Apparatus for cooling the end zones of the lamination stacks of electric machines

1. In an electrical machine having stator lamination stacks surrounding and spaced from a rotor, the stacks and the rotor defining a machine gap therebetween, radial pressure fingers engaging respective end laminations of the stacks, respective pressure plates clamping the pressure fingers and the stator lamination stacks therebetween, a housing having a space therein surrounding the stator lamination stacks, radial partitions spaced-apart in axial direction of the housing and subdividing the housing space into respective end spaces and a plurality of cooling-gas inlet chambers intermediate thereto, radial channels provided in the stator lamination stacks and connecting the cooling-gas inlet chambers to the machine gap, and blower means for producing a cooling-gas flow from the end spaces, wherein maximum blower pressure prevails, axially through the cooling-gas inlet chambers, radially inwardly through the radial channels and axially outwardly through the machine gap, a device for intensively cooling the end zones of the stator lamination stacks comprising, in vincinity of the end zones of the stator lamination stacks, a cooling-gas distributor chamber separated from the cooling-gas inlet chambers and disposed concentrically to and between the cooling-gas inlet chambers and the stator lamination stacks, said cooling-gas distributor chambers being connected, in parallel with the cooling-gas inlet chambers, to the end spaces, respectively, and to the machine gap, said parallel connection including additional radial channels defined by the respective pressure fingers, the respective pressure plates and the respective end laminations of the stacks and communicating with said cooling-gas distributor chambers so as to receive therein coolant gas for intensely cooling the end laminations directly from the end spaces wherein the maximum blower pressure prevails.