Tunable band-pass filter

The invention claimed is: 1. A tunable band-pass filter, comprising: a conductive chassis having a plurality of pieces of a cavity resonator; a conductive cover to cover said plurality of pieces of the cavity resonator; a plurality of resonant elements arranged in each said plurality of pieces of the cavity resonator, one end of said resonant elements being connected with said chassis and another end being an open end; and a plurality of movable conductors arranged in a space between said open end of said resonant elements and said conductive cover, wherein the plurality of movable conductors are in a space between pieces of the plurality of pieces of the cavity resonator, wherein the plurality of movable conductors are arranged above the plurality of resonant elements, wherein the plurality of movable conductor are between resonant elements, wherein the plurality of movable conductors move synchronously. 2. The tunable band-pass filter according to claim 1 , wherein a source of power of said movable conductors is a motor. 3. The tunable band-pass filter according to claim 1 , wherein each of said movable conductors is connected by a non-conductivity material. 4. The tunable band-pass filter according to claim 1 , wherein movement of said movable conductors is a rotating movement. 5. The tunable band-pass filter according to claim 1 , wherein movement of said movable conductors is a linear movement. 6. The tunable band-pass filter according to claim 1 , having a frequency adjustment screw inserted in from said conductive cover in a manner facing at least one of said resonant elements. 7. The tunable band-pass filter according to claim 6 , wherein at least one of said movable conductors has a hole corresponding to said frequency adjustment screw, wherein the frequency adjustment screw passes through the hole in the at least one of said movable conductors, wherein the at least one of said movable conductors rotates around an axis approximately perpendicular to an axis of the frequency adjustment screw. 8. The tunable band-pass filter according to claim 1 , wherein each of said movable conductors is a non-conductivity material having a metallic film formed on said non-conductivity material. 9. The tunable band-pass filter according to claim 1 , wherein each of said plurality of resonant elements is one of a conductor and a dielectric, having a shape selected from a tabular shape, a prismatic column and a circular cylinder. 10. A tunable band-pass filter, comprising: a conductive chassis having a plurality of pieces of a cavity resonator; a conductive cover to cover said plurality of pieces of the cavity resonator; a resonant element arranged in said plurality of pieces of the cavity resonator, one end of each said resonant element being connected with said chassis and another end being an open end; a movable conductor arranged in a space between said open end of said resonant element and said conductive cover; and a frequency adjustment screw inserted in from said conductive cover in a manner facing said resonant element, wherein said movable conductor has a hole corresponding to said frequency adjustment screw, wherein the frequency adjustment screw passes through the hole in the movable conductor, wherein the movable conductor rotates around an axis approximately perpendicular to an axis of the frequency adjustment screw. 11. The tunable band-pass filter according to claim 10 , wherein said movable conductor is connected by a non-conductivity material. 12. The tunable band-pass filter according to claim 10 , wherein movement of said movable conductor is a rotating movement. 13. The tunable band-pass filter according to claim 10 , wherein movement of said movable conductor is a linear movement. 14. The tunable band-pass filter according to claim 10 , wherein said movable conductor is a non-conductivity material having a metallic film formed on said non-conductivity material. 15. The tunable band-pass filter according to claim 10 , wherein said resonant element is one of a conductor and a dielectric, having a shape selected from a tabular shape, a prismatic column, and a circular cylinder. 16. The tunable band-pass filter according to claim 10 , wherein a source of power of said movable conductor is a motor.