Linkage to actuate inlet guide vanes

The invention claimed is: 1. An actuation linkage assembly, comprising: a shaft including a first end and a second end opposite the first end; a first lever arm including a first end and a second end, the first end of the first lever arm is connected to the first end of the shaft, the second end of the first lever arm is configured to receive a linear actuating motion so as to rotate the first lever arm, thereby rotating the shaft; a second lever arm including a first end and a second end, the first end of the second lever arm is connected to the second end of the shaft, the first end of the second lever arm is configured to receive a rotating motion of the shaft so as to rotate the second lever arm; a transition linkage including a first end and a second end, the first end of transition linkage is connected to the second end of the second lever arm, the first end of the transition linkage is configured to receive the rotating motion of the second lever arm, the second end is configured to transmit a linear motion through the transition linkage; and a bracket connected to the second end of the transition linkage, and configured to receive the linear motion of the second end of the transition linkage. 2. The actuation linkage assembly of claim 1 , wherein the first lever arm is adjustable relative to the shaft and the second lever arm is fixed relative to the shaft. 3. The actuation linkage assembly of claim 1 , wherein the shaft includes an axis, the first lever arm and the second lever arm are oriented about the axis of the shaft, such that when an amount of rotation of the first lever arm rotates the shaft, the amount of rotation of the second lever arm is the same as the amount of rotation of the first lever arm. 4. The actuation linkage assembly of claim 1 , further comprising an actuator connected to the first lever arm. 5. The actuation linkage assembly of claim 4 , wherein the actuator is a linear actuator. 6. The actuation linkage assembly of claim 1 , wherein the second lever arm extends outward from the shaft at a distance that is shorter than a distance that the first lever arm extends outward from the shaft. 7. The actuation linkage assembly of claim 1 , wherein the transition linkage includes a connector at the first end and a connector at the second end with a main body therebetween, the connector at the first end receives the rotating motion of the second lever arm to move the main body in a linear motion, and the connector at the second end receives the linear motion transmitted through the main body. 8. The actuation linkage assembly of claim 7 , wherein the transition linkage includes the main body being a rod, and the connectors are ties. 9. The actuation linkage assembly of claim 1 , wherein the transition linkage is a tie rod structure having a rotational tie as the connector at the first end and a linear tie as the connector at the second end. 10. The actuation linkage assembly of claim 1 , wherein the transition linkage is a spherical rod end bearing that is configured to receive an axial rotational movement through the second lever arm from the shaft to linearly drive the bracket, which rotates a driver ring which rotates a small lever on the driver ring to drive guide vanes. 11. The actuation linkage assembly of claim 1 , wherein the bracket has a concave curvature on one or more sides. 12. The actuation linkage assembly of claim 11 , wherein the concave curvature provides a clearance relative to one or more movable guide vane assembly components. 13. The actuation linkage assembly of claim 1 , wherein the bracket has a convex or outward curvature on one or more sides, of which facilitates linear motion of the bracket as received by the transition linkage. 14. A compressor comprising the actuation linkage assembly of claim 1 . 15. The compressor of claim 14 , wherein the compressor is a centrifugal compressor, and the actuation linkage assembly is implemented as a part of an inlet guide vane assembly of the centrifugal compressor. 16. The compressor of claim 14 , wherein the compressor is a part of a chiller unit. 17. The compressor of claim 16 , wherein the chiller unit is part of a HVAC system or refrigeration system. 18. A method for actuating guide vanes includes receiving a rotating axial motion by a transition linkage, comprising: receiving a rotational motion by a transition linkage, transmitting a linear motion through the transition linkage; receiving the linear motion by a bracket; transmitting the linear motion through the bracket; rotating a driver ring connected to the bracket, and rotating one or more guide vanes to one or more open states or one or more relatively closed states.