Apparatus for detecting enuresis in a patient
First Claim
1. A device for detecting a presence of an electrically conductive fluid, comprising:
- (a) a laminar non-conductive impermeable upper member having an inner face, said upper member having at least one upper member edge;
(b) a laminar non-conductive impermeable lower member having an inner face, said lower member having at least one lower member edge;
(c) a first conducting region on said lower member inner face;
(d) a second conducting region on said lower member inner face, said second conducting region being electrically isolated from said first conducting region and separated therefrom by a predetermined distance;
(e) a porus central insulating member positioned between said inner face of said upper member and said inner face of said lower member, said central insulating member at least spanning said predetermined distance between said first and said second conducting regions;
(f) a first electrical lead in electrical communication with said first conducting region; and
, (g) a second electrical lead in electrical communication with said second conducting region, wherein said first and said second electrical leads are electrically isolated from each other, and, wherein said first and said second electrical lead, said first and said second conducting member, and said central insulating member together form an electrical circuit, said electrical circuit being an open circuit when the electrically conductive fluid is not present, and, said electrical circuit being a closed circuit when the electrically conductive fluid is present.
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Accused Products
Abstract
This invention relates generally to patient monitoring systems and more particularly concerns devices and systems used to monitor bed patients in hospital or other care-giving environments. In accordance with a first aspect of the instant invention, there is provided a wetness detector for use in patient monitoring situations and which is adjustable in its degree of sensitivity to wetness. It contains at least two conductive regions placed on a non-conductive base and which are preferably separated laterally by some distance. Isolated electrical leads are attached to each conductive region. Electrical current passes much more readily between the two conductive regions when an electrolytic solution such as urine is present within the switch, thereby making it possible for a separate electronic monitor to determine when wetness is detected.
93 Citations
16 Claims
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1. A device for detecting a presence of an electrically conductive fluid, comprising:
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(a) a laminar non-conductive impermeable upper member having an inner face, said upper member having at least one upper member edge;
(b) a laminar non-conductive impermeable lower member having an inner face, said lower member having at least one lower member edge;
(c) a first conducting region on said lower member inner face;
(d) a second conducting region on said lower member inner face, said second conducting region being electrically isolated from said first conducting region and separated therefrom by a predetermined distance;
(e) a porus central insulating member positioned between said inner face of said upper member and said inner face of said lower member, said central insulating member at least spanning said predetermined distance between said first and said second conducting regions;
(f) a first electrical lead in electrical communication with said first conducting region; and
,(g) a second electrical lead in electrical communication with said second conducting region, wherein said first and said second electrical leads are electrically isolated from each other, and, wherein said first and said second electrical lead, said first and said second conducting member, and said central insulating member together form an electrical circuit, said electrical circuit being an open circuit when the electrically conductive fluid is not present, and, said electrical circuit being a closed circuit when the electrically conductive fluid is present. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
(h) a third conducting region on said inner face of said upper member, said third conducting region spanning at least a portion of said predetermined distance between said first and said second conducting regions.
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3. A device for detecting a presence of an electrically conductive fluid according to claim 1, further comprising:
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(i) an electronic patient monitor in electrical communication with at least said first and said second electrical leads, said electronic patient monitor being for at least the determination of whether an electrically conductive fluid is present within said central insulating member.
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4. A device for detecting a presence of an electrically conductive fluid according to claim 2,
wherein said third conducting region contains at least two separate electrically isolated upper conducting regions, and wherein at least one of said upper conducting regions spans at least as portion of said predetermined distance between said first and said second conductive regions. -
5. A device for detecting a presence of an electrically conductive fluid according to claim 1,
wherein said first conductive region contains a plurality of separate electrically isolated lower conducting regions, and, wherein said first electrical lead is in electrical communication with at least one of said plurality of lower conducting regions. -
6. A method of detecting a presence of an electrically conductive fluid, wherein is provided the device of claim 1, comprising the steps of:
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(a) sensing a signal representative of a state of said electrical circuit;
(b) determining from said sensed signal whether said electrical circuit is in a closed state or in an open state;
(c) determining that the electrically conductive fluid is present if said electrical circuit is in a closed state;
(d) activating an alarm if the electrically conductive fluid is present; and
,(e) performing steps (a) to (d) as necessary to monitor for a presence of the electrically conductive fluid.
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7. A method according to claim 6, wherein step (a) includes the steps of:
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(a1) applying a pulsed voltage to said first and said second electric leads, and, (a2) monitoring a response to said pulsed voltage, thereby sensing a signal representative of a state of said electrical circuit.
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8. A device for detecting a presence of an electrically conductive fluid according to claim 1,
wherein said upper member and said lower member are substantially circular in shape. -
9. A device for detecting a presence of an electrically conductive fluid according to claim 1,
wherein said at least a portion of said central insulating member extends beyond at least one of said upper member edges, or wherein at least a portion of said central insulating member extending beyond at least one of said lower member edges.
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10. A sensing device for detecting a presence of an electrically conductive fluid such as urine,
said sensing device having an interior and an exterior, comprising: -
(a) a laminar non-conductive impermeable upper member having an inner face, said upper member inner face defining at least a portion of said interior of said sensing device;
(b) a laminar non-conductive impermeable lower member having an inner face, said lower member inner face defining at least a portion of said interior of said sensing device;
(c) a first conducting region on said lower member inner face;
(d) a second conducting region on said inner face of said upper member;
(e) a porus central insulating member positioned between said inner face of said upper member and said inner face of said lower member, said central insulating member separating at least said first conducting region and said second conducting region, and, wherein said central insulating member is in fluid communication with said exterior of said sensing device;
(f) a first electrical lead in electrical communication with said first conducting region; and
,(g) a second electrical lead in electrical communication with said second conducting region, wherein said first and second electrical leads are electrically isolated from each other. - View Dependent Claims (11, 12, 13, 14, 15, 16)
wherein said first conductive region is composed of at least two separate electrically isolated lower conducting regions, and wherein said first electrical lead is in electrical communication with at least one of said isolated lower conducting regions. -
12. A sensing device according to claim 11,
wherein said second conductive region is composed of at least two separate electrically isolated upper conducting regions, and wherein said second electrical lead is in electrical communication with at least one of said isolated upper conducting regions. -
13. A device for detecting a presence of an electrically conductive fluid according to claim 10, further comprising:
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(h) an electronic patient monitor in electrical communication with at least said first and second electrical leads, said electronic patient monitor being for at least the determination of whether an electrically conductive fluid is present within said central insulating member.
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14. A device for detecting a presence of an electrically conductive fluid according to claim 10,
wherein said first and said second electrical leads, said first and second conductive regions, and said porus central insulating members together form an electrical circuit. -
15. A method of detecting a presence of an electrically conductive fluid, wherein is provided the device of claim 14, comprising the steps of:
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(a) sensing a signal representative of a state of said electrical circuit;
(b) determining from said sensed signal whether said electrical circuit is in a closed state or in an open state;
(c) determining that the electrically conductive fluid is present if said electrical circuit is in a closed state;
(d) activating an alarm if the electrically conductive fluid is present; and
,(e) performing steps (a) to (d) as necessary to monitor for a presence of the electrically conductive fluid.
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16. A method according to claim 15, wherein the step (a) includes the steps of:
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(a1) applying a pulsed voltage to said first and said second electric leads, and, (a2) monitoring a response to said pulsed voltage, thereby sensing a signal representative of a state of said electrical circuit.
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Specification