Sensor for measuring pressures in a cassette pump proximal and distal to a pumping chamber
First Claim
1. Apparatus for monitoring a fluid pressure in a cavity, said apparatus comprising:
- (a) an elastomeric membrane that encloses said cavity on at least one side, said elastomeric membrane varying in stiffness; and
(b) a pressure sensor disposed adjacent the elastomeric membrane and including;
(i) a pin having opposed first and second ends, the first end of the pin contacting the elastomeric membrane, subjecting the pin to an applied force caused by pressure in the cavity;
(i) a base used to mount the pressure sensor and including an upright portion;
(iii) a cantilevered arm having one end mounted to the base and an opposite end extending free and disposed adjacent the second end of the pin;
(iv) a pair of flat springs arranged in stacked array, each flat spring having planar surfaces that are arranged generally in parallel with the planar surfaces of the other flat spring, each flat spring being supported by the upright portion of the base, extending outwardly therefrom, and then curving back toward the upright portion of the base, ends of the flat springs being coupled to the pin at spaced-apart points along a longitudinal axis of the pin, said pair of flat springs elastically supporting the pin so that its second end is in contact with the cantilevered arm; and
(v) a strain gauge mounted on the cantilevered arm, said strain gauge producing a signal indicative of strain in the cantilevered arm caused by stress, the stress being due to a force exerted on said cantilevered arm by the pin in response to the fluid pressure in the cavity, said pin experiencing a displacement sufficiently small when responding to the pressure in the cavity so that said signal produced by the strain gauge is substantially independent of the varying stiffness of the elastomeric membrane, thereby substantially eliminating a non-linear error in the signal that would otherwise be caused by the varying stiffness of the elastomeric membrane.
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Accused Products
Abstract
A pressure sensor (10) that responds to stress introduced into a pair of cantilevered beams (42, 44), to sense pressures at two measurement points in a cassette (80). The pressure sensor includes a base (12) on which the cantilevered beams are mounted. The base also supports two S-shaped flat springs (34, 36) mounted in spaced-apart, parallel array. Pins (28, 29) supported by the S-shaped flat springs each contact a free end of a different one of the cantilevered beams. The pins transfer a force from an elastomeric membrane (86). This force is developed by fluid pressure acting on the elastomeric membrane in a fluid passage of a cassette used for pumping fluid. The pins transmit the force to the free ends of the cantilevered beams as an applied stress. Strain gauges (58, 60) that are fixed to the cantilevered beams each respond by producing a signal indicative of fluid pressure. This configuration senses a proximal and a distal fluid pressure in the cassette, with substantially zero displacement of the elastomeric membrane, thereby minimizing errors that would otherwise arise due to variations in the stiffness of the elastomeric membrane with displacement and providing a short response time to changes in pressure.
73 Citations
21 Claims
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1. Apparatus for monitoring a fluid pressure in a cavity, said apparatus comprising:
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(a) an elastomeric membrane that encloses said cavity on at least one side, said elastomeric membrane varying in stiffness; and (b) a pressure sensor disposed adjacent the elastomeric membrane and including; (i) a pin having opposed first and second ends, the first end of the pin contacting the elastomeric membrane, subjecting the pin to an applied force caused by pressure in the cavity; (i) a base used to mount the pressure sensor and including an upright portion; (iii) a cantilevered arm having one end mounted to the base and an opposite end extending free and disposed adjacent the second end of the pin; (iv) a pair of flat springs arranged in stacked array, each flat spring having planar surfaces that are arranged generally in parallel with the planar surfaces of the other flat spring, each flat spring being supported by the upright portion of the base, extending outwardly therefrom, and then curving back toward the upright portion of the base, ends of the flat springs being coupled to the pin at spaced-apart points along a longitudinal axis of the pin, said pair of flat springs elastically supporting the pin so that its second end is in contact with the cantilevered arm; and (v) a strain gauge mounted on the cantilevered arm, said strain gauge producing a signal indicative of strain in the cantilevered arm caused by stress, the stress being due to a force exerted on said cantilevered arm by the pin in response to the fluid pressure in the cavity, said pin experiencing a displacement sufficiently small when responding to the pressure in the cavity so that said signal produced by the strain gauge is substantially independent of the varying stiffness of the elastomeric membrane, thereby substantially eliminating a non-linear error in the signal that would otherwise be caused by the varying stiffness of the elastomeric membrane. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A pressure sensor for sensing fluid pressure applied to an elastomeric membrane at two discrete points, said elastomeric membrane being characterized by variations in its stiffness, comprising:
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(a) a base that is generally T-shaped, having a stem portion and a head portion, said head portion of said base being used to mount the pressure sensor adjacent to the elastomeric membrane; (b) a pair of pins disposed on opposite sides of the stem portion of the base, each of said pins including opposed first and second ends, the first end of each pin contacting the elastomeric membrane at different ones of the discrete points enabling each of the pins to experience a force corresponding to a fluid pressure applied to the elastomeric membrane at said discrete points; (c) a pair of cantilevered arms, each cantilevered arm having one end mounted to the base and an opposite end extending free of the base, adjacent the second end of a different one of the pins; (d) a pair of flat springs stacked one above the other, extending outwardly from opposite sides of the stem in generally spaced-apart, parallel array, said flat springs curving back toward the stem and elastically supporting the pins on the opposite sides of the stem so that the second end of each pin is in contact with a different one of the cantilevered arms, said flat springs being coupled to the pins at spaced-apart points along longitudinal axes of the pins; and (e) a pair of strain gauges, each strain gauge being mounted on a different one of the cantilevered arms, each strain gauge producing a signal indicative of strain in said cantilevered arm caused by stress, said stress being due to a force transmitted by one of the pins from the elastomeric membrane to the cantilevered arm in response to the fluid pressure applied to the elastomeric membrane, each of said pins experiencing a maximum displacement when responding to the force exerted by the elastomeric membrane, which is substantially less than a displacement that would produce a non-linear error in the signal produced by each strain gauge due to the variations in the stiffness of the elastomeric membrane. - View Dependent Claims (11, 12, 13, 14, 15, 16, 17, 18)
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19. A pressure sensor for sensing a fluid pressure in a cavity at least partially defined by a substantially planar elastomeric membrane that is characterized by variations in stiffness, the fluid pressure acting on the elastomeric membrane to produce a force corresponding to the pressure in the cavity, said pressure sensor comprising:
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(a) a supporting base; (b) a cantilevered beam that is mounted to the supporting base; (c) a pin for transmitting force exerted by the elastomeric membrane due to fluid pressure; (d) means for elastically supporting the pin in contact with the cantilevered beam and the elastomeric membrane, for enabling the pin to transmit the force exerted by the elastomeric membrane in response to the fluid pressure in the cavity and substantially independent of a non-linear error due to the variation in the stiffness of the elastomeric membrane; and (e) a strain gauge that is mounted on the cantilevered beam to sense stress on the cantilevered beam caused by the force transmitted from the elastomeric membrane through the pin, producing a signal indicative of the pressure in the cavity, said signal having substantially no error due to variations in the stiffness of the elastomeric membrane as a function of its displacement.
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20. A pressure sensor for sensing a fluid pressure in a cassette pump, where a cassette used in said pump includes an elastomeric membrane that is substantially planar at a point a fluid pressure is monitored by the pressure sensor, the elastomeric membrane being characterized by variations in its stiffness, said pressure sensor comprising:
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a base for mounting the pressure sensor adjacent to the cassette; and force sensing means that are mounted on the base to couple to the elastomeric membrane, said force sensing means producing a signal indicative of the fluid pressure in the cassette and including means that substantially eliminate an error in said signal caused by the variations in the stiffness of the elastomeric membrane. - View Dependent Claims (21)
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Specification