bottom, for example, the rigidity and stability of the building are improved.

If, for example, the building element 8 'is omitted, the somewhat constricted coupling element 9 can still serve as a door frame, rafter or frame, or as an attachment point for, for example, hinges and windows.

Claims (11)

1. Building system for use in semi-permanent construction, provided with construction wall elements containing plastic foam material with a profile all around and provided with coupling elements to be fitted in the profile for coupling the building wall elements, characterized in that the building wall elements are suitable to form all walls (walls, ceiling (s), floor (s)), and that the construction wall elements are integrally manufactured from the plastic foam material. Building system according to claim 1, characterized in that the plastic foam material is styrofoam (styropor) or polyurethane. Building system according to claim 1 or 2, characterized in that the profile is at least substantially formed by an internal circumferential channel, preferably with a U-shaped and / or dovetailed cross-section. Building system according to claim 1, 2 or 3, characterized in that the building wall elements have a size of approximately 1 meter in length, 0.5 meter in width and 0.2 meter in thickness. Building system according to one of the preceding claims 1 to 4, characterized in that the coupling elements are elongated, wherein a coupling element can couple more than two building wall elements. Building wall element for use in a building system according to any one of the preceding claims 1 to 5. Building wall element according to claim 6, characterized in that the building wall element is entirely made of the same plastic foam material. Building wall element according to claim 6 or 7, characterized in that the internal channel is of uniform design and is a closed channel extending over the full circumference of the building wall element. Method for the manufacture of a building wall element for the semi-permanent construction according to claim 6,7 or 8, characterized in that they are manufactured from a plastic foam material, preferably styrofoam (polystyrene) or polyurethane. Method for building a building using a building system according to any one of the preceding claims 1 to 5, characterized in that building wall elements are first arranged horizontally on an underlying bottom in order to form a floor, on which edges are coupled elements are fixed for erecting the walls built up from the building wall elements thereon, after which coupling elements are arranged on the walls for coupling the building wall elements forming the ceiling. Building constructed from building wall elements according to any one of claims 1 to 8.