Vibration-type driving device

What is claimed is: 1. A vibration-type driving device comprising: a first vibrator comprising a first vibration plate including a first contact portion and a first electro-mechanical energy conversion element joined to the first vibration plate; a second vibrator comprising a second vibration plate including a second contact portion and a second electro-mechanical energy conversion element joined to the second vibration plate; and a driven object comprising: a first contact region in contact with the first contact portion; and a second contact region in contact with the second contact portion, wherein the first and second vibrators and the driven object are configured to relatively rotate about a rotation axis, wherein a position of the first vibrator differs from a position of the second vibrator in a radial direction and a circumferential direction with respect to the rotation axis, and wherein the first contact region and the second contact region do not overlap with each other in the circumferential direction, wherein a distance between the first and the second contact regions in the radial direction is less than a sum of a distance between the first contact portion and an edge of the second contact region side of the first vibration plate in the radial direction and a distance between the second contact portion and an edge of the first contact region side of the second vibration plate in the radial direction. 2. The vibration-type driving device according to claim 1 , wherein the first contact portion and the second contact portion each perform an elliptical motion. 3. The vibration-type driving device according to claim 1 , wherein a combined vibration of vibrations in different vibration modes is excited in each of the first vibrator and the second vibrator. 4. The vibration-type driving device according to claim 1 , wherein the first vibrator is configured to excite vibration in the first contact portion but not to excite vibration in the second contact portion, and wherein the second vibrator is configured to excite vibration in the second contact portion but not to excite vibration in the first contact portion. 5. The vibration-type driving device according to claim 1 , wherein the first vibrator and the second vibrator are arranged with a gap therebetween either along a joining plane of the first vibration plate and the first electro-mechanical energy conversion element or along a joining plane of the second vibration plate and the second electro-mechanical energy conversion element. 6. The vibration-type driving device according to claim 1 , wherein the first vibrator and the second vibrator are arranged with a gap therebetween along the circumferential direction. 7. The vibration-type driving device according to claim 1 , wherein the first vibration plate comprises: a first protrusion as the first contact portion; and a second protrusion as a third contact portion which comes into contact with a third contact region of the driven member, and wherein the second vibration plate comprises: a third protrusion as the second contact portion; and a fourth protrusion as a fourth contact portion which comes into contact with a fourth contact region of the driven member. 8. The vibration-type driving device according to claim 1 , wherein the first and the second contact regions overlap with each other in the radial direction. 9. The vibration-type driving device according to claim 1 , wherein a width of the first contact region in the radial direction is less than a width of the first vibration plate in the radial direction, wherein a width of the second contact region in the radial direction is less than a width of the second vibration plate in the radial direction, wherein the distance between the first and the second contact regions in the radial direction is less than the width of the first vibration plate in the radial direction, and wherein the distance between the first and the second contact regions in the radial direction is less than the width of the second vibration plate in the radial direction. 10. A vibration-type driving device comprising: a first vibrator comprising a first vibration plate including a first contact portion and a first electro-mechanical energy conversion element being joined to the first vibration plate; a second vibrator comprising a second vibration plate including a second contact portion and a second electro-mechanical energy conversion element being joined to the second vibration plate; and a driven object comprising: a first contact region in contact with the first contact portion; and a second contact region in contact with the second contact portion, wherein the first and second vibrators and the driven object are configured to relatively move in a first direction of a linear movement, wherein a position of the first vibrator differs from a position of the second vibrator in the first direction and a second direction perpendicular to the linear movement direction, and wherein the first contact region and the second contact region do not overlap with each other in the first direction, wherein a distance between the first and the second contact regions in the second direction is less than a sum of a distacne between the first contact portion and an edge of the second contact region side of the first vibration plate in the second direction and a distance between the second contact portion and an edge of the first contact region side of the second vibration plate in the second direction. 11. The vibration-type driving device according to claim 10 , wherein the first vibrator and the second vibrator are arranged with a gap therebetween either along a joining plane of the first vibration plate and the first electro-mechanical energy conversion element or along a joining plane of the second vibration plate and the second electro-mechanical energy conversion element. 12. The vibration-type driving device according to claim 10 , wherein the first vibrator and the second vibrator are arranged with a gap therebetween along the linear movement direction. 13. The vibration-type driving device according to claim 10 , wherein a combined vibration of vibrations in different vibration modes is excited in each of the first vibrator and the second vibrator. 14. The vibration-type driving device according to claim 10 , wherein the first vibration plate comprises: a first protrusion as the first contact portion; and a second protrusion as a third contact portion which comes into contact with a third contact region of the driven member, and wherein the second vibration plate comprises: a third protrusion as the second contact portion; and a fourth protrusion as a fourth contact portion which comes into contact with a fourth contact region of the driven member. 15. The vibration-type driving device according to claim 10 , wherein the first vibrator is configured to excite vibration in the first contact portion but not to excite vibration in the second contact portion, and wherein the second vibrator is configured to excite vibration in the second contact portion but not to excite vibration in the first contact portion. 16. The vibration-type driving device according to claim 10 , wherein the first contact portion and the second contact portion each perform an elliptical motion. 17. The vibration-type driving device according to claim 10 , wherein the first and the second contact regions overlap with each other in the second direction. 18. The vibration-type driving device according to