Cooling device for a protective respiratory apparatus

The invention claimed is: 1. A cooling device for a protective respiratory apparatus, the cooling device comprising: a housing; a respiratory bag arranged in the housing with an inlet for respiratory air and an outlet for cooled respiratory air; a spring plate with a spring device to apply a spring force to the respiratory bag; a cooling channel formed between the housing and at least one section of an outer side of the respiratory bag, wherein the cooling channel is connected to ambient air outside the housing in a fluid-communicating manner; and a blower arranged at an inlet of the cooling channel for generation of a flow of the ambient air into or through or both into and through the cooling channel. 2. A cooling device according to claim 1 , further comprising at least one flow-directing element arranged in the cooling channel for a targeted influence on a direction of flow of the ambient air in the cooling channel. 3. A cooling device according to claim 1 , further comprising a cooling plate arranged in the housing, the cooling plate being formed as an abutment for the respiratory bag to which the spring force is applied by way of the spring plate. 4. A cooling device according to claim 3 , wherein the cooling plate has at least one flow-directing element for a targeted influence on a direction of flow of the ambient air in the cooling channel. 5. A cooling device according to claim 3 , wherein the cooling plate is in a heat-transmitting contact with a section of an outer side of the respiratory bag and has at least one cooling rib for a surface contact enlargement with the ambient air in the cooling channel. 6. A cooling device according to claim 3 , wherein the cooling plate has at least one cooling opening which exposes the cooling channel towards an outer side of the respiratory bag. 7. A cooling device according to claim 1 , further comprising at least one ambient-air temperature sensor arranged for the determination of the temperature of the ambient air. 8. A cooling device according to claim 1 , further comprising at least one respiratory-air temperature sensor arranged for the determination of the temperature of the respiratory air. 9. A cooling device according to claim 3 , wherein the cooling plate or the spring plate is integrated directly with the respiratory bag and takes on a sealing function at the respiratory bag. 10. A cooling device according to claim 3 , wherein one of the spring plate and cooling plate is integrated into the respiratory bag. 11. A cooling device according to claim 10 , wherein surfaces of the cooling plate have structural elements configured to provide additional heat conducting surfaces which improve the heat exchange between the respiratory air and the surfaces of the cooling plate or the spring plate. 12. A protective respiratory apparatus for the respiration of a person, the protective respiratory apparatus comprising: a respiratory-air circuit; an air reservoir connected to the respiratory-air circuit; a respiratory-air regenerator arranged in the respiratory-air circuit; and at least one cooling device arranged downstream of the respiratory-air regenerator in the respiratory circuit the at least one cooling device comprising: a housing; a respiratory bag arranged in the housing with an inlet for respiratory air and an outlet for cooled respiratory air; a spring plate with a spring device to apply a spring force to the respiratory bag; a cooling channel formed between the housing and at least one section of an outer side of the respiratory bag, the cooling channel is connected to ambient air outside the housing in a fluid communicating manner, the at least one section of the respiratory bag being spaced from the spring plate; and a blower arranged at an inlet of the cooling channel for generation of a flow of the ambient air into or through or both into and through the cooling channel. 13. A protective respiratory apparatus according to claim 12 , further comprising at least one flow-directing element in the cooling channel influencing a direction of flow of the ambient air in the cooling channel. 14. A protective respiratory apparatus according to claim 12 , further comprising a cooling plate arranged in the housing, the cooling plate being formed as a support abutment for the respiratory bag to which the spring force is applied by way of the spring plate. 15. A protective respiratory apparatus according to claim 14 , wherein the cooling plate is in a heat-transmitting contact with a section of an outer side of the respiratory bag and has at least one cooling rib for a surface contact enlargement with the ambient air in the cooling channel. 16. A protective respiratory apparatus according to claim 14 , wherein the cooling plate has at least one cooling opening which exposes the cooling channel towards an outer side of the respiratory bag. 17. A protective respiratory apparatus according to claim 12 , further comprising: at least one ambient-air temperature sensor arranged for the determination of the temperature of the ambient air; and at least one respiratory-air temperature sensor arranged for the determination of the temperature of the respiratory air. 18. A protective respiratory apparatus according to claim 14 , wherein: the cooling plate or the spring plate is integrated directly into the respiratory bag; surfaces of the cooling plate or the spring plate have structural elements configured to provide additional heat conducting surfaces which improve the heat exchange between the respiratory air and the surfaces of the cooling plate or the spring plate and prevent an adhesion of the side regions of the respiratory bag together or to the spring plate or the cooling plate. 19. A cooling device according to claim 1 , wherein: the ambient air is directly outside the housing; the ambient air is separate from the respiratory air.