EP2309068A2 - Block shaped element for supporting loads on composite heat insulation system facades - Google Patents

Abstract

The rectangular element (4) comprises a receiving bore (13,14,15), which runs in the direction of sides (5,6,7) formed corresponding to side-length of an insulation panel. The receiving bore penetrates the element for receiving a supply line (19), particularly a cable. The rectangular element is made of plastic, particularly polystyrene, polyurethane or polyisocyanurate, foam, wood or wood containing material, and is fastened in a recess of the heat insulation realized by insulation panels directly on the brickwork (1).

Description

The invention relates to a cuboid element for fastening loads to ETICS facades and other ventilated facades, which is to be fastened directly to the masonry in a recess of the thermal insulation realized by means of insulation panels, wherein the side length of at least one side of the element substantially corresponds to the thickness of an insulating panel ,

Such a fastener is made, for example DE 200 00 540 U1 known. It is used to attach loads such as a handrail, a lamp or the like. Such loads can not be attached directly to the facade, as a dowel does not hold in the heat insulation layer formed on insulation boards, such as PS plates. Also, it is usually not possible to anchor the dowel through the thermal barrier layer throughout the masonry located behind it, as the pressure and shear stress on the covered only by a thin layer of plaster thermal barrier coating is too large. However, if such a cuboidal element set, so this is taken on the one hand even as flush as possible in the corresponding recess in the thermal barrier coating, on the other hand, it is firmly anchored in the masonry. Since the element is made of strong material, a load can easily be screwed to it.

It is useful in this case to dimension at least one side length of the element so that it corresponds to the thickness of an insulating panel. That is, the cuboidal element in one dimension is sized as long as an insulation board is strong. In the case of the already mentioned DE 200 00 540 U1 known element even all three running in the different spatial directions side lengths are dimensioned so that they correspond to different insulation board thicknesses. This makes it possible to use this mounting block variable with different thermal insulation board thicknesses. This means that it only has to be oriented in such a way that the side with the side length that corresponds to the thickness of the insulation boards used is orthogonal to the wall plane.

Especially when a component to be connected to a supply line is to be fastened to the parallelepiped element, problems arise as the supply line, which usually runs in the masonry, laterally on the element, optionally in a corresponding formed in the adjacent insulation board groove, must be guided, and at the front if necessary angled 90 ° to guide them to the component. For example, here is a cable that serves to connect a lamp to be fastened to the element to think. This cable management is cumbersome, sometimes additional work to form a groove and the like are provided. Sometimes it is when kinking of the supply line is difficult, also required to place side by side, two cuboid elements with a slight distance, and to lead the cable or the like between them, so that it can be performed directly without kinking in the component. The lamp or the like, since the cable is usually to be inserted from the rear into the lamp housing, to be attached to both elements.

The invention is therefore based on the problem to provide a cuboidal element for load fastening, which simplifies the laying respectively guiding a supply line to a component to be fastened thereto.

To solve this problem is provided according to the invention in a cuboid element of the type mentioned, at least one in the direction of the side in the length of the insulating board thickness corresponding sides extending and passing through the element receiving bore for receiving a supply line, in particular a cable is provided.

The cuboidal element according to the invention thus has at least one continuous receiving bore, which runs in the direction, that is, substantially parallel to the sides of the insulating board thickness corresponding sides, thus therefore from one side surface to the opposite side surface. This makes it possible with particular advantage to introduce the supply line, so for example, the electric cable, coming from the masonry from behind into the receiving bore, and to lead at the front directly to the component to be fastened. Consequently, the supply line passes through the element, so it is no longer expensive to guide it laterally, nor are two elements to be juxtaposed to properly position the component such as the lamp or the like with respect to the cable to be led between the elements or the like to be able to.

An expedient development of the invention provides that all three side lengths of the element correspond to different insulation board thicknesses, wherein at least three separate mounting holes, one of which extends in the direction of one side, are provided. This cuboidal element according to the invention is to the advantage that it is variable to use with different insulation board thicknesses. Regardless of how the cuboidal element is to be oriented in the mounting position, always a receiving bore from the rear side surface to the front side surface, so that in each orientation of the cuboidal element, the supply line can be passed through a corresponding receiving bore.

Particularly advantageously, each receiving bore is provided on each side surface center, so that the receiving holes intersect in the middle of the element. This makes it possible, for example, to place a lamp centrally on the element and to insert the cable directly.

An advantageous development of the invention provides to provide the or each receiving bore in a side surface with a chamfer. This means that at each mouth of the receiving bore a chamfer is sunk. Consequently, no sharper edges are provided in the mouth region, which damage the supply line, which may be slightly laterally offset relative to the lead-through direction after it leaves the receiving bore for connection to the component, that is to say, for example, a lamp.

The different side lengths of a parallelepiped-shaped element, which corresponds to a standardized insulation thickness on all three element sides, can be, for example, 60 mm, 80 mm and 100 mm. This therefore allows a Verbauen of the element with insulation boards of thickness 60 mm, 80 mm and 100 mm. An alternative, larger designed element, for example, has three different side lengths of 100 mm, 120 mm and 140 mm. This element can therefore be processed with insulation boards of thickness 100 mm, 120 mm and 140 mm.

For a simple attachment of the element to the masonry, preferably, each side surface has through-hole dowel fixing holes, wherein preferably each diagonally offset dowel fixing holes are provided.

The cuboidal element itself can be made of any sufficiently stable material, which optionally also has sufficient thermal insulation properties. Conveniently, it is formed from a plastic, in particular PS, PUR or PIR, wherein the plastic may optionally also be slightly foamed. It is therefore in any case a hard material. It is also conceivable, however, to produce the element from a wood-based material, for example from a chip material, or from a wood-containing material, for example a plastic-wood mixture or the like.

Fig. 1

eine Teilansicht einer WDVS-Fassade mit einer Dämmplattenaus- sparung, in die ein erfindungsgemäßes quaderförmiges Element wie gezeigt einzusetzen ist,

Fig. 2

eine vergrößerte Ansicht des erfindungsgemäßen Elements aus Fig. 1, und

Figuren 3 - 5

Schnittansichten längs der Linie A in Fig. 1 bei unterschiedli- chen Orientierungen des quaderförmigen Elements zu unter- schiedlichen Dämmplattenstärken.

Further advantages, features and details of the invention will become apparent from the embodiment described below and with reference to the drawings. Showing:

Fig. 1

2 a partial view of an ETICS facade with a Dämmplattenaus- savings, in which a cuboidal element according to the invention is to be used as shown,

Fig. 2

an enlarged view of the element according to the invention Fig. 1 , and

Figures 3 - 5

Sectional views along the line A in Fig. 1 with different orientations of the cuboid element to different insulation board thicknesses.

Fig. 1 shows a masonry 1, to which a thermal insulation board 2 is preferably adhered by means of an adhesive foam. This thermal insulation board, together with further thermal insulation panels to be arranged laterally, forms a thermal insulation layer by means of which a ETICS facade (ETICS thermal insulation composite system) can be produced. On the thermal insulation boards a plaster layer is applied in a known, but not shown way.

In order to be able to fasten a load, ie any component such as a lamp or the like, to such an ETICS facade, a recess 3 is introduced into an insulating panel 2 at the desired attachment point, into which a cuboidal element 4 according to the invention is subsequently inserted, as Fig. 1 shows. The height and width of the recess is essentially dimensioned according to the height and width of the element 4. The depth of the recess corresponds to the depth of the element 4. This is because all three edges 5, 6 and 7, and thus the corresponding side surfaces that are orthogonal to each other, have different lengths. Each edge length, hence the length of each side, corresponds to a certain normalized or commercially available thickness of an insulating panel. For example, the length of the edge 5 corresponds to an insulation board thickness of 60 mm, that is, the edge 5 and consequently this side length is 60 mm. The edge length 6 corresponds to an insulation board thickness of 80 mm, the side length along the edge 6 is therefore 80 mm. Finally, the length of the edge 7 corresponds, for example, to an insulation board thickness of 100 mm, that is to say that the length of this side is 100 mm.

This makes it possible, as in the Figures 3 - 5 shown, the element 4 according to the invention with different strong insulation boards 2, 2 'and 2 "to install, wherein the element 4 is only to be oriented accordingly and in each case is substantially flush with the Dämmplattenoberfläche.

For fixing the element to the masonry 1 dowel mounting holes 8, 9 and 10 are provided, each side surface two diagonally offset lowered dowel mounting holes are provided. With the help of dowels 11 and screws 12, the element can be firmly attached to the masonry 1. The attachment of the actual load on this element can be done by any attachment system, ie by gluing, screws or the like.

If the load to be fastened is a component which is to be connected to a supply line, such as a lamp, which is to be connected to a power cable, a corresponding cable routing is readily possible when using the element according to the invention. Because the element has in the embodiment shown, three separate receiving holes 13, 14 and 15, each extending in the example shown in parallel to each side surface respectively edge 5, 6 and 7, and therefore are orthogonal to each other. These receiving bores are each arranged laterally in the middle, that is, they each extend from one side surface to the opposite side surface, so that they intersect in the middle of the elemental cuboid. In the mouth region on each side surface each receiving bore 13, 14, 15 is provided with a chamfer 16, 17, 18, so that there are no sharp edges in this area.

Will be, see Fig. 1 Coming from the masonry 1 a supply line 19, here for example an electric cable, introduced, so this can be introduced at the rear side surface of the element 4 in the receiving bore 13 and passed through it, so that it exits at the front and readily with the lamp or the like, which is to be screwed to the front, can be connected. The diameter of a receiving bore should be at least 10 mm, but may also be larger in diameter, depending on the diameter of a supply line to be performed.

Although in the described embodiment, the element according to the invention has three different side lengths, each corresponding to different insulation board thicknesses and with respect to each spatial direction is provided in each case a separate receiving bore, it is of course also conceivable to form a parallelepiped element in which only one side length corresponds to a defined insulation board thickness, that is primarily only with a certain Insulating board type can be installed. In this case, only one preferably center-side receiving bore is provided, which extends in the direction of this matched to the insulation board thickness pages, ie parallel to these pages. Similarly, the invention also includes an element in which this embodiment is provided for two in their length to different thicknesses coordinated sides, in this case, two receiving holes would then be provided. The most variable embodiment is in the Figures 1 - 5 shown.

Finally, it should be noted that the element consists of a rot-free, pressure-resistant and heat-insulating material, such as an optionally slightly foamed plastic, so that the element can be produced as an extrusion. The use of a wood-based material or a wood-based material is conceivable.

Claims (7)

Block-shaped element for fastening loads to ETICS facades and other ventilated facades, which is to be fastened directly to the masonry in a recess of the thermal insulation realized by means of insulating panels, the side length of at least one side of the element substantially corresponding to the thickness of an insulating panel, characterized in that at least one receiving bore (13, 14, 15) extending in the direction of the sides (5, 6, 7) corresponding in their side length of the insulating board thickness and for passing through the element (4) is provided for receiving a supply line (19), in particular a cable , Rectangular element according to claim 1, characterized in that all three side lengths of the element (4) correspond to different insulation board thicknesses, wherein at least three separate receiving bores (13, 14, 15), one of which extends in the direction of one side (5, 6, 7 ) are provided. Rectangular element according to claim 2, characterized in that the receiving bores (13, 14, 15) are each provided in the side surface center and intersect each other in the middle of the element. Block-shaped element according to one of the preceding claims, characterized in that the or each receiving bore (13, 14, 15) in a side surface with a chamfer (16, 17, 18) is provided. Rectangular element according to one of claims 2 to 4, characterized in that the side lengths 60 mm, 80 mm and 100 mm or 100 mm, 120 mm and 140 mm. Rectangular element according to one of the preceding claims, characterized in that preferably each side surface with continuous Dowel mounting holes (8, 9, 10), in particular two diagonally offset dowel mounting holes is provided. Block-shaped element according to one of the preceding claims, characterized in that it consists of a plastic, in particular PS, PUR or PIR, optionally foamed, or consists of a wood material or a wood-containing material.

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