A suction cup for engaging and lifting an object is disclosed, comprising a lip, a bellows, and an upper portion sealingly connected to the bellows for connecting an inner volume of the suction cup to a source of vacuum, which cup, in an operative state, is capable of being locked in an at least partly compressed state of the lip and/or bellows. Locking is accomplished by air entrapped in a sealed exterior volume formed between the lip and bellows and/or between one or more segments of the bellows in an operative state being evacuated through one or more through open holes provided in the lip and/or bellows when vacuum is connected to the suction cup. A corresponding lip and a corresponding bellows for use in the suction cup are also disclosed.

A vacuum device for a material handling system includes a vacuum device body and a sealing element. The vacuum device body has a vacuum passageway in which a vacuum is generated in response to activation of a pressurized air supply that forces pressurized air through a venturi device. The sealing element moves to a sealing position to substantially seal the vacuum passageway when the air supply is activated, and is urged toward the sealing position via pressurized air that is diverted from an inlet of the vacuum device to the sealing element. The sealing element moves to substantially vent the vacuum passageway when the air supply is deactivated. The vacuum passageway may be in fluid communication with a vacuum cup, which seals against the object when the sealing element is at the sealing position and the vacuum generating device generates at least a partial vacuum in the vacuum passageway.

A vacuum adsorption system includes a cylinder including a cylinder block, a piston, and a piston rod mounted in the cylinder block, and a vacuum pressure control device controlling a vacuum pressure in an inner cavity of the cylinder block. The piston rod has a vacuum suction hole communicating with the inner cavity. The vacuum pressure in the inner cavity is controlled so that a contact force applied by the piston rod on an object adsorbed by the vacuum suction hole of the piston rod is less than or equal to a predetermined contact force.

A magnetic cleaning device includes a handle unit, a main unit, and a deforming mechanism. The main unit includes a housing and a magnetic member. The deforming mechanism is connected between the handle unit and the main unit. The housing defines an accommodating space extending along an axis. The magnetic member is disposed in the accommodating space, and is movable along the axis between an attraction position, where the magnetic member is adjacent to an end of the housing, and a non-attraction position, where the magnetic member is away from the end of the housing. The main unit is movable relative to the handle unit via operation of the deforming mechanism.

A multi-hole absorption tool includes an absorption surface including a plurality of absorption holes to which a seal is absorbed. Each of the plurality of absorption holes is classified so as to belong to at least one of a first region and a second region, and absorption holes belonging to the first region and absorption holes belonging to the second region are connected to different suction devices. The multi-hole absorption tool having this configuration can peel off the seal from a mount with no wrinkle in the seal, prevent positional displacement of the seal with respect to an object to which the seal is affixed, and affix the seal to the object.

An end-effector system is disclosed for use with a programmable motion device. The end-effector system includes an arm attachment portion for attachment to an arm of the programmable motion device, an end-effector attachment portion for attachment to an end-effector for grasping objects, a rotational shaft portion for rotational attachment to the arm attachment portion, said rotational shaft portion being coupled to the end-effector attachment portion at a distal end thereof, and a motor system providing rotation of the rotational shaft portion as well as the end-effector attachment portion with respect to the arm attachment portion.

An affordance is disclosed which allows a robot system to pick an expanded range of items using a single type of end effector, without requiring the use of different end effectors. The affordance includes a first layer and a second layer. The first layer is arranged to be grasped by an end effector of the robot system and the second layer is arranged to adhere to the item. A system having an affordance and a robot system with an end effector arranged to grasp at least one item from storage by way of the affordance is also disclosed.

Provided are systems and apparatuses for manufacturing aircraft support structures. An example robotic end effector comprises a rotatable reel with a flat strip of material wound around the reel. The end effector further includes a forming shoe including a forming surface contacting the strip of material. A first end of the forming surface corresponds to a start shape and a second end of the forming surface corresponds to an end shape. As the strip of material passes from the first end of the forming surface to the second end of the forming surface, the strip of material transitions from the first shape to the end shape and is deposited as a formed stringer ply onto an application surface. The forming shoe may further include a vacuum system to suction air through a plurality of ports along the forming surface to urge the strip of material against the forming surface.

A robotic arm is provided. The robotic arm includes a gripper. The gripper includes an elongated body; a semi-circular body includes a flat surface and a curved surface; a suction unit of a pre-defined shape operatively coupled to a center portion of the curved surface of the semi-circular body; an array of pins arranged around the suction unit, wherein each of the array of pins comprises a pin body and a pin head, wherein the head rests along the flat surface of the semi-circular body, wherein the pin body is extended along the curved surface of the semi-circular body. The array of pins is configured to take a shape of a target object to provide support for the target object during an operation of the robotic arm. The suction unit is configured to hold the target object in an inward direction during the operation of the robotic arm.

A feeder that feeds objects to be picked up by a robot, includes an object container unit having a first planar portion including a first planar surface in which the objects are thrown, and a groove portion including a plurality of grooves extending in a first direction from the first planar portion as seen from a normal direction in which a normal of the first planar surface extends, and a vibrator unit that applies vibration to the object container unit, wherein the vibrator unit has a first vibration mode in which the objects are moved in the first direction.