Example aspects relate to at least one transportation vehicle for mobile sorting of shipments, the transportation vehicle comprising a loading area arranged on the transportation vehicle, at least one infeed conveyer foldable attached to the loading area for loading an incoming shipment onto the transportation vehicle, at least two outfeed conveyers foldable attached to the loading area for unloading an outgoing shipment from the transportation vehicle, a scanning device arranged on the loading area adjacent to the at least one infeed conveyer and configured to scan the incoming shipment for obtaining a scanning information, a main conveyer arranged on the loading area and configured to convey the incoming shipment past the scanning device towards a sorting device, and the sorting device configured to sort the scanned incoming shipment according to the scanning information towards one of the outfeed conveyers for unloading the incoming shipment as outgoing shipment.

A cutting, leveling, and welding device for a flat wire motor stator includes a material conveying line, a material transfer mechanism, a material conveying rotating disk, a tooling picking and placing mechanism, a pressing and fitting mechanism, a wire cutting mechanism, a welding mechanism, a locking mechanism, and a stator adjustment mechanism. The material conveying rotating disk is provided with working position holes arranged around the material conveying rotating disk, and the material conveying rotating disk is capable of rotating to drive a to-be-processed stator to rotate. The tooling picking and placing mechanism, pressing and fitting mechanism, wire cutting mechanism, and welding mechanism are arranged in sequence around and above the material conveying rotating disk and are corresponding to the working position holes. The to-be-processed stators on the material conveying line are continually conveyed to the material conveying rotating disk by using the material transfer mechanism.

This apparatus includes a carrying path for an electronic component, a holder unit holding and releasing the electronic component, and N number of rotary pickups including the multiple holder units, and intermittently rotating around the rotation axis. At least one of the rotary pickups is a first carrying structure. The rotary pickup adjacent to the first carrying structure is a second carrying structure installed so as to not overlap with each other, to have the respective rotation axes orthogonal to each other. The holder unit of the first carrying structure and that of the second carrying structure are each a sucking nozzle. The holder units of the first carrying structure and of the second carrying structure have a common stop position, and the electronic component is transferred at only a transfer point that is the stop position.

The invention relates to a machine tool as well as to a method for operating the machine tool. The machine tool comprises a workpiece carrier (20) that can be incrementally rotated about an incremental advance axis (22) and has several carrier sides (25). A first workpiece chuck unit (26) for holding a workpiece in a first position (P1) and a second workpiece chuck unit (27) for holding a workpiece in a second position (P2) are arranged on each carrier side (25). In each angular position or incremental advance position of the workpiece carrier (20), one carrier side (25) is in a loading station (30), one carrier side (25) is in an unloading station 31, and the respectively other carrier sides (25) are in respectively one work station (32). A workpiece changing device (34) is provided, said device moving a partially machined workpiece (16a) out of the first position (P1) in the unloading station (31) into the second position (P2) in the loading station. The position change of the partially machined workpiece (16a) preferably also takes place during the incremental advance movement of the workpiece carrier (20). Preferably, the partially machined workpiece (16a) can be turned in doing so.

This disclosure provides oil filling and labeling apparatuses for atomizers of electronic cigarettes, which include a rack provided with a table board. A material pick-up operation position, an oil filling operation position, an assembling operation position, a labeling operation position and a pressing operation position for silicon rubber sleeve are provided on the table board. The oil filling and labeling apparatuses for the atomizers of the electronic cigarettes further include a material loading mechanism, an oil filling mechanism, a mechanism for mounting oil-sealing ring, a mechanism for mounting end cap, an electric resistance detection mechanism, a first material rotation mechanism, a labeling mechanism, a second material rotation mechanism and a mechanism for pressing silicon rubber sleeve. The atomizer of the electronic cigarette is successively conveyed for processing among such mechanisms.

A manufacturing apparatus (2) for components (3), which has at least one movable loading station (20) designed as a tool magazine (13) and having reception points (39) with different tools (4, 5, 6, 7) for different component types A-I. The loading station (20) is connected to one or more machining stations (20, 22) at which at least one machining device (23) and at least one handling device (24) for handling and releasing the components (3) from the tool (4, 5, 6, 7, 8) are arranged. The selected Figure is FIG. 5.

A method for applying a seal to a component includes conveying the component to a removal region while the component is held on a holding element and on a conveyor element. By a first robot, the holding element and the component are removed from the conveyor element, which is in the removal region, and moved to a rotary frame. By the first robot, the holding element and the component are supported on the rotary frame and are disposed in a first region of the rotary frame while the rotary frame is in a first rotational position. The rotary frame is rotated from the first rotational position to a second rotational position. The seal is applied to the component by a second robot while the component is supported on the holding element and on the rotary frame and while the rotary frame is in the second rotational position.

A safety belt retractor pre-winding and baffle installation device is provided, including a rotary table, which is provided with a loading station, a winding station, a stop slot positioning station, a baffle installation station, a NG discharging station, and a qualified product discharging station. The rotation shaft of the safety belt retractor is installed on the profiling fixture. After winding to the set number of turns through the winding mechanism, the position of the stop slot is found through the position detection mechanism, and finally the baffle is successfully installed by the multi-axis manipulator. The disclosure also uses the visual sensor to identify the type, control the number of turns of the servo motor in the pre-winding step, and check whether the torque fed back by the servo motor is within the set range, it can realize the processing of products with multiple specifications.