The technical objective of the present invention is to provide a foldable container enabling the entire height of a folded state thereof to be one fifth of the entire height of the state of being folded, such that the height of an international standard container can be satisfied even though empty containers are stacked in five stages. To this end, the hexagonal foldable container of the present invention comprises: an upper panel part and a lower panel part respectively forming the upper surface and lower surface thereof; a left panel part and a right panel part respectively forming the left surface and right surface thereof, and respectively folded; a front panel part and a rear panel part respectively forming the front surface and rear surface thereof; and a fixing bar provided at the outer surface of the rear panel part, and further includes first and second supporting members provided at the inner surface of the upper panel part so as to be movable forwards and backwards, wherein the front panel part and the rear panel part are respectively and pivotally provided at the first and second supporting members by means of upper hinge parts such that the respective outer surfaces thereof gradually face upwards.

A mechanism for precisely controlling a slide gate to provide certain and secure location of a sliding gate in a path of flowable dry bulk material, the mechanism including a rack and pinon gear with a shaft with a diameter hole therethrough for receiving a pin therethrough when the sliding gate is in a desired position. The swing arm is configured to inhibit removal of the pin and thereby prevent unwanted movement of the gate from the desired position. The swing arm is configured for selectively prohibiting accidental and/or intentional but unauthorized removal of the pin depending upon types of objects being placed through the open hole in the swing arm and the first fixed arm open hole.

A dome cover assembly for automatically opening and closing a through-opening. The dome cover includes at least one reach-around element on one of a cover and flange. The reach-around element at least partially encloses, in a first rotational position, the other of the cover and the flange on a side facing away from the first element. The other of the cover and flange has a recess and, in the first rotational position, the reach-around element engages behind the recess in a first distanced position of the cover and the flange. The reach-around element does not engage behind the recess in a second closer position of the cover and the flange.

A container comprises a base, side panels and a cover. The side panels are connected to the base. The cover is locked onto the tops of the side panels through a locking device. The locking device comprises automatic locks and manual locks. The automatic locks are arranged on two opposite sides of the cover, and the manual locks are arranged on the other two sides of the cover. The automatic locks and the manual locks are both adopted on the cover and used in cooperation with a tilting-prevention device, thus the container has the tilting-prevention effect, the stacking and supporting effect, and the locking and unlocking guiding and return guiding effect. The locking strength is increased, and the convenience in locking operation and unlocking operation is improved.

An assembly of load containers can facilitate the transportation, storage and handling of miscellaneous goods. The containers have movement means, can be stacked on top of one the other, and the assembly of containers is specially adapted to fit in a 20-ft or 40-ft shipping container. Such containers have locking means with remote tracking and can be transported inside dry-box maritime containers, or directly on or inside any transport means.

An inertable container (10) for transporting an additive manufacturing powder comprises an inertable volume (12) and a main opening (14) granting access to the inside of this inertable volume, the inertable volume (12) comprising an upper portion (16) and a lower portion (18), the main opening (14) being located in the lower portion (18) of the inertable volume, and the section (S12) of the inertable volume (12) increasing gradually over at least part of the height (H10) of the container (10) and from the lower portion (18) towards the upper portion (16) of the inertable volume. The main opening is equipped with a passive half-valve (20) allowing this main opening (14) to be closed in such a way as to be sealed in an airtight and humidity-proof manner. The container comprises at least two inerting tappings.

A manway gate assembly couples to a tank and provides a liquid tight seal. The manway gate assembly includes a gate selectively slideable in a first linear direction between an open position, a closed position, and/or an intermediate position between the open position and the closed position. The manway gate assembly includes one or more locking members arranged adjacent to the gate and moveable between a locked position and an un-locked position. When in the locked position, the one or more locking members apply a biasing force to the gate in a second linear direction perpendicular to the first linear direction to seal the gate to the tank and provide a liquid tight seal.

A material loading assembly is connected to a top of a container body having an opening for loading the container. A door is coupled to the top to cover the opening. An operating mechanism includes an extension member connected to the door and has a free end extending past an edge of the door. The extension member has an engagement pin formed on the free end. A latch mechanism attached at an edge of the shipping container has a pin seat formed therein and a locking member positionable between a locked position and an unlocked position. The locking member retains the engagement pin in the pin seat for locking the door in a closed position. The locking member releases the engagement from the pin seat for unlocking the door in the closed position, so the door is free move from the closed position to an open position.

A ramp wall includes a load-bearing support structure having top, bottom and side edges. A first pivot assembly is connected with the support structure bottom edge and adapted for removable connection with at least one container wall. The first pivot assembly includes at least one counter balancing torsion spring that is connected with the bottom edge of the support structure. The spring has a torque force that is generally equal to the gravitational torque force generated by the weight of the ramp wall when it is connected with at least one container wall, allowing manual operation of the ramp wall between a vertical closed position and a horizontal or inclined open position. A second pivot assembly is connected with one of the support structure side edges and adapted for removable connection with a container side wall for swinging movement about a vertical axis between a vertical open position and a vertical closed position.

A manway gate assembly couples to a tank and provides a liquid tight seal. The manway gate assembly includes a gate selectively slideable in a first linear direction between an open position, a closed position, and/or an intermediate position between the open position and the closed position. The manway gate assembly includes one or more locking members arranged adjacent to the gate and moveable between a locked position and an un-locked position. When in the locked position, the one or more locking members apply a biasing force to the gate in a second linear direction perpendicular to the first linear direction to seal the gate to the tank and provide a liquid tight seal.