Accessible work cell

What is claimed is: 1. An accessible work cell comprising: a plurality of walls defining at least one work zone; a welding robot configured to perform a welding operation within the at least one work zone; and at least one pair of sliding doors that provides access to the at least one work zone, the at least one pair of sliding doors including an upper sliding door and a lower sliding door, wherein the upper sliding door is operatively connected to the lower sliding door such that movement of the upper sliding door in a first direction will cause the lower sliding door to move in a second direction opposite to the first direction, wherein the at least one work zone includes at least a first work zone and a second work zone, and the accessible work cell further comprises a second pair of sliding doors, wherein the second pair of sliding doors provides access to the second work zone, and includes a second upper sliding door and a second lower sliding door, the second upper sliding door being operatively connected to the second lower sliding door such that movement of the second upper sliding door in a first direction will cause the second lower sliding door to move in a second direction opposite to the first direction, wherein the welding robot is disposed between the first work zone and the second work zone, and wherein the accessible work cell further comprises a first movable shield disposed on a first side of the welding robot between the welding robot and the first work zone, and a second movable shield disposed on a second side of the welding robot between the welding robot and the second work zone, the first moveable shield and the second moveable shield defining an area between the first work zone and the second work zone, the area separating the first work zone from the second work zone, and the welding robot being disposed in the area between the first movable shield and the second movable shield, wherein the first movable shield is slidably movable between upward and downward positions along a first vertical post and the second movable shield is slidably movable between upward and downward positions along a second vertical post, and the first movable shield is held in its upward position at the first vertical post and the second movable shield is held in its downward position at the second vertical post while the welding robot performs a welding operation in the second work zone, and the first movable shield is held in its downward position at the first vertical post and the second movable shield is held in its upward position at the second vertical post while the welding robot performs another welding operation in the first work zone, the accessible work cell further comprising a fume hood having a plurality of walls and an angled ceiling angled to direct fumes toward an exhaust duct of the fume hood, the fume hood further comprising at least one hinged door disposed in the angled ceiling, and at least one actuator for operating the at least one hinged door, the at least one hinged door providing vertical access from exterior of the fume hood and through the angled ceiling to at least one of the first work zone and the second work zone. 2. The accessible work cell of claim 1 , further comprising an access panel disposed on one of the plurality of walls of the accessible work cell. 3. The accessible work cell of claim 2 , wherein the access panel has a plurality of indicators and a plurality of controls disposed on an exterior side. 4. The accessible work cell of claim 3 , wherein the access panel is hingedly connected to the one of the plurality of walls of the accessible work cell, and wherein a printed circuit board assembly is disposed on an interior side of the access panel and is electrically connected to the plurality of indicators. 5. The accessible work cell of claim 1 , wherein each of the first pair of sliding doors and the second pair of sliding doors are disposed on a first side of the accessible work cell. 6. The accessible work cell of claim 5 , further comprising a pair of hinged doors on a second side of the accessible work cell opposite the first side, wherein the pair of hinged doors provide access to the first work zone and the second work zone. 7. The accessible work cell of claim 1 , further comprising a reamer disposed between the first movable shield and the second movable shield, wherein the first movable shield is held in its upward position at the first vertical post and the second movable shield is held in its upward position at the first vertical post while the welding robot engages the reamer. 8. A robotic welding cell comprising: a plurality of walls defining at least two work areas, including a first work area and a second work area; a robot disposed between the first work area and the second work area; a first movable shield disposed between the robot and the first work area; a second movable shield disposed between the robot and the second work area; the first moveable shield and the second moveable shield defining a zone between the first work area and the second work area, the zone separating the first work area from the second work area, wherein the robot is disposed is the zone between the first movable shield and the second movable shield; and at least two doors, including a first compound door and a second compound door, disposed on a first side of the robotic welding cell, wherein the first compound door provides access to the first work area and the second compound door provides access to the second work area, wherein the first movable shield and the second movable shield are slidably movable between respective upward and downward positions along respective first and second vertical posts, and the first movable shield is held in its upward position at the first vertical post and the second movable shield is held in its downward position at the second vertical post while the robot performs a welding operation in the second work area, and the first movable shield is held in its downward position at the first vertical post and the second movable shield is held in its upward position at the second vertical post while the robot performs another welding operation in the first work area, the robotic welding cell further comprising a fume hood having a plurality of walls and an angled ceiling angled to direct fumes from a lower portion of the angled ceiling toward an upper portion of the angled ceiling and further toward an exhaust duct of the fume hood, the fume hood further comprising at least one hinged door disposed in the angled ceiling, the at least one hinged door comprising a hinge extending along an edge thereof between the lower portion of the angled ceiling and the upper portion of the angled ceiling, the fume hood further comprising at least one actuator for operating the at least one hinged door to rotate about the hinge, the at least one hinged door providing vertical access from exterior of the fume hood and through the angled ceiling to at least one of the first work area and the second work area. 9. The robotic welding cell of claim 8 , wherein the first compound door is a first bi-fold door and the second compound door is a second bi-fold door. 10. The robotic welding cell of claim 9 , further comprising: a first paddle bar operatively connected to a first bottom portion of the first bi-fold door and configured to sweep the first work area when the first bi-fold door moves between an opened position and a closed position; and a second paddle bar operatively connected to a second bottom portion of the second bi-fold door and configured to sweep the second work area when the second bi-fold door moves between an opened position and a closed position.