Fluid heater with freeze protection
First Claim
1. A heater apparatus for heating fluid, the heater apparatus comprising:
- a thermally conductive mass;
heating means, thermally coupled to the thermally conductive mass, for imparting heat to the thermally conductive mass;
a fluid flow path formed in the mass between an inlet and an outlet, the fluid flow path coupled in heat transfer relation to the heating means so that fluid in the fluid flow path absorbs heat from the thermally conductive mass, the fluid flow path open to the exterior of the thermally conductive mass;
a housing carrying the thermally conductive mass in an interior cavity; and
fluid expansion means, coupled to the mass, for reversibly allowing phase change expansion of fluid in the fluid flow path.
1 Assignment
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Accused Products
Abstract
A heat source is disposed in the thermally conductive mass housing for imparting heat to the mass. Fluid in a flow path through the mass absorbs heat from the mass. A fluid expansion member is mounted over open ends of the fluid flow path. The fluid expansion member, in one aspect, is formed of a compressible material to compress under the forces of fluid phase change to a solid state and expands back to a nominal shape when the fluid undergoes a reverse phase change to a liquid state. In another aspect, the fluid expansion member is a solid seal member overlaying the open ends of the fluid flow channels. The seal resists expansion under normal fluid operating pressures, but expands into an open interior chamber in a closure fixed to the mass to accommodate a phase change expansion of the fluid.
109 Citations
41 Claims
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1. A heater apparatus for heating fluid, the heater apparatus comprising:
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a thermally conductive mass;
heating means, thermally coupled to the thermally conductive mass, for imparting heat to the thermally conductive mass;
a fluid flow path formed in the mass between an inlet and an outlet, the fluid flow path coupled in heat transfer relation to the heating means so that fluid in the fluid flow path absorbs heat from the thermally conductive mass, the fluid flow path open to the exterior of the thermally conductive mass;
a housing carrying the thermally conductive mass in an interior cavity; and
fluid expansion means, coupled to the mass, for reversibly allowing phase change expansion of fluid in the fluid flow path. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16)
control means, connected to the heating means, for activating the heating means.
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3. The heater apparatus of claim 1 wherein the control means further comprises:
a printed circuit board.
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4. The heater apparatus of claim 1 wherein the control means further comprises:
temperature sensor means, coupled to the control means, for generating an output signal proportional to the temperature of the thermally conductive mass.
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5. The heater apparatus of claim 1 wherein the fluid expansion means comprises:
a compressible member mounted between the thermally conductive mass and a closure mounted on the mass.
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6. The heater apparatus of claim 5 wherein:
the compressible member is formed of a closed cell foam.
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7. The heater apparatus of claim 1 wherein the fluid expansion means comprises:
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a closure having an enlarged portion defining a hollow interior chamber overlaying the open ends of the fluid flow channels in the thermally conductive mass; and
expandable means, extending over the open ends of the fluid flow channels and disposed in substantial contact with the thermally conductive mass over the open-ended channels under normal fluid flow pressures, for expanding into the interior chamber in the closure during a phase change expansion of the fluid.
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8. The heater apparatus of claim 1 wherein the fluid flow path comprises:
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a first flow path portion extending across one surface of the thermally conductive mass; and
a second flow path portion extending across an opposed surface of the thermally conductive mass, the first and second flow path portions disposed in fluid flow communication.
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9. The heater apparatus of claim 8 wherein the first and second flow path portions are disposed in fluid flow communication substantially at the center of the thermally conductive mass.
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10. The heater apparatus of claim 1 wherein the heating means comprises:
at least one heater element mounted in the mass.
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11. The heater apparatus of claim 1 wherein the heating means comprises:
a plurality of heater elements mounted in the mass.
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12. The heater apparatus of claim 11 further comprising:
a controller for controlling the activation of each of the heater elements.
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13. The heater apparatus of claim 1 wherein:
the heating means is disposed in the thermally conductive mass and substantially encompassed by the fluid flow path.
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14. The heater apparatus of claim 1 further comprising:
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a closure fixed to one surface of the mass; and
seal means for fluidically sealing the thermally conductive mass to the closure.
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15. The heater apparatus of claim 14 wherein the seal means comprises:
an O-ring disposed between the peripheral portions of the closure and the thermally conductive mass.
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16. The heater apparatus of claim 14 wherein the seal means comprises:
the fluid expansion means having a peripheral edge portion disposed between the closure and the thermally conductive mass for fluidically sealing the thermally conductive mass to the closure.
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17. A heater apparatus for heating fluid the heater apparatus comprising:
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a thermally conductive mass;
a fluid flow path formed of a first flow path portion extending across one surface of the thermally conductive mass and a second flow path portion extending across an opposed surface of the thermally conductive mass, the first and second flow path portions disposed in fluid flow communication through the thermally conductive mass, the fluid flow path defined by open-ended channels formed in the thermally conductive mass, the open-ends of the channels facing outward from the thermally conductive mass;
at least one heating element thermally mounted in the thermally conductive mass and substantially contacted by the mass, the heating means imparting heat to the thermally conductive mass so that fluid in the first and second flow path portions absorbs heat from the thermally conductive mass;
control means, including power switch means connected to the at least one heating element, for activating the at least one heating element;
a housing carrying the thermally conductive mass in an interior cavity; and
fluid expansion means mounted on the mass for reversibly allowing phase change expansion of fluid in the fluid flow path when the fluid is in at least a substantially solid state. - View Dependent Claims (18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28)
a closure fixed to the mass for closing the fluid flow channels in the mass; and
seal means, mounted over a portion of the fluid flow path in the thermally conductive mass to fluidically seal the thermally conductive mass to the housing.
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19. The heater apparatus of claim 17 wherein the control means further comprises:
a printed circuit board.
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20. The heater apparatus of claim 17 wherein the control means further comprises:
temperature sensor means, coupled to the control means, for generating an output signal proportional to the temperature of the thermally conductive mass.
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21. The heater apparatus of claim 17 wherein the fluid expansion means comprises:
a compressible member.
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22. The heater apparatus of claim 21 wherein:
the compressible member is formed of a closed cell foam.
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23. The heater apparatus of claim 17 wherein the fluid expansion means comprises:
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the closure having an enlarged portion defining a hollow interior chamber overlaying the open ends of the fluid flow channels in the thermally conductive mass; and
expandable means, extending over the open ends of the fluid flow channels and disposed in substantial contact with the thermally conductive mass over the open-ended channels under normal fluid flow pressures, for expanding into the interior chamber in the closure during a phase change expansion of the fluid.
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24. The heater apparatus of claim 17 wherein the fluid flow path comprises:
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a first flow path portion extending across one surface of the thermally conductive mass; and
a second flow path portion extending across an opposed surface of the thermally conductive mass, the first and second flow path portions disposed in fluid flow communication.
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25. The heater apparatus of claim 17 wherein the first and second flow path portions are disposed in fluid flow communication substantially at the center of the thermally conductive mass.
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26. The heater apparatus of claim 17 wherein the heating means comprises:
a plurality of heater elements mounted in the mass.
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27. The heater apparatus of claim 18 wherein the seal means comprises:
an O-ring disposed between the peripheral portions of the closure and the thermally conductive mass.
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28. The heater apparatus of claim 18 wherein the seal means comprises:
the fluid expansion means having a peripheral edge portion disposed between the closure and the thermally conductive mass for fluidically sealing the thermally conductive mass to the closure.
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29. A vehicle window wash apparatus comprises:
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a fluid source for supplying wash fluid;
a fluid discharge device fluidically coupled to the fluid source for discharging fluid from the reservoir;
a heater means disposed in fluid flow communication between the fluid source and the fluid discharge device;
a controller, coupled to the heater means for supplying power to the heater means;
the heater apparatus including;
a thermally conductive mass having an inlet and an outlet;
a fluid flow path formed in the mass between the inlet and the outlet, the fluid flow path substantially enveloping the heating means so that fluid in the fluid flow path absorbs heat from the thermally conductive mass;
control means, connected to the heating means, for activating the heating means;
the fluid flow path open to the exterior of the thermally conductive mass;
a housing carrying the thermally conductive mass in an interior cavity; and
fluid expansion means carried in the housing for reversibly allowing expansion of fluid in the fluid flow path when the fluid is in at least a substantially solid state. - View Dependent Claims (30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41)
temperature sensor means, coupled to the control means, for generating an output signal proportional to the temperature of the thermally conductive mass.
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31. The heater apparatus of claim 29 further comprising:
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a closure fixed to the mass; and
seal means, for fluidically sealing the thermally conductive mass to the closure.
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32. The heater apparatus of claim 29 wherein the control means further comprises:
a printed circuit board.
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33. The heater apparatus of claim 29 wherein the control means further comprises:
temperature sensor means, coupled to the control means, for generating an output signal proportional to the temperature of the thermally conductive mass.
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34. The heater apparatus of claim 29 wherein the fluid expansion means comprises:
a compressible member.
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35. The heater apparatus of claim 29 wherein:
the compressible member is formed of a closed cell foam.
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36. The heater apparatus of claim 29 wherein the fluid expansion means comprises:
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a closure having an enlarged portion defining a hollow interior chamber overlaying the open ends of the fluid flow channels in the thermally conductive mass; and
expandable means, extending over the open ends of the fluid flow channels and disposed in substantial contact with the thermally conductive mass over the open-ended channels under normal fluid flow pressures, for expanding into the interior chamber in the closure during a phase change expansion of the fluid.
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37. The heater apparatus of claim 29 wherein the fluid flow path comprises:
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a first flow path portion extending across one surface of the thermally conductive mass; and
a second flow path portion extending across an opposed surface of the thermally conductive mass, the first and second flow path portions disposed in fluid flow communication.
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38. The heater apparatus of claim 29 wherein the first and second flow path portions are disposed in fluid flow communication substantially at the center of the thermally conductive mass.
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39. The heater apparatus of claim 29 wherein the heating means comprises:
a plurality of heater elements mounted in the mass.
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40. The heater apparatus of claim 31 wherein the seal means comprises:
an O-ring disposed between the peripheral portions of the closure and the thermally conductive mass.
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41. The heater apparatus of claim 31 wherein the seal means comprises:
the fluid expansion means having a peripheral edge portion disposed between the closure and the thermally conductive mass for fluidically sealing the thermally conductive mass to the closure.
Specification