Incremental motion pump mechanisms powered by shape memory alloy wire or the like
First Claim
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1. A drive mechanism for a medication delivery device, the drive mechanism comprising:
- a force receiving member;
a force applying member operatively coupled to the force receiving member to cause relative movement to occur between the force receiving member and the force applying member so that the force receiving member is in a different position relative to the force applying member; and
a shape memory actuator formed from a shape memory material and which is operatively coupled to the force applying member, and wherein the shape memory actuator is heat activated to distort the shape memory actuator from a first shape to a second shape to activate the force applying member to act upon the force receiving member to cause the relative movement between the force applying member and the force receiving member so that the force receiving member is in the different position relative to the force applying member, and wherein the shape memory actuator is returned to the first shape from the second shape after the force receiving member is in the different position relative to the force applying member;
wherein the force receiving member is a guide and the force applying member is a carriage assembly, and wherein the guide is a shaft and the carriage assembly includes at least one pawl, a lever and a cam surface on one end of the lever, and wherein the shape memory actuator is coupled to another end of the lever and actuated to move the cam surface of the lever against the at least one pawl to incrementally move the carriage assembly relative to the shaft.
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Abstract
A drive mechanism for a medication delivery device includes a force receiving member, a force applying member and a shape memory alloy (SMA) actuator. The force applying member is operatively coupled to the force receiving member to move the force receiving member to a different position relative to the force applying member. The shape memory alloy actuator is formed from a shape memory alloy material and is operatively coupled to the force applying member. The shape memory alloy actuator is heat activated to distort the shape memory actuator from a first shape to a second shape to activate the force applying member to act upon the force receiving member to move the force receiving member to a different position relative to the force applying member. Also, the shape memory alloy actuator is returned to the first shape from the second shape after the force receiving member is moved to a different position relative to the force applying member. In addition, the shape memory alloy actuator may be activated by applying and removing an electrical current to the shape memory element. For example, the drive mechanism may further include a power source coupled to the shape memory actuator to provide the electric current to the shape memory actuator. In addition, the shape memory actuator may be formed from Nitinol material, such as a wire.
497 Citations
26 Claims
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1. A drive mechanism for a medication delivery device, the drive mechanism comprising:
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a force receiving member;
a force applying member operatively coupled to the force receiving member to cause relative movement to occur between the force receiving member and the force applying member so that the force receiving member is in a different position relative to the force applying member; and
a shape memory actuator formed from a shape memory material and which is operatively coupled to the force applying member, and wherein the shape memory actuator is heat activated to distort the shape memory actuator from a first shape to a second shape to activate the force applying member to act upon the force receiving member to cause the relative movement between the force applying member and the force receiving member so that the force receiving member is in the different position relative to the force applying member, and wherein the shape memory actuator is returned to the first shape from the second shape after the force receiving member is in the different position relative to the force applying member;
wherein the force receiving member is a guide and the force applying member is a carriage assembly, and wherein the guide is a shaft and the carriage assembly includes at least one pawl, a lever and a cam surface on one end of the lever, and wherein the shape memory actuator is coupled to another end of the lever and actuated to move the cam surface of the lever against the at least one pawl to incrementally move the carriage assembly relative to the shaft. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A drive mechanism for a medication delivery device, the drive mechanism comprising:
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a force receiving member;
a force applying member operatively coupled to the force receiving member to cause relative movement to occur between the force receiving member and the force applying member so that the force receiving member is in a different position relative to the force applying member; and
a shape memory actuator formed from a shape memory material and which is operatively coupled to the force applying member, and wherein the shape memory actuator is heat activated to distort the shape memory actuator from a first shape to a second shape to activate the force applying member to act upon the force receiving member to cause the relative movement between the force applying member and the force receiving member so that the force receiving member is in the different position relative to the force applying member, and wherein the shape memory actuator is returned to the first shape from the second shape after the force receiving member is in the different position relative to the force applying member;
wherein the shape memory actuator provides a pulling force when heated; and
wherein the force receiving member is a gear, and wherein the different position of the gear relative to the force applying member is only an angular rotation, and wherein the force applying member is a bar formed from the shape memory actuator to push upon the gear to cause the angular rotation. - View Dependent Claims (12, 13)
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14. A drive mechanism for a medication delivery device, the drive mechanism comprising:
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a shaft;
a carriage coupled to the shaft to move relative to the shaft, wherein the carriage includes;
a first pawl having a first end and a second end with a first bore defining an opening between the first and second ends, wherein edges of the first bore grasp the shaft when the first pawl is tilted;
a first resilient member coupled between the carriage and the first pawl to bias the first pawl to a first position relative to the shaft;
a second pawl having a first end and a second end with a second bore defining an opening between the first and second ends, wherein edges of the second bore grasp the shaft when the second pawl is tilted;
a second resilient member coupled between the carriage and the second pawl to bias the second pawl to resist relative rearward movement of the carriage; and
a shape memory element to activate the first pawl to move between the first position and a second position to move the carriage relatively forward, as the shaft is grasped by the edges of the first bore, when the first pawl is moved from the first position to the second position, wherein the first resilient member moves the first pawl back to the first position after the carriage has moved relative to the shaft. - View Dependent Claims (15, 16, 17, 18)
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19. A drive mechanism for a medication delivery device, the drive mechanism comprising:
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a force receiving member;
a force applying member including a body and a pawl, wherein the pawl is pivotally coupled to the body, and wherein the force applying member is directly contacting the force receiving member to cause relative movement to occur between the force receiving member and the force applying member so that the force receiving member is in a different position relative to the force applying member;
a shape memory actuator formed from a shape memory material and which is connected to the force applying member, and wherein the shape memory actuator is heat activated to distort the shape memory actuator from a first shape to a second shape to activate the force applying member to act upon the force receiving member to cause the relative movement between the force applying member and the force receiving member so that the force receiving member is in the different position relative to the force applying member, and wherein the shape memory actuator is returned to the first shape from the second shape after the force receiving member is in the different position relative to the force applying member; and
wherein the shape memory actuator causes the pawl to pivot with respect to the force receiving member and bind on to the force receiving member substantially eliminating motion between the pawl and the force receiving member. - View Dependent Claims (20, 21, 22, 23, 24, 25, 26)
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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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InventorsNason, Clyde, Stutz, William H. Jr.
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Primary Examiner(s)Dawson, Glenn K.
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Assistant Examiner(s)MAYNARD, JENNIFER J
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Application NumberUS09/249,666Publication NumberTime in Patent Office1,166 DaysField of Search604/131, 604/154, 604/151, 604/155, 604/134, 604/135, 604/152, 604/133, 604/530, 604/531, 604/153, 606/78, 606/105US Class Current604/132CPC Class CodesA61M 2005/14506 mechanically driven, e.g. s...A61M 2205/0266 Shape memory materialsA61M 2205/106 reciprocatingA61M 5/1452 pressurised by means of pis...A61M 5/148 flexible, e.g. independent ...
