Pump system for liquid/solid materials with balanced output
First Claim
1. A pump system comprising at least two pumping cylinders in each of which a displacement member is reciprocably movable, an equal number of power cylinders in each of which a power piston is reciprocably movable, piston rods connecting the respective power pistons and displacement members, first valve means associated with said pumping cylinders and arranged so that as each displacement member moves in one direction material to be pumped is drawn into the associated pumping cylinder from a source and as each displacement member moves in the other direction it forces the indrawn material into delivery means, pipe means connecting the annular chambers of each of the power cylinders between the power piston and the end of the cylinder through which the piston rod passes, said pipe means forming part of a closed loop circuit which is connected to a source of pressurised fluid, and control means governing the flow of the pressurised fluid in said closed loop circuit such that the power pistons and displacement members are retracted faster than they move forwards and such that before any one displacement member finishes its forward movement the other or another displacement member commences its forward movement whereby a smooth delivery of pumped material is obtained, wherein said control means comprises sensing valve means associated with each power cylinder and arranged to be actuated at at least two positions of the power piston within the power cylinder, and check valve means connected to vent and close the closed loop circuit and responsive to the actuation of said sensing valve means.
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Accused Products
Abstract
A pump system, particularly suitable for pumping wet mixes and slurries, achieves an output of pumped material substantially free from pulsations or fluctuations by control movement of power pistons (12A,12B) within power cylinders (10A, 10B). The power pistons (12A,12B) are connected by piston rods (14A,14B) to pumping pistons (16A,16B) which suck material to be pumped in through valves (20A,20B) and out through valves (22A,22B) into a delivery pipe (26). A closed loop (32) connects annular chambers (13A,13B) of the power cylinders (10A,10B), and a continuously operating pump (P2) feeds the closed loop (32). The power pistons (12A,12B) on their suction strokes move faster than on the delivery strokes, whereby one or other or both pistons (12A,12B) are always moving forwards. Control adequate to achieve a smooth delivery of pumped material is achieved by providing sensing valves (PVA1,PVA2, PVB1,PVB2) on each power cylinder (10A,10B), these valves being arranged to be actuated at different positions of the power piston (12A,12B) within the cylinder. The sensing valves pass signals to check valves (CV1,CV2) to vent and close the closed loop (32) in response to actuation of the sensing valves and thus to control movement of the power pistons in the cylinders.
31 Citations
19 Claims
- 1. A pump system comprising at least two pumping cylinders in each of which a displacement member is reciprocably movable, an equal number of power cylinders in each of which a power piston is reciprocably movable, piston rods connecting the respective power pistons and displacement members, first valve means associated with said pumping cylinders and arranged so that as each displacement member moves in one direction material to be pumped is drawn into the associated pumping cylinder from a source and as each displacement member moves in the other direction it forces the indrawn material into delivery means, pipe means connecting the annular chambers of each of the power cylinders between the power piston and the end of the cylinder through which the piston rod passes, said pipe means forming part of a closed loop circuit which is connected to a source of pressurised fluid, and control means governing the flow of the pressurised fluid in said closed loop circuit such that the power pistons and displacement members are retracted faster than they move forwards and such that before any one displacement member finishes its forward movement the other or another displacement member commences its forward movement whereby a smooth delivery of pumped material is obtained, wherein said control means comprises sensing valve means associated with each power cylinder and arranged to be actuated at at least two positions of the power piston within the power cylinder, and check valve means connected to vent and close the closed loop circuit and responsive to the actuation of said sensing valve means.
- 12. A pump system comprising at least two pumping cylinders in each of which a displacement member is reciprocably moveable, an equal number of power cylinders in each of which a power piston is reciprocably movable, piston rods connecting the respective power pistons and displacement members, first valve means associated with said pumping cylinders and arranged so that as each displacement member moves in one direction material to be pumped is drawn into the associated pumping cylinder from a source and as each displacement member moves in the other direction it forces the indrawn material into delivery means, pipe means connecting the annular chambers of each of the power cylinders between the power piston and the end of the cylinder through which the piston rod passes, said pipe means forming part of a closed loop circuit which is connected to a source of pressurized fluid, and control means governing the flow of the pressurized fluid in said closed loop circuit such that the power pistons and displacement members are retracted faster than they move forward and such that before any one displacement member finishes its forward movement the other or another displacement member commences its forward movement whereby a smooth delivery of pumped material is obtained, wherein said control means comprises sensing valve means associated with each power cylinder and arranged to be actauted at at least two positions of the power piston within the power cylinder, the sensing valve means for each power cylinder comprising a first valve which is actuated when the power piston reaches substantially the end of its retraction stroke and a second valve which is actuated when the power piston is at a position a distance on the order of 10% of the length of the stroke of the power piston before the end of its forward stroke, and check valve means connected to vent and close the closed loop circuit and responsive to the actuation of said sensing valve means.
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19. A pump system comprising at least two pumping cylinders in each of which a displacement member is reciprocably movable, an equal number of power cylinders in each of which a power piston is reciprocably movable, piston rods connecting the respective power pistons and displacement members, first valve means associated with said pumping cylinders and arranged so that as each displacement member moves in one direction material to be pumped is drawn into the associated pumping cylinder from a source and as each displacement member moves in the other direction it forces the indrawn material into delivery means, pipe means connecting the annular chambers of each of the power cylinders between the power piston and the end of the cylinder through which the piston rod passes, said pipe means forming part of a closed loop circuit which is connected to a source of pressurized fluid, and control means governing the flow of the pressurized fluid in said closed loop circuit such that the power pistons and displacement members are retracted faster than they move forward and such that before any one displacement member finishes its forward movement the other or another displacement member commences its forward movement whereby a smooth delivery of pumped material is obtained, wherein said control means comprises sensing valve means associated with each power cylinder and arranged to be actuated at at least two positions of the power piston within the power cylinder, the sensing valve means for each power cylinder comprising a first valve which is actuated when the power piston reaches substantially the end of its retraction stroke and a second valve which is actuated when the power piston is at a position a distance on the order of 10% of the length of the stroke of the power piston before the end of its forward stroke, said first and second valves being mechanically operated pilot valves, check valve means connected to vent and close the closed loop circuit and responsive to the actuation of said sensing valve means, adjustable flow restrictors associated with said check valve means to control the speed of reaction thereof, each of said sensing valve means being connected directly to said source of pressurized fluid such that actuation in the sense to open the valve allows the fluid pressure generated by said source to pass to said check valve means to open said check valve means and vent the closed loop circuit, a power-driven pump to supply fluid under pressure for displacement of said power pistons, a directional valve connected between said power-driven pump and the power cylinders, adjustable flow restrictors provided in associated with each directional valve, means connecting the output side of said sensing valve means to said directional valve whereby pressure from said power-driven pump is switched progressively from one power cylinder to another in dependence on movement of the power pistons in the power cylinders, and a pilot-operated directional valve between the output side of the sensing valve means of each power-cylinder and said directional valve connected to the power-driven pump, the retraction movement of the power piston in each power cylinder being stopped by a hydraulic cushion.
Specification