Objects of the present invention are to prolong the life of a sealing portion by using bellows and to prevent the generation of dust and the effect thereof. A support member for positioning is extended to the outside through an opening of a vacuum vessel and bellows connected to the circumference of the opening with a play such that positioning movement can be performed without being in contact with the opening and the bellows, and the support member is received by roller bearings in a bulkhead portion connected to a free end of the bellows and closing the bellows of a bearing support. Necessary rotation is given to the support member from outside via inside and outside magnetic couplings facing each other on the inside and outside of the bulkhead portion, and movement in the X direction perpendicular to the axis is given to the support member from outside by moving the bearing support in the direction perpendicular to the axis with respect to the vacuum vessel. Thereby, a disk-shaped object is positioned without necessitating a sliding portion located in the vacuum vessel, thereby achieving the above objects.
A compact stage includes a rotary driver and a vertical linear driver that are in the same horizontal plane, which advantageously reduces the height of the device. The stage may include a rotating shaft to which a chuck is mounted. A rotary drive, which may be an annular rotary drive, is coupled to and rotates the rotating shaft. A linear drive is also coupled to the rotating shaft and in one embodiment extends through the center of the annular rotary drive. The linear drive moves the rotating shaft along a vertical axis. The linear drive may be, e.g., a voice coil motor that uses a spring to bias the rotating shaft along the vertical axis.
The invention is a multiple size workpiece positioning device for the precise positioning or centering of workpieces, such as semiconductor wafers, in a processing station. The inventive includes a plurality of ring bars that may be pivoted on one end. The distal end of the ring bars form a circular shape that may decrease or increase in diameter as the ring bars are pivoted. This movement may be used to position or center the workpiece. A single combination pin or two pins of different heights may be mounted on the distal end of the ring bars. A combination pin or a rest pin and an alignment pin may be used to support the bottom of the workpiece to provide a contact point for an urging force on the edge of the workpiece.
