INDIRECT TRANSMISSION TYPE AUTOMATIC FREQUENCY MODULATION FILTER

Abstract

Disclosed is an indirect transmission type automatic frequency modulation filter including a microwave body, a moving plate, a fastener, and a motor unit. The microwave body has plural openings. The moving plate includes a board, plural lugs and a first moving member, and the lugs and the first moving member form the board. The fastener includes a support base and a second moving member. The motor unit includes a rod and a driver, and the driver determines a clockwise rotation or a counterclockwise rotation and drives the rod to move the moving plate towards or away from the microwave body so as to insert the lugs into cavities to a desired depth and adjust a center frequency.

Claims

1. An indirect transmission type automatic frequency modulation filter, comprising: a microwave body, having a plurality of openings; a moving plate, having a board, a plurality of lugs, and a first moving member, and the lugs and the first moving member being formed on the board, and each cavity being configured to be corresponsive to each respective lug; a fastener, having a support base and a second moving member, and the support base being disposed at the microwave body, and the second moving member being configured to be corresponsive to the first moving member; and a motor unit, having a rod and a driver, a motor holder, installed at the microwave body, and the driver determining a clockwise rotation or a counterclockwise rotation, so as to drive the rod to move the moving plate towards or away from the microwave body, and adjust a center frequency by inserting the lugs to a depth of the cavities.

2. The indirect transmission type automatic frequency modulation filter according to claim 1, wherein the lugs are formed on a side of the board, and the first moving member is formed on the other side of the board.

3. The indirect transmission type automatic frequency modulation filter according to claim 1, wherein the first moving member is a guide pin and the second moving member is a guide hole, or the first moving member is a guide hole and the second moving member is a guide pin.

4. The indirect transmission type automatic frequency modulation filter according to claim 1, wherein the moving plate further includes a groove formed on the board, and the groove is broken to form a hole.

5. The indirect transmission type automatic frequency modulation filter according to claim 4, further comprising a moving plate, and the moving plate being broken to form a moving opening, and the moving opening being formed on a side of the groove, and the moving opening selectively having an internal thread formed thereon, and the moving opening being configured to be corresponsive to the hole, such that the moving opening is combined with an external thread of the rod.

6. The indirect transmission type automatic frequency modulation filter according to claim 1, wherein the moving plate further includes an embedded groove, and both sides of the embedded groove are selectively broken to form a hole each, and the holes selectively have an internal thread formed thereon.

7. The indirect transmission type automatic frequency modulation filter according to claim 6, further comprising a moving plate, and the moving plate being broken to form a moving opening, and the moving opening being formed at the embedded groove, and the moving opening selectively having an internal thread formed thereon, and the moving opening being configured to be corresponsive to the holes, for combining an external thread of the rod.

8. The indirect transmission type automatic frequency modulation filter according to claim 1, further comprising a return unit, and the return unit being installed between the fastener and the moving plate and provided for releasing a restoring force from the fastener to the moving plate.

9. The indirect transmission type automatic frequency modulation filter according to claim 1, wherein the driver receives an external frequency signal, and converts the external frequency signal into a drive signal to determine at least one selected from the group consisting of the angle of rotation, the quantity of turns, and the speed of the rod.

10. The indirect transmission type automatic frequency modulation filter according to claim 1, wherein the motor unit is a stepper motor.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0022] FIG. 1 is an exploded view of an indirect transmission type automatic frequency modulation filter in accordance with a first preferred embodiment of the present invention;

[0023] FIG. 2 is a cross-sectional view of the indirect transmission type automatic frequency modulation filter of FIG. 1;

[0024] FIG. 3 is a schematic view of an indirect transmission type automatic frequency modulation filter in accordance with a second preferred embodiment of the present invention; and

[0025] FIG. 4 is a schematic view of an indirect transmission type automatic frequency modulation filter in accordance with a third preferred embodiment of the present invention.

DETAILED DESCRIPTION OF THE INVENTION

[0026] The aforementioned and other objects, characteristics and advantages of the present invention will become apparent with the detailed description of the preferred embodiments and the illustration of related drawings as follows.

[0027] With reference to FIG. 1 for a schematic view of an indirect transmission type automatic frequency modulation filter in accordance with the first preferred embodiment of the present invention, the indirect transmission type automatic frequency modulation filter 10 comprises a microwave body 12, a moving plate 14, a fastener 16, and a motor unit 18.

[0028] The microwave body 12 includes a plurality of cavities 122, and the quantity of cavities 122 may be increased or decreased as needed. In this embodiment, the quantity of cavities 122 is equal to 6.

[0029] The moving plate 14 includes a board 142, a plurality of lugs 144, and a first moving member 146. In this embodiment, the lugs 144 is formed on a side of the board 142, and the first moving member 146 is formed on the other side of the board 142. In another embodiment, the lugs 144 and the first moving member 146 may be formed on the same side. The first moving member 146 may be a guide pin or a guide hole. In this embodiment, the first moving member 146 is a guide pin. The lugs 144 and the first moving member 146 are formed on the board 142. Wherein, the lugs 144 and the cavity 122 may be designed with a shape according to actual requirements. With reference to FIG. 2 for a cross-sectional view of an indirect transmission type automatic frequency modulation filter in accordance with the present invention, each cavity 122 is configured to be corresponsive to each lug 144.

[0030] The fastener 16 includes a support base 162 and a second moving member 164. The second moving member 164 may be a guide pin or a guide hole. In this embodiment, the second moving member 164 is a guide hole. The support base 162 is disposed at the microwave body 12. Wherein, the second moving member 164 is configured to be corresponsive to the first moving member 146.

[0031] The motor unit 18 includes a rod 182 and a driver 184. For example, the motor unit 18 is a stepper motor or a servomotor. The motor unit 18 is installed at the microwave body 12. The driver 184 determines a clockwise rotation or a counterclockwise rotation according to a drive signal DSN and allows the rod 182 to drive the moving plate 14 to move in a direction such as the +Y direction or Y direction. The rod 182 is driven to move the moving plate 14 towards or away from the microwave body 12, so as to determine the depth of the lugs 144 being inserted into the cavities 122 and adjust the center frequency of the filter. In another embodiment, the driver 184 may receive an external frequency signal, and the external frequency signal is converted into the drive signal DSN to determine at least one selected from the angle of rotation, the number of turns, and the speed of the rod 182.

[0032] It is noteworthy that while the motor unit 18 is driving the rod 182, the first moving member 146 is sheathed on the second moving member 164 to move the moving plate 14 steadily towards a direction (such as the vertical direction).

[0033] With reference to FIG. 3 for a schematic view of an indirect transmission type automatic frequency modulation filter in accordance with the second preferred embodiment of the present invention, the indirect transmission type automatic frequency modulation filter 10 further comprises a moving plate 14, a moving plate 20 and a return unit 22 in addition to the microwave body 12, the fastener 16 and the motor unit 18 of the first preferred embodiment.

[0034] The moving plate 14 further includes a groove 148. The groove 148 is formed on the board 142. The groove 148 is broken to form a hole 1410. The hole 1410 may or may not have an internal thread.

[0035] The moving plate 20 is broken to form a moving opening 202. The moving opening 202 is formed on a side of the groove 148. In this embodiment, the moving opening 202 has an internal thread formed thereon. The moving opening 202 is configured to be corresponsive to the hole 1410. The moving opening 202 is combined with an external thread of the rod 182.

[0036] The motor unit 18 may be rotated clockwise or counterclockwise to move the moving opening 202 towards the +Y direction or the Y direction.

[0037] The return unit 22 is installed between the filter body 12 (or the fastener 16) and the moving plate 14 and provided for releasing a restoring force from the filter body 12 (or the fastener 16) to the moving plate 14. The restoring force is provided for restoring the moving plate 14 to its initial position.

[0038] With reference to FIG. 4 for a schematic view of an indirect transmission type automatic frequency modulation filter in accordance with the third preferred embodiment of the present invention, the indirect transmission type automatic frequency modulation filter 10 further comprises a moving plate 14 and a moving plate 24, in addition to the microwave body 12, the fastener 16 and the motor unit 18 of the first preferred embodiment.

[0039] The moving plate 14 further includes an embedded groove 1412. Both sides of the embedded groove 1412 may selectively be broken to form a hole 1414. The holes 1414 may or may not have an internal thread. In this embodiment, a side of the moving plate 14 is broken to form the hole 1414.

[0040] The moving plate 24 is broken to form a moving blind hole 242. The moving blind hole is formed at the embedded groove embedded groove 1412. The moving blind hole 242 is configured to be corresponsive to the hole 1414 for combining the moving blind hole 242 with the external thread of the rod 182.

[0041] While the invention has been described by means of specific embodiments, numerous modifications and variations could be made thereto by persons skilled in the art without departing from the scope and spirit of the invention set forth in the claims.