Conductive heater having sensing capabilities
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B60L-001/02
B60N-002/56
B60N-002/00
H05B-003/34
출원번호
US-0275999
(2014-05-13)
등록번호
US-9266454
(2016-02-23)
발명자
/ 주소
Barfuss, Jack
Kawa, Grzegorz
Iqbal, Syed Rafat
Orlando, Bruno
Libbrecht, Vincent
출원인 / 주소
GENTHERM CANADA LTD
대리인 / 주소
The Dobrusin Law Firm, P.C.
인용정보
피인용 횟수 :
2인용 특허 :
144
초록▼
A combination heater and sensor comprising: (a) a heating layer, a sensing layer, or both; (b) one or more power application portions, one or more sensing application portions, or both; wherein the heating layer and the sensing layer are located within the same plane; and wherein the heating layer i
A combination heater and sensor comprising: (a) a heating layer, a sensing layer, or both; (b) one or more power application portions, one or more sensing application portions, or both; wherein the heating layer and the sensing layer are located within the same plane; and wherein the heating layer is a nonwoven layer that is comprised of a plurality of metallized fibers that are randomly oriented forming the heating layer so that upon application of power the heating layer provides heat.
대표청구항▼
1. A combination heater and sensor comprising: a) a heating layer, a sensing layer, or both;b) one or more power application portions, one or more sensing application portions, or both;c) a heater controller connected to the heater to energize the heater so that the heater provides heat; andd) a sen
1. A combination heater and sensor comprising: a) a heating layer, a sensing layer, or both;b) one or more power application portions, one or more sensing application portions, or both;c) a heater controller connected to the heater to energize the heater so that the heater provides heat; andd) a sensing controller connected to the sensor to provide a signal so that the sensor provides sensing, andwherein the sensing controller and the heater controller are connected to the combination heater and sensor via one or more wires and the one or more wires both energize the heater and provide a signal to the sensor;wherein the heating layer and the sensing layer are located within the same plane; andwherein the heating layer upon an application of power provides heat;wherein the heater layer and the sensor layer are a same device; andwherein the heater is free of any separate parts forming a sensor;wherein the signal provided by the sensing controller has a frequency and the sensing controller measures a shift in frequency of the signal to determine if an occupant is in contact with the combination heater and sensor, in contact with a component including the combination heater and sensor, or both. 2. The combination heater and sensor of claim 1, wherein the sensing layer is a sensing wire that is sewn into the heater layer to provide sensing functions. 3. The combination heater and sensor of claim 1, wherein the heater is controlled using pulse width modulation and when the heater is off a signal passes through the sensing layer to provide sensing. 4. The combination heater and sensor of claim 1, wherein the one or more power application portions are a conductive nonwoven fabric that is fastened to the heating layer, the sensing layer, or both, and the one or more power application portions are two power application portions that are located on opposite edge regions of the heater. 5. The combination heater and sensor of claim 1, wherein the heater and sensor are located within a steering wheel and covered by a trim layer. 6. The combination heater and sensor of claim 1, wherein the heater and sensor are located within a vehicle seat and covered by a trim layer. 7. The combination heater and sensor of claim 1, wherein the sensor determines: occupant contact between an occupant and the combination heater and sensor, a component including the combination heater and sensor, or both; presence of an occupant; or both. 8. A method comprising: a) installing a combination heater and sensor into a component of an automobile;b) providing power to the combination heater and sensor so that a heating layer of the combination heater and sensor produces heat;c) providing a signal to the combination heater and sensor so that a sensing layer of the combination heater and sensor produces a signal for determining presence of an occupant, contact between the occupant and the component of the automobile, or both; andd) monitoring the signal for an occupant, lack of an occupant, lack of contact between the component and the occupant, or a combination thereof;wherein the power and the signal are applied to the combination heater and sensor via a wire and the wire is the same for both the signal and the power; andwherein the signal includes a frequency and a sensing controller measures the frequency, a shift in the frequency, capacitance of the signal, a measured voltage, or a combination thereof to determine the presence of an occupant, contact between the occupant and the combination heater and sensor, or both. 9. The method of claim 8, wherein the power is applied by pulse width modulation so that the power has an on phase and an off phase. 10. The method of claim 8, wherein the signal is applied to the combination heater and sensor when the power is in an off phase. 11. The combination sensor and heater of claim 1, wherein the heating layer is a nonwoven layer that is comprised of a plurality of metallized fibers that are randomly oriented. 12. The combination sensor and heater of claim 4, wherein the heating layer is a nonwoven layer that is comprised of a plurality of metallized fibers that are randomly oriented. 13. The method of claim 8, wherein the heating layer is a nonwoven layer that is comprised of a plurality of metallized fibers that are randomly oriented. 14. The method of claim 9, wherein the signal is applied to the combination heater and sensor when the power is in an off phase. 15. The combination sensor and heater of claim 5, wherein the combination heater and sensor is two discrete heater and sensors. 16. The combination sensor and heater of claim 5, wherein the one or more power application portions are three power application portions that are spaced apart so that one power application portion is located in a middle between two power application portions. 17. The method of claim 8, wherein the method includes a step of installing the combination heater and sensor within a steering wheel. 18. The method of claim 17, wherein the combination heater and sensor is two discrete heaters and sensors and the two discrete heaters and sensors are installed so that the two discrete heaters and sensors are spaced apart. 19. The method of claim 17, wherein the one or more power application portions are three power application portions that are spaced apart so that on power application portion is located in a middle between two power application portions. 20. The combination sensor and heater of claim 5, wherein the heater and sensor includes two power application portions connected to each end and extending towards a center and a gap located in the center between the power application portions extending from each of the ends so that the power application portions from a first end are electrically isolated from the power application portions from a second end.
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