A traverse actuating and gripping system configured to move a catwalk relative to a support structure. The system includes a body, an upper gripping pad coupled to the body and configured to contact a side of a support member of the support structure, a lower gripping pad coupled to the body and configured to contact an opposing side of the support member, and an actuator coupled to at least one of the gripping pads and configured to move the gripping pads between a gripping position that grips the support member and an open position that spaces one of the gripping pads away from the support member.

A traverse actuating and gripping system configured to move a catwalk relative to a support structure. The system includes a body, an upper gripping pad coupled to the body and configured to contact a side of a support member of the support structure, a lower gripping pad coupled to the body and configured to contact an opposing side of the support member, and an actuator coupled to at least one of the gripping pads and configured to move the gripping pads between a gripping position that grips the support member and an open position that spaces one of the gripping pads away from the support member.

Methods for welding motor vehicle body component subassemblies at a weld stations are disclosed. First and second pallets may be arranged for reciprocal movement between a load/unload station and the weld station and the pallets are alternately moved from a load/unload station to the weld station while the other pallet is moved from the weld station to a load/unload station. Each pallet may have a plurality of substations for receipt of component subassemblies and, while each pallet is at the load/unload station, the component subassembly at each substation is moved to the next successive substation and a further component is added to the moved component.

Methods for welding motor vehicle body component subassemblies at a weld stations are disclosed. First and second pallets may be arranged for reciprocal movement between a load/unload station and the weld station and the pallets are alternately moved from a load/unload station to the weld station while the other pallet is moved from the weld station to a load/unload station. Each pallet may have a plurality of substations for receipt of component subassemblies and, while each pallet is at the load/unload station, the component subassembly at each substation is moved to the next successive substation and a further component is added to the moved component.

An apparatus for transporting veneer sheets, where the veneer sheets each have an upper surface, a lower surface, and a plurality of edges connecting the upper surface to the lower surface. The apparatus includes a vacuum source and a conveyor for transporting individual sheets of veneer along a direction of travel to a predetermined location. The conveyor includes a belt running in the direction of travel. A vacuum opening adjacent the belt is in communication with the vacuum source to draw respective sheets of veneer to the belt by suction applied to the upper surface or the lower surface of the veneer sheets via the vacuum opening. The position of the conveyor is adjustable in a direction transverse the direction of travel to accommodate veneer sheets having different lengths.

An organic layer deposition apparatus, and a method of manufacturing an organic light-emitting display device using the organic layer deposition apparatus. The organic layer deposition apparatus includes: an electrostatic chuck that fixedly supports a substrate that is a deposition target; a deposition unit including a chamber maintained at a vacuum and an organic layer deposition assembly for depositing an organic layer on the substrate fixedly supported by the electrostatic chuck; and a first conveyor unit for moving the electrostatic chuck fixedly supporting the substrate into the deposition unit, wherein the first conveyor unit passes through inside the chamber, and the first conveyor unit includes a guide unit having a receiving member for supporting the electrostatic chuck to be movable in a direction.

Tension spikes in a running web slit to direct output webs to respective upper and lower cutoff knives are minimized by anticipating the increased tension in the web when the lead edge enters an outfeed nip and offsetting the tension spike with a decrease in the force imposed by the infeed pull roll nip, whereby the sum of the web tensions is substantially uniform through the cutting cycle and the sheets are cut to a consistent length.

Proposed is a secondary battery manufacturing process carrier having a carrier transporting track structure. The secondary battery manufacturing process carrier includes: a carrier base (20); a carrier roller (30) provided at a first side of the carrier base (20); a rolling member (40) provided at a second side of the carrier base (20); and a track base (10) on which the carrier base (20) is movably disposed. The carrier base (20) has a first carrier side plate (122) and a second carrier side plate (124) at left and right sides thereof, the first carrier side plate (122) and the second carrier side plate (124) include the carrier roller (30) and the rolling member (40), respectively, and the carrier roller (30) and the rolling member (40) are configured to be rolled on the track base (10).

Proposed is a secondary battery manufacturing process carrier having a carrier transporting track structure. The secondary battery manufacturing process carrier includes: a carrier base (20); a carrier roller (30) provided at a first side of the carrier base (20); a rolling member (40) provided at a second side of the carrier base (20); and a track base (10) on which the carrier base (20) is movably disposed. The carrier base (20) has a first carrier side plate (122) and a second carrier side plate (124) at left and right sides thereof, the first carrier side plate (122) and the second carrier side plate (124) include the carrier roller (30) and the rolling member (40), respectively, and the carrier roller (30) and the rolling member (40) are configured to be rolled on the track base (10).

An assembly machine includes a plurality of track modules, each track module including a section of track, the plurality of track modules connectable to form a continuous circuitous track, the continuous circuitous track configured to receive a dispensing head, the dispensing head configured to rotate about the continuous circuitous track and at least partially assemble an unfinished product. The machine includes a first feeder module attached to a first length of the continuous circuitous track configured to feed a component to the dispensing head, and a first placement module attached to a second length of the continuous circuitous track configured to receive the unfinished product. The dispensing head is configured to place the component on the unfinished product. The assembly machine is reconfigurable by attaching or removing one or more of the plurality of track modules, the first feeder module and the first placement module.