Vibration actuator reduced in cost and size, and electronic device

What is claimed is: 1. A vibration actuator comprising: a vibration element which includes an electromechanical energy conversion element and an elastic body having a pair of contact portions; and a driven element which is driven relatively to the vibration element in a first direction, the driven element including side surfaces formed respectively on two sides thereof, wherein the pair of contact portions contact with the driven element in a third direction orthogonal to both of the first direction and a second direction which is a direction of a thickness of the electromechanical energy conversion element, and wherein each of the contact portions includes a contact surface formed thereon such that a pair of the contact surfaces face the driven element, the contact surfaces respectively contacting the side surfaces of the driven element in the third direction and facing each other through the driven element. 2. The vibration actuator according to claim 1 , wherein the pair of contact portions are formed on the elastic body such that a reaction force of a pressure force that acts on the driven element from one of the contact portions is received by the other contact portion. 3. The vibration actuator according to claim 1 , wherein the pair of contact portions are formed on the elastic body in a manner sandwiching the driven element in the third direction. 4. The vibration actuator according to claim 1 , wherein vibration for vibrating the pair of contact portions in the first direction and vibration for vibrating the pair of contact portions in the third direction are simultaneously excited in the vibration element to thereby cause the pair of contact portions to perform elliptic motion within a plane including the first direction and the third direction, whereby the vibration element and the driven element are moved relative to each other in the first direction. 5. The vibration actuator according to claim 1 , wherein the elastic body includes two pairs of the contact portions with a predetermined spacing therebetween in the first direction, and wherein the two pairs of the contact portions each alternately apply frictional driving forces to the driven element. 6. The vibration actuator according to claim 1 , wherein the pair of contact portions are formed integrally with a base portion by bending, and the base portion is joined to the electromechanical energy conversion element. 7. The vibration actuator according to claim 1 , further comprising a support member joined to the electromechanical energy conversion element via a surface thereof opposite to a surface thereof via which the electromechanical energy conversion element is joined to a base portion of the elastic body, for supporting the vibration element, and wherein the support member includes a power supply portion for supplying voltage to the electromechanical energy conversion element, and a fixed portion used for fixing the support member. 8. An electronic apparatus including: a vibration actuator comprising: a vibration element which includes an electromechanical energy conversion element and an elastic body having a pair of contact portions; and a driven element which is driven relatively to the vibration element in a first direction, the driven element including side surfaces formed respectively on two sides thereof; and a member that is positioned by driving the vibration actuator, wherein the pair of contact portions contact with the driven element in a third direction orthogonal to both of the first direction and a second direction which is a direction of a thickness of the electromechanical energy conversion element, and wherein each of the contact portions includes a contact surface formed thereon such that a pair of the contact surfaces face the driven element, the contact surfaces respectively contacting the side surfaces of the driven element in the third direction and facing each other through the driven element.