Double acting fluidic cylinder for material handling

What is claimed is: 1. A method of acquiring articles with a manipulator of a robot arm by passively conforming the manipulator to a plurality of irregular articles comprising: providing a plurality of dual acting cylinders attached to the manipulator; extending the plurality of dual acting cylinders from the manipulator by pressurizing rear chambers thereof; preparing dual acting cylinders to be proximally passively moved by opening front chambers and rear chambers to atmosphere; holding the vacuum cup in place passively with friction; providing suction to a vacuum cup on an extendable and retractable end of each dual acting cylinder; moving the manipulator distally with the robot arm to passively conform to the plurality of irregular articles, the movement causing each dual acting cylinder to passively and proximally retract from contact of the vacuum cups with a respective irregular article and to passively conform the vacuum cups and dual acting cylinders to the plurality of irregular articles. 2. The method of claim 1 , further comprising acquiring articles with vacuum when the vacuum cup contacts a respective irregular article. 3. The method of claim 1 further comprising the step of retracting the plurality of articles towards the manipulator by providing compressed air to the front chamber of the dual acting cylinders. 4. The method of claim 1 further comprising the step of providing a conveying surface and positioning at least one of the manipulator and the conveying surface to place the plurality of articles onto the conveying surface. 5. The method of claim 3 further comprising the step of removing suction from the vacuum cups to release the plurality of irregular articles onto the conveying surface. 6. The method of claim 4 further comprising the step of repositioning the manipulator, and conveying away the plurality of articles with the conveying surface. 7. A robot arm for acquiring a plurality of irregular articles from one selected from a truck trailer, a shipping container, and a warehouse by passively conforming the robot arm to the plurality of irregular articles, wherein the robot arm comprises: a mobile body with the robotic arm mounted on the mobile body; a plurality of retractable and extendable dual acting cylinders attached to a movable end of the robotic arm, each comprising: a front chamber, a rear chamber, and a vacuum cup for acquiring articles; and a controller to switchably connect each front chamber and each rear chamber to a selected one of pressurized air and atmospheric air pressure, wherein when the controller connects the front chambers to pressurized air, and connects the rear chambers to atmospheric air pressure, the dual acting cylinders are configured to retract the vacuum cups, wherein when the controller connects the front chambers to atmospheric air pressure and connects the rear chambers to pressurized air, the dual acting cylinders are configured to extend the vacuum cups, and wherein when the controller connects the front chamber and the rear chamber of the extended vacuum cups to atmospheric air pressure, the dual acting cylinders are configured to passively conform to the irregular articles, and when the controller moves the robot arm distally to contact the irregular articles with the vacuum cups, each of the passively configured dual acting cylinders passively and proximally retracts from contact of the vacuum cup with a respective irregular article, and passively conforms the plurality of vacuum cups and dual acting cylinders to the plurality of irregular articles. 8. The robot arm of claim 7 further comprising an extension valve operably connecting the controller to the rear chamber of each of the dual acting cylinders, the extension valve switchably movable with the controller between: an on position to connect the rear chamber to pressurized air to extend the respective vacuum cup, an off position to retain pressurized air in the rear chamber to hold the respective vacuum cup in an extended position, and a vent position to vent pressurized air in the rear chamber to atmospheric air pressure through extension vent. 9. The robot arm of claim 8 further comprising a retraction valve connecting the controller to the front chamber of the dual acting cylinder, the retraction valve switchably movable with the controller between: an on position to connect the front chamber to pressurized air to retract the respective vacuum cup, an off position to retain pressurized air in the front chamber to hold the respective vacuum cup a retracted position, a vent position to vent pressurized air in the front chamber to atmospheric air pressure through a retraction vent. 10. The robot arm of claim 7 further comprising a suction valve connecting the controller to the vacuum cup, the suction valve switchably movable with the controller between: an on position to deliver suction to the vacuum cups from a vacuum source, an off position for blocking delivery of pressurized air to the vacuum source to cease generation of vacuum with vacuum source, and a vent position for connecting atmospheric air pressure to the vacuum cup through the suction vent, the connection breaking the suction in the vacuum cups. 11. The robot arm of claim 10 wherein the at least one vacuum source comprises a vacuum generator and when the suction valve is in the on position, the suction valve connects compressed air to the vacuum generator to create suction in the vacuum cup. 12. The robot arm of claim 10 wherein each of the plurality of dual acting cylinders further comprises a vacuum passageway extending through at least one of the sealed front chamber and sealed rear chamber to communicate vacuum to the respective vacuum cup. 13. The robot arm of claim 12 wherein at least a portion of the vacuum passageway is flexible to extend and retract in response to movement of the vacuum cup. 14. The robot arm of claim 12 wherein the vacuum passageway comprises nested hollow shafts and the vacuum passageway changes length as the vacuum cup extends and retracts. 15. The robot arm of claim 7 wherein the dual acting cylinders include at least one sealing element and when the front chamber and the rear chamber are open to atmospheric air pressure, the vacuum cup is held at least partially in position with friction. 16. The robot arm of claim 7 wherein the dual acting cylinder further comprises a magnet and when the front chamber and the rear chamber are open to atmospheric air pressure, the vacuum cup is held at least partially in position with the magnet. 17. A robot arm for acquiring a plurality of-irregular articles from one selected from a truck trailer, a shipping container, and a warehouse by passively conforming the robot arm to the plurality of irregular articles, wherein the robot arm comprises: a manipulator attached to a free end of the robot arm; a plurality of dual acting cylinders attached to the manipulator; and a vacuum cup for acquiring articles attached to an extendable and retractable end of each dual acting cylinder; wherein the dual acting cylinders have a front chamber and a rear chamber and when the dual acting cylinders are configured to be proximally passively moved, the front chambers and the rear chambers are open to atmospheric air pressure and wherein when the dual acting cylinders are configured to be proximally passively moved and the robot arm moves at least some of the plurality of vacuum cups into acquiring contact with the plurality of irregular articles, each dual acting cylinder connected to a contacting vacuum c