Claims
- 1. An electrical sheet heater which comprises
- (1) a laminar resistive heating element which exhibits PTC behavior, which is at least 0.002 inch thick, and which is composed of a conductive polymer composition which comprises an organic polymer and, dispersed in the polymer, a particulate conductive filler;
- (2) a plurality of spaced apart electrodes, at least two of which can be connected to a source of electrical power to cause current to pass between the electrodes through the laminar element and cause resistive heating thereof, each electrode comprising a plurality of distinct parts which interdigitate with distinct parts of an adjacent electrode and which are dimensioned and positioned so that
- (a) when current passes between the electrodes, a substantial proportion of the current through the laminar element is parallel to the faces of the laminar element,
- (b) the ratio of the average width of the electrodes, measured parallel to the faces of the laminar element and in the direction of current flow in the laminar element, to the average distance between adjacent electrodes between which current passes, measured parallel to the faces of the laminar element and in the direction of current flow in the laminar element, is at least 0.1:1, and
- (c) the average width of the electrodes, measured parallel to the faces of the laminar element and in the direction of current flow in the laminar element, is 0.03 to 0.2 inch.
- 2. A heater according to claim 1, wherein the electrodes are so positioned and dimensioned that, at all points, the distance between adjacent electrodes between which current passes, measured parallel to the faces of the laminar element, is not more than three times the average distance between adjacent electrodes between which current passes, measured parallel to the faces of the laminar element.
- 3. A heater according to claim 1, wherein the laminar element has a thickness of 0.01 to 0.1 inch.
- 4. A heater according to claim 1, wherein the conductive polymer composition has been melt-extruded and the electrodes are so positioned that current passing between the electrodes follows a path which is substantially parallel to the direction of extrusion.
- 5. A heater according to claim 1, wherein the electrodes have been secured to a surface of the laminar element.
- 6. A heater according to claim 5, wherein the electrodes have been printed on the same surface of the laminar element.
- 7. A heater according to claim 1, wherein the ratio of the average width of the electrodes to the average distance between adjacent electrodes between which current passes is at least 0.4:1.
- 8. A heater according to claim 1, wherein the ratio of the average width of the electrodes to the average distance between adjacent electrodes between which current passes is less than 5:1.
- 9. A heater according to claim 1, which also comprises a laminar thermally conductive element.
- 10. A heater according to claim 1, wherein the laminar element has a resistivity at 23.degree. C. of 5 to 100,000 Ohm.cm and comprises a crystalline organic polymer and, dispersed in the polymer, carbon black.
- 11. A heater according to claim 10, wherein the laminar element is 0.008 to 0.1 inch thick.
- 12. A heater according to claim 10, wherein each of the electrodes comprises a plurality of bars which are parallel to each other and to the bars of each other electrode, and wherein all the electrodes are on the same surface of the laminar element.
- 13. A heater according to claim 12, wherein the bars are spaced apart from each other by substantially the same distance.
- 14. A heater according to claim 10, which comprises an insulting jacket surrounding the electrodes and the laminar element.
- 15. A heater according to claim 14, which is flexible.
- 16. An electrical sheet heater which comprises
- (1) a laminar heating element,
- (2) an insulating jacket which surrounds the heating element,
- (3) a laminar metallic member which
- (i) provides a ground plane for the heater;
- (ii) is separated from the heating element by the insulating jacket, and
- (iii) is adjacent to the insulating jacket but is not secured directly thereto, thus permitting relative movement of the metallic member and the insulating jacket; and
- (4) an auxiliary laminar insulating member which is secured to the insulating jacket so as to form a pocket having the metallic member moveably contained therein.
- 17. A heater according to claim 16 wherein the heating element is composed of a conductive polymer composition which exhibits PTC behavior and which comprises an organic polymer and, dispersed in the polymer, a particulate conductive filler; and the heater further comprises a plurality of electrodes printed on a surface of the heating element.
- 18. An electrical sheet heater which comprises
- (1) a laminar resistive heating element which exhibits PTC behavior, which is at least 0.002 inch thick, and which is composed of a conductive polymer composition which comprises an organic polymer and, dispersed in the polymer, a particulate conductive filler;
- (2) a plurality of spaced apart electrodes, at least two of which can be connected to a source of electrical power to cause current to pass between the electrodes through the laminar element and cause resistive heating thereof, each electrode comprising a plurality of distinct parts which interdigitate with distinct parts of an adjacent electrode and which are dimensioned and positioned so that
- (a) when current passes between the electrodes, a substantial proportion of the current through the laminar element is parallel to the faces of the laminar element,
- (b) the ratio of the average width of the electrodes, measured parallel to the faces of the laminar element and in the direction of current flow in the laminar element, to the average distance between adjacent electrodes between which current passes, measured parallel to the faces of the laminar element and in the direction of current flow in the laminar element, is at least 0.1:1, and
- (c) the average width of the electrodes, measured parallel to the faces of the laminar element and in the direction of current flow in the laminar element, is 0.03 to 0.2 inch;
- (3) an insulating jacket which surrounds the heating element;
- (4) a laminar metallic member which
- (i) provides a ground plane for the heater;
- (ii) is separated from the heating element by the insulating jacket; and
- (iii) is adjacent to the insulating jacket but is not secured directly thereto, thus permitting relative movement of the metallic member and the insulating jacket; and
- (5) an auxiliary laminar insulating member which is secured to the insulating jacket so as to form a pocket having the metallic member moveably contained within.
- 19. An electrical circuit which comprises
- (1) a source of electrical power; and
- (2) an electrical sheet heater which comprises
- (a) a laminar resistive heating element which exhibits PTC behavior, which is at least 0.002 inch thick, and which is composed of a conductive polymer composition which comprises an organic polymer and, dispersed in the polymer, a particulate conductive filler; and
- (b) a plurality of spaced apart electrodes, at least two of which can be connected to the source of electrical power to cause current to pass between the electrodes through the laminar element and cause resistive heating thereof, each electrode comprising a plurality of distinct parts which interdigitate with distinct parts of an adjacent electrode and which are dimensioned and positioned so that
- (i) when current passes between the electrodes, a substantial proportion of the current through the laminar element is parallel to the faces of the laminar element,
- (ii) the ratio of the average width of the electrodes, measured parallel to the faces of the laminar element and in the direction of current flow in the laminar element to the average distance between adjacent electrodes between which current passes, measured parallel to the faces of the laminar element and in the direction of current flow in the laminar element, is at least 0.1:1, and
- (iii) the average width of the electrodes, measured parallel to the faces of the laminar element and in the direction of current flow in the laminar element, is from 0.03 to 0.2 inch.
- 20. A circuit according to claim 19 wherein said source of electrical power is at least 12 volts.
- 21. A circuit according to claim 19 wherein said source of electrical power is at least 24 volts.
- 22. A circuit according to claim 19 wherein said source of electrical power is at least 60 volts.
- 23. A circuit according to claim 19 wherein said source of electrical power is at least 100 volts.
BACKGROUND OF THE INVENTION
This application is a file wrapper continuation of copending Ser. No. 820,276, filed Jan. 17, 1986, which is a continuation-in-part of our copending commonly assigned applications Ser. Nos. 780,524 filed Sept. 26, 1985, 650,918 filed 14 Sept. 1984, 735,408 filed May 17, 1985, 650,919 filed Sept. 14, 1984 and 735,409 filed May 17, 1985. U.S. Ser. No. 780,524 is itself a continuation of copending commonly assigned application Ser. No. 573,099 filed Jan. 23, 1984. U.S. Ser. No. 735,408 is itself a continuation-in-part of copending, commonly assigned application Ser. No. 663,014 filed Oct. 19, 1984, which is in turn a continuation-in-part of copending, commonly assigned application Ser. No. 650,920 filed Sept. 14, 1984. Each of these commonly assigned applications has now been abandoned. The entire disclosure of each of these commonly assigned applications is incorporated herein by reference.
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Related Publications (4)
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Number |
Date |
Country |
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650919 |
Sep 1984 |
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735409 |
May 1985 |
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735408 |
May 1985 |
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780524 |
Sep 1985 |
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Continuations (2)
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Number |
Date |
Country |
Parent |
820276 |
Jan 1986 |
|
Parent |
573099 |
Jan 1984 |
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Continuation in Parts (3)
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Number |
Date |
Country |
Parent |
650918 |
Sep 1984 |
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Parent |
663014 |
Oct 1984 |
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Parent |
650920 |
Sep 1984 |
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