Exemplary embodiments are disclosed of liners, linings, and liquid containment vessels including the same. Also disclosed are exemplary method of providing liners and linings for liquid containment vessels, such as process tanks, immersion tanks, containment pits, gravity feed conduits for transferring or conveying liquid, etc. In an exemplary embodiment, a liner or lining is anchored to at least one structural component by at least one extrusion weld and at least one mechanical fastener. The mechanical fastener is coupled to the structural component. The extrusion weld is coupled to the mechanical fastener. The liner or lining may be anchored to a wide range of structural components, such as a frame, a framework, a frame member, a tank, a wall, a support member, a reinforcing member, an outer shell, a substrate (e.g., concrete, etc.) or sidewalls defining a pit or a gravity feed conduit, combinations thereof, other structures or components, etc.

Disclosed is a connector between sidewalls, or the top rails of the sidewalls, and roof panels. The connector includes a downwardly oriented pocket adapted to receive a portion of the sidewall and an inwardly oriented pocket adapted to receive a portion of a roof panel. The connector also includes a base flange that is comparatively sized to, and adapted to be supported by, a roof bow support ledge of the sidewall. The inwardly oriented pocket is located directly above, and offset from, the base flange of the connector. Connectors, such as adhesives or rivets, may be utilized to secure the connector to the sidewall and to secure the connector to the roof panel.

Disclosed is a connector between sidewalls, or the top rails of the sidewalls, and roof panels. The connector includes a downwardly oriented pocket adapted to receive a portion of the sidewall and an inwardly oriented pocket adapted to receive a portion of a roof panel. The connector also includes a base flange that is comparatively sized to, and adapted to be supported by, a roof bow support ledge of the sidewall. The inwardly oriented pocket is located directly above, and offset from, the base flange of the connector. Connectors, such as adhesives or rivets, may be utilized to secure the connector to the sidewall and to secure the connector to the roof panel.

The present disclosure relates to liners and methods of making liners. The liners may be suitable for use with tanks and other storage/containment vessels, such as process tanks, immersion tanks, indoor or outdoor containment pits, gravity feed conduits (e.g., concrete trench, canal, or drain, etc.) for transferring or conveying liquid, grain storage tanks or containers (e.g., dielectric or electrically non-conductive liners for grain storage, etc.), etc.

The present invention provides a lid (400) for an open container (100, 13.10), a lid lifting system (13.100), a tippler (13.200) with the improved lid lifting system (13.100) and a method of lifting a container. The lid and lifting arrangement includes an apertured receiving formation (401) on an upper side of a lid (100) to receive a lift member (13.40). The lift member (13.40) can do one or more than one of the following: engaging the formation (401) will unlock a locking mechanism (13.42,458) holding the lid (400) to a container (100); or allow the lift member (13.40) to be rotated to thereby unlock the locking mechanism (13.42, 458) which locks the lid (400) to the container (100), while simultaneously locking the lift member (13.40, 458) to the lid (400). A lifting device which is able to perform such actions is also disclosed, and a method to operate the lifting device.

The present invention provides a lid (400) for an open container (100, 13.10), a lid lifting system (13.100), a tippler (13.200) with the improved lid lifting system (13.100) and a method of lifting a container. The lid and lifting arrangement includes an apertured receiving formation (401) on an upper side of a lid (100) to receive a lift member (13.40). The lift member (13.40) can do one or more than one of the following: engaging the formation (401) will unlock a locking mechanism (13.42,458) holding the lid (400) to a container (100); or allow the lift member (13.40) to be rotated to thereby unlock the locking mechanism (13.42, 458) which locks the lid (400) to the container (100), while simultaneously locking the lift member (13.40, 458) to the lid (400). A lifting device which is able to perform such actions is also disclosed, and a method to operate the lifting device.

The disclosure is directed to a connector assembly mechanically interconnecting first and second structural entities of an aircraft container. The connector assembly has first and second connector parts fastened to the first and second structural entities, respectively. In a connected state, relative movement of the second connector part is restricted with respect to the first connector part in a first direction along a first axis of action. The connector assembly has a force-limiting arrangement in a connected state that limits relative movement of the second connector part with respect to the first connector part in a second direction opposite to the first direction. When an external force is applied to the second connector part and the external force has a first force component acting in the second direction and exceeding a threshold force the force-limiting arrangement allows the second connector part to move relative to the first connector part.

The disclosure is directed to a connector assembly mechanically interconnecting first and second structural entities of an aircraft container. The connector assembly has first and second connector parts fastened to the first and second structural entities, respectively. In a connected state, relative movement of the second connector part is restricted with respect to the first connector part in a first direction along a first axis of action. The connector assembly has a force-limiting arrangement in a connected state that limits relative movement of the second connector part with respect to the first connector part in a second direction opposite to the first direction. When an external force is applied to the second connector part and the external force has a first force component acting in the second direction and exceeding a threshold force the force-limiting arrangement allows the second connector part to move relative to the first connector part.

A fastening system for a metallic cellular shipping container floor includes a potted insert with a body disposed between a top flange at one end and a bottom flange at another end. The body defines a channel from the top flange leading towards the bottom flange and has a depth not exceeding a distance from the top flange to the bottom flange. The system also includes a hole formed in a panel of a metallic cellular shipping container floor with a depth identical to or greater than a distance from a top portion of the top flange to a bottom portion of the bottom flange. Finally, the system includes a self-tapping screw disposed within the channel of the potted insert, and including a threaded shaft with tip at a distal end of the shaft, and a screw head at a proximal end of the shaft.

A fastening system for a metallic cellular shipping container floor includes a potted insert with a body disposed between a top flange at one end and a bottom flange at another end. The body defines a channel from the top flange leading towards the bottom flange and has a depth not exceeding a distance from the top flange to the bottom flange. The system also includes a hole formed in a panel of a metallic cellular shipping container floor with a depth identical to or greater than a distance from a top portion of the top flange to a bottom portion of the bottom flange. Finally, the system includes a self-tapping screw disposed within the channel of the potted insert, and including a threaded shaft with tip at a distal end of the shaft, and a screw head at a proximal end of the shaft.