A method for bonding large modules with the following steps, a large module is fed to a bonder from behind in a loading plane by means of a feeder unit. The large module is passed from the feeder unit to a first transverse conveyor unit, and is brought by the same to a first buffer position provided in the bonder, wherein the first buffer position is provided in a loading plane of the bonder. The large module is brought from the first buffer position into a first receiving position in the loading plane via the first transverse conveyor unit and is passed there to a vertical conveyor unit.

A machine concept for the mass production of high-precision workpieces, with increased quantity of workpieces to be produced within a defined time including at least one machining center is equipped with the required machining units (2) which are directed toward a common machining region. The specification and arrangement of the machining units used and the technological machining sequence are optimized relative to the workpiece characteristic. These production conditions are fixed as validated after an audit. In order to produce a second target value of the quantity of workpieces to be produced within the defined time unit, which second value is increased in relation to the first target value, at least one further machining center is added to the at least one machining center while maintaining the validated production conditions.

A machine concept for the mass production of high-precision workpieces, with increased quantity of workpieces to be produced within a defined time including at least one machining center is equipped with the required machining units (2) which are directed toward a common machining region. The specification and arrangement of the machining units used and the technological machining sequence are optimized relative to the workpiece characteristic. These production conditions are fixed as validated after an audit. In order to produce a second target value of the quantity of workpieces to be produced within the defined time unit, which second value is increased in relation to the first target value, at least one further machining center is added to the at least one machining center while maintaining the validated production conditions.

A workpiece holding jig including a base member conveyed by a linear guide and at least one pair of holding pieces arranged on the base member in the direction crossing the conveying direction of the linear guide. Each of the at least one pair of holding pieces includes a workpiece holding portion that fits or contacts with the outer peripheral surface of a workpiece located between the at least one pair of holding pieces to prevent the workpiece from slanting or becoming misaligned during the conveyance. At least one of holding pieces in the at least one pair of holding pieces is movable in the direction away from the other.

A parts supply apparatus includes a supply tray stacking portion where a supply tray containing parts is stacked; a tray raising/lowering unit for separating one of the supply trays from the supply tray stacking portion; a tray holding unit with which the tray raising/lowering unit is provided; and an empty tray stacking portion where an empty tray, which is the supply tray that is emptied after supply of the parts, is stacked. The empty tray stacking portion is disposed above the supply tray stacking portion in a vertical direction.

The present subject matter relates to automated gemstone feeding in a gemstone processing machine. In an implementation, the gemstone processing machine has a feeding conduit unit to receive a rough gemstone affixed to a holder from a user. The feeding conduit unit delivers the holder to a base plate. An actuating arm picks the holder from the base plate and transfers the holder to a pre-defined position in the gemstone processing machine. The automated feeding mechanism is controlled by the computing device and uses low-cost hardware equipment having limited or no manual intervention. Thus, providing an apt tradeoff between the accuracy of transfer of the rough gemstone and the cost associated with the equipment used for the processing of the gemstone.

A production line includes a plurality of cells provided along the production line so that components are transferred through the plurality of cells to produce products. The plurality of cells includes at least one first cell including an automatic work machine configured to perform work on the components, and at least one second cell provided next to the at least one first cell and constructed such that the components are capable of being repaired or ejected from the production line at the at least one second cell.

A production line includes a plurality of cells provided along the production line so that components are transferred through the plurality of cells to produce products. The plurality of cells includes at least one first cell including an automatic work machine configured to perform work on the components, and at least one second cell provided next to the at least one first cell and constructed such that the components are capable of being repaired or ejected from the production line at the at least one second cell.

A conveyance device includes a pair of first and second support frames provided so as to be parallel to each other, and configured to define a conveyance track of a pallet; a driving unit provided on the first support frame and configured to apply a conveyance force to the pallet; a driven unit as a unit forming the pallet, configured to travel along a first guide portion of the first support frame by the driving unit; an auxiliary unit as a unit forming the pallet, connected to the driven unit via a placement member of the pallet and capable of freely traveling along a second guide portion of the second support frame, and a stopping unit including an engaging portion that engages with a portion of the driven unit, and configured to temporarily stop a movement of the pallet.

A radiating structure assembly system includes a movable conveyor that supports fixtures. Work stations are spaced about the conveyor such that the fixtures are moved sequentially to position the fixtures at the plurality of work stations. A first work station includes a loading assembly for loading the radiating elements on the fixtures. A second work station includes a first automated vertical assembly machine for mounting a first printed circuit board to the radiating element. A third work station includes a second automated vertical assembly machine for mounting a second printed circuit board to the radiating element to create a dipole assembly. A holding device is movable with the conveyor aligns and supports the first and second printed circuit boards relative to the radiating element. A fourth work station includes an unloading assembly for removing the dipole assembly from the conveyor.