Linkage assembly

What is claimed is: 1. A linkage assembly which couples a plunger of an actuator to a manually operated input member, the linkage assembly comprising: a pushrod comprising a blind bore which opens towards the plunger; and a resilient member coupled to the pushrod and received by the blind bore, an end face of the resilient member being engagable with an end face of the plunger when the pushrod is spaced apart from the plunger, the end face of the resilient member being external to the blind bore when the pushrod is spaced from the plunger, the resilient member deforming to allow an end face of the pushrod to directly engage the end face of the plunger when the pushrod is moved towards the plunger, and the end face of the resilient member being completely radially encapsulated by the blind bore when the end face of the pushrod directly engages the end face of the plunger. 2. The linkage assembly of claim 1 , wherein: the resilient member comprises a sleeve which receives and is in contact with an end portion of the pushrod, and the sleeve is a solid annular cylinder. 3. The linkage assembly of claim 1 , wherein: the pushrod comprises a larger diameter main body and a smaller diameter end portion; and the resilient member comprises a sleeve which receives and is in contact with the end portion of the pushrod, and the sleeve is a solid annular cylinder. 4. The linkage assembly of claim 3 , wherein: the sleeve has an axial length which is longer than an axial length of the end portion when the pushrod is spaced apart from the plunger, and the sleeve has an axial length which is equivalent to the axial length of the end portion when the end face of the pushrod directly engages the end face of the plunger. 5. The linkage assembly of claim 3 , wherein: the end portion is joined to the main body by an annular shoulder; and an end of the sleeve engages the shoulder. 6. The linkage assembly of claim 1 , wherein: the blind bore comprises a larger diameter outer bore and a smaller diameter inner bore, the outer bore and the inner bore both face radially inwards towards the resilient member; and the resilient member comprises an axially inner part and an axially outer part, the inner part engaging a wall of the inner bore. 7. The linkage assembly of claim 6 , wherein: the outer part is spaced apart from a wall of the outer bore. 8. The linkage assembly of claim 1 , wherein: the resilient member has an axial length which is longer than an axial length of the blind bore when the pushrod is spaced apart from the plunger, and the resilient member has an axial length which is equivalent to the axial length of the blind bore when the end face of the pushrod directly engages the end face of the plunger. 9. The linkage assembly of claim 1 , wherein: the resilient member has an inner end which is received and compressed by an inner end of the blind bore. 10. The linkage assembly of claim 1 , wherein: the resilient member has a polygonal cross-sectional shape. 11. The linkage assembly of claim 10 , wherein: the resilient member has corners which engage a wall of the blind bore. 12. The linkage assembly of claim 10 , wherein: the blind bore comprises a larger diameter outer bore and a smaller diameter inner bore; and the smaller diameter inner bore has a diameter which is smaller than a corner to corner dimension of the resilient member. 13. The linkage assembly of claim 10 , wherein: the resilient member has a quadrilateral polygonal cross-sectional shape. 14. The linkage assembly of claim 12 , wherein: the resilient member has corners which engage a wall of the blind bore. 15. The linkage assembly of claim 1 , wherein: the actuator comprises a brake valve and the input member comprises a manually operated brake input member. 16. A linkage assembly which couples a plunger of an actuator to a manually operated input member, the linkage assembly comprising: a pushrod comprising a larger diameter main body and a smaller diameter end portion; and a resilient member coupled to the pushrod, the resilient member comprising a sleeve which receives and is in contact with the end portion of the pushrod, the sleeve being a solid annular cylinder, an end face of the resilient member being engagable with an end face of the plunger when the pushrod is spaced apart from the plunger, the sleeve having an axial length which is longer than an axial length of the end portion when the pushrod is spaced from the plunger, the resilient member deforming to allow an end face of the pushrod to directly engage the end face of the plunger when the pushrod is moved towards the plunger, and the sleeve having an axial length which is equivalent to the axial length of the end portion when the end face of the pushrod directly engages the end face of the plunger.