Abstract: The present invention relates to a photovoltaic solar module, a process for the preparation thereof, and a device for generating electric energy employing such a solar module. The photovoltaic solar module has a wholly or partly surrounding frame of polyurethane which is characterized in that said frame has an elongation at break of at least 50%, a modulus of elasticity of at least 30 N/mm2 and a coefficient of thermal expansion of up to ?=80×10?6/K, the modulus of elasticity and the coefficient of thermal expansion each being measured parallel to the edges of the module.

Abstract: The present invention relates to a roofing tile, a roofing shingle or facade element having a photovoltaic solar element and a method for producing such a roofing tile/roofing shingle/facade element.

Abstract: The solar module according to the invention consists of a transparent adhesive layer (1), in which the solar cells (3) that are interconnected by cell connectors (2) are embedded. A transparent, UV stable, thin front layer (4), composed for example of a thin pane of glass, is located above said adhesive layer. The supporting sandwich element (5), consisting of a nucleic layer (6) and glass fibre layers (7) bonded by means of polyurethane is located on the rear face. Fastening elements (8) and an electric socket (9) are integrated into the supporting sandwich element. A barrier film (10), which prevents the entry of water and oxygen, adjoins the sandwich element. The solar module has peripheral edge protection (11) consisting of elastomeric polyurethane, which prevents the lateral penetration of water, dirt and oxygen. The invention also relates to a method for producing the solar module.

Abstract: The present invention relates to a photovoltaic solar module, a process for the preparation thereof, and a device for generating electric energy employing such a solar module. The photovoltaic solar module has a wholly or partly surrounding frame of polyurethane which is characterized in that said frame has an elongation at break of at least 50%, a modulus of elasticity of at least 30 N/mm2 and a coefficient of thermal expansion of up to ?=80×10?6/K, the modulus of elasticity and the coefficient of thermal expansion each being measured parallel to the edges of the module.

Abstract: The invention refers to a non-glass and flexible solar power module and the method for its manufacture where the module is provided with a circumferential and flexible frame having integrated through-wiring and socket parts, which are formed face-side into the frame, for module interconnection by means of plug-in connectors. The solar module is thoroughly and completely sealed off on its rear side and has a full-surface smooth texture which is established by the insertion of a thin flexible panel, preferably made of plastic, together with the laminate into the form for the manufacture of the frame by means of RIM (reaction injection moulding). The modules are mounted on the building, preferably by means of bonding/cementing to practically any random roof materials, as well as to curved surfaces and without a backward cable lead.