Overload release, in particular for a circuit breaker

The invention claimed is: 1. An overload release, comprising: a metal strip, including at least two different types of metal; a heating conductor, wound around the metal strip and welded onto the metal strip; and an electrical insulator, arranged between the metal strip and the heating conductor, wherein substantially an entire end surface of the heating conductor is welded to the metal strip through an arc weld, the end surface being a transverse surface intersecting a longitudinal surface and a lateral surface of the heating conductor. 2. The overload release of claim 1 , wherein the electrical insulator is a glass-fiber fabric. 3. The overload release of claim 1 , wherein the metal strip is a trimetal strip. 4. The overload release of claim 3 , wherein the trimetal strip includes a first metal layer, a second metal layer and a third metal layer, wherein the third metal layer is a copper or a copper alloy as the third metal layer. 5. The overload release of claim 1 , wherein the weld is a tungsten inert-gas (TIG) weld. 6. A method for producing an overload release including a metal strip, the metal strip including at least two different types of metal and a heating conductor being wound around the metal strip, and an electrical insulator arranged between the metal strip and the heating conductor, the method comprising: welding, substantially, an entire end surface of the heating conductor onto the metal strip by end-on contactless tungsten inert-gas welding arc (TIG welding), the end surface being a transverse surface intersecting a longitudinal surface and a lateral surface of the heating conductor. 7. The overload release of claim 1 , wherein the overload release is a circuit breaker. 8. The overload release of claim 2 , wherein the metal strip is a trimetal strip. 9. The overload release of claim 8 , wherein the trimetal strip includes a first metal layer, a second metal layer and a third metal layer, wherein the third metal layer is a copper or a copper alloy. 10. The method for producing an overload release of claim 6 , wherein the overload release is a circuit breaker. 11. A method for producing an overload release, comprising: winding a heating conductor around a metal strip and an electrical insulator so that the electrical insulator is arranged between windings of the heating conductor and the metal strip, the metal strip including at least two different types of metal; and welding, substantially, an entire end surface of the heating conductor onto the metal strip using a welding process that uses an arc to weld the heating conductor onto the metal strip without exerting additional resistance forge welding at a welding point, the end surface being a transverse surface intersecting a longitudinal surface and a lateral surface of the heating conductor. 12. The method for producing an overload release of claim 11 , wherein the welding process is tungsten inert-gas (TIG) welding. 13. The overload release of claim 1 , wherein an entire cross-section of the heating conductor is welded onto the metal strip. 14. A method for producing an overload release having: a metal strip including at least two different types of metal; a heating conductor wound around the metal strip; and an electrical insulator arranged between the metal strip and the heating conductor, the method comprising: welding an entire end surface of the heating conductor onto the metal strip by an end-on arc tungsten inert-gas weld (TIG weld), the end surface being a transverse surface intersecting a longitudinal surface and a lateral surface of the heating conductor.