Apparatus for transporting compressed air and/or sealant in a vehicle tire and portable/transportable system for sealing and inflating vehicle tires

The invention claimed is: 1. A device comprising: at least one gas connection configured to connect to at least one compressed-air source, at least one sealant connection configured to connect to at least one sealant container, at least two channels, wherein a first channel is a sealant transport channel configured to transport a sealant dispersion from the at least one sealant connection into a pneumatic vehicle tire and a second channel is a compressed-air transport channel configured to transport compressed air to the at least one sealant connection or to the sealant transport channel; wherein the device has a movable switchover element, and wherein the movable switchover element is movable by a compressed-air flow coming from the at least one gas connection and has a severing portion configured to sever a seal on the at least one sealant connection or a seal on the at least one sealant container fastened to the at least one sealant connection; wherein the movable switchover element includes a hollow cylinder having an internal channel, wherein the movable switchover element forms, along a vertical extent of the hollow cylinder in cooperation with an inner wall of the compressed-air transport channel, a plurality of portions, wherein the plurality of portions comprise at least the following portions: a bypass portion configured to conduct compressed air from the compressed-air transport channel into the sealant transport channel without flowing through the internal channel to the at least one sealant connection, and an activation portion, wherein the activation portion is designed to use compressed air coming from the at least one gas connection to move the switchover element in the direction of the at least one sealant connection. 2. The device as claimed in claim 1 , wherein the movable switchover element has one, two, three, four, five or more than five air-flow baffle(s), wherein the air-flow baffle(s) are suitable for at least partially deflecting a flow direction, extending substantially parallel to a direction of movement of the switchover element, of compressed air in the compressed-air transport channel or to deflect the compressed air such that, in the compressed-air transport channel, the movable switchover element is moved by compressed air coming from the at least one compressed-air source in a direction of the at least one sealant connection. 3. The device as claimed in claim 1 , wherein the switchover element forms, along the vertical extent of the hollow cylinder, in cooperation with the inner wall of the compressed-air transport channel, at least one further portion, wherein the one further portion is formed such that compressed air coming from the at least one gas connection is conducted through the internal channel of the switchover element and subsequently in the direction of the at least one sealant connection or into the at least one sealant container. 4. The device as claimed in claim 1 , wherein: the severing portion of the switchover element is arranged on the movable switchover element and provided, on account of a movement of the movable switchover element in the direction of the at least one sealant connection, so as to sever the seal on the at least one sealant connection or seal on the at least one sealant container fastened to the at least one sealant connection, and/or the at least one sealant connection is sealed with the seal, wherein the seal of the at least one sealant connection is designed to be severed in the event of a movement of the movable switchover element, actuated by compressed air coming from the at least one compressed-air source, in the direction of the at least one sealant connection. 5. The device as claimed in claim 1 , wherein the device has an electronically or manually manipulable holder for holding the movable switchover element, wherein the holder is designed such that it is manipulated such that the movable switchover element is released from the holder and after it has been released, a movement of the movable switchover element, brought about by compressed air from the at least one compressed-air source, can be actuated, wherein the movement brought about is suitable for severing the seal on the at least one sealant container fastened to the at least one sealant connection or the seal on the at least one sealant connection by the severing portion. 6. The device as claimed in claim 1 , wherein the device has an electronically or manually manipulable holder for holding the movable switchover element in a predefined starting position and the holding unit is configured such that the holder holds the movable switchover element in the predefined starting position while the switchover element is flowed around by compressed air from the at least one compressed-air source, wherein the predefined starting position of the movable switchover element is within the compressed-air transport channel and/or at the distributor-side end of the compressed-air transport channel. 7. The device as claimed in claim 1 , wherein the device has an electronically or manually manipulable holder for holding the movable switchover element in a predetermined starting position, and wherein the device has an actuator for manually releasing the hold of the holder in order to bring about a movement of the movable switchover element from the starting position to the at least one sealant connection, wherein the actuator, the holder and the movable switchover element are designed such that, after the releasing of the actuator, a movement of the movable switchover element, brought about by compressed air from the at least one compressed-air source, is actuated and the movement brought about is suitable for severing the seal on the the at least one sealant container or the seal on the at least one sealant connection. 8. The device as claimed in claim 1 , wherein the device has a stop for stopping the movement of the switchover element, wherein the stop is fitted in the device such that the switchover element is only stopped after the seal has been severed and after compressed air has been conducted through the internal channel of the switchover element to the at least one sealant connection. 9. The device as claimed in claim 1 , wherein the compressed-air transport channel is cylindrical and has an inside diameter and an outside diameter, wherein the device has a spring for accelerating the movable switchover element in the direction of the at least one sealant connection, wherein the spring is configured such that, after releasing the movable switchover element, the spring brings about an acceleration of the movable switchover element in the direction of the at least one sealant connection. 10. The device as claimed in claim 1 , wherein the device has a spring for accelerating the movable switchover element in the direction of the at least one sealant connection, wherein the spring is configured such that, after releasing the movable switching element, the spring brings about an acceleration of the movable switchover element in the direction of the at least one sealant connection. 11. A portable/transportable system for sealing and inflating pneumatic vehicle tires, comprising: at least one device as claimed in claim 1 , a connector for connecting a tire-side end of the sealant transport channel to a tire with a puncture, at least one compressed-air source, wherein the at least one compressed-air source is a compressor, and at least one sealant container with sealant contained therein. 12. The portable/transportable system as claimed in claim 11 , wherein a connection, provided for connecting to the at least one sealant connection of the device