NL193952C - Carpeting. - Google Patents

Description

1 193952

Carpeting

The invention relates to a floor covering, at least comprising a resilient layer resting on a support surface, above which there is an elastic mortar layer, on which a covering layer consisting of tiles has been bonded, between which tiles have been placed.

Such a floor covering is known from German Offenlegungsschrift 2,835,924 and more particularly consists of successively a plastic layer as a resilient layer, directly on top of this a mortar layer with elastic properties, as well as a covering layer with natural stone tiles or ceramic tiles which are adhered thereby. The plastic layer is further connected to the carrier layer by means of a thin mortar layer.

Although this known floor covering does not show any deformation or cracking in the presence of a large-sized tile covering, it has been found that in places where pressure is frequently applied, the presence of a smaller sized tile covering over time has been found. will deform and sagging will occur.

The object of the invention is now to provide a floor covering which does not have these disadvantages.

This object is achieved according to the invention in that there is a pressure-distributing layer between the resilient layer and the mortar layer, which has a high elasticity mode on bending. The presence of a pressure-distributing layer results in the prevention of sagging and possible cracking of the tiles and in the joints between the tiles of the covering layer.

Values of the flexural strength for the pressure distributing layer of 10,000 to 20,000, preferably about 15,000 N / mm 2, at a layer thickness of about 5 mm, have proven effective in practice.

It should also be noted that the spring-distributing layer does not have to be adhered to the carrier surface by a pressure-distributing layer in the floor covering according to the invention with a hydraulic binder, but can only rest on it with the formation of a so-called floating floor covering. This offers the advantage that the floor covering can be removed without damaging the substrate, if necessary.

Due to the above properties, the present floor covering can not only be used particularly well on light commercial floors, but also in residential houses and / or in apartment buildings.

It is noted that a layer which lies between a resilient layer and a mortar layer, in a floor covering of the type mentioned in the preamble, is known per se from French patent application 2,404,085. However, it does not appear from this publication that this layer is suitable as a pressure-distributing layer with a high modulus of elasticity, but only that it is a hard top, perforation-resistant and soft bottom layer.

Advantageously, the pressure-distributing layer in the present floor covering consists of plates which are coupled to each other by means of vertical shear-preventing coupling elements. This makes it possible to assemble the pressure-distributing layer from manageable plates.

The vertical shear preventing coupling elements preferably have an H-shaped profile. Since the plates that form the pressure-distributing layer form part of a floor covering that is applied on site, an embodiment of the H-shaped profile in which the legs have an unequal length has proved very effective.

However, the plates that form the pressure-distributing layer can also be coupled together in another way. For example, the vertical shear-preventing coupling elements can consist of a tongue and groove connection present on the plates; or they may consist of bonding strips glued to the plates, which may or may not have adhesive on the surfaces of the pressure-distributing layer facing the resilient layer and the mortar layer.

Such a pressure-distributing layer can be quickly laid on a substrate.

The pressure-distributing layer advantageously consists of fiber-reinforced cement-bonded plates. They have the property that they are moisture-resistant and thus retain their properties under the influence of moisture from the mortar layer.

The resilient layer, the pressure-distributing layer and the mortar layer have substantially the same thickness. This is particularly important when used in existing homes, because it allows the requirement of a thin construction to be met.

The invention will now be elucidated with reference to the drawing, in which: figure 1 shows a section of a known floor covering, figure 2 shows a section of a floor covering according to the invention, figure 3 shows a section of a coupling element to be used and

Claims (9)

193952 Figure 4 shows an alternative embodiment of the pressure distributing layer. Figure 1 shows a lower support surface in the form of a wooden or concrete floor 1 on which a floor covering according to German Offenlegungsschrift 2,835,924 has been applied. More particularly, this known floor covering consists of a resilient layer 2 of plastic foam plates, on which a mortar layer 4 is applied. This mortar layer is formed from a mixture of sand, cement and rubber particles, mentioned with water and a latex, and has elastic properties. A layer of tiles 3 is applied to the mortar layer 4, the joints between the tiles being filled with a special elastic joint mortar 10, preferably latex cement. Figure 2 shows a cross-section of a floor covering according to the invention with the following construction. A layer 2 of resilient material, such as a felt layer, is placed on the lower support surface consisting of a floor 1. This layer does not need to be anchored to the bottom support surface in any way. A pressure-distributing layer 7 is made on the resilient layer 2, consisting of preformed rigid plates 5, which are coupled together by means of coupling elements 6. This prevents vertical shearing of the plates 5. However, the coupling of the preformed plates 5 can also take place in another manner, for instance as shown in figure 4. More in particular, the coupling elements then consist of a tongue and groove connection 11, 12 arranged on the plates 5. Although 20 is not shown in more detail, the plates 5 can also be coupled to each other by means of adhesive strips. Other coupling elements or embodiments of plate 5 that prevent a vertical shear are also conceivable. The plates 5 preferably have a high strength and a high bending strength. The flexural strength is preferably 10,000 to 20,000 N / mm 2, expediently about 15,000 N / mm 2 in the case of a fiber-strength, cement-bonded sheet with a thickness of 5 mm. A mortar layer 4 is applied to the pressure-distributing layer 7, with the same composition as indicated in figure 1. This mortar layer carries a layer of tiles 3 which are set in the mortar layer and are joined with joint material 10. As shown in figure 3, the coupling elements 6 preferably have the shape of an H, the legs of which have an unequal length. The uneven leg length means that the plates 5 can be coupled together easily and quickly. This coupling takes place by simply sliding the plates 5 between the legs 8a, b and 9a, b of the coupling element 6. It should also be noted that a pressure exerted on the tiles 3 (figure 2) will not lead to undesired deformations or the occurrence of breaks in the covering layer, because this pressure is sufficiently spread due to the use of the coupling elements 6 in layer 7. The presence of the resilient layer 2, which is located between the floor 1 and the pressure-distributing layer 7, has the consequence that the vibrations exerted on the covering layer 3, such as in the event of a contact noise, will be absorbed by the resilient layer 2 and thus an optimum will provide sound insulation. By constructing the pressure-distributing layer 7 from fiber-reinforced rigid plates 5, such as fiber-reinforced cement plates, a structurally strong floor covering is obtained, partly due to the presence of a mortar, with elastic properties. According to an effective embodiment, the thickness of the layers 2, 7 and 4 is of the same order of magnitude, for example 6, 5 and 8 mm respectively. Of course, layers with a different thickness can be used, 45 whereby it is noted that when a floor heating system is included in mortar layer 4, this layer must of course be taken slightly thicker for the behavior of the finished floor, this will not have any consequence. 50 Conclusions Floor covering at least comprising a resilient layer resting on a support surface, above which there is an elastic mortar layer, on which a covering layer consisting of tiles is bonded, between which tiles is interposed, characterized in that there is between the resilient layer (2) and the mortar layer (4) has a 55 pressure-distributing layer (7), which has a high modulus of elasticity on bending. Floor covering according to claim 1, characterized in that the pressure-distributing layer (7) consists of plates (5) which are coupled together by means of vertical shear-preventing coupling elements 3 193952 (6: 11,12). Floor covering according to claim 2, characterized in that the vertical shear-preventing coupling elements (6) have an H-shaped profile. Floor covering according to claim 3, characterized in that the H-shaped profiles have legs (8a, b; 9a, b) 5 of unequal length. Floor covering according to claim 2, characterized in that the vertical shear-preventing coupling elements consist of tongue and groove connections (11, 12) arranged on the plates (5). Floor covering according to claim 2, characterized in that the vertical shear-preventing coupling elements consist of connecting strips glued to the plates, which are provided with or without adhesive on the surfaces of the pressure-distributing layer facing the resilient layer and the mortar layer. Floor covering according to one or more of claims 1 to 6, characterized in that the pressure-distributing layer (7) consists of fiber-reinforced cement-bonded plates. Floor covering according to one or more of claims 1 to 7, characterized in that the resilient layer (2), the pressure-distributing layer (7) and the mortar layer (4) have substantially the same thickness. Floor covering according to one or more of claims 1 to 8, characterized in that the resilient layer (2) consists of a fiber layer, in particular a felt layer. Hereby 1 sheet drawing