IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0615313
(2006-12-22)
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등록번호 |
US-7812731
(2010-11-01)
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발명자
/ 주소 |
- Bunza, Geoffrey J.
- Hudnut, Steven W.
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출원인 / 주소 |
|
대리인 / 주소 |
Schwabe, Williamson & Wyatt
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인용정보 |
피인용 횟수 :
10 인용 특허 :
88 |
초록
▼
Sensors and systems for detecting predetermined environmental conditions or changes may include a device capable of storing, representing, or providing information, and a shield. The shield may be disposed proximate the device. The shield may have a first condition and a second condition. In the fir
Sensors and systems for detecting predetermined environmental conditions or changes may include a device capable of storing, representing, or providing information, and a shield. The shield may be disposed proximate the device. The shield may have a first condition and a second condition. In the first condition the shield is configured to prevent access to information stored in or on, represented by or provided by the device. In the second condition the shield is configured to permit access to information stored in or on, represented by or provided by the device. The shield may be configured to transition from the first condition to the second condition when the shield is exposed to the predetermined environmental condition.
대표청구항
▼
We claim: 1. A system for detecting a predetermined environmental condition, wherein the system comprises: a device capable of providing information, wherein the device comprises a passive RFID transponder; a non-human interrogator configured to read information provided by the device, wherein the
We claim: 1. A system for detecting a predetermined environmental condition, wherein the system comprises: a device capable of providing information, wherein the device comprises a passive RFID transponder; a non-human interrogator configured to read information provided by the device, wherein the interrogator comprises an RFID reader configured to transmit power to the passive RFID transponder, and the passive RFID transponder is configured to transmit information to the RFID reader when the passive RFID transponder receives power from the RFID reader; and a shield, the shield having a first condition and a second condition, wherein in the first condition the shield comprises a conductive material configured to preclude at least one of the transmission of power from the RFID reader to the passive RFID transponder and the transmission of information from the passive RFID transponder to the RFID reader, in the second condition the shield is configured to permit the transmission of power from the RFID reader to the passive RFID transponder and to permit the transmission of information from the passive RFID transponder to the RFID reader, and the shield is configured to transition from the first condition to the second condition when the shield is exposed to the predetermined environmental condition; and wherein the interrogator indicates that the predetermined environmental condition exists when the shield transitions to its second condition, the passive RFID transponder receives power from the RFID reader and transmits the information to the RFID reader, and the RFID reader receives the information from the RFID transponder. 2. The system of claim 1, wherein the predetermined environmental condition includes a fluid proximate at least one of the device and the shield. 3. The system of claim 2, wherein the fluid includes a fluid discharged by a patient during an incontinence event. 4. The system of claim 3, wherein at least one of the device and the shield is disposed within a diaper such that the at least one of the device and the shield is positioned proximate at least one of a urine discharge orifice and a fecal discharge orifice of the patient when the diaper is worn by the patient. 5. The system of claim 2, wherein at least a portion of the shield is at least partially soluble in the fluid such that the shield at least partially transitions from the first condition to the second condition when the at least a portion of the shield at least partially dissolves when the shield is exposed to the fluid. 6. The system of claim 5, wherein the shield comprises a shielding layer and an at least partially soluble carrier, the shielding layer being at least partially disposed on the carrier, when the shield is in the first condition the shielding layer is configured to preclude the interrogator from reading information provided by the device, the at least partially soluble carrier is subject to breakdown when the carrier is exposed to the fluid, and the breakdown of the carrier at least partially transitions the shield from the first condition to the second condition. 7. The system of claim 1, wherein in the first condition the shield comprises a conductive sheet. 8. The system of claim 1, wherein in the first condition the shield comprises a conductive mesh. 9. The system of claim 1, wherein the conductive material is selected from the group consisting of conductive ink, conductive paint, and conductive grease. 10. The system of claim 1, wherein the shield comprises a facilitator configured to at least partially enable the transition of the shield from the first condition to the second condition when the shield is exposed to the predetermined environmental condition. 11. The system of claim 10, wherein the facilitator is configured to increase in volume when exposed to the predetermined environmental condition, the facilitator at least partially encloses the device, the conductive material encloses at least a portion of the device and at least a portion of the facilitator, and the increase in volume of the facilitator when it is exposed to the predetermined environmental condition induces stresses in the conductive material sufficient to at least partially rupture the conductive material. 12. The system of claim 11, wherein the conductive material includes at least one stress enhancer, the shield is configured such that the stress enhancer induces stress concentrations within the conductive material when the facilitator increases in volume, and the stress concentrations within the conductive material are sufficient to at least partially enable rupture of the conductive material. 13. The system of claim 10, wherein the shield further comprises a carrier that is subject to breakdown when the shield is exposed to the predetermined environmental condition, when the shield is in the first condition the conductive material is deposited on and supported by the carrier with the conductive material having a first surface area, the facilitator includes a non-shielding material disposed within the carrier, and the non-shielding material has a second surface area greater than the first surface area such that when the carrier breaks down upon exposure to the predetermined environmental condition the shield transitions from the first condition to the second condition as the conductive material ruptures as it becomes deposited on the non-shielding material of the facilitator. 14. The system of claim 1, wherein the information provided by the device is stored on the device. 15. A method of detecting a predetermined environmental condition, wherein the method comprises: providing a device capable of storing information, wherein the device includes predetermined information stored thereon; providing a non-human interrogator configured to read at least some of the information stored on the device; providing a shield, the shield having a first condition and a second condition, wherein in the first condition the shield is configured to preclude the interrogator from reading at least some of the information stored on the device, in the second condition the shield is configured to enable the interrogator to read at least some of the information stored on the device, the shield is provided in the first condition, the shield is configured to transition from the first condition to the second condition when the shield is exposed to the predetermined environmental condition, the predetermined environmental condition includes a fluid proximate at least one of the device and the shield, and at least a portion of the shield is at least partially soluble in the fluid such that the shield at least partially transitions from the first condition to the second condition when the at least a portion of the shield at least partially dissolves when the shield is exposed to the fluid; exposing the shield to the predetermined environmental condition such that the shield transitions from the first condition to the second condition; reading with the interrogator the predetermined information stored on the device; and indicating that the predetermined environmental condition exists in response to the interrogator reading the predetermined information stored on the device; and wherein the shield comprises a shielding layer and a facilitator, when the shield is in the first condition the shielding layer is configured to preclude the interrogator from reading at least some of the information stored on the device, the facilitator is configured to at least partially enable the transition of the shield from the first condition to the second condition when the shield is exposed to the predetermined environmental condition, the facilitator is configured to increase in volume when exposed to the predetermined environmental condition, the facilitator at least partially encloses the device, the shielding layer encloses at least a portion of the device and at least a portion of the facilitator, and the increase in volume of the facilitator when it is exposed to the predetermined environmental condition induces stresses in the shielding layer sufficient to at least partially rupture the shielding layer. 16. The method of claim 15, further comprising positioning at least one of the device and the shield proximate at least one of a urine discharge orifice and a fecal discharge orifice of a patient, wherein the fluid includes a fluid discharged by the patient during an incontinence event. 17. A sensor for detecting a predetermined environmental condition, comprising: a device capable of providing information, wherein the device includes a passive RFID transponder configured to transmit information to an external reader in response to an interrogation signal from the external reader, the interrogation signal provides operating power to the passive RFID transponder, and the device provides information in a machine-readable format; and a shield disposed proximate the device, the shield having a first condition and a second condition, wherein in the first condition the shield comprises a conductive material configured to preclude at least one of the provision of operating power from the interrogation signal to the passive RFID transponder and the transmission of information from the passive RFID transponder to the external reader, in the second condition the shield is configured to permit the provision of operating power from the interrogation signal to the passive RFID transponder and to permit the transmission of information from the passive RFID transponder to the external reader, the shield is configured to transition from the first condition to the second condition when the shield is exposed to the predetermined environmental condition, and the sensor detects the predetermined environmental condition when the shield transitions to its second condition, the passive RFID transponder receives operating power from the interrogation signal, and the passive RFID transponder transmits the information to the external reader. 18. The sensor of claim 17, wherein in the first condition the shield comprises a conductive sheet. 19. The sensor of claim 17, wherein in the first condition the shield comprises a conductive mesh. 20. The sensor of claim 17, wherein in the first condition at least a portion of the shield is conductive ink, conductive paint, or conductive grease. 21. The sensor of claim 17, wherein the device includes first and second opposed major sides, and the shield is disposed on at least one of the first and second major sides of the device. 22. The sensor of claim 17, wherein the predetermined environmental condition includes a predetermined fluid proximate at least one of the device and the shield, and at least a portion of the shield is at least partially soluble in the predetermined fluid such that the shield at least partially transitions from the first condition to the second condition when the at least a portion of the shield at least partially dissolves when the shield is exposed to the predetermined fluid. 23. The sensor of claim 22, wherein the predetermined fluid includes a fluid discharged by a patient during an incontinence event. 24. The sensor of claim 22, wherein the shield comprises a shielding layer and an at least partially soluble carrier, the shielding layer is at least partially disposed on the carrier, when the shield is in the first condition the shielding layer is configured to prevent access to information provided by the device, the at least partially soluble carrier is subject to breakdown when the carrier is exposed to the predetermined fluid, and the breakdown of the carrier at least partially transitions the shield from the first condition to the second condition. 25. The sensor of claim 17, wherein the shield is configured to transition from the second condition to the first condition when the shield is removed from exposure to the predetermined environmental condition. 26. A sensor for detecting a predetermined environmental condition, comprising: a device capable of providing information; and a shield disposed proximate the device, the shield having a first condition and a second condition, wherein the shield comprises a shielding layer and a facilitator, when the shield is in the first condition the shielding layer is configured to prevent access to information provided by the device, in the second condition the shield is configured to permit access to information provided by the device, the shield is configured to transition from the first condition to the second condition when the shield is exposed to the predetermined environmental condition, the facilitator is configured to at least partially enable the transition of the shield from the first condition to the second condition when the shield is exposed to the predetermined environmental condition, the predetermined environmental condition includes the presence of a predetermined fluid proximate at least one of the device and the shield, the facilitator is configured to increase in volume when exposed to the predetermined fluid, the facilitator at least partially encloses the device, the shielding layer encloses at least a portion of the device and at least a portion of the facilitator, and the increase in volume of the facilitator when it is exposed to the predetermined fluid induces stresses in the shielding layer sufficient to at least partially rupture the shielding layer. 27. A system for detecting a predetermined environmental condition, wherein the system comprises: a first device configured to transmit a first signal; a second device configured to receive a second signal; and a sensor, comprising: a third device, wherein responsive to receipt of the first signal by the third device the third device is configured to transmit the second signal, and a shield disposed proximate the third device, wherein the shield is configured to preclude transmission of at least one of the first signal to the third device and the second signal from the third device, and upon exposure of the shield to the predetermined environmental condition an efficacy of the shield is sufficiently disrupted such that the disrupted shield permits transmission of at least one of the first signal to the third device and the second signal from the third device; and wherein the shield comprises a shielding layer and a non-shielding facilitator, when intact the shielding layer is configured to preclude the transmission of at least one of the first signal to the third device and the second signal from the third device, the facilitator is configured to increase in volume when exposed to the predetermined environmental condition and the facilitator at least partially encloses the third device, the shielding layer encloses at least a portion of the third device and at least a portion of the facilitator, and the increase in volume of the facilitator when it is exposed to the predetermined environmental condition induces stresses in the shielding layer sufficient to at least partially rupture the shielding layer to permit the transmission of at least one of the first signal to the third device and the second signal from the third device. 28. The system of claim 27, wherein the predetermined environmental condition includes a fluid discharged by a patient during an incontinence event. 29. A system for detecting a predetermined environmental condition, wherein the system comprises: a first device configured to transmit a first signal; a second device configured to receive a second signal; and a sensor, comprising: a third device, wherein responsive to receipt of the first signal by the third device the third device is configured to transmit the second signal, and a shield disposed proximate the third device, wherein the shield is configured to preclude transmission of at least one of the first signal to the third device and the second signal from the third device, and upon exposure of the shield to the predetermined environmental condition an efficacy of the shield is sufficiently disrupted such that the disrupted shield permits transmission of at least one of the first signal to the third device and the second signal from the third device; and wherein the shield comprises a shielding layer, a facilitator and a carrier that is subject to breakdown when the shield is exposed to the predetermined environmental condition, wherein when intact the shielding layer includes a conductive material that is deposited on and supported by the carrier, has a first surface area, and is configured to preclude the transmission of at least one of the first signal to the third device and the second signal from the third device, the facilitator includes a non-shielding material disposed within the carrier, and the non-shielding material has a second surface area greater than the first surface area such that when the carrier breaks down upon exposure to the predetermined environmental condition the conductive material ruptures as it becomes deposited on the non-shielding material of the facilitator which disrupts the shield and permits the transmission of at least one of the first signal to the third device and the second signal from the third device. 30. The system of claim 29, wherein the shielding layer includes a conductive material that is deposited on the carrier, wherein the conductive material is conductive ink, conductive paint, or conductive grease. 31. The system of claim 29, wherein the predetermined environmental condition includes a fluid discharged by a patient during an incontinence event. 32. A method of detecting a predetermined environmental condition, wherein the method comprises: providing a device capable of storing information, wherein the device comprises a passive RFID transponder and includes predetermined information stored thereon, and at least some of the information stored on the device is stored on the passive RFID transponder; providing a non-human interrogator configured to read at least some of the information stored on the device, wherein the interrogator comprises an RFID reader, the interrogator is configured to transmit power to the passive RFID transponder, and the passive RFID transponder is configured to transmit at least some of the information stored on the passive RFID transponder to the RFID reader responsive to the passive RFID transponder receiving power from the interrogator; providing a shield, the shield having a first condition and a second condition, wherein in the first condition the shield is configured to preclude the interrogator from reading at least some of the information stored on the device by precluding at least one of the transmission of power from the interrogator to the passive RFID transponder and the transmission of at least some of the information stored on the passive RFID transponder from the passive RFID transponder to the RFID reader, in the second condition the shield is configured to enable the interrogator to read at least some of the information stored on the device by permitting the transmission of power from the interrogator to the passive RFID transponder and to permit the transmission of at least some of the information stored on the passive RFID transponder from the passive RFID transponder to the RFID reader, the shield is provided in the first condition, the shield is configured to transition from the first condition to the second condition when the shield is exposed to the predetermined environmental condition, the predetermined environmental condition includes a fluid proximate at least one of the device and the shield, and at least a portion of the shield is at least partially soluble in the fluid such that the shield at least partially transitions from the first condition to the second condition when the at least a portion of the shield at least partially dissolves when the shield is exposed to the fluid; exposing the shield to the predetermined environmental condition such that the shield transitions from the first condition to the second condition; reading with the interrogator the predetermined information stored on the device; and indicating that the predetermined environmental condition exists in response to the interrogator reading the predetermined information stored on the device, wherein indicating that the predetermined environmental condition exists is in response to: the shield transitioning to its second condition, the passive RFID transponder receiving power from the interrogator, and the passive RFID transponder transmitting to the RFID reader at least some of the information stored on the passive RFID transponder. 33. The method of claim 32, further comprising positioning at least one of the device and the shield proximate at least one of a urine discharge orifice and a fecal discharge orifice of a patient, wherein the fluid includes a fluid discharged by the patient during an incontinence event.
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