Gripper devices

What is claimed is: 1. A gripper apparatus comprising: a first iris, wherein the first iris comprises: (i) a first static plate having a first plurality of openings therein, and (ii) a first rotatable plate having a second plurality of openings therein, wherein the first rotatable plate has a first axis of rotation, and wherein the first rotatable plate is rotatable, relative to the first static plate, about the first axis of rotation; a second static plate having a third plurality of openings therein; a push plate that is slidably movable relative to first iris and the second static plate, wherein the first static plate and the first rotatable plate are disposed between the push plate and the second static plate; and a plurality of flexible wires, wherein each respective wire of the plurality of flexible wires is disposed within a respective opening of the first plurality of openings, a respective opening of the second plurality of openings, and a respective opening of the third plurality of openings such that rotation of the first rotatable plate relative to the first static plate results in a change in a distance between the respective wire and the first axis of rotation of the first rotatable plate, and wherein each wire of the plurality of flexible wires is mechanically coupled to the push plate such that motion of the push plate, relative to the first iris and the second static plate, results in longitudinal motion of the plurality of wires through the first, second, and third pluralities of openings. 2. The apparatus of claim 1 , wherein the first plurality of openings comprises a plurality of linear slots, and wherein the second plurality of openings comprises a plurality of spiral slots. 3. The apparatus of claim 1 , further comprising: a second iris, wherein the second iris comprises: (i) the second static plate, and (ii) a second rotatable plate having a fourth plurality of openings therein, wherein the second rotatable plate has a second axis of rotation, wherein the second rotatable plate is rotatable, relative to the second static plate, about the second axis of rotation, and wherein each respective wire of the plurality of flexible wires is disposed within a respective opening of the fourth plurality of openings such that rotation of the second rotatable plate relative to the second static plate results in a change in a distance between the respective wire and the second axis of rotation of the second rotatable plate. 4. The apparatus of claim 3 , further comprising: a tube, wherein the tube is coupled to the first rotatable plate, and wherein the tube has a channel along a rotational axis of the tube; and a rod, wherein the rod is coupled to the second rotatable plate, and wherein the rod is disposed within the channel of the tube. 5. The apparatus of claim 1 , further comprising a plurality of pointed tips, wherein each respective wire of the plurality of flexible wires is coupled to a respective pointed tip of the plurality of pointed tips. 6. The apparatus of claim 1 , further comprising: at least one sensor mechanically coupled to at least one wire of the plurality of flexible wires, wherein the at least one sensor is operable to detect at least one of whether at least one wire is penetrating an object or a force applied along a longitudinal direction of the at least one wire. 7. The apparatus of claim 6 , wherein the at least one sensor comprises a plurality of piezoelectric actuators coupled to the at least one wire, wherein each piezoelectric actuator is operable to generate at least one of an axial vibration in the at least one wire or a transverse vibration in the at least one wire. 8. The apparatus of claim 1 , wherein at least one wire of the plurality of wires has a channel formed therein. 9. A method for gripping individual items in a stack of items, the method comprising: positioning a gripper apparatus proximate to a stack comprising a plurality of items in a stacked arrangement, and wherein the gripper apparatus comprises: a first push plate, wherein a first plurality of pins are coupled to the first push plate, and wherein the pins of the plurality of first pins are substantially parallel to each other; a second push plate, wherein a second plurality of pins are coupled to the second push plate, wherein the pins of the plurality of second pins are substantially parallel to each other, and wherein pins of the first plurality of pins are substantially non-parallel to pins of the second plurality of pins; and a guide plate having a contact surface, wherein the guide plate has formed therein a first plurality of channels extending from the contact surface and a second plurality of channels extending from the contact surface, wherein the first push plate is disposed relative to the guide plate such that the pins of the first plurality of pins are disposed within respective channels of the first plurality of channels, wherein the second push plate is disposed relative to the guide plate such that the pins of the second plurality of pins are disposed within respective channels of the second plurality of channels, and wherein the first push plate and the second push plate are slidably movable relative to the guide plate such that the first push plate and the second push plate can be moved relative to the guide plate to result in the first plurality of pins and second plurality of pins, respectively, protruding from the contact surface; actuating the first push plate and the second push plate of the gripper apparatus such that the first plurality of pins and the second plurality of pins protrude from the contact surface and penetrate at least a portion of the stack; moving the gripper apparatus to a first location; actuating the first push plate and the second push plate of the gripper apparatus to partially retract the first plurality of pins and the second plurality of pins into the guide plate such that a first item in the stack is dispensed at the first location; moving the gripper apparatus to a second location; and actuating the first push plate and the second push plate of the gripper apparatus to further retract the first plurality of pins and the second plurality of pins into the guide plate such that a second item in the stack is dispensed at the second location. 10. The method of claim 9 , wherein the gripper apparatus further comprises a sensor that is coupled to at least one pin of the first plurality of pins, and wherein the method further comprises: while actuating the first plate and the second plate of the gripper apparatus such that the first plurality of pins and the second plurality of pins protrude from the contact surface and penetrate at least a portion of the stack, operating the sensor to detect how many items are present in the stack. 11. The method of claim 9 , wherein the gripper apparatus further comprises a sensor that is coupled to at least one pin of the first plurality of pins, and wherein the method further comprises: while actuating the first push plate and the second push plate of the gripper apparatus to partially retract the first plurality of pins and the second plurality of pins into the guide plate such that a first item in the stack is dispensed at the first location, operating the sensor to detect whether the first item has been dispensed, wherein actuating the first push plate and the second push plate of the gripper apparatus to partially retract the first plurality of pins and the second plurality of pins into the guide plate such that an item is dispensed at the first location comprises actuating the first push plate and the second push plate to partially retract the first plurality of pins and the second plurality