Powder detection device, image forming apparatus, powder detection method, and non-transitory recording medium

What is claimed is: 1. A toner detection device comprising: a detection mechanism including: a magnetic flux sensor disposed at an outer side of a wall of a container configured to store toner, the magnetic flux sensor configured to output an oscillation signal having a frequency according to a state of a magnetic flux passing through the wall; a vibrated member made of a material affecting the magnetic flux, and disposed at an inner side of the wall of the container to face the magnetic flux sensor; and a stirring member disposed inside the container configured to rotate to stir the toner, and to contact an end of the vibrated member as the stirring member rotates to vibrate the vibrated member; and a detection unit configured to acquire the frequency of the oscillation signal of the magnetic flux sensor at predetermined periods, to detect a vibration of the vibrated member based on a change in the frequency of the oscillation signal, and to detect a remaining amount of the toner in the container based on the vibration of the vibrated member. 2. The toner detection device of claim 1 , the detection unit further configured to detect an error of the detection mechanism based on the oscillation signal output by the magnetic flux sensor, and to determine a type of the error based on the frequency of the oscillation signal. 3. The toner detection device of claim 2 , wherein the detection unit determines presence or absence of the error of the detection mechanism before starting the detection of the remaining amount of the toner in the container, and wherein the stirring member starts vibrating the vibrated member after it is determined that the detection mechanism is in a normal state. 4. The toner detection device of claim 1 , wherein the detection unit associates a type of error of the detection mechanism with presence or absence of the vibration of the vibrated member, and wherein the detection unit acquires information of the presence or absence of the vibration of the vibrated member based on the frequency of the oscillation signal and determines the type of the error of the detection mechanism in accordance with the presence or absence of the vibration of the vibrated member. 5. The toner detection device of claim 1 , wherein the detection unit associates a type of error of the detection mechanism with a vibration frequency of the vibrated member, and wherein the detection unit determines the type of the error of the detection mechanism in accordance with the vibration frequency of the vibrated member. 6. The toner detection device of claim 5 , wherein the detection unit associates the type of the error of the detection mechanism with a combination of the remaining amount of the toner in the container and the vibration frequency of the vibrated member, and wherein the detection unit determines the type of the error of the detection mechanism based on the vibration frequency of the vibrated member and the associated detected remaining amount of the toner in the container. 7. An image forming apparatus, comprising: the toner detection device of claim 1 , the detection unit configured to detect a remaining amount of the toner serving as a developer supplied to a developing device for forming electrostatic latent images on a photoconductor. 8. The toner detection device of claim 1 , wherein the vibrated member is disposed so as to face the magnetic flux sensor via a housing of a sub-hopper. 9. The toner detection device of claim 1 , wherein the detection unit is configured to detect abnormality when the stirring member is stopped. 10. The toner detection device of claim 1 , wherein the stirring member flips the vibrated member to periodically vibrate the vibrated member. 11. The toner detection device of claim 1 , wherein the vibrated member vibrates with rotation of the stirring member. 12. The toner detection device of claim 1 , wherein the magnetic flux sensor includes a planar pattern coil that responds to change in magnetic flux passing through the wall. 13. The toner detection device of claim 1 , wherein the detection unit is configured to detect failure in the vibrated member by determining whether a calculated vibration frequency of the vibrated member is in a predetermined frequency range. 14. A method for detecting an amount of toner in a container, the method comprising: acquiring, at predetermined periods, a frequency of an oscillation signal output by a magnetic flux sensor, wherein the frequency is output according to a state of a magnetic flux passing through a wall of the container, and the magnetic flux sensor disposed at an outer side of the wall of the container; detecting a vibration of a vibrated member disposed at an inner side of the wall facing the magnetic flux sensor based on a change in the frequency of the oscillation signal; and detecting a remaining amount of the toner in the container based on the vibration of the vibrated member. 15. The method of claim 14 , further comprising: detecting an error of a detection mechanism including the magnetic flux sensor and the vibrated member based on the oscillation signal output by the magnetic flux sensor; and determining a type of the error based on the frequency of the oscillation signal. 16. The method of claim 15 , wherein the detecting of the error precedes the detecting of the remaining amount of the toner in the container, and wherein the detecting the vibration starts after it is determined that the detection mechanism is in a normal state. 17. The method of claim 14 , further comprising: associating a type of error of a detection mechanism including the magnetic flux sensor and the vibrated member with presence or absence of the vibration of the vibrated member; and determining the type of the error of the detection mechanism in accordance with the presence or absence of the vibration of the vibrated member. 18. The method of claim 14 , further comprising: associating a type of error of a detection mechanism including the magnetic flux sensor and the vibrated member with a vibration frequency of the vibrated member; and determining the type of the error of the detection mechanism in accordance with the vibration frequency of the vibrated member. 19. The method of claim 18 , further comprising: associating the type of the error of the detection mechanism with a combination of the remaining amount of the toner in the container and the vibration frequency of the vibrated member; and determining the type of the error of the detection mechanism based on the vibration frequency of the vibrated member and the associated detected remaining amount of the toner in the container. 20. A non-transitory recording medium storing a program for causing a computer to execute a method comprising: acquiring, at predetermined periods, a frequency of an oscillation signal output by a magnetic flux sensor, wherein the frequency is output according to a state of a magnetic flux passing through a wall of a container, and the magnetic flux sensor disposed at an outer side of the wall of the container; detecting a vibration of a vibrated member disposed at an inner side of the wall facing the magnetic flux sensor based on a change in the frequency of the oscillation signal; and detecting a remaining amount of toner in the container based on the vibration of the vibrated member.