Passive mechanical exoskeleton to reduce hand fatigue

What is claimed is: 1. A system for assisting hand operation, the system comprising: (a) a tendon drive mechanism, comprising: (i) one or more cables having a distal end configured to be coupled to a distal location on one or more fingers of a hand of a user; (ii) one or more guides configured to couple to the one or more fingers at one or more palmar locations corresponding to phalanges of the one or more fingers; (iii) the one or more guides configured to guide translation of the one or more cables upon flexion or extension of the one or more fingers; and (b) a ratchet mechanism coupled to the tendon drive mechanism, comprising: (i) a passively biased spool configured to receive a proximal end of at least one of the one or more cables and keep taught at least one of the one or more cables upon flexion of the one or more fingers and selectively allow extension of the one or more fingers; and (ii) a locking mechanism coupled to the spool, the locking mechanism comprising a non-engaged orientation allowing flexion and extension of the one or more fingers and an engaged orientation allowing flexion while restraining extension of the one or more fingers such that the tendon drive mechanism and ratchet mechanism are operable to retain the hand in a selected grasping position. 2. The system of claim 1 , wherein the tendon drive mechanism and ratchet mechanism are integrated with or attached to a glove configured to be worn over the hand of the user. 3. The system of claim 2 , wherein the one or more guides comprise tubes attached to or integrated with the glove, the guides configured to slideably retain one of the one or more cables at a plurality of locations corresponding to separate locations on distinct phalanges of an individual finger such that flexion of the finger shortens a distance between the plurality of guides proportional to a shortening of a length of the cable passing through the plurality of guides. 4. The system of claim 3 , wherein the tubes are located at locations corresponding to a palmar surface of the hand, along with a proximal phalange location, medial phalange location and distal phalange location of an individual finger. 5. The system of claim 2 : wherein the ratchet mechanism is positioned on the glove at a dorsal location with respect to the hand when worn on the user; and wherein the tendon drive mechanism further comprises a sleeve configured to house the one or more cables from a palmer location and extend to the ratchet mechanism around the hand to the dorsal location. 6. The system of claim 1 : wherein the ratchet mechanism comprises a pawl configured to interface with a gear fixedly coupled to the spool; wherein when the ratchet mechanism is in the non-engaged orientation, the pawl is not engaged with the gear to allow two-way reciprocation of the one or more cables within the spool to allow flexion and extension of the one or more fingers; and wherein when the ratchet mechanism is in the engaged orientation, the pawl is engaged with the gear to allow only one-way reciprocation of the one or more cables into the spool, thus allowing flexion while restraining extension of the one or more fingers. 7. The system of claim 6 , further comprising: a toggle coupled to the pawl; the toggle allowing for manual reciprocation of the pawl between the non-engaged orientation and engaged orientation. 8. The system of claim 1 , wherein the spool is biased with a constant torque torsion spring to provide a tensile force on the one or more cables such that the cables automatically wind into the spool upon flexion of the one or more fingers. 9. A glove assembly configured for assisting hand operation, the glove comprising: (a) a glove configured to be worn around the hand of a user, the glove comprising a tendon drive mechanism and a ratchet mechanism; (b) the tendon drive mechanism comprising: (i) one or more cables having a distal end configured to be attached to a distal location on the glove corresponding to one or more fingers of the user's hand; (ii) one or more guides attached to the glove at one or more palmar locations corresponding to phalanges of the one or more fingers; (iii) the one or more guides configured to guide translation of the one or more cables upon flexion or extension of the one or more fingers; and (c) a ratchet mechanism attached to the glove at a dorsal location of the glove and coupled to the tendon drive mechanism, the ratchet mechanism comprising: (i) a passively biased spool configured to receive a proximal end of at least one of the one or more cables and keep taught at least one of the one or more cables upon flexion of the one or more fingers and selectively allow extension of the one or more fingers; and (ii) a locking mechanism coupled to the spool, the locking mechanism comprising a non-engaged orientation allowing flexion and extension of the one or more fingers and an engaged orientation allowing flexion while restraining extension of the one or more fingers such that the tendon drive mechanism and ratchet mechanism are operable to retain the hand in a selected grasping position. 10. The glove assembly of claim 9 , wherein the one or more guides comprise tubes attached to or integrated with the glove, the tubes configured to slideably retain one of the one or more cables at a plurality of locations corresponding to separate locations on distinct phalanges of an individual finger such that flexion of the finger shortens a distance between the plurality of guides proportional to a shortening of a length of the cable passing through the plurality of tubes. 11. The glove assembly of claim 10 , wherein the tubes are attached to the glove at locations corresponding to a palmar surface of the hand, along with a proximal phalange location, medial phalange location and distal phalange location of an individual finger. 12. The glove assembly of claim 9 , wherein the tendon drive mechanism further comprises a sleeve configured to house the one or more cables from a palmer location and extend to the ratchet mechanism around the hand to the dorsal location. 13. The glove assembly of claim 9 : wherein the ratchet mechanism comprises a pawl configured to interface with a gear fixedly coupled to the spool; wherein when the ratchet mechanism is in the non-engaged orientation, the pawl is not engaged with the gear to allow two-way reciprocation of the one or more cables within the spool to allow flexion and extension of the one or more fingers; and wherein when the ratchet mechanism is in the engaged orientation, the pawl is engaged with the gear to allow only one-way reciprocation of the one or more cables into the spool, thus allowing flexion while restraining extension of the one or more fingers. 14. The glove assembly of claim 13 , further comprising: a toggle coupled to the pawl; the toggle allowing for manual reciprocation of the pawl between the non-engaged orientation and engaged orientation. 15. The glove assembly of claim 9 , wherein the spool is biased with a constant torque torsion spring to provide a tensile force on the one or more cables such that the cables automatically wind into the spool upon flexion of the one or more fingers. 16. The glove assembly of claim 9 , wherein the glove comprises a pressurized glove. 17. The glove assembly of claim 9 , wherein the glove comprises a tether configured to retain the user at a specified location. 18. A passive mechanical exoskeleton system comprising: (a) a tendon drive mechanism, comprising: (i) one or more cables having a dis