Thermoelectric heat exchanger
First Claim
1. A temperature controlled ventilation system for a seat, comprising:
- a supply side annular heat exchanger forming a hole therein about an axis of rotation and configured to allow air to pass outward from said axis of rotation;
a waste side, annular heat exchanger forming a hole therein about said axis of rotation and configured to allow air to pass outward from said axis of rotation;
a thermoelectric device having opposing surfaces that generate elevated temperatures on one surface and reduced temperatures on the opposing surface depending on the electrical potential applied to the thermoelectric device, one opposing surface being connected to and in thermal communication with the supply side heat exchanger and the other opposing surface being connected to and in thermal communication with the waste side heat exchanger;
a motor drivingly connected to at least one of the heat exchangers or thermoelectric device to rotate the heat exchangers about the axis of rotation to cause air to enter at least one of the holes along the axis of rotation and pass outward through the heat exchanger;
a housing containing at least the supply heat exchanger and forming an outlet through which air exits after passing through the supply heat exchanger;
a seat having a surface against which a person rests, the surface having passages therethrough in at least a portion of the surface where the person rests, the surface being in fluid communication with the outlet of the supply heat exchanger, the heat exchanger and motor rotation cooperating so air from the heat exchanger is forced through the surface to provide conditioned air in the area where said person rests against the surface during use of the seat.
3 Assignments
0 Petitions
Accused Products
Abstract
Disclosed is a system for thermally conditioning and pumping a fluid having use as a ventilation system for vehicle seats and other applications. The system includes a thermoelectric heat exchanger having a thermoelectric element configured to pump heat from one body to another body. A pair of heat exchanger elements comprising rotor units are coupled to the thermoelectric element for both transferring heat to and from the thermoelectric element and generating a fluid flow across the thermoelectric element. The conditioned fluid may be placed in thermal communication with a variety of objects, one of which is a vehicle seat to provide localized heating and cooling of a person sitting on the seat.
285 Citations
60 Claims
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1. A temperature controlled ventilation system for a seat, comprising:
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a supply side annular heat exchanger forming a hole therein about an axis of rotation and configured to allow air to pass outward from said axis of rotation; a waste side, annular heat exchanger forming a hole therein about said axis of rotation and configured to allow air to pass outward from said axis of rotation; a thermoelectric device having opposing surfaces that generate elevated temperatures on one surface and reduced temperatures on the opposing surface depending on the electrical potential applied to the thermoelectric device, one opposing surface being connected to and in thermal communication with the supply side heat exchanger and the other opposing surface being connected to and in thermal communication with the waste side heat exchanger; a motor drivingly connected to at least one of the heat exchangers or thermoelectric device to rotate the heat exchangers about the axis of rotation to cause air to enter at least one of the holes along the axis of rotation and pass outward through the heat exchanger; a housing containing at least the supply heat exchanger and forming an outlet through which air exits after passing through the supply heat exchanger; a seat having a surface against which a person rests, the surface having passages therethrough in at least a portion of the surface where the person rests, the surface being in fluid communication with the outlet of the supply heat exchanger, the heat exchanger and motor rotation cooperating so air from the heat exchanger is forced through the surface to provide conditioned air in the area where said person rests against the surface during use of the seat. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A system for use with a seat having a surface in fluid communication with a heat exchanger, comprising:
a first heat exchanger having an outlet in fluid communication with the surface of the seat, the first heat exchanger comprising; an electronic element selected to generate heat in response to an electrical current; a first heat exchanger connected to and in thermal communication with the electronic element, the heat exchanger comprising a first series of heat exchange surfaces rotatable about a rotational axis and configured to transfer a temperature differential from the electronic element, the electronic element and the heat exchanger being connected to rotate about the rotational axis so that the first series of heat exchange surfaces generates a fluid flow across the heat exchange surfaces; and a housing having a fluid outlet located along a periphery of the first heat exchanger and through which the fluid exits the first heat exchanger, the heat exchange surfaces being configured and orientated relative to the housing to intake air along the rotational axis and expel air from the heat exchange surfaces orthogonal to the rotational axis. - View Dependent Claims (10, 11, 12)
- 13. The system of 11, wherein the fluid comprises a gas and at least one of the first and second series of heat exchange surfaces are separated by a distance in the range of approximately 0.5-2 mm.
- 14. The system of 12, wherein the fluid comprises a gas and at least one of the first and second series of heat exchange surfaces are separated by a distance in the range of approximately 0.5-2 mm.
- 15. The system of 11, wherein the fluid comprises a gas, the heat exchangers comprise annular heat exchangers and the combined height of the heat exchangers and thermoelectric element is less than about 30 mm measured along the rotational axis.
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16. The system of 12, wherein the fluid comprises a gas, the heat exchangers comprise annular heat exchangers and the combined height of the heat exchangers and the thermoelectric element is less than about 30 mm measured along the rotational axis.
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20. A system for providing conditioned fluid to a seat, comprising:
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a thermoelectric device selected to convert electrical energy into thermal energy producing a temperature change in response to an electrical current being applied thereto, the thermoelectric device being mounted to rotate about a rotational axis; a heat transfer device having an outlet in fluid communication with the seat, the heat transfer device comprising; a rotatable flow generating device configured to produce a fluid flow in response to rotation thereof about the axis, the flow generating device further being in conductive thermal communication with the thermoelectric device so that the flow generating device conducts the temperature change generated by the heat transfer device to transfer the temperature change to the fluid flowing across the heat transfer device; and a housing having an inlet and further having an outlet on a periphery of the flow generating device, the housing and flow generating device cooperating to intake fluid along the rotational axis and then expel temperature conditioned fluid from the housing in a plane orthogonal to the rotational axis, the flow generating device having a recess into which at least a portion of a motor is placed to rotate the flow generating device. - View Dependent Claims (21, 22)
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23. A temperature controlled ventilation system for a seat, comprising:
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planar means for producing a temperature differential; and annular supply side heat exchanger means for conducting said temperature differential, said heat exchanger means further comprising fluid flow generating means having a height along a rotational axis that is smaller than a length of said heat exchanger means measured along an axis orthogonal to the rotational axis for causing fluid to flow across said heat exchanger means, said supply side heat exchanger means being in fluid communication with the seat.
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24. A temperature controlled ventilation system for a seat having a fluid distribution system in fluid communication with the seat, comprising:
a first fan rotating about a rotational axis and having a first plurality of heat exchange elements configured to generate a fluid flow through the heat exchange elements when rotated and in conductive thermal communication with an electronic device that converts electrical energy into a temperature change, the fan being enclosed in a housing that has an outlet in fluid communication with the fluid distribution system, the fan having a height along the longitudinal axis and a diameter along an axis orthogonal to the longitudinal axis with the diameter of the fan being substantially larger than the length to fit within or under a seat. - View Dependent Claims (25, 26, 27, 28, 29, 30)
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31. A method for providing temperature controlled ventilation to a seat having a seat surface, comprising the steps of:
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forming a supply side heat exchanger rotating about an axis of rotation and configuring the heat exchanger to allow fluid to pass therethrough the supply side heat exchanger having a first height along the rotational axis and a first diameter along an axis orthogonal to the rotational axis with the first height being selected to be less than the first diameter; forming a waste side heat exchanger rotating about said axis of rotation and configuring the waste side heat exchanger to allow fluid to pass therethrough, the waste side heat exchanger having a second height along the rotational axis and a second diameter along an axis orthogonal to the rotational axis with the second height being selected to be less than the second diameter and sized to fit within or under a seat, and; providing a thermoelectric device having opposing surfaces that generate elevated temperatures on one surface and reduced temperatures on the opposing surface depending on the electrical potential applied to the thermoelectric device, and conductively connecting one opposing surface of the thermoelectric device to the supply side heat exchanger and conductively connecting the other opposing surface to the waste side heat exchanger; rotating at the heat exchangers and thermoelectric device about the axis of rotation to cause fluid to pass through the heat exchanger; enclosing the supply heat exchanger and forming an outlet through which fluid exits after passing through the supply heat exchanger; and placing the seat surface in fluid communication with the outlet of the supply heat exchanger. - View Dependent Claims (32)
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33. A method for use with a seat having an exterior surface where a person rests, comprising the steps of:
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placing a first heat exchanger having a fluid outlet in fluid communication with the exterior surface of the seat and mounting the heat exchanger to rotate about a rotational axis while selecting a height of the first heat exchanger along the rotational axis to be smaller than a length of the first heat exchanger along an axis orthogonal to the rotational axis; placing the first heat exchanger in conductive thermal communication with an electrical device that is selected to generate a temperature change when an electrical current is applied to the electrical device; and rotating the first heat exchanger about the axis to force fluid through the heat exchanger while conditioning the temperature of the fluid passing over the heat exchanger. - View Dependent Claims (34, 35, 36, 37, 38, 39, 40)
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41. A method for providing temperature controlled ventilation to an seat having an fluid distribution system in fluid communication with the seat, comprising the steps of:
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generating a temperature differential by an electronic device that is selected to convert electrical energy into a temperature change; placing a first plurality of heat exchange surfaces of a first fan in conductive thermal communication with the electronic device to conduct the temperature differential through the heat exchange surfaces; rotating the first fan about a rotational axis to cause the fluid to pass over the heat exchange surfaces to condition the fluid; enclosing the fan in a housing that has an outlet, the first fan and housing being selected to have a height along the rotational axis smaller than a diameter along an axis orthogonal to the rotational axis with the height and diameter selected so the first fan can fit within a seat; and placing the outlet in fluid communication with the fluid distribution system. - View Dependent Claims (42)
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43. An apparatus for thermally conditioning a fluid, comprising:
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a thermoelectric device selected to convert electrical energy into thermal energy producing a temperature change in response to an electrical current being applied thereto, the thermoelectric device comprising a circular disk having first and second opposing surfaces and being mounted to rotate about a rotational axis through a center of the disk; an annular heat transfer device having an inner diameter and an outer diameter and placed in conductive thermal communication with the electronic device and being mounted on one of the disk surfaces to rotate about the axis, the heat transfer device having thermally radiating surfaces arranged to produce a fluid flow across the surfaces outward from the rotational axis when rotated about the axis, the heat transfer device having a height measured along the rotational axis and the diameters measured along an axis orthogonal to the rotational axis with the distance between the inner and outer diameters being greater than the height. - View Dependent Claims (44, 45, 46, 47)
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48. A temperature conditioning fluid moving device, comprising:
a first fan rotating about a rotational axis and having a first plurality of heat exchange surfaces in conductive thermal communication with a thermoelectric device that converts electrical energy into a temperature change, the fan being enclosed in a housing that has an outlet, the electronic device comprises a thermoelectric device having a first side in thermal communication with said fan, and further comprising a second fan rotating about the rotational axis and having a second plurality of heat exchange surfaces in conductive thermal communication with a second side of the thermoelectric device to conduct a temperature change from said second side of the thermoelectric device, the second fan being enclosed in a housing that has an outlet, the first and second fans comprising annular structures with differing outer diameters such that the first fan extends from the thermoelectric device toward the rotational axis while the second fan extends from the thermoelectric device away from the fan, each of the fans having a height along the rotational axis that is smaller than the diameter measured orthogonal to the rotational axis. - View Dependent Claims (49, 50, 51, 52, 53)
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54. A method for thermally conditioning a fluid, comprising the steps of:
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forming a supply side heat exchanger rotating about an axis of rotation and configuring that heat exchanger to allow gas to pass therethrough, the supply side heat exchanger having a first height along the axis of rotation and having a diameter orthogonal to that axis with the diameter being selected to be greater than the height; forming a waste side heat exchanger rotating about said axis of rotation and configuring the waste side heat exchanger to allow gas to pass through, the waste side heat exchanger having a second height along the axis of rotation and having a second diameter orthogonal to the rotational axis with the second diameter being selected to be greater than the second height; providing a thermoelectric device having opposing surfaces that generate elevated temperatures on one surface and reduced temperatures on the opposing surface depending on the electrical potential applied to the thermoelectric device, and conductively connecting one opposing surface of the thermoelectric device to the supply side heat exchanger and conductively connecting the other opposing surface to the waste side heat exchanger; rotating the heat exchangers and thermoelectric device about the axis of rotation to cause gas to pass through the heat exchangers; enclosing the supply heat exchanger and forming an outlet through which gas exits after passing through the supply heat exchanger; and placing the outlet from the supply side heat exchanger in fluid communication with the interior of an enclosed and insulated portable chamber, while exhausting the gas from the waste side heat exchanger outside the chamber. - View Dependent Claims (55, 56, 57)
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58. A temperature controlled ventilation system for a seat, comprising:
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a supply side heat exchanger forming a hole therein about an axis of rotation and configured to allow air to pass outward from said axis of rotation; a waste side heat exchanger forming a hole therein about said axis of rotation and configured to allow air to pass outward from said axis of rotation; a thermoelectric device having opposing surfaces that generate elevated temperatures on one surface and reduced temperatures on the opposing surface depending on the electrical potential applied to the thermoelectric device, one opposing surface being connected to and in thermal communication with the supply side heat exchanger and the other opposing surface being connected to and in thermal communication with the waste side heat exchanger; a motor drivingly connected to at least one of the heat exchangers or thermoelectric device to rotate the heat exchangers about the axis of rotation to cause air to enter at least one of the holes and pass outward through the heat exchanger; a housing containing at least the supply heat exchanger and forming an outlet through which air exits after passing through the supply heat exchanger; a seat of a motor vehicle having a surface against which a person rests, the surface having passages therethrough in at least a portion of the surface where the person rests, the surface being in fluid communication with the outlet of the supply heat exchanger, the heat exchanger and motor rotation cooperating so air from the heat exchanger is forced through the surface to provide conditioned air in the area where the passenger rests against the surface; and a wicking material being connected to at least a portion of the housing and having a first portion in contact with air exiting the supply heat exchanger and having a second portion in contact with air exiting the waste heat exchanger so that if one of the heat exchangers generates moisture the wicking material conducts the moisture away from the heat exchanger producing the moisture.
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59. A temperature controlled ventilation system for a seat having a fluid distribution system in fluid communication with the seat, comprising:
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a first fan rotating about a rotational axis and having a first plurality of heat exchange elements configured to generate a fluid flow through the heat exchange elements when rotated and in conductive thermal communication with an electronic device that converts electrical energy into a temperature change, the fan being enclosed in a housing that has an outlet in fluid communication with the fluid distribution system, wherein the electronic device comprises a thermoelectric device having a first side in thermal communication with said fan, and further comprising a second fan having a second plurality of heat exchange elements in conductive thermal communication with a second side of the thermoelectric device to conduct a temperature differential from said second side of the thermoelectric device, the second fan being enclosed in a housing that has an outlet in fluid communication with an exhaust port, and a wicking material having a first portion in contact with a gas exiting the first plurality of heat exchange elements and having a second portion in contact with a gas exiting the second plurality of heat exchange elements to conduct any moisture away from the housing in which the moisture is produced.
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60. A method for use with a seat having an exterior surface where a person rests, comprising the steps of:
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placing a first heat exchanger having a fluid outlet in fluid communication with the exterior surface of the seat and mounting the heat exchanger to rotate about a rotational axis; placing the first heat exchanger in conductive thermal communication with an electrical device that is selected to generate a temperature change when an electrical current is applied to the electrical device, by placing the first heat exchanger in thermal communication with a first surface of a rotating thermoelectric device; rotating the first heat exchanger about the axis to force fluid through the heat exchanger while conditioning the temperature of the fluid passing over the heat exchanger; placing a second heat exchanger in conductive thermal communication with a second surface of the thermoelectric device; placing the heat exchangers inside the seat; and rotating the second heat exchanger about the axis with the first heat exchanger to force fluid through the second heat exchanger while conditioning the fluid passing through the second heat exchanger.
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Specification