FI120371B - A method for changing the width and / or length of a sandwich building element - Google Patents

Abstract

The invention relates to a method for changing the width and/or length of a sandwich construction unit, said construction unit (1) comprising a core element (2) of some thermally insulating material, having edge-profiled surface sheets (3, 4) attached to its two opposite major surfaces. The method comprises splitting and/or breaking the unit (1) by cutting it longitudinally and/or laterally along a desired line, followed by removing a piece of core element material (2a) from alongside the cut edge to enable edge-profiling devices (8) to fit in a space between the surface sheets (3, 4), followed by profiling a cut edge (5a) of the surface sheets and by replacing the removed piece of core element material (2a) with a fresh piece of core element material (2b).

Description

A method for changing the width and / or length of a sandwich building element

The present invention relates to a method for varying the width and / or length of a sandwich building element, the building element having a core portion of heat insulating material having surface plates fixed to two opposite main surfaces.

Sandwich building elements are typically made on a production line with certain modular dimensions, e.g., 1200 mm wide. However, there is sometimes a need, for example, for a top row of tongue-and-groove elements to be superposed, or for a window row, to use an element narrower than standard width, which causes problems especially when both opposite edges of such a narrower element must be profiled.

Accordingly, it is an object of the present invention to provide a method by which the width and / or length of a sandwich construction element can be reduced such that the reduced element also has profile edges. To accomplish this, the method of the invention is characterized in that the method comprises cutting and / or cutting the element lengthwise and / or transversely at a desired location, after which the core material is removed from the area adjacent the cut edge so that the edge profiling means after which the cut edge of the face plates is profiled and the removed core material is replaced with the core material.

According to one aspect of the invention, the method is applied to a building element, wherein the building element has a core of heat-insulating material, with surface surfaces having profile edges attached by adhesive to two opposite main surfaces. and / or a transversely extending relatively narrow protective layer which prevents the adhesive from adhering to the inner surface of the surface layer, then the surface layers are secured to the core portion by the adhesive, followed by cutting the element at said protective layer and performing the necessary core removal.

2

According to another aspect of the invention, the method is applied to a building element in which the core member is formed by foaming a heat insulating material between two face plates, whereby the foamed core material adheres to the face plates / or a transversely extending relatively narrow protective layer preventing the foamed core member material from adhering to the inner surface of the topsheet, then foaming the core member into the space between the topsheets, after which the element is cut at said shielding layer and performing the necessary core sectioning.

The invention will now be described in more detail with reference to the accompanying drawings, in which: Figure 1 schematically shows a surface plate for use in a sandwich construction element, and

Figures 2-5 illustrate schematically the various steps of changing the width of an element.

20

The exemplary element in the figures includes a core part 2 of a heat insulating material, such as mineral wool, on whose opposite surfaces surface plates 3 and 4 are fixed by means of an adhesive, the opposite longitudinal edges of which are formed by tongue-and-groove joints. Male punctures are designated by reference numeral 5 and female punctures are designated by reference numeral 6.

In the method according to the invention, the element 1 is first split from a desired position to a certain width, e.g. by the reference numeral 19 in the saw shown in Fig. 2. After this, the core material is removed from the element adjacent the split edge 5a, for example to a depth of about 50 mm, and any traces of adhesive and / or heat insulating material are finally scraped off the inner surface of the board. For example, the planing device 7 shown in Fig. 3 can be used to remove the heat insulating material. Fig. 4 shows the positioning of the profiling rollers 8 in the gap 3 between the surface plates 3 35 and 4 to leave 3 of the debossed heat insulating material 2a and Fig. after forming the edge profile, re-inserting the heat insulating material 2b into the void space between the surface plates 3 and 4. After that, the truncated element is complete. The heat-insulating material 2b added may be a heat-insulating material removed at an earlier stage, or it may be a new heat-insulating material, possibly even a material different from the previous material.

Figure 1 illustrates a preferred embodiment of the method in which a protective layer 9 is first applied to the pin 10 of the element 10 at the desired intersection before the surface plates are attached to the core 2. The protective layer may be applied before or after profiling of the surface plates 3, 4. The protective layer may be, for example, a tape or an adhesive film or a liquid material which hardens on the inner surface of the surface sheet to form the desired protective layer, or greasy material, and which protective layer is relatively easily detachable from the inner surface of the sheet. With this protective layer 9, the removal of the adhesive for the core part, and in particular for the attachment of the core part and the surface plate after the element is split, is much easier than the adhesive removal from the inner surface of the surface plates by scraping or the like. The method according to the invention can be carried out either at the installation site or at the factory, as the case may be.

The method according to the invention can be used not only to reduce the element but also to shorten the element and it is also suitable for reducing the width and / or length of the elements tongue-in-cheek. The core material may be, for example, mineral wool or the like heat-insulating material which is fixed to the surface plates by means of an adhesive or the foam material which adheres directly to the surface plates when applied to the space between the surface plates.

Claims (3)

A method for changing the width and / or length of a sandwich building element, wherein the building element (1) has a core part (2) of heat-insulating material 5, on which two surface faces (3, 4) are fastened, characterized in that and / or cutting by cutting it longitudinally and / or transversely at the desired position, after which the core material (2a) is removed from the area adjacent the cut edge so that the edge profiling means (8) fits into the space between the surface plates (3,4); the cut-off edge (5a) of the surface-10 belts is profiled and the removed core material (2a) is replaced with the core material (2b). The method according to claim 1, wherein the building element (1) has a core part (2) of heat-insulating material, on which two surface surfaces (3, 4) are fixed by means of an adhesive, characterized in that in the method of manufacturing the element (1) applying a relatively narrow protective layer (9) extending to the inner surface of the element surface plates (3,4) at a desired point of intersection of the element to prevent adhesion from adhering to the inner surface of the surface layer, then securing the surface layers (3,4) to the core portion 20; 2) by means of an adhesive, after which the element is cut at said protective layer and the necessary removal of the core part material is performed before the edge profiling. A method according to claim 1, wherein the core member is formed by foaming the heat insulating material between the two face plates, whereby the foamed core member material adheres to the face plates, characterized in that, in manufacturing the element, and / or a transversely extending relatively narrow protective layer that prevents the foamed core member material from adhering to the inner surface of the surface layer, then foaming the core member material into the interlayer space, after which the element is cut at said protective layer and the required core member material is removed.