A storage shelf includes: a main frame; a plurality of shelf modules each having a base plate detachably provided on the main frame, and a supply nozzle provided on the base plate; a main pipe through which purge gas supplied from a supply source flows, and a first branch provided in the main pipe and branches a flow path from the main pipe, in which the shelf modules are each provided with a mass flow controller configured to adjust the flow rate of the purge gas supplied to the supply nozzle, the first branch is connected to a module pipe via an open/close valve that opens/closes the flow path, and the mass flow controller is connected to the module pipe.

A gripper device includes a pair of engaging portions attached to an elevating section capable of lifting and lowering above an article and respectively engageable with the pair of held portions, and a driver to move the pair of engaging portions from a standby position where a distance between the pair of engaging portions is shorter than an interval between the pair of held portions, to an engaging position where the pair of engaging portions is capable of engaging with the pair of held portions, such that the pair of engaging portions separate from one another.

A wafer stocker capable of further improving an environment around wafers is provided. The wafer stocker includes a housing, a loading device provided on a front surface of the housing, a wafer cassette shelf arranged in the housing, a wafer transfer robot configured to move the wafers from a transfer container mounted on the loading device to a wafer cassette in the wafer cassette shelf, a wafer cassette delivery device configured to move the wafer cassette in the wafer cassette shelf to a stage having a different height, and a fan filter unit configured to generate a laminar flow in a wafer transfer space and in a wafer cassette transfer space.

A conveyance system includes storage racks that are provided near or adjacent to semiconductor manufacturing devices and store therein objects to be conveyed, a stacker crane that carries the objects into and out of the storage racks, vehicles that convey the objects, an ID tag reader that is provided to the stacker crane and reads ID tags of the objects; and a controller that is configured or programmed to, when identification information acquired by the ID tag reader R coincides with identification information contained in a conveyance command of an object, control the stacker crane to convey the object to a destination specified in the conveyance command. At least one section of each storage rack allows a gripper of each vehicle to take in and out the objects.

A transfer apparatus including a frame, multiple arms connected to the frame, each arm having an end effector and an independent drive axis for extension and retraction of the respective arm with respect to other ones of the multiple arms, a linear rail defining a degree of freedom for the independent drive axis for extension and retraction of at least one arm, and a common drive axis shared by each arm and configured to pivot the multiple arms about a common pivot axis, wherein at least one of the multiple arms having another drive axis defining an independent degree of freedom with respect to other ones of the multiple arms.

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.

A system comprising a load port and a transfer module. In one embodiment, the load port includes a plate having a first opening and a second opening, a first workpiece access port, a second workpiece access port and at least one storage location. The storage location(s) may be located either beneath the second workpiece access port or above the first workpiece access port. The transfer mosule, which is located adjacent the load port, includes a load arm for moving the workpiece containers between the first workpiece access port, the second workpiece access port, any of the storage shelves and a material transport system.

A storage system prevents a large load from being applied to a part of the ceiling. The storage system in which a rack is provided by being suspended from a first position of a ceiling by a first suspending member attached to a grid ceiling, a second overhead track is provided by being suspended from a second position of the grid ceiling by a second suspending member attached to the grid ceiling, and the first position and the second position are set to be apart by at least a predetermined distance.

A conveyance control device executes: a control step of detecting entering to a merging point adjacent area set on adjacent to each merging point on the conveyance route; a detection step of detecting whether there is an obstacle around the carrying cart; a communication step of performing, when the entering to each merging point adjacent area is detected, local wireless communications with another carrying cart by using a common frequency band and a common identification code set to values different among merging points; and a merging point passing control step of starting the communication step when the other carrying cart is detected in the merging point adjacent area in the detection step, and causing passing of a merging point in accordance with a priority set to each entering passage to the merging point, after a handshake with the other carrying cart is successfully performed in the communication step,

In a case of changing the traveling speed of a transport vehicle, in order for the traveling speed of the transport vehicle to reach a target speed at a target position that is on a downstream side in the travel path relative to the current position of the transport vehicle, a control unit generates reference speed commands in accordance with a traveling speed time change pattern according to which the travel acceleration changes in a stepwise manner, generates a moving average command obtained using the moving average of the reference speed commands in a set period, and controls travel operations of a travel unit based on the moving average command.