WO1994017304B1

WO1994017304B1 - Blood pump with disposable rotor assembly

Info

Publication number: WO1994017304B1
Application number: PCT/US1994/000539
Authority: WO
Filing date: 1994-01-21
Publication date: 1994-09-15

Abstract

A centrifugal blood pump features a pump assembly (14) including a cylindrical barrel insertable into a motor stator (12). The barrel contains a motor rotor (58) which is directly coupled to the pump's impeller (40). The barrel can be oriented and locked in the motor stator in many different angular orientations. Hemolysis is prevented in spite of high speed operation by reducing the clearance between the impeller (40) and the impeller chamber, radiusing the edges of the impeller blades, and providing a deflector to prevent blood from being impelled more than once around the impeller chamber periphery. An efficient releasable locking mechanism is also disclosed, as is a preferred method of assembling the pump assembly with close tolerances.

Claims

AMENDED CLAIMSI received by the International Bureau on 1 1 August 1994 (11.08.94); original claims 1 , 3, 4, 6 and 8-10 amended; new claims 12- 15 added; other claims unchanged (7 pages)]

1. A blood pump, comprising: a) a reusable motor stator assembly including a motor stator defining a substantially cylindrical cavity; b) a disposable pump assembly including: i) a substantially cylindrical barrel adapted to be inserted in and withdrawn from said cavity; ii) motor rotor means disposed in said barrel for rotation with respect thereto, said motor rotor means being so positioned in said barrel as to cooperate with said motor stator to form an electric motor when said barrel is inserted into said cavity; iii) a centrifugal blood pump including an impeller, said impeller being directly connected to said motor rotor for rotation therewith; and iv) releasable locking means operable to releasably lock said barrel in engagement with said cavity without rotation of said barrel.

2. The blood pump of Claim 1, further comprising: c) cooperating orientation means on said pump assembly and said stator assembly, said orientation means being arranged to allow insertion of said pump assembly into said stator assembly in any of a plurality of orientations, and to hold said pump assembly against rotation with respect to said stator assembly when so inserted.

3. The blood pump of Claim 1, in which said releasable locking means are positioned on said stator assembly and are arranged to engage said pump assembly when fully inserted and to prevent longitudinal movement of said pump assembly when so engaged.

4. A blood pump comprising: a) a reusable motor stator assembly including a motor stator defining a substantially cylindrical cavity; b ) a disposable pump assembly including: i) a substantially cylindrical barrel adapted to be inserted in and withdrawn from said cavity; ii) motor rotor means disposed in said barrel for rotation with respect thereto, said motor rotor means being so positioned in said barrel as to cooperate with said motor stator to form an electric motor when said barrel is inserted into said cavity; iii) a centrifugal blood pump including an impeller, said impeller being directly connected to said motor rotor for rotation therewith; and releasable locking means operable to releasably lock said barrel in engagement with said cavity without rotation of said barrel; iv) said releasable locking means being positioned on said stator assembly and being arranged to engage said pump assembly when fully inserted and to prevent longitudinal movement of said pump assembly when so engaged; v ) said releasable locking means including: 1 ) a substantially circumferential groove formed on said pump assembly; 2) a pair of locking members movable in a direction transverse to the direction of insertion of said pump assembly and having flange means engageable with said groove for locking said pump assembly against longitudinal movement;

3 ) said locking members being resiliently biased into locking engagement with said groove, and having a wedge surface formed thereon; and 4) a release button having a head positioned between said locking members, said head having formed thereon a pair of wedge surfaces engageable with said wedge surfaces of said locking members to move said locking members out of engagement with said groove when said release button is depressed;

5 ) said head further having a surface engageable with said pump assembly to longitudinally move said pump assembly sufficiently upon depression of said release button to prevent re-engagement of said locking means with said groove when said release button is released.

5. The blood pump of Claim 1, in which said impeller is rotatable within an impeller housing, and the clearance between said impeller and said impeller housing is substantially 0.25-0.5mm.

6. The blood pump of Claim 5, in which said impeller has impeller blades, and the inlet and outlet edges of said blades are rounded.

7. The blood pump of Claim 1, in which said impeller has an impeller shaft, said shaft being surrounded by a sleeve fixedly attached to said shaft, said sleeve carrying said motor rotor, and in which said pump assembly includes therein a pair of bearing blocks, the ends of said sleeve forming thrust bearings with said bearing blocks.

8. In a centrifugal blood pump having an impeller chamber and an impeller including impeller blades disposed in said chamber, said impeller being arranged to impel blood around the periphery of said impeller chamber, the improvement comprising: forming a deflector on said periphery to prevent blood impelled around said periphery from making more than one pass around said periphery whereby hemolysis of said impelled blood is substantially prevented.

9. The blood pump of Claim 8 in which the area of said periphery outside of the path of said blades increases progressively around said periphery from substantially zero immediately adjacent said deflector whereby the priming volume of said blood pump is minimized.

10. The blood pump of Claim 8, in which the inlet and outlet edges of said blades are rounded to further minimize hemolysis.

1 1 . A method of assembling a close-tolerance disposable blood pump, comprising the steps of: a) forming a generally cylindrical barrel; b) fixing in said barrel a first bearing block having a substantially cylindrical opening therethrough and a substantially annular first shoulder formed within said opening; c) providing an impeller chamber having an inner and an outer portion, and having a second bearing block fixed thereto, said inner portion and second bearing block having substantially cylindrical coaxial openings formed therethrough, a substantially annular second shoulder being formed in said opening in said second bearing block; d) providing an impeller mounted on an impeller shaft; e) inserting said impeller shaft through said openings in said impeller chamber inner portion and said second bearing block to a depth where said impeller is spaced from said impeller chamber inner portion by a desired distance; f) slipping onto said impeller shaft a sleeve carrying a motor rotor, said sleeve being so dimensioned as to be insertable into said opening of said second bearing block but only as far as said second shoulder; g) positioning said sleeve in said second bearing block so that its one end is spaced from said second shoulder by a predetermined bearing clearance; h ) fixing said sleeve to said impeller shaft; i) inserting said impeller shaft and sleeve into said first bearing block to a position wherein the other end of said sleeve is spaced from said first shoulder by a predetermined bearing clearance; j) fixing said inner portion of said impeller chamber to said barrel in the position so defined; and k ) fixing said outer portion of said impeller chamber to said inner portion thereof.

12. A method of reducing hemolysis in centrifugal blood pumps in which a blade-carrying impeller rotates in an impeller housing having a substantially circular periphery, including the steps of: a) causing said impeller to impel blood along said circular periphery; and b ) so configuring said impeller housing that blood thus impelled can travel no more than once around said periphery.

13. A method of reducing priming volume in centrifugal blood pumps in which a blade-carrying impeller rotates in an impeller housing having a substantially circular periphery, including the steps of: a) causing said impeller to impel blood along said circular periphery toward an outlet; and b ) so configuring said periphery that the area of said periphery outside of the path of the impeller blades increases progressively around said periphery toward said outlet from substantially zero adjacent said outlet.

14. The method of Claim 12, comprising the further step of rounding the edges of the impeller blades.

15. A blood pump, comprising: a) a reusable motor stator assembly including a motor stator defining a substantially cylindrical cavity; an d b ) a disposable pump assembly including: i) a substantially cylindrical barrel adapted to be releasably inserted in said cavity; 2

ii) motor rotor means disposed in said barrel for rotation with respect thereto, said motor rotor means being so positioned in said barrel as to cooperate with said motor stator to form an electric motor when said barrel is inserted into said cavity; and iii) a centrifugal blood pump including an impeller housing fixed to said barrel and enclosing an impeller, said impeller being directly connected to said motor rotor for rotation therewith.