A vacuum-based end effector for engaging parcels includes a base plate, one or more vacuum cups of a first type, and one or more vacuum cups of a second type. Each vacuum cup of the vacuum-based end effector is configured to be placed in fluid communication with a vacuum source to provide the vacuum cup with a suction force which can be used to engage and grasp parcels. Each vacuum cup includes a bellows defining a pathway for a flow of air and a lip connected to the bellows. Each lip of the one or more vacuum cups of the first type comprises a foam lip, and each lip of the one or more vacuum cups of the second type comprises an elastomeric lip. The vacuum-based end effector can be combined with a robot to provide an improved system for engaging parcels.

The polymer film of the present invention has through holes extending from one principal surface of the polymer film to the other principal surface of the polymer film. The through holes are straight holes having a central axis extending straight, and have a shape in which the area of a cross-section perpendicular to the direction of the central axis increases from the one principal surface of the polymer film toward the other principal surface. This polymer film has passages in its thickness direction, has an unconventional structure, and can be used in various applications, such as in a waterproof sound-permeable membrane, in a waterproof gas-permeable membrane, and in a suction sheet. The ratio a/b of the opening diameter a of the through holes at the one principal surface to the opening diameter b of the through holes at the other principal surface is 80% or is less than 80%.

A patch applicator arrangement for securing a patch over a hole in a vehicle part. The arrangement provides a robotic arm having at least one movable joint that allows the robotic arm to move about several axes. At the end of the robotic arm is a spindle that has several spring loaded patch applicators connected. The arrangement also includes a patch dispensing apparatus that the arrangements uses along with the robotic arm to place patches over holes in a vehicle part. The arrangement also provides a verification method to make sure the holes have been properly covered.

An end effector is disclosed for an articulated arm. The end effector includes a valve assembly including a plurality of supply channels, each supply channel including a supply conduit, a pressure sensor in fluid communication with the supply conduit, and a supply conduit plug. The supply conduit is in fluid communication with a vacuum source. During use, each supply conduit is either at vacuum such that the pressure within the supply conduit is substantially at a vacuum pressure, or is at a pressure that is substantially higher than vacuum pressure because the supply conduit plug has moved to block a portion of the supply conduit. The pressure sensor of each supply conduit provides a pressure sensor signal responsive to whether the pressure in the conduit is either substantially at vacuum or is at a pressure that is substantially higher than vacuum.

End effectors having compaction feet for welding thermoplastic parts of thermoplastic composite laminated articles are described. An example end effector is to be coupled to a robot. The end effector includes a welding head. The welding head includes a welder having a first central axis and a compaction foot having a second central axis. The welder is movable along the first central axis between a first retracted position and a first extended position relative to a surface of the end effector. The compaction foot circumscribes the welder and is movable along the second central axis between a second retracted position and a second extended position relative to the surface.

The disclosed embodiments are and include at least an apparatus, system and method for providing a vacuum grip for an end effector. The apparatus, system and method may include at least a vacuum draw eyelet connectively associated with a vacuum at a base portion thereof, and having a larger cross-sectional circumference at a topmost portion thereof than at the base portion; an extending cup foam portion including a receiving portion suitable for receiving therewithin the larger cross-sectional circumference of the topmost portion; and a wire clip having two legs inserted along a cross-sectional plane of the extending cup foam portion, the two legs being suitable to compress the receiving portion into frictional contact at two tangent points on a second cross-sectional circumference of the vacuum draw eyelet below the larger cross-sectional circumference.

End effectors having reconfigurable vacuum heads for picking up thermoplastic parts of thermoplastic composite laminated articles are described. An example end effector is to be coupled to a robot. The end effector includes a first vacuum head having a first vacuum surface. The first vacuum head is to pick up a thermoplastic part in response to a first vacuum force applied at the first vacuum surface. The end effector further includes a second vacuum head having a second vacuum surface. The second vacuum head is to assist the first vacuum head in picking up the thermoplastic part in response to a second vacuum force applied at the second vacuum surface. The end effector further includes an arm to adjustably position the second vacuum head relative to the first vacuum head. The second vacuum head is coupled to the arm, and the arm is movable relative to the first vacuum head.

A system is disclosed for providing dynamic vacuum control to an end effector of an articulated arm. The system includes a first vacuum source for providing a first vacuum pressure with a first maximum air flow rate, and a second vacuum source for providing a second vacuum pressure with a second maximum air flow rate, wherein the second vacuum pressure is higher than the first vacuum pressure and wherein the second maximum air flow rate is greater than the first maximum air flow rate.

An end effector is disclosed for an articulated arm. The end effector includes a valve assembly including a plurality of supply channels, each supply channel including a supply conduit, a pressure sensor in fluid communication with the supply conduit, and a supply conduit plug. The supply conduit is in fluid communication with a vacuum source. During use, each supply conduit is either at vacuum such that the pressure within the supply conduit is substantially at a vacuum pressure, or is at a pressure that is substantially higher than vacuum pressure because the supply conduit plug has moved to block a portion of the supply conduit. The pressure sensor of each supply conduit provides a pressure sensor signal responsive to whether the pressure in the conduit is either substantially at vacuum or is at a pressure that is substantially higher than vacuum.

A patch applicator arrangement for securing a patch over a hole in a vehicle part. The arrangement provides a robotic arm having at least one movable joint that allows the robotic arm to move about several axes. At the end of the robotic arm is a spindle that has several spring loaded patch applicators connected. The arrangement also includes a patch dispensing apparatus that the arrangements uses along with the robotic arm to place patches over holes in a vehicle part. The arrangement also provides a verification method to make sure the holes have been properly covered.