System for detection of electrically conductive fluids
First Claim
1. A sensing pad for use in detecting the presence of electrically conductive fluids, the sensing pad comprising:
- (a) a first layer of a flexible fluid-absorbent sheet material;
(b) a pair of elongate flexible electrodes extending generally parallel with and spaced apart from each other and adhesively attached to said first layer, each of said electrodes having a medial longitudinal margin and a lateral longitudinal margin; and
(c) a second layer of flexible fluid-absorbent sheet material overlying said electrodes and adhered to said first layer along a continuous central strip extending parallel with said electrodes and located between said electrodes, and also adhered to said first layer along a respective strip extending parallel with said electrodes and located alongside said lateral longitudinal margin of each of said electrodes, said first and second layers thereby being interconnected in the form of a pair of separately defined parallel tubes each including one of said electrodes, each of said electrodes having a respective electrically conductive surface exposed within the respective one of said tubes and each said electrode being prevented by said separate parallel tubes from touching said electrically conductive surface of the other flexible electrode of said pair.
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Accused Products
Abstract
Apparatus for detecting the presence of electrically conductive fluids, including urine and other body fluids such as exudate from wounds, includes spaced-apart electrodes (44, 46, 96, 98) covered by absorbent material (58, 106, 108, 126, 128), together with a housing (30, 86, 154) containing a signaling device (32, 152, 172, 175) which produces a palpable vibration, a sound, a light, or a radio signal when fluid in the absorbent material provides a conductive path between the electrodes. Spring contacts (50, 138, 146) on the housing provide reliable connections with the electrodes and also serve to attach the housing of the signaling device (32) to structure (12, 78) supporting the absorbent material, and may also be used to attach the absorbent material to the housing in embodiments where the housing is otherwise supported. Encoded signals from many such sensors (160, 170) can be identifiably related to and recorded so as to be machine-retrievable together with other patient data and analyzed statistically by a computer (178, 183).
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Citations
39 Claims
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1. A sensing pad for use in detecting the presence of electrically conductive fluids, the sensing pad comprising:
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(a) a first layer of a flexible fluid-absorbent sheet material; (b) a pair of elongate flexible electrodes extending generally parallel with and spaced apart from each other and adhesively attached to said first layer, each of said electrodes having a medial longitudinal margin and a lateral longitudinal margin; and (c) a second layer of flexible fluid-absorbent sheet material overlying said electrodes and adhered to said first layer along a continuous central strip extending parallel with said electrodes and located between said electrodes, and also adhered to said first layer along a respective strip extending parallel with said electrodes and located alongside said lateral longitudinal margin of each of said electrodes, said first and second layers thereby being interconnected in the form of a pair of separately defined parallel tubes each including one of said electrodes, each of said electrodes having a respective electrically conductive surface exposed within the respective one of said tubes and each said electrode being prevented by said separate parallel tubes from touching said electrically conductive surface of the other flexible electrode of said pair. - View Dependent Claims (2, 3, 4)
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5. Apparatus for detecting the presence of electrically conductive fluid, comprising:
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(a) a first layer of a flexible fluid-absorbent sheet material; (b) at least a pair of elongate flexible electrodes extending along said first layer generally parallel with and spaced apart from each other, each of said electrodes of said pair being adhesively attached to said first layer and having a medial longitudinal margin and a lateral longitudinal margin; (c) a second layer of flexible fluid-absorbent material overlying said electrodes and adhered to said first layer along a continuous central strip extending parallel with said electrodes and located between said electrodes, and also adhered to said first layer along a respective strip extending parallel with said electrodes and located alongside said lateral longitudinal margin of each of said electrodes, said first and second layers thereby being interconnected in the form of a pair of separately defined parallel tubes each including one of said electrodes, and each of said electrodes having a respective electrically conductive surface exposed within the respective one of said tubes and each said electrode being prevented by said separate parallel tubes from touching said electrically conductive surface of the other flexible electrode of said pair; and (d) signaling means connected electrically to said electrodes, for producing a signal in response to electrical resistance between said electrodes being below a predetermined value. - View Dependent Claims (6, 7, 8, 9, 10, 11, 12, 13, 15, 16, 17, 18, 19)
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14. Apparatus for detecting the presence of electrically conductive fluid, comprising:
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(a) a first layer of a flexible fluid-absorbent material; (b) at least a pair of elongate flexible electrodes extending generally parallel with and spaced apart from each other and along said first layer, each of said electrodes of said pair having a medial longitudinal margin and a lateral longitudinal margin; (c) a second layer of flexible fluid-absorbent material overlying said electrodes and adhered to said first layer at locations between said electrodes and alongside said lateral longitudinal margin of each of said electrodes, said first and second layers thereby defining a pair of parallel tubes each including one of said electrodes, and each of said electrodes having an electrically conductive surface exposed within the respective one of said tubes; (d) signaling means connected electrically to said electrodes, for producing a signal in response to electrical resistance between said electrodes being below a predetermined value; (e) a housing containing said signaling means; (f) a spring finger mounted on said housing; (g) a contact located on said spring finger, said contact pressing against one of said electrodes and thereby connecting said one of said electrodes electrically with said signaling means; and (h) a lever-operated release cam associated with said spring finger.
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20. Apparatus for detecting the presence of an electrically conductive fluid, comprising:
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(a) a protective housing for electrical components; (b) a signaling device contained within said protective housing; (c) a sensor including a backing layer and at least a pair of apart-spaced electrodes of flexible electrically-conductive material adhesively mounted on said backing layer and absorbent member means associated therewith for receiving a quantity of an electrically conductive fluid and conducting said fluid into contact with said electrodes to create an electrically conductive path between said electrodes; (d) a sensor carrier to which said sensor is attached, said sensor carrier including releasable fasteners for attaching said sensor carrier to a person'"'"'s clothing in a desired location and a padding member of resilient non-absorbent sheet material defining a slit and having an upper margin extending parallel with said slit, said backing layer including an upper portion adhered to said padding member adjacent said upper margin, and a lower portion of said backing layer extending downward through said slit and below said sensor carrier, said upper portion having respective portions of said electrodes located thereon; (e) a pair of resilient fingers mounted on said housing and resiliently gripping a portion of said padding member adjacent said upper margin and thereby attaching said housing removably to said sensor carrier; and (f) a respective contact mounted on each of said resilient fingers, said contact being pressed by said resilient finger against a portion of one of said electrodes of said sensor located on said upper portion of said backing member and thereby effecting an electrical connection between said one of said electrodes and said signaling device while attaching said housing to said sensor carrier. - View Dependent Claims (21, 22, 23, 24, 25, 26, 27, 28, 29, 30)
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31. A method for obtaining and arranging patient data, comprising:
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(a) placing an absorbent pad in position to receive and absorb a quantity of electrically conductive fluid from a patient; (b) placing electrodes connected to a signaling device adjacent said absorbent pad in position to be interconnected electrically by a quantity of electrically conductive fluid absorbed by said absorbent pad; (c) applying an electrical potential between said electrodes and detecting electrical current conducted between said electrodes by said electrically conductive fluid absorbed in said absorbent pad; (d) in response to detecting said electrical current between said electrodes, transmitting an encoded incident message; (e) receiving said encoded incident message at a location remote from said absorbent pad and recording the time of receipt of said incident message; (f) thereafter removing said absorbent pad and replacing it with one that is free from electrically conductive fluid absorbed therein, placing said absorbent pad in position to receive and absorb a further quantity of electrically conductive fluid from said patient, and contemporaneously transmitting an encoded reset message; and (g) calculating the amount of time between each incident message and the next succeeding reset message. - View Dependent Claims (32, 33, 34, 35, 36, 38)
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37. A method for obtaining and arranging patient data, comprising:
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(a) placing an absorbent pad in position to receive and absorb a quantity of electrically conductive fluid from a patient; (b) placing electrodes connected to a signaling device adjacent said absorbent pad in position to be interconnected electrically by a quantity of electrically conductive fluid absorbed by said absorbent pad; (c) applying an electrical potential between said electrodes and detecting electrical current conducted between said electrodes by said electrically conductive fluid absorbed in said absorbent pad; (d) in response to detecting said electrical current between said electrodes, transmitting an encoded incident message; (e) receiving said encoded incident message at a location remote from said absorbent pad and recording the time of receipt of said incident message; (f) thereafter removing said absorbent pad and replacing it with one that is free from electrically conductive fluid absorbed therein, placing said absorbent pad in position to receive and absorb a further quantity of electrically conductive fluid from said patient, and contemporaneously transmitting an encoded reset message; (g) calculating the amount of time between each incident message and the next succeeding reset message; (h) automatically recording the time of receipt of each incident message and each reset message and automatically recording the identity of the particular one of a plurality of sensor transmitters from which each incident message and each reset message is received; (i) identifying and recording in a computer database a digitally-encoded photograph of a patient together with data relating the times of receipt of incident messages and reset messages relating to that patient in a manner permitting identification and retrieval of said photograph together with said data relating to times of receipt of incident messages and reset messages relating to that patient; and (j) repeating steps (b), (c), (d), (e), and (f) throughout an extended period of time.
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39. A system for detecting the presence of electrically conductive fluid in any of a plurality of locations, comprising:
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(a) a plurality of detectors, each including; (i) a first layer of a flexible fluid-absorbent sheet material; (ii) a pair of elongate flexible electrodes extending generally parallel with each other and spaced apart from each other, each of said electrodes being attached to said first layer and each of said electrodes having a medial longitudinal margin and a lateral longitudinal margin; (iii) a second layer of flexible fluid-absorbent sheet material overlying said pair of electrodes and adhered to said first layer along a continuous central strip extending parallel with said electrodes and located between said electrodes, and also adhered to said first layer along a respective strip extending parallel with said electrodes and located alongside said lateral longitudinal margin of each of said electrodes, said first and second layers thereby being interconnected in the form of a pair of separately defined parallel tubes each including one of said electrodes, and each of said electrodes having a respective electrically conductive surface posed within the respective one of said tubes and each said electrode being prevented by said separate parallel tubes from touching said electrically conductive surface of the other flexible electrode of said pair; and (iv) signaling means connected electrically to said electrodes for producing an electrical output signal in response to electrical resistance between said electrodes falling below a predetermined value; (b) means associated with each signaling means for identifying each signaling means uniquely in said electrical output signal; and (c) means for receiving each said electrical output signal and providing a humanly-perceptible output signal indicative of the origin and time of commencement of each electrical output signal received thereby.
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Specification