On-vehicle image processing device

The invention claimed is: 1. An on-vehicle image processing device comprising: a first imaging section; a second imaging section; an enclosure having the first imaging section at one end and the second imaging section at the other end; a first cut or ground enclosure reference surface positioned on a first imaging section side of the enclosure; and a second cut or ground enclosure reference surface positioned on a second imaging section side of the enclosure, wherein the second cut or ground enclosure reference surface is positioned independently of the first cut or ground enclosure reference surface, wherein the first cut or ground enclosure reference surface and the second cut or ground enclosure reference surface are positioned on a surface that is exposed to outside of the on-vehicle image processing device, in a state in which the on-vehicle image processing device is assembled, wherein the first cut or ground enclosure reference surface and the second cut or ground enclosure reference surface are references for a jig for electrical adjustment. 2. The on-vehicle image processing device according to claim 1 , wherein the first enclosure reference surface being positioned between the first imaging section and a middle of the first and second imaging sections, the second enclosure reference surface being positioned between the second imaging section and the middle of the first and second imaging sections. 3. The on-vehicle image processing device according to claim 2 , wherein: the middle of the enclosure includes a vehicle-mounting surface to be mounted on a vehicle; the first enclosure reference surface is disposed between the first imaging section and the vehicle-mounting surface; and the second enclosure reference surface is disposed between the second imaging section and the vehicle-mounting surface. 4. The on-vehicle image processing device according to claim 2 , wherein the first and second enclosure reference surfaces are parallel to each other. 5. The on-vehicle image processing device according to claim 3 , wherein: the first enclosure reference surface is positioned near the middle of the first imaging section and the vehicle-mounting surface but closer to the first imaging section; and the second enclosure reference surface is positioned near the middle of the second imaging section and the vehicle-mounting surface but closer to the second imaging section. 6. The on-vehicle image processing device according to claim 3 , wherein the first enclosure reference surface and the second enclosure reference surface are positioned in a front in direction in which the first and second imaging sections form an image. 7. The on-vehicle image processing device according to claim 3 , wherein the vehicle-mounting surface projects outward from front and rear sides of the enclosure. 8. The on-vehicle image processing device according to claim 3 , wherein the first enclosure reference surface and the second enclosure reference surface are positioned on a top of the front of the enclosure in a direction in which the first and second imaging section form an image. 9. The on-vehicle image processing device according to claim 3 , wherein: the middle of the enclosure includes two vehicle-mounting surfaces in the imaging direction of the first and second imaging sections and one vehicle-mounting surface in a direction opposite to the imaging direction; the first enclosure reference surface is disposed on a lateral side of one of the two vehicle-mounting surfaces; and the second enclosure reference surface is disposed on a lateral side of the one vehicle-mounting surface. 10. The on-vehicle image processing device according to claim 1 , wherein the first enclosure reference surface is disposed on a vehicle-mounting surface of the first imaging section while the second enclosure reference surface is disposed on a vehicle-mounting surface of the second imaging section. 11. The on-vehicle image processing device according to claim 10 , wherein the first and second enclosure reference surfaces are in a form of an enclosure reference hole that is shaped as either a perfect circle or an oval. 12. The on-vehicle image processing device according to claim 11 , wherein one of two enclosure reference holes is shaped as a perfect circle while the other is shaped as an oval. 13. The on-vehicle image processing device according to claim 1 , wherein the first and second enclosure reference surfaces are shaped as either a rectangle or a circle. 14. The on-vehicle image processing device according to claim 1 , wherein the first enclosure reference surface is positioned outward of the first imaging section, and wherein the second enclosure reference surface is positioned outward of the second imaging section. 15. An on-vehicle image processing device comprising: a first imaging section; a second imaging section; and an enclosure having the first imaging section at one end and the second imaging section at another end thereof; a first cut or ground enclosure reference surface being positioned on a first imaging section side from a middle between the first imaging section and a middle of the enclosure; a second cut or ground enclosure reference surface being positioned on a second imaging section side from a middle between the second imaging section and the middle of the enclosure; wherein the second cut or ground enclosure reference surface is positioned independently of the first cut or ground enclosure reference surface; wherein the first cut or ground enclosure reference surface and the second cut or ground enclosure reference surface are positioned on a surface that is exposed to outside of the on-vehicle image processing device in a state in which the on-vehicle image processing device is assembled; wherein the first cut or ground enclosure reference surface and the second cut or ground enclosure reference surface are closer to being coplanar to each other than to other parts of the surface; wherein a first opening for delivering light to a first sensor of the first imaging section is formed on the enclosure; and wherein a second opening for delivering light to a second sensor of the second imaging section is formed on the enclosure. 16. The on-vehicle image processing device according to claim 15 , wherein the first enclosure reference surface being positioned between the first imaging section and a middle of the first and second imaging sections, the second enclosure reference surface being positioned between the second imaging section and the middle of the first and second imaging sections. 17. The on-vehicle image processing device according to claim 16 , wherein: the first enclosure reference surface is disposed between the first imaging section and the vehicle-mounting surface; and the second enclosure reference surface is disposed between the second imaging section and the vehicle-mounting surface. 18. The on-vehicle image processing device according to claim 16 , wherein the first and second enclosure reference surfaces are parallel to each other. 19. The on-vehicle image processing device according to claim 17 , wherein: the first enclosure reference surface is positioned near the middle of the first imaging section and the vehicle-mounting surface but closer to the first imaging section; and the second enclosure reference surface is positioned near the middle of the second imaging section and the vehicle-mounting surface but closer to the second imaging section.