The system includes a cell framework for defining a manufacturing area. The system includes at least one workplace within the manufacturing area. The system includes at least one manufacturing component within the manufacturing area and configured to be movable along three axes in relation to the at least one workplace. The system includes a conveying mechanism configured to move a part into the at least one workplace to be worked on by the at least one manufacturing component.

The disclosure relates to a processing installation for aircraft structural components having a processing station comprising a clamping frame for receiving the structural component, wherein the clamping frame extends along a station longitudinal axis which extends in a longitudinal direction and a processing unit which has an upper tool unit having an upper tool and a lower tool unit, wherein the processing installation has a processing region which is formed by a laterally delimited, first spatial portion in which the clamping frame and the processing unit are arranged during processing, wherein the processing installation has a service region for carrying out service operations, wherein the first spatial portion is separated from the second spatial portion in a transverse direction, wherein a service platform is arranged in the service region and can be positioned in a service plane which is orthogonal to the vertical direction.

The system includes a cell framework for defining a manufacturing area. The system includes at least one workplace within the manufacturing area. The system includes at least one manufacturing component within the manufacturing area and configured to be movable along three axes in relation to the at least one workplace. The system includes a conveying mechanism configured to move a part into the at least one workplace to be worked on by the at least one manufacturing component.

A machine tool includes a plurality of modules, and a control means for controlling operation of the modules, wherein the plurality of modules include a fixed module and two movable modules. The control means includes a restriction means for restricting the movement of the two movable modules for allowing only one of the movable modules to be moved to a facing position facing the fixed module; and a determination means for determining the movable module to be moved to the facing position. The control means is configured to control the operation of the plurality of modules so that, when the operation under cooperation of the fixed module and one of the movable modules has been completed, the restriction means releases the restriction of the movement of the other movable module to the facing position.

A movable stand with casters for installing each of a plurality of separate type control panels that correspond to a plurality of machine tools disposed in parallel and are disposed to be separated from the machine tools, is provide. The stand includes a top plate sections on which the separate type control panel is installed, a plurality of leg sections that support the top plate section, and horizontal sections that are provided to attach the casters to bottom sections of the leg sections and are horizontal to a floor, in which, out of the horizontal sections, a height from the floor of one horizontal section is different from a height from the floor of another horizontal section.

A movable stand with casters for installing each of a plurality of separate type control panels that correspond to a plurality of machine tools disposed in parallel and are disposed to be separated from the machine tools, is provide. The stand includes a top plate sections on which the separate type control panel is installed, a plurality of leg sections that support the top plate section, and horizontal sections that are provided to attach the casters to bottom sections of the leg sections and are horizontal to a floor, in which, out of the horizontal sections, a height from the floor of one horizontal section is different from a height from the floor of another horizontal section.

An automated machining apparatus has a lathe, a mill, and a workpiece holder that holds a plurality of workpieces to be machined. The workpiece holder includes a rotatable turret that has a plurality of workpiece mounting positions for mounting the plurality of workpieces to be machined to the rotatable turret. A controller in operable communication with the workpiece holder is operable to rotate the rotatable turret sequentially through different workpiece mounting positions according to program instructions that define machining operations to be performed on the plurality of workpieces.

In an embodiment, a machine tool includes two fixed modules and two movable modules each of which having a main spindle, a headstock, and a tool post being integrally formed, and a bed on which these are installed. The movable modules are provided on the bed to be movable in the Y-axis direction, the fixed modules are fixed on the bed on the opposite sides of the these movable modules, and a recess is provided next to the fixed module, the recess being formed by cutting out the bed. The movable modules are movable such that the axis lines of the main spindles of the movable modules are aligned with the axis line of the main spindle of the fixed module or the fixed module. The movable module is movable to the opposite position of the recess.

In an embodiment, a machine tool includes two fixed modules and two movable modules each of which having a main spindle, a headstock, and a tool post being integrally formed, and a bed on which these are installed. The movable modules are provided on the bed to be movable in the Y-axis direction, the fixed modules are fixed on the bed on the opposite sides of the these movable modules, and a recess is provided next to the fixed module, the recess being formed by cutting out the bed. The movable modules are movable such that the axis lines of the main spindles of the movable modules are aligned with the axis line of the main spindle of the fixed module or the fixed module. The movable module is movable to the opposite position of the recess.

A conveyance jig provided for integrally conveying a separate type control panel with a machine tool that are disposed separately, includes a fixing section with respect to a base and a holding section that holds a separate type control panel in a state of being installed on a movable stand with casters at the rear of the base in order to integrally conveys a machine tool including the base and a processing module that is movably installed to be movable in the front-rear direction along a straight line rail provided on the base separately with a gap in a width direction, and the separate type control panel that is installed on the movable stand with casters and disposed separately from the machine tool.