Linear pump and method
First Claim
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1. A blood pump for pumping blood, comprising:
- a pump housing having a non-oxygenated blood inlet, an non-oxygenated blood outlet, an oxygenated blood inlet, and an oxygenated blood outlet;
a non-oxygenated bladder for receiving non-oxygenated blood and for outputting non-oxygenated blood at a first pulse rate;
an oxygenated bladder for receiving oxygenated blood and for outputting oxygenated blood at a second pulse rate;
a non-oxygenated blood inlet check valve for inputting non-oxygenated blood into the non-oxygenated bladder;
a non-oxygenated blood outlet check valve for outputting non-oxygenated blood from the non-oxygenated bladder;
an oxygenated blood inlet check valve for inputting oxygenated blood into the oxygenated bladder;
an oxygenated blood outlet check valve for outputting oxygenated blood from the oxygenated bladder;
an inlet plate secured to an inlet end of each bladder;
an outlet plate secured to an outlet end of each bladder;
a prime mover for linearly moving one of the inlet plate and the outlet plate with respect to the other of the inlet plate and the outlet plate secured to the same bladder, thereby altering the volume within the bladder to pump the blood; and
a control member for controlling linear movement of each of the movable plates in axially opposing directions while controlling the first pulse rate and the second pulse rate.
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Abstract
The linear pump (10,110) includes a housing (12, 112) and either two(20, 22) or one (120) flexible bladders each within a pump housing and interconnected to respective end caps (30, 32, 130, 132, 134, 136). Upon movement of a movable end cap relative to a stationary end cap, the volume in each bladder may be variably controlled to pump blood or another selected fluid. Linear movement of the end caps may be controlled by an attractive or repulsive force between end caps. The pump (110) with a permeable bladder (120) may be used to pump wastewater.
52 Citations
25 Claims
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1. A blood pump for pumping blood, comprising:
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a pump housing having a non-oxygenated blood inlet, an non-oxygenated blood outlet, an oxygenated blood inlet, and an oxygenated blood outlet;
a non-oxygenated bladder for receiving non-oxygenated blood and for outputting non-oxygenated blood at a first pulse rate;
an oxygenated bladder for receiving oxygenated blood and for outputting oxygenated blood at a second pulse rate;
a non-oxygenated blood inlet check valve for inputting non-oxygenated blood into the non-oxygenated bladder;
a non-oxygenated blood outlet check valve for outputting non-oxygenated blood from the non-oxygenated bladder;
an oxygenated blood inlet check valve for inputting oxygenated blood into the oxygenated bladder;
an oxygenated blood outlet check valve for outputting oxygenated blood from the oxygenated bladder;
an inlet plate secured to an inlet end of each bladder;
an outlet plate secured to an outlet end of each bladder;
a prime mover for linearly moving one of the inlet plate and the outlet plate with respect to the other of the inlet plate and the outlet plate secured to the same bladder, thereby altering the volume within the bladder to pump the blood; and
a control member for controlling linear movement of each of the movable plates in axially opposing directions while controlling the first pulse rate and the second pulse rate. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
a plurality of elongate flexible tethers each secured at one end to the bladder and an opposing end to a selected one of the inlet plate and outlet plate, such that each of the plurality of flexible elongate tethers produces a variable force which alters the attraction or repulsion of the end plates.
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12. The blood pump as defined in claim 1, further comprising:
a plurality of circumferentially spaced hinge members each pivotally secured at one end to the bladder and an opposing end to the housing, such that the pivot members alter a radially spacing of at least a portion of the bladder with respect to the housing as a function of the axial spacing between the end plates.
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13. A wastewater pump for pumping wastewater, comprising:
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a housing having a throughbore about a central axis;
an incoming end cap and an outflowing end cap each mounted along said throughbore and spaced axially from each other, one of said end caps being mounted for movement along the central axis relative to both the other end cap and the housing, such that the housing guides axial movement of the movable end cap;
a flexible generally tubular bladder interconnected at one end to said incoming end cap and at an opposite end to said outflowing end cap, the bladder defining (a) an inner chamber therein between the end caps, and (b) an outer chamber between the bladder and the housing and between the end caps;
an incoming inner chamber check valve along a flow path interconnecting wastewater with the inner chamber;
an outflowing inner chamber check valve along a flow path interconnecting the inner chamber with wastewater;
at least one incoming outer chamber check valve each along a flow path interconnecting wastewater with the outer chamber;
at least one outflowing outer chamber check valve each along a flow path interconnecting the outer chamber with wastewater; and
a power supply for controlling the attraction and repulsion of the end caps to cyclically move one end cap with respect to the other end cap and the housing along the central axis in a manner which cyclically varies the volume of both the inner chamber and the outer chamber, thereby creating pumping forces and pumping wastewater.
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14. A wastewater pump as defined in 13, wherein at least one of the incoming end caps and the outflowing end caps include a sealing member for sealing engagement with wastewater tubular bladder.
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15. A wastewater pump as defined in 13, wherein the pump has an inlet portion receiving substantially dirty wastewater and an outlet for outputting substantially clean wastewater and the bladder is permeable for transmitting the substantially clean wastewater from the dirty wastewater stream within the bladder to a substantially clean wastewater chamber exterior of the bladder.
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16. A wastewater pump as defined in 13, further comprising:
the incoming end cap, housing the at least one incoming outer chamber check valve, and the outflowing end cap, housing the at least one outflowing outer chamber check valve.
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17. A wastewater pump as defined in 13, wherein the prime mover is electrically powered to generate alternative repulsive forces, and wherein the inlet plate is linearly movable relative to the outlet plate in response to the attractive and repulsive forces.
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18. A wastewater pump as defined in 13, wherein the prime mover includes one or more of an electrically powered prime mover and hydraulically powered prime mover.
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19. A wastewater pump as defined in 13, wherein the power supply includes a control member for controlling linear movement of the movable end cap.
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20. A wastewater pump as defined in 19, wherein the control member is responsive to a position of the movable end plate with respect to the fixed end plate.
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21. A wastewater pump as defined in 13, further comprising:
a control member for controlling a selected linear rate, amplitude, force, and pulse volume of the wastewater pump.
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22. A method of pumping fluid, comprising:
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providing a housing having a throughbore about a central axis;
providing an incoming end cap and an outflowing end cap each mounted along the throughbore and spaced axially from each other, one of said end caps being mounted for movement along the central axis relative to the other end cap, such that the housing guides axial movement of the movable end cap;
interconnecting a flexible generally tubular bladder to said incoming end cap and at an opposite end to said outflowing end cap, the bladder defining (a) an inner chamber therein between the end caps and (b) an outer chamber between the bladder and the housing and between the end caps;
providing a check valve to limit flow interconnecting the fluid with the inner chamber;
providing an outflowing inner chamber check valve interconnecting the inner chamber with fluid;
providing at least one incoming outer chamber check valve for interconnecting fluid with the outer chamber;
providing at least one outflowing outer chamber check valve for interconnecting the outer chamber with fluid;
controlling the attraction and repulsion of the end caps to cyclically move one end cap with respect to the other end cap and the housing along the central axis in a manner which cyclically varies the volume of both the inner chamber and the outer chamber, thereby creating pumping forces and pumping the fluid. - View Dependent Claims (23, 24, 25)
venting the outer chamber to atmosphere.
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24. The method as defined in claim 22, further comprising:
securing each of a plurality of elongate flexible tethers at one end to the bladder and an opposing end to a selected one of the inlet plate and outlet plate, such that each of the plurality of flexible elongate tethers produces a variable force which alters the attraction of the end plates.
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25. The method as defined in claim 22, further comprising:
pivotally securing each of a plurality of circumferentially spaced hinge members at one end to the bladder and an opposing end to the housing, such that the hinge members alter a radially spacing of at least a portion of the bladder with respect to the housing as a function of the axial spacing between the end plates.
Specification
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Current AssigneePeter A. Guagliano, Ross, Anthony C.
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Original AssigneePeter A. Guagliano, Ross, Anthony C.
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InventorsRoss, Anthony C., Guagliano, Peter A.
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Primary Examiner(s)Freay, Charles G.
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Assistant Examiner(s)Solak, Timothy P.
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Application NumberUS09/747,832Publication NumberTime in Patent Office662 DaysField of Search417/313, 417/392, 417/394, 417/478, 604/153, 210/321.78, 210/323.2US Class Current417/478CPC Class CodesF04B 17/046 the fluid flowing through t...F04B 43/084 the tubular member being de...
