Battery guide blocks for a battery receiving space of a materials handling vehicle, and materials handling vehicles incorporating the same

What is claimed is: 1. A materials handling vehicle comprising a materials handling mechanism, a drive mechanism, a battery receiving space, and a removable battery assembly, wherein: the materials handling mechanism is configured to engage goods in a warehouse environment and cooperates with the drive mechanism, under power from the removable battery assembly, to move goods along an inventory transit surface in the warehouse environment; the removable battery assembly and the battery receiving space cooperate to define a battery insertion and removal axis along which the removable battery assembly is inserted into and removed from the battery receiving space; the removable battery assembly comprises lateral battery faces, each comprising a longitudinal guide structure that is oriented along the battery insertion and removal axis; the battery receiving space comprises opposing guide blocks, each arranged on opposite sides of the battery receiving space, and each comprising a securement portion and a replaceable portion; the replaceable portion of each guide block comprises a friction-inducing surface and a guiding surface; each friction-inducing surface extends along the battery insertion and removal axis, parallel to and facing an opposing one of the lateral battery faces, with the removable battery assembly seated in the battery receiving space; and each guiding surface extends along the battery insertion and removal axis, perpendicular to the lateral battery faces and facing an opposing surface of the longitudinal guide structure, with the removable battery assembly seated in the battery receiving space. 2. The materials handling vehicle of claim 1 , wherein the friction-inducing and guiding surfaces of each replaceable portion of each guide block face an opposing surface of the removable battery assembly or the longitudinal guide structure without interference from the securement portions of each guide block, with the removable battery assembly seated in the battery receiving space. 3. The materials handling vehicle of claim 2 , wherein: the friction-inducing surface of each replaceable portion of each guide block extends discontinuously in a direction along the battery insertion and removal axis and faces the opposing lateral battery face in a perpendicular direction, with the removable battery assembly seated in the battery receiving space; and the guiding surface of each replaceable portion of each guide block extends continuously in the direction and faces the opposing surface of the longitudinal guide structure in a perpendicular direction, with the removable battery assembly seated in the battery receiving space. 4. The materials handling vehicle of claim 3 , wherein: the longitudinal guide structure of the lateral battery face is configured as a stepped guide channel comprising a one-sided channel portion that transitions to a two-sided channel portion at a channel shoulder; and the replaceable portion of each guide block comprises a chamfered leading portion, the chamfered leading portion facing the channel shoulder in the longitudinal guide structure. 5. The materials handling vehicle of claim 2 , wherein the replaceable portion of each guide block comprises a lower surface hardness and higher surface friction, relative to the securement portion. 6. The materials handling vehicle of claim 2 , wherein the friction-inducing surfaces of each replaceable portion of each guide block are raised, relative to the securement portions and remaining portions of the replaceable portions of each guide block, in the direction of the opposing the lateral battery faces. 7. The materials handling vehicle of claim 2 , wherein the friction-inducing surfaces of each replaceable portion of each guide block comprises a series of friction-inducing ridges oriented across the battery insertion and removal axis. 8. The materials handling vehicle of claim 2 , wherein: the securement portion of each guide block is secured to the materials handling vehicle; and the replaceable portion of each guide block is seated within the securement portion, and is removable from the securement portion without destruction of the securement portion. 9. The materials handling vehicle of claim 8 , wherein the securement portion of each guide block is configured as a bracket from which the replaceable portion of each guide block extends to define the friction-inducing and guiding surfaces. 10. The materials handling vehicle of claim 9 , wherein: the longitudinal guide structure of the lateral battery face is configured as a stepped guide channel comprising a one-sided channel portion that transitions to a two-sided channel portion at a channel shoulder; and the replaceable portion of each guide block comprises a chamfered leading portion, the chamfered leading portion facing the channel shoulder in the longitudinal guide structure. 11. The materials handling vehicle of claim 1 , wherein each longitudinal guide structure of the lateral battery faces comprises a one-sided channel portion that comprises the opposing surface facing the guiding surface of the guide block, with the removable battery assembly seated in the battery receiving space. 12. The materials handling vehicle of claim 1 , wherein: the longitudinal guide structure of the lateral battery face is configured as a stepped guide channel comprising a one-sided channel portion that transitions to a two-sided channel portion at a channel shoulder; and the one-sided channel portion of the longitudinal guide structure comprises the opposing surface facing the guiding surface of the guide block, with the removable battery assembly seated in the battery receiving space. 13. The materials handling vehicle of claim 12 , wherein: the one-sided and two-sided channel portions of the longitudinal guide structure extend in a direction along the battery insertion and removal axis; each friction-inducing surface faces an opposing one of the lateral battery faces in a perpendicular direction, with the removable battery assembly seated in the battery receiving space; each guiding surface faces an opposing surface of the longitudinal guide structure in a perpendicular direction, with the removable battery assembly seated in the battery receiving space; and the replaceable portion of each guide block comprises a chamfered leading portion that faces a channel shoulder of the longitudinal guide structure, in the direction. 14. The materials handling vehicle of claim 12 , wherein the removable battery assembly further comprises a pair of spring-loaded locking pins, each disposed in one of the two-sided channel portions of the longitudinal guide structure. 15. The materials handling vehicle of claim 14 , wherein the battery receiving space comprises a pair of battery latches positioned on opposite sides of the battery receiving space, to receive a leading portion of a corresponding one of the pair of spring-loaded locking pins with the removable battery assembly seated in the battery receiving space. 16. The materials handling vehicle of claim 15 , wherein each opposing guide block is positioned along the battery insertion and removal axis to engage the channel shoulder of one of the longitudinal guide structures with the removable battery assembly seated in the battery receiving space and the leading portions of the pair of spring-loaded locking pins received within the pair of battery latches. 17. The materials handling vehicle of claim 1 , wherein: the friction-inducing and guiding surfaces of each replaceable portion of each guide block face an oppo