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The ice part of the ice flake mechanism is the evaporator, and the evaporator is composed of many vertical parallel steel pipes. The deflector at the top of the evaporator spirals the water evenly into each steel pipe. The excess water is collected by the tank at the bottom and pumped back into the evaporator. There is refrigerant flow in the outer space of the steel pipe and heat exchange with the water in the pipe, and the water inside the pipe gradually cools down and cools into ice. When the thickness of the tube ice reaches the desired value, the water automatically stops flowing. The heat from the refrigerant will enter the evaporator and melt the tube ice. When the tube ice falls, the ice cutting mechanism operates, cutting the tube ice to a set size.
The ice part of the ice flake mechanism is the evaporator, and the evaporator is composed of many vertical parallel steel pipes. The deflector at the top of the evaporator spirals the water evenly into each steel pipe. The excess water is collected by the tank at the bottom and pumped back into the evaporator. There is refrigerant flow in the outer space of the steel pipe and heat exchange with the water in the pipe, and the water inside the pipe gradually cools down and cools into ice. When the thickness of the tube ice reaches the desired value, the water automatically stops flowing. The heat from the refrigerant will enter the evaporator and melt the tube ice. When the tube ice falls, the ice cutting mechanism operates, cutting the tube ice to a set size.
