Variable-pitch rotor with remote counterweights

What is claimed is: 1. A pitch control mechanism, comprising: a rotor structure configured for rotation about a longitudinal axis; a row of blades carried by the rotor structure, each blade having an airfoil and a trunnion mounted for pivoting movement relative to the rotor structure, about a trunnion axis which is perpendicular to the longitudinal axis; a unison ring interconnecting the blades; an actuator connected to the unison ring and the rotor structure, operable to move the unison ring relative to the rotor structure; at least on moveable counterweight carried by the rotor structure, remote from the blades; and an interconnection between the blades and the at least one counterweight, such that movement of the at least one counterweight causes a change in the pitch angle of the blades, wherein the rotor structure carries an array of counterweight assemblies comprising at least one pinion gear, and wherein the at least one pinion gear is engaged with a ring gear that is part of the unison ring and with a sun gear that is stationary relative to the rotor structure. 2. The pitch control mechanism of claim 1 wherein the actuator is configured to produce rotary movement between the rotor structure and the unison ring. 3. The pitch control mechanism of claim 1 wherein the unison ring and the at least one counterweight are interconnected by gears. 4. The pitch control mechanism of claim 1 wherein the array of counterweight assemblies further comprises: at least one pinion shaft, and the at least one counterweight with an offset mass. 5. The pitch control mechanism of claim 1 wherein the at least one pinion gear is meshed with a ring gear that is part of the unison ring. 6. The pitch control mechanism of claim 1 wherein each of the at least one counterweight includes a hollow shell with a slug therein. 7. The pitch control mechanism of claim 1 wherein each trunnion is connected to the unison ring with a yoke. 8. The pitch control mechanism of claim 7 wherein each yoke includes a pin that engages a pivot hole in a slider that is mounted for longitudinal sliding movement in the unison ring. 9. The pitch control mechanism of claim 7 wherein the trunnions are connected to the unison ring by a geared connection. 10. The pitch control mechanism of claim 1 wherein the counterweights are mounted to a pinion shaft that rotates about a radial axis. 11. The pitch control mechanism of claim 1 wherein the trunnions are connected to the unison ring by a geared connection. 12. The pitch control mechanism of claim 1 wherein the actuator is configured to move the rotor structure and the unison ring linearly relative to each other. 13. The pitch control mechanism of claim 1 wherein: the actuator is configured to move the rotor structure and the unison ring linearly relative to each other; and the trunnions are connected to the counterweights by a geared connection. 14. The pitch control mechanism of claim 13 wherein each trunnion is connected to the unison ring with a yoke. 15. The pitch control mechanism of claim 1 wherein: the actuator is configured to move the rotor structure and the unison ring linearly relative to each other; and the counterweights are connected to the actuator by a geared connection. 16. The pitch control mechanism of claim 15 wherein each trunnion is connected to the unison ring with a yoke. 17. The pitch control mechanism of claim 1 , wherein the pitch angle is variable between a fine pitch angle and a coarse pitch angle, and the counterweights are configured to drive the pitch angle towards the coarse pitch angle. 18. A gas turbine engine, comprising: a turbomachinery core operable to produce a core gas flow; a low pressure turbine positioned downstream of the turbomachinery core; an inner shaft coupled to the low pressure turbine; a rotor structure coupled to the inner shaft; a row of blades carried by the rotor structure, each blade having an airfoil and a trunnion mounted for pivoting movement relative to the rotor structure, about a trunnion, axis which is perpendicular to the longitudinal axis; a unison ring interconnecting the blades; an actuator connected to the unison ring and the rotor structure, operable to move the unison ring relative to the rotor structure; at least one moveable counterweight carried by the rotor structure, remote from the blades; and an interconnection between the blades and the at least one counterweight, such that movement of the at least one counterweight causes a change in the pitch angle of the blades, wherein the rotor structure carries an array of counterweight assemblies comprising at least one pinion gear, and wherein the at least one pinion gear is engaged with a ring gear that is part of the unison ring and with a sun gear that is stationary relative to the rotor structure. 19. The gas turbine engine of claim 18 wherein the pitch angle is variable between a fine pitch angle and a coarse pitch angle, and the at least one counterweight is configured to drive the pitch angle towards the coarse pitch angle.