Valveless piston pumps are disclosed that are magnetically driven, thereby eliminating a troublesome dynamic seal used on conventional valveless piston pumps. An exemplary embodiment includes a housing defining a bore having a bore axis. A piston is situated in the bore so as to be movable in the bo
Valveless piston pumps are disclosed that are magnetically driven, thereby eliminating a troublesome dynamic seal used on conventional valveless piston pumps. An exemplary embodiment includes a housing defining a bore having a bore axis. A piston is situated in the bore so as to be movable in the bore in a reciprocating manner along the bore axis and in a rotational manner about the bore axis. A magnet is situated in the bore and is coupled to the piston. The magnet is engageable magnetically with a magnet-driving device configured to cause the magnet, and thus the piston, to move in the reciprocating manner and in the rotational manner. An exemplary magnet-driving device is a stator assembly.
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What is claimed is: 1. A piston pump, comprising: a sealed housing assembly defining a bore having a bore axis; a piston situated in the bore so as to be movable in the bore in a reciprocating manner along the bore axis and in a rotational manner about the bore axis; and a magnet situated in the bo
What is claimed is: 1. A piston pump, comprising: a sealed housing assembly defining a bore having a bore axis; a piston situated in the bore so as to be movable in the bore in a reciprocating manner along the bore axis and in a rotational manner about the bore axis; and a magnet situated in the bore and coupled in the bore to the piston, the magnet being engageable magnetically with a magnet-driving device that is situated outside the housing and that is configured to cause the magnet, and thus the piston, to move together in the bore in the reciprocating manner and in the rotational manner. 2. The piston pump of claim 1, wherein the magnet-driving device comprises a stator assembly situated coaxially with the magnet. 3. A piston pump, comprising: a sealed housing defining a bore extending along an axis, the housing having an inlet port and an outlet port extending into the bore; a piston situated coaxially in the bore in a manner allowing the piston to undergo, in the bore, rotational motions about the axis and reciprocating motions along the axis, the reciprocating motions corresponding to alternating intake strokes and discharge strokes of the piston, and the rotational motions allowing the piston to open and close the inlet and outlet ports in coordination with the intake and discharge strokes; a magnet mounted to and movable with the piston in the bore, the magnet producing a magnetic field; and a magnet cup defining a bore enclosing the magnet, the magnet cup being sealingly attached to the housing such that the bore of the housing is contiguous with the bore of the magnet cup, the magnetic field of the magnet being engageable with a magnet-driving device located outside the magnet cup. 4. The piston pump of claim 3, wherein the magnet-driving device is configured to cause the coordinated reciprocating and rotational motions of the magnet, and thus of the piston, in the bore. 5. The piston pump of claim 4, wherein: the magnet-driving device comprises a stator assembly comprising at least two stator portions each comprising at least two windings; and the stator portions are situated coaxially outside the magnet cup at respective locations along the axis so as magnetically to engage the magnet and to cause, when the stator portions and their respective windings are energized in a coordinated manner, the corresponding coordinated reciprocating and rotational motions of the piston and magnet in the bore. 6. The piston pump of claim 5, wherein each of the stator portions comprises at least one respective shaded pole. 7. The piston pump of claim 3, wherein the magnet cup is sealed to the housing by a static seal. 8. The piston pump of claim 3, wherein the magnet is axially mounted to the piston. 9. The piston pump of claim 3, wherein: the bore and piston are cylindrical; and the piston slip-fits in the bore. 10. The piston pump of claim 3, wherein the bore of the housing is contiguous with the bore of the magnet cup along the axis. 11. The piston pump of claim 3, wherein: the piston has a proximal end and a distal end; the proximal end is coupled to the magnet; and the distal end is configured to open and close the inlet and outlet ports in an alternating manner in synchrony with the intake and discharge strokes. 12. The piston pump of claim 3, further comprising means for limiting an axial stroke length of the piston. 13. A piston pump, comprising: housing means for defining a sealed bore having a bore axis and for defining an inlet into the bore and an outlet from the bore; piston means, situated in the bore in a manner allowing movement in a reciprocating manner along the bore axis and in a rotational manner about the bore axis, for producing with such movements a coordinated positive-displacement pumping action that moves fluid into the bore via the inlet and delivers fluid from the bore via the outlet; driven-magnet means, coupled to the piston means in the bore, for imparting the movements to the piston means in the bore; and magnet-driving means, located outside the bore and being magnetically coupled to the driven-magnet means, for imparting the movements to the driven-magnet means and hence to the piston means in the bore, to produce the coordinated positive-displacement pumping action. 14. The piston pump of claim 13, wherein said magnet-driving means comprises stator means located outside the housing means coaxially with the bore axis. 15. The piston pump of claim 14, wherein said stator means comprises shaded-pole means for achieving consistent rotational direction of the piston about the bore axis. 16. The piston pump of claim 13, further comprising means for limiting a stroke length of the piston along the bore axis in the housing means. 17. A method for moving fluid, comprising: magnetically coupling a piston, located and movable within a sealed bore defined by a sealed pump housing assembly, to a magnetic field produced outside the bore, the magnetic field being changeable to impart corresponding motions to the piston in a coordinated manner about and along a longitudinal axis of the bore; changing the magnetic field as appropriate to move the piston in the bore about the axis so as to open an inlet into the bore; changing the magnetic field as appropriate to move the piston in the bore along the axis so as to draw fluid into the bore via the inlet; changing the magnetic field as appropriate to move the piston in the bore about the axis so as to close the inlet and open an outlet from the bore; and changing the magnetic field as appropriate to move the piston in the bore along the axis so as to expel fluid from the bore via the outlet. 18. The method of claim 17, wherein magnetically coupling the piston to the changeable magnetic field outside the bore comprises: attaching the piston to a magnet in the bore; and magnetically coupling the magnet to the changeable magnetic field outside the bore. 19. The method of claim 18, wherein the magnet is coupled to a changeable magnetic field produced by a stator assembly arranged along the axis outside the bore.
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이 특허에 인용된 특허 (5)
Moret, Michel-Antoine C., Alternating current axially oscillating motor.
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