Laminated thermoelectric conversion element

The invention claimed is: 1. An elongated laminated body extending along a central axis such that the laminated body has a center and opposed first and second lateral ends located at opposite sides of the central axis, the laminated body comprising: opposing heat absorption and heat release surfaces; a plurality of insulating layers; a plurality of p-type and n-type thermoelectric conversion layers extending between the heat absorption and heat release surfaces, the p-type and n-type thermoelectric conversion layers being arranged to alternate between the p-type and n-type thermoelectric conversion layers with one insulating layer of the plurality of insulating layers located between each adjacent pair of thermoelectric conversion layers; a first set of insulating layers of the plurality of insulating layers extending perpendicular to the central axis from the heat absorption surface toward the heat release surface but not reaching the heat release surface such that each insulating layer of the first set of insulating layers is spaced from the heat release surface by a respective length as measured in a direction perpendicular to the central axis; a second set of insulating layers of the plurality of insulating layers extending perpendicular to the central axis from the heat release surface toward the heat absorption surface but not reaching the heat absorption surface such that each insulating layer of the second set of insulating layers is spaced from the heat absorption surface by a respective length as measured in a direction perpendicular to the central axis; the first set of insulating layers including at least one first laterally outermost insulating layer located closer to the first lateral end of the elongated laminated body than the remaining insulating layers of the first set of insulating layers, the length that the at least one first laterally outermost insulating layer is spaced from the heat release surface as measured in a direction perpendicular to the central axis being longer than the respective length that the remaining insulating layers of the first set of insulating layers are spaced from the heat release surface as measured in the direction perpendicular to the central axis; and the second set of insulating layers including at least one second laterally outermost insulating layer located closer to the second lateral end of the elongated laminated body than the remaining insulating layers of the second set of insulating layers, the length that the at least one second laterally outermost insulating layer is spaced from the heat absorption surface as measured in the direction perpendicular to the central axis being longer than the respective length that the remaining insulating layers of the second set of insulating layers are spaced from the heat absorption surface as measured in the direction perpendicular to the central axis. 2. The laminated body of claim 1 , wherein each of the thermoelectric conversion layers lies in a respective plane which is perpendicular to the central axis. 3. The laminated body of claim 1 , wherein the at least one first laterally outermost insulating layer is a single insulating layer. 4. The laminated body of claim 1 , wherein the at least one first laterally outermost insulating layer comprises first and second insulating layers, the first insulating layer being located closer to the first lateral end of the elongated terminal body than the second insulating layer. 5. The laminated body of claim 4 , wherein the length that the first insulating layer is spaced from the heat release surface is different than the length that the second insulating layer is spaced from the heat release surface. 6. The laminated body of claim 4 , wherein the length that the first insulating layer is spaced from the heat release surface is less than the length that the second insulating layer is spaced from the heat release surface. 7. The laminated body of claim 3 , wherein the at least one second laterally outermost insulating layer is a single insulating layer. 8. The laminated body of claim 1 , wherein: the at least one first laterally outermost insulating layer comprises first and second insulating layers, the first insulating layer being located closer to the first lateral end of the elongated terminal body than the second insulating layer; and the at least one second laterally outermost insulating layer comprises third and fourth insulating layers, the third insulating layer being located closer to the second lateral end of the elongated terminal body than the fourth insulating layer. 9. The laminated body of claim 8 , wherein: the length that the first insulating layer is spaced from the heat release surface is different than the length that the second insulating layer is spaced from the heat release surface; and the length that the third insulating layer is spaced from the heat absorption surface is different than the length that the fourth insulating layer is spaced from the heat absorption surface. 10. The laminated body of claim 8 , wherein: the length that the first insulating layer is spaced from the heat release surface is less than the length that the second insulating layer is spaced from the heat release surface; and the length that the third insulating layer is spaced from the heat absorption surface is less than the length that the fourth insulating layer is spaced from the heat absorption surface. 11. The laminated body of claim 1 , wherein the positioning of the plurality of insulating layers causes current which flows between the first and second lateral ends of the elongated laminated body in response to a heat differential between the heat absorbing and heat release surfaces to flow in a serpentine manner. 12. The laminated body of claim 1 , wherein the at least one second laterally outermost insulating layer comprises first and second insulating layers, the first insulating layer being located closer to the second lateral end of the elongated terminal body than the second insulating layer. 13. The laminated body of claim 12 , wherein the length that the first insulating, layer is spaced from the heat absorption surface is different than the length that the second insulating layer is spaced from the heat absorption surface. 14. The laminated body of claim 12 , wherein the length that the first insulating layer is spaced from the heat absorption surface is less than the length that the second insulating layer is spaced from the heat absorption surface. 15. The laminated body of claim 1 , wherein: the heat absorption surface has a central planar portion and first and second curved outer portions which extend from the central planar portion to the first and second lateral ends of the elongated body, respectively, as viewed along a plane passing through the central axis; and the heat release surface has a central planar portion and third and fourth curved outer portions which extend from the central planar portion of the heat release surface to the first and second lateral ends of the elongated body, respectively, as viewed along a plane passing through the central axis. 16. The laminated body of claim 15 , wherein at least one of the insulators of the first set of insulating layers is located between the first and third curved outer portions of the heat absorption and heat release surfaces. 17. The laminated body of claim 16 , wherein at least one of the insulators of the second set of insulating layers is located between the second and fourth curved outer portions of the heat absorption and heat release surfaces.