An automated banking machine operates to cause financial transfers responsive at least in part to data read from data bearing records. A reading device operatives to read indicia from user cards or other bearer records, that is usable to identify at least one of user or a user financial account. The machine includes control circuitry that is operative to cause a determination to be made that the indicia read by the reading device corresponds to an authorized user or account that is authorized to operate the machine to conduct transactions. The machine includes a secure chest which holds valuables such as cash within the interior of the machine. The chest includes a lockable chest door which provides access to the chest interior to authorized persons. The chest and chest door are movably engaged through adjustable hinges.

An automated banking machine operates to cause financial transfers responsive at least in part to data read from data bearing records. A reading device operatives to read indicia from user cards or other bearer records, that is usable to identify at least one of user or a user financial account. The machine includes control circuitry that is operative to cause a determination to be made that the indicia read by the reading device corresponds to an authorized user or account that is authorized to operate the machine to conduct transactions. The machine includes a secure chest which holds valuables such as cash within the interior of the machine. The chest includes a lockable chest door which provides access to the chest interior to authorized persons. The chest and chest door are movably engaged through adjustable hinges.

An automated banking machine operates to cause financial transfers responsive at least in part to data read from data bearing records. A reading device operatives to read indicia from user cards or other bearer records, that is usable to identify at least one of user or a user financial account. The machine includes control circuitry that is operative to cause a determination to be made that the indicia read by the reading device corresponds to an authorized user or account that is authorized to operate the machine to conduct transactions. The machine includes a secure chest which holds valuables such as cash within the interior of the machine. The chest includes a lockable chest door which provides access to the chest interior to authorized persons. The chest and chest door are movably engaged through adjustable hinges.

An automated banking machine operates to cause financial transfers responsive at least in part to data read from data bearing records. A reading device operatives to read indicia from user cards or other bearer records, that is usable to identify at least one of user or a user financial account. The machine includes control circuitry that is operative to cause a determination to be made that the indicia read by the reading device corresponds to an authorized user or account that is authorized to operate the machine to conduct transactions. The machine includes a secure chest which holds valuables such as cash within the interior of the machine. The chest includes a lockable chest door which provides access to the chest interior to authorized persons. The chest and chest door are movably engaged through adjustable hinges.

Storage panels for safes, such as gun safes. Some embodiments may comprise an interior storage panel configured so as to be positioned at least partially outside of a safe in an open position, and may be configured so as to extend along and be positioned at least substantially parallel to the safe door in a closed position with the safe door closed. In some embodiments, the interior storage panel may be configured to be repositioned between the open position and the closed position by rotating the interior storage panel about a pivot axis opposite from a pivot axis of the safe door. In some embodiments, the interior storage panel may be configured to extend away from a side of the safe when opened opposite from a side of the safe from which the safe door extends.

Storage panels for safes, such as gun safes. Some embodiments may comprise an interior storage panel configured so as to be positioned at least partially outside of a safe in an open position, and may be configured so as to extend along and be positioned at least substantially parallel to the safe door in a closed position with the safe door closed. In some embodiments, the interior storage panel may be configured to be repositioned between the open position and the closed position by rotating the interior storage panel about a pivot axis opposite from a pivot axis of the safe door. In some embodiments, the interior storage panel may be configured to extend away from a side of the safe when opened opposite from a side of the safe from which the safe door extends.

Modular elements for safe container comprising Type A, Type B, and Type C edge rails that first are formed from two different widths of flat strips and then cut to the size of each panel sides, where Type A and Type B edge rails are used to assembly the container walls, floor, and roof of the safe, and are joined together by embedded high grade carriage bolts to form the safe body, while Type C edge rails are used to assembly the door panel that is joined hingedly with the safe body and have embedded fasteners for attaching door's locking mechanism.

Modular elements for safe container comprising Type A, Type B, and Type C edge rails that first are formed from two different widths of flat strips and then cut to the size of each panel sides, where Type A and Type B edge rails are used to assembly the container walls, floor, and roof of the safe, and are joined together by embedded high grade carriage bolts to form the safe body, while Type C edge rails are used to assembly the door panel that is joined hingedly with the safe body and have embedded fasteners for attaching door's locking mechanism.

The invention relates to the production of unconstrained sizes of safes due to the manufacturing method based on edge rails first pre-formed, then cut to lengths, therefore meeting the recognized need for customization, simplification of manufacturing, and offering cost effective solution targeting commercial applications and private consumers alike. For every predestined thickness of modular elements of the container there are three different shapes of edge rails that are formed from two different widths of formable material of choice. The shape of edge rail for a door is formed from wider width, while the wider and the narrower widths form the walls, roof, and floor. Material for edge rails could be provided by steel mill in the form of flat strip drum-rolled for the roll-forming process in continuous manner, or being obtained by the shearing off of standard rectangular stock sheets for later forming in press brake. The three types of edge rail shapes A, B, and C preformed in either process, are subsequently cut to size depending of type and dimensions of modular panel. The said approach in production process allows utilizing individually manufactured parts assembled in rapid response to demand for customized product and eliminates the need to keep inventory of ready assembled bulky containers or pre-manufactured flat modules.

The invention relates to the production of unconstrained sizes of safes due to the manufacturing method based on edge rails first pre-formed, then cut to lengths, therefore meeting the recognized need for customization, simplification of manufacturing, and offering cost effective solution targeting commercial applications and private consumers alike. For every predestined thickness of modular elements of the container there are three different shapes of edge rails that are formed from two different widths of formable material of choice. The shape of edge rail for a door is formed from wider width, while the wider and the narrower widths form the walls, roof, and floor. Material for edge rails could be provided by steel mill in the form of flat strip drum-rolled for the roll-forming process in continuous manner, or being obtained by the shearing off of standard rectangular stock sheets for later forming in press brake. The three types of edge rail shapes A, B, and C preformed in either process, are subsequently cut to size depending of type and dimensions of modular panel. The said approach in production process allows utilizing individually manufactured parts assembled in rapid response to demand for customized product and eliminates the need to keep inventory of ready assembled bulky containers or pre-manufactured flat modules.