UV emitter module and use thereof

What is claimed is: 1. A UV lamp module for the ultraviolet irradiation of a substrate, comprising: a lamp arrangement that includes multiple low-pressure mercury lamps each having a longitudinal axis; a waterproof housing surrounding the lamp arrangement and having a bottom side, a top side and at least two side walls connecting the bottom side and the top side to each other, and a beam exit opening on the bottom side which is closed by a beam exit window; a first airflow zone formed in the housing and having an air supply duct with at least one air-guide for the supply of cooling air to the lamp arrangement; and a second airflow zone, which is separated from the first airflow zone, formed in the housing and having an exhaust air duct for the discharge of heated cooling air, wherein, viewed in a cross-section through the housing perpendicular to the longitudinal axes of the low-pressure mercury lamps and in a viewing direction from the bottom side to the top side, the beam exit window, the lamp arrangement and the airflow zones are arranged one after the other; and wherein the lamp arrangement has a center, and in that the supply air duct extends along the housing from an end connector to a gas distribution chamber arranged in the middle of the housing and above the center of the lamp arrangement. 2. The UV lamp module according to claim 1 , wherein the gas distribution chamber is provided with a plurality of openings through which the cooling air flows into a space in which the lamp arrangement is located. 3. The UV lamp module according to claim 1 , wherein a lower connector of the air supply duct and an upper connector of the exhaust air duct protrude from one closing wall of the housing. 4. The UV lamp module according to claim 1 , wherein, viewed in the cross-section through the housing perpendicular to the longitudinal axes of the low-pressure mercury lamps and in a viewing direction from the bottom side to the top side, the first airflow zone is arranged upstream of the second airflow zone. 5. The UV lamp module according to claim 1 , wherein the housing has a central plane which extends perpendicular to the beam exit window and wherein the housing exhibits mirror symmetry in relation to the housing central plane. 6. The UV lamp module according to claim 1 , wherein the air supply duct of the first airflow zone has an inner diameter and the second airflow zone has an exhaust air duct with an inner diameter, and the exhaust air duct inner diameter differs by less than +/−10% from the air supply duct inner diameter. 7. The UV lamp module according to claim 1 , wherein in a cross-section through the housing perpendicular to the longitudinal axes of the low-pressure mercury lamps the housing top side exhibits a curvature. 8. The UV lamp module according to claim 7 , wherein the at least two side walls fit closely with the curvature of the top side and form an angle with each other in the range of between 5 and 40 degrees. 9. The UV lamp module according to claim 1 , wherein the beam exit opening has a peripheral shoulder, to which the beam exit window is adhesively bonded. 10. The UV lamp module according to claim 1 , wherein the longitudinal axes of the low-pressure mercury lamps extend in a common lamp plane and the lamp arrangement is configured to produce a UV irradiation intensity of at least 100 mW/cm 2 on the substrate measured at a distance of 48 mm from the lamp plane. 11. The UV lamp module according to claim 1 , further comprising a reflector and wherein the lamp arrangement has a side facing away from the beam exit window and is at least partially surrounded by the reflector on its side facing away from the beam exit window. 12. The use of a UV lamp module according to claim 1 in a disinfection system for the ultraviolet irradiation of packaging material for food or medicines. 13. The UV lamp module according to claim 7 , wherein the exhaust air duct inner diameter and the air supply duct inner diameter are identical. 14. A UV lamp module for the ultraviolet irradiation of a substrate, comprising: a lamp arrangement that includes multiple low-pressure mercury lamps each having a longitudinal axis; a waterproof housing surrounding the lamp arrangement and having a bottom side, a top side and at least two side walls connecting the bottom side and the top side to each other, and a beam exit opening on the bottom side which has a peripheral shoulder and is closed by a beam exit window adhesively bonded to the peripheral shoulder; a first airflow zone formed in the housing and having an air supply duct with at least one air-guide for the supply of cooling air to the lamp arrangement; and a second airflow zone, which is separated from the first airflow zone, formed in the housing and having an exhaust air duct for the discharge of heated cooling air, wherein, viewed in a cross-section through the housing perpendicular to the longitudinal axes of the low-pressure mercury lamps and in a viewing direction from the bottom side to the top side, the beam exit window, the lamp arrangement and the airflow zones are arranged one after the other and the first airflow zone is arranged upstream of the second airflow zone, and wherein a lower connector of the air supply duct and an upper connector of the exhaust air duct protrude from one closing wall of the housing. 15. The UV lamp module according to claim 14 , wherein the lamp arrangement has a center, and in that the supply air duct extends along the housing from an end connector to a gas distribution chamber arranged in the middle of the housing and above the center of the lamp arrangement. 16. The UV lamp module according to claim 14 , wherein the gas distribution chamber is provided with a plurality of openings through which the cooling air flows into a space in which the lamp arrangement is located. 17. The UV lamp module according to claim 14 , wherein the housing has a central plane which extends perpendicular to the beam exit window and wherein the housing exhibits mirror symmetry in relation to the housing central plane. 18. The UV lamp module according to claim 14 , wherein the exhaust air duct inner diameter and the air supply duct inner diameter are identical. 19. The UV lamp module according to claim 14 , further comprising a reflector and wherein the lamp arrangement has a side facing away from the beam exit window and is at least partially surrounded by the reflector on its side facing away from the beam exit window. 20. The use of a UV lamp module according to claim 14 in a disinfection system for the ultraviolet irradiation of packaging material for food or medicines.