Heat-activated drug delivery system and thermal actuators therefor
First Claim
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1. A thermal actuator for producing mechanical motion from temperature changes, said thermal actuator comprising:
- a) an actuator body defining a chamber;
b) a force-transmitting elastomeric component disposed in said chamber, said elastomeric component being closed at one end and having a central bore of predetermined diameter through the opposite end, said elastomeric component having a wall of predetermined thickness and of a predetermined durometer rating, said actuator body including an annular wall encircling said elastomeric component in spaced relation thereto;
c) an actuation rod reciprocally received in said bore, said actuation rod havingi) a cylindrical surface,ii) a first end spaced from said closed end of said elastomeric component,iii) a second end projecting through said opposite end of said elastomeric component, andiv) a predetermined diameter substantially less than the predetermined diameter of said bore, thus creating an annular space of predetermined size between said rod and said elastomeric component;
d) a thermally responsive expansion material contained between said elastomeric component and said encircling wall; and
e) a lubricant contained in said annular space between said rod and said elastomeric component;
wherein said durometer rating, said wall thickness, and the size of said annular space are selected such that when said thermally responsive expansion material exerts sufficient hydraulic pressure on said elastomeric component, the portion of said elastomeric component between said closed end and said first end of said rod collapses inwardly to create an axial force on said first end of said rod while the remaining portion of said elastomeric component folds along a diameter to make surface contact with the cylindrical surface of said rod along diametrically opposed arcs, leaving at least one non-contact area between said arcs, said non-contact area defining a space for retaining lubricant along the length of said rod.
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Abstract
A thermal actuator, also known as a heat capacitance motor, derives its energy from the physical expansion of paraffin wax as it changes from solid to liquid when heated within an enclosure such as a cylinder. This energy is converted into mechanical force which causes translation of a piston slidably mounted within the cylinder, thus creating hydrostatic pressure which is converted to work. The thermal actuator may be utilized in various drug delivery systems in which the hydrostatic pressure created by the actuator is used expel the contents of a syringe.
123 Citations
7 Claims
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1. A thermal actuator for producing mechanical motion from temperature changes, said thermal actuator comprising:
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a) an actuator body defining a chamber; b) a force-transmitting elastomeric component disposed in said chamber, said elastomeric component being closed at one end and having a central bore of predetermined diameter through the opposite end, said elastomeric component having a wall of predetermined thickness and of a predetermined durometer rating, said actuator body including an annular wall encircling said elastomeric component in spaced relation thereto; c) an actuation rod reciprocally received in said bore, said actuation rod having i) a cylindrical surface, ii) a first end spaced from said closed end of said elastomeric component, iii) a second end projecting through said opposite end of said elastomeric component, and iv) a predetermined diameter substantially less than the predetermined diameter of said bore, thus creating an annular space of predetermined size between said rod and said elastomeric component; d) a thermally responsive expansion material contained between said elastomeric component and said encircling wall; and e) a lubricant contained in said annular space between said rod and said elastomeric component; wherein said durometer rating, said wall thickness, and the size of said annular space are selected such that when said thermally responsive expansion material exerts sufficient hydraulic pressure on said elastomeric component, the portion of said elastomeric component between said closed end and said first end of said rod collapses inwardly to create an axial force on said first end of said rod while the remaining portion of said elastomeric component folds along a diameter to make surface contact with the cylindrical surface of said rod along diametrically opposed arcs, leaving at least one non-contact area between said arcs, said non-contact area defining a space for retaining lubricant along the length of said rod. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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Specification