An insertion station of a component (2), for example a clevis, in a component seat (12) formed in an assembly (3) to be assembled, for example a hinge assembly for doors, includes a component ordering device (14) to order the loose components coming from a component feed hopper. A component support seat (16) receives the component and is configured in such a way as to guide the component in the horizontal insertion direction. A manipulator (20) picks a component (2) from the component ordering device (14) and deposit the component in the component support seat (16). An insertion actuator (30) has a pusher member (32) operable to push the component (2) in the component seat (12), and a positioning unit (40), including an abutment (42) operable to block the assembly (3) in a component insertion position.

An assembly wedge for an oil cooler in a radiator tank includes a housing and a biased pin. The biased pin is disposed slideably within the housing and is configured to engage the oil cooler.

An angle screw feeding device comprises a screw feeding unit, a screw transporting unit, and a screw driving unit. The device is able to be used with small screws. Further, the device is able to perform an automatic screwing action at any selected angles.

An insertion station of a component (2), for example a clevis, in a component seat (12) formed in an assembly (3) to be assembled, for example a hinge assembly for doors, includes a component ordering device (14) to order the loose components coming from a component feed hopper. A component support seat (16) receives the component and is configured in such a way as to guide the component in the horizontal insertion direction. A manipulator (20) picks a component (2) from the component ordering device (14) and deposit the component in the component support seat (16). An insertion actuator (30) has a pusher member (32) operable to push the component (2) in the component seat (12), and a positioning unit (40), including an abutment (42) operable to block the assembly (3) in a component insertion position.

A feeding rod is configured to insert a shaft-shaped component having a circular flange and a shaft portion into a receiving hole. A central axis of the shaft portion is disposed in an inclined state with respect to a central axis of the receiving hole due to the inclined disposition of the feeding rod. A surface of the flange is in close contact with a tip surface of the feeding rod due to an attraction force of a magnet of the feeding rod. A positioning protrusion receives an outer peripheral portion of the flange and sets a relative position between the feeding rod and the shaft-shaped component. A most advanced stop position of the feeding rod is a position where a tip portion of the shaft portion has entered the receiving hole, and the attraction force of the magnet is configured to be eliminated at the stop position.

A device is disclosed for supplying swageable collars from a magazine to a swaging tool such that the collars may be affixed to the shanks of lockbolts in a series of application steps. The feeder device can be mounted on the nose assembly of a swaging tool so that collar feeding and swaging can be accomplished in a single-handed operation. The feeder device responds to contact pressure against a work surface during a collar placement maneuver to release a collar from a presentation position for normal swaging. Releasing pressure on the workpiece allows a lower assembly of the feeder device to lift the next collar available from a magazine into the presentation position for application to the next lockbolt shank in a series of lockbolts to be finished.

Image data from an image sensor is input into a predictive model to identify perimeter edges of a set of cuboidal items held on a pallet. Depth data from a depth sensor is used to identify a top surface of a first cuboidal item of the set of cuboidal items. Coordinates associated with corners of the first cuboidal item are identified using information about the perimeter edges and the top surface. The coordinates are used to generate instructions for a robotic manipulator to pick up the first cuboidal item.

Systems, apparatus, and methods of manufacturing an article using electroadhesion technology, either as a sole modality of handling such materials or in concert with at least one mechanically actuated modality for the pick-up and release of materials, respectively. The mechanically actuated modality in one embodiment is configured as a netting configured to be placed over a contact surface of an electroadhesive plate to facilitate the handling of an object.

A part assembly system is disclosed that includes a first conveyor configured to convey fastening target parts and a second conveyor configured to convey correlated parts to which the fastening target part is to be fastened, including: i) a bolt supplying unit configured in a robot working section between the first and second conveyors and supplying bolts to a predetermined position; and ii) a robot gripper configured in the robot working section, picking up the bolts to distribute the bolts to a fastening position of the fastening target part, and moving the fastening target part to a manual working section of the second conveyor.

A projection portion is formed on a distal end surface of a supply rod with which a surface of a flange is to be brought into close contact. A circular-arc receiving surface fitting an outer peripheral portion is formed at a boundary portion between the distal end surface and the projection portion. One side of the circular-arc receiving surface is continuous with the distal end surface, and another side of the circular-arc receiving surface is continuous with a regulation inner surface formed on the projection portion in a state of being opposed to the distal end surface. With this, a receiving groove is formed, and a control gap is defined between the regulation inner surface and the flange. The close contact of the surface with the distal end surface is achieved with a magnet of an advancing/retreating type provided in the supply rod.