Piezoelectric drive device, robot, and method for driving piezoelectric drive device

What is claimed is: 1. A piezoelectric drive device comprising: a first monolithic substrate, the first monolithic substrate being configured with: a first vibrating body; and a first support member that is continuously formed with the first vibrating body so as to support the first vibrating body; a second monolithic substrate, the second monolithic substrate being configured with: a second vibrating body; and a second support member that is continuously formed with the second vibrating body so as to support the second vibrating body; a first piezoelectric element that is disposed on a surface of the first vibrating body, the first piezoelectric element being configured with a first electrode film formed on the surface of the first vibrating body, a first piezoelectric body film formed on the first electrode film, and a second electrode film formed on the first piezoelectric body film; and a second piezoelectric element that is disposed on a surface of the second vibrating body, the second piezoelectric element being configured with a third electrode film formed on the surface of the second vibrating body, a second piezoelectric body film formed on the third electrode film, and a fourth electrode film formed on the second piezoelectric body film, wherein the first vibrating body, the first support member, and the first piezoelectric element configure a first piezoelectric vibrating member, and the second vibrating body, the second support member, and the second piezoelectric element configure a second piezoelectric vibrating member. 2. The piezoelectric drive device according to claim 1 , wherein the second piezoelectric vibrating member is stacked on the first piezoelectric vibrating member. 3. The piezoelectric drive device according to claim 1 , wherein each of the surfaces of the first and second vibrating bodies, on which the first and second piezoelectric elements are formed, respectively, has a rectangular shape including a first side, a second side, a third side, and a fourth side, the third and fourth sides are connected between the first side and the second side, and each of the third and fourth sides is longer than the first side, each of the first and second support members includes a fixed member, a first connecting member, and a second connecting member, the first connecting member connects the third side with the fixed member, the second connecting member connects the fourth side with the fixed member, and the fixed member is disposed on a side closer to the second side than the first side. 4. The piezoelectric drive device according to claim 3 , wherein first and second wirings for driving the first and second piezoelectric elements are formed on the first and second vibrating bodies, the first connecting members, the second connecting members, and the fixed members, respectively. 5. The piezoelectric drive device according to claim 1 , further comprising a third piezoelectric body film formed on the first support member. 6. The piezoelectric drive device according to claim 3 , wherein each of the first and second vibrating bodies includes a recess at the first side, a contact member that is connectable to a driven member is provided in the recess, and the recess and the contact member contact each other at two or more points. 7. The piezoelectric drive device according to claim 6 , wherein the recess has a size of accommodating 30 to 70% of the volume of the contact member. 8. The piezoelectric drive device according to claim 6 , wherein the contact member contacts the recess of the first vibrating body at two or more points, and the contact member contacts the recess of the second vibrating body at two or more points. 9. The piezoelectric drive device according to claim 1 , wherein the first and second vibrating bodies and the first and second support members contain silicon. 10. A robot comprising: a plurality of links; a plurality of joints, each of the plurality of joints connecting adjacent two of the plurality of links together; and the piezoelectric drive device according to claim 1 which rotates the plurality of links with respect to the plurality of joints. 11. A robot comprising: a plurality of links; a plurality of joints, each of the plurality of joints connecting adjacent two of the plurality of link together; and the piezoelectric drive device according to claim 2 , which rotates the plurality of links with respect to the plurality of joints. 12. A robot comprising: a plurality of links; a plurality of joints, each of the plurality of joints connecting adjacent two of the plurality of links together; and the piezoelectric drive device according to claim 3 which rotates the plurality of links with respect to the plurality of joints. 13. A robot comprising: a plurality of links; a plurality of joints, each of the plurality of joints connecting adjacent two of the plurality of links together; and the piezoelectric drive device according to claim 4 which rotates the plurality of links with respect to the plurality of joints. 14. A method for driving the piezoelectric drive device according to claim 1 , comprising: applying, between the first electrode film and the second electrode film, a first pulsating voltage that periodically changes, a direction of an electric field of the first pulsating voltage to be applied to the first piezoelectric body film of the first piezoelectric element is one direction from one of the first electrode film and the second electrode film toward the other of the first electrode film and the second electrode film; and applying, between the third electrode film and the fourth electrode film, a second pulsating voltage that periodically changes, a direction of an electric field of the second pulsating voltage to be applied to the second piezoelectric body film of the second piezoelectric element is one direction from one of the third electrode film and the fourth electrode film toward the other of the third electrode film and the fourth electrode film. 15. A method for driving the piezoelectric drive device according to claim 2 , comprising: applying, between the first electrode film and the second electrode film, a pulsating voltage that periodically changes, a direction of an electric field of the first pulsating voltage to be applied to the first piezoelectric body film of the first piezoelectric element is one direction from one of the first electrode film and the second electrode film toward the other of the first electrode film and the second electrode film; and applying, between the third electrode film and the fourth electrode film, a second pulsating voltage that periodically changes, a direction of an electric field of the second pulsating voltage to be applied to the second piezoelectric body film of the second piezoelectric element is one direction from one of the third electrode film and the fourth electrode film toward the other of the third electrode film and the fourth electrode film. 16. A method for driving the piezoelectric drive device according to claim 3 , comprising: applying, between the first electrode film and the second electrode film, a pulsating voltage that periodically changes, a direction of an electric field of the first pulsating voltage to be applied to the first piezoelectric body film of the first piezoelectric element is one direction from one of the first electrode film and the second electrode film toward the other of the first electrode film and the second electrode film; and applying, between the third electrode film and the fourt