DE3420793A1 - Under-roof multilayered heat insulation - Google Patents

Abstract

A panel-shaped lower heat-insulating element and a strip-shaped upper heat-insulating element are used for a multilayered heat insulation, the upper side of the lower heat-insulating element being provided with a U-shaped, saw-tooth-shaped or rectangular profiling, to which a corresponding complementary profiling on the underside of the upper heat-insulating element corresponds. The strip-shaped upper heat-insulating elements are laid one above the other at such a spacing that the securing protrusions of the roofing panels can be suspended in each case on the ridge-side edges.

Description

Multi-layer thermal insulation for a sub-roof

The invention relates to a multi-layer thermal insulation for one with roofing panels Covered sub-roof according to the preamble of claim 1.

Thermal insulation elements that can be used for the construction of a heat-insulating sub-roof are known in a wide variety of configurations, according to the various types Roofing systems and roofing panels have different thermal insulation elements are constructed. This makes it necessary for the production of an appropriate Variety of shapes are available to suit different consumer needs to be able to follow. Since at the same time there are also different requirements the insulation are made, it follows that even for similar elements different shapes are required for different element thicknesses. From it it follows that relatively long set-up times are unavoidable for production are, on the one hand, to keep storage small and, on the other hand, to keep things varied To be able to meet consumer demands.

The invention is based on the object of creating measures with which significantly streamlines the production of thermal insulation elements and in particular the time for the retrofitting can be shortened significantly, while at the same time thermal insulation elements be created for for a wide variety of roofing systems and roof tiles can be used.

According to the invention, this object is achieved by the features of the marking part of claim 1 solved.

The invention creates a multi-layer thermal insulation, in which the lower thermal insulation element is independent of the roofing system and the Cover plates is and can therefore be produced in very large numbers. The same applies to the upper thermal insulation element, provided that it remains the same Thickness of the thermal insulation is assumed. When the insulation is of different thickness should be, this can be done in a simple manner through the thickness of the upper thermal insulation element set, whereby for the conversion for thermal insulation elements of different thicknesses only a little time is required and this can also be carried out with low molding costs is.

Due to DEOS 31 18 139, the multilayer thermal insulation is per se the preamble known, with thermal insulation elements for the lower and the upper layer Find use as intended for the single-layer structure of thermal insulation are. This known measure is advantageous when over an existing thermal insulation A second layer of standard thermal insulation elements is built under the roof shall be. For a rationalization and cheaper production of the thermal insulation elements this known measure is not suitable because it depends on the use of the known expensive, multifaceted forms.

A particular advantage of the invention is also seen in the fact that due to the large number of complementary ones that run at regular intervals to one another Grooves on the top of the lower thermal insulation element and the bottom of the upper Thermal insulation element the possibility is created, the strip-shaped upper To lay thermal insulation elements on top of each other at such a distance that a large number of hanging distances are possible according to the slot grid and thus e.g. between the single covering and the double covering with beaver tails several several Intermediate levels are selectable. This means that a large number of i: .indeeR systems can be used Realize with the same heat medication.

\ usgetlend from one that is always the same and therefore very inexpensive The lower thermal insulation element that can be produced can also be provided with thermal insulation of different thicknesses thereby realize. that only the upper thermal insulation element thicker or thinner is carried out, which is possible with little additional molding costs.

The multilayer thermal insulation according to the invention is independent of the fastening or bracing of the thermal insulation elements on the rafters can be used and is also not limited to thermal insulation elements that engage between roof battens.

Another embodiment of the invention provides that the complementary Grooves on the lower thermal insulation element have a greater depth than on the upper thermal insulation element to have. This creates air-filled cavities that save material without make a significant loss of thermal insulation possible. By DE4S 31 19 520 are probably two-part thermal insulation elements known that in their interior are provided with air-filled cavities for the purpose of saving material. These However, elements require an even more complex molding than the conventional ones known thermal insulation elements and are therefore very uneconomical. A special one Embodiment of the invention provides that in the U-shaped or rectangular grooves the lower heat insulation elements sawtooth-shaped grooves of the upper heat insulation elements intervene, whereby the AS resting on the rectangular roof surface cut the sawtooth-shaped Grooves whose course is adapted. This configuration allows even larger Achieve cavities and thus greater material savings.

The upper strip-shaped thermal insulation elements preferably have a Length from about 40 cm to about 200 cm, with them on the eaves side or the ridge side Edge can have a continuous paragraph-shaped recess into which the lugs or the retaining projections of the covering panels intervene in the case of close installation, In order to So that there is no thermal insulation in the air-filled cavities detrimental moisture accumulates, it is also provided that the ridge-side to the eaves-side edge of the lower thermal insulation element Water ducts at least up to the bottom surface of the grooves and, if necessary, from Extend ridge-side to the eaves-side rebate.

The advantages and features of the invention also emerge from the according to the following description of exemplary embodiments in conjunction with the claims and the drawing. They show: FIG. 1 a section through a roof structure according to FIG the invention; Fig. 2 shows a further embodiment of the invention.

In Fig. 1 a roof structure is shown in which on rafters 11 roof battens 12 are attached, which are used to support lower thermal insulation elements. the Underside of this thermal insulation element 14 engages in the space between the roof battens and rests on the surface of the rafters 11. Although not shown, these thermal insulation elements can be laid in foil shells known per se. The lower thermal insulation element is constructed in the form of a plate and carries on its upper side sawtooth-shaped groove 16, which extends at regular intervals over the entire Surface of the thermal insulation element 14 extend. Reach in the area of the roof battens the lower thermal insulation elements with a rebate on top of each other.

The upper layer of thermal insulation is made up of upper strip-shaped thermal insulation elements 18 formed, which on the underside with a corresponding plurality of complementary sawtooth-shaped grooves 20 are provided. The upper thermal insulation element 18 is such laid on the lower one that the sawtooth-shaped grooves interlock and become snap into place on these, absorbing thrust. The one shown in the drawing preferably Embodiment shows for the complementary grooves on the lower thermal insulation element a greater depth than on the upper thermal insulation element, so that there is a volume of air in between 22 is created. This air volume is used to save material without reducing the Thermal insulation.

The strip-shaped The stripe-shaped upper ones Thermal insulation elements 18 can each with their horizontally extending edges against one another be laid adjacent to the lower one, it being provided that on the eaves side Edge a continuous step-shaped recess 26 is formed into which the lugs of the cover plates 24 engage.

The lower thermal insulation elements can m conventionally to the vertically running joints should be provided with a stepped rebate that is oblique from the ridge seldom runs up to the eaves side to prevent moisture from penetrating to prevent safe in this area. In addition, it is provided that the upper strip-shaped thermal insulation elements 18 longer than the lower thermal insulation elements 14 are so that they overlap over one or two or more thermal insulation elements. The upper thermal insulation elements can expediently have a length of about 40 cm to about 200 cm.

To ensure that in the grooves 16 of the lower thermal insulation elements 14 an accumulation of moisture is avoided, are in the lower thermal insulation element 14 one or more water guide channels 30 are formed, which extend from the ridge-side to the eaves-side edge or from the ridge-side to the eaves-side rebate and extend to the bottom surface of the grooves.

In Fig. 2 a further embodiment of the invention is shown, in which the same parts are provided with the same reference numerals. The lower thermal insulation elements 114 differ in the profiling on the top side, which in this embodiment consists of rectangular grooves 116, which are also in a large number with regular Distance parallel to the eaves over the entire width of the thermal insulation element.

The complementary grooves of the upper thermal insulation element 118 are as Sawtooth 120 is formed, the portion resting on the rectangular roof surface the sawtooth-shaped groove is adapted to the course of this rectangular roof surface. Of the The sawtooth does not extend over the entire depth of the rectangular groove, like this that between the upper and the lower thermal insulation element in the groove area a free Air volume 122 arises, arises what the material saving serves without significant impairment of the thermal insulation. The rectangular roof area can also be designed to run obliquely, so that the Koniplenientäre sawtooth-shaped Groove on the upper thermal insulation element has an evenly rising edge.

As can be seen from the drawing, the stripe-shaped upper ones Heat insulation elements 118 arranged one above the other offset by a sawtooth-shaped groove, so that there is a free space 32 in which the lugs or retaining projections the cover plates 24 can intervene.

If the roofing system is covered by a greater or lesser coverage is to be changed, this is very simple in accordance with the slot grid possible by moving the strip-shaped upper thermal insulation elements further be dealt with. If .alum assumes that the brick nose distance with a double covering with beaver tails is 16 cm, a strip-shaped one is used for this Thermal insulation element with a dimension of 16 cm in the direction of the ridge eaves required. However, if only a single cover is to be provided, the same elements can be used Find use, which, however, have to be laid at a distance of 16 cm from each other are. From this example it can be seen that the multiple thermal insulation according to Invention can be adapted in a simple manner to the roofing system.

If higher demands are placed on the thermal insulation, then so this is to be met in a simple manner in that the thickness of the upper heat insulation m element is changed accordingly and, if necessary, this without spacing is to be relocated.

Regardless of the embodiment shown, the grooves be designed in any way, as long as there is a toothing between the lower and the allow upper thermal insulation element as well as a shear transfer.

The grid of the parallel grooves is the material properties to be dimensioned accordingly, it is also possible that the distance between the individual Grooves is irregular.

Claims (6)

Claims 1. Multi-layer thermal insulation for one with roofing panels covered sub-roof, the plate-shaped lower thermal insulation element on the top a Profiling carries, in which a corresponding underside profiling of the upper, the fastening of the thermal insulation element accommodating the roofing panels intervenes, the lower thermal insulation elements interlocking with a stepped rabbet, thereby characterized in - that the entire top of the lower thermal insulation element (14; 114) with a large number of regularly spaced parallel to the eaves U, sawtooth or rectangular grooves (16; 116) are provided; - and that that upper strip-shaped thermal insulation element (18; 118) on the entire underside with a corresponding plurality of complementary grooves (20; 120) is provided and in the ridge-eaves direction one preferably the smallest installation distance of the cover plates (24) has a corresponding width. 2. Multi-layer thermal insulation according to claim 1, characterized in that - That the complementary grooves on the lower thermal insulation element have a greater depth than on the upper thermal insulation element. 3. Multi-layer thermal insulation according to claim 1 or 2, characterized in that - That in the U-shaped or rectangular grooves (116) of the lower heat insulation elements engage sawtooth-shaped grooves (120) of the upper thermal insulation elements, the on From the rectangular roof surface resting on the sawtooth-shaped grooves cut the rectangular roof surface course is adapted. 4. Multi-layer thermal insulation according to one of claims 1 to 3, d a d u r c h e k e n n n z e i c h n e t - that the upper strip-shaped thermal insulation elements (18, 118) have a length of about 40 cm to about 200 cm. 5. Multi-layer thermal insulation according to one of claims 1 to 4, characterized - that on the eaves-side or the ridge-side edge of the upper strip-shaped heat insulation element (18) has a continuous step-shaped recess (26) is formed, in which the retaining projections of the cover plates (24) intervenes. 6. Multi-layer thermal insulation according to one of claims 1 to 5, d a d u r (! h e k e n n n z e i e h e t that extends from the ridge-side to the eaves-side At least water ducts running along the edge of the lower thermal insulation element extend to the bottom surface of the grooves.