Laser enclosure with reciprocally movable shuttle structure, and method of using same

What is claimed is: 1. A laser processing unit, comprising: a workpiece loading station; a laser workstation including a laser robot operable to perform a laser operation on a workpiece; a track extending from the workpiece loading station through the laser workstation; a first stationary wall section separating the laser workstation from the workpiece loading station at a proximal side of the laser workstation; a second stationary wall section offset from the first stationary wall section at a distal side of the laser workstation opposite the proximal side; a first movable wall section configured to form a laser light-tight seal with the first stationary wall section; a second movable wall section configured to form a laser light-tight seal with the second stationary wall section; and a shuttle operable to move along the track to deliver the workpiece from the workpiece loading station to the laser workstation, wherein the first movable wall section and the second movable wall section are supported by the shuttle and move concurrently with the shuttle and the workpiece as the workpiece is delivered to the laser workstation. 2. The laser processing unit of claim 1 , further comprising an enclosure surrounding the laser workstation, the enclosure comprising a first end wall section located at the proximal side of the laser workstation and a second end wall section located at the distal side of the laser workstation, wherein: the first stationary wall section and the first movable wall section together form at least a portion of the first end wall section of the enclosure surrounding the laser workstation, the second stationary wall section and the second movable wall section together form at least a portion of the second end wall section of the enclosure surrounding the laser workstation, and during a workpiece transfer operation performed by the laser processing unit, the first movable wall section is moved by the shuttle along the track to form an opening in the first end wall section, and concurrently the workpiece is moved by the shuttle from the workpiece loading station into the laser workstation through the opening in the first end wall section, and the second movable wall section is moved by the shuttle along the track to form an opening in the second end wall section, and concurrently another workpiece is removed by the shuttle from the laser workstation through the opening in the second end wall section. 3. The laser processing unit of claim 2 , wherein the track is a first track, the laser processing unit further comprising: a second track, extending from the workpiece loading station through the laser workstation, upon which the shuttle is operable to move, wherein the first stationary wall section and the second stationary wall section are located between the first track and the second track; a workpiece unloading station, wherein the workpiece unloading station is separated from the laser workstation by the second stationary wall section; and a transfer robot supported on the shuttle for carrying the workpiece from the workpiece loading station into the laser workstation during the workpiece transfer operation and concurrently carrying the another workpiece from the laser workstation into the workpiece unloading station during the workpiece transfer operation. 4. The laser processing unit of claim 3 , wherein the transfer robot comprises a plurality of handling arms configured to raise the workpiece over the first stationary wall section during the workpiece transfer operation and raise the another workpiece over the second stationary wall section during the workpiece transfer operation. 5. The laser processing unit of claim 1 , wherein the workpiece loading station is a first workpiece loading station, the laser processing unit further comprising: a second workpiece loading station, wherein the second workpiece loading station is separated from the laser workstation by the second stationary wall section, wherein the second movable wall section is configured for movement across the laser workstation by the shuttle during a workpiece transfer operation performed by the laser processing unit, and to form a laser light-tight seal with the second stationary wall section in a first shuttle position and form the laser light-tight seal with the first stationary wall section in a second shuttle position. 6. The laser processing unit of claim 5 , further comprising a third movable wall section supported by the shuttle for concurrent movement with the first movable wall section and the second movable wall section, wherein the third movable wall section is configured to form a laser light-tight seal with the second stationary wall section in the second shuttle position, and wherein during the workpiece transfer operation, while the second movable wall section moves across the laser workstation, the first movable wall section moves across the first workpiece loading station and the third movable wall section moves across the second workpiece loading station. 7. The laser processing unit of claim 2 , wherein one of the first movable wall section and the second movable wall section moves within the laser workstation during the workpiece transfer operation. 8. The laser processing unit of claim 1 , further comprising an enclosure surrounding the laser workstation, the enclosure comprising a first end wall section located at the proximal side of the laser workstation and a second end wall section located at the distal side of the laser workstation, wherein: the first stationary wall section and the first movable wall section together form at least a portion of the first end wall section of the enclosure surrounding the laser workstation, and the first stationary wall section and the first movable wall section include corresponding seal forming edges that form the laser light-tight seal between the first stationary wall section and the first movable wall section, and the second stationary wall section and the second movable wall section together form at least a portion of the second end wall section of the enclosure surrounding the laser workstation, and the second stationary wall section and the second movable wall section include corresponding seal forming edges that form the laser light-tight seal between the second stationary wall section and the second movable wall section. 9. A laser processing unit, comprising: a workpiece loading station; a workpiece unloading station; a laser workstation located between the workpiece loading station and the workpiece unloading station, and including a laser robot operable to perform a laser operation on a workpiece; a track extending from the workpiece loading station through the laser workstation to the workpiece unloading station; a first stationary wall section separating the laser workstation from the workpiece loading station; a second stationary wall section offset from the first stationary wall section and separating the laser workstation from the workpiece unloading station; a first movable wall section configured to form a laser light-tight seal with the first stationary wall section; a second movable wall section configured to form a laser light-tight seal with the second stationary wall section; and a shuttle operable to move along the track to deliver the workpiece from the workpiece loading station to the laser workstation, wherein the first movable wall section and the second movable wall section are supported by the shuttle and move concurrently with the shuttle and the workpiece as the workpiece is delivered to the laser workstation. 10. The laser processing unit of claim 9 , further comprising an enclosure surrounding the laser wor