Coil component

What is claimed is: 1. A coil component comprising: an element; and a coil that is provided inside the element and that is spirally wound, wherein the coil includes a plurality of coil conductor layers and an extended conductor layer, which are laminated in a first direction, the extended conductor layer overlaps a side gap portion, which is situated on an outer side of a region of the element that is surrounded by the coil conductor layers, and extends so as to reach an outer surface of the element, and the element includes a first stress relaxation layer that contacts the coil conductor layers, and a second stress relaxation layer that, while extending along the extended conductor layer, contacts a coil-conductor-layer side of the extended conductor layer, and is positioned inside the side gap portion without reaching the outer surface of the element. 2. The coil component according to claim 1 , wherein the plurality of coil conductor layers includes a first coil conductor layer that contacts the extended conductor layer, and the second stress relaxation layer contacts the first coil conductor layer. 3. The coil component according to claim 2 , wherein a thickness of a portion of the second stress relaxation layer that contacts the first coil conductor layer is greater than or equal to about 1/10 of a thickness of the first coil conductor layer, and is less than or equal to the thickness of the first coil conductor layer. 4. The coil component according to claim 2 , wherein a width of the second stress relaxation layer is from about ½ to about 3/2 of a width of the extended conductor layer. 5. The coil component according to claim 2 , wherein the plurality of coil conductor layers includes a second coil conductor layer that contacts the first coil conductor layer, a first end of the second stress relaxation layer in a length direction thereof contacts a first side end of the first coil conductor layer, and in the length direction of the second stress relaxation layer, a second end of the second stress relaxation layer in the length direction thereof is situated at a position that is further from the first end than a side end of the first stress relaxation layer that contacts the second coil conductor layer, and is situated at a position that is closer to the first end than a position at about ⅔ of a length of the extended conductor layer from a first contact portion of the first coil conductor layer to the outer surface of the element with reference to the first contact portion of the first side end of the first coil conductor layer that contacts the extended conductor layer. 6. The coil component according to claim 1 , wherein the plurality of coil conductor layers includes spiral layers that are each wound in a plane, and a thickness of a portion of the element between the spiral layers that are adjacent to each other in the first direction is less than or equal to about 40 μm. 7. The coil component according to claim 1 , wherein a thickness of the coil conductor layers is greater than or equal to about 50 μm. 8. The coil component according to claim 1 , wherein the first stress relaxation layer and the second stress relaxation layer are each a gap. 9. The coil component according to claim 1 , wherein the first stress relaxation layer and the second stress relaxation layer are made of oxide powder having a melting point that is higher than that of a magnetic material of which the element is made. 10. The coil component according to claim 1 , wherein the plurality of coil conductor layers includes a spiral layer that is wound in a plane and a connection layer that connects the spiral layer and the extended conductor layer to each other, the extended conductor layer includes a first end that is exposed from the element, and a second end on a side opposite to the first end, and the connection layer overlaps the extended conductor layer on an inner side in a length direction of the extended conductor layer with respect to the second end of the extended conductor layer. 11. The coil component according to claim 10 , wherein, in the length direction of the extended conductor layer, a distance from the second end of the extended conductor layer to a contact portion of a side end of the connection layer that contacts the extended conductor layer is greater than a thickness of the extended conductor layer and is less than twice the thickness of the extended conductor layer. 12. The coil component according to claim 1 , wherein the plurality of coil conductor layers includes spiral layers that are each wound in a plane and a connection layer that connects the spiral layers that are adjacent to each other in the first direction, and the connection layer overlaps the spiral layers on an inner side in a direction of extension of the spiral layers with respect to a side end of at least one of the spiral layers in a direction of extension of the at least one of the spiral layers. 13. The coil component according to claim 12 , wherein, in the direction of extension of the spiral layer, a distance from the side end of the spiral layer to a contact portion of a side end of the connection layer that contacts the spiral layer is greater than a thickness of the spiral layer and is less than twice the thickness of the spiral layer. 14. The coil component according to claim 1 , wherein a sectional shape of each coil conductor layer is substantially hexagonal, and the first stress relaxation layer is formed along only three sides of each coil conductor layer, and a thickness of each coil conductor layer on a side where the first stress relaxation layer is formed is greater than a thickness of each coil conductor layer on a side where the first stress relaxation layer is not formed. 15. The coil component according to claim 3 , wherein a width of the second stress relaxation layer is from about ½ to about 3/2 of a width of the extended conductor layer. 16. The coil component according to claim 3 , wherein the plurality of coil conductor layers includes a second coil conductor layer that contacts the first coil conductor layer, a first end of the second stress relaxation layer in a length direction thereof contacts a first side end of the first coil conductor layer, and in the length direction of the second stress relaxation layer, a second end of the second stress relaxation layer in the length direction thereof is situated at a position that is further from the first end than a side end of the first stress relaxation layer that contacts the second coil conductor layer, and is situated at a position that is closer to the first end than a position at about ⅔ of a length of the extended conductor layer from a first contact portion of the first coil conductor layer to the outer surface of the element with reference to the first contact portion of the first side end of the first coil conductor layer that contacts the extended conductor layer. 17. The coil component according to claim 2 , wherein the plurality of coil conductor layers includes spiral layers that are each wound in a plane, and a thickness of a portion of the element between the spiral layers that are adjacent to each other in the first direction is less than or equal to about 40 μm. 18. The coil component according to claim 2 , wherein a thickness of the coil conductor layers is greater than or equal to about 50 μm. 19. The coil component according to claim 2 , wherein the first stress relaxation layer and the second stress relaxation layer are each a gap.