Switching device with effective cooling of outflowing gases

The invention claimed is: 1. A switching device with effective cooling of outflowing gases, comprising: an arc extinguishing chamber; an orifice for outflow of the gases from the arc extinguishing chamber; and a multilayer wire cloth or fabric comprising at least a first wire layer and a second wire layer, the first wire layer and the second wire layer having a respective cloth or fabric structure comprising respective warp yams and weft yarns, wherein the first wire layer and the second wire layer are disposed in a stacked configuration in the orifice such that a weaving direction of the warp yarns of the first wire layer is rotated by an angle in relation to a weaving direction of the warp yams of the second wire layer, and a weaving direction of the weft yams of the first wire layer is rotated by an angle in relation to a weaving direction of the weft yams of the second wire layer so that the cloth or fabric structure of the second wire layer is oriented in a direction other than a direction of the cloth or fabric structure of the first wire layer. 2. The switching device of claim 1 , wherein, in the stacked configuration of the multilayer wire cloth or fabric, the respective cloth or fabric structure of the first and second wire layer are arranged such that a direction of flow of the gases changes as the gases flow through the multilayer wire cloth or fabric. 3. The switching device of claim 1 , wherein, in an orthogonal projection to the stacked configuration of the multilayer wire cloth or fabric, the warp yams in the first wire layer are offset in relation to the warp yarns in the second wire layer by an angle up to 90°, and wherein, in an orthogonal projection to the stacked configuration of the multilayer wire cloth or fabric, the weft yarns in the first wire layer are offset in relation to the weft yarns in the second wire layer by an angle up to 90°. 4. The switching device of claim 1 , wherein the respective weft yarns of the first and second wire layer are configured as parallel straight wire yarns in the respective cloth or fabric structure of the first and second wire layer, and wherein the respective warp yarns of the first and second wire layer are configured as undulated wire yarns in the respective cloth or fabric structure of the first and second wire layer, the respective warp yarns passing alternately over and under successive weft yarns. 5. The switching device of claim 4 , wherein the first wire layer and the second wire layer are pressed together at the plurality of areas before welding. 6. The switching device of claim 1 , wherein, in the stacked configuration of the multilayer wire cloth, the first wire layer and the second wire layer are connected to each other by a respective welding connection provided at a plurality of areas of the multilayer wire cloth or fabric, the plurality of areas being spaced apart from each other. 7. The switching device of claim 1 , wherein the multilayer wire cloth or fabric is disposed in the orifice such that the first wire layer is arranged closer to the arc extinguishing chamber than the second wire layer, wherein each of the first and second wire layer comprises a plurality of mesh openings, and wherein the mesh openings of the second wire layer are smaller than the mesh openings of the first wire layer. 8. The switching device of claim 1 , wherein the multilayer wire cloth or fabric is loosely disposed in the orifice between ribs of inner and outer parts of a housing of the switching device. 9. The switching device of claim 1 , wherein the multilayer wire cloth or fabric has at least a contour at one of a side of the cloth or fabric which is different from a contour of an adjacent side of the cloth or fabric, and wherein a housing surrounding the cloth or fabric is provided with an inversely champed contour.