Vibrator and ultrasonic motor

What is claimed is: 1. A vibrator comprising: a piezoelectric element including a plurality of electrodes and configured to expand and contract when a voltage is applied; an elastic member having conductivity and configured to come into contact with the piezoelectric element and be vibrated by the expansion and contraction of the piezoelectric element; and a conducting member configured to apply the voltage to the piezoelectric element from outside, wherein the conducting member comprises: at least one first adhesive portion adhered to an electrode; at least one second adhesive portion adhered to the elastic member; and a feed portion electrically connected to means for applying the external voltage, wherein the second adhesive portion is arranged closer to the feed portion than any one of the first adhesive portions, wherein an adhesion area of the second adhesive portion is larger than an adhesion area of the first adhesive portion, and wherein a path length from the feed portion to the first adhesive portion is longer than a path length from the feed portion to the second adhesive portion. 2. A vibrator according to claim 1 , wherein the second adhesive portion is arranged on a surface opposite to a surface in contact with the piezoelectric element when viewed from the elastic member. 3. A vibrator according to claim 1 , wherein the conducting member comprises a flexible substrate. 4. A vibrator according to claim 3 , wherein the piezoelectric element and the flexible substrate are conductive with each other via the first adhesive portion. 5. A vibrator according to claim 3 , wherein the piezoelectric element and the flexible substrate are conductive with each other via the second adhesive portion. 6. A vibrator according to claim 1 , wherein the second adhesive portion is arranged between the feed portion and the first adhesive portion. 7. A vibrator according to claim 1 , wherein the piezoelectric element comprises at least two piezoelectric elements. 8. An ultrasonic motor comprising a vibrator, a driven member to be relatively driven by a vibration of the vibrator, and a press member configured to bring the vibrator into contact with the driven member, the vibrator comprising: a piezoelectric element including a plurality of electrodes and configured to expand and contract when a voltage is applied; an elastic member having conductivity and configured to come into contact with the piezoelectric element and be vibrated by the expansion and contraction of the piezoelectric element; and a conducting member configured to apply the voltage to the piezoelectric element from outside, wherein the conducting member comprises: at least one first adhesive portion adhered to an electrode; at least one second adhesive portion adhered to the elastic member; and a feed portion electrically connected to means for applying the external voltage, wherein the second adhesive portion is arranged closer to the feed portion than any one of the first adhesive portions, wherein an adhesion area of the second adhesive portion is larger than an adhesion area of the first adhesive portion, and wherein a path length from the feed portion to the first adhesive portion is longer than a path length from the feed portion to the second adhesive portion. 9. A vibrator comprising: a piezoelectric element including a plurality of electrodes and configured to expand and contract when a voltage is applied; an elastic member having conductivity and configured to come into contact with the piezoelectric element and be vibrated by the expansion and contraction of the piezoelectric element; and a conducting member configured to apply the voltage to the piezoelectric element from outside, wherein the conducting member comprises: at least one first adhesive portion adhered to an electrode; at least one second adhesive portion adhered to the elastic member; and a feed portion electrically connected to means for applying the external voltage, wherein an adhesion area of the second adhesive portion is larger than an adhesion area of the first adhesive portion, and wherein a path from the feed portion to the first adhesive portion has at least one bending portion, and a path from the feed portion to the second adhesive portion is substantially straight. 10. A vibrator according to claim 9 , wherein the second adhesive portion is arranged on a surface opposite to a surface in contact with the piezoelectric element when viewed from the elastic member. 11. A vibrator according to claim 9 , wherein the conducting member comprises a flexible substrate. 12. A vibrator according to claim 11 , wherein the piezoelectric element and the flexible substrate are conductive with each other via the first adhesive portion. 13. A vibrator according to claim 11 , wherein the piezoelectric element and the flexible substrate are conductive with each other via the second adhesive portion. 14. A vibrator according to claim 9 , wherein the second adhesive portion is arranged between the feed portion and the first adhesive portion. 15. A vibrator according to claim 9 , wherein the piezoelectric element comprises at least two piezoelectric elements. 16. An ultrasonic motor comprising a vibrator, a driven member to be relatively driven by a vibration of the vibrator, and a press member configured to bring the vibrator into contact with the driven member, the vibrator comprising: a piezoelectric element including a plurality of electrodes and configured to expand and contract when a voltage is applied; an elastic member having conductivity and configured to come into contact with the piezoelectric element and be vibrated by the expansion and contraction of the piezoelectric element; and a conducting member configured to apply the voltage to the piezoelectric element from outside, wherein the conducting member comprises: at least one first adhesive portion adhered to an electrode; at least one second adhesive portion adhered to the elastic member; and a feed portion electrically connected to means for applying the external voltage, wherein an adhesion area of the second adhesive portion is larger than an adhesion area of the first adhesive portion, and wherein a path from the feed portion to the first adhesive portion has at least one bending portion, and a path from the feed portion to the second adhesive portion is substantially straight.