Screw conveyor having linked latch closure

I claim: 1. A latch mechanism for an auger-driven conveyor, the conveyor having a container segment, and a corresponding cover, the latch mechanism comprising: a plurality of upper latches disposed along a length of the cover, each upper latch having an upper hook; a plurality of lower latches disposed along a length of the container, each lower latch having a lower hook and a pivot point; a plurality of brackets configured to pivotally support respective corresponding lower latches at the pivot point; a linkage member coupling each lower latch, wherein the linkage member is a rigid rod coupled to a body portion of each lower latch; wherein urging in a first direction at any point along the linkage member causes the lower hooks to disengage from the corresponding upper hooks; and wherein in the absence of a force applied to the linkage member in the first direction, a weigh of the lower latch relative to the pivot point causes the lower hooks to be urged against the upper hooks and engage the upper hooks so as to lock the cover to the container. 2. The latch mechanism of claim 1 , wherein the urging in the first direction along any point along the linkage member causes the lower latches to simultaneously pivot about the pivot point and causes the lower hooks to rotate out of engagement with the corresponding upper hooks. 3. The latch mechanism of claim 1 , further including a stop disposed on a portion of the bracket, the stop configured to prevent further rotation of at least one lower latch about the pivot point. 4. The latch mechanism of claim 1 , wherein the lower latches have an offset center of gravity so that the weight of the lower latches relative to the pivot point causes the lower hooks to be urged against the upper hooks and engage the upper hooks. 5. The latch mechanism of claim 1 , wherein when moving the cover from an open position to a closed position, when contact is made between the upper hooks and the lower hooks, the upper hooks urge the lower hook away from the upper hooks causing the lower hoods to rotate about the pivot point. 6. The latch mechanism of claim 1 , further comprising: a first strike surface disposed on each upper hook; a second strike surface disposed on each lower hook; and the second strike surface configured to approach the first strike surface along a radial path as the lower hooks pivot about the pivot point. 7. The latch mechanism of claim 6 , wherein when moving the cover from an open position to a closed position, the first strike surface contacts the second strike surface and progressively and continuously causes the lower latches to rotate away from the upper latches until engagement is made, and after engagement is made, the lower latches then rotate toward the upper latches. 8. The latch mechanism of claim 1 , further comprising: a first engagement surface disposed on the upper hooks; a second engagement surface disposed on the lower hooks; and wherein an angle of the first engagement surface is between 15 degrees and 25 degrees relative to horizontal. 9. The latch mechanism of claim 1 , wherein the upper latches are fixed and non-moveable relative to the cover. 10. An auger-driven conveyor, comprising: a container having an open portion; a cover configured to cover the open portion; a plurality of upper latches disposed in a spaced relation along a length of the cover, each upper latch having an upper hook; a plurality of lower latches disposed in a spaced relation along a length of the container, each lower latch having a lower hook, a body portion, and a pivot point disposed between the lower hook and the body portion; a plurality of brackets fixedly attached to the container and disposed in a spaced relation along the length of the container, each bracket configured to pivotally support the corresponding lower latch at the pivot point; a rigid linkage member coupled to the body portion of each lower latch; wherein urging in a first direction at any point along linkage member causes the lower hooks to simultaneously disengage from the upper hooks so as to unlock the cover from the container; and wherein the pivot point is arranged such that a weight of the body portion and the linkage member causes the lower hooks to be urged against the upper hooks and engage the upper hooks to lock the cover to the container, in the absence of a force applied to the linkage member in the first direction. 11. The conveyor of claim 10 , wherein the urging in the first direction along the linkage member causes the lower latches to pivot about the pivot point and causes the lower hooks to rotate out of engagement with the upper hooks. 12. The conveyor of claim 10 , further including a stop disposed on a portion of the bracket, the stop preventing further rotation of at least one of the lower latches about the pivot point. 13. The conveyor of claim 10 , further comprising: a trough formed in a bottom portion of the container; a transport screw disposed in the trough of the container and extending along a length of the container. 14. The conveyor of claim 10 , wherein the lower latches have an offset center of gravity so that the weight of the lower latches relative to the pivot point causes the lower hooks to be urged against the upper hooks and engage the upper hooks when no force is applied to the linkage member in the first direction. 15. The conveyor of claim 10 , further comprising: a first strike surface, disposed on the upper hooks; an second strike surface, disposed on the lower hooks; and the second strike surface configured to approach the first strike surface along a radial path as the lower hooks pivot about the pivot point. 16. The conveyor of claim 15 , wherein when moving the cover from an open position to a closed position, the first strike surface contacts the second strike surface and progressively and continuously causes the lower latches to rotate away from the upper latches until engagement is reached, and after engagement is reached, the lower latches then rotate toward the upper latches. 17. The conveyor of claim 10 , further comprising: a first angled engagement surface disposed on the upper hooks; a second angled engagement surface disposed on the lower hooks; and wherein an angle of the first engagement surface is between 15 degrees and 25 degrees relative to horizontal.