Counterbalance apparatus and/or method for supporting a load

The embodiments for which an exclusive privilege or property is claimed are as follows: 1. A counterbalance apparatus for supporting a load having a load vector applied in a direction of the vector of gravity, comprising: a base movable between a load bearing and a non-loading position; a load bearing arm with a plurality of pivot points forming a parallelogram linkage, the load bearing arm projecting from the base at a first attachment point at a proximal end and adapted to support the load at a distal end; a first resilient member for applying a force to the load bearing arm having a first end connected to a first portion of the parallelogram linkage and a second end connected to a second attachment point of the base; and a second resilient member for applying a force to the load bearing arm having a first end connected to a second portion of the parallelogram linkage and a second end connected to the second attachment point of the base; and wherein movement of the base from the non-load bearing position to the load bearing position engages the forces of the first and second resilient members to apply a support vector to counterbalance the load vector. 2. The counterbalance apparatus of claim 1 , in which the first and second resilient members are adapted to produce a linear extension force. 3. The counterbalance apparatus of claim 1 , in which the first and second resilient members are adapted to produce a linear compression force. 4. The counterbalance apparatus of claim 1 , wherein the first and second resilient members are each a pair of resilient members. 5. The counterbalance apparatus of claim 1 , in which the parallelogram linkage comprises at least one parallelogram. 6. The counterbalance apparatus of claim 5 , in which the parallelogram linkage comprises at least one compound parallelogram. 7. The counterbalance apparatus of claim 1 , in which the load is reversibly coupled to a distal pivot point of the load bearing arm by a load release mechanism. 8. The counterbalance apparatus of claim 1 , wherein the support vector counterbalances the load vector with at least two degrees of freedom. 9. The counterbalance apparatus of claim 1 , in which the base is connected to a fixed support. 10. The counterbalance apparatus of claim 1 , in which the base is connected to a fixed support by a grounded pin connection. 11. The counterbalance apparatus of claim 1 , further comprising a brake adapted to maintain a position with respect to the load. 12. The counterbalance apparatus of claim 1 , wherein the first and second resilient members are each a zero length spring. 13. The counterbalance apparatus of claim 1 , wherein the first and second resilient members are each a non-zero length spring. 14. The counterbalance apparatus of claim 1 configured to be fully passive in configuration. 15. The counterbalance apparatus of claim 1 configured to be semi-automated in configuration. 16. The counterbalance apparatus of claim 1 configured to be fully automated in configuration. 17. The counterbalance apparatus of claim 1 configured to be a fully automated robotic arm for a medical application.