A hydrogen generator having one or more actuators coupled to one or more heating elements in which the actuator(s) are used to improve the transfer of thermal energy from heating element(s) to one or more fuel units contained within the generator. In one embodiment, an actuator allows insertion and/
A hydrogen generator having one or more actuators coupled to one or more heating elements in which the actuator(s) are used to improve the transfer of thermal energy from heating element(s) to one or more fuel units contained within the generator. In one embodiment, an actuator allows insertion and/or removal of packaged fuel units without the need of removing the heating element(s) and/or the actuator(s). When the actuator is in a retracted state (e.g., a low temperature state), the packaged fuel unit may be inserted and/or removed from a cavity of the hydrogen generator. When the actuator is in an extended state (e.g., a higher temperature state), the actuator forces contact between itself or the heating element and the fuel unit when a prescribed operating temperature is reached.
대표청구항▼
1. A hydrogen gas generator comprising: a housing including a plurality of sidewalls and a rear wall, wherein the plurality of sidewalls and rear wall form a cavity configured to receive one or more fuel units; anda heater assembly configured to be at least partially housed within the cavity, the he
1. A hydrogen gas generator comprising: a housing including a plurality of sidewalls and a rear wall, wherein the plurality of sidewalls and rear wall form a cavity configured to receive one or more fuel units; anda heater assembly configured to be at least partially housed within the cavity, the heater assembly comprising a support member, at least one heating element capable of converting electrical to thermal energy, and at least one temperature-sensitive actuator, the at least one heating element and temperature-sensitive actuator being disposed in a stacked arrangement with respect to the support member, and said actuator capable of transforming from a first dimensionally retracted state to a second dimensionally expanded state when heated by the at least one heating element,wherein the at least one actuator is in the first state when a temperature of the at least one actuator is below a first prescribed temperature and the at least one actuator is in the second state when a temperature of the at least one actuator is above a second prescribed temperature that is equal to or higher than the first prescribed temperature, and wherein at least one of the at least one heating element or the at least one actuator is displaced closer in proximity to the one or more fuel units when the at least one actuator is in the second state than when the at least one actuator is in the first state. 2. The hydrogen gas generator of claim 1, wherein in the second state the at least one heating element is in conductive thermal communication with at least a portion of the one or more fuel units. 3. The hydrogen generator of claim 1, wherein in the second state, the temperature-sensitive actuator is in contact with and in conductive thermal communication with at least a portion of the one or more fuel units. 4. The hydrogen generator of claim 1, wherein in the second state, the heating element is in contact with at least a portion of the one or more fuel units. 5. The hydrogen gas generator of claim 1, further including a front panel configured to engage the plurality of sidewalls in order to close the housing. 6. The hydrogen gas generator claim 5, further comprising an interlock system, such that when the at least one temperature-sensitive actuator is in the second state, the front panel is more difficult to disengage from the plurality of sidewalls than when the at least one actuator is in the first state. 7. The hydrogen gas generator of claim 1, wherein the at least one temperature-sensitive actuator is a bimetallic element. 8. The hydrogen gas generator of claim 7, wherein the first prescribed temperature is 200 degrees Celsius and the second prescribed temperature is 250 degrees Celsius. 9. The hydrogen gas generator of claim 1, wherein the at least one heating element and at least one thermal actuator are in thermal communication with one another. 10. The hydrogen gas generator of claim 1, wherein the heater assembly extends between two or more fuel cells. 11. A method for heating a fuel unit provided in a hydrogen gas generator of claim 1, the method comprising: receiving one or more fuel units in a cavity of the housing;applying electrical energy to the at least one heating element, thereby generating heat that is conductively transferred to at least one adjacent temperature-sensitive actuator;heating the at least one temperature-sensitive actuator above the first prescribed temperature to the second prescribed temperature, thereby causing the actuator to be in the second dimensionally expanded state; andcontacting one of the at least one heating element or the at least one actuator to the one or more fuel units for selectively heating the one or more fuel units. 12. The method of claim 11, wherein the at least one actuator is operative to move between the first state and the second state upon reaching one of the first and second prescribed temperatures. 13. The method of claim 11, wherein the at least one actuator momentarily snaps between the first state and the second state upon reaching one of the first and second prescribed temperatures. 14. The method of claim 11, wherein the at least one actuator is a bimetallic element. 15. The method of claim 14, wherein the first prescribed temperature is 200 degrees Celsius and the second prescribed temperature is 250 degrees Celsius. 16. A hydrogen gas generator comprising: a housing including a plurality of sidewalls and a rear wall, wherein the plurality of sidewalls and the rear wall form a cavity configured to receive one or more fuel units;a heater assembly comprising a support member, at least one heating element capable of converting electrical to thermal energy, and at least one temperature-sensitive actuator, each spatially positioned in an array with respect to one another,the at least one heating element and temperature-sensitive actuator being disposed adjacent to one another and said actuator capable of transitioning from a first dimensionally retracted state to a second dimensionally expanded state when heated by the at least one heating element,wherein the at least one actuator is in the first state when an actuator temperature is below a first prescribed temperature and the at least one actuator is in the second state when an actuator temperature is above a second prescribed temperature that is equal to or higher than the first prescribed temperature, and wherein at least one of the at least one actuator and the at least one heating element is disposed closer in proximity to the one or more fuel units when the at least one actuator is in the second state than when the at least one actuator is in the first state. 17. The hydrogen gas generator of claim 16, wherein in the second state, the at least one actuator is in contact with at least a portion of the one or more fuel units. 18. The hydrogen gas generator of claim 16, wherein in the second state, the at least one heating element is in contact with at least a portion of the one or more fuel units. 19. The hydrogen gas generator of claim 16, further including a front panel configured to engage the plurality of sidewalls in order to close the housing. 20. The hydrogen gas generator claim 19, wherein when the at least one actuator is in the second state, the front panel is more difficult to disengage from the plurality of sidewalls than when the at least one actuator is in the first state. 21. The hydrogen gas generator of claim 16, wherein the at least one actuator is a bimetallic element. 22. The hydrogen gas generator of claim 21, wherein the first prescribed temperature is 200 degrees Celsius and the second prescribed temperature is 250 degrees Celsius. 23. The hydrogen gas generator of claim 16, wherein the at least one heating element and at least one thermal actuator are in thermal communication with one another. 24. The hydrogen gas generator of claim 16, wherein the heater assembly is mounted to at least one sidewall of the housing, such that the support member is adjacent to the at least one sidewall.
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이 특허에 인용된 특허 (8)
Karner Robert (Graz ATX), Heating device with PTC resistors non-abrasively positioned in a metallic heat body for heating flowing media.
Eckels, J. Del; Nunes, Peter J.; Simpson, Randall L.; Hau-Riege, Stefan; Walton, Chris; Carter, J. Chance; Reynolds, John G., Low to moderate temperature nanolaminate heater.
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