Infusion device and driving mechanism for same
First Claim
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1. A drive mechanism for delivery of infusion medium comprising:
- an inlet for receiving infusion medium;
an outlet for discharging infusion medium;
a piston channel through which infusion medium is communicated between the inlet and the outlet;
a piston located within the piston channel and moveable axially within the piston channel between a retracted position and a forward position, the piston defining a piston chamber at one end of the piston, the piston chamber having a first volume for containing infusion medium received by the inlet when the piston is in the retracted position, wherein the piston chamber volume reduces as the piston is moved from its quiescent position toward its forward position, to drive infusion medium from the piston chamber toward the outlet;
an armature located on one side of the piston channel and moveable between a retracted position and a forward position;
a coil located in a position relative to the armature to generate an electromagnetic field upon energization sufficient to cause the armature and piston to move from their quiescent positions to their forward positions; and
an adjuster for allowing adjustment of the first piston chamber volume, wherein the adjuster allows adjustment of the first piston chamber volume subsequent to sealing the first piston chamber volume.
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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 is 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.
235 Citations
40 Claims
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1. A drive mechanism for delivery of infusion medium comprising:
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an inlet for receiving infusion medium;
an outlet for discharging infusion medium;
a piston channel through which infusion medium is communicated between the inlet and the outlet;
a piston located within the piston channel and moveable axially within the piston channel between a retracted position and a forward position, the piston defining a piston chamber at one end of the piston, the piston chamber having a first volume for containing infusion medium received by the inlet when the piston is in the retracted position, wherein the piston chamber volume reduces as the piston is moved from its quiescent position toward its forward position, to drive infusion medium from the piston chamber toward the outlet;
an armature located on one side of the piston channel and moveable between a retracted position and a forward position;
a coil located in a position relative to the armature to generate an electromagnetic field upon energization sufficient to cause the armature and piston to move from their quiescent positions to their forward positions; and
an adjuster for allowing adjustment of the first piston chamber volume, wherein the adjuster allows adjustment of the first piston chamber volume subsequent to sealing the first piston chamber volume. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16)
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17. A drive mechanism for delivery of infusion medium comprising:
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an inlet for receiving infusion medium;
an outlet for discharging infusion medium;
a piston channel through which infusion medium is communicated between the inlet and the outlet;
a piston located within the piston channel and moveable axially within the piston channel between a retracted position and a forward position, the piston defining a piston chamber at one end of the piston, the piston chamber having a first volume for containing infusion medium received by the inlet when the piston is in the retracted position, wherein the piston chamber volume reduces as the piston is moved from its quiescent position toward its forward position, to drive infusion medium from the piston chamber toward the outlet;
an armature located on one side of the piston channel and moveable between an retracted position and a forward position;
a coil located in a position relative to the armature to generate an electromagnetic field upon energization sufficient to cause the armature and piston to move from their quiescent positions to their forward positions; and
an adjuster for allowing adjustment of the first piston chamber volume, wherein the adjuster comprises a threaded plunger located adjacent one end of the piston. - View Dependent Claims (18, 19)
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20. A drive mechanism for delivery of infusion medium comprising:
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an inlet for receiving infusion medium;
an outlet for discharging infusion medium;
a piston channel through which infusion medium is communicated between the inlet and the outlet;
a piston located within the piston channel and moveable axially within the piston channel between a retracted position and a forward position, the piston defining a piston chamber at one end of the piston, the piston chamber having a first volume for containing infusion medium received by the inlet when the piston is in the retracted position, wherein the piston chamber volume reduces as the piston is moved from its quiescent position toward its forward position, to drive infusion medium from the piston chamber toward the outlet;
an armature located on one side of the piston channel and moveable between an retracted position and a forward position;
a coil located in a position relative to the armature to generate an electromagnetic field upon energization sufficient to cause the armature and piston to move from their quiescent positions to their forward positions;
an adjuster for allowing adjustment of the first piston chamber volume; and
a cover member having a threaded aperture and wherein the adjuster comprises a threaded plunger threadingly engaged to the threaded aperture, the plunger extending through the aperture and having an internal end extending within the cover toward the armature and piston and an external end exposed external to the cover for receiving an externally applied rotational force to adjust the amount that the internal end extends within the cover. - View Dependent Claims (21, 22, 23, 24, 25, 26)
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27. A method for delivery of infusion medium comprising:
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providing an inlet for receiving infusion medium;
providing an outlet for discharging infusion medium;
providing a piston channel through which infusion medium is communicated between the inlet and the outlet;
providing a piston located within the piston channel and moveable axially within the piston channel between a retracted position and a forward position, the piston defining a piston chamber at one end of the piston, the piston chamber having a first volume for containing infusion medium received by the inlet when the piston is in the retracted position, wherein the piston chamber volume reduces as the piston is moved from its quiescent position toward its forward position, to drive infusion medium from the piston chamber toward the outlet;
providing an armature located on one side of the piston channel and moveable between a retracted position and a forward position;
providing a coil located in a position relative to the armature to generate an electromagnetic field upon energization sufficient to cause the armature and piston to move from their quiescent positions to their forward positions;
providing an adjuster for allowing adjustment of the first piston chamber volume, and adjusting the first piston chamber volume subsequent to sealing the first piston chamber volume. - View Dependent Claims (28, 29, 30, 31, 32, 33, 34, 35, 36, 37)
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38. A method for delivery of infusion medium comprising:
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providing an inlet for receiving infusion medium;
providing an outlet for discharging infusion medium;
providing a piston channel through which infusion medium is communicated between the inlet and the outlet;
providing a piston located within the piston channel and moveable axially within the piston channel between a retracted position and a forward position, the piston defining a piston chamber at one end of the piston, the piston chamber having a first volume for containing infusion medium received by the inlet when the piston is in the retracted position, wherein the piston chamber volume reduces as the piston is moved from its quiescent position toward its forward position, to drive infusion medium from the piston chamber toward the outlet;
providing an armature located on one side of the piston channel and moveable between a retracted position and a forward position;
providing a coil located in a position relative to the armature to generate an electromagnetic field upon energization sufficient to cause the armature and piston to move from their quiescent positions to their forward positions;
providing an adjuster for allowing adjustment of the first piston chamber volume, wherein the adjuster comprises a threaded plunger located adjacent one end of the piston. - View Dependent Claims (39)
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40. A method for delivery of infusion medium comprising:
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providing an inlet for receiving infusion medium;
providing an outlet for discharging infusion medium;
providing a piston channel through which infusion medium is communicated between the inlet and the outlet;
providing a piston located within the piston channel and moveable axially within the piston channel between a retracted position and a forward position, the piston defining a piston chamber at one end of the piston, the piston chamber having a first volume for containing infusion medium received by the inlet when the piston is in the retracted position, wherein the piston chamber volume reduces as the piston is moved from its quiescent position toward its forward position, to drive infusion medium from the piston chamber toward the outlet;
providing an armature located on one side of the piston channel and moveable between a retracted position and a forward position;
providing a coil located in a position relative to the armature to generate an electromagnetic field upon energization sufficient to cause the armature and piston to move from their quiescent positions to their forward positions; and
providing an adjuster for allowing adjustment of the first piston chamber volume; and
providing a cover member having a threaded aperture and wherein the adjuster comprises a threaded plunger threadingly engaged to the threaded aperture, the plunger extending through the aperture and having an internal end extending within the cover toward the armature and piston and an external end exposed external to the cover for receiving an externally applied rotational force to adjust the amount that the internal end extends within the cover.
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Specification
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Current AssigneeMedtronic Minimed Incorporated (Medtronic Plc)
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Original AssigneeMedtronic Minimed Incorporated (Medtronic Plc)
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InventorsBosley, Robert W., Gray, John F.
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Primary Examiner(s)Hayes, Michael J.
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Application NumberUS10/371,130Publication NumberTime in Patent Office607 DaysField of Search604/890.1, 604/891.1, 604/131, 604/151, 604/152, 604/154, 604/93.01, 604/99.04, 417/415-417US Class Current604/891.1CPC Class CodesA61M 5/14216 Reciprocating piston typeA61M 5/14276 specially adapted for impla...F04B 17/042 the solenoid motor being se...F04B 53/1032 Spring-actuated disc valves...
