Fluid-filled vibration damping device

What is claimed is: 1. A fluid-filled vibration damping device comprising: a primary liquid chamber; an auxiliary liquid chamber; a partition provided between the primary liquid chamber and the auxiliary liquid chamber; and a movable plate supported movably in a plate thickness direction thereof by the partition, the movable plate receiving on one face thereof liquid pressure of the primary liquid chamber and on another face thereof liquid pressure of the auxiliary liquid chamber so as to constitute a liquid pressure absorber, wherein at least one communication hole opens onto a surface of the partition, the surface facing the movable plate, at least one elastic protrusion projects from the movable plate toward the communication hole, the elastic protrusion includes a peripheral wall, the peripheral wall being configured to be pressed in a compression direction as well as in a shear direction and be elastically deformed to a radially inner side of the communication hole as well by means of the peripheral wall coming into contact with a wall portion of the communication hole due to movement of the movable plate in the plate thickness direction, and the elastic protrusion of the movable plate includes a hollow annular peripheral wall serving as the peripheral wall. 2. The fluid-filled vibration damping device according to claim 1 , wherein the movable plate includes a cushion projection projecting toward the partition, and an amount of movement of the movable plate in the plate thickness direction until the cushion projection comes into contact with the partition is greater than an amount of movement of the movable plate in the plate thickness direction until the elastic protrusion comes into contact with the communication hole and is elastically deformed. 3. The fluid-filled vibration damping device according to claim 1 , wherein the at least one communication hole of the partition comprises a plurality of communication holes while the at least one elastic protrusion of the movable plate comprises a plurality of elastic protrusions, and the communication holes and the elastic protrusions are provided at corresponding positions. 4. The fluid-filled vibration damping device according to claim 1 , wherein the communication hole of the partition includes a radially inner surface with which the peripheral wall of the elastic protrusion is configured to come into contact, the peripheral wall of the elastic protrusion includes a radially outer surface configured to come into contact with the communication hole, and at least one of the radially inner surface of the communication hole and the radially outer surface of the peripheral wall of the elastic protrusion comprises a tapered sloping surface. 5. The fluid-filled vibration damping device according to claim 1 , wherein the peripheral wall has a shape in which a thickness dimension is smaller in a distal end portion thereof than in a proximal end portion thereof. 6. The fluid-filled vibration damping device according to claim 1 , wherein the movable plate is elastically deformable by being formed of an elastic material, and deformation rigidity of the movable plate is varied in a plate surface direction. 7. The fluid-filled vibration damping device according to claim 6 , wherein the deformation rigidity of the movable plate is varied in the plate surface direction by a planar shape of the movable plate being non-circular. 8. The fluid-filled vibration damping device according to claim 6 , wherein the deformation rigidity of the movable plate is varied in the plate surface direction by a thickness dimension of the movable plate being varied in the plate surface direction. 9. The fluid-filled vibration damping device according to claim 1 , wherein in the partition, the communication hole is located unevenly in a plate surface direction of the movable plate. 10. The fluid-filled vibration damping device according to claim 1 , wherein a proximal end portion of the peripheral wall, in a direction of protrusion of the peripheral wall, has an annular shape that continues around an entire circumference in a circumferential direction, while a distal end portion of the peripheral wall is divided into a plurality of segments in the circumferential direction by slits extending in a height direction.