CZ285725B6 - Insulation board - Google Patents

Abstract

An insulating slab (10, 60, 70) of a rectangular basic shape comprises wedge-like slab elements (12, 14) which butt against one another at their wedge surfaces (20) and are displaced with respect to one another, with guidance on the wedge surfaces (20), and can be cut into a smaller rectangular format. At the border surfaces (42, 52), which move apart or, preferably, move together upon displacement at the wedge surfaces (20), the slab elements (12, 14) have a groove and tongue arrangement. In the regions (26, 28), which are to be cut off in order to produce the smaller rectangular format, of the slab elements (12, 14), there is a division parallel to the plane of the slab, level with the groove (16, 22, 64) and tongue (18, 24, 62). <IMAGE>

Description

Technical field

The invention relates to a rectangular-shaped insulating plate which consists of a pair of wedge-shaped plate elements abutting each other with their wedge-shaped side faces, slidable with each other in guides formed in these wedge-shaped side faces and can be trimmed to a reduced rectangular format. are provided on their narrow lateral sides which, when the wedge-shaped elements are displaced relative to one another on the wedge-shaped sides, extendable or plug-in relative to each other, are provided with through grooves and through springs.

BACKGROUND OF THE INVENTION

Insulating panels of this kind are known from German utility model No. GM 87 03 088.8. The insulating panels described in this utility model serve to seal the space between the rafters of, for example, a tent roof. Due to the mutual adjustability of the wedge-shaped panel elements on their wedge-shaped lateral sides and the possibility of trimming these insulating plates, it is possible to adapt these insulating plates to different relative spacing of rafters in the roof structure.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a structure of an insulating board of the kind mentioned, which is easy to cut and install and provides a better insulating effect even in the area of contact between adjacent insulating boards.

SUMMARY OF THE INVENTION

The problem is solved and the drawbacks of known insulating boards of this kind are largely eliminated by a rectangular-shaped insulating board consisting of a pair of wedge-shaped plate elements which abut one another with their wedge-shaped side faces, is to be cut to a reduced rectangular format, the wedge-shaped plate elements having passage grooves and passage tongues according to the invention, on their narrow lateral sides which, when the wedge-shaped elements are displaced on the wedge-shaped lateral sides relative to one another, in that in the protruding corners of the wedge-shaped plate elements cut off during the preparation of a smaller rectangular format of the insulation board, a parallel to the plane of the insulation board is formed o the depth of the through grooves and the height of the through feathers.

Due to the use of grooves and tongues, good tightness is achieved at the point of contact of adjacent insulation boards and the formation of thermal bridges at these points is also avoided. As the insulating board is sized by moving the wedge-shaped elements relative to one another in the plane of their wedge-shaped lateral sides, it is possible, thanks to the said splitting of the wedge-shaped elements, to easily make through grooves and tongues even at newly cut edges. For this purpose only simple tools are required and no expert skill is required, so that the insulation board according to the invention can be used in DIY applications.

In one preferred embodiment of the insulating plate according to the invention, the through groove and the through tongue are formed on only two narrow lateral sides, preferably those which shorten when the wedge-shaped panel elements slide along the wedge-shaped sides. In its basic state, the insulating plate has the smallest width and can be moved relative to one another

The wedge-shaped panel elements can be expanded to accommodate, for example, the distance between the rafters in the roof structure. The edges of the insulation board adjacent to the rafters are straight, while the edges running across the rafters are provided with grooves and tongues.

In a further preferred embodiment of the insulating board according to the invention, the wedge-shaped board elements are provided with through grooves and through holes on all four lateral sides of the insulating board. This solution allows the lining of larger areas while maintaining good tightness and avoiding the formation of thermal bridges at the point of contact of adjacent insulation boards.

In both embodiments described, it is preferred that a through groove is formed on one side, while a through tongue is formed on the opposite side. This solution is extremely simple from a production point of view and is also advantageous in terms of assembly.

Furthermore, it is advantageous if the wedge-shaped plate elements of the insulating plate are provided with a groove and tongue even on their wedge-shaped lateral sides. It is preferred that one wedge-shaped plate element is provided with a groove on its wedge-shaped side and the other wedge-shaped plate element is provided with a tongue on its wedge-shaped side. In this way, good tightness is also achieved in the region of the wedge-shaped sides and the formation of thermal bridges in this area is also prevented. The use of the grooves and tongues also prior to laying the insulating boards facilitates the cutting of the insulating board exactly to the dimension 20 of the distance between adjacent rafters.

The wedge-shaped plate elements may be in one piece and of a uniform material, and said division may be formed by narrow cut-outs. A preferred material for the wedge-shaped panel elements is a foam, in particular a polystyrene particle-based foam.

However, the wedge-shaped plate elements may also be composed of layers of identical or different materials, the through grooves and the through tongues may be formed by offset of the layers and the division may be formed by non-glued areas of layers.

In a further preferred embodiment of the insulating board according to the invention, the wedge-shaped panel elements consist of a central layer of mineral or glass fibers and outermost layers of foam, in particular polystyrene-based foam, arranged on both sides of the middle layer. The insulating board then combines the good sound-insulating properties of the mineral or glass fibers with the appropriate thermal-insulating properties of the polystyrene-based foam with appropriate geometry. These foams generally repel water, so as to avoid wetting the middle layer of mineral or glass fibers and thus increasing its thermal conductivity and the associated deterioration of its thermal insulating properties.

It is preferred that the outer layers of the insulating board have an identical thickness to each other. In the case of an insulating board, there is no need to distinguish its inner and outer sides, so that both sides of the insulating board are equivalent in terms of assembly, which greatly facilitates the laying of such insulating boards.

The layers of the insulation board are glued to each other, except for the separation areas. The previously described separation is then simply formed by the non-glued areas 45 of the contact surfaces of the layers.

BRIEF DESCRIPTION OF THE DRAWINGS

BRIEF DESCRIPTION OF THE DRAWINGS The invention is further elucidated with reference to the accompanying drawings, in which: FIG

-2GB 285725 B6

FIG. 1 shows a front view of a first embodiment of an insulating board according to the invention, which consists of two one-piece wedge-shaped board elements and is provided with a groove and a tongue on two sides;

- FIG. 2 shows a side view of the insulating plate in the direction Π of FIG. 1,

- Fig. 3 is a side view of the insulating plate in the direction ΠΙ of Fig. 1,

FIG. 4 is a plan view of the insulating plate in the IV direction of FIG. 1,

FIG. 5 shows a front view of an insulating plate with spaced apart wedge-shaped plate elements,

FIG. 6 shows a front view of the insulating plate with the wedge-shaped plate elements displaced relative to one another,

FIG. 7 shows a front view of a second embodiment of an insulating board according to the invention, which consists of two one-piece wedge-shaped board elements and is provided with grooves and tongues on all four lateral sides,

Figure 8 is a side view of the insulating plate in the Vin direction of Figure 7;

FIG. 9 shows a side view of the insulating board in the IX direction of FIG. 7,

FIG. 10 is a plan view of the insulating plate in the X direction of FIG. 7;

11 shows a front view of a third embodiment of an insulating board according to the invention, which consists of two three-layer wedge-shaped board elements and is provided with a groove and a tongue on two lateral sides,

Fig. 12 is a side view of the insulating plate in the XH direction of Fig. 11, and

FIG. 13 is a side view of the insulating board in the direction XIII of FIG. 11.

DETAILED DESCRIPTION OF THE INVENTION

The insulating panels 10, 60, 70 in the individual embodiments are made of materials having sound or thermal insulating properties which can be cut, in particular foam and mineral or glass fibers. The insulating plates 10, 60 according to FIGS. 1 to 10 are of uniform material. These insulating panels 10, 60 may be, for example, a foam composed of polystyrene particles. The insulating board 70 in the third embodiment of Figures 11 to 13 has a three-layer construction with a central layer of mineral or glass fibers 72 and an outer layer 74 of foam, in particular a foam consisting of polystyrene particles.

The basic shape of the insulating panels 10, 60, 70 is rectangular, i.e. rectangular or square. Each of these insulating plates 10, 60, 70 consists of a pair of wedge-shaped plate elements 12, 14, which can be imagined to be formed by dividing the insulating plates 10, 60, 70 along a line which extends approximately diagonally from one side of the insulating plate 10 60. 70 to the other side. These wedge-shaped plate elements 12, 14 are trapezoid-shaped. Triangular plate elements - not shown, which are also usable for this purpose - are formed at precisely diagonal divisions.

In the first embodiment of the insulating plate 10 according to FIGS. 1 to 6, the wedge-shaped plate elements 12, 14 are provided on one narrow side 52 with a through groove 16 and on the other narrow side 42 through a tongue 18 which can fit into the through groove 16.

It is further evident from FIG. 5 that a wedge 22 is formed in the wedge-shaped side 20 of the wedge-shaped plate element 12 with the longer through-groove 16, and on the opposite wedge-shaped side 20 of the wedge-shaped plate element 14 with the longer through-key. 18, a tongue 24 is formed which fits into the groove 22 in the opposite wedge-shaped plate element 12. The grooves 16, 22 are formed in the middle of the thickness of the wedge-shaped plate elements 12, 14 and have a rectangular cross-section. The tongues 18, 24 with a corresponding rectangular cross section also extend in the middle of the thickness of the wedge-shaped plate elements 12, 14.

It can be seen from FIG. 6 that the wedge-shaped plate elements 12, 14 can be displaced relative to one another, which is formed by a groove 22 and a tongue 24 located on their wedge-shaped sides 20, thus increasing the width of the insulating plate 10, e.g. to accommodate the gap between the rafters in the roof structure and the like. In order to achieve a rectangular shape again, the projecting corners 26, 28 need to be cut off and in the extension of the passage groove 16 of the wedge-shaped plate element 12 to form a continuation of this passage groove 16 in the wedge-shaped plate element. the wedge-shaped plate element 12 continues this tongue 18.

To facilitate this, narrow cut-outs 30, 32 are formed in the wedge-shaped plate elements 12, 14 in the region of the cut-off overlapping corners 26, 28, which extend at the level of the lateral sides 34 of the through grooves 16 or outer sides 36 of the through tongues 18. The depth of the narrow cut-outs 30, 32 is defined by the base line 58, which extends parallel to the sides of the insulating plate 10. These narrow cut-outs 30, 32 then define the side walls of the through grooves 16 or through flanges 18 formed additionally after cutting overlapping corners. 26, 28.

Upon subsequent formation of the tongue 18, the outer layers 38 of the wedge-shaped plate element 12 separated by the narrow slits 30 are cut off first from the overlapping corner 26, up to the arrow 40 in the extension of the narrow side 42. This makes the middle layer 44 accessible between the narrow slits 30. which is then cut to the height of the arrow 46 in the extension of the outer edge 48 of the tongue

18.

In the subsequent formation of the through groove 16, all three layers 38, 44 are first cut from the overlapping corner 28 to the height of the arrow 50 in the narrow side extension 52. Then the middle layer 44 is cut into the depth of the arrow 54 in the bottom extension 56 of the through groove 16. between narrow slots 32.

The insulation board 60 in the second embodiment of FIGS. 7 to 10 differs from the insulation board 10 previously described only in that it is provided with through grooves 64 and through tongues 62 also on the long sides. Thus, the wedge-shaped plate element 12 with the longer through groove 16 is provided with a tongue 62 on its longer side 66, and the wedge-shaped plate element 14 with the longer through-tongue 18 is provided on its longer side 68 with a through groove 64 into which the tongue 62 adjacent insulating panels 60 (not shown). The construction of the through grooves 64 and tongues 62 on the longer side faces corresponds to the narrower side faces and to the wedge-shaped side faces 20.

The insulating plate 70 in the third embodiment according to FIGS. 11 to 13 corresponds to the geometry of the construction of the first embodiment of the insulating plate 10 according to FIGS. 1 to 6. It is therefore provided with through grooves and through feathers only on its narrower sides and wedge-shaped sides 20.

The wedge-shaped plate elements 12, 14 of the insulating plate 70 consist of a central layer 72 of mineral or glass fibers and a pair of outer layers 74 on both sides of the central layer 72, which are foamed, preferably polystyrene-based foam. Extreme

The layers 74 have the same thickness. The layers 72, 74 are glued together at their interface.

The through grooves 16 and through tongues 18 are formed on the insulating plate 70 by offsetting the layers 72, 74. The middle layer 72 is therefore displaced inwardly relative to the outer layers 74 to form the through groove 16. Conversely, the tongue 18 is formed by the overlap of the middle layer 72 relative to the outer layers 74.

Also, in the insulation board 70, an increase in its width can be achieved by the previously described relative displacement of the wedge-shaped plate elements 12, 14 in the plane of the wedge-shaped sides 20. In order to facilitate the additional formation of through grooves 16 and through-feathers 74 in the region of the overlapping corners 26, 28 glued to each other, to the extent indicated by the clamps.

It is understood that a similar multi-layer structure may have an insulating board 60 in the second embodiment of FIGS. 7 to 10, which is provided with grooves and grooves on all four sides thereof. It is sufficient if the narrow cut-outs 30, 32 in the drawings are replaced by non-glued areas of the layers from which this insulating plate 60 may consist.

As a foam, for example a foam based on polystyrene particles, a material with a low specific gravity of less than 15 kg per cubic meter, preferably about 8 kg per cubic meter, is recommended. The foam can be molded to increase its elasticity and improve sound insulation properties.

PATENT CLAIMS

Claims (12)

An insulating plate of rectangular shape, which consists of a pair of wedge-shaped plate elements (12, 14) abutting each other by their wedge-shaped side faces (20), slidable relative to one another in guides formed in these wedge-shaped side faces (20). the wedge-shaped plate elements (12, 14) are on their narrow side faces (42, 52) which, when the wedge-shaped plate elements (12, 14) move relative to each other on the wedge-shaped side faces (20) relative to each other extendable or plug-in, provided with through grooves (16, 64) and through tongues (18, 62), characterized in that in the overlapping corners (26, 28) of the wedge-shaped plate elements (12, 14) cut off in preparation for a smaller rectangular format of the plate (10, 60, 70), is formed in depth through the plane of the insulating plate (10, 60, 70) grooves (16, 22, 64) and the heights of the tongues (18, 24, 62) of the partition (30, 32). Insulating plate according to claim 1, characterized in that the through groove (16) and the through tongue (18) are formed on only two narrow side faces (42, 52). Insulating plate according to claim 1, characterized in that the wedge-shaped plate elements (12, 14) are provided with through grooves (16, 64) and through tongues (18, 62) on all four lateral sides (42, 52, 66). 68) insulating boards (60). Insulating board according to claims 1 to 3, characterized in that a through groove (16, 64) is formed on one side (52, 68), while a through tongue (18, 62) is formed on the opposite side (42, 66). ). -5GB 285725 B6 Insulating board according to Claims 1 to 4, characterized in that it has a groove (22) and a tongue (24) on its wedge-shaped lateral sides (20). Insulating board according to claim 5, characterized in that one wedge-shaped plate element (12) is provided with a groove (22) on its wedge-shaped side (20) and the other wedge-shaped plate element (14) is on its wedge-shaped side (20). ) provided with a tongue (24). Insulating board according to claims 1 to 6, characterized in that the wedge-shaped plate elements (12, 14) are one-piece and are formed of narrow cut-outs (30, 32) from a uniform material and the division (30, 32). Insulating board according to claim 7, characterized in that the wedge-shaped plate elements (12, 14) are made of foam, in particular foam based on polystyrene particles. Insulating board according to claims 1 to 6, characterized in that the wedge-shaped panel elements (12, 14) are composed of layers (72, 74) of identical or different materials, a through groove (16, 22, 64) and a through tongue (18). , 24, 62) are formed by offset of the layers (72, 74) and the division (30, 32) is formed by non-glued areas of the layers (72, 74). Insulating panel according to claim 9, characterized in that the wedge-shaped panel elements (12, 14) consist of a central layer (72) of mineral or glass fibers and outermost layers (74) arranged on both sides of the intermediate layer (72). foams, in particular foams based on polystyrene particles. Insulating board according to claim 10, characterized in that the outer layers (74) have an identical thickness to each other. Insulating board according to claim 10 or 11, characterized in that the layers (72, 74) are glued to one another on their contact surfaces, with the exception of the separation zones (30, 32).