Bi-directional clutch lock

The invention claimed is: 1. A bi-directional linear clutch lock comprising: a rack; a first clutching link and a second clutching link, the first clutching link pivotably mounted to a moveable housing at a first housing pivot mount and the second clutching link pivotably mounted to the moveable housing at a second housing pivot mount; a first pawl pivotably mounted to the first clutching link at a first pivot mount; a second pawl pivotably mounted to the second clutching link at a second pivot mount; wherein the first pivot mount is more proximate to the second pivot mount than the second housing pivot mount, wherein the first pawl and the second pawl are configured to engage the rack in response to movement of the moveable housing towards the rack. 2. The bi-directional linear clutch lock of claim 1 , wherein the moveable housing comprises a spring loaded plunger. 3. The bi-directional linear clutch lock of claim 2 , wherein the moveable housing comprises a dowel coupled to the spring loaded plunger. 4. The bi-directional linear clutch lock of claim 2 , wherein movement of the spring loaded plunger causes movement of the moveable housing towards the rack. 5. The bi-directional linear clutch lock of claim 4 , wherein the first pawl has a first mating surface, the second pawl has a second mating surface, and the rack as a rack mating surface. 6. The bi-directional linear clutch lock of claim 5 , wherein the first mating surface and the second mating surface are complementary to the rack mating surface. 7. The bi-directional linear clutch lock of claim 1 , further comprising a backlash adjustment coupled to the moveable housing. 8. The bi-directional linear clutch lock of claim 1 , wherein, in response to engagement of the first pawl and the second pawl with the rack, linear translation of the rack is restrained. 9. A bi-directional rotary clutch lock comprising: a rotary rack configured to rotate; a first clutching link and a second clutching link, the first clutching link pivotably mounted to a moveable housing at a first housing pivot mount and the second clutching link pivotably mounted to the moveable housing at a second housing pivot mount; a first pawl pivotably mounted to the first clutching link at a first pivot mount; a second pawl pivotably mounted to the second clutching link at a second pivot mount; wherein the first housing pivot mount is more proximate to the second housing pivot mount than to the second pivot mount, wherein the first pawl and the second pawl are configured to engage the rotary rack in response to movement of the moveable housing towards the rotary rack. 10. The bi-directional rotary clutch lock of claim 9 , wherein the moveable housing comprises a spring loaded plunger. 11. The bi-directional rotary clutch lock of claim 10 , wherein the moveable housing comprises a dowel coupled to the spring loaded plunger. 12. The bi-directional rotary clutch lock of claim 10 , wherein movement of the spring loaded plunger causes movement of the moveable housing towards the rotary rack. 13. The bi-directional rotary clutch lock of claim 12 , wherein the first pawl has a first mating surface, the second pawl has a second mating surface, and the rotary rack as a rotary rack mating surface. 14. The bi-directional rotary clutch lock of claim 13 , wherein the first mating surface and the second mating surface are complementary to the rotary rack mating surface. 15. The bi-directional rotary clutch lock of claim 9 , wherein, in response to engagement of the first pawl and the second pawl with the rotary rack, rotation of the rotary rack is restrained.