Method and apparatus for protecting a pump mechanism from extraneous fluid
First Claim
1. A pump mechanism for moving fluid through an infusion tube, the pump mechanism comprising:
- a plurality of finger members, each finger member having a tube-pressing portion and upper and lower surfaces;
a plurality of projections protruding from the upper and lower surfaces of each finger member, wherein the finger members are disposed so that the projections of adjacent finger members are substantially aligned with each other and contact each other; and
a drive mechanism for moving the finger members in a peristaltic manner so that the tube-pressing portions sequentially engage the infusion tube.
10 Assignments
0 Petitions
Accused Products
Abstract
A plurality of finger members disposed adjacent each other are moved by a driving mechanism in a reciprocal, sequential manner. Infusion is carried out when the finger members engage an infusion tube in a peristaltic sequence. The finger members contact each other by projections formed integrally on the upper and lower surfaces of the finger members to reduce the contact surface area. A fluid diversion guiding hole is contained in a tube-pressing portion of each finger member. The guide holes of adjacent finger members are aligned to form a continuous channel for discharging leaking infusion fluid. Bevels surround the guiding holes and are inclined toward the center of the hole. Each finger member also includes a rib that is integral with and protrudes upward from the upper surface of the finger member for blocking infusion fluid from the finger members and drive mechanism. In a preferred embodiment, the projections are linear and substantially parallel with the sides of the guiding hole which are, in turn, parallel with the movement of the tube-pressing portion.
78 Citations
30 Claims
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1. A pump mechanism for moving fluid through an infusion tube, the pump mechanism comprising:
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a plurality of finger members, each finger member having a tube-pressing portion and upper and lower surfaces; a plurality of projections protruding from the upper and lower surfaces of each finger member, wherein the finger members are disposed so that the projections of adjacent finger members are substantially aligned with each other and contact each other; and a drive mechanism for moving the finger members in a peristaltic manner so that the tube-pressing portions sequentially engage the infusion tube. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A finger member for use in a pump mechanism having a plurality of reciprocating finger members disposed for sequentially engaging an infusion tube to move fluid through the tube in a peristaltic manner, the pump mechanism further having a drive mechanism for moving the finger members, each finger member comprising:
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an upper and a lower surface; and a plurality of projections protruding from the upper and lower surfaces and disposed so that the projections will be aligned with and will engage the projections of adjacent finger members. - View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19, 20)
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21. An infusion pump for moving fluid through an infusion tube, the infusion pump comprising:
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a plurality of vertically disposed and movable finger members, each finger member having a tube-pressing portion and upper and lower surfaces, wherein each tube pressing portion has a guiding hole and the guiding holes are sized and aligned with each other such that a continuous channel is formed and maintained during the complete movement range of the finger members; a plurality of bevels on the upper and lower surfaces, wherein the bevels incline toward the center of the guiding hole; a drive mechanism for horizontally moving the finger members in a peristaltic manner so that the tube-pressing portions sequentially engage the infusion tube; a plurality of linear projections protruding from the upper and lower surfaces of each finger member and positioned to be substantially parallel with the movement of the tube-pressing portion, wherein the finger members are disposed so that the linear projections of adjacent finger members are substantially aligned with and contact each other and the linear projections are sized to maintain contact during the complete movement range of the finger members; a mechanism chamber for housing the finger members; a pump chamber for housing the infusion tube; and a partition positioned between the mechanism chamber and the pump chamber and having an opening through which the finger members interface with the infusion tube, the partition having a pair of upper linear projections protruding downward from the upper opening-facing surface of the partition and having a pair of lower linear projections protruding upward from the lower opening-facing surface of the partition, wherein the upper and lower linear projections are substantially aligned with and contact the linear projections of the respective extreme upper and lower finger members.
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- 22. The pump mechanism of claim 22 wherein each finger member has a rib protruding upward from the upper surface for isolating the tube-pressing portion from the remaining portions of the finger member and the height of the rib is less than the height of the linear projections.
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25. The pump mechanism of claim 25 wherein the mechanism-chamber-facing surface of the partition has a plurality of vertical grooves located near the opening.
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26. A method for protecting a pump mechanism from adhesion caused by the entry of extraneous fluid into the pump mechanism, the pump mechanism having a plurality of reciprocating finger members adjacently disposed for sequentially engaging an infusion tube to move fluid through the tube in a peristaltic manner, the pump mechanism further having a drive mechanism for moving the finger members, each finger member having upper and lower surfaces, the method comprising the steps of:
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limiting the surface-area contact between adjacent upper and lower surfaces; forming a continuous channel that is associated with each finger member; and diverting the fluid from the upper and lower surfaces toward and into the channel.
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- 27. The method of claim 27 wherein the step of limiting the surface-area contact between adjacent upper and lower surfaces comprises the step of forming projections on the upper and lower surfaces of adjacent finger members so that they are aligned with each other and contact each other during the complete movement range of the finger members.
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29. The method of claim 29 wherein the step of diverting the fluid from the upper and lower surfaces toward and into the channel comprises the step of forming bevels on the upper and lower surfaces of the finger member, the bevels inclining toward the center of the guiding hole.
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30. The method of claim 30 wherein the step of diverting the fluid from the upper and lower surfaces toward and into the channel further comprises the step of forming a rib that protrudes upward from the upper surface and a rib that protrudes downward from the lower surface and the ribs for retaining the fluid in the portion of the finger member surrounding the guiding hole.
Specification