Vibration motor that prevents resonance of contact member, and electronic apparatus

What is claimed is: 1. A vibration motor comprising: a vibrator having a piezoelectric element; a contact member which is brought into friction contact with the vibrator; and a fixing member to which the contact member is fixed, the vibration motor being configured to cause the vibrator and the contact member to move relative to each other in a first predetermined direction, by a high-frequency vibration of the piezoelectric element, wherein the contact member comprises: a sliding portion which is an area brought into friction contact with the vibrator when the vibrator and the contact member are caused to move relative to each other in the first predetermined direction; and a fixed portion via which the contact member is fixed to the fixing member, and wherein the fixed portion is formed at a location alongside the sliding portion in a second predetermined direction orthogonal to the first predetermined direction and orthogonal to an extending direction of the area of the contact member brought into friction contact with the vibrator, and also inward of an end of the contact member in the first predetermined direction. 2. The vibration motor according to claim 1 , wherein the contact member includes an extending portion extending out in the first predetermined direction, and a resonance frequency of a resonance mode in which the extending portion is twisted is higher than a frequency of AC voltage applied to the vibrator. 3. The vibration motor according to claim 2 , wherein the fixed portion is formed as at least two fixed portions, and a width of a portion of the contact member between the two fixed portions in the second predetermined direction is different from a width of the extending portions in the second predetermined direction. 4. The vibration motor according to claim 3 , wherein the width of the portion of the contact member between the two fixed portions in the second predetermined direction is larger than the width of the extending portions in the second predetermined direction. 5. The vibration motor according to claim 1 , wherein the contact member includes a first friction area part in which the sliding portion is defined and a second friction area part in which the fixed portion is defined, and the second friction area part is smaller in length in the first predetermined direction than the first friction area part. 6. The vibration motor according to claim 1 , wherein the contact member includes a first friction area part in which the sliding portion is defined, a second friction area part in which the fixed portion is defined, and a third friction area part in which the fixed portion is defined, and wherein the first friction area part is provided between the second friction area part and the third friction area part. 7. An electronic apparatus comprising: a vibration motor; and a driven member that is driven by driving of the vibration motor, the vibration motor including a vibrator having a piezoelectric element, a contact member which is brought into friction contact with the vibrator, and a fixing member to which the contact member is fixed, the vibration motor causing the vibrator and the contact member to move relative to each other in a first predetermined direction, by high-frequency vibration of the piezoelectric element, wherein the contact member includes: a sliding portion which is an area brought into friction contact with the vibrator when the vibrator and the contact member are caused to move relative to each other in the first predetermined direction; and a fixed portion via which the contact member is fixed to the fixing member, and wherein the fixed portion is formed at a location alongside the sliding portion in a second predetermined direction orthogonal to the first predetermined direction and orthogonal to an extending direction of the area of the contact member brought into friction contact with the vibrator, and also inward of an end of the contact member in the first predetermined direction. 8. The electronic apparatus according to claim 7 , wherein the driven member is an optical lens.