Flow device comprising a cavity cooling system

The invention claimed is: 1. A compressor in axial construction for a gas turbine, the compressor having a housing that bears a plurality of guide vanes, and in which a rotor with a plurality of rotating vanes can be mounted in a rotatable manner, the guide vanes having sealing elements with opposite-lying sealing bodies on the rotor side, is hereby characterized in that: at least one radial channel is formed in at least one guide vane that extends radially between a housing channel and a cavity; and the sealing bodies further comprise a first sealing fin and a second sealing fin; the cavity further comprises an intermediate space delimited by the first sealing fin, the second sealing fin, and the sealing elements; the cavity further comprises a first annular space and a second annular space, the first annular space being downstream of said respective sealing fins during operation of the compressor, and the second annular space being upstream of said respective sealing fins during operation of the compressor; the at least one radial channel being configured and arranged to guide a cooling-air flow that is injected radially inwardly, the at least one radial channel being configured to simultaneously guide a first portion of the cooling-air flow into the intermediate space and a second portion of the cooling-air flow into the first annular space, whereby the cooling-air flow is introduced into the intermediate space and the first annular space during operation of the compressor; the first and second sealing fins and the sealing elements being configured to provide a counterflow of the cooling-air from the first annular space to the intermediate space and from the intermediate space to the second annular space during operation of the compressor. 2. The compressor according to claim 1 , wherein the housing channel opens up into the outside environment for introducing environmental air. 3. The compressor according to claim 1 , wherein the housing channel opens up into a front compressor stage for introducing bled air. 4. The compressor according to claim 1 , wherein a pump is provided for feeding the cooling-air flow into the cavity. 5. The compressor according to claim 1 , wherein the housing channel interacts with a diffuser channel for introducing air from in front of a combustion chamber from a space in front of the combustion chamber. 6. The compressor according to claim 1 , wherein the cooling-air flow can be introduced axially counter to the direction of a main flow. 7. The compressor according to claim 6 , wherein at least one rotating-vane recess on the rotor side is penetrated by an axial channel that is opened at least to one of the annular spaces. 8. The compressor according to claim 7 , wherein the axial channel interacts with the diffuser channel for introducing air from a space in front of a combustion chamber. 9. The compressor according to claim 7 , wherein the annular spaces interact with one another via at least one connection channel in an adjacent rotating-vane recess. 10. The compressor according to claim 5 , wherein at least one passage channel opens up into the diffuser channel for introducing environmental air. 11. The compressor according to claim 5 , wherein a heat exchanger is disposed in the diffuser channel for the intermediate cooling of the air from the space in front of the combustion chamber.