Method and apparatus for clamping a container during processing operations

What is claimed: 1. A processing turret, comprising: a drive shaft; a starwheel having a plurality of pockets configured to hold a respective container, the plurality of pockets having a respective push plate at a first end and a rotatable processing device at a second, generally opposing end, each of the push plates being configured to contact a closed end of an article, wherein the rotatable processing device is a trimmer head; and a pressure plate assembly positioned generally adjacent to each of the rotatable processing devices, the pressure plate assembly including at least two resilient devices positioned over a respective at least two guide pins, wherein when the processing turret is in a first position, the at least two resilient devices are compressed, and wherein when the processing turret is in a second position, the at least two resilient devices are generally uncompressed, the distance between the push plate and the rotatable processing device being greater in the second position than in the first position. 2. The processing turret of claim 1 , wherein when the processing turret is in the first position, the processing turret is configured to inhibit or prevent rotation of the article. 3. The processing turret of claim 2 , wherein the article is configured to be processed by the processing device when the processing turret is in the first position. 4. The processing turret of claim 1 , wherein the at least two resilient devices include coil springs, wave springs, polyurethane springs, compressible gas springs, or any combination thereof. 5. The processing turret of claim 1 , wherein the at least two guide pins and the at least two resilient devices extend from a generally ring-shaped guide assembly in a direction generally coaxial with the drive shaft. 6. The processing turret of claim 1 , wherein a surface of the push plate contacting the closed end of the article includes an insert or an abrasive coating configured to inhibit rotation of the article. 7. The processing turret of claim 6 , wherein the insert includes a rubber compliant surface. 8. The processing turret of claim 1 , further comprising a vacuum manifold for delivering a vacuum between the push plate and the closed end of the article. 9. The processing turret of claim 1 , wherein each of the push plates is positioned on a respective ram assembly movable in a direction generally coaxial with the drive shaft. 10. A device for inhibiting rotational motion of an article to be processed, the device comprising: a pressure plate assembly including a generally ring-shaped guide assembly, the guide assembly having at least two guide pins extending from a first side of the guide assembly in a transverse direction, the guide assembly further including at least two resilient devices positioned over a respective one of the at least two guide pins; and a container guide having an aperture for receiving an open end of a container moving in a first direction and for aligning the open end of the container with a processing device, the container guide being positioned adjacent to the first side of the pressure plate assembly, the processing device being a trimmer head positioned generally adjacent to the pressure plate assembly; wherein the at least two resilient devices are configured to be compressed in response to movement of the container guide in a first direction, and the at least two resilient devices are configured to decompress in response to movement of the container guide in a second, generally opposite direction. 11. The device of claim 10 , wherein an inner diameter of the guide assembly is greater than an inner diameter of the container guide aperture. 12. The device of claim 10 , further comprising a mounting plate configured to receive the guide assembly, the mounting plate further including an aperture for receiving at least a portion of the processing device therethrough. 13. The clamping device of claim 10 , wherein the at least two resilient devices include coil springs, steel wave springs, polyurethane springs, compressible gas springs, or any combination thereof. 14. A method of processing an article, the method comprising: providing a starwheel including a plurality of pockets, each of the plurality of pockets including a push plate contacting a closed end of the article at a first end and a rotating processing device at a second, generally opposing end, wherein the rotating processing device is a trimmer head; providing an article guide having an aperture therein for receiving an opposing open end of the container and a generally ring-shaped guide assembly positioned between the rotating processing device and the article guide, the guide assembly including at least two guide pins extending from the first side of the guide assembly in a generally transverse direction and at least two resilient devices positioned over a respective one of the at least two guide pins; moving one of the push plate or the rotating processing device a first distance in a first direction toward the other of the push plate or the rotating processing device such that the open end of the article is moved through the article guide toward the rotating processing device; further moving the push plate or the rotating processing device a second distance in the first direction such that a second portion of the article abuts an outer surface of the article guide, thereby moving the article guide toward the processing device independently of the rotating processing device, the second portion of the article having a diameter greater than a diameter of the aperture of the container guide; and in response to the movement of the article guide independently of the second ram assembly, compressing the at least two resilient devices such that when the open end of the article is processed by the rotating processing device, rotational movement of the article is inhibited or prevented. 15. The method according to claim 14 further comprising, in response to movement of the push plate or the rotating processing device in a second, generally opposite direction, decompressing the at least two resilient devices. 16. The method of claim 14 , wherein the at least two resilient devices include coil springs, steel wave springs, polyurethane springs, compressible gas springs, or any combination thereof. 17. The method of claim 14 , wherein the push plate includes an insert or an abrasive finish or coating configured to contact and inhibit rotation of the article. 18. The method of claim 14 , wherein the first ram assembly moves in the first direction and the second ram assembly remains generally stationary. 19. The clamping device of claim 10 , wherein the at least two guide pins are three or more guide pins. 20. The clamping device of claim 10 , further comprising a push plate configured to contact a closed end of the container and to assist in moving the container through the container guide, wherein, in response to the compression, the pressure plate and the push plate are configured to impart a clamping force to the container, thereby inhibiting or preventing rotational movement of the article.