DE19945734B4 - Roofing membrane for sealing flat roofs and flat pitched roofs and method for producing a roofing membrane - Google Patents

Abstract

Roofing membrane for a flat roof sealing consisting of a sealing membrane made of plastic, which is provided with mechanical reinforcing means, characterized in that the reinforcing means are coated with a plastic layer and this plastic-coated reinforcing means is connected on one side to the sealing membrane.

Description

The invention relates to a roofing membrane for sealing of flat roofs and flat-pitched roofs according to the generic term of claim 1, and a method for its production according to the generic term of claim 13.

Roofing sheets for the flat roof waterproofing are subject high demands since they are for many years of strong temperature fluctuations, intensive DV radiation and high wind forces and movements of the building have to resist. In addition to bituminous Roofing membranes have been chosen for this Proven plastic roofing membranes for many years. Among other things, this will become more flexible copolymerized plastic made of vinyl acetate and ethylene (VAE). This consists of a sheet-like sheet that can be rolled out on the roof surface Foil of approx. 1 to 2 mm thickness, which is hot air or at the edges swelling welded become. Because these roofing membranes have great thermal and mechanical properties, especially on large roofs Are subjected to loads, it is known to these webs with fabric reinforcements to provide. So that was first fabric reinforcement between two thin ones Plastic films are provided as a sealing membrane and joined together. Since the both sealing sheets each have a certain surface tension, Such a connection deteriorates the flexibility of the roofing membrane. It becomes firmer due to the fabric reinforcement due to the lower Flexibility. Furthermore, the separation force, duplication strength, thickness can vary over the Fabric knots, different qualities between the lower and upper layers and the moisture absorption of the fabric adversely affects durability and affect the processing of the product, which then easily leads to damage and cause leaks can.

There are also plastic roofing membranes known, which consist of a one-piece geomembrane in which a reinforcement grid pressed is. Leading but in the area of the pressed Lattice fibers that there the thickness of the waterproofing membrane is reduced and the lattice fibers push through to the top. Rolling in also creates tension in the roofing membrane endanger the flatness.

From the EP 0 018 691 A1 a roof covering sheet is known in which a full fabric is provided as a reinforcing agent, which is connected on both sides with a soft PVC layer. The two PVC layers represent the sealing membrane of this roof covering membrane, which are each coated as plastic layers on the reinforcement layer. This creates a three-layer roof covering sheet in which the reinforcement layer is laminated between the two halves of the sealing sheet. However, the two halves of the sealing membrane create two additional boundary layers to the fabric layer arranged between them, which can impair the flexibility of the sealing membrane. Furthermore, at high thermal and mechanical loads on the roofing membrane, the upper, relatively thin half of the sealing membrane is at risk of cracking, so that when moisture enters, both roofing membrane halves can peel away from the fabric layer, so that long-term stability suffers.

From the DE 197 55 422 A1 a self-adhesive sealing sheet is known, in which a fabric or glass fiber mat is laminated between a thermoplastic film and a butyl rubber layer for stabilization. Such a lamination process can lead to surface tensions at the transition surfaces between the sealing membrane and the reinforcing layer, which adversely affects the flexibility of the roof covering membrane.

The object of the invention is therefore based on a reinforced To create plastic roofing membrane, the mechanical reinforcing effect additionally creates without the excellent properties of a homogeneous web to influence negatively, but to promote it. Furthermore, in case of stress the tissue reinforcement absorb all loads without the tightness of the homogeneous membrane jeopardize; in case of overload but the tissue only comes loose and the elasticity the roofing membrane comes into full effect.

This object is achieved in the claim 1 and claim 13 specified invention solved. Further training and advantageous embodiments the invention are specified in the subclaims.

The invention has the advantage that the welded Connection between the geomembrane and the additional plastic-coated reinforcement fabric a very flexible roofing membrane can be produced, which is of a high degree and flatness after processing on the roof. she is can be laid loosely on the roof and is excellent because of the fabric mechanically attached. At the same time, by wrapping the reinforcing fabric a relatively flat one Roof membrane can be produced, which still has good sealing properties high vapor permeability has so that it Advantageously, vapor barriers not causing moisture can come.

In the invention it is also advantageous that the additional plastic covering of the reinforcing fabric, the individual roofing membranes are easily connected to each other at their edges, since the plastic masses by a simple source or hot air welding form a dense, homogeneous connection.

The invention has in particular the Advantage that by the wrapping of tissue reinforcement one simple production of the roofing membrane is possible because only the two plastic masses must be connected to each other a firm connection between the fabric reinforcement and the waterproofing membrane to reach.

In a special execution the invention certain areas of the roofing membrane with a higher fiber content or smaller lattice structures, so that there higher demands withstand and improve the connection with the load-bearing Substructure or other fastening devices on the Roof can be used.

In another special version of the Invention can advantageously still on the geomembrane Nonwoven can also be used to provide better protection against sharp edges Split on the roof surface to reach.

Advantageously, one another special design in addition to the non-woven fabric, there is also an additional layer of refractory Material can be used by the use of the reinforced roofing membrane also on fire-prone roofing materials possible and allowed is.

The invention is based on an embodiment explained in more detail.

The roofing membrane according to the invention essentially consists from a sealing membrane made of plastic, which with a fiber reinforced lattice membrane as reinforcing agents is connected on the bottom. The geomembrane acts it is a biocompatible, diffusion-open, root-proof, DV, ozone and temperature-resistant flexible plastic, which is also easy to weld together. Currently this is being done a made by copolymerization of vinyl acetate with ethylene Plastic is used, which is manufactured in webs that lead to the laying flat roof surfaces can be rolled out. These webs are preferably made in widths of 104 cm and 154 cm and usually overlapping on the flat roofs designed and with the help of hot or source welding process firmly connected to each other homogeneously. Such a homogeneous connection is waterproof, permeable, mechanically durable and has proven itself for years.

For this by copolymerization plastic made from vinyl acetate with ethylene (UAE) flat sheets are produced, which are usually 1 to 2 mm, preferably 1.2 mm and 1.5 mm thick and are therefore sufficiently heavy and mechanically stable, to be able to be laid loosely. This is also permissible under load. To execute the Invention are also other plastics for the production of Geomembranes can be used, provided they have the properties described above for sealing flat roofs have.

To increase the mechanical properties The geomembrane is made with the most tear-resistant plastic fibers possible such as polyester reinforced on the underside as a reinforcing agent. there the fibers are connected to form a mesh, which is the mechanical personnel preferably in all directions. A mesh is preferred provided that forms a rectangular grid of 10 × 6 mm edge length. But there are also other lattice shapes made of polygonal and / or round shapes possible, the tensile forces that occur in the longitudinal and transverse directions of the tracks. Lattice webs made of fiber material are provided, which depending on the mechanical strength and number of grids per area Thicknesses from 0.1 to 0.5 mm in diameter. In practice it has there is a thickness of the grid bars of 0.4 mm with a grid size of 6 × 10 mm as beneficial, especially for the mechanical attachment highlighted. The reinforcement can but also formed like a film and also with a lattice structure be provided.

The plastic mesh or natural fibers is initially included in the manufacture of the roofing membrane encased in a plastic, which is firm and easy to weld connects with the roofing membrane. A comparable one is preferably used for this Plastic used that is matched to the roofing membrane. In the Manufacture of the casing the mesh is simply passed through a liquid plastic bath, whereby the superfluous plastic is rolled so that after curing the mesh of a thin one Plastic layer is surrounded. In another factory work process, this is now plastic-coated mesh using a welding process connected to the geomembrane. This creates a homogeneous connection, that at least approximate is as tight and firm as the geomembrane itself. This connection between the plastic-coated scrim and the waterproofing membrane is largely free of tension, so that the later roofing membranes are very flexible remain and can therefore be laid out flat and flat on the roof surface are. Such a roofing membrane can be laid loosely and fastened mechanically become. The plastic-coated surface of the scrim is one such roofing membrane also good and tight at bushings and corners weldable to each other, so that too no moisture between the mesh and the membrane can penetrate.

The plastic covering of the reinforcing fibers acts at the same time as a strain relief that the tensile forces homogeneous on the surface the sealing membrane is distributed, so that an overload of the web at stress centers is largely avoided. Through the support of the plastic-coated Mesh and their welding on the support webs the thickness of the sealing membrane basically hardly increases, so that the vapor permeability not worsened, which is particularly soaked in the renovation Flat roofs from Advantage is.

The roofing membranes to be welded together are on the roof surface and on the roof edges mechanically connected to the supporting substructure. To do this special nail, screw or dowel systems are used. By the special design of the roofing membranes become the heavily loaded edge areas of the roofing membranes with a reinforcing edge about 9 cm wide, on which the scrim is braided tighter , with rectangular grid sizes of 3.3 × 6 mm edge length preferably being provided there. The roofing membrane is so on the flat roof or flat sloping roof misplaced that the the side provided with the scrim rests on the roof surface. For flat roofs with The reinforced roofing membranes can be used for sharp-edged substrate materials with an additional Layer of a nonwoven are connected. This prevents that itself press the sharp-edged materials through the sealing membrane and can lead to leaks.

For flat roofs with flammable materials such as polystyrene insulation layers or wooden substructures, the roofing membrane can also be made with one layer be provided with a fire protection fleece. This is done on the bottom of the nonwoven another layer of refractory materials or a non-flammable glass fleece with the help of a silicate glue attached. This creates a roofing membrane that is almost all mechanical and thermal requirements that occur with flat roofs can. About that In addition, the flexibility remains largely with such a composite layer roofing membrane the same, so that one good processing possibility and laying ability preserved.

Claims (15)

Roofing membrane for a flat roof sealing consisting of a sealing membrane made of plastic, which is provided with mechanical reinforcing means, characterized in that the reinforcing means are coated with a plastic layer and this plastic-coated reinforcing means is connected on one side to the sealing membrane. Roofing membrane according to claim 1, characterized in that the plastic coated reinforcing agents as fiber, fabric or Foil sheet formed and on the underside of the waterproofing membrane are upset. Roofing membrane according to claim 1 or 2, characterized in that the Sealing membrane and the plastic covering made of a copolymerized vinyl acetate with ethylene (VAE) or from other flexible copolymerized plastics consists. Roofing membrane according to one of the preceding claims, characterized characterized that the Geomembrane and the encased Reinforcing agent through a hot melt are firmly connected. Roofing membrane according to one of the preceding claims, characterized characterized that the reinforcing agents a grid are formed, the grids being square, rectangular, polygonal, are formed round or in other open-mesh lattice shapes. Roofing membrane according to one of the preceding claims, characterized characterized that at the mounting edges a lattice structure of smaller mesh size is provided, which to the higher mechanical reinforcement serves on the edges of the roofing membrane. Roofing membrane according to one of the preceding claims, characterized characterized that the plastic coated reinforcing agents waterproof encased and the fibers do not absorb moisture. Roofing membrane according to one of the preceding claims, characterized characterized that the reinforcing agents consist of polyester fibers. Roofing membrane according to one of the preceding claims, characterized characterized that on one side of the surface the reinforced Geomembrane applied a soft elastic layer or a non-woven fabric is. Roofing membrane according to claim 9, characterized in that this Non-woven fabric consists of polyester fibers. Roofing membrane according to claim 9 or 10, characterized in that on the nonwoven or the soft elastic layer additionally another layer of refractory materials is applied. Roofing membrane according to claim 11, characterized in that the Layer of refractory material is formed as a glass fleece. Process for producing a roofing membrane according to a of the preceding claims 1 to 12, characterized in that the reinforcing means with a liquid plastic layer surrounded, applied to one side of the waterproofing membrane and by welding with these are firmly connected. A method according to claim 13, characterized in that on one side of the reinforced membrane a non-woven fabric or a soft elastic layer is applied. A method according to claim 14, characterized ge indicates that an additional layer of refractory material is additionally applied to the nonwoven fabric or the soft elastic layer.