Damping structure

What is claimed is: 1. A damping structure comprising: a first frame including a first plate; a driving motor provided on the first plate of the first frame; a second frame provided at a position facing the first frame and including a second plate opposite to the first plate, the second frame being configured to support the first frame in such a manner that a gap is provided between the first and second plates; a projecting portion provided in the gap and configured to project from one plate toward the other plate of the first and second plates; a press member provided at a tip of the projecting portion and whose area is larger than an area of an end surface of the tip of the projecting portion; and a damping member provided on the press member so as to be compressively held between the press member and the other plate, the damping member (i) having a rigidity lower than rigidities of the first frame, second frame, and the projecting portion and (ii) having a loss factor, measured by a mechanical impedance method in the state being compressed between the press member and the other plate, of 0.05 or more. 2. The damping structure according to claim 1 , wherein the rigidity of the projecting portion is greater than the rigidity of at least one of the first frame and second frame. 3. The damping structure according to claim 1 , wherein the projecting portion projects from the second plate toward the first plate, and wherein the damping member is compressively held between the press member and a position of the first plate where a vibration amplitude of a surface of the first plate is greater than an average of vibration amplitudes of the surface of the first plate in a state in which no damping member is attached. 4. The damping structure according to claim 1 , wherein the loss factor, measured by the mechanical impedance method in the state being compressed, of the damping member is 0.4 or more. 5. The damping structure according to claim 1 , wherein hardness of the damping member is 70 degrees or less in terms of Asker C hardness. 6. The damping structure according to claim 1 , wherein the damping member is compressed more than 0% and less than 50% from a thickness before compression. 7. The damping structure according to claim 1 , wherein the projecting portion is a first projecting portion and the damping member is a first damping member, and wherein the damping structure further comprises: a third frame provided at a position facing the second frame in a state being connected with the second frame; a second projecting portion projecting from one frame toward the other frame of the second and third frames; and a second damping member compressively held between a tip of the second projecting portion and the other frame among the second and third frames, the second damping member (i) having a rigidity lower than rigidities of the second frame, third frame, and the second projecting portion and (ii) having a loss factor, measured by the mechanical impedance method in the state being compressed between the second projecting portion and the other frame among the second and third frames, of 0.05 or more. 8. The damping structure according to claim 7 , wherein the rigidity of the second projecting portion is greater than the rigidity of at least one of the second and third frames. 9. The damping structure according to claim 7 , wherein the driving motor is a first driving portion, and wherein a second driving portion is mounted on the second frame such that the second driving portion is positioned between the second and third frames. 10. The damping structure according to claim 7 , wherein the first projecting portion projects from the first frame toward a first opposing portion of the second frame, and wherein the second projecting portion projects from the third frame toward a position facing the first opposing portion of the second frame. 11. The damping structure according to claim 9 , wherein the second driving portion includes a rotator being configured to be rotationally driven, and wherein the second projecting portion is a fixed shaft fixed to the second frame and supporting the rotator. 12. The damping structure according to claim 7 , wherein the loss factor, measured by the mechanical impedance method in the state being compressed, of the second damping member is 0.4 or more. 13. The damping structure according to claim 7 , wherein the second damping member has hardness of 70 degrees or less in terms of Asker C hardness. 14. The damping structure according to claim 7 , wherein the second damping member is compressed more than 0% and less than 50% from a thickness before compression. 15. The damping structure according to claim 1 , wherein the damping member is compressed between a component provided on the other plate and the press member. 16. The damping structure according to claim 1 , the projecting portion is provided on the first plate.