Method for operating machines having moving parts and arranged jointly on a support

The invention claimed is: 1. A method for operating a first and a second oscillating and/or tumbling screening machine having moving screens and arranged jointly on a floor of a building, moving said screens periodically with the same set frequency, controlling a phase of an oscillation of one screening machine in relation to a phase of an oscillation of a further screening machine is controlled by shifting the phases with respect to one another such that an amplitude of an oscillation of a structural part remains below a predefined maximum value, wherein the structural part is the floor on which the screening machines are arranged. 2. The method as claimed in claim 1 , wherein the machines are arranged on the floor in an oscillation-damped manner. 3. The method as claimed in claim 1 , characterized in that the phase of the oscillation of a screening machine is controlled by temporarily raising or lowering the frequency of the movement of the screening machine. 4. The method as claimed in claim 3 , wherein a change in the frequency of the movement of a screening machine is made by controlling a frequency converter. 5. A method for operating a first and a second oscillating and/or tumbling screening machine having moving screens and arranged jointly on a floor of a building, moving said screens periodically with the same set frequency, controlling a phase of an oscillation of one screening machine in relation to a phase of an oscillation of a further screening machine is controlled by shifting the phases with respect to one another such that the amplitude of an oscillation of a structural part remains below a predefined maximum value, wherein the structural part is the floor on which the screening machines are arranged, wherein the amplitude and/or the phase of the oscillation of the floor and/or of the screening machines is measured and taken into account when controlling the phases of the oscillation of the screening machines in relation to each other. 6. The method as claimed in claim 5 , wherein the amplitude of the oscillation of the floor is measured and, if a predefined limiting value is exceeded, which lies below the maximum value, the phase of the movement of a screening machine is changed. 7. A method for operating a first and a second oscillating and/or tumbling screening machine having moving screens and arranged jointly on a floor of a building, moving said screens periodically with the same set frequency, controlling a phase of an oscillation of one screening machine in relation to a phase of an oscillation of a further screening machine is controlled by shifting the phases with respect to one another such that the amplitude of an oscillation of a structural part remains below a predefined maximum value, wherein the structural part is the floor on which the screening machines are arranged, wherein a phase set point is predefined for each screening machine, and the phase of the oscillation of a screening machine is controlled to the phase set point, the phase set points being chosen such that an oscillation of the floor is minimized. 8. The method as claimed in claim 7 , in which the phase in two screening machines is controlled, wherein the phase set point of the first machine is 0(0°) , and the phase set point of the second machine is π(180°) , minus a phase difference which results from the propagation time of the oscillation from the second screening machine to the first screening machine. 9. The method as claimed in claim 7 , wherein the predefined phase set points are calculated numerically or analytically, the distance of the machines from one another, the arrangement of the screening machines in relation to one another, the oscillation damping of the screening machines, the damping of the floor, the resonant frequencies of the floor and the screening machines, a frequency set point of the movement of the screening machines or of a combination of at least two of these parameters being taken into account. 10. A method for operating a first and a second oscillating and/or tumbling screening machine having moving screens and arranged jointly on a floor of a building, moving said screens periodically with the same set frequency, controlling a phase of an oscillation of one screening machine in relation to a phase of an oscillation of a further screening machine is controlled by shifting the phases with respect to one another such that the amplitude of an oscillation of a structural part remains below a predefined maximum value, wherein the structural part is the floor on which the screening machines are arranged, wherein the control of the movement of the screening machines is carried out while avoiding frequencies which correspond to a resonant frequency of the floor or of a screening machine. 11. The method as claimed in claim 1 , wherein between 2 and 36 screening machines are operated simultaneously. 12. The method as claimed in one of claims 1 , wherein the method is implemented with the aid of a programmable logic controller. 13. The method as claimed in one of claims 1 , wherein polymers, sand, gravel, tea, or herbs or spices are processed with the screening machines.