In a stick delivering apparatus I, a receiving space D capable of receiving a stick receiving part 2 of a cart II in a stick arrangement direction Y is formed at a position in close proximity to a support arm device 63 in a stick longitudinal direction X. The support arm device 63 includes a stationary stick supporting member 64 extending in the stick arrangement direction Y and a raising/lowering stick supporting member 65 extending in parallel with the stationary stick supporting member 64 in the stick longitudinal direction X. The stationary stick supporting member 64 and the raising/lowering stick supporting member 65 have serrated receiving tooth portions 64A and 65A, respectively, and the receiving tooth portions 64A and 65A have stick sliding edges 64A-1 and 65A-1 which are inclined with respect to a horizontal plane.

In a stick delivering apparatus I, a receiving space D capable of receiving a stick receiving part 2 of a cart II in a stick arrangement direction Y is formed at a position in close proximity to a support arm device 63 in a stick longitudinal direction X. The support arm device 63 includes a stationary stick supporting member 64 extending in the stick arrangement direction Y and a raising/lowering stick supporting member 65 extending in parallel with the stationary stick supporting member 64 in the stick longitudinal direction X. The stationary stick supporting member 64 and the raising/lowering stick supporting member 65 have serrated receiving tooth portions 64A and 65A, respectively, and the receiving tooth portions 64A and 65A have stick sliding edges 64A-1 and 65A-1 which are inclined with respect to a horizontal plane.

A conveyer equipped with rotating discs rotatable around axes thereof relative to a mounting base. Each of the rotating discs has grooves in which rectangular wires are receivable. When an upstream and a downstream one of the rotating disc are arranged in a given angular relation to each other, one of the grooves of the upstream rotating disc is aligned with that of the downstream rotating disc to pass the rectangular wire from the upstream rotating disc to the downstream rotating disc. Upon such passing of the rectangular wire, the grooves of the upstream and downstream rotating discs hold or clamp all side surfaces of the rectangular wire, thereby ensuring the stability in retaining the rectangular wire when passed from one to another of the rotating discs, which enables the conveyer to carry the rectangular wires at high speeds.

In a stick delivering apparatus I, a receiving space D capable of receiving a stick receiving part 2 of a cart II in a stick arrangement direction Y is formed at a position in close proximity to a support arm device 63 in a stick longitudinal direction X. The support arm device 63 includes a stationary stick supporting member 64 extending in the stick arrangement direction Y and a raising/lowering stick supporting member 65 extending in parallel with the stationary stick supporting member 64 in the stick longitudinal direction X. The stationary stick supporting member 64 and the raising/lowering stick supporting member 65 have serrated receiving tooth portions 64A and 65A, respectively, and the receiving tooth portions 64A and 65A have stick sliding edges 64A-1 and 65A-1 which are inclined with respect to a horizontal plane. The stationary stick supporting member 64 receives the stick by a trough portion serving as a supporting portion of the receiving tooth portion 64A. The receiving tooth portion 65A of the raising/lowering stick supporting member 65 is at a position offset in the stick arrangement direction from the receiving tooth portion 64A of the stationary stick supporting member 64, and the raising/lowering stick supporting member 65 is reciprocatable between a lower position and an upper position with respect to the stationary stick supporting member 64.

In a stick delivering apparatus I, a receiving space D capable of receiving a stick receiving part 2 of a cart II in a stick arrangement direction Y is formed at a position in close proximity to a support arm device 63 in a stick longitudinal direction X. The support arm device 63 includes a stationary stick supporting member 64 extending in the stick arrangement direction Y and a raising/lowering stick supporting member 65 extending in parallel with the stationary stick supporting member 64 in the stick longitudinal direction X. The stationary stick supporting member 64 and the raising/lowering stick supporting member 65 have serrated receiving tooth portions 64A and 65A, respectively, and the receiving tooth portions 64A and 65A have stick sliding edges 64A-1 and 65A-1 which are inclined with respect to a horizontal plane. The stationary stick supporting member 64 receives the stick by a trough portion serving as a supporting portion of the receiving tooth portion 64A. The receiving tooth portion 65A of the raising/lowering stick supporting member 65 is at a position offset in the stick arrangement direction from the receiving tooth portion 64A of the stationary stick supporting member 64, and the raising/lowering stick supporting member 65 is reciprocatable between a lower position and an upper position with respect to the stationary stick supporting member 64.

Disclosed is a device fabrication system comprising a wafer input loadlock, a wafer output loadlock, one or more wafer processing regions, and one or more walking beams for transporting one or more wafers from the wafer input loadlock through the wafer processing regions, and onto the wafer output loadlock. Also disclosed are methods for transporting one or more wafers through the device fabrication system described herein.

Disclosed is a device fabrication system comprising a wafer input loadlock, a wafer output loadlock, one or more wafer processing regions, and one or more walking beams for transporting one or more wafers from the wafer input loadlock through the wafer processing regions, and onto the wafer output loadlock. Also disclosed are methods for transporting one or more wafers through the device fabrication system described herein.

Disclosed is a device fabrication system comprising a wafer input loadlock, a wafer output loadlock, one or more wafer processing regions, and one or more walking beams for transporting one or more wafers from the wafer input loadlock through the wafer processing regions, and onto the wafer output loadlock. Also disclosed are methods for transporting one or more wafers through the device fabrication system described herein.

A rear suspension member (RSM) transfer assembly for transferring an RSM from a sub-assembly line to a main assembly line includes a first RSM lifter, an RSM buffer, and a second RSM lifter. The first RSM lifter is configured to travel laterally between the sub-assembly line and the main assembly line. The first RSM lifter includes a lifting body and a rotatable arm configured to retrieve the RSM from the sub-assembly line and transport the RSM to the main assembly line. The RSM buffer is configured to receive the RSM from the first RSM lifter and transport the RSM through a plurality of resting positions. The second RSM lifter is configured to receive the RSM from the RSM buffer and raise the RSM into position for installation on a vehicle.

A tray sealing machine comprises a gripper device including first and second tray grippers that operate together to take up trays provided by a feed unit and transport them to a sealing station that is downstream in a production direction. A speed of the first and second tray grippers in the production direction when respectively performing, a closing motion from a respective initial position toward a respective closing position can be accelerated such that the speed of the first and second tray grippers in the production direction relative to a belt speed of the feed unit during a predetermined first time interval is slower than the belt speed, and during a subsequent predetermined second time interval until the respective closing position has been reached is greater than the belt speed, so that gripper fingers on the first and second tray grippers immerse into respective position windows located between the trays.