A vehicle body assembling system forms a pre-buck section and a main buck section set along a transfer path of a floor assembly. A main buck unit is set at opposite sides of the transfer path in the main buck section, controls an upper portion of a side assembly in a state that a lower portion of each side assembly is pre-assembled to the floor assembly the pre-buck section, and assembles the upper portion of the side assembly and vehicle body parts using a second welding robot.

A self-leveling container that contains argon gas for laser welding of a work piece includes a base surface, a plurality of pleated sidewalls, each comprising an associated distal sidewall end and an associated proximate sidewall end, where the proximate sidewall end is sealed to the base surface. A frame includes a plurality of frame segments, each secured to an associated one of the distal sidewall ends. A plurality of actuators, each located with one intersection of the plurality of frame segments, linearly move its associated one intersection of the plurality frame segments so a plane formed by the frame segments remains parallel to a planar surface.

The invention relates to a device for roughening cylinder bores using a beam tool and offering a very high level of process reliability even for a large quantity.

Disclosed are a tight-contact jig for secondary battery tab laser welding including an upper tight-contact jig including a ring-shaped spray portion capable of performing surface spray in order to inhibit deterioration in weld quality due to reaction with hydrogen or oxygen in air at the time of laser welding for forming an electrode terminal and to inhibit the occurrence of short circuit due to deposition of spatter generated at the time of welding and a welding method.

A connector and labeling forming method thereof is provided. The method includes: a laser engraving device generating a laser beam, and controlling the laser beam to engrave a label on a labeling part of a metal shell of a connector. The connector includes a metal shell and a label. The metal shell has a labeling part and the label is engraved on the labeling part by a laser beam. As such, the invention can engrave the label on the labeling part of the metal shell of the connector by using the laser engraving technology to replace the traditional self-adhesive label, thereby being able to solve all the problems caused by the self-adhesive label.

Various embodiments directed to manufacturing a battery assembly or battery pack are described. In some embodiments, the manufacturing process utilizes a welding jig to facilitate the placement and disposition of cell connection materials to battery cells when forming a battery assembly or pack. Using the jig, the connection materials can be fused to the cells using a laser welding process. In doing so, the process enables certain materials, typically unsuitable for welding processes (e.g., spot welding) to be utilized as connection materials between cells.

In forming modification layers by radiating laser light to an inside of a processing target object from a modifying device periodically while rotating the processing target object held by a holder relative to the modifying device by a rotating mechanism and by moving the modifying device relative to the holder in a diametrical direction by a moving mechanism, a boundary position of the laser light in the diametrical direction is calculated, the boundary position being a position where a circumferential distance between the modification layers becomes a required threshold value, and a diametrical distance between the modification layers is reduced in a moving direction of the modifying device from the boundary position and/or a frequency of the laser light is reduced.

A laser processing system includes a laser oscillator that forms a fusion zone in a workpiece by irradiating a fusion-scheduled region of a processing target surface of the workpiece with a laser beam, a photometer that measures intensity of light from the fusion zone of the workpiece, and a jig disposed on the processing target surface of the workpiece not to overlap the fusion-scheduled region in order to press the workpiece. The jig has a reflection surface inclined in a manner that the reflection surface is further away from the fusion-scheduled region as the reflection surface is further away from the processing target surface in a normal direction of the processing target surface of the workpiece.

A jig for manufacturing a rechargeable battery includes a plurality of pressing parts, each pressing part being configured to press a circumference of a welding part of a corresponding cylindrical rechargeable battery; and a jig plate supporting the plurality of pressing parts, the jig plate including a flow path for circulation of a refrigerant therein. A method manufacturing a rechargeable battery using the jig is also provided.

A spacer grid welding fixture comprises a frame sized to receive an assembled spacer grid comprising a first set of parallel straps and a second set of parallel straps oriented orthogonally to the first set of parallel straps, the first and second sets of parallel straps interlocked together by slots cut into the straps. A first set of grid engagement bars is placed on a first side of the spacer grid with each grid engagement bar arranged parallel with the straps of the first set of parallel straps and engaging the straps of the second set of parallel straps. A second set of grid engagement bars is placed on an opposite second side of the spacer grid with each grid engagement bar arranged parallel with the straps of the second set of parallel straps and engaging the straps of the first set of parallel straps.