Systems and methods for reducing current and increasing voltage in thermoelectric systems
First Claim
1. A thermoelectric assembly configured to be in thermal communication with a generally tubular first fluid conduit configured to allow a first fluid to flow through the first fluid conduit along a first direction, the thermoelectric assembly extending at least partially around a perimeter of the first fluid conduit, the thermoelectric assembly comprising:
- a plurality of thermoelectric elements;
at least one shunt comprising a first portion and a second portion, the first portion in thermal communication with and mechanically coupled to the plurality of thermoelectric elements, the second portion in thermal communication with and mechanically coupled to the first portion and having a curved surface configured to be in thermal communication with the first fluid conduit;
at least one electrically insulating element configured to electrically isolate the plurality of thermoelectric elements from the at least one shunt;
at least one hole or recess in the first portion of the at least one shunt; and
at least one insert at least partially within the at least one hole or recess and in thermal communication and in electrical communication with the plurality of thermoelectric elements,wherein the at least one electrically insulating element comprises at least one electrically insulating layer between the at least one insert and the first portion of the at least one shunt.
3 Assignments
0 Petitions
Accused Products
Abstract
A thermoelectric assembly and method are provided. The thermoelectric assembly can extend at least partially around a perimeter of a first fluid conduit. The thermoelectric assembly can include a plurality of thermoelectric sub-assemblies aligned with one another along the perimeter of the first fluid conduit. Each thermoelectric sub-assembly can include a plurality of thermoelectric elements in parallel electrical communication with one another, and at least one shunt a plurality of electrically insulating elements to prevent current flow in a plane perpendicular to the first direction between adjacent thermoelectric sub-assemblies.
285 Citations
9 Claims
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1. A thermoelectric assembly configured to be in thermal communication with a generally tubular first fluid conduit configured to allow a first fluid to flow through the first fluid conduit along a first direction, the thermoelectric assembly extending at least partially around a perimeter of the first fluid conduit, the thermoelectric assembly comprising:
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a plurality of thermoelectric elements; at least one shunt comprising a first portion and a second portion, the first portion in thermal communication with and mechanically coupled to the plurality of thermoelectric elements, the second portion in thermal communication with and mechanically coupled to the first portion and having a curved surface configured to be in thermal communication with the first fluid conduit; at least one electrically insulating element configured to electrically isolate the plurality of thermoelectric elements from the at least one shunt; at least one hole or recess in the first portion of the at least one shunt; and at least one insert at least partially within the at least one hole or recess and in thermal communication and in electrical communication with the plurality of thermoelectric elements, wherein the at least one electrically insulating element comprises at least one electrically insulating layer between the at least one insert and the first portion of the at least one shunt. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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Specification
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- Resources
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Current AssigneeGentherm Incorporated
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Original AssigneeGentherm Incorporated
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InventorsLaGrandeur, John, Poliquin, Eric, Kossakovski, Dmitri, Jovovic, Vladimir
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Primary Examiner(s)Ayad, Tamir
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Application NumberUS13/489,192Publication NumberTime in Patent Office1,043 DaysField of Search136200-242US Class Current136/224CPC Class CodesH10N 10/13 characterised by the heat-e...H10N 10/17 characterised by the struct...
