DE29900359U1 - Carrier plate - Google Patents

Description

Carrier plate

The invention relates to a carrier plate made of insulating material for forming floor composite bodies with a mineral-bound mortar layer, wherein the carrier plate essentially consists of a flat base element with structural elements protruding on one side, between which heating pipes can be clamped.

Support plates for the specified purpose are known from DE 29602442 LM. These known support plates consist of an insulating material, preferably polystyrene. The floor composite bodies produced with them represent the subfloor for a final floor covering, for example ceramic tiles. According to the principle of a floating screed, the screed mortar is separated from the supporting subfloor by the relatively soft support plates and is not connected to it. It simply rests on this intermediate layer of support plates. The screed is intended as a load distribution layer for the even introduction of load forces via the intermediate layer into the supporting subfloor, such as a concrete ceiling. The support plate made of insulating material is placed on the supporting subfloor. The structural elements that protrude upwards are preferably evenly distributed over the support plate, which is also preferably rectangular or square. Heating pipes are held clamped between these structural elements so that they do not change their position when the liquid screed is poured on. The thickness of the screed must be such that

-2-

be so large that it forms a load-bearing base plate on its own. To ensure sufficient load-bearing capacity, the German ATV-DIN 18353 recommends that the mortar cover over the projecting elements be at least 45 mm.

The utility model document mentioned shows that in order to produce a load-bearing mortar or screed layer, it is not necessary to provide a covering with a thickness in accordance with the state of the art. Instead, the load-bearing capacity of the screed requires separating layers

“A sufficient and even load distribution is crucial under loads. The negative structures formed in the underside of the mortar layer by the protruding structural elements of the support plate represent weak zones in relation to the total thickness of the screed or mortar layer. If tensions occur within this layer, separating surface groups form from these weak points in the covering layer to relieve the tension. The predefined arrangement of these weak areas makes it possible to predetermine the lines along which separating surface groups form. Due to the small dimensioning of the mortar cover over the structural elements of a support plate that protrude upwards, the mortar cover over the laid underfloor heating pipes is also reduced.

In practice, however, it has been shown that if the front sides of the structural elements of the support plates are only slightly covered, there is a risk of breakage under high local loads, such as those that can arise from heels or chair legs.

The object of the invention is therefore to design support plates for the stated purpose in such a way that the risk of breakage in the area of the relatively thin mortar cover over the structural elements is reduced, but the mortar cover as a whole is not increased in this area in order not to impair the desired stress relief over the separating surface groups that form.

The object of the invention is achieved with carrier plates with the features of claim 1. With the carrier plates according to the invention it is possible to produce composite bodies according to the teaching of DE 29602442 U1, however, due to the inventive recesses in the

&bull; <

·

·

-3-

Front sides of their structural elements the breaking strength in the area of the relatively thin screed coverings is reduced.

The area of the recesses must be selected in a favourable ratio, taking into account the remaining sufficient strength of the structural elements made of insulation material, which are also intended to support the heating pipes to be clamped in laterally.

&iacgr;&ogr; According to a preferred embodiment according to claim 2, the structural elements, which are essentially circular in cross section, have a concentric recess. Such structural elements can have lateral recesses or undercuts in or on which heating pipes can be clamped. These receptacles can be provided, for example, as circumferential grooves on the lateral surfaces of the structural elements.

The invention is explained in more detail below using an illustrated embodiment. Shown are:

Fig. 1: a partial longitudinal section through a floor composite body

with a carrier plate according to the invention

and

Fig. 2: a top view of an associated carrier plate.

Fig. 1 shows a floor composite body 1, which is arranged on a concrete foundation 3 above an insulation board 2 for impact sound insulation. The actual floor composite body 1 has a carrier plate 4, preferably made of an insulating material such as polystyrene, which essentially consists of a base plate 5 and a large number of structural elements 6 projecting upwards. These structural elements 6 are circular in cross-section and have a flat front surface. A recess 61 is provided concentrically in each of these front surfaces 6. The arrangement of the structural elements 6 on the base plate 5 is offset. Heating pipes 7 are held in a recessed manner between individual structural elements 6.

-A-

In the embodiment shown, plastic pipes 7 are inserted between the structural elements 6 as underfloor heating. The arrangement of the support plate 4 and the plastic pipes 7 clamped to it is filled with screed 8 up to a predetermined covering height. The screed 8 has a conventional composition.

The height H of the structural elements 6 is 30 mm in the embodiment shown. The diameter D of the structural elements 6 is 60 mm, which results in a ratio of H:D of 1:2. The coverage Ü of the screed layer 8 over a structural element 6 is 10 mm, which results in a ratio of H:Ü of 1:0.33. The total thickness of the screed is therefore H + Ü, which corresponds to 40 mm in the embodiment shown.

To improve the clamping of the screed 8 to the structural elements 6 and to clamp heating pipes 7, the structural elements 6 are designed with a slight undercut. However, it is also possible to provide circumferential receiving grooves for the heating pipes on the sides of the outer surfaces of these structural elements 6.

From Fig. 1 it can be seen that the mortar cover or the mortar layer thickness is increased in the areas of the recesses 61 in the end faces of the structural elements 6.

Claims (4)

-5-Protection claims 1. Support plate made of insulating material for forming floor composite bodies with a mineral-bound mortar layer, the support plate essentially consisting of a flat base element with structural elements projecting on one side, between which heating pipes can be clamped, characterized in that the structural elements (6) which are flat on their end faces have one or more recesses (61). 2. Support plate according to claim 1, characterized in that the structural elements (6) which are essentially circular in cross-section and have a concentric recess (61). 3. Carrier plate according to claim 1 or 2, characterized in that the structural elements (6) have lateral receptacles or undercuts in or on which heating pipes (7) can be clamped. 4. Support plate according to claim 2, characterized in that cylindrical structural elements (6) have circumferential receiving grooves for heating pipes (7).