Arrangement for supporting a rotary drum

1 . An arrangement for supporting a rotary drum, said rotary drum having at least three riding rings distributedly arranged along the axial direction of the rotary drum, the arrangement comprising a pair of relatively spaced rollers for supporting a riding ring, at least one bearing for each roller, a support for each bearing mounted for movement of the roller toward and away from the shell of the rotary drum and spring means exerting a spring force acting on the support so as to counteract the weight of the rotary drum resting on the rollers, wherein the spring means comprise a pressure vessel charged with a compressed gas that exerts the spring force and wherein the rotary drum comprises at least three riding rings and only at least one middle ring arranged between two outer rings is supported by a pair of relatively spaced rollers that are equipped with said spring means comprising the pressure vessel charged with the compressed gas, wherein the spring means comprise a fluid chamber configured to change its volume upon movement of the roller under the weight of the rotary drum resting on the rollers, wherein said chamber is fluidly connected to the pressure vessel by means of a fluid line, wherein the fluid chamber is realized in a cylinder of a hydraulic cylinder-piston unit, wherein the cylinder or the piston is mechanically coupled to the support, and the support is supported on a foundation and wherein the fluid chamber of the cylinder is fluidly connected to the pressure vessel and whereby the hydraulic cylinder-piston unit is contacting the support by means of a first swivel plate and a second swivel plate, and contacts the foundation by means of a third swivel plate, wherein the swivel plates each comprises a curved surface. 2 . The arrangement according to claim 1 , wherein the support is mounted for pivotal movement about a pivot axis and the spring means are arranged to act on the support at a distance from the pivot axis of the support that is larger than the distance of the roller from the pivot axis. 3 . The arrangement according to claim 1 , wherein two bearings are provided for each roller and wherein each of the two bearings has a support, wherein a fluid chamber is assigned to each of the two supports, wherein the two chambers are fluidly connected to the pressure vessel by means of a fluid line each. 4 . The arrangement according to claim 1 , wherein the fluid chamber comprises an elastically deformable shell, and is preferably designed as an air-suspension bellow. 5 . The arrangement according to claim 1 , wherein the spring means are designed as a pneumatic spring. 6 . The arrangement according to claim 1 , wherein the fluid chamber and the pressure vessel are filled with compressed gas. 7 . The arrangement according to claim 1 , wherein the fluid chamber, the fluid line and a lower part of the pressure vessel are filled with a liquid, the remaining, upper vessel volume being filled with compressed gas. 8 . The arrangement according to claim 1 , wherein the fluid chamber, the fluid line and a lower part of the pressure vessel are filled with hydraulic oil, the remaining, upper vessel volume being filled with compressed gas. 9 . The arrangement according to claim 1 , wherein a compressor is connected to the pressure vessel for compressing gas contained in the vessel. 10 . The arrangement according to claim 1 , further comprising at least one sensor for measuring the vertical position of the riding ring relative to a stationary reference point and/or for measuring the vertical position of the rotary drum adjacent the rollers relative to a stationary reference point. 11 . The arrangement according to claim 1 , wherein the rotary drum is a rotary kiln of a cement manufacturing installation. 12 . The arrangement according to claim 5 , wherein the fluid chamber is designed as an air-suspension bellow. 13 . The arrangement according to claim 7 , wherein the fluid chamber and the pressure vessel are filled with compressed air. 14 . The arrangement according to claim 8 , wherein the fluid chamber, the fluid line and the lower part of the pressure vessel are filled with a water, and the remaining, upper vessel volume is filled with compressed air. 15 . The arrangement according to claim 10 , wherein the remaining, upper vessel volume is filled with compressed nitrogen.