SU185351A1 - ICE GENERATOR - Google Patents

Description

Ice generators for the production of zodia flake ice are known, made in the form of vertical evaporation sections, each of which consists of two constricted pipes with nozzles, respectively, for supplying and discharging refrigerant and its vapors, while in the center of the section there is a vertically arranged drive shaft with rigidly fixed on the letters by two irrigators for supplying water to the outer and inner surfaces of the section and by two flat blades for removing formed on the surfaces of the ice section Enki.

The proposed ice maker provides getting tubular ice with simultaneous defrosting it from both surfaces of the sections. The design of the ice machine described is simpler known.

To this end, one sprinkler is installed in the center of the section, the second one is made in the form of an annular collector, and a bubbler is strengthened to evenly separate the ice section formed on the surfaces of the ice section on the nozzle for supplying refrigerant vapor.

FIG. I schematically depicts the evaporative section of the proposed ice maker; in fig. 2 is a section along A-A in FIG. one.

of which is provided for the supply of refrigerant, and the second for the vapor, and it ends with a closed loop ring-shaped baobot 5. The pipe 2 has a branch pipe 6 for discharging refrigerant vapor. Sprinkler 7 installed in the center of the pipe. The other irrigator 8 is an annular collector. The evaporative section is provided with a ring-shaped cover 9. The lower end of the pipe

/ break up cased on the sphere outwards, pipes 2 - on the sphere inwards.

The ice maker sections are provided with support shoes 10 for mounting them on the support frame when assembled into a battery.

The latter includes, for example, twenty-four sections. The principle of operation of the ice maker is as follows. The refrigerant, for example, liquid ammonia, enters through the tube 3 into the annular space of each section, evaporates, cooling its ice-forming surfaces. The resulting vapors are sucked off using a compressor unit through pipe 6. Then, water is fed to the ice-forming surfaces through sprinklers 8

and 7. The process of ice formation occurs according to a given duration of freezing, after which the ice thaws. To do this, the supply of liquid ammonia and water is stopped, and hot vapor is supplied to tube 4.