A path setting system is used for setting paths of a plurality of transfer bodies in a substrate transfer device, the substrate transfer device including a substrate transfer area and the plurality of transfer bodies, each having a support configured to support a substrate and configured to float and move by a magnetic force from a floor forming the substrate transfer area. The path setting system includes a virtual area setting part configured to set a virtual area corresponding to the substrate transfer area, a path generating part configured to generate, in the virtual area, moving paths of the transfer bodies from a movement start position to a movement end position, and an interference determining part configured to determine interference between the moving paths.

Various embodiments herein relate to carriers for supporting one or more substrate as the substrates are passed through a processing apparatus. In many cases, the substrates are oriented in a vertical manner The carrier may include a frame and vertical support bars that secure the glass to the frame. The carrier may lack horizontal support bars. The carrier may allow for thermal expansion and contraction of the substrates, without any need to provide precise gaps between adjacent pairs of substrates. The carriers described herein substantially reduce the risk of breaking the processing apparatus and substrates, thereby achieving a more efficient process. Certain embodiments herein relate to methods of loading substrates onto a carrier.

A transfer path is provided which is extended so as to be passed on a lateral side of a processing portion that processes a substrate. The substrate transferred between a container held by a holding unit and the processing portion passes through the transfer path. A first transfer robot carries the substrate into and out of the container held by the holding unit, and accesses a reception/delivery region arranged within the transfer path. A second transfer robot receives and delivers the substrate from and to the first transfer robot in the reception/delivery region, and carries the substrate into and out of the processing portion. A second transfer robot raising/lowering unit which raises and lowers the second transfer robot is arranged within the transfer path. The reception/delivery region and the second transfer robot raising/lowering unit are located between the first transfer robot and the second transfer robot.

A device for conveying a sheet of substrate having two opposed main faces linked b y an edge face, wherein one of the main faces of the sheet of substrate is positioned along a reception plane of the device, the reception plane being close to a vertical plane, including a plurality of lower rollers positioned side by side along a conveying direction, each of them being able to rotate about a lower rotation axis extending perpendicularly to the conveying direction in a conveying plane and being arranged to receive a part of the edge face of the sheet of substrate, a plurality of upper rollers, each of them being arranged to receive one of said main faces of the sheet of substrate and being able to rotate about an upper rotation axis orthogonal to the conveying direction.

Provided is a contactless vertical transfer device using a linear motor. The contactless vertical transfer device using a linear motor includes: a transfer unit for picking up an article; and a linear motor located on a side portion of the transfer unit to move the transfer unit, wherein the linear motor comprises at least one driving unit that is located on a side portion of the transfer unit and provided with a mover which a coil is wound; and a rail unit that is located apart from the mover by a predetermined distance in a lateral direction and provided with a plurality of magnet portions disposed in a transfer direction of the transfer unit. The transfer unit is moved along the rail unit by a thrust force of the mover and the magnet portion.

A semiconductor wafer cassette warehouse transportation structure system includes a wafer cassette lift transportation structure body, a wafer cassette frame structure body, an arm structure body, an arm gripping wafer cassette structure body, and a wafer cassette warehouse structure body. The suspension support rods are suspended on a ceiling. The wafer cassette lift transportation structure body lifts the wafer cassettes to the inlet and outlet. The arm structure body grips the wafer cassettes and puts same on the tracks so that the wafer cassettes can be transported to the wafer cassette warehouse structure body to be precisely accessed. The system saves space and facilitates the access of the wafer cassettes because the wafer cassettes are stored on the wafer cassette warehouse structure body suspended on the ceiling.

A processing system is provided, including a vacuum enclosure having a plurality of process windows and a continuous track positioned therein; a plurality of processing chambers attached sidewalls of the vacuum enclosures, each processing chamber about one of the process windows; a loadlock attached at one end of the vacuum enclosure and having a loading track positioned therein; at least one gate valve separating the loadlock from the vacuum enclosure; a plurality of substrate carriers configured to travel on the continuous track and the loading track; at least one track exchanger positioned within the vacuum enclosure, the track exchangers movable between a first position, wherein substrate carriers are made to continuously move on the continuous track, and a second position wherein the substrate carriers are made to transfer between the continuous track and the loading track.

A substrate transfer mechanism for transferring a substrate to each of a plurality of stacked processing modules that process the substrate includes: an arm base provided with a first driver; a lift configured to move up and down the arm base; a first arm extending transversely from a lower side of the arm base, and having a tip end that pivots around a vertical axis with respect to the arm base by the first driver; a second arm extending transversely from an upper side of the tip end of the first arm, and having a tip end that pivots around a vertical axis with respect to the first arm along with the pivoting of the first arm; and a substrate holder provided on an upper side of the tip end of the second arm, and configured to rotate around a vertical axis with respect to the second arm.

An apparatus for transporting a substrate includes a transport chamber including a wall having an opening through which carry-in/out of the substrate to/from the substrate processing chamber is performed and a movement surface having a first magnet, a transport module accommodated in the transport chamber to hold the substrate, including a second magnet to which a magnetic force is applied, and configured to be movable along the movement surface in a floating state from the movement surface, an angle adjusting mechanism provided in the transport chamber to switch an angle of the movement surface between a first angle and a second angle which is closer to a vertical state than the first angle, and a transport passage forming a portion of the transport chamber, and including the movement surface at the second angle to which the movement surface switched to the second angle can be connected.

A vacuum processing apparatus including: a plurality of transport chambers arranged in order along a first direction; a plurality of process chambers connected to the transport chambers along a second direction that is perpendicular to the first direction; and a position conversion chamber connected to a first transport chamber among the transport chambers. The transport chambers include a rotational movement stage that rotates about a rotation axis that is perpendicular to the first direction and the second direction, and moves along a plane formed by the first direction and the second direction.