Hydraulic circuit supply system

We claim: 1. A supply system for supplying a hydraulic circuit with hydraulic fluid, comprising: a working reservoir for holding hydraulic fluid for operating the hydraulic circuit; an auxiliary reservoir, connected to the working reservoir via a hydraulic line, the auxiliary reservoir providing interim storage of hydraulic fluid removed from the working reservoir; an air pump, the air pump having an inlet connected to a suction line issuing into a fluid-free area of the auxiliary reservoir, so that relative to atmospheric ambient pressure, a negative pressure can be built up in the auxiliary reservoir, and the air pump inlet also being connected to a control line having a control opening which is covered by the hydraulic fluid in the working reservoir, at least before the air pump goes into operation; and a float valve is arranged in the suction line. 2. The supply system of claim 1 , wherein: the hydraulic line runs between a lower portion of the working reservoir and a lower portion of the auxiliary reservoir. 3. The supply system of claim 1 , wherein: the suction line is directly connected to the control line. 4. The supply system of claim 1 , wherein: the control opening comprises a throttle. 5. The supply system of claim 1 , wherein: the float valve includes a float which actuates a ball valve to produce a pressure equalization connection between the low-pressure side of the air pump and the working reservoir. 6. The supply system of claim 1 , wherein: a throttle communicates the control line into a fluid-free area of the working reservoir. 7. The supply system of claim 1 , wherein: a pressure limitation valve is connected to the control line between a throttle and the air pump, to equalization pressure between the low-pressure side of the air pump and the working reservoir. 8. The supply system of claim 1 , wherein: a pressure limitation valve is connected to the inlet of the air pump. 9. The supply system of claim 1 , wherein: a pressure limitation valve and the float valve are connected to the inlet of the air pump. 10. The supply system of claim 1 , wherein: a throttle is arranged in the control line. 11. The supply system of claim 1 , wherein: the control opening is formed in a terminal portion of the control line projecting into the working reservoir. 12. The supply system of claim 11 , wherein: several control openings are formed in the terminal portion of the control line projecting into the working reservoir, wherein the control openings are arranged one above another. 13. The supply system of claim 1 , wherein: the control line is surrounded in the area of the control opening by a shielding element. 14. The supply system of claim 13 , wherein: the shielding element is a cylindrical shielding tube and a fluid-permiable grating is mounted in a lower end of the cylindrical shielding tube. 15. The supply system of claim 13 , wherein: the shielding element is a cylindrical shielding tube and the cylindrical shielding tube and the control line cooperate to form an upwardly opening annular gap, the gap communicating the control opening with hydraulic fluid in the working reservoir.