A fixture for automatically replacing a defective/burnback contact tip coupled to a torch arm of a robotic welder wherein the robotic welder is configured to feed a welding wire to the contact tip. The robotic welder includes a nozzle coupled to the torch arm which is disposed at the contact tip. The fixture includes a first station configured to remove the nozzle from the torch arm and to hold the nozzle for reattachment to the torch arm. A second station is configured to remove the contact tip from the torch arm. A third station includes a plurality of holding units each being configured to hold an unused contact tip, wherein the third station is configured to move one of the plurality of holding units to a predetermined location to locate the unused contact tip for attachment to the torch arm.

A manufacturing apparatus that includes a conveyance device that moves a stage, where an electronic device shaped by multiple layers is placed, in X-axis and Y-axis directions. A first shaping unit, a second shaping unit, and a component mounting unit are arranged within a range in which the stage can move. The manufacturing apparatus performs additive manufacturing of the electronic device on the stage by performing a sequential movement of the stage to respective working positions of different units. As a result, in this manufacturing apparatus, a workpiece on the stage does not have to be removed and repositioned during each work process such as shaping by a first shaping unit, shaping by a second shaping unit, and electronic component mounting by a component mounting unit.

The present disclosure relates to systems, apparatuses, and methods for assembling cartridges for aerosol delivery devices. The cartridges may be assembled by transporting carriages between various substations at which parts are added to a base. In another assembly method, the base may be moved between a plurality of robots which direct the base downwardly into contact with components to couple the components therewith. An inspection system may inspect the cartridges at various stages of completion.

A system and method for assembling a plurality of components into an assembly is provided. The system includes an assembling robot and an adhesive dispensing robot. The assembling robot is configured to attach a first sub-assembly to a second sub-assembly. The first sub-assembly includes at least one of the plurality of components, and the second sub-assembly includes remaining ones of the plurality of components. The adhesive dispensing robot is configured to apply an adhesive between the first sub-assembly and the second sub-assembly, after the first sub-assembly is attached to the second sub-assembly, to bond the first sub-assembly to the second sub-assembly.

Provided is a production facility (1), including: a plurality of production units (10A to 10E) coupled to each other in a separable manner; a guide rail (2) extending in a unit coupling direction; and transfer means (3) capable of sequentially transferring, by moving along the guide rail (2), a workpiece from the production unit (10A) toward the production unit (10E). Each of the plurality of production units (10A to 10E) includes: a processing section (13) configured to execute predetermined processing; a control section (14) configured to electrically control an operation of the processing section (13); a rail member (20) constructing the guide rail (2); and a slide member (30) constructing the transfer means (3). Each of the plurality of production units (10A to 10E) further includes: a connector (15, 15) configured to electrically connect the control section (14) thereof and the control section (14) of the adjacent production unit (10).

A robot system including a plurality of robots that are arranged at intervals and that each perform machining on a work; and a tool storage unit that stores a tool used when each of the robots performs machining on the work and that is disposed at a position allowing at least one of the robot to take out the tool, wherein the respective robots are provided with hands with which the tool stored in the tool storage unit can be handled; and, when one of the robots needs to exchange the tool.

A method and apparatus for manufacturing an aircraft structure. A drivable support may be driven from a first location to a second location to bring the drivable support together with at least one other drivable support to form a drivable support system. A structure may be held in a desired position using the drivable support system.

An automatic manufacturing station (3) and a manufacturing process for workpieces (2), in particular for vehicle body parts, has a manufacturing area (4) with a plurality of program-controlled manufacturing robots (9). The workpieces (2) are externally fed to the manufacturing station (3) on production load carriers (8). The manufacturing station (3) also has a plurality of work stations (10, 11, 12, 13). A station-bound transport device (15) transports the production load carriers (8) within the manufacturing station (3).

Provided is a production line that includes a conveying section (2) for conveying a plurality of pallets (8 and 8) along a loop-shaped circulation route, a workpiece setting section (3) for setting workpieces on the pallets (8 and 8), a setting-position measuring section (4) for measuring setting position of the workpiece on the pallets (8 and 8), a production process performing section (5) for performing one or multiple production processes at each of a plurality of locations on the circulation route for the workpieces on the pallets (8 and 8), and a workpiece extracting section (6) for extracting workpieces for which the production processes have been performed from the pallets (8 and 8). At least two of the production processes in the production process performing section (5) are performed while taking into account the setting positions of the workpieces on the pallets (8) measured by the setting-position measuring section (4).

The present disclosure provides an automatic installation system, a device, and a method, of a high voltage battery for a vehicle. In particular, the automatic installation device of a high voltage battery for a vehicle includes a hanger part to hang a frame for the vehicle; and an automatic installation part provided under the hanger part to automatically center the high voltage battery on the frame for the vehicle and then install the high voltage battery, whereby it is possible to improve workability by replacing a manual work process with the automatic installing process of installing the high voltage battery on the frame for the vehicle and thus save costs by improving accuracy and safety and reducing labor costs thanks to the implementation of automation.