The invention relates to an arrangement of a gripper finger and a clamp for use in an automated parallel gripper comprising first and second gripper fingers that are moveable in a direction of translation (y), whereby the clamp is connected to the gripper finger at an underside thereof, so as to be rotational about a vertical axis of rotation (135). The clamp has a front face with a contact surface for engagement with a lateral edge of an item to be gripped and has a default orientation in which the front face is parallel to a lateral direction (x) that is perpendicular to the direction of translation (y) and to the vertical rotation axis (135). The arrangement is additionally provided with a self-alignment feature which comprises first and second biasing mechanisms arranged at either side of the rotation axis (135) in lateral direction (x). Each biasing mechanism has a first part (151, 152) connected to the finger and a second part (131, 132) connected to the clamp and is configured to exert a centering force that urges the first and second parts of each biasing mechanism into alignment with each other. When the clamp is in the default orientation, each biasing mechanism is preloaded to exert an equal moment load on the clamp in the direction of translation (y).

The invention relates to a method for assembling a motor vehicle heating, ventilation and/or air conditioning device, comprising a step of moving at least one part by a manipulator (I) provided with gripping means (2), the gripping means (2) comprising at least one first finger (3) delimiting a triangular shape, said part comprising an element of shape complementary to the trian-gular shape of the finger of the manipulator, termed counter shape, so that, during the movement step, the manipulator (I) grasps the part using the gripping means (2), the counter shape of the part en-gaging with the triangular shape of the finger (3).

The present application relates to a substrate transfer device, comprising a horizontally arranged cross beam, and support beams longitudinally arranged at two ends of the cross beam, wherein a substrate carrier is suspended on the cross beam, the substrate carrier is located between the two support beams, and the substrate carrier is parallel to a plane where the two support beams are located, the substrate carrier comprises two side walls oppositely arranged in a horizontal direction, and each of the support beams is provided with an auxiliary clamping structure for clamping the substrate carrier during transferring of the substrate carrier.

A gripping unit for the automated assembly of a component having at least one holding region may include at least one assembly gripper configured to grip the component in the at least one holding region. The at least one assembly gripper may include two gripping fingers that may be axially adjustable towards one another into a gripping position where the component is securable between the two gripping fingers, and that may be axially adjustable away from one another into a released position where the component is releasable from the two gripping fingers. The two gripping fingers may include a first gripping finger having a first gripping contour and a second gripping finger having a second gripping contour. The first gripping contour and the second gripping contour may be structured complimentary to the at least one holding region of the component.

A grasping mechanism includes a base and at least two linkage grasping assemblies. Each linkage grasping assembly includes a grasping member, a first rod and a second rod. The grasping member includes a grasping portion and a connecting portion. The first rod has a first end rotatably connected to the connecting portion and a second end rotatably connected to the base. The second rod has a first end rotatably connected to the connecting portion and a second end rotatably connected to the base.

A gripper for the automated wiring of electrical components of an electrical switchgear, the gripper having at least two gripper fingers, wherein the gripper fingers delimit between them a cable guide corridor, the passage cross-section of which is bounded at a distal end of the gripper fingers by opposing gripper jaws of the gripper fingers and, with respect to the distal end, is bounded further proximally by opposing cable drives of the gripper fingers, the two gripper fingers being adjustable with respect to one another in an adjustment direction which corresponds to a cross-sectional direction of the passage cross-section in order to vary the passage cross-section via a linear adjustment unit. A corresponding robot and a corresponding method are further described.

A method for picking polybagged articles includes targeting the polybagged article, placing a multistage gripper adjacent the polybagged article, tenting, pressing on, or suspending the polybagged article from the tenting tool, and gathering the polybagged article with a perimeter gripper.

A workpiece transport unit including a pair of arms, an opening/closing mechanism configured to open and close the pair of arms in a horizontal direction, a pair of first placement surfaces provided at the pair of arms and configured for a first workpiece to be placed thereon, and a pair of second placement surfaces provided at the pair of arms and configured for a second workpiece to be placed thereon.

A remote controlled luggage handler apparatus for loading and unloading luggage from tour buses includes a carrier body having a pair of drive tracks. A multi-axis arm has a base pivot unit coupled to a body top side, a proximal segment coupled to the base pivot unit, a distal segment, and a head pivot unit. A jaw comprises a jaw support coupled to the head pivot unit, a fixed mandible coupled to the jaw support, and a sliding mandible slidably coupled to the jaw support to secure a suitcase between the fixed mandible and the sliding mandible. A CPU, a first transceiver, and a battery are coupled within the carrier body. A remote control is in operational communication with the first transceiver to control the drive tracks and the arm. A charging port is configured to be installed within a storage bay of a tour bus to charge the battery.

A gripper mechanism includes a stator and a pair of mobile grippers moveably coupled to the stator via a linear bearing, the stator comprising a housing and a permanent magnet mounted within the housing, the mobile gripper comprising a support portion, a coil mounted on the support portion, and a gripper finger coupled to the support portion. The gripper mechanism further includes at least one magnetic locking mechanism comprising at least a first permanent magnet mounted on one of the stator and the mobile grippers, and a complementary soft magnetic material portion or magnet mounted on the other of the stator and the mobile grippers.