Method for operating a vacuum generator and a vacuum generator

What is claimed is: 1. A method for operating a vacuum generator using pressurized fluid to generate vacuum and a pressure pressurized fluid supply for supplying pressurized fluid, wherein the vacuum generator comprises a port, to which the pressurized fluid is supplied for generating a suction effect, and further comprising a suction point, at which suction is provided, said method comprising the steps of: performing a work cycle in the operation of the vacuum generator, wherein during the work cycle the supply of pressurized fluid to the pressure port is activated at least once, then deactivated and then activated again at least once, wherein the work cycle comprises three consecutive operations including a first operation in which the pressure prevailing at the suction point drops to a hold value (H1), a second operation in which the supply of pressurized fluid is controlled such that the pressure prevailing at the suction point is maintained between the hold value (H1) and a control hold value (H1+h1), and a third operation in which the pressure prevailing at the suction point rises at least to ambient pressure, measuring an active period of the work cycle, wherein the active period is the total period of time during which pressurized fluid is supplied to the vacuum generator and flows through the pressure port of the vacuum generator for generating a suction effect, determining the efficiency of the work cycle based on the measured active period, and measuring the prevailing supply pressure of the pressurized fluid in the pressure port during the work cycle. 2. The method as set forth in claim 1 , further including the steps of determining the volumes of pressurized fluid supplied to the vacuum generator and/or energy supplied to the vacuum generator from the active period, from the measured supply pressure, and from known flow parameters of the vacuum generator. 3. The method as set forth in claim 2 , further including the steps of performing a plurality of successive work cycles and saving the data representing the supplied volume of pressurized fluid and/or the energy supplied to the vacuum generator via pressurized fluid in a storage device. 4. The method as set forth in claim 3 , further including the step of determining the trend information representing the supplied volume of pressurized fluid and/or the energy supplied to the vacuum generator from the stored data. 5. The method as set forth in claim 1 , wherein the step of determining the efficiency of the work cycle further includes measuring a cycle period for the work cycle via which the work cycle is performed. 6. The method as set forth in claim 5 , wherein the step of determining the efficiency of the work cycle further includes calculating an active period ratio for the work cycle from the active period and the cycle period. 7. The method as set forth in claim 6 , wherein a plurality of succeeding work cycles are carried out and data representing the active period and the cycle period for the respective work cycle is stored in a memory device. 8. The method as set forth in claim 2 , further including the steps of displaying the information determined with the active period, including the volume of pressurized fluid supplied in the work cycle and/or the supplied energy and/or an active period ratio and/or trend information representing supplied volume of pressurized fluid and/or energy supplied to the vacuum generator and/or trend information of an active period ratio for the work cycle. 9. The method as set forth in claim 1 , wherein during the work cycle a prevailing suction side pressure in the suction point is measured and the supply of pressurized fluid is activated or deactivated in dependency on the measured suction side pressure. 10. A vacuum generator for carrying out the method as set forth in claim 1 , said vacuum generator including the pressure port for pressurized fluid supply and the suction point, wherein a control device is provided such that the supply of pressurized fluid to the pressure port for carrying out the work cycle can be activated and deactivated, and wherein a time measurement device is provided such that during the work cycle the active period can be measured, and wherein a supply pressure sensor is provided for measuring the prevailing supply pressure of the pressurized fluid in the pressure port during the work cycle. 11. The vacuum generator as set forth in claim 10 , wherein a suction pressure sensor is provided for measuring the prevailing suction side pressure in the suction point. 12. The vacuum generator as set forth in claim 10 , further including a display device for displaying information determined using the active period, said information including the supplied volume of pressurized fluid and/or the energy supplied via pressurized fluid and/or an active period ratio and/or trend information of the supplied volume of pressurized fluid and/or the energy supplied to the vacuum generator via pressurized fluid and/or trend information of the active period ratio for the work cycle.