An ice making machine has a mechanical compartment and a water compartment that houses a water system, and a pump assembly. The pump assembly includes a motor and a pump housing connected to the motor. The pump assembly is mounted to a base between the machine compartment and the water compartment so that the pump motor is located in the mechanical compartment, but can still be removed through the water compartment. A mounting flange attached to the pump assembly extends radially beyond the circumference of the pump motor. In one embodiment, a pump opening in the base has a collar integrally formed with the base. The collar includes a sealing section and a latching section. When the pump is inserted through the pump opening, snap latches in the latching section engage the mounting flange to hold the pump in place and the sealing flange seals against an inner surface of the sealing section.

An ice-making water tank 54 capable of improving ice-making efficiency by suppressing increases in concentrations of the impurities contained in ice-making water is divided into a circulating tank section 58 and a retention tank section 60 by a partition plate 62. The ice-making water stored within the circulating tank section 58 and the ice-making water stored within the retention tank section 60 are made movable between each other by a communication hole 64. A capacity of the retention tank section 60 is set to have a capacity greater than that of the circulating tank section 58. Above the retention tank section 60 is covered with a guide 52c of a mechanical base 52, and the un-iced water cooled during ice-making operation is collected only into the circulating tank section 58 via an opening 52d opening downward above the circulating tank section 58.