Abstract: Apparatuses for stacking chips include a container for receiving unstacked chips, a carrier comprising a channel for carrying a chip stack, a transport system for transporting chips from the container toward the carrier, and at least one ejector system for ejecting or moving chips from the transport system into the channel of the carrier. Chip stack cutter devices may include an elongated displacement member, which may extend from an actuating lever member movably coupled to a base member configured to slide along a channel of a chip stack carrier. In additional embodiments, the cutter device may include an energy-responsive device configured to selectively move an elongated displacement member for displacing a number of chips in a chip stack carried in a channel of a chip stack carrier.

Abstract: Apparatuses for stacking chips include a container for receiving unstacked chips, a carrier comprising a channel for carrying a chip stack, a transport system for transporting chips from the container towards the carrier, and at least one ejector system for ejecting or moving chips from the transport system into the channel of the carrier. Chip stack cutter devices may include an elongated displacement member, which may extend from an actuating lever member movably coupled to a base member configured to slide along a channel of a chip stack carrier. In additional embodiments, the cutter device may include an energy-responsive device configured to selectively move an elongated displacement member for displacing a number of chips in a chip stack carried in a channel of a chip stack carrier.

Abstract: Chip sorting devices include a rotatable disc having a plurality of wells for receiving chips therein, a plurality of channels for holding stacks of chips, at least one ejector for ejecting chips from the wells of the disc into the channels, and at least one removal lever associated with at least one of the channels. The removal lever has an arm configured to extend adjacent at least a portion of a stack of chips when the stack of chips is in a channel. Other chip sorting devices include a plurality of wells for receiving chips therein, a plurality of channels for holding stacks of chips, at least one ejector for ejecting chips from the wells of the disc into the channels, and at least one spring member configured to bias the ejector to a position.

Abstract: A coin dispensing apparatus which is simple in structure and can prevents rise in cost and money exchange fraud. The apparatus comprises an inserting aperture 2 which is provided at the upper part of the body 1 and into which coins 3 are put, a sorting unit 4 which comprises a coin discriminating device 40 discriminating genuineness of coins 3 put into it through the inserting aperture 2, and sorts the coins so discriminated, a coin storing unit 6 which is located under the sorting unit 4 and stores coins 3 sorted every coin kind, a holding unit 5 which is provided between the coin storing unit 6 and the sorting unit 4, and holds temporally coins 3 sorted by the sorting unit 4 every coin kind, and a coin repayment unit 7 which is provided at the lower part of the body 1 and returns coins 3.

Abstract: A coin bank (A) having one or more coin holders (70A-70D) removably aligned with one or more coin chutes (56A-56D) for receiving coins therefrom. The coin bank (A) preferably includes a coin sorter assembly (32) for sorting coins by diameter, a separator assembly (30) for conveying coins one at a time to the coin sorter assembly (32), a coin chute assembly (54) including the one or more coin chutes (56A-56D) each accommodating coins of a respective maximum diameter. The one or more coin chutes (56A-56D) each include at least one finger for abutting the top edge of the corresponding coin holder (70A-70D) for maintaining the alignment. An overflow passage (62) is defined in the wall of at least one of the coin chutes (56A-56D) for allowing coins to pass therethrough when the associated coin holder (70A-70D) is filled with coins.