Linear drive assembly

The invention claimed is: 1. A kit, comprising: a crosshead guide having a longitudinal bore formed therein, the crosshead guide defining a wear indicator groove formed within a wall of the longitudinal bore; a linear drive assembly configured to be installed within the longitudinal bore of the crosshead guide, the linear drive assembly comprising upper and lower surfaces; a first wear plate, configured for removable attachment to the upper surface of the linear drive assembly, the first wear plate defined by an inner surface conforming to the upper surface of the linear drive assembly, an outer surface and a front edge, wherein: at least one lubricant groove is formed within the outer surface of the first wear plate; a lubricant port interconnects the inner surface to the outer surface and intersects the at least one lubricant groove; and at least one wear groove is formed in the outer surface of the first wear plate, the at least one wear groove being distinct from the at least one lubricant groove; in which the wear indicator groove is observable when the linear drive assembly is installed within the crosshead guide. 2. The kit of claim 1 in which the at least one wear groove extends from the front edge of the first wear plate. 3. The kit of claim 1 in which the at least one wear groove is not in fluid communication with the lubricant groove. 4. The kit of claim 1 further comprising: a second wear plate, corresponding to and configured for removable attachment to the lower surface of the linear drive assembly, the second wear plate defined by an inner surface conforming to the lower surface of the linear drive assembly, an outer surface, and a front edge, wherein: at least one lubricant groove is formed within the outer surface of the second wear plate; and at least one wear groove is formed in the outer surface of the second wear plate, the at least one wear groove being distinct from the at least one lubricant groove. 5. An apparatus comprising: the kit of claim 4 , wherein: the linear drive assembly is installed within the crosshead guide; the first wear plate is attached to the upper surface; and the second wear plate is attached to the lower surface of the linear drive assembly. 6. The apparatus of claim 5 , wherein the at least one wear groove of the first wear plate and the at least one wear groove of the second wear plate are observable from an outside of the crosshead guide when the linear drive assembly is installed within the crosshead guide. 7. The kit of claim 1 in which the wear indicator groove has a depth of between 0.050 and 0.075 inches. 8. The kit of claim 1 wherein the at least one wear groove has a depth of between 0.050 and 0.075 inches. 9. The kit of claim 1 wherein the lubricant groove is defined by a first portion and at least one second portion, wherein the first portion is parallel to the longitudinal bore, and wherein the at least one second portion intersects the first portion and is substantially perpendicular to the first portion. 10. A power end assembly comprising: a crosshead section comprising at least one crosshead guide having an inwardly-facing wall; a linear drive assembly, comprising: a crosshead configured to be installed within the at least one crosshead guide, the crosshead comprising upper and lower surfaces; and a pair of wear plates, each wear plate removably attached to a corresponding one of the upper and lower surface of the crosshead, each wear plate having an outer surface and a front edge and comprising: at least one lubricant groove formed in the outer surface of the wear plate, the at least one lubricant groove in fluid communication with lubricant ports formed in the crosshead; and at least one plate wear groove formed in the outer surface of the wear plate, the plate wear groove distinct from the at least one lubricant groove and not in fluid communication with any lubricant port formed in the crosshead; in which the at least one plate wear groove opens on the front edge of the wear plate; in which the linear drive assembly is installed within the at least one crosshead guide such that the front edge of the at least one wear plate is observable when installed within the at least one crosshead guide; in which the at least one crosshead guide further comprises: a crosshead bore sized to receive the linear drive assembly; and a guide wear groove formed in the inwardly-facing wall of the at least one crosshead guide surrounding the crosshead bore and observable when the linear drive assembly is installed within the at least one crosshead guide. 11. The power end of claim 10 wherein the guide wear groove has a depth between 0.050 and 0.075 inches. 12. A method of using the power end assembly of claim 10 comprising: without removing the linear drive assembly from the at least one crosshead guide, observing the front edge of the at least one wear plate; and if the plate wear groove is not observable, replacing the at least one wear plate. 13. The method of claim 12 further comprising: if the plate wear groove is observable, measuring a depth of the plate wear groove; and estimating a remaining life of the wear plate based upon the measured depth of the plate wear groove. 14. The method of claim 12 further comprising: observing the guide wear groove; and if the guide wear groove is not observable, replacing the at least one crosshead guide. 15. The method of claim 14 further comprising; if the guide wear groove is observable, measuring a depth of the guide wear groove; and estimating a remaining life of the at least one crosshead guide based upon the measured depth of the guide wear groove. 16. The power end of claim 10 in which the guide wear groove is circumferential.