Waveguide bandpass filter having a ladder shape metal plate and which is tunable using a rotatable dielectric plate

The invention claimed is: 1. A bandpass frequency adjusting method to be used in a bandpass filter, the bandpass filter comprising: a filter casing defining a rectangular waveguide having a narrow plane and a broad plane that is wider than the narrow plane; a metal plate having a ladder shape and being arranged in a sandwiched manner inside the filter casing at a center of the broad plane so as to be parallel to the narrow plane; a dielectric plate positioned in a vicinity of the metal plate in the rectangular waveguide; and a support rod extending in parallel to a longitudinal direction of the rectangular waveguide, the support rod being rotatably supported on the filter casing and configured to support the dielectric plate so that the dielectric plate extends in the longitudinal direction of the rectangular waveguide; a first gear fixed at a tip of the support rod; a second gear meshing with the first gear, the second gear having a smaller number of teeth than the first gear, a spring for locking rotation, which is provided at a position of engagement with the second gear; and a screw provided above the spring, wherein the bandpass frequency adjusting method comprises rotating the first gear along with rotation of the second gear to rotate the dielectric plate, to thereby adjust the bandpass frequency, and when the screw is fastened, fixing movement of the spring by the screw in a state in which a tip of the spring engages with the second gear, to thereby lock rotation of the second gear, and when the screw is unfastened, freeing movement of the spring, to thereby release locking of the rotation of the second gear. 2. The bandpass frequency adjusting method according to claim 1 , wherein the second gear comprises a worm gear, and wherein the bandpass frequency adjusting method further comprises rotating the first gear along with driving of the worm gear to rotate the dielectric plate, to thereby adjust the bandpass frequency. 3. A bandpass filter, comprising: a filter casing defining a rectangular waveguide having a narrow plane and a broad plane that is wider than the narrow plane; a metal plate having a ladder shape and being arranged in a sandwiched manner inside the filter casing at a center of the broad plane so as to be parallel to the narrow plane; a dielectric plate positioned in a vicinity of the metal plate in the rectangular waveguide; a support rod extending in parallel to a longitudinal direction of the rectangular waveguide, the support rod being rotatably supported on the filter casing and configured to support the dielectric plate so that the dielectric plate extends in the longitudinal direction of the rectangular waveguide; a first gear fixed at a tip of the support rod; a second gear meshing with the first gear, the second gear having a smaller number of teeth than the first gear, wherein the first gear is rotated along with rotation of the second gear to rotate the dielectric plate, to thereby adjust the bandpass frequency; a spring for locking rotation, which is provided at a position of engagement with the second gear; and a screw provided above the spring, wherein, when the screw is fastened, movement of the spring is fixed by the screw in a state in which a tip of the spring engages with the second gear, to thereby lock rotation of the second gear, and wherein, when the screw is unfastened, movement of the spring is freed, to thereby release locking of the rotation of the second gear. 4. The bandpass filter according to claim 3 , further comprising a rotation guide provided on an outer surface of the filter casing so as to rotate in synchronization with the first gear, the rotation guide having graduations for visual confirmation of a rotation amount of the first gear. 5. The bandpass filter according to claim 3 , wherein the second gear comprises a worm gear, and the bandpass filter further comprises a driving knob provided on an outer surface of the filter casing so as to drive the worm gear, the driving knob comprising a multi-rotary dial.