Negative pressure actuated soft bending actuator

What is claimed is: 1. A soft bending actuator finger for use in conjunction with an evacuator, comprising: a first layer of a first elastomeric material having an outer surface and an inner surface, said first elastomeric material being relatively stiff; a second layer of a second elastomeric material, said second elastomeric material being relatively compliant relative to said first elastomeric material, said second layer of elastomeric material having a plurality of walls including an outer surface and an inner engagement surface opposite said outer surface, said second layer of elastomeric material defining a plurality of interconnected voids creating pressure equalization of the voids in the second layer and a vacuum port in one of said plurality of walls of the second layer, the vacuum port being in fluid connection with the voids and adapted to be coupled to the evacuator, said second layer bonded to said first layer of elastomeric material along said outer surface of said second layer and said inner surface of said first layer, wherein, in a first configuration where said plurality of interconnected voids are maintained at a pressure equal to an ambient environment pressure, said soft bending actuator assumes a first position, and in a second configuration where said plurality of interconnected voids are maintained at a pressure below the ambient environment pressure, said soft bending actuator assumes a second, bent position. 2. The actuator finger of claim 1 wherein said outer surface of said first layer is curved in a convex configuration relative to said first configuration and said inner engagement surface of said second layer is curved in a concave configuration relative to said first configuration in said second bent position. 3. The actuator finger of claim 1 , wherein the finger has a longitudinal axis and said second elastomeric material includes columns parallel the longitudinal axis and beams perpendicular said columns. 4. The actuator finger of claim 3 , wherein said columns are thicker than said beams. 5. The actuator finger of claim 1 , wherein said actuator finger has a length and width, with said length being longer than said width. 6. The actuator finger of claim 1 , wherein said first layer is approximately 1/30 the thickness of said second layer. 7. The actuator finger of claim 1 , further comprising a third layer of a third elastomeric material, said third elastomeric material being relatively compliant relative to said first elastomeric material, said third layer of elastomeric material having a plurality of walls including an outer surface and an inner engagement surface opposite said outer surface, said third layer of elastomeric material defining a plurality of interconnected voids creating pressure equalization of the voids in the third layer and a second vacuum port in one of said plurality of walls of the third layer, the second vacuum port being in fluid connection with the voids of the third elastomeric material and adapted to be coupled to the evacuator, said third layer bonded to said first layer of elastomeric material along said outer surface of said third layer and said outer surface of said first layer. 8. A robotic gripper end effector comprising at least two spaced soft bending actuator fingers according to claim 1 , each having an end coupled to a base. 9. The robotic gripper end effector according to claim 8 , wherein the inner engagement surfaces of the at least two actuator fingers face each other. 10. The robotic gripper end effector according to claim 8 , further comprising a source of negative pressure coupled to said port of each actuation finger. 11. The robotic gripper end effector according to claim 10 , wherein the base defines vacuum lines terminating on one end at respective said port of each actuation fingers and at a second end at a tube coupled to said source of negative pressure. 12. The robotic gripper of claim 8 , wherein each finger has a longitudinal axis and said second elastomeric material of each finger includes columns parallel the longitudinal axis and beams perpendicular said columns. 13. The robotic gripper of claim 12 , wherein said columns are thicker than said beams. 14. The robotic gripper of claim 8 , wherein each said actuator finger has a length and width, with said length being longer than said width. 15. The robotic gripper of claim 8 , wherein said first layer of each said actuator finger is approximately 1/30 the thickness of said second layer of each said actuator finger.