Infusion device and driving mechanism for same
First Claim
1. A drive mechanism for delivery of infusion medium comprising:
- an inlet for receiving infusion medium;
an outlet for discharging infusion medium;
a channel through which infusion medium is communicated between the inlet and the outlet;
a piston moveable between an quiescent position and a forward position to drive infusion medium from the piston channel toward the outlet;
a valve member facing a first end of the channel, the valve member being moveable between closed and open positions to open and close the first end of the channel in conjunction with movement of the piston between quiescent and forward positions; and
a valve seat located adjacent the end of the channel that faces the valve member for contacting the valve member when the valve member is in closed position;
the valve member including at least one generally rigid stop surface for contacting the valve seat upon the valve member being in a closed position, the valve member further including a generally compliant portion extending toward the valve seat, beyond the generally rigid stop surface for contacting the valve seat when the valve member is in a closed position, wherein the generally compliant portion includes at least one annular projection, and wherein the stop surface surrounds the generally compliant portion.
1 Assignment
0 Petitions
Accused Products
Abstract
A drive mechanism for delivery of infusion medium. A coil surrounds a piston channel. An armature is located adjacent the coil. The armature is moveable toward a forward position in response to the electromagnetic field produced by activation of the coil. A piston located within the piston channel is moveable within the channel to a forward position in response to movement of the armature. The armature and piston are moved toward a retracted position when the coil is not energized. In the retracted position, a piston chamber formed between the piston and a valve member filled with infusion medium. As the piston is moved to its forward position, piston chamber volume is reduced and pressure within the piston chamber increases and moves the valve member into an open position. Medium from the piston chamber is then discharged into an outlet chamber.
274 Citations
15 Claims
-
1. A drive mechanism for delivery of infusion medium comprising:
-
an inlet for receiving infusion medium;
an outlet for discharging infusion medium;
a channel through which infusion medium is communicated between the inlet and the outlet;
a piston moveable between an quiescent position and a forward position to drive infusion medium from the piston channel toward the outlet;
a valve member facing a first end of the channel, the valve member being moveable between closed and open positions to open and close the first end of the channel in conjunction with movement of the piston between quiescent and forward positions; and
a valve seat located adjacent the end of the channel that faces the valve member for contacting the valve member when the valve member is in closed position;
the valve member including at least one generally rigid stop surface for contacting the valve seat upon the valve member being in a closed position, the valve member further including a generally compliant portion extending toward the valve seat, beyond the generally rigid stop surface for contacting the valve seat when the valve member is in a closed position, wherein the generally compliant portion includes at least one annular projection, and wherein the stop surface surrounds the generally compliant portion. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
-
-
13. A drive mechanism for delivery of infusion medium comprising:
-
an inlet for receiving infusion medium;
an outlet for discharging infusion medium;
a channel through which infusion medium is communicated between the inlet and the outlet;
a valve member facing a first end of the channel, the valve member being moveable between closed and open positions to open and close the first end of the channel; and
a valve seat located adjacent the end of the channel that faces the valve member for contacting the valve member when the valve member is in closed position, wherein the valve member includes at least one generally rigid stop surface for contacting the valve seat upon the valve member being in a closed position, the valve member further including a generally compliant portion extending toward the valve seat, beyond the generally rigid stop surface for contacting the valve seat when the valve member is in a closed position, wherein the generally compliant portion includes at least one annular projection, and wherein the stop surface surrounds the generally compliant portion.
-
-
14. A method of fabricating a drive mechanism for delivery of infusion medium comprising:
-
providing an inlet for receiving infusion medium;
providing an outlet for discharging infusion medium;
establishing a channel through which infusion medium is communicated between the inlet and the outlet;
facing a valve member toward a first end of the channel, the valve member being moveable between closed and open positions to open and close the first end of the channel; and
locating a valve seat adjacent the end of the channel that faces the valve member for contacting the valve member when the valve member is in closed position, wherein the valve member includes at least one generally rigid stop surface for contacting the valve seat upon the valve member being in a closed position, the valve member further including a generally compliant portion extending toward the valve seat, beyond the generally rigid stop surface for contacting the valve seat when the valve member is in a closed position, wherein the generally compliant portion includes at least one annular projection, and wherein the stop surface surrounds the generally compliant portion.
-
-
15. A drive mechanism for delivery of infusion medium comprising:
-
means for providing an inlet for receiving infusion medium;
means for providing an outlet for discharging infusion medium;
means for establishing a channel through which infusion medium is communicated between the inlet and the outlet;
means for facing a valve member toward a first end of the channel, the valve member being moveable between closed and open positions to open and close the first end of the channel; and
means for locating a valve seat adjacent the end of the channel that faces the valve member for contacting the valve member when the valve member is in closed position, wherein the valve member includes at least one generally rigid stop surface for contacting the valve seat upon the valve member being in a closed position, the valve member further including a generally compliant portion extending toward the valve seat, beyond the generally rigid stop surface for contacting the valve seat when the valve member is in a closed position, wherein the generally compliant portion includes at least one annular projection, and wherein the stop surface surrounds the generally compliant portion.
-
Specification