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A bushing for positioning within a core barrel assembly during an up-hole drilling operation. The bushing has a wall with an inner surface and an outer surface. The inner surface defines an inlet, an outlet, and a central bore of the bushing. The central bore surrounds a longitudinal axis of the bus

A bushing for positioning within a core barrel assembly during an up-hole drilling operation. The bushing has a wall with an inner surface and an outer surface. The inner surface defines an inlet, an outlet, and a central bore of the bushing. The central bore surrounds a longitudinal axis of the bushing and extends between the inlet and the outlet. The outer surface has a first portion positioned proximate the inlet and a second portion positioned proximate the outlet. The first portion of the outer surface of the wall projects outwardly from the second portion of the outer surface relative to the longitudinal axis of the bushing such that the first portion of the outer surface defines opposed first and second shoulder surfaces extending substantially perpendicularly relative to the longitudinal axis. Core barrel head assemblies including such bushings are also described.

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1. A valve assembly for positioning within a core barrel assembly during an up-hole drilling operation, the valve assembly comprising: a bushing having a longitudinal axis and a wall, the wall having an inner surface and an outer surface, the inner surface defining an inlet, an outlet, and a central

1. A valve assembly for positioning within a core barrel assembly during an up-hole drilling operation, the valve assembly comprising: a bushing having a longitudinal axis and a wall, the wall having an inner surface and an outer surface, the inner surface defining an inlet, an outlet, and a central bore of the bushing, the central bore surrounding the longitudinal axis and extending between the inlet and the outlet of the bushing, the outer surface having a first portion positioned proximate the inlet of the bushing and a second portion positioned proximate the outlet of the bushing, wherein the first portion of the outer surface of the wall projects outwardly from the second portion of the outer surface relative to the longitudinal axis of the bushing such that the first portion of the outer surface defines opposed first and second shoulder surfaces extending substantially perpendicularly relative to the longitudinal axis, wherein the inner surface defines a projection positioned between the inlet and the outlet of the bushing within the central bore of the bushing, and wherein the outlet of the bushing has an inner diameter; anda piston moveable about and between a blocking position and an open position relative to the longitudinal axis of the bushing, wherein the piston has an end portion that remains within the central bore of the bushing as the piston moves about and between the blocking position and the open position, and wherein the end portion of the piston has a diameter greater than the inner diameter of the outlet of the bushing,wherein the inner surface of the wall of the bushing maintains the piston in the blocking position as the end portion of the piston moves axially between the projection of the bushing and the outlet of the bushing, and wherein, in the blocking position, the piston blocks fluid flow through the bushing. 2. The valve assembly of claim 1, wherein the first portion of the outer surface of the wall of the bushing defines a slot positioned between the first and second shoulder surfaces relative to the longitudinal axis of the bushing. 3. The valve assembly of claim 1, wherein the inlet of the bushing has an inner diameter, and wherein the projection has an inner diameter, the inner diameter of the inlet of the bushing being greater than the inner diameter of the projection of the bushing. 4. The valve assembly of claim 3, wherein at least a portion of the inner surface of the wall of the bushing between the inlet and the projection is inwardly tapered relative to the longitudinal axis of the bushing. 5. The valve assembly of claim 3, wherein the inner surface of the wall of the bushing defines a recess proximate the projection, the recess being positioned between the projection and the outlet of the bushing relative to the longitudinal axis of the bushing. 6. The valve assembly of claim 5, wherein the recess is configured to receive at least a portion of the end portion of the piston as the piston moves axially toward the inlet of the bushing, and wherein the end portion of the piston is configured to cooperate with the projection of the bushing to maintain the piston in the blocking position. 7. The valve assembly of claim 3, wherein the projection circumferentially surrounds the longitudinal axis of the bushing. 8. The valve assembly of claim 1, wherein, in the open position, the piston is positioned axially between the projection of the bushing and the inlet of the bushing and is disengaged from the inner surface of the bushing. 9. A core barrel assembly configured to be removably received within a drill string, the core barrel assembly having a longitudinal axis and comprising: a sleeve defining at least one fluid port and having an inner surface, the inner surface of the sleeve having an inner projection;a lower latch body removably coupled to the sleeve;a bushing positioned within the sleeve, the bushing having an inner surface and an outer surface, the inner surface defining an inlet, an outlet, and a central bore of the bushing, the central bore surrounding the longitudinal axis of the core barrel assembly and extending between the inlet and the outlet of the bushing, the outer surface having a first portion positioned proximate the inlet of the bushing and a second portion positioned proximate the outlet of the bushing, wherein the first portion of the outer surface of the bushing projects outwardly from the second portion of the outer surface relative to the longitudinal axis of the bushing such that the first portion of the outer surface defines opposed first and second shoulder surfaces extending substantially perpendicularly relative to the longitudinal axis, wherein the inner surface defines a projection positioned between the inlet and the outlet of the bushing within the central bore of the bushing, and wherein the outlet of the bushing has an inner diameter; anda piston moveable about and between a blocking position and an open position relative to the longitudinal axis of the core barrel assembly, wherein the piston has an end portion that remains within the central bore of the bushing as the piston moves about and between the blocking position and the open position, and wherein the end portion of the piston has a diameter greater than the inner diameter of the outlet of the bushing,wherein at least a portion of the outer surface of the bushing is configured for engagement with the inner surface of the sleeve,wherein the first shoulder surface of the bushing is configured for engagement with the lower latch body,wherein the second shoulder surface of the bushing is configured for engagement with the inner projection of the sleeve, andwherein the inner surface of the bushing maintains the piston in the blocking position as the end portion of the piston moves axially between the projection of the bushing and the outlet of the bushing, and wherein, in the blocking position, the piston blocks fluid flow through the bushing. 10. The core barrel assembly of claim 9, wherein the lower latch body defines an outlet in communication with the inlet of the bushing. 11. The core barrel assembly of claim 9, wherein the inner projection of the sleeve is positioned proximate a first fluid port of the at least one fluid port such that the outlet of the bushing is in fluid communication with the first fluid port. 12. The core barrel assembly of claim 9, wherein, in the open position, the piston is positioned axially between the projection of the bushing and the inlet of the bushing and is disengaged from the inner surface of the bushing. 13. The core barrel assembly of claim 12, wherein the inlet of the bushing has an inner diameter, and wherein the projection of the bushing has an inner diameter, the inner diameter of the inlet of the bushing being greater than the inner diameter of the projection of the bushing. 14. The core barrel assembly of claim 13, wherein at least a portion of the inner surface of the bushing between the inlet and the projection of the bushing is inwardly tapered relative to the longitudinal axis of the core barrel assembly. 15. The core barrel assembly of claim 12, wherein the inner surface of the bushing defines a recess proximate the projection of the bushing, the recess being positioned between the projection of the bushing and the outlet of the bushing relative to the longitudinal axis of the core barrel assembly. 16. The core barrel assembly of claim 15, wherein the recess of the bushing is configured to receive at least the end portion of the piston as the piston moves axially toward the inlet of the bushing, and wherein the end portion of the piston is configured to cooperate with the projection of the bushing to maintain the piston in the blocking position. 17. The core barrel assembly of claim 12, wherein the projection of the bushing circumferentially surrounds the longitudinal axis of the core barrel assembly. 18. The core barrel assembly of claim 12, further comprising a driven latch mechanism configured for movement about and between a retracted position in which the driven latch mechanism is disengaged from the drill string and a deployed position in which the driven latch mechanism engages the drill string to prevent rotation of the core barrel assembly relative to the drill string, wherein the piston is operatively coupled to the driven latch mechanism such that the piston is positioned in the blocking position when the driven latch mechanism is in the retracted position. 19. The core barrel assembly of claim 9, wherein the first portion of the outer surface of the bushing defines a slot positioned between the first and second shoulder surfaces relative to the longitudinal axis of the core barrel assembly.