Multidirectional enclosure compression locking mechanism

What is claimed is: 1. A latch system for locking and sealing of a door to a cabinet, the latch system comprising: a latch receiver configured to be secured to a cabinet, the latch receiver comprising a first ramp, a second ramp, and a planar rest surface juxtaposed to the second ramp, the first ramp having one of a positive or a negative slope relative to the rest surface, and the second ramp having the other of the positive or the negative slope relative to the rest surface; a door latch comprising: a handle; a shank coupled to the handle, and comprising a length operable to extend through an aperture of a door coupled to the cabinet to facilitate coupling of the door latch to the door; and a cam latch supported by the shank, and comprising a lock arm operable to slide along the first and second ramps, wherein in response to rotation of the handle in a first direction with the door latch in an unlocked position, the shank and the cam latch rotate to cause the lock arm to slidably interface with the first and second ramps of the latch receiver, and to seat against the rest surface, thus placing the door latch in a locked position, and facilitating locking of the door to the cabinet. 2. The latch system of claim 1 , wherein the latch receiver comprises a plurality of ramps, including the first and second ramps. 3. The latch system of claim 2 , wherein a third ramp of the plurality of ramps comprises a curved chamfered corner that extends along the first and second ramps. 4. The latch system of claim 2 , wherein the latch receiver is symmetrical about a plane that extends orthogonally relative to a normal planar surface of the latch receiver, whereby the latch receiver comprises a wedge shaped profile, such that the cam latch is operable to be rotated in either rotational direction so that either side of the lock arm is operable to interface with the latch receiver when moved the locked position. 5. The latch system of claim 1 , wherein the lock arm comprises a first cam surface operable to slidably interface along the first and second ramps while moving to the locked position. 6. The latch system of claim 5 , wherein the lock arm comprises a second cam surface that extends around an end portion of the lock arm from the first cam surface, wherein the second cam surface is operable to slidably interface along a curved chamfered corner of the latch receiver while moving to the locked position. 7. The latch system of claim 6 , wherein the lock arm comprises a third cam surface, such that the second cam surface extends between the first and third cam surfaces, wherein the first and third cam surfaces are formed on opposing sides of the cam lock, such that either side of lock arm can interface with the latch receiver when moving to the locked position in response to respective first and second directions of rotation of the handle and the cam latch. 8. The latch system of claim 1 , wherein the rest surface comprises a planar surface that interfaces with a planar lock surface of the lock arm when in the locked position. 9. The latch system of claim 8 , wherein the second ramp of the latch receiver defines a first stop ramp formed at an angle relative to the rest surface to restrict the lock arm from moving to the unlocked position. 10. The latch system of claim 9 , wherein the latch receiver comprises a third ramp juxtaposed to the rest surface and that defines a second stop ramp formed at an angle relative to the rest surface, such that the second and third ramps and the rest surface define a wedge shaped profile to restrict the lock arm from moving in either rotational directions to the unlocked position. 11. The latch system of claim 1 , wherein the rest surface of the latch receiver comprises a planar surface that extends orthogonal relative to an axis of rotation of the shank and the cam latch. 12. The latch system of claim 1 , wherein the shank extends through a keyed aperture of the cam latch, such that the cam latch is axially slidably interfaced to the shank, and such that the cam latch is rotationally fixed to the shank. 13. The latch system of claim 12 , wherein the door latch further comprises an elastic element operably coupled between the cam latch and a spring seat component of the door latch, whereby the elastic element operates to apply a biasing force to the cam latch to apply a compression load between the cam latch and the latch receiver when in the locked position. 14. The latch system of claim 13 , wherein the elastic element comprises a coil spring supported about and surrounding the shank, and wherein the coil spring is configured to apply a normal biasing force to the cam latch when in the unlocked position. 15. The latch system of claim 13 , wherein the door latch further comprises a load adjustment mechanism operable to adjust the compression load. 16. The latch system of claim 15 , wherein the load adjustment mechanism comprises a fastener component operable to be rotated relative to the shank to modify the biasing force of the elastic element to adjust the compression load. 17. The latch system of claim 16 , wherein the fastener component comprises a nut threadably coupled to a distal end of the shank opposite the handle, such that rotation of the nut modifies the biasing force of the elastic element when the door is open. 18. The latch system of claim 16 , wherein the fastener component comprises a tensioner bolt that extends through a bore of the shank proximate the handle, the tensioner bolt threadably coupled to a tensioner component supported at distal end of the shank opposite the handle, and wherein the elastic element is situated between the tensioner component and the cam latch, such that rotation of the bolt relative to the shank causes axial movement of the tensioner component to modify the biasing force of the elastic element. 19. The latch system of claim 1 , wherein the shank comprises a first slot and a second slot opposing each other on opposing sides of the shank, and wherein the cam latch comprises a keyed aperture that receives the shank, the keyed aperture at least partially defined by a first slot interface surface and a second slot interface surface that interface with the first and second slots of the shank, respectively, such that the cam latch is axially slidable along the shank but rotatably fixed to the shank. 20. The latch system of claim 1 , wherein the latch receiver comprises a bi-directional lock profile at least partially defined by the first ramp and a third ramp of the latch receiver that are mirrored relative to each other along a plane that extends through the rest surface, such that the cam latch is operable to be locked to the latch receiver, via respective first or third ramps, from the first direction or a second direction via rotation of the handle. 21. The latch system of claim 1 , further comprising at least one shim surrounding the shank to accommodate for a thickness of the door. 22. An enclosure locking assembly, comprising: an enclosure having an inner area; a door coupled to the enclosure; a seal supported by one of the door or the enclosure; a plurality of latch receivers each secured to different sides of the cabinet, each latch receiver comprising a plurality of ramps and a planar rest surface; and a plurality of door latches supported about different sides of the door, each door latch comprising a handle, a shank coupled to the handle and extending through an aperture of the door, and a cam latch supported b