RU2002131477A - HYDRAULIC PUMP UNIT - Google Patents

Claims (13)

1. Hydraulic pump unit consisting of a pump source of hydraulic fluid connected by its hydraulic lines through at least one directional valve to a hydraulic converter of direct displacing type, the displacer of which is hydraulically connected via pressure valves and suction nozzles of the working fluid, and the working volume of the hydraulic converter is selected from the condition qn = Q, where q is the volume of the hydraulic fluid passing through the hydraulic converter in one double x od (cycle) of its displacer, n is the specified number of displacer operating cycles per unit time, Q is the supply of the pump source of hydraulic fluid in the operating mode of the unit, characterized in that the hydraulic converter is made of independently connected in parallel to the source of the hydraulic fluid and to the nozzles working fluid, hydrotransformation sections, each of which is equipped with at least one reversing hydraulic distributor of the hydraulically actuated fluid, autonomously switched by position of the displacer section and is made with a working volume of at least 5-10% greater than q / z, where z is the number of hydro-conversion sections at least equal to three, and the source of the hydraulic drive fluid is made with a pressure characteristic H (Q), such that in operating mode dH / dQ <0, where N is the pressure of the pump source of the hydraulic fluid. 2. The hydraulic drive unit according to claim 1, characterized in that at least one throttle element configured to regulate its hydraulic resistance is installed in the power hydrokinematic circuit for transferring the energy of the hydraulic fluid to the energy of the working fluid in each section of the hydraulic converter. 3. The hydraulic drive unit according to claims 1 and 2, characterized in that the hydraulic converter both on the side of the nozzles of the working fluid and on the side of the hydraulic fluid lines is equipped with manifolds with shut-off and control valves, and sections of the hydraulic converter are installed between these manifold valves with the possibility of replacing sections without dismantling the collectors. 4. The hydraulic drive unit according to all claims 1 to 3, characterized in that each hydraulic converter section of the hydraulic converter is equipped with a device for smoothly increasing the resistance to movement of the displacer when it approaches at least one dead point at a distance of 5-10% of the stroke length of the displacer between its positions reverse. 5. The hydraulic drive unit according to all claims 1 to 4, characterized in that the pump source of the hydraulic drive fluid is made with uniform instantaneous supply along the angle of rotation of the pump shaft, for example, in the form of a centrifugal pump, a screw pump or a multi-plunger displacement pump with an air pump installed at its output cap. 6. Hydraulic drive unit according to claim 4, characterized in that the device for a smooth increase in resistance is made in the form of a hydraulic brake chamber located in the area of at least one dead center of the displacer. 7. Hydraulic drive unit according to claim 4, characterized in that the device for a smooth increase in resistance is made in the form of at least one spring installed between the displacer and the housing of the hydrotransformation section. 8. The hydraulic drive unit according to claim 4, characterized in that the device for smoothly increasing the resistance is made in the form of a device for preferentially smoothly switching the valve in the dead center zone of the displacer to the throttling mode until it is reversed. 9. The hydraulic drive unit according to claim 4, characterized in that the device for a smooth increase in resistance is made in the form of an additional choke controlled by position of the displacer sequentially connected to the feed (discharge) channel. 10. The hydraulic drive unit according to all claims 1 to 9, characterized in that the displacer separating the internal volume of the hydro-converting section is made in the form of a piston with at least two sealing ring elements on its outer diameter, the annular cavity between which is connected to the pressure hydraulic line of the source of the hydraulic drive fluid . 11. The hydraulic drive unit according to all claims 1 to 10, characterized in that the displacer is kinematically connected with an additional piston forming a hydraulic cylinder with an effective area substantially smaller than the effective area of the displacer of the hydraulic conversion section, so that when switching the valve in suction and Forcing, the pressure of the hydraulic fluid on the displacer by a predetermined value is always higher than the pressure on the displacer from the side of the working fluid. 12. Hydraulic drive unit according to all claims 1 to 9, characterized in that the displacer is made in the form of an elastic diaphragm element. 13. Hydraulic drive unit according to all claims 3-12, characterized in that the collector of the hydraulic fluid of the hydraulic converter is connected to the pump source of the hydraulic fluid through a device for setting and stabilizing the flow of the hydraulic fluid.