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A thermoforming machine is provided having a frame, a first platen, a second platen, a platen load shaft, and a load shaft latch. The first platen supports a first mold. The second platen supports a complementary second mold and is carried by the frame for movement toward and away from the first pla

A thermoforming machine is provided having a frame, a first platen, a second platen, a platen load shaft, and a load shaft latch. The first platen supports a first mold. The second platen supports a complementary second mold and is carried by the frame for movement toward and away from the first platen to engage and disengage with the first mold. The platen load shaft has a lock ledge with an engagement surface transverse to the load shaft. The load shaft is supported by the frame and extends between the first platen and the second platen. The load shaft latch has an engagement surface transverse to a central axis of the load shaft and is movable to engage and disengage the lock ledge transverse engagement surface. A method is also provided.

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1. A thermoforming machine, comprising: a frame;a first platen configured to support a first mold;a second platen configured to support a complementary second mold and carried by the frame for movement toward and away from the first platen to engage and disengage with the first mold and further conf

1. A thermoforming machine, comprising: a frame;a first platen configured to support a first mold;a second platen configured to support a complementary second mold and carried by the frame for movement toward and away from the first platen to engage and disengage with the first mold and further configured to intermittently receive forming pressure against a heated thermoformable web to drive the web toward the first platen during a forming operation;an axial guide mechanism carried by the frame and configured to guide at least one of the first platen and the second platen;a platen load shaft configured to extend linearly between the first platen and the second platen and having a notch configured to extend medially inwardly of the load shaft to provide a lock ledge with an engagement surface transverse to the load shaft, the load shaft supported by the frame and extending between the first platen and the second platen, the load shafts configured to form temporary load bearing paths between the first platen and the second platen as forming pressure is applied, and rendering the load shafts intermittently as the primary load path between the first platen and the second platen; anda load shaft latch having an engagement surface transverse to a central axis of the load shaft and movable to engage and disengage the lock ledge transverse engagement surface. 2. The thermoforming machine of claim 1, further comprising a seal provided between the first mold and the second mold. 3. The thermoforming machine of claim 2, further comprising a pneumatic pressure source in fluid communication with a forming surface of one of the first mold and the second mold. 4. The thermoforming machine of claim 1, wherein the load shaft is a cylindrical load shaft, the lock ledge is a reduced diameter portion of the load shaft, and the engagement surface comprises a cylindrical abutment surface. 5. The thermoforming machine of claim 1, wherein the load shaft latch comprises a sliding plate having an elongated aperture having a narrowed portion and an enlarged portion, the narrowed portion configured to provide an axisymmetric load path between the sliding plate and the platen load shaft via the notch when the plate is slide to an overlap position about the notch. 6. The thermoforming machine of claim 5, wherein the engagement surface of the load shaft latch is provided by an adjacent periphery of the narrowed portion of the aperture. 7. The thermoforming machine of claim 5, wherein the enlarged portion of the aperture in the sliding plate is sized to provide clearance for the platen load shaft to accommodate axial reciprocation of the load shaft relative to the load shaft latch. 8. The thermoforming machine of claim 5, wherein the load shaft latch further comprises a stationary plate nested with the sliding plate and supported for transverse movement between the stationary plate and the moving plate, the stationary plate having a clearance aperture sized to receive the load shaft for axial reciprocation. 9. The thermoforming machine of claim 8, wherein the stationary plate and the moving plate each have a sloped surface configured to mate in sliding relation with one another, such that stacked thickness of the stationary plate and the sloped plate increase and decrease, respectively as the moving plate is reciprocated to-and-fro relative to the stationary plate. 10. A thermoforming machine, comprising: a frame;a first platen supported by the frame;a second platen movable to-and-fro relative to the first platen and further configured to intermittently receive forming pressure against a heated thermoformable web to drive the web toward the first platen during a forming operation;a first die supported by the first platen;a second die supported by the second platen;a die post carried by the frame and configured to guide at least one of the first platen and the second platen;a cyclical drive mechanism carried by the frame and configured to move at least one of the platens to-and-fro relative to another of the platens;a thermoforming load lock rod assembly having a plurality of elongate load shafts configured to extend linearly between the first platen and the second platen and having a notch configured to extend medially inwardly of the load shaft and complementary load shaft latches each configured to engage a respective notch and lock the second platen proximate the first platen during a web forming operation, the load shafts configured to form temporary load bearing paths between the first platen and the second platen as forming pressure is applied, reducing load on the cyclical drive mechanism from the forming pressure and rendering the load shafts intermittently as the primary load path between the first platen and the second platen;a manifold for receiving forming pressure between a web of material and one of the dies;a seal provided between the web and the one die; anda pneumatic pressure source for delivering forming pressure to one side of heated web of thermoformable material. 11. The thermoforming machine of claim 10, wherein the load shaft comprises a cylindrical load shaft, the lock ledge is a reduced diameter portion of the load shaft, and the engagement surface comprises a cylindrical abutment surface configured to provide an axisymmetric load path with a respective one of the load shaft latches. 12. The thermoforming machine of claim 10, wherein the load shaft latch comprises a sliding plate having an elongated aperture having a narrowed portion and an enlarged portion, and wherein the engagement surface of the load shaft latch is provided by an adjacent periphery of the narrowed portion of the aperture. 13. The thermoforming machine of claim 12, wherein the enlarged portion of the aperture in the sliding plate is sized to provide clearance for the platen load shaft to accommodate axial reciprocation of the load shaft relative to the load shaft latch. 14. The thermoforming machine of claim 10, wherein the load shaft latch further comprises a stationary plate nested with the sliding plate and supported for transverse movement between the stationary plate and the moving plate, the stationary plate having a clearance aperture sized to receive the load shaft for axial reciprocation. 15. The thermoforming machine of claim 10 wherein the seal is provided by a heated web of thermoformable material received between the first die and the second die during a thermoform operation. 16. A thermoforming apparatus, comprising: a frame;a first platen configured to support a first mold and carried by the frame;a second platen configured to support a complementary second mold and carried by the frame for movement toward and away from the first platen and further configured to intermittently receive forming pressure against a heated thermoformable web to drive the web toward the first platen during a forming operation;a die post carried by the frame and configured to guide at least one of the first platen and the second platen;a platen load shaft configured to extend linearly between the first platen and the second platen and having a notch configured to extend medially inwardly of the load shaft to provide an engagement surface extending across the load shaft, supported by the frame, and extending between the first platen and the second platen, the load shaft configured to form a temporary load bearing path between the first platen and the second platen as forming pressure is applied, and rendering the load shafts intermittently as the primary load path between the first platen and the second platen; anda load shaft latch having a complementary engagement surface positionable relative to the load shaft in movable relation to engage and disengage with the platen load shaft engagement surface. 17. The thermoforming apparatus of claim 16, wherein the engagement surface of the platen load shaft is provided by a lock ledge having a circumferential shelf configured to provide an axisymmetric load path with the complementary engagement surface of the load shaft latch. 18. The thermoforming apparatus of claim 17, wherein the complementary engagement surface of the load shaft latch is provided by a key plate having a key slot configured to engage and disengage with the circumferential shelf of the lock ledge. 19. The thermoforming apparatus of claim 16, wherein the engagement surface of the platen load shaft is provided by a lobe on the load shaft. 20. The thermoforming apparatus of claim 19, wherein the complementary engagement surface of the load shaft latch is provide by a complementary locking collar rotationally positionable to lock and unlock with the platen load shaft engagement surface.