FI97820C - Spacer elements for facade elements that make up the facade of buildings - Google Patents

Description

The invention relates to a spacer element for use in facade elements forming a building facade cladding, which comprises a planar mass layer, the first surface of which acts as a visible part of the facade element, 10 a support structure, in particular a so-called a reinforcing mesh disposed in connection with the second surface of the pulp layer, the second surface being located within the structure to which the façade element is arranged to be joined, and 15 one or more said spacer elements arranged in the pulp layer, in particular 20, wherein the spacer element is formed with conical portions located substantially perpendicular to the main plane of the pulp layer in the installed position of the spacer element, which at least 25 are formed by spacers retaining the support structure in the spacer element at a predetermined distance from the first visible surface of the pulp layer.

Spacer elements are used in connection with cast facade elements. The mass layer of the facade elements is relatively thin, e.g. about 25 mm. The support structure is therefore necessary to strengthen the mass layer. The support structure is most often the so-called concrete mesh or reinforcement mesh. The spacer elements are used to ensure that when casting the façade element, the support structure remains at a certain safety distance 35 from the first, visible surface of the façade element and visible on the second surface side of the façade element in connection with the façade element. The spacer elements currently in use are structured in such a way that, under certain conditions, they press into the pulp layer as a whole, in which case they may partially protrude from the visible surface side of the façade element. In some cases, the spacer elements currently in use may be inclined in the mass layer 5, whereby the support structure may be partially located inside the mass layer very close to the first, visible surface, which may result in damage to the outer surface of the element.

SE-427481 discloses a spacer element consisting of a kind of pin part which is fastened directly to the intersections of the reinforcing mesh at the notch at the top of the pin part. Such spacers are difficult to install individually, and the method described in Swedish publication SE-427481 uses the melting of a spacer made of plastic-15 material to attach it to the reinforcing mesh.

The object of the present invention is to provide a new type of spacer element which is able to verify in essentially all conditions that the support structure is located at the correct, selected distance from the first, visible surface of the facade element mass layer substantially parallel to the second surface. The spacer element supports the support structure during the drying of the casting at the location of the support structure. To achieve these objects, the spacer element according to the invention is mainly characterized in that the spacer element has a planar part, in particular a substantially planar edge part with a closed circumferential shape, the planar edge part being located in the facade element substantially parallel to the surface of the pulp layer, and that the spacer members with their conical parts are arranged at least 30 in a position perpendicular to the main plane of the edge part at least partially.

Thus, according to the invention, the distance members are arranged in connection with a plane part in the spacer element. In this case, the spacer element comprising several distance members 35 can be mounted on the inner surface of the mold, so that a cumbersome and time-consuming direct installation of the spacer element in the reinforcement mesh is not required. It is possible to lower the reinforcement mesh into the mold directly on top of the spacer element. Due to the shape of the planar part, the spacer element 3 97820 is pressed evenly into the pulp layer so that the main plane of the planar part coincides with the main plane of the pulp layer. In addition, forming the spacers at least partially conical provides the advantage that the spacer element is located in a controlled manner in the pulp layer 5 and does not immediately sink into the pulp layer, because the conical part, due to its shape, resists sinking of the spacer element.

In addition to the main idea presented above, the spacer element according to the invention comprises a number of further advantageous applications, which are set out in the appended dependent claims.

In the following description, the invention is further illustrated with reference to the application shown in the accompanying drawings. In the drawings 15, Figure 1 shows an embodiment of a spacer element according to the invention in perspective view, Figure 2 shows the spacer elements according to Figure 1 in partial vertical section in the storage and transport position, and Figure 3 shows the location of the spacer element according to Figure 1 in the mass layer of the facade element.

Referring to Fig. 1, the spacer element 1 mainly comprises distance members 3 associated with this plane part 2 and 25. In the embodiment shown, the spacer element has a rectangular or square shape, in particular with respect to the design of the plane part. It is natural that the planar part can also be shaped at least partially in a curved shape, for example in a circular or elliptical shape. The spacer element 1 is preferably an injection molded plastic piece 30. The color of the injection mold can be chosen to be the same as the layer of mass to which it will be attached. In this case, it can be ensured that if under certain conditions any or some of the tips of the distance members 3 of the spacer element 1 are located close to the first visible surface 8 of the facade element layer (Fig. 3), their disturbing effect on the facade appearance is minimal. This effect is further enhanced by the fact that the tips of the distance members are formed as small as possible in area, in particular sharp-pointed.

97820 4

In the embodiment shown, the elongate distance members 3 each comprise a conical part 3a which forms the base part of the distance members 3. The extension of the conical part 3a in each distance member 3 is an extension part, such as a cylindrical part 3b or the like, the diameter of which is substantially smaller than the diameter of the base part of the conical part 3a. The end of the cylindrical part forms the tip 3c of the distance members 3, which, as mentioned above, is formed as small as possible in area.

In the embodiment shown, the planar part 2 is formed of a substantially planar-like plate-like edge portion 4, which is in the form of a closed circumferential shape. The edge part 4 (Fig. 3) is located in the facade element substantially in the plane of the second surface 9 (Fig. 3) of the pulp layer 7. The distance members 3 are arranged in the edge part 4 in a position substantially perpendicular to the main plane of the edge part. The total height of the spacer element in the direction perpendicular to the main plane of the framed edge portion 4 corresponds substantially to or is slightly less than the strength of the mass layer of the facade element.

As can be seen in particular from Figure 1, the distance members 3 are arranged at regular intervals on the circumference of the edge part 4 (6 in total). The planar part 2 further comprises a central stiffening support opening 6 or the like formed in the central opening 5 of the closed circumferential shape of the edge portion 4, which connects the opposite sides of the circumferential shape.

With particular reference to Figure 2, a preferred field of application of the spacer element according to the invention emerges in that it is advantageous to form the conical part 3a hollow, e.g. conical, the conical part 3a comprising a cavity 3d or the like opening at the base of the conical part 3a to the upper surface 2 'of the plane part 2. In particular, when the spacer elements are 30 injection-molded plastic pieces, each spacer element 1 is of the same shape and size, and the distance members 3 are located in the same place in each spacer element 1. In this case, the steps of storing and transporting the spacer elements 1 can be carried out in such a way that the spacer elements 1 are preferably stacked so that the spacers 3 are at least partially nested, the spacers 3 of the upper spacer element 1 being located at least partially in the cavity 3d of the lower spacer element T. in. Thus, the space requirement required by the spacer elements in the storage and transport steps can be minimized, 97820 5 and their use during casting in a bundle form, from which the spacer elements 1 can be individually removed for placement in the pulp layer, is fast and efficient.

With particular reference to Figure 3, it can be seen that the tip 3c of the distance members 3 is located in the vicinity of the first, visible surface 8 of the pulp layer 7. If the tip 3c then contacts the inner surface of the mold element 10 of the facade element, this contact is formed as small as possible in its area, and no significant damage to the visible surface 8 of the first facade element 10 occurs. If this possible situation is further verified so that the color of the spacer element 1 is chosen to be the same as the color of the pulp layer 7, said situation has an even lesser effect on the first, visible surface of the facade element. The support structure 12, in turn, is located on the upper surface 2 'of the plane part 2, which is planar with the spacers 3 in the installed position of the spacer element 1 from the lower surface 2 "of the plane part 2 against the second surface 9 of the pulp layer 7 inside the pulp layer 7. the area of the openings is smaller than the area defined by the outer edge of the plane part 2. Thus, it is ensured that at least one of the intersections between the bars forming the net shape lies in the area defined by the outer edge of the plane part 2 of the spacer element 1, and the support structure 12 cannot pass the upper surface 2 'of the planar part 2 of the spacer element 1 or the other surface 9 of the pulp layer 7 inside the pulp layer 7.

The spacer elements 1 are normally placed in the mass layer 7 of the facade element at several distances from each other such that the own rigidity of the support structure is sufficient between the above distances to maintain the planar shape of the support structure on the second surface 9 of the mass layer 30 of the facade element. This avoids possible positional errors in the support structure 12, and the support structure 12 is located at a selected safety distance from the first, visible surface 8 of the facade element.

Thus, due to their design, the conical parts 3a prevent the spacer element 1-35 from immediately sinking into the pulp layer 7 after the spacer elements 1 are placed in the pulp layer 7, which is applied to the facade element mold as a uniform layer during the production of the facade element. The spacer elements 1 press into the mass layer 7 as it stiffens 6 97820 with the force exerted by the support structure 12 on the planar parts 2 at the location of each spacer element 1. Due to its structure, the spacer element 1 presses into the pulp layer evenly so that the main plane of the plane part 2 coincides with the main plane of the pulp layer. If for some reason the spacer element 5 is in an oblique position and / or the distance members 3 meet the first, visible surface 8 of the mass layer 7, the effect of this situation on the quality of the façade element is very small.

It is clear that the distance members 3 can also be conical in their entirety.

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Claims (9)

97820 7 A spacer element for use in facade elements forming a facade cladding of a building, comprising a support structure (12), in particular a so-called mass layer layer (7), the first surface (8) of which acts as a visible part of the facade element. a reinforcing mesh 10 connected to the second surface (9) of the pulp layer (7), which second surface (9) is located inside the structure to which the facade element is arranged to be connected, and one or more spacer elements (1) which mass-15 located in the layer (7) is adapted to retain the support structure (12) at a predetermined distance from the first, visible surface (8) of the pulp layer (7), in particular in connection with the manufacture of the facade element, the 20 intermediate element (1) being formed substantially against the main plane conical portions (3a) located in the installed position of the spacer element (1), which at least partially form the spacer members (3) which hold the support structure (12) in the spacer element (1) at a predetermined distance from the first mass layer (7), visible surface (8), characterized in that the spacer element (1) has a planar part (2), in particular a substantially planar r an eunus part (4) having a closed circumferential shape, wherein the planar edge part (4) is located in the facade element substantially parallel to the plane of the second surface (9) of the pulp layer (7), and that the distance members (3) with their conical parts (3a) are at least partially (4) in a position substantially perpendicular to the main plane of the edge portion (4). 35 Spacer element according to Claim 1, characterized in that the tip (3c) of the distance element (3) is formed with the smallest possible surface area, in particular a sharp tip. 8 97820 Spacer element according to Claim 1 or 2, characterized in that the extension of the conical part (3a) of the distance member (3) is an extension part, preferably a cylindrical part (3b) or the like, the end of which forms the tip (3c) of the distance member (3). ). Spacer element according to one of Claims 1 to 3, characterized in that the conical part of the distance element (3) is at least partially hollow, forming a cavity (3d) which opens into the upper surface (2 ') of the planar part (2). Spacer element according to Claim 1 or 4, characterized in that each spacer element (1) is of the same shape and size, the spacers (3) being arranged at the same position in each spacer element (1), the spacer elements (1) in the storage and transport position, the spacer elements can be stacked with the distance members (3) located at least partially inside the cavities (3d) of the adjacent spacer element and the planar parts (2) being substantially parallel. 20 Spacer element according to Claim 1, characterized in that the conical part (3a) tapers from the planar part (2) towards the tip (3c) of the distance member (3). Spacer element according to Claim 1, characterized in that a support rib (6) is formed in the central opening (5) of the closed circumferential shape of the edge part (4). Spacer element according to one of Claims 1 to 7, characterized in that the spacer element (1) is an injection-molded plastic body. Spacer element according to one of Claims 1 to 8, characterized in that the color of the spacer element (1) is chosen to be the same as the color of the mass layer (7) in which it is to be placed. 97820 9