Air-conditioning unit of a vehicle

The invention claimed is: 1. An air-conditioning unit of a vehicle for air-conditioning a vehicle interior comprising: a unit outlet for discharging air into the vehicle interior; an outside-air duct for an intake of outside air, which is fluidically connected to the unit outlet; an outside-air shut-off element arranged in the outside-air duct, which in a closed position blocks a flow of outside air through the outside-air duct; an air recirculation duct for recirculation of inside air from the vehicle interior, which is fluidically connected to the vehicle interior and the unit outlet; a recirculated-air shut-off element arranged in the air recirculation duct, which in a closed position blocks a flow of inside air through the air recirculation duct; and a sensor device for detecting a property of air; wherein on at least one duct of the outside-air duct and the recirculation duct, a bypass is arranged which bypasses an associated shut-off element and is fluidically connected to the sensor device; wherein the associated shut-off element is one of the outside-air shut-off element and the recirculated-air shut-off element. 2. The air-conditioning unit according to claim 1 , wherein: the bypass is an outside-air bypass and is arranged on the outside-air duct; and a recirculation bypass is arranged on the air recirculation duct, bypasses the recirculated-air shut-off element, and is fluidically connected to the sensor device. 3. The air-conditioning unit according to claim 2 , wherein: the outside-air bypass branches off of the outside-air duct upstream of the outside-air shut-off element and discharges into the sensor device; and the recirculation bypass branches off of the recirculation duct upstream of the recirculated-air shut-off element and discharges into the sensor device. 4. The air-conditioning unit according to claim 3 , wherein: the air recirculation duct discharges into the outside-air duct at a recirculated-air discharge point disposed downstream from the outside-air shut-off element; and the sensor device discharges into the outside-air duct downstream of the recirculated-air discharge point. 5. The air-conditioning unit according to claim 1 , wherein, on the associated shut-off element that is bypassed, the bypass has a flow-permeable bypass cross-section and includes a bypass duct, which in the closed position of the associated shut-off element extends from the bypass cross-section to the sensor device. 6. The air-conditioning unit according to claim 5 , wherein the bypass cross-section is at least partly formed by a gap defined between the associated shut-off element and the at least one duct when the associated shut-off element is in the closed position. 7. The air-conditioning unit according to claim 5 , wherein the bypass cross-section is at least partly formed by a recess on the associated shut-off element. 8. The air-conditioning unit according to claim 7 , wherein the associated shut-off element has a base body and a seal fitted on an edge of the base body, which forms a seal against the at least one duct when in the closed position, and wherein the recess is arranged at least partly in the seal. 9. The air-conditioning unit according to claim 7 , wherein the associated shut-off element has a base body and a seal fitted on an edge of the base body, which forms a seal against the at least one duct when in the closed position, and wherein the recess is arranged at least partly in the base body. 10. The air-conditioning unit according to claim 9 , wherein the recess is a flow permeable through passage. 11. The air-conditioning unit according to claim 8 , wherein the recess is a cutout in the seal. 12. The air-conditioning unit according to claim 1 , wherein the associated shut-off element has a base body and a seal fitted on an edge of the base body, which forms a seal against the at least one duct when in the closed position. 13. The air-conditioning unit according to claim 1 , wherein the bypass branches off the at least one duct upstream of the associated shut-off element which it bypasses, and discharges into the sensor device. 14. The air-conditioning unit according to claim 1 , wherein air is flowable to the unit outlet via the bypass. 15. The air-conditioning unit according to claim 1 , wherein: the bypass includes a bypass duct portion that protrudes into the at least one duct and opens in a direction opposite a through flow direction of the at least one duct; a flow-permeable bypass cross-section is at least partly formed by a gap defined between the associated shut-off element and the at least one duct when the associated shut-off element is in the closed position; and when the associated shut-off element is in the closed position, air is flowable into the bypass duct portion via the bypass cross-section. 16. The air-conditioning unit according to claim 15 , wherein the bypass cross-section is at least partly formed by a recess disposed in a base body of the associated shut-off element. 17. A vehicle comprising a vehicle interior and an air-conditioning unit for air conditioning the vehicle interior, the air-conditioning unit including: a unit outlet for discharging air into the vehicle interior; an outside-air duct for an intake of outside air, which is fluidically connected to the unit outlet; an outside-air shut-off element arranged in the outside-air duct, which in a closed position blocks a flow of outside air through the outside-air duct; an air recirculation duct for recirculation of inside air from the vehicle interior, which is fluidically connected to the vehicle interior and the unit outlet; a recirculated-air shut-off element arranged in the air recirculation duct, which in a closed position blocks a flow of inside air through the air recirculation duct; a sensor device for detecting a property of air, the sensor device fluidically connected to the unit outlet; and wherein on at least one duct of the outside-air duct and the recirculation duct, a bypass is arranged which is fluidically connected to the sensor device such that air is flowable from the at least one duct to the unit outlet through the sensor device to bypass an associated shut-off element; wherein the associated shut-off element is one of the outside-air shut-off element and the recirculated-air shut-off element. 18. The vehicle according to claim 17 , wherein the bypass has a flow-permeable bypass cross-section and includes a bypass duct extending from the bypass cross-section to the sensor device. 19. The vehicle according to claim 18 , wherein: a gap is defined between the associated shut-off element and the at least one duct when the associated shut-off element is in the closed position; and the gap at least partially defines the bypass cross-section. 20. An air-conditioning unit of a vehicle for air-conditioning a vehicle interior, comprising: a unit outlet through which air is flowable into the vehicle interior; an outside-air duct fluidically connected to the unit outlet and configured to intake outside air; an outside-air shut-off element having a base body and including a seal fitted on an edge of the base body, the outside-air shut-off element arranged in the outside-air duct such that when the outside-air shut-off element is in a closed position the seal sealingly contacts the outside-air duct and a flow of outside air through the outside-air duct is blocked; an air recirculation duct configured to recirculate inside air disposed within the vehicle interior, the air rec