NL192687C - Building. - Google Patents

Description

1 192687

Building

The invention relates to a building, such as a house, a school, a hospital or the like, which is mainly composed of building elements comprising inner and outer plates, which are each provided with folded edges along the periphery, which building elements are coupled with connecting means which comprise substantially U-shaped coupling members and connecting members for coupling the inner and outer plates of the building elements.

From French patent application FR-A-2.474.615 it is known to connect building elements to each other by using a substantially U-shaped coupling member in which bent edges of the inner and outer plates of these building elements fit. For a play-free fastening of the plates of adjacent building elements it is necessary to insert elastic connecting elements in a cavity formed by said U-shaped coupling member. This known construction therefore suffers from the drawback that relatively complicated operations are required for assembling a construction from a number of construction elements, wherein, moreover, the construction is less stable due to the elastic elements used.

The object of the invention is now to provide a building that can be easily assembled from separate building elements, this composition being simple in nature, but nevertheless providing a stable and strong construction without the need for externally attachable finishing elements, with which the construction according to the invention is also considered suitable for permanent buildings.

According to the invention, the construction is characterized for this purpose in that the bent edges of the inner and outer plates have at least a double conversion, each edge together with the main surface of the plate in question defining a U-shaped gutter, in that the free leg of the U-shaped trough is profiled, with a deflection towards the plane of the plate being arranged near the end of this leg, in that the connecting members comprise symmetrical coupling pieces which, on a first side on either side of a symmetry axis, are in the profile of the free leg of the U-shaped gutter have a matching counter-profile and bulges on a second side opposite the first side, and because at least two substantially U-shaped coupling members can fit clampingly around the free legs of the coupling of adjacent building elements the U-shaped gutters of the adjacent building elements and the coupling piece placed against them.

30 Such a building can be built quickly and easily without special expertise.

It is preferred that the legs of the substantially U-shaped coupling members have an unequal length, and that during mounting one end of the longer leg is suitable for placement in the U-shaped channel against the free leg thereof in a the profiling of the free leg shaped groove. This facilitates construction of the structure since the coupling member can, as it were, pivot with the longer leg in the groove of the free leg of the U-shaped gutter, whereby a defined positioning of this coupling member is obtained.

It is noted that from Dutch patent application 8204121 coupling members with equal legs are known, which can be placed in grooves formed by a profiling in a leg of such a U-shaped gutter. However, these serve to fix the coupling members at the intended location and have no hinge function.

A preferred embodiment of the building according to the invention is characterized in that each coupling piece on the second side is provided with a substantially T-shaped projection, and in that for the coupling of a first coupling piece connecting the outer plates of adjacent building elements to a second coupling piece connecting the inner plates of these adjacent building elements, a box section 45 is provided which has grooves on its opposite outer sides to receive the T-shaped protrusions of the first and the second coupling piece to form a dovetail joint. This supports the stability of the construction while the connections between the coupling pieces and the box profile can be easily realized in this way.

It is noted that dovetail joints and box sections are known per se from British patent GB-A-1,013,451. In this publication, however, such dovetail joints serve the connection between the inner and outer plate of a building element, while in the construction according to the invention the dovetail joints between the coupling pieces and the hollow box section additionally provide the coupling of adjacent building elements.

The building according to the invention is further preferably characterized in that each box section extends along approximately the entire side of the building elements coupled thereto and in that a cross coupling is provided at the intersection of four such building elements, the arms of which fit into the adjacent box sections. On the one hand, this supports the stability of the construction according to the 192687 invention, while the use of the universal joints makes it unnecessary to finish the transitions between adjacent building elements.

The invention is also embodied in the various loose elements from which the building according to the invention is built up, as stated in claims 5-8.

5

The invention will be explained below with reference to the drawing, which shows an exemplary embodiment of the building according to the invention. In the drawing: figure 1 shows a schematic side view of an embodiment of the building according to the invention, figure 2 a horizontal section of the building from figure 1, figure 3 a schematic side view of a part of the wall of the building according to the arrow lil in figure 2, on a larger scale, with different parts shown separately, figure 4 a larger scale, perspective view of a universal joint, which is part of the building from figure 1, figure 5 the detail V from figure 1 again on a larger scale, figure 6 the manner of fitting a coupling member, figure 7 the detail VII from figure 1 on a larger scale.

Figures 1 and 2 show a building 1 in side view and horizontal section, respectively. The building is mainly composed of mutually equal square plates 2, which are combined two by two into building elements 3, as can be seen from the details shown in cross section in Figures 5 and 7. For this purpose, each plate 2 is provided along the periphery with bent, cross-section L-shaped edges 4, which define a U-shaped channel 5 with the inside of the associated plate 2.

Between the free legs 6 of the opposite L-shaped edges 4 of the two plates 2, which form part of the same building element 3, coupling elements are indicated as a whole with 7, which are likewise in the building elements adjacent to this building element 3 are included. Coupling members 8 connect the coupling elements 7 to the plate 2 of adjacent building elements 3, so that the coupling members 8 and the coupling elements 7 together connect both the two plates 2 of one building element 3 and adjacent building elements 3.

Figure 3 shows that connecting members 9 are included in the coupling elements 7, which run parallel to and over at least about the entire length of the side of the relevant building elements 3. At the intersections of adjacent building elements 3, universal joints 10 are provided, which connect the connecting members 9 meeting at these intersections. To this end, the universal joints 10 are formed with arms 11 (figure 4), which engage in the connecting members 9. The ends of the connecting members 9 herein rest against the shoulders 34 on the universal joint 10. The center 35 of the universal joint 10 seals the wall composed of the building elements 3 at the junctions between the building elements 3. By providing these universal joints 10 a very stable construction of the walls of the building composed of the building elements 3 is obtained.

As can be seen from Figures 5 and 7, each coupling element 7 consists of two coupling pieces 12, which are connected to each other on their side facing the central plane of the respective building element 3 by the connecting member 9. Each connecting member 9 is formed by an at least approximately square box section, which is provided with flanges 13, which form dovetail-shaped longitudinal grooves 14 running on the longitudinal sides of the connecting member 9. Flanges 15 of the two coupling pieces 12 of the coupling element 7 engage in two opposite longitudinal grooves 14, whereby the coupling pieces 12 are connected to the connecting member 9.

Each coupling piece 12 has two coupling parts 16, each of which is clamped between the free leg 6 of the L-shaped edges 4 of the plates 2 of adjacent building elements 3 and the associated coupling member 8. The free legs 6 of the L-shaped edges 4 and the coupling parts 16 of the coupling pieces 12 are provided with two complementary grooves and ribs. The coupling pieces are provided on their side facing away from the flanges 15 with projecting strips 17 which are formed between the two coupling parts 16. In the assembled condition of the building, these strips 17 are clamped between the mutually facing parts of the L-shaped plate edges 4 of adjacent building elements 3. As a result, a play-free firm connection between adjacent building elements 3 is achieved. Preferably holes are formed in the coupling pieces 12 in the longitudinal directions thereof, in which stiffening bars 18 are arranged 55.

Figures 5-7 show that coupling members 8 engaging on the coupling parts 16 of the coupling pieces 12 and on the free legs 6 of the L-shaped edges 4 consist of substantially U-shaped profile pieces, of which

Claims (8)

A building, such as a house, a school, a hospital or the like, which is substantially composed of building elements comprising inner and outer plates, each of which has circumferential edges along the periphery, which building elements are coupled with connecting means which mainly U-shaped coupling members comprise and connecting members for coupling the inner and outer plates of the building elements, characterized in that the flanged edges {4, 6) of the inner and outer plates 192687 4 have at least a double conversion with each edge being together with the main face (2) of the relevant plate, a U-shaped trough determines that the free leg (6) of the U-shaped trough is profiled, with a projection (23) near the end of this leg towards the plane of the plate is provided, that the connecting members (7) comprise symmetrical coupling pieces (12) which on a first side on either side of a symmetry axis and in the profile of the free leg (6) of n the U-shaped gutter have a suitable counter-profile and thickenings (21) on a second side opposite the first side, and that at least two substantially U-shaped coupling members (8) can be clamped for coupling adjacent building elements fit around the free legs (6) of the U-shaped gutters of the adjacent building elements and the coupling piece (12) placed against them. Building according to claim 1, characterized in that the legs (19, 22) of the substantially U-shaped coupling members (8) have an unequal length, and that one end of the longer leg (22) is suitable for mounting is for placement in the U-shaped trough against the free leg (6) thereof in a groove (25) formed by the profiling of the free leg (6). Building according to claim 1 or 2, characterized in that each coupling piece (12) is provided on the second side with a substantially T-shaped protrusion, and that for the coupling of a first coupling piece that the outer plates of adjacent building elements connects to a second connector connecting the inner plates of these adjacent building elements, a box section (9) is provided which has grooves on its opposite outer sides to receive the T-shaped projections of the first and second connectors to form of a dovetail joint. 3 192687 a number are regularly arranged along the length of three sides of the building elements 3. One leg 19 of the coupling members 8 has an inwardly curved end edge which forms a V-shaped groove 20 with the other part of the leg. In the assembled state of the building, a complementary rib 21 formed on the respective coupling part 16 engages in the V-shaped groove 20 of the leg 5 19 of the coupling member 8. The other leg 22 which fits on the free leg 6 of the L-shaped engaging edge 4 also has a V-shaped groove 20 which meshes with a complementary rib 23 of the free leg 6. However, the leg 22 of the coupling member 8 is longer than the opposite leg 19 and has an inwardly bent end 24, which can engage in a groove 25 of the free leg 6 of the L-shaped edge 4. Figure 6 illustrates the manner of arranging a coupling member 8. During the installation of this coupling member 8, the curved end 24 of the long leg 22 of the coupling member 8 engaging in the groove 25 serves as a pivot point during a pivoting movement of this coupling member 8. First of all, the long leg 22 of the coupling member 8 is placed on the free leg 6 of the L-shaped edge 4, after which, for example, a force is exerted on the coupling member in the direction of the arrow with a hammer, the inwardly bent end edge of the leg 20 is brought over the rib 21 of the coupling part 16 of the coupling piece 12. The coupling member 8 pivots here about the free end of the long leg 12. In this way, the coupling members 8 can easily be arranged. Figure 7 shows the connection of building elements 3 at the corners of the walls of the building. This connection is provided by a tubular profile 26 extending along the length of the side of the adjacent building elements 3, which is formed on two adjacent longitudinal sides with a flange 27, which in the dovetail-shaped longitudinal grooves 14 of the respective connecting member 9 facing the tubular profile 26. grabs. The end faces of the free projecting coupling parts 16 of the coupling elements 7 bear against the adjoining side of the box profile 26, so that a play-free connection is obtained. A stiffening element 28, which runs along its entire length, is arranged in the mutually aligned box sections 26 at a corner of the building, so that a rigid corner connection is effected. At the location of the box profiles 26, arc-shaped cover pieces 36, 37 can be provided on the inside and outside of the building 1, if desired. A honeycomb structure 29 can be provided on the inner surface of the plates 2, which, with only a very small increase in weight, produces a considerable stiffening of the plates 2. The honeycomb structures 29 can be covered on their side facing the interior of the respective building element 3 by a layer of insulating material 30. It is further possible to apply an electric heating element 31 to the inner surface of the plate 2 of a building element 3 located on the inside of the building, which element is also provided on the side facing the interior of the relevant building element 3 by a layer of insulating material. 30 is covered. In this way a wall heating is created, while these walls also have a particularly high insulation value. Furthermore, the remaining space between the two plates 2 of a building element 3 can be filled with an insulating material (not shown). It is also possible to design the plates 2 without the insulating layers 30 and to fill the space between the two plates 2 of a building element 3 during the erection of the building with 40 insulating material. The plates 2 can be made of a metal or a plastic. In practice, good results have been achieved with plates made of aluminum. The coupling pieces 12 preferably consist of rubber. Because the connection between the plates 2 of a building element 3 only takes place via the rubber coupling pieces 12, no cold bridge can be formed between the two plates 2 of a building element 3, so that heat leaks are prevented. Figures 1 and 2 schematically indicate that in the building 1 a central spindle 32 is mounted, which has been led out through the roof. Building 1 can be easily ventilated via the spindle 32. 50 Building according to claim 3, characterized in that each box section (9) extends along approximately the entire side of the associated building elements (3) and that at the intersection of four such building elements (3) there is a universal joint (10). provided whose arms (11) fit into the adjacent box sections (9). Coupling piece (12) as described as part of the building according to any one of claims 1-4. Coupling member (8) as described as part of the building according to any one of claims 1-4. Box section (9) as described as part of the building according to any one of claims 1-4. Universal joint (10) as described as part of the building according to any one of claims 1-4. Hereby 4 sheets drawing