Automatic charge hearth access door assembly

What is claimed is: 1. Automatic charge hearth access door assembly for a melting furnace comprising: an access door movable between a closed position for covering a furnace opening located on a face of the furnace and an opened position for providing access to the furnace opening; a latch mechanism configured to automatically secure the access door to the face of the furnace in the closed position; and an open-and-close drive assembly including a motor and arm operably connected to the motor and the access door, the open-and-close drive assembly configured to automatically move the access door relative to the face of the furnace between the closed position and opened position and simultaneously move the access door relative to the arm. 2. The assembly of claim 1 , wherein the latch mechanism is configured to engage the access door in four spaced locations about a periphery of the access door thereby creating a seal between the access door and the face of the furnace. 3. The assembly of claim 2 , wherein the latch mechanism includes four spaced clamps and at least one actuating device operably connected to the clamps for immediately moving the clamps into engagement with the access door when the access door is in the closed position. 4. The assembly of claim 3 , wherein the at least one actuating device is at least one high temperature pneumatic cylinder having a piston rod operably connected to at least one shaft having the clamps mounted thereto, movement of the piston rod rotating the shaft, and, in turn, moving the clamps. 5. The assembly of claim 1 , wherein the arm of the open-and-close drive assembly has a proximal end portion pivotally connected to the motor and a distal end portion pivotally connected to the access door, the arm at least partially housing a drive mechanism of the open-and-close drive assembly. 6. The assembly of claim 5 , wherein the drive mechanism includes a sprocket and chain drive that operates in conjunction with movement of the arm via operation of the motor. 7. The assembly of claim 6 , wherein the sprocket and chain drive includes a first sprocket fixedly connected to a first pivot located at the proximal end portion of the arm, a second sprocket connected to a second pivot located at the distal end portion of the arm, the second sprocket rotating with the second pivot, and a drive chain engaged to the first and second sprockets. 8. The assembly of claim 7 , wherein the proximal end portion of the arm is connected to the first pivot and the access door is connected to the second pivot, wherein the arm rotates about the first pivot, and rotation of the arm rotates the second sprocket and second pivot via the drive chain, rotation of the second pivot rotating the access door. 9. The assembly of claim 7 , wherein the motor includes an output which defines a rotational axis and a rotational axis defined by the first pivot is parallel to and aligned with the rotational axis of the output, and wherein a rotational axis defined by the second pivot is parallel to and offset from the rotational axis of the output. 10. The assembly of claim 7 , wherein the motor is not directly coupled to either of the first and second pivots. 11. The assembly of claim 10 , wherein the open-and-close drive assembly further includes a cam plate connected to the motor and a follower connected to the proximal end portion of the arm, the follower being movable on the cam plate as the arm rotates the access door between the closed position and the opened position. 12. The assembly of claim 7 , wherein the access door is supported on the arm only by the second pivot. 13. The assembly of claim 1 , further including at least one safety sensor in signal communication with a control unit, the control unit preventing movement of the access door when the at least one safety sensor determines presence of an operator in a protected area associated with the access door. 14. An automatic charge hearth access door assembly for a melting furnace comprising: an access door movable between a closed position for covering a furnace opening located on a face of the furnace and an opened position for providing access to the furnace opening; a latch mechanism configured to automatically secure the access door to the face of the furnace in the closed position, the latch mechanism configured to engage the access door in at least two locations about a periphery of the access door creating a seal between the access door and the face of the furnace; and an open-and-close drive assembly configured to automatically move the access door about a first rotational axis between the closed position and opened position and simultaneously move the access door about a second rotational axis which is parallel to and offset from the first rotational axis. 15. The assembly of claim 14 , wherein the open-and-close drive assembly includes a motor and arm operably connected to the motor, a proximal end portion of the arm includes a first pivot which defines the first rotational axis and a distal end portion of the arm includes a second pivot which defines the second rotational axis. 16. The assembly of claim 15 , wherein the arm at least partially houses a drive mechanism including a sprocket and chain drive that operates in conjunction with movement of the arm via operation of the motor, wherein the sprocket and chain drive includes a first sprocket fixedly and non-rotatably connected to the first pivot, a second sprocket connected to the second pivot for rotation therewith, and a drive chain engaged to the first and second sprockets. 17. The assembly of claim 15 , wherein the access door is connected to the second pivot, and rotation of the arm about the first pivot rotates the second pivot via the drive chain, rotation of the second pivot rotating the access door. 18. The assembly of claim 14 , wherein the latch mechanism includes four spaced clamps and at least one drive device operably connected to each of the clamps for automatically moving the clamps into engagement with the access door. 19. A method of automatically moving a charge hearth access door for a melting furnace between a closed position for covering a furnace opening located on a face of the furnace and an opened position for providing access to the furnace opening, the method comprising: moving the access door about a first rotational axis between the closed position and opened position; simultaneously moving the access door about a second rotational axis which is parallel to and offset from the first rotational axis; and sensing presence of an operator in a protected area associated with the access door and preventing movement of the access door when it is determined that an operator is in the protected area. 20. The method of claim 19 , further comprising securing the access door to the face of the furnace in the closed position and creating a seal between the access door in the closed position and the face of the furnace by engaging the access door to the face of the furnace at four spaced locations about a periphery of the access door.