In the present invention, an insertion object (300) and backing-equipped shrink film packaging (200) are lined up in series along the insertion direction. An introduction guide body (120) comprises: a head part (121) having an outer diameter smaller than the inner diameter of the a shrink film (220); and an air-blowing port (122) that blows air from the inside thereof toward the outer surface thereof. There are an insertion preparation means in which the introduction guide body (120) is gradually introduced into the shrink film (220) of the backing-equipped shrink film packaging (200) by the sliding movement of a slider device (130), and the shrink film (220) is inflated by air, and an insertion means in which the insertion object (300) is gradually inserted into the inflated shrink film (220), and the insertion object (300) is pulled or pushed to a prescribed position by the insertion means.

In the present invention, an insertion object (300) and backing-equipped shrink film packaging (200) are lined up in series along the insertion direction. An introduction guide body (120) comprises: a head part (121) having an outer diameter smaller than the inner diameter of the a shrink film (220); and an air-blowing port (122) that blows air from the inside thereof toward the outer surface thereof. There are an insertion preparation means in which the introduction guide body (120) is gradually introduced into the shrink film (220) of the backing-equipped shrink film packaging (200) by the sliding movement of a slider device (130), and the shrink film (220) is inflated by air, and an insertion means in which the insertion object (300) is gradually inserted into the inflated shrink film (220), and the insertion object (300) is pulled or pushed to a prescribed position by the insertion means.

A station for feeding closing seals for containers includes at least one fixed magazine of seals which is provided with an outlet from which the seals can be taken individually. The station further includes a carousel for feeding seals which can rotate with respect to a first central rotation axis and is provided with pickers which are radially spaced apart from the first rotation axis. The pickers are individually rotatable about a second rotation axis which is not parallel to the first axis of the carousel. During rotation of the carousel, at least one picker is configured to rotate about the second axis from a position for taking the seal from the magazine to a position for releasing the seal.

This box assembling and packing system is provided: a first jig which is fixed at a predetermined position and against which a side part of a body of a packing box is thrust; a second jig which is fixed at a predetermined position and against which a flap part and a tuck part of the packing box are thrust; and a robot having two articulated arms. A first articulated arm of the two articulated arms holds and moves the packing box in a flatly collapsed form by a packing box holding mechanism, folds and raises the body of the flatly collapsed packing box into a rectangular tubular shape in cooperation with the first jig, and maintains the folded and raised body of the packing box in the rectangular tubular shape by a packing box rectangular tubular shape maintaining mechanism. The second articulated arm moves a folding member into contact with the flap part and the tuck part of the packing box being held by the packing box holding mechanism of the first articulated arm, forms each of a bottom and a lid of the packing box in cooperation with the second jig, and moves an object-to-be-packed being grasped by an object-to-be-packed grasping mechanism and inserts it into the body from an end portion at a timing between forming the bottom and forming the lid.

A robotic pack station is disclosed. The robotic pack station automates the transfer of items from a tote or bin to a shipping container such as a box in a warehouse, storage or sales facility. The robotic pack station includes system and method components, and includes a work cell with a robotic arm, machine vision or sensing system, a conveyor and pack platform. Imaging of the contents of the tote with a scan tunnel and connectivity with a sorter device allows for the operation of multiple robotic pack stations, each with a specialized function such as a small box line, a medium box line, and the like.

A robotic pack station is disclosed. The robotic pack station automates the transfer of items from a tote or bin to a shipping container such as a box in a warehouse, storage or sales facility. The robotic pack station includes system and method components, and includes a work cell with a robotic arm, machine vision or sensing system, a conveyor and pack platform. Imaging of the contents of the tote with a scan tunnel and connectivity with a sorter device allows for the operation of multiple robotic pack stations, each with a specialized function such as a small box line, a medium box line, and the like.

A part packing system includes a bag holding machine including a part funnel having an opening configured to receive an end of a part and having a bag end manipulator holding first and second bag end gripper mechanisms that receive an end of the bag therebetween to open the end of the bag to form a mouth at the end of the bag. The bag end manipulator moves the first and second bag end gripper mechanisms to position the mouth of the bag immediately downstream of the opening of the part funnel. A part loading machine including a part manipulator holding the part and moving the part to a loading position upstream of the part funnel and moving the part gripper mechanism to load an end of the part through the opening in the part funnel into the mouth of the bag to load the part into the bag.

A part packing system includes a bag holding machine including a part funnel having an opening configured to receive an end of a part and having a bag end manipulator holding first and second bag end gripper mechanisms that receive an end of the bag therebetween to open the end of the bag to form a mouth at the end of the bag. The bag end manipulator moves the first and second bag end gripper mechanisms to position the mouth of the bag immediately downstream of the opening of the part funnel. A part loading machine including a part manipulator holding the part and moving the part to a loading position upstream of the part funnel and moving the part gripper mechanism to load an end of the part through the opening in the part funnel into the mouth of the bag to load the part into the bag.

A handling device for a handling of products (14), in particular food products, which are conveyed by means of a transport device (12), has at least one handling unit (16) comprising a plurality of movably supported movement carriages (18), in particular movers, and a plurality of, in particular movably supported, handling elements (20), in particular vacuum grippers, wherein on each movement carriage (18) respectively at least one handling element (20) is arranged, and has at least one carrier structure (22), which in particular extends at least partially transversally over the transport device (12) and has at least one carrier element (24) on which the movement carriages (18) are supported in such a way that they are drivable, independently from each other in terms of speed and/or position, at least along a direction (28) running at least substantially parallel to a longitudinal axis (26) of the carrier element (24), the handling elements (20) being supported on the movement carriages (18) so as to be movable, in particular individually movable, the handling elements (20) in each case having a movement axis (30, 32) that extends transversally to the longitudinal axis (26) of the carrier element (24), and/or the carrier structure (22) comprising at least one bearing unit (34), in particular a rotary bearing unit and/or a linear bearing unit, by means of which the carrier element (24), in particular together with the movement carriages (18) arranged thereon, is supported so as to be vertically movable, wherein for a movement of the handling elements (20) relative to the movement carriages (18), the movement axes (30) of the handling elements (20) in each case run at least substantially parallel to a product support surface (60) of the transport device (12), wherein the handling device further comprises at least one electromagnetic drive unit (68) for an individual movement of the movement carriages (18) relative to the carrier element (24), the electromagnetic drive unit (68) being realized as a linear motor system, wherein the handling unit (16) comprises fluidic drives (42), in particular hydraulic or pneumatic cylinders, or electromagnetic drives, in particular electromagnetic drives assigned to a further linear motor system of the handling device, for a translational movement of the handling elements (20) along the respective movement axis (30) of the handling elements (20).

A robotically-operated gripping device is provided and includes a frame assembly, a vacuum device, a clamping device, and a robotic arm. The vacuum device is connected to the frame assembly and configured to selectively attach to and position at least a portion of an object. The clamping device is connected to the frame assembly and provided for selectively clamping the object attached to the vacuum device. The robotic arm is connected to the frame assembly and provided for selectively positioning the vacuum device and the gripping device.