FI97634B - Building elements - Google Patents

Description

- 97634

The building element

The invention relates to a building element as set out in the preamble of appended claim 1.

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Lightweight walls, e.g., partitions, have hitherto been generally constructed of brick masonry or plasterboard. When bricklaying, the partition becomes heavy, and the work requires a professional (mason). When making 10 walls of gypsum board, the skill of a carpenter is again required. Em. in addition, building materials are heavy to transport and methods are dusty and messy during construction. In addition, when the above-mentioned structures are dismantled, the material can no longer be utilized, but they end up as waste in landfills.

Swiss patent publication 613486 and British patent publication 1157682 disclose building elements made of molded plastic, a kind of plastic brick, which can be quickly superimposed to build light walls, e.g. partitions. Plastic bricks can be superimposed by means of locking recesses and projections at their upper and lower edges. In addition, 25 passes vertically through the bricks from a cavity formed between the transverse support ribs, i.e. the connecting parts, connecting the vertical outer surfaces of the bricks. The cavity can be used to place various parts, such as cabling, inside the wall.

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Because the elements are made in one piece by casting into a mold, the manufacturing technique used limits their design possibilities. On the other hand, casting into a mold is the only economically viable method of manufacturing lightweight plastic elements. The formation of the support rib requires a lot of mold technology, as it 97634 2 must take into account the emissions necessary for the removal of the casting, etc. This limits the possibilities of using an otherwise practical plastic element in the construction of light non-load-bearing walls.

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The object of the invention is to provide a new type of building element which has no limitations due to the prior art. To achieve this purpose, the building element 10 according to the invention is mainly characterized by what is set forth in the characterizing part of the appended claim 1. The building element consists of two halves, which are joined together to form elements, the structure of the inner part of which is not limited by casting technology. 15 Each half has a flat surface forming the outer surface of the element and inside it the parts forming the internal structure of the element. By joining the element halves together, the outer surfaces remain outer and said inner parts joined together form the desired inner part structure. In this way, very practical structures are obtained which would not be possible with normal plastic molding technology or which would at least require complex mold technology to implement them.

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For other preferred embodiments of the invention, reference is made to the appended dependent claims 2-6 and the following description. 1

II

The invention will now be described in more detail with reference to the accompanying drawings, in which Figures 1a-e show the first half of an element, Figures 2a-e show the second half of an element, Figures 3a-b show halves and elements joined from below and in front, and Figure 3 97634 connected elements in vertical section.

5 Figures 1a-e show the first half of the element A from below (Fig. 1a), from the side (Fig. Ib), from above (Fig. Le), from the end (Fig. Id) and in vertical section (Fig. Le). The half has a flat outer surface 1a which forms the wall surface of the finished structure. From the rear surface on the other side of the outer surface 10a, which forms the inner surface of the hollow element, protruding portions 2a protrude at the edges of the half. In the cases shown in Figures 1a-e, the connecting parts 2a are located at the upper and lower edge of the uniform wall formed by the outer surface 1a and the inner surface. These connecting parts 2a are L-shaped in a direction perpendicular to the main plane of the element half (the plane of the outer surface 1a), so that one branch is parallel to the upper or lower edge of the half and the other branch is oriented perpendicular to it in the middle-20. In the case shown in the figures, the half A has in each corner one angular connecting part 2a in the above-mentioned manner, and in addition there are other connecting parts 2a between them at the upper and lower edge of the element. 1 2 3 4 5 6 7 8 9 10 11

As best shown in Fig. Ib, the free ends of the connecting parts 2a 2 have recesses 6a, 3 parallel to them, which are located on the outer edge side of the half of the connecting part 2a. The purpose of this becomes clear when looking at the second half 6B of the element illustrated in Figures 2a-e, seen from below (Figure 2a), from the side (Figure 2b), from above 7 (Figure 2c), from the end (Figure 2d) and in vertical section 8 (Figure 2e). ). The structure of this half B is otherwise 9 similar to the structure of the first half A and is 10 mirror-symmetrical with the first half A, 11 but in this second half B the free ends of similarly shaped and co-located connecting parts 2b have tongues 6b parallel to the above-mentioned recesses. 6a 97634 4 with the longitudinal directions, and the recesses 6a and the tongues 6b are located in the main planes of the element halves A, B at the same point.

5 When the element halves A and B are placed opposite each other so that the connecting parts 2a and 2b point towards each other in the recesses 6a of the connecting parts 2a of the first half A in the connecting parts 2b of the second half B. Figures 1a-c and 2a-c also show the weakening points 8a, 8b in the above-mentioned overlapping parts of the connecting parts 2a, 2b, which facilitate the fastening of the ends of the connecting parts to each other, e.g. by some fastening member piercing the material of the ends.

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In addition, the upper edge of each element half A, B, i.e. the second longitudinal edge, has hooks 4a, 4b extending away from the half in the direction of its main plane, which are located slightly from the plane of the outer surface 1a or 20 Ib of the half towards its inner part. The purpose of these hooks is explained below.

Figure 3a shows the element halves A, B described above connected together. The element halves form a finished element 1, the outer surfaces 1a, Ib of which are formed by the outer surfaces of the above-mentioned halves A, B. Correspondingly, the end-connected connecting parts 2a, 2b form connecting parts which act as a support rib between the said outer surfaces, which at the same time form the inner structure of the hollow element 30.

Figure 3a also shows how the two elements 1 can be placed end to end together. The second end edge of each element half A, B, i.e. the vertical edge 35, has an end edge directed from the outer surface 1a, Ib towards the center, at the end of which there is a strip 9a, 9b extending outwards from the end. In the assembled position of the element 1, these strips 9a, 9b indicate the end

II

, 97634 outwards and are located in the opening at the opposite end of the second assembled element 1, which is formed at this point between the inwardly directed end edges 10a, 5 10b at the end edges of the halves A, B. Thus, each element half A, B has a vertical strip 9a, 9b at the first end and a vertical end edge 10a, 10b at the opposite end, against the edge of which the corresponding strip 9a, 9b in the next element 1 can be guided.

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Figure 3b also shows how the two elements can be superimposed. The upwardly directed hooks 4a, 4b in the lower element 1 are located in locking shoulders 5a, 5b extending from the inner surface of each element half 1a, Ib towards the center of the element at a distance from the inwardly turned edge 13 of the element half A or B corresponding to the edge 13 , 4b in the direction of the main plane of the element half A, B from the inwardly directed edge at the upper edge of the element half A, B below it, i.e. the edge flange 12a, 12b, from which the hook 4a, 4b is directed upwards. The inwardly turned edges or edge flanges at the longitudinal edges of the upper and lower elements 1 rest on top of each other when the elements are locked on top of each other and the hooks are locked between the locking shoulders 5a, 5b by snap in so that the barbs go beyond the shoulders 5a, 5b. It is also possible for such a locking arrangement that the hooks 4a, 4b face downwards from the lower edges of the element halves A, B and the locking shoulders 5a, 5b are respectively at the upper edges of the element halves A, B. In either case, the members cooperating in the flexible locking 35 are at the horizontal longitudinal edges of the outer surfaces 1a, Ib of the halves A, B, at which the elements 1 are superimposed.

97634 6

As can be seen from the figures, the element halves A, B and the elements 1 are rectangular in the plane plane direction, corresponding in proportions 5 mainly to a brick, so that in elements 1 and element halves A, B the horizontal longitudinal edges are longer than the vertical end edges. The elements 1 can be stacked on top of each other and at the ends like normal bricks so that the vertical seams in the overlapping rows 10 are always at different points, the elements can be of different lengths to end the wall, or as in Fig. 4 showing only the first element halves A, i.e. vertically at the same point. In particular, it can be seen from Figures 1a-e and 15a-e that the overlapping longitudinal edges of the element halves A, B have strips 11a, 11b between the hooks 4a, 4b and which go behind the edge flanges 13a, 13b at the second longitudinal edges. This avoids the formation of transverse seams passing directly through the wall 20, which would weaken the sound insulation. The strips 9a, 9b at the ends of the element halves at the ends of the element halves have the same meaning. 1 2 3 4 5 6 7 8 9 10 11 li

The elements can be cut into shorter elements 2 along the dashed lines shown in Figures ib and 2b.

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On the inner surface of the element, a strip 14a, 14b projecting from the inner surface 5 having a structure resembling the end edge 10a, 10b is formed at the cutting point.

at their opposite ends of their own element half A, B

7 to the edge flanges 12a, 13a, 8 and 12b, 13b, respectively. The cutting can be performed by means of a saw 9, either with the halves A, B separated 10 or with the element assembled, and recesses 15a, 15b are provided in the cutting flanges 12a, 13a and 12b, 13b, respectively, for guiding the cutting tool 11 at the outer surface .. It can be seen from Figures 1a-c and 2a-c that an element comprising eight connecting parts, i.e. four 97634 7 connecting pairs, can be cut into 2/3 or 1/3 of its original length into an element comprising three or two connecting pairs, respectively.

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Fig. 3a further illustrates how vertically permeable cavities 10 of the element 1 are formed between cavities 3 between the pairs of connecting parts 2a, 2b in the longitudinal direction of the element halves A, B, and Fig. 3b shows how the upper and lower edges of the element halves A and B between the placed connecting parts 2a, 2b a cavity 7 is formed which is permeable in the longitudinal direction of the entire element 1 and which runs perpendicularly against the above-mentioned vertical cavity 3. This cavity 7 enables a more versatile design of the interior of the light wall to be built and, for example, the passage of different structures in the desired direction.

The element according to the invention is easy to manufacture, for example, by injection molding technology from a suitable thermoplastic. In practice, two molds are required, corresponding in structure to the element halves A and B. The joining can take place immediately after the manufacture of the pieces 25 by placing the halves opposite each other. The fastening of the halves to each other can take place, for example, by a suitable fastening member which passes through the overlapping parts at the ends of the connecting parts 2a, 2b, as shown in Fig. 3b. Manufacturing is also easy with automatic 30 play.

The invention is suitable for the construction of all lightweight walls and has the further advantage that the wall is also easy to dismantle in order to re-use the building materials. In addition, the wall has a clean surface compared to the brick wall, so that separate coating steps may not be necessary. The outer surfaces 1a, Ib can already be provided with a suitable color surface or decoration 97634 8. However, this does not prevent the built wall from being coated in some traditional way, for example by wallpapering. In addition, the panels and other wall decorations 5 can be easily attached due to the plastic material used. The wall can also be used as a wall in damp rooms and does not require special vapor barriers or tiling.

Il

Claims (6)

1. For the construction of a wall-based building element (1), which is made by casting from polymeric material and comprising opposite outer surfaces (1a, 1b) and in the inner part of the element between the connecting parts connecting them and obtaining sanctuaries (3) for facilitating the element, characterized in that the two outer surfaces (1a, 1b) belong to their own separate element half (A, B), whereby the halves (A, B) can be assembled into entire elements (1) by means of fastening points in connecting portions (2a, 2b) located in halves (A, B) and connecting portions (2a, 2b) constitute hollows (3, 7) which pierce the element (1) in the direction of the plane of the outer surfaces (1a, 1b) in the element and extend towards each other in a perpendicular direction. Building element according to claim 1, characterized in that between the outer surfaces (1a, 1b) there are two interconnected connecting parts, consisting of the connecting parts (2a, 2b) of the element halves (A, B), and in the longitudinal direction of the element. at a distance from said connecting parts there are two other interconnecting parts, which consist of connecting parts (2a, 2b) of the element halves (A, B), the ability (3) extending in one direction through the element being formed between the longitudinal connecting portions spaced apart from each other and the hollowness (7) extending thereto in a perpendicular direction in a different direction through the element is formed between the vertically located connecting portions. Building element according to claim 2, characterized in that between the connecting parts (2a, 2b) is formed a cutting line for cutting the element into a shorter element, the cutting line being such that the shorter element resists at least two pairs of connecting parts ( 2a, 2b). Building element according to any of the preceding claims 1-3, characterized in that in the edge of the element (1) which is laid against the adjacent element, from the edge there are projecting hooks (4a, 4b) for fixing the element with spring reading at the adjacent element. 12 97634 Building element according to claim 4, characterized in that the reading direction of the hooks (4a, 4b) is leaking from the direction of the middle plane of the element (1) and that the opposite edge of the element has reading guides (5a, 5b) which are directed towards the middle of the element. plan. 5 6. A building element according to claim 1, characterized in that free ends of the connecting parts (2a, 2b) belonging to the various element halves (A, B) have, in their perpendicular direction in perpendicular direction, seen on each other (6a, 6b) which act as fastening points for attaching the connecting parts (2a, 2b) to each other. Il