EP0125397A1 - Self-supporting panel of insulating material - Google Patents

Abstract

In a self-supporting panel (1) of insulating material, the end faces possess resilient tongues (3) extending in tongue-like fashion in the direction of the main plane of the panel, which tongues ensure a tight fit, for example after insertion between two rafters (6). <IMAGE>

Description

The invention relates to a self-supporting plate made of insulating materials, which can be fixed between other components by means of two opposite end faces.

Rigid insulation panels are often installed between the rafters to insulate rafters roofs. On the one hand, the dimensions of the insulation boards are precisely specified by the production. On the other hand, dimensional deviations cannot be avoided when installing roof trusses. There are also length changes due to temperature and moisture during the life of the building. The organic building material wood can also warp over time. In addition to the difficulty during assembly, all of these influences can cause gaps, which reduce the overall thermal insulation to an undesirable extent.

A plate-shaped molded part made of tough-hard foam is known, in which incisions perpendicular to the plate main plane are arranged at intervals smaller than the plate thickness.

The disadvantage of this construction consists essentially in the fact that this shaped part becomes unstable due to the meandering deflection of the forces in the main direction of support, especially since the development of forces becomes completely indefinable in the case of partial, uncontrollable contact between adjacent meandering loops. As a result, uncontrollable distortions occur within the molded part. In addition, the many cuts also reduce the insulating effect of the molded part.

The object of the invention is to find an insulating element. which can be attached with the opposite end faces between two components without tools and which, despite prefabrication by the manufacturer, compensates for the constructional and climate-related deviations to a uniform extent, where necessary a moisture barrier layer should be present, in particular to drain off the surface water during the construction phase.

The object of the invention is achieved in that one or more end faces of the plate at least one resiliently extending tongue-like in the direction of the main plane. Have edge training.

As a result of the spring and tongue-like edge formation protruding from the rafters, the plate can be easily inserted between two rafters by one man without mechanical aids. The self-supporting plate - made of plastic foam, for example - is then securely supported by the bent tongue-like edge formation - even when the roof is moving.

There will be further faults later in the orga nically grown building material wood cannot always be avoided. The same applies to the dimensional changes due to fluctuations in temperature and humidity. Due to the automatic compensation of the construction according to the invention, a perfect clamping and a tight connection of the edge formation to the rafters can be guaranteed in the long run.

In a special embodiment, the spring-like edge formation consists of one or more tongues projecting from the end face.

In the case of plastic foam panels in which the material has elastic properties, it is possible to provide the end face with incisions, which can usually be carried out in parallel but also at an angle to the main plane of the panel. The left standing tongues then place, for example, close to the respective surface of the ^p Woodcut arren on, the system can be improved to the rafters by bevelling or disengagement of the tongue ends.

In a further embodiment, the design consists of a spring-like edge which is formed by an incision in the plate at an angle 60 60 °, in particular c 45 °.

Through an oblique deep cut parallel to the top edge of the plate, which - viewed in an imaginary plane perpendicular to the front side - is inclined at an angle of more than 60 ° to the center of the plate, If the material is elastic, the edge around the remaining part can be tilted inwards to insert the panel. After the relief, the restoring forces clamp the plate between the rafters.

In another embodiment, the formation is formed by two incisions in the form of a dovetail.

The solution has the advantage that the end face of the edge lies close to the rafters due to the possible tilting movement in the remaining part between the incisions, whereby the wedge-shaped design also means greater pressure forces, i. more scope in the horizontal plane, can be absorbed more easily.

In one embodiment, the plate has a resilient edge formation made of a tongue-like protruding metal foil.

In this construction, metal foils made of aluminum or stainless steel - which may be reinforced by foam layers - are arranged along at least some edges, the projecting resilient edge formation securely engages in a longitudinal groove of the adjacent rafters, so that slipping during assembly, lifting by wind suction or falling out after installation is prevented.

Another advantage is that metal foils allow multiple installation and removal without loss of function. The construction is therefore particularly suitable for places that must remain accessible for control reasons. Covering the panels with a metal foil also allows the surface water to be discharged without damage, which can occur as rain or snow if the roof skin is still missing or damaged. In addition, moisture generated in the mineral fiber area can escape through the contact surfaces of the film on the rafters.

• _Fig. 1 Platte mit gerader Zunge
• Fig. 2 Platte mit mehreren geraden Zungen
• _Fig. 3 Platte mit schwalbenschwanzförmiger Zunge
• Fig. 4 Platte mit folienartiger Zunge.

Examples of the invention are shown in the drawings and are described in more detail below. Show it:

• _F ig. 1 plate with a straight tongue
• Fig. 2 plate with several straight tongues
• _F ig. 3 plate with dovetail tongue
• Fig. 4 plate with a film-like tongue.

In Fig. 1 a and 1 b, a plate 1 is provided on the end face 2 with a projecting resilient tongue as edge formation 3, the length of which is increased by an incision 4. In the installed state, the bent tongue 3 bears against the side surface 5 of the rafter 6, it being possible for an adhesive (not shown) to be additionally introduced in the joint area.

2 a and 2 b, a plate 1 is shown on the end face 2 with tongues 3 running parallel to the main plane with slots 4 lying between them, which in the installed state are supported resiliently against the side surface 5 of the rafters 6 and the plate, under an arcuate bend 1 seal there. The length and thickness of the tongues 3 depend on the elasticity of the plate material, the length to thickness ratio to one another being greater than 2: 1, in particular greater than 4: 1.

3, dovetail-shaped incisions 4 are made in the area of the end face in such a way that, during installation, only the narrow area that has remained between the two incisions 4 must be pressed together and that after relieving the edge 7 with the end face 2 lies cleanly, that the area which has stopped, in particular when the incisions are widened outwards, acts like a joint.

In Fig. 3, a plate 1 is drawn, which consists of a layer of mineral wool 8, a PUR layer 9 and an aluminum foil 10. On two sides projecting resilient tongues 11 from a laminated aluminum foil engage in grooves 12 of the parallel rafters 13 and hold the plate 1 securely. A clamping plate 14 serves as the lower space limitation, the rafters 13 are provided with roof battens 15 and roof tiles 16 at the top.

Claims (5)

1. Self-supporting plate made of insulating material, which can be fixed between two components by means of two opposite end faces, characterized in that one or more end faces (2) of the plate (1) have at least one resilient edge formation (3) which extends in the direction of the main plane in a tongue-like manner . 2. Self-supporting plate according to claim 1, characterized 'indicates that the spring-like edge formation (3) consists of one or more tongues projecting from the end face (2). 3. Self-supporting plate according to claim 1, characterized in that the edge formation (3) consists of a spring-like edge (7) which through an incision (4) in the plate (1) at an angle <60 ° C, in particular <45 ° C, is formed. 4. Self-supporting plate according to claim 3, characterized in that the edge formation (7) is formed by two incisions (4) in the form of a dovetail. 5. Self-supporting plate according to claim l, characterized in that the plate (1) has a resilient edge formation (3) made of a tongue-like protruding metal foil.

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