Powder amount detector, powder supply device, and image forming apparatus incorporating same

What is claimed is: 1. A powder amount detector comprising: a vibration plate secured to a powder container to contain powder and positioned at a predetermined position in a stationary state; a shaft to rotate inside the powder container; a contact member attached to the shaft, the contact member to flip the vibration plate to cause the vibration plate to repeat elastic deformation and reversion to vibrate, the contact member to exit an area opposed to the vibration plate by the time the vibration plate returns to the predetermined position after the contact member flips the vibration plate; a vibration detector to detect vibration of the vibration plate; and a detection result processor to determine an amount of the powder in the powder container according to a detection result generated by the vibration detector. 2. The powder amount detector according to claim 1 , further comprising a frequency-related data output to output frequency-related data, wherein the vibration detector includes a signal oscillator to output an oscillation signal having a frequency corresponding to a state of a magnetic flux passing through a space opposed to the vibration detector, wherein the vibration plate is made of a material to affect the magnetic flux and disposed facing the signal oscillator via a wall of the powder container to vibrate in a direction in which the vibration plate faces the signal oscillator, wherein the frequency-related data relates to the frequency of the oscillation signal of the signal oscillator and changes corresponding to vibration of the vibration plate in regular sampling cycles, wherein the detection result processor is configured to acquire the frequency-related data, detect a vibration state of the vibration plate based on a change in the frequency-related data, and detect the amount of the powder in the powder container based on the detected vibration state of the vibration plate. 3. The powder amount detector according to claim 1 , wherein a first end of the vibration plate in an axial direction of the shaft is secured, wherein the vibration plate includes a projection projecting toward the shaft from a second end opposite the first end, the projection to be flipped by the contact member, and wherein the projection includes an inclined face to reduce a projecting amount of the projection in a rotation direction of the shaft. 4. The powder amount detector according to claim 3 , wherein the projection has an apex at which the inclined face starts, the apex disposed in a downstream portion of the projection in the rotation direction of the shaft. 5. The powder amount detector according to claim 1 , wherein the contact member includes an elastic body biased to one side in a rotation direction of the shaft. 6. The powder amount detector according to claim 1 , wherein the contact member includes a torsion spring. 7. The powder amount detector according to claim 6 , wherein the shaft includes a spring end support, wherein the torsion spring includes: a contact portion to contact the vibration plate; and a first coiled portion and a second coiled portion connected to ends of the contact portion, respectively, wherein a first end of the first coiled portion is connected to the contact portion, and a second end of the first coiled portion is supported by the spring end support, and wherein a first end of the second coiled portion is connected to the contact portion, and a second end of the second coiled portion is a free end. 8. The powder amount detector according to claim 1 , wherein the contact member includes one of a wire and a rod. 9. The powder amount detector according to claim 1 , wherein a rotation center of the contact member is disposed lower than a range of the vibration plate in which the contact member contacts. 10. The powder amount detector according to claim 9 , wherein a first end of the vibration plate in an axial direction of the shaft is secured, and wherein the vibration plate includes a projection projecting toward the shaft from a second end opposite the first end, the projection to be flipped by the contact member and including: an upstream inclined face to increase a projecting amount of the projection in a rotation direction of the shaft; a downstream inclined face to reduce the projecting amount in the rotation direction of the shaft, the downstream inclined face positioned downstream from the upstream inclined face in the rotation direction of the shaft, the downstream inclined face greater in inclination than the upstream inclined face; and an apex at which the projecting amount is greatest, the apex positioned between the upstream inclined face and the downstream inclined face. 11. The powder amount detector according to claim 1 , further comprising a pad disposed on at least a contact portion of the contact member to contact the vibration plate. 12. The powder amount detector according to claim 11 , wherein the pad is a tubular elastic body and rotatable relative to the contact portion. 13. The powder amount detector according to claim 1 , wherein the contact member includes: a contact portion to contact the vibration plate; and a coiled portion connected to the contact portion, and wherein the shaft is disposed in a hollow inside the coiled portion such that a rotation center of the coiled portion matches a rotation center of the shaft. 14. The powder amount detector according to claim 13 , further comprising an agitator to rotate coaxially with the shaft to stir or transport the powder, the agitator removably attached to one end of the shaft that is inserted into the coiled portion. 15. The powder amount detector according to claim 14 , wherein the agitator includes a projecting portion projecting in an axial direction of the shaft to overlap the contact portion, the projecting portion disposed outside a range of movement of the contact portion in a rotation direction of the shaft. 16. The powder amount detector according to claim 1 , wherein the contact member includes: a contact portion to contact the vibration plate; and a coiled portion connected to the contact portion, and wherein the shaft, the contact member, and the vibration plate are disposed such that, at a moment immediately before the contact portion leaves the vibration plate, a rotation center of the shaft, a rotation center of the coiled portion, and a contact point between the contact portion and the vibration plate are aligned with an identical straight line perpendicular to an axial direction of the shaft. 17. The powder amount detector according to claim 16 , wherein the vibration plate includes a projection projecting toward the shaft, the projection to be flipped by the contact member and including: an upstream inclined face to increase a projecting amount of the projection in a rotation direction of the shaft; a downstream inclined face to reduce the projecting amount in the rotation direction of the shaft, the downstream inclined face positioned downstream from the upstream inclined face in the rotation direction of the shaft; and an apex between the upstream inclined face and the downstream inclined face, and wherein the contact portion of the contact member contacts the apex of the projection at the moment immediately before leaving the vibration plate. 18. The powder amount detector according to claim 16 , wherein the rotation center of the coiled portion is inconsistent with the rotation center of the shaft. 19. A powder supply device comprising: the powder container to store