A thin plate supporting container includes a container body for housing therein semiconductor wafers, a lid unit for closing the container body, and slotted plates for supporting the semiconductor wafers from opposing sides. There are provided an upper fitting portion for supporting an upper portion of the slotted plate, and a lower fitting portion for supporting a lower portion of the slotted plate. An upper fitting piece of the upper fitting portion has a planar contact face which comes into contact with the slotted plate to thereby position the slotted plate in the front/rear direction while suppressing swing of the slotted plate. The upper receiving element on the slotted plate has a planar contact face. The lower fitting portion provides vertical, horizontal and front/rear positioning.

The present invention is directed to a lid unit having a latching mechanism for firmly fixing the lid unit to a container body for containing semiconductor wafers and the like, which latching mechanism can be easily disassembled for cleaning and drying of its components, and to a wafer presser for retaining the semiconductor wafers in position when the container is shaken. The latching mechanism includes a locking member which, when projected, secures the lid unit to the container body; an actuator for moving the locking member between projected and retracted positions; a tip-side cam for pressing a tip portion of the locking member in one direction relative to the lid unit when the locking member is projected by the actuator; a base-end lower cam for pressing a base-end of the locking member in a second direction, opposite the one direction; and a base-end upper cam and a cam projection follower for pressing the base-end in the second direction. The wafer presser is supported by a supporting projection bar formed with its ends thinner than its center portion.

The present invention supports a reticle 12 in a safe and secure manner. A reticle-carrying container 11 includes a pod 13 for storing the reticle 12, a door 14 and a seal 15 for blocking and sealing hermetically the pod 13. A pair of reticle retainers 25 and 45 is provided on the insides of the pod 13 and door 14. Each of the reticle retainers 25 and 45 includes an inclined plane 28 that contacts an upper corner 12A or a lower corner 12B of peripheral edge of the reticle 12 and supports the reticle 12 elastically. The inside of the inclined plane 28 is provided with concave portions 31 and 52 that enables a shock-absorbing function of allowing the deformation of the inclined plane 28 and supporting the reticle elastically, at the time of contact with the upper corner 12A or the lower corner 12B of peripheral edge of the reticle 12.

The present invention allows a reticle-carrying container 11 to be fastened in a reticle stocker 2 even if the reticle-carrying container 11 is wrongly oriented. The reticle-carrying container 11 includes an interior with an opening at one end for storing a reticle 12, a door 14 for covering and blocking the opening, and a seal material 15 for sealing the interior hermetically when the door 14 closes the pod 13. The reticle-carrying container 11 is provided with two sets of kinematic pin grooves 61 for positioning and fastening the reticle-carrying container 11, which are turned 180 degrees from each other on the outer surface of the door 14. Receiving parts 22 for receiving and holding the kinematic pin grooves 61 are arranged in the positions corresponding to the kinematic pin grooves 61 on the outer surface of the pod 13 so that the two sets of kinematic pin grooves 61 can be engaged with the pins in both orientations.

A thin plate supporting container includes a container body for housing therein semiconductor wafers, a lid unit for closing the container body, and slotted plates for supporting the semiconductor wafers from opposing sides. There are provided an upper fitting portion for supporting an upper portion of the slotted plate, and a lower fitting portion for supporting a lower portion of the slotted plate. An upper fitting piece of the upper fitting portion has a planar contact face which comes into contact with the slotted plate to thereby position the slotted plate in the front/rear direction while suppressing swing of the slotted plate. The upper receiving element on the slotted plate has a planar contact face. The lower fitting portion provides vertical, horizontal and front/rear positioning.