Centrifugal blood pump and magnetic coupling

US 5,017,103 A
Filed: 03/06/1989
Issued: 05/21/1991
Est. Priority Date: 03/06/1989
Status: Expired due to Fees

First Claim

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1. In a centrifugal blood pump composed of an impeller housing having a generally circular cross section and a longitudinal axis and delimiting a blood pumping chamber having a blood inlet port extending along the longitudinal axis and a blood outlet port located at the periphery of the chamber, an impeller provided with a plurality of radially extending curved vanes disposed in the chamber, each said vane having a first end adjacent said blood inlet port and a second end extending toward the periphery of the chamber, an axial shaft supporting the impeller for rotation about the longitudinal axis of the blood pumping chamber, and drive means for rotating the impeller in a sense to cause the vanes to propel blood radially from the inlet port to the outlet port, the improvement wherein said vanes are configured according to the formula:

space="preserve" listing-type="equation">R=R1+C1·

Θ

+C2·

Θ

.sup.C3where;

R is the radial distance from each point along each vane to the axis of rotation of said shaft;

R1 is the radial distance from the first end of each vane to the axis of said shaft;

Θ

is the angle, in radians, about the axis of rotation of the shaft, between a line extending between the shaft axis on the first end of each vane and a line extending between the shaft axis and the point on the same vane whose radial distance from the shaft axis is R;

C1=R1·

tan B₁, where B is the angle, at a point along a vane, between a line tangent to the blade surface and a line tangent to a circle passing through that point and centered on the axis of said shaft, B₁ is the blade angle in radians, of each vane at its first end;

C2=(R₂ tan B₂ -C1)/(C3·

Θ

₂ (C3-1)), where R 2 is the radial distance from the second end of each vane to the shaft axis, B₂ is the blade angle, in radians, of each vane at the second end, and Θ

₂ is the value for Θ

associated with the radial distance R2; and

whereinC3=(R2·

tan B₂ -C1)·

Θ

₂ /(R₂ -R₁ -C1·

Θ

₂).

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Abstract

A centrifugal blood pump having a pumping chamber provided with an axial inlet and a circumferential outlet and provided with a rotatable impeller having a plurality of radially extending blood propelling vanes. The vanes are configured to each have a blade angle which varies monotonically toward the periphery of the chamber. The pumping chamber is delimited by an impeller housing provided with an opening through which the impeller shaft extends into the chamber, the opening having an outline which conforms closely to the outline of the shaft, and the pump further includes a bearing housing secured to the impeller housing and delimiting a bearing chamber into which the shaft extends; bearings disposed in the bearing chamber and rotatably supporting the shaft; and a seal located in the bearing chamber adjacent the opening and surrounding the shaft to form a fluid seal between the blood pumping chamber and the bearing chamber. The impeller is driven by a plurality of magnetizable plates secured to the impeller and spaced apart about the longitudinal axis, and a rotatable magnetic drive assembly disposed outside of the impeller housing and mounted for rotation about the longitudinal axis, the drive assembly producing a magnetic field which passes through each plate for attracting the plates to the drive assembly and rotating the impeller with the drive assembly.

172 Citations

26 Claims

1. In a centrifugal blood pump composed of an impeller housing having a generally circular cross section and a longitudinal axis and delimiting a blood pumping chamber having a blood inlet port extending along the longitudinal axis and a blood outlet port located at the periphery of the chamber, an impeller provided with a plurality of radially extending curved vanes disposed in the chamber, each said vane having a first end adjacent said blood inlet port and a second end extending toward the periphery of the chamber, an axial shaft supporting the impeller for rotation about the longitudinal axis of the blood pumping chamber, and drive means for rotating the impeller in a sense to cause the vanes to propel blood radially from the inlet port to the outlet port, the improvement wherein said vanes are configured according to the formula:
- space="preserve" listing-type="equation">R=R1+C1·
  
  Θ
  
  +C2·
  
  Θ
  
  .sup.C3
  where;
  
  R is the radial distance from each point along each vane to the axis of rotation of said shaft;
  
  R1 is the radial distance from the first end of each vane to the axis of said shaft;
  
  Θ
  
  is the angle, in radians, about the axis of rotation of the shaft, between a line extending between the shaft axis on the first end of each vane and a line extending between the shaft axis and the point on the same vane whose radial distance from the shaft axis is R;
  
  C1=R1·
  
  tan B₁, where B is the angle, at a point along a vane, between a line tangent to the blade surface and a line tangent to a circle passing through that point and centered on the axis of said shaft, B₁ is the blade angle in radians, of each vane at its first end;
  
  C2=(R₂ tan B₂ -C1)/(C3·
  
  Θ
  
  ₂ (C3-1)), where R 2 is the radial distance from the second end of each vane to the shaft axis, B₂ is the blade angle, in radians, of each vane at the second end, and Θ
  
  ₂ is the value for Θ
  
  associated with the radial distance R2; and
  
  whereinC3=(R2·
  
  tan B₂ -C1)·
  
  Θ
  
  ₂ /(R₂ -R₁ -C1·
  
  Θ
  
  ₂).
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
- - 2. A pump as defined in claim 1 wherein said vanes are curved such that during rotation of said impeller at a selected speed, the magnitude of the velocity imparted to blood by the first end of said valve is substantially equal to the speed of blood flowing through said inlet port.
  - 3. A pump as defined in claim 2 wherein said impeller comprises a planar support plate and said vanes project in both axial directions from said plate.
  - 4. A pump as defined in claim 3 wherein said support plate is provided with an annular opening adjacent the second ends of said vanes for passage of blood axially from one side of the other of said support plate.
  - 5. A pump as defined in claim 1 wherein:
    - R1=0.3";
      
      R₂ =1.4";
      
      B₁ =0.1745 Rad=10°
      
      ;
      
      B₂ =1.047 Rad=60°
      
      ; and
      
      Θ
      
      ₂ =2.094 Rad=120°
      
      .
  - 6. A pump as defined in claim 1 wherein said impeller housing is provided with an opening through which said shaft extends into said chamber, said opening having an outline which conforms closely to the outline of said shaft, and further comprising:
    - a bearing housing secured to said impeller housing and delimiting a bearing chamber into which said shaft extends;
      
      bearing means disposed in said bearing chamber and rotatably supporting said shaft; and
      
      seal means located in said bearing chamber adjacent said opening and surrounding said shaft to form a fluid seal between said blood pumping chamber and said bearing chamber.
  - 7. A pump as defined in claim 6 wherein the end of said opening which borders said chamber is formed to have a distinct edge.
  - 8. A pump as defined in claim 6 wherein said bearing means comprise two journal bearings spaced apart along said longitudinal axis, and further comprising a mass of lubricating grease filling the region of said bearing chamber between said journal bearings.
  - 9. A pump as defined in claim 6 further comprising a thrust bearing disposed in said bearing chamber and providing axial support for said shaft.
  - 10. A pump as defined in claim 9 wherein said thrust bearing is constituted by a metal ball.
  - 11. A pump as defined in claim 6 wherein said opening is dimensioned such that the difference between the radius of said opening and the radius of said shaft is not greater than 0.002 inch.

12. In a centrifugal blood pump composed of an impeller housing having a generally circular cross section and a longitudinal axis and delimiting a blood pumping chamber having a blood inlet port extending along the longitudinal axis and a blood outlet port located at the periphery of the chamber, an impeller provided with a plurality of radially extending vanes disposed in the chamber, a shaft supporting the impeller for rotation about the longitudinal axis of the blood pumping chamber, and drive means for rotating the impeller in a sense to cause the vanes to propel blood radially from the inlet port to the outlet port, the improvement wherein said drive means comprise:
- a plurality of magnetizable plates secured to said impeller and spaced apart about the longitudinal axis; and
  
  a rotatable magnetic drive assembly disposed outside of said impeller housing and mounted for rotation about the longitudinal axis, said drive assembly comprising means producing a magnetic field which passes through each said plate for attracting said plates to said drive assembly and rotating said impeller with said drive assembly.
- View Dependent Claims (13, 14, 15)
- - 13. A pump as defined in claim 12 wherein said means producing a magnetic field are constructed to produce a separate magnetic field for each said plate.
  - 14. A pump as defined in claim 13 wherein said means producing a magnetic field comprise a plurality of magnet units, each magnet unit being associated with a respective plate and comprising two bar magnets having their magnetic axes oriented parallel to the longitudinal axis and in polarity opposition to one another, and a ferromagnetic plate extending between said two bar magnets at the ends thereof remote from said impeller housing.
  - 15. A pump as defined in claim 14 wherein the magnetic axis of each bar magnet is oriented to have the same polarity as the magnetic axis of the adjacent bar magnet of the adjacent magnet unit such that the magnetic field produced by each said magnet unit is circumferentially repelled by the magnetic fields of the respectively adjacent magnet units.

16. In a centrifugal blood pump composed of an impeller housing having a generally circular cross section and a longitudinal axis and delimiting a blood pumping chamber having a blood inlet port extending along the longitudinal axis and a blood outlet port located at the periphery of the chamber, an impeller provided with a plurality of radially extending vanes disposed in the chamber, a shaft supporting the impeller for rotation about the longitudinal axis of the blood pumping chamber, and drive means for rotating the impeller in a sense to cause the vanes to propel blood radially from the inlet port to the outlet port, the improvement wherein said impeller housing is provided with an opening through which said shaft extends into said chamber, said opening having an outline which conforms closely to the outline of said shaft, a plurality of magnetizable plates secured to said impeller and spaced apart about the longitudinal axis, and said pump further comprises:
- a bearing housing secured to said impeller housing and delimiting a bearing chamber into which said shaft extends;
  
  sleeve bearing means disposed in said bearing chamber and rotatably supporting said shaft; and
  
  seal means located in said bearing chamber adjacent said opening and surrounding said shaft to form a fluid seal between said blood pumping chamber and said bearing chamber.
- View Dependent Claims (17, 18, 19, 20, 21)
- - 17. A pump as defined in claim 16 wherein the end of said opening which borders said chamber is formed to have a distinct edge.
  - 18. A pump as defined in claim 16 wherein said bearing means comprise two journal bearings spaced apart along said longitudinal axis, and further comprising a mass of lubricating grease filling the region of said bearing chamber between said journal bearings.
  - 19. A pump as defined in claim 16 further comprising a thrust bearing disposed in said bearing chamber and providing axial support for said shaft.
  - 20. A pump as defined in claim 19 wherein said thrust bearing is constituted by a metal ball.
  - 21. A pump as defined in claim 16 wherein said opening is dimensioned such that the difference between the radius of said opening and the radius of said shaft is not greater than 0.002 inch.

22. In a centrifugal blood pump composed of an impeller housing having a generally circular cross section and a longitudinal axis and delimiting a blood pumping chamber having a blood inlet port extending along the longitudinal axis and a blood outlet port located at the periphery of the chamber, an impeller provided with a plurality of radially extending vanes disposed in the chamber, a shaft supporting the impeller for rotation about the longitudinal axis of the blood pumping chamber, and drive means for rotating the impeller in a sense to cause the vanes to propel blood radially from the inlet port to the outlet port, the improvement wherein said drive means comprise:
- a plurality of magnetizable plates secured to said impeller and spaced apart about the longitudinal axis; and
  
  a rotatable magnetic drive assembly disposed outside of said impeller housing and mounted for rotation about the longitudinal axis, said drive assembly comprising means producing a magnetic field which passes through each said plate for attracting said plates to said drive assembly and rotating said impeller with said drive assembly.
- View Dependent Claims (23, 24, 25)
- - 23. A pump as defined in claim 22 wherein said means producing a magnetic field are constructed to produce a separate magnetic field for each said plate.
  - 24. A pump as defined in claim 23 wherein said means producing a magnetic field comprise a plurality of magnet units, each magnet unit being associated with a respective plate and comprising two bar magnets having their magnetic axes oriented parallel to the longitudinal axis and in polarity opposition to one another, and a ferromagnetic plate extending between said two bar magnets at the ends thereof remote from said impeller housing.
  - 25. A pump as defined in claim 24 wherein the magnetic axis of each bar magnet is oriented to have the same polarity as the magnetic axis of the adjacent bar magnet of the adjacent magnet unit such that the magnetic field produced by each said magnet unit is circumferentially repelled by the magnetic fields of the respectively adjacent magnet units.

26. In a centrifugal blood pump composed of an impeller housing having a longitudinal axis and delimiting a blood pumping chamber having a blood inlet port and a blood outlet port, an impeller provided with a plurality of vanes disposed in the chamber, a shaft supporting the impeller for rotation about the longitudinal axis of the blood pumping chamber, and drive means for rotating the impeller in a sense to cause the vanes to propel blood from the inlet port to the outlet port, the improvement wherein said drive means comprise:
- a plurality of magnetizable plates secured to said impeller and spaced apart about the longitudinal axis; and
  
  a rotatable magnetic drive assembly disposed outside of said impeller housing and mounted for rotation about the longitudinal axis, said drive assembly comprising means producing a magnetic field which passes through each said plate for attracting said plates to said drive assembly and rotating said impeller with said drive assembly.

Specification

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Current Assignee
Jostra Bentley Corporation
Original Assignee
St Jude Medical Incorporated (Abbott Laboratories Incorporated)
Inventors
Dahl, Terrance J.
Primary Examiner(s)
Smith, Leonard E.
Assistant Examiner(s)
Scheuermann, David W.

Application Number

US07/320,212
Time in Patent Office

806 Days
Field of Search

417/423.7, 417/420, 415/98, 415/229, 416/181, 416/184, 384/610, 464/29
US Class Current

417/420
CPC Class Codes

A61M 60/104   Extracorporeal pumps, i.e. ...

A61M 60/232   Centrifugal pumps

A61M 60/419   the force acting on the blo...

A61M 60/806   Vanes or blades

A61M 60/824   Hydrodynamic or fluid film ...

A61M 60/825   Contact bearings, e.g. ball...

A61M 60/827   Sealings between moving parts

F04D 13/027   Details of the magnetic cir...

F04D 29/047   hydrostatic; hydrodynamic

F04D 29/106   especially adapted for liqu...

F04D 29/245   for special effects

F16J 15/3236   with at least one lip for e...

F16J 15/50   between relatively-movable ...

H02K 49/108   with an axial air gap

H02K 5/128   using air-gap sleeves or ai...

Centrifugal blood pump and magnetic coupling

First Claim

7 Assignments

0 Petitions

Accused Products

Abstract

172 Citations

26 Claims

Specification

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Centrifugal blood pump and magnetic coupling

First Claim

7 Assignments

Subscription Required

Subscription Required

0 Petitions

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Accused Products

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Abstract

172 Citations

26 Claims

Specification

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Solutions

Use Cases

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