A method of displacing fluid includes pulling a pump displacement member through a suction stroke with a pull, the pull configured to transmit only tensile forces to the fluid displacement member. A working fluid disposed in an internal pressure chamber drive the fluid displacement member through a
A method of displacing fluid includes pulling a pump displacement member through a suction stroke with a pull, the pull configured to transmit only tensile forces to the fluid displacement member. A working fluid disposed in an internal pressure chamber drive the fluid displacement member through a pumping stroke. The pull is prevented from transmitting any compressive forces to the fluid displacement member, such that the pull does not drive the fluid displacement member through the pumping stroke.
대표청구항▼
1. A method of operating a pump comprising: charging an internal pressure chamber with a working fluid;activating a drive, wherein the drive moves a driven member disposed within the internal pressure chamber in a first stroke direction and then in a second stroke direction;wherein the driven member
1. A method of operating a pump comprising: charging an internal pressure chamber with a working fluid;activating a drive, wherein the drive moves a driven member disposed within the internal pressure chamber in a first stroke direction and then in a second stroke direction;wherein the driven member draws one of a first fluid displacement member or a second fluid displacement member into a suction stroke and the working fluid pushes the other of the first fluid displacement member or the second fluid displacement member into a pumping stroke; andsequencing the drive such that one of the first fluid displacement member or the second fluid displacement member begins a pumping stroke before-the other fluid displacement member completes a pumping stroke;wherein the driven member is coupled to the first fluid displacement member during the suction stroke and the driven member is decoupled from the first fluid displacement member during the pumping stroke, such that the driven member is capable of pulling the first fluid displacement member when coupled and the driven member is movable relative to the first fluid displacement member when decoupled. 2. The method of claim 1, wherein the driven member comprises a piston riding on bushings. 3. The method of claim 1, wherein the driven member comprises a hub mounted on the drive. 4. The method of claim 1, wherein the step of sequencing the drive comprises one of increasing a back pressure at an outlet of the pump, regulating the piston speed, and adjusting the working fluid pressure. 5. A method of operating a pump comprising: charging an internal pressure chamber with a working fluid;driving a driven member disposed within the internal pressure chamber;pulling a first fluid displacement member into a suction stroke with a first pull extending between the first fluid displacement member and the driven member; andpushing the first fluid displacement member into a pumping stroke with the working fluid;wherein the first pull is coupled to the driven member during the suction stroke and decoupled from the driven member during the pumping stroke; andwherein the first pull is capable of pulling the first fluid displacement member when coupled to the driven member, and wherein the driven member is movable relative to the first pull and the first fluid displacement member when decoupled from the first pull. 6. The method of claim 5, further comprising: pulling a second fluid displacement member into a suction stroke with a second pull extending between the second fluid displacement member and the driven member; andpushing the second fluid displacement member into a pumping stroke with the working fluid;wherein the second pull is configured to transmit only tensile forces to the second fluid displacement member during the suction stroke of the second fluid displacement member and is prevented from transmitting any compressive forces from the driven member to the second fluid displacement member during the pumping stroke of the second fluid displacement member. 7. The method of claim 6, further comprising: sequencing the drive such that one of the first fluid displacement member or the second fluid displacement member begins a pumping stroke before the other of the first fluid displacement member and the second fluid displacement member completes a pumping stroke. 8. The method of claim 7, wherein the step of sequencing the drive comprises increasing back pressure at an outlet of the pump. 9. The method of claim 7, wherein the step of sequencing the drive comprises regulating a speed of the driven member. 10. The method of claim 7, wherein the step of sequencing the drive comprises adjusting the working fluid pressure. 11. The method of claim 5, wherein the first fluid displacement member comprises a first diaphragm. 12. The method of claim 5, wherein the first fluid displacement member comprises a first piston. 13. The method of claim 5, wherein the driven member comprises a piston riding on bushings. 14. The method of claim 5, wherein the driven member comprises a hub mounted on the drive. 15. A method of pulselessly displacing fluid, the method comprising: pulling a first fluid displacement member in a first direction with a first pull such that the first fluid displacement member enters a first suction stroke, the first pull coupling a driving member to the first fluid displacement member during the first suction stroke;pushing the first fluid displacement member in a second direction opposite the first direction with a working fluid disposed in an internal pressure chamber, such that the working fluid drives the first fluid displacement member through a first pumping stroke, the first pull decoupling the driving member from the first fluid displacement member during the first pumping stroke such that the driving member is movable relative to the first fluid displacement member and the first pull as the driving member moves in the second direction;pulling a second fluid displacement member in the second direction with a second pull, such that the second fluid displacement member enters a second suction stroke, the second pull coupling the driving member to the second fluid displacement member during the second suction stroke; andpushing the second fluid displacement member in the first direction with the working fluid disposed in the internal pressure chamber, such that the working fluid drives the second fluid displacement member through a second pumping stroke, the second pull decoupling the driving member from the second fluid displacement member during the second pumping stroke such that the driving member is movable relative to the second fluid displacement member and the second pull as the driving member moves in the first direction;wherein the internal pressure chamber is disposed between and bounded by the first fluid displacement member and the second fluid displacement member. 16. The method of claim 15, wherein the first pull comprises a first flexible belt and wherein the second pull comprises a second flexible belt. 17. The method of claim 15, wherein: the first pull comprises: a first attachment end secured to the first fluid displacement member;a first free end disposed within a first pull chamber of the driving member, the driving member pulling the first pull in the first direction;a first pull body extending between and connecting the first attachment end and the first free end; anda first flange extending radially from the first free end, the first flange retaining the first free end within the first pull chamber;wherein the first free end is movable relative to the first pull chamber;the second pull comprises: a second attachment end secured to the second fluid displacement member;a second free end disposed within a second pull chamber of a driving member, the driving member pulling the second pull in the second direction;a second pull body extending between and connecting the second attachment end and the second free end; anda second flange extending radially from the second free end, the second flange retaining the second free end within the second pull chamber;wherein the second free end is movable relative to the second pull chamber. 18. The method of claim 17, further comprising: housing the first pull in the first pull chamber to prevent over-pressurization during the step of pushing the first fluid displacement member in the second direction opposite the first direction with the working fluid disposed in the internal pressure chamber without transmitting any compressive forces from the first pull to the first fluid displacement member; andhousing the second pull in the second pull chamber to prevent over-pressurization during the step of pushing the second fluid displacement member in the first direction with the working fluid disposed in the internal pressure chamber without transmitting any compressive forces from the second pull to the second fluid displacement member. 19. The method of claim 17, wherein the driven member comprises a piston riding on bushings. 20. The method of claim 17, wherein the step of pulling a first fluid displacement member in a first direction with a first pull such that the first fluid displacement member enters a first suction stroke, the first pull configured to transmit only tensile forces to the first fluid displacement member during the first suction stroke further comprises: driving the driving member in the first direction;engaging the first flange with a first face plate attached to a first end of the driving member at least partially enclosing the first pull chamber; andtransmitting tensile forces to the first fluid displacement member from the driving member during the first suction stroke through the first face plate, the first flange, the first pull body, and the first attachment end.
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