Patent application number | Description | Published |
20080267742 | Direct Tool Loading - The present invention comprises a container transport and loading system. The system generally comprises a load port for presenting articles to a tool and a container transport system. In one embodiment, the load port includes a vertically movable FOUP advance plate assembly that is adapted to load and unload a FOUP from a conveyor that passes by the load port and move the FOUP horizontally. In another embodiment, the load port includes a vertically movable support structure that is adapted to load and unload a container from a shuttle that passes by the load port. The various embodiments of the load port and container transport system are improvements over conventional container transport systems. The present invention also includes a shuttle for simultaneously transporting multiple containers that a load port may load or unload a container from. | 10-30-2008 |
20100051422 | Belt Conveyor Transporting Containers used in Semiconductor fabrication - A conveyor and conveyor system is defined for moving a container used to hold semiconductor wafers. The conveyor includes a first belt having a first support surface for movably supporting the container and a second belt having a second support surface for movably supporting the container. The first belt and the second belt each have a raised guide. The conveyor further includes a drive assembly for moving at least the first belt and causing the container to move over the first and second belts when placed on the first and second support surfaces. Methods for making the conveyor and operating the conveyor are also defined herein. | 03-04-2010 |
20100290872 | SUBSTRATE CONTAINER STORAGE SYSTEM - A storage system and methods for operating a storage system are disclosed. The storage system includes a storage system assembly positioned at a height that is greater than a height of a tool used for loading and unloading substrates to be processed. The storage system locally stores one or more containers of substrates. The storage system assembly includes a plurality of storage shelves, and each of the plurality of storage shelves have shelf plates with shelf features for supporting a container. Each of the plurality of storage shelves are coupled to a chain to enable horizontal movement and each is further coupled to a rail to enable guiding to one or more positions. A motor is coupled to a drive sprocket for moving the chain, such that each of the plurality of storage shelves move together along the rail to the one or more positions. The rail has at least some sections that are linear and some sections that are nonlinear and the sections are arranged in a loop. | 11-18-2010 |
20100290873 | INTEGRATED SYSTEMS FOR INTERFACING WITH SUBSTRATE CONTAINER STORAGE SYSTEMS - A storage system and methods for operating a storage system are disclosed. The storage system includes a storage system assembly positioned at a height that is greater than a height of a tool used for loading and unloading substrates to be processed. The storage system locally stores one or more containers of substrates. The storage system assembly includes a plurality of storage shelves, and each of the plurality of storage shelves have shelf plates with shelf features for supporting a container. Each of the plurality of storage shelves are coupled to a chain to enable horizontal movement and each is further coupled to a rail to enable guiding to one or more positions. A motor is coupled to a drive sprocket for moving the chain, such that each of the plurality of storage shelves move together along the rail to the one or more positions. The rail has at least some sections that are linear and some sections that are nonlinear and the sections are arranged in a loop. Example configurations of the storage system can include one or more of stationary shelves, extended horizontal tracks for hoists, conveyors at the level of the storage system assembly, and a manual loading station. The hoist, with an extended horizontal track can therefore interface with the manual loading station. | 11-18-2010 |
20120000816 | Port Door Positioning Apparatus and Associated Methods - A loadport has a port door and a frame with an opening through which the port door interfaces with a container door of a container for holding semiconductor workpieces. In one embodiment, a movable closure mechanism is connected to the port door and is defined to be movable in a controlled manner relative to both the port door and the frame. In this embodiment, a stationary closure mechanism is disposed on the frame proximate to the opening. In another embodiment, a stationary closure mechanism is connected to the port door, and a movable closure mechanism is disposed on the frame proximate to the opening. In both embodiments, the movable closure mechanism is defined to engage with the stationary closure mechanism such that movement of the movable closure mechanism to engage with the stationary closure mechanism applies a closing force between the port door and the container door. | 01-05-2012 |
20120125808 | WORKPIECE SUPPORT STRUCTURES AND APPARATUS FOR ACCESSING SAME - The present invention comprises a workpiece container for storing at least one workpiece having a bottom surface and a peripheral edge. In one embodiment, a workpiece support structure is located within the container enclosure, which forms multiple vertically stacked storage shelves within the enclosure. Each storage shelf includes, in one embodiment, a first tine and a second tine for supporting the workpiece in a substantially horizontal orientation. The bottom surface and peripheral edge of a workpiece seated on a storage shelf extends beyond the outer edge of both the first tine and the second tine. An end effector according to the present invention may engage these extended portions or “grip zones” of the workpiece. | 05-24-2012 |
20120301260 | Horizontal Displacement Mechanism for Cleanroom Material Transfer Systems - A spiral cam has a tubular shaped portion defined by an interior cavity and an exterior surface that includes a cam contour. A linear slide assembly having a length defined along a rotational axis is defined to slide lengthwise into the interior cavity of the spiral cam. The linear slide assembly allows for movement of the spiral cam along the rotational axis and prevents rotation of the spiral cam relative to the linear slide assembly. A cam roller is fixed at a position proximate to the exterior surface of the spiral cam. The cam roller is disposed separate from the linear slide assembly and within the cam contour of the spiral cam. The cam roller engages the cam contour to move of the spiral cam along the rotational axis when the linear slide assembly and spiral cam are rotated in unison about the rotational axis relative to the cam roller. | 11-29-2012 |
20120321417 | Narrow Width Loadport Mechanism for Cleanroom Material Transfer Systems - A system and method of transporting substrates includes a loadport system including a frame, an articulating arm, a mini environment and a tower substantially centered in the frame. The tower includes multiple motors, a first motor mechanically coupled to the mini environment for moving the mini environment vertically. A second motors mechanically coupled to the articulating arm for moving the articulating arm vertically. A tower enclosure is also included. The tower enclosure enclosing the motors separate from the mini environment. | 12-20-2012 |
20120321423 | Dynamic Storage and Transfer System Integrated with Autonomous Guided/Roving Vehicle - A workpiece container storage and handling system includes a base, a number of wheels connected to the base, and a container handling system connected to the base. The wheels provide for movement of the base. The container handling system is defined to hold at least two containers in a vertically overlying orientation relative to each other. The container handling system is defined to provide for controlled vertical travel of the at least two containers in unison relative to the base. Also, the container handling system is defined to provide for controlled and independent horizontal travel of each of the at least two containers relative to the base. | 12-20-2012 |
20140262979 | Tray Engine and Methods for Transferring Trays To and From Tools and in Sorters - A tray engine includes a vertical drive column, a rotation mechanism for rotating the vertical drive column, and an end effector attached to the vertical drive column. The end effector includes an end effector base attached to the vertical drive column. The end effector further includes a slide attached to the end effector base to support a tray, when present. The slide enables the tray to slide along a length of the end effector base. The tray engine includes a drive mechanism attached to the end effector base for moving along the length of the end effector base to enable the tray, when present, to slide linearly along the length and load or unload the tray to or from the slide. | 09-18-2014 |
20150021230 | Port Door Positioning Apparatus and Associated Methods - A loadport has a port door and a frame with an opening through which the port door interfaces with a container door of a container for holding semiconductor workpieces. In one embodiment, a movable closure mechanism is connected to the port door and is defined to be movable in a controlled manner relative to both the port door and the frame. In this embodiment, a stationary closure mechanism is disposed on the frame proximate to the opening. In another embodiment, a stationary closure mechanism is connected to the port door, and a movable closure mechanism is disposed on the frame proximate to the opening. In both embodiments, the movable closure mechanism is defined to engage with the stationary closure mechanism such that movement of the movable closure mechanism to engage with the stationary closure mechanism applies a closing force between the port door and the container door. | 01-22-2015 |
20150063958 | INTEGRATED SYSTEMS FOR INTERFACING WITH SUBSTRATE CONTAINER STORAGE SYSTEMS - A storage system and methods for operating a storage system are disclosed. The storage system includes a plurality of storage shelves, and each of storage shelves has a shelf plate for supporting a container. Each of the storage shelves is coupled to a chain to enable horizontal movement and each is further coupled to a rail to enable guiding to one or more positions. A motor is coupled to a drive sprocket for moving the chain. The rail has some sections that are linear and some sections that are nonlinear. The sections are arranged in a loop. Example configurations of the storage system include one or more of stationary shelves, extended horizontal tracks for a hoist, a conveyor at a level of the storage system, and a manual loading station. The hoist, with an extended horizontal track interfaces with the manual loading station. | 03-05-2015 |
Patent application number | Description | Published |
20090001616 | METHOD AND APPARATUS FOR WAFER MARKING - A semiconductor substrate is provided. The substrate includes a first surface and an opposing second surface, wherein the first surface includes a marking in a centroid region of the first surface. The marking indicates a location of a center point on the first surface of the semiconductor substrate or identification data unique to the substrate. A system, methods of transporting and marking, and a device for reading the substrate markings are also provided. | 01-01-2009 |
20090016862 | METHOD AND APPARATUS FOR PROVIDING FLAT PANEL DISPLAY ENVIRONMENTAL ISOLATION - A container for supporting substrates for processing is provided. The container includes a base, a top, and side panels connecting the base and the top. A support structure is disposed in the container. The support structure is configured to support the substrates within the container. The support structure has rows of multiple tensile members extending across a width of the container. Each row of the multiple tensile members is configured to support a substrate, wherein one of the side panels includes a moveable flexible membrane enabling access into the container. A support structure for the flexible membrane includes a synchronization mechanism for synchronizing movement of the flexible membrane with a door of a receiving module of a processing tool or a door of the processing tool. | 01-15-2009 |
20090092470 | END EFFECTOR WITH SENSING CAPABILITIES - In one embodiment, an end effector having a first arm extending from an end effector support body, and a second arm extending from the end effector support body is provided. The first arm and the second arm have support extensions for supporting a peripheral region of a substrate, wherein the second arm and the first arm include sensors integrated thereon. The sensors are located at a distal end of the first and the second arms past the corresponding support extensions. The sensors are configured to indicate whether support arms for a container are within the travel path of the end effector in one embodiment. The end effector may be integrated into a system for transporting substrates. | 04-09-2009 |
20090101067 | METHOD AND APPARATUS FOR WAFER SUPPORT - An end effector having a first arm and a second arm extending from an end effector support body is provided. The first arm and the second arm each have support extensions for supporting a peripheral region of a substrate on opposing sides of a diameter of the substrate. The height of support contacts on opposing sides of the diameter is different relative to a horizontal datum plane. In one embodiment, the end effector includes additional arms extending from the end effector support body. A system for supporting a substrate is provided also. | 04-23-2009 |
20090175707 | Controlled deflection of large area semiconductor substrates for shipping and manufacturing containers - A substrate container for storing at least one substrate is provided. The substrate container includes a housing assembly encompassing the at least one substrate, the housing assembly having a container door for access into an inner region of the housing assembly. The housing assembly includes a support structure defined along sidewalls of the housing assembly. The support structure has a plurality of edge support constraints protruding into the inner region of the housing assembly. The plurality of edge support constraints support opposing edge regions of the at least one substrate so as to cause the at least one substrate to deflect around an axis. | 07-09-2009 |
20100034621 | END EFFECTOR TO SUBSTRATE OFFSET DETECTION AND CORRECTION - A port door providing an interface into a processing tool is provided. The port door includes first and second arms pivotably mounted on a top edge of the port door. The first and second arms are configured to extend from a plane of the port door towards a carrier containing substrates for the processing tool. The first arm has an emitter transmitting a beam that is split into a plurality of sub-beams within the first arm. The second arm has a plurality of sensors receiving corresponding sub-beams, wherein one of sub-beams provides information as to a position of an end effector relative to a gap between the substrates in the carrier. | 02-11-2010 |
20120189408 | METHOD AND APPARATUS FOR WAFER SUPPORT - An end effector having a first arm and a second arm extending from an end effector support body is provided. The first arm and the second arm each have support extensions for supporting a peripheral region of a substrate on opposing sides of a diameter of the substrate. The height of support contacts on opposing sides of the diameter is different relative to a horizontal datum plane. In one embodiment, the end effector includes additional arms extending from the end effector support body. A system for supporting a substrate is provided also. | 07-26-2012 |
20140356107 | Workpiece Structures and Apparatus for Accessing Same - The present disclosure comprises a workpiece container for storing at least one workpiece having a bottom surface and a peripheral edge. In one embodiment, a workpiece support structure is located within the container enclosure, which forms multiple vertically stacked storage shelves within the enclosure. Each storage shelf includes, in one embodiment, a first tine and a second tine for supporting the workpiece in a substantially horizontal orientation. The bottom surface and peripheral edge of a workpiece seated on a storage shelf extends beyond the outer edge of both the first tine and the second tine. An end effector according to the present disclosure may engage these extended portions or “grip zones” of the workpiece. | 12-04-2014 |