HEART ASSIST DEVICE
First Claim
1. A heart assist device, comprising:
- a rotary pump housing having a cylindrical bore, a pumping chamber and a motor stator including an electrically conductive coil located within said housing and surrounding a portion of said cylindrical bore, and also comprising a rotor, said rotor having a cylindrical shaft with an outer surface and at least one impeller appended to one end of said shaft;
wherein said rotor comprises a plurality of magnets located within said shaft and opposite said motor stator;
wherein said bore is closely fitted to the outer surface of said shaft forming a hydrodynamic journal bearing;
wherein when said rotor is positioned and rotates within said bore, said at least one impeller is positioned and rotates within the pumping chamber; and
wherein said pumping chamber and said journal bearing are connected by a leak path to allow blood to pass from the pumping chamber into the journal bearing.
4 Assignments
0 Petitions
Accused Products
Abstract
A heart assist device comprising a rotary pump housing having a cylindrical bore, a pumping chamber and a motor stator including an electrically conductive coil located within the housing and surrounding a portion of the cylindrical bore. A rotor has a cylindrical shaft, at least one impeller appended to one end of the shaft, and a plurality of magnets located within the shaft. The rotor shaft is positioned within the housing bore with the magnets opposite the motor stator, and the impeller is positioned within the pumping chamber. The housing bore is closely fitted to the outer surface of the shaft forming a hydrodynamic journal bearing, with the pumping chamber and journal bearing connected by a leak path of blood flow between the pumping chamber and the journal bearing. A backiron of the motor stator attracts the rotor magnets to resist longitudinal displacement of the rotor within the housing during operation. The relative orientation of positions of the inflow, outflow, and leakage flow paths may be varied within the pump, such as to accommodate different intended methods for implantation and/or use.
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Citations
61 Claims
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1. A heart assist device, comprising:
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a rotary pump housing having a cylindrical bore, a pumping chamber and a motor stator including an electrically conductive coil located within said housing and surrounding a portion of said cylindrical bore, and also comprising a rotor, said rotor having a cylindrical shaft with an outer surface and at least one impeller appended to one end of said shaft; wherein said rotor comprises a plurality of magnets located within said shaft and opposite said motor stator; wherein said bore is closely fitted to the outer surface of said shaft forming a hydrodynamic journal bearing; wherein when said rotor is positioned and rotates within said bore, said at least one impeller is positioned and rotates within the pumping chamber; and wherein said pumping chamber and said journal bearing are connected by a leak path to allow blood to pass from the pumping chamber into the journal bearing. - View Dependent Claims (7, 14, 15, 34, 46, 60)
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2-3. -3. (canceled)
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4. An implantable blood pump device, comprising:
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a housing with an elongated cylindrical bore extending along a longitudinal axis, a pumping chamber, and a motor stator with an electrically conductive coil and back iron; a rotor with an elongated shaft extending along a longitudinal axis, a rotary pump coupled to the elongated shaft, and a rotor magnet; a blood inlet port fluidly coupled to the pumping chamber; a blood outlet port fluidly coupled to the pumping chamber; wherein the elongated shaft of the rotor is located at least in part within the cylindrical bore of the housing with a journal bearing clearance between an inner bearing surface of the housing'"'"'s bore and an outer bearing surface of the rotor shaft; wherein the rotary pump is located within the pumping chamber; wherein the motor stator is adapted to be coupled to a power source and is positioned relative to the rotor magnet to form a flux gap motor interface such that, in an operating mode upon activation by the power source, electrical current flows through the coil sufficient to create a magnetic flux field that extends across a flux gap clearance between the rotor and housing at the flux gap motor interface and that displaces the rotor magnet sufficient to torque the rotor and rotate the rotor shaft and rotary pump within the journal bearing clearance and pumping chamber, respectively; wherein in the operating mode blood flows into the pump principally along an inflow path inward through the inlet port and into the pumping chamber, and flows out from the pump principally along an outflow path outward from the pumping chamber through the outlet port; wherein in the operating mode the back iron is positioned to provide a magnetic flux field interaction between the back iron and rotor magnet sufficient to substantially resist longitudinal displacement from a displacement force of the activated motor stator coil, and to substantially maintain a longitudinal position of the rotor within the housing.
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5-6. -6. (canceled)
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8-13. -13. (canceled)
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16-33. -33. (canceled)
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35-45. -45. (canceled)
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47-59. -59. (canceled)
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61-104. -104. (canceled)
Specification