Welded pressure relief device

The invention claimed is: 1. An explosion-proof housing consistent with the construction of “pressure-proof encapsulation” (ex-d), wherein the explosion-proof housing encloses an interior space configured to accommodate electrical components capable of forming ignition sources, and that comprises a housing component on which a pressure compensation vent is formed, with at least one pressure relief body that has two flat surfaces which face away from each other, and that has one circumferential surface which connects the flat surfaces, and that is arranged on the pressure compensation vent, wherein the circumferential surface is configured as a fusion layer formed by a welded seam, said fusion layer extending from one of the flat surfaces to the other flat surface, wherein the fusion layer extends along the entire circumferential surface of the pressure relief body, completely covering said circumferential surface, and wherein the pressure relief body is welded to the housing component. 2. The explosion-proof housing according to claim 1 , wherein the pressure relief body is a wire mesh sintered body which consists of several wire mesh layers connected to each other by sintering. 3. The explosion-proof housing according to claim 1 , wherein the pressure relief body is provided adjoining the circumferential surface, which is preferably configured as a smooth interface with a pressing zone extending all around, in which pressing zone the pore volume is reduced or eliminated. 4. The explosion-proof housing according to claim 1 , wherein the flat surfaces of the pressure relief body are configured so as to be planar. 5. The explosion-proof housing according to claim 1 , wherein both the pressure relief body and the pressure compensation vent have a rectangular contour, in which case the contour of the pressure relief body is larger than the contour of the pressure compensation vent. 6. The explosion-proof housing according to claim 1 , wherein the pressure compensation vent is divided by wall bars into several partial vents. 7. The explosion-proof housing according to claim 1 , wherein the pressure relief body is connected to the housing component via a welded seam. 8. The explosion-proof housing according claim 1 , wherein the pressure relief body has one or more passages, at which the pressure relief body is welded to the housing component. 9. The explosion-proof housing according to claim 1 , wherein the pressure relief body is arranged so as to be supported by a peripheral zone which surrounds the housing component. 10. The explosion-proof housing according to claim 1 , wherein the circumferential surface of the pressure relief body is exposed to surrounding atmosphere or the interior space. 11. A method for the manufacture of an explosion-proof housing, said method comprising: providing a housing that encloses an interior space configured to accommodate electrical components capable of forming ignition sources, and that comprises a housing component on which a pressure compensation vent is formed; providing at least one pressure relief body that has two flat surfaces which face away from each other, and that has one circumferential surface which connects the flat surfaces; arranging the pressure relief body on the pressure compensation vent; and welding the pressure relief body to the housing component, wherein the circumferential surface is configured as a fusion layer formed by a welded seam, said fusion layer extending from one of the flat surfaces to the other flat surface, and wherein the fusion layer extends along the entire circumferential surface of the pressure relief body, completely covering said circumferential surface. 12. The method according to claim 11 , wherein the pressure relief body is subjected to fusion on its circumferential surface in order to close pores. 13. The method according to claim 11 , wherein the welded seam disposed for the connection of the pressure relief body is formed continuously and/or in openings along the entire circumferential surface. 14. The method according to claim 11 , wherein the circumferential surface of the pressure relief body is exposed to surrounding atmosphere or the interior space.