Transmission mechanism for base station antenna and base station antenna

The invention claimed is: 1. A transmission mechanism for a base station antenna, including a motor and at least one connecting rod, wherein a gear mechanism is provided on a first end of the connecting rod, and the motor drives the connecting rod to rotate via the gear mechanism; wherein a worm gear unit is provided on a second end of the connecting rod opposite to the first end, and the worm gear unit is configured to drive a movable element of a phase shifter when the connecting rod rotates; and wherein the gear mechanism includes a driving gear and a driven gear, the driving gear is configured to be driven by the motor, and the driving gear is meshed and connected with the driven gear to drive the connecting rod to rotate via the driven gear. 2. The transmission mechanism for a base station antenna according to claim 1 , wherein each of the driving gear and the driven gear is configured as a helical gear, and a rotation axis of the driving gear and a rotation axis of the driven gear are configured to be perpendicular to each other. 3. The transmission mechanism for a base station antenna according to claim 1 , wherein the motor includes an output shaft that extends along an axial direction of the connecting rod, another driving gear is mounted on an end of the output shaft, and the other driving gear is meshed and connected with the driving gear of the gear mechanism to drive the driving gear of the gear mechanism to rotate. 4. The transmission mechanism for a base station antenna according to claim 1 , wherein the worm gear unit includes a worm and a toothed arc-shaped connecting member meshed and connected with the worm, the worm is mounted on the second end of the connecting rod and extends along the axial direction of the connecting rod, and the movable element of the phase shifter is fixedly connected with the arc-shaped connecting member on a side surface of the arc-shaped connecting member. 5. The transmission mechanism for a base station antenna according to claim 4 , wherein the worm gear unit includes a pair of arc-shaped connecting members, a first arc-shaped connecting member and a second arc-shaped connecting member of the pair of arc-shaped connecting members are arranged opposite to each other on both sides of the worm and are substantially in the same horizontal plane as the worm. 6. The transmission mechanism for a base station antenna according to claim 5 , wherein the inclined direction of teeth of the first arc-shaped connecting member and the inclined direction of teeth of the second arc-shaped connecting member of the pair of arc-shaped connecting members are opposite to each other. 7. The transmission mechanism for a base station antenna according to claim 1 , wherein the transmission mechanism further includes a supporting member for supporting the gear mechanism and/or the worm gear unit. 8. The transmission mechanism for a base station antenna according to claim 7 , wherein the supporting member includes a base and a ring-shaped body on the base, and the ring-shaped body includes an annular channel for accommodating the gear of the gear mechanism and/or an end of the worm gear unit. 9. The transmission mechanism for a base station antenna according to claim 8 , wherein the ring-shaped body is configured as a flexible member and includes a cutout so that the annular channel of the ring-shaped body can expand and/or shrink. 10. The transmission mechanism for a base station antenna according to claim 1 , wherein the transmission mechanism includes a plurality of connecting rods which are arranged in parallel, the gear mechanism is provided on a first end of each connecting rod, and the worm gear unit is provided on a second end of each connecting rod. 11. The transmission mechanism for a base station antenna according to claim 10 , wherein the plurality of connecting rods is driven by the single motor to rotate synchronously. 12. The transmission mechanism for a base station antenna according to claim 10 , wherein the transmission mechanism further includes another gear mechanism, and the motor synchronously drives the gear mechanism provided at the first end of each connecting rod via the other gear mechanism, so that the plurality of connecting rods rotates synchronously. 13. The transmission mechanism for a base station antenna according to claim 12 , wherein the other gear mechanism and the gear mechanism provided at the first end of each connecting rod each include a driving gear and a driven gear meshed and connected with each other, the driving gear of the other gear mechanism is fixed at one end of the output shaft of the motor, and the driven gear of the other gear mechanism and the driving gear of the gear mechanism provided at the first end of each connecting rod are fixedly mounted on the same drive shaft. 14. The transmission mechanism for a base station antenna according to claim 13 , wherein each of the driving gear and the driven gear is configured as a helical gear, and a rotation axis of the driving gear and a rotation axis of the corresponding driven gear are configured to be perpendicular to each other. 15. The transmission mechanism for a base station antenna according to claim 13 , wherein the drive shaft extends in a direction perpendicular to the connecting rod. 16. The transmission mechanism for a base station antenna according to claim 13 , wherein the drive shaft is made of glass fiber. 17. The transmission mechanism for a base station antenna according to claim 1 , wherein the connecting rod is made of glass fiber. 18. The transmission mechanism for a base station antenna according to claim 17 , wherein the connecting rod has a non-circular cross-section. 19. A base station antenna comprising the transmission mechanism of claim 1 .