A variable fluid flow hydraulic pump including one or more displacement bodies having a fixed volume chamber. Within this fixed volume chamber a piston cycles or reciprocates thus providing for the movement of fluid. Also present is a low pressure valve connecting said displacement chamber with the
A variable fluid flow hydraulic pump including one or more displacement bodies having a fixed volume chamber. Within this fixed volume chamber a piston cycles or reciprocates thus providing for the movement of fluid. Also present is a low pressure valve connecting said displacement chamber with the low pressure side. Additionally, a high pressure valve may be provided on the high pressure side. The low pressure valve is provided with an adjustable element or Fcontrol providing an opening force thereon and further providing a closing force, which periodically increases during the pumping stroke and decreases during the suction stroke of said piston reciprocating within the displacement body and further includes an element to supply fluid from the low pressure side to said fixed volume chamber of the displacement body while the pressure in the displacement chamber is less than that of the low pressure side.
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1. A variable fluid flow hydraulic pump comprising at least one displacement body having a fixed volume displacement chamber,a piston reciprocating within said displacement body,further comprising a low pressure valve connecting said fixed volume displacement chamber with a low pressure side, and a
1. A variable fluid flow hydraulic pump comprising at least one displacement body having a fixed volume displacement chamber,a piston reciprocating within said displacement body,further comprising a low pressure valve connecting said fixed volume displacement chamber with a low pressure side, and a check valve arranged in the low pressure valve for connecting said fixed volume displacement chamber with the low pressure side, said check valve being configured to supply fluid from the low pressure side to said fixed volume displacement chamber of the displacement body while the pressure in the displacement chamber is less than that of the low pressure side,wherein said low pressure valve is provided with adjustable means providing an opening force thereon and further providing a closing force, which periodically increases during a pumping stroke and decreases during a suction stroke of said piston reciprocating within the displacement body. 2. The variable fluid flow hydraulic pump as claimed in claim 1, wherein the opening force that is adjustable by adjustable means and the closing force are at least essentially opposing each other, resulting in a working point where the forces are balanced and/or where a closure device of said low pressure valve will change its position during a working cycle of the piston. 3. The variable fluid flow hydraulic pump as claimed in claim 1, wherein said closing force is provided by a biasing means, where the biasing means is designed in a way to relay a force that is dependent on the position of the piston relative to a closure device of the low pressure valve. 4. The variable fluid flow hydraulic pump as claimed in claim 1, wherein said closing force is provided by a biasing means, said biasing means comprises a device taken from the group, comprising a spring, a helical spring, magnets with opposing identical poles, and permanent magnets with opposing identical poles. 5. The variable fluid flow hydraulic pump as claimed in claim 1, further comprising a second check valve, the second check valve being mounted in parallel to the low pressure valve. 6. The variable fluid flow hydraulic pump as claimed in claim 5, further comprising a slot in a driving means of the displacement body, which connects the fixed volume displacement chamber to the low pressure side mainly during the suction stroke of the variable fluid flow hydraulic pump. 7. The variable fluid flow hydraulic pump as claimed in claim 1, wherein the reciprocating of said piston is by means of a rotating eccentric body or by means of a wobble plate. 8. The variable fluid flow hydraulic pump as claimed in claim 1, wherein said adjustable means for adjusting said opening force is taken from the group comprising a pressure exerting device, a pressure chamber, an adjustable magnet, an electric coil, a motor, an electric motor, and a stepper motor. 9. The variable fluid flow hydraulic pump as claimed in claim 8, comprising a dampening device for dampening a control force creating means. 10. The variable fluid flow hydraulic pump as claimed in claim 2, wherein said closing force is provided by a biasing means, where the biasing means is designed in a way to relay a force that is dependent on the position of the piston relative to the closure device of the low pressure valve. 11. The variable fluid flow hydraulic pump as claimed in claim 2, wherein said closing force is provided by a biasing means, said biasing means comprises a device taken from the group, comprising a spring, a helical spring, magnets with opposing identical poles, and permanent magnets with opposing identical poles. 12. The variable fluid flow hydraulic pump as claimed in claim 3, wherein said biasing means comprises a device taken from the group, comprising a spring, a helical spring, magnets with opposing identical poles, and permanent magnets with opposing identical poles. 13. The variable fluid flow hydraulic pump as claimed in claim 2, further comprising a second check valve, the second check valve being mounted in parallel to the low pressure valve. 14. The variable fluid flow hydraulic pump as claimed in claim 3, further comprising a second check valve, the second check valve being mounted in parallel to the low pressure valve. 15. The variable fluid flow hydraulic pump as claimed in claim 4, further comprising a second check valve, the second check valve being mounted in parallel to the low pressure valve. 16. A method of varying the flow of a hydraulic pump by means of, providing at least one displacement body of a fixed volume displacement chamber, a piston reciprocating within said displacement body, and further providing a low pressure valve connecting said fixed volume displacement chamber with a low pressure side, and a check valve arranged in the low pressure valve for connecting said fixed volume displacement chamber with the low pressure side, wherein the method of varying the flow comprises the steps of adjusting said low pressure valve by providing an opening force thereon and providing said low pressure valve with a closing force, said closing force periodically increasing during a pumping stroke and decreasing during a suction stroke of said piston reciprocating within the displacement body, and wherein the method further comprises the step of supplying fluid from the low pressure side to said fixed volume displacement chamber of the displacement body while the pressure in the fixed volume displacement chamber does not exceed that of the low pressure side. 17. The method of varying the flow of a hydraulic pump as claimed in claim 16 wherein the adjustable opening force and the closing force are at least essentially opposing each other, thereby providing an adjustable working point where the forces are balanced and/or where a closure device of said low pressure valve will change its position during a working cycling of the piston. 18. The method of varying the flow of a hydraulic pump as claimed in claim 16, wherein said closing force is provided by a biasing means, where the biasing means is designed in a way to relay a force that is dependent on the position of the piston relative to a closure device of the low pressure valve. 19. The method of varying the flow of a hydraulic pump as claimed in claim 16, further comprising a second check valve, the second check valve being mounted in parallel to the low pressure valve. 20. The method of varying the flow of a hydraulic pump as claimed in claim 16, wherein said supplying of fluid from the low pressure side to said fixed volume displacement chamber is via comprises a slot in a driving means of the displacement body connecting the fixed volume displacement chamber to the low pressure side mainly during the suction stroke.
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