A diamond asset comprising one or more diamonds and an encryption chip is used to asset-back a cryptographic token that can be used to conduct transactions. The cryptographic token is written to a blockchain using a smart contract that is configured to enable a transaction associated with the token in response to two or more of: a signature by the encryption chip, a signature by the owner of the diamond asset, and a validation of a visual layout of the diamond asset.

A diamond asset comprising one or more diamonds and an encryption chip is used to asset-back a cryptographic token that can be used to conduct transactions. The cryptographic token is written to a blockchain using a smart contract that is configured to enable a transaction associated with the token in response to two or more of: a signature by the encryption chip, a signature by the owner of the diamond asset, and a validation of a visual layout of the diamond asset.

Various embodiments, relate to a system of lockers including a plurality of tracks and a plurality of walls. At least two of the plurality of walls slidably coupled to at least two of the plurality of tracks. Four of the plurality of walls form four sides of a locker cavity. The system also includes a plurality of doors. Each of the plurality of doors are oriented perpendicular to the plurality of the walls. A first door of the plurality of doors is coupleable to a second door of the plurality of doors so as to form a third door, and at least one of the plurality of doors form one side of the locker cavity. The system also includes a back wall, which forms one side of the locker cavity. The system further includes a lock for securing positions of the plurality of walls and of the plurality of doors.

Various embodiments, relate to a system of lockers including a plurality of tracks and a plurality of walls. At least two of the plurality of walls slidably coupled to at least two of the plurality of tracks. Four of the plurality of walls form four sides of a locker cavity. The system also includes a plurality of doors. Each of the plurality of doors are oriented perpendicular to the plurality of the walls. A first door of the plurality of doors is coupleable to a second door of the plurality of doors so as to form a third door, and at least one of the plurality of doors form one side of the locker cavity. The system also includes a back wall, which forms one side of the locker cavity. The system further includes a lock for securing positions of the plurality of walls and of the plurality of doors.

A remotely controlled cabinet assembly includes a cabinet unit that includes a central cabinet and a door that is hingedly coupled to the central cabinet. A plurality of locking units is each coupled to the central cabinet. Each of the locking units releasably engages the door for locking the door on the central cabinet. A control unit is coupled to the cabinet unit and the control unit is electrically coupled to each of the locking units. The control unit actuates each of the locking units to disengage and thusly unlock the door on the central cabinet. A keypad is coupled to the door and each of the locks disengages the door when an alpha-numeric code is entered into the keypad. An electronic device is carried by a user and the electronic device transmits an unlock command to the control unit for remotely unlocking the door on the central cabinet.

A remotely controlled cabinet assembly includes a cabinet unit that includes a central cabinet and a door that is hingedly coupled to the central cabinet. A plurality of locking units is each coupled to the central cabinet. Each of the locking units releasably engages the door for locking the door on the central cabinet. A control unit is coupled to the cabinet unit and the control unit is electrically coupled to each of the locking units. The control unit actuates each of the locking units to disengage and thusly unlock the door on the central cabinet. A keypad is coupled to the door and each of the locks disengages the door when an alpha-numeric code is entered into the keypad. An electronic device is carried by a user and the electronic device transmits an unlock command to the control unit for remotely unlocking the door on the central cabinet.

This banknote processing apparatus has: an upper unit including a depositing unit configured to deposit a banknote in the banknote processing apparatus and a banknote recognition unit configured to recognize the banknote deposited from the depositing unit; and a lower unit including a temporary storage unit configured to temporarily store the banknote recognized by the banknote recognition unit and a banknote storage unit configured to store the banknote stored in the temporary storage unit. Thus, the temporary storage unit is housed in the lower unit, and therefore a user can easily perform maintenance of the temporary storage unit.

This banknote processing apparatus has: an upper unit including a depositing unit configured to deposit a banknote in the banknote processing apparatus and a banknote recognition unit configured to recognize the banknote deposited from the depositing unit; and a lower unit including a temporary storage unit configured to temporarily store the banknote recognized by the banknote recognition unit and a banknote storage unit configured to store the banknote stored in the temporary storage unit. Thus, the temporary storage unit is housed in the lower unit, and therefore a user can easily perform maintenance of the temporary storage unit.

A security container that can be easily and securely connected to a fixed structure such as, but not limited to, a rod, pole, handle, latch, etc. such that the security container can be securely and easily connected and disconnected from the fixed structure.

A secure enclosure is described which is designed to offer inventory management and tamper detection for the storage and removal of rolled coins and other valuable items. Within the secure enclosure a plurality of shelves are provided. Each shelf may have its own scale for the purpose of weighing the contents supported by its shelf. Each shelf may be designed for the storage of one particular denomination of rolled coin. Monitoring circuitry interfaces with the scales for the purpose of determining the quantity of rolls upon each shelf, and the possibility for an erroneous deposit or removal of rolls supported by a shelf or an improper access to other contents on the shelf. A further approach detects multiple types of rolls of coins utilizing a single scale.