SU802746A1 - Air cooler - Google Patents

Description

(54) AIR COOLER

I

The invention relates to the refrigeration industry, namely to air intake and can be used to cool the chambers of refrigerators.

Air coolers are known which consist of a casing with inlet and outlet nozzles and placed in a & liter coil heat exchanger and a fan. For thawing of the heat exchange surface, the air cooler is equipped with two rotary valves (electric heaters): the first and the ele- ments and l.

The disadvantage of this air cooler is the use of electric heating elements during defrosting, which leads to high energy consumption.

Such air coolers are known, comprising a casing, a fan installed inside it, a heat exchanger with coil pipes connected to a refrigeration unit (installation, and a vortex tube serving as a device for preventing the formation of a snow bead 2.

The air into the cooling jacket is injected by a fan through a heat exchanger, in the coils of which luiphupiruet coolant. In the defrosting mode, a vortex pipe is connected to the return duct, in which the compressed air separates into two streams, and the air flow ropsnero is directed to a heat exchanger that begins to thaw, and the cold air flow is supplied to the cooled chamber.

The disadvantage of such an air cooler is the need for a constant

s operation of the device to prevent the formation of a snow coat, which significantly complicates the design of the latter, and when the device is operated in periodic defrosting mode, it takes a certain amount of time and increases the power consumption.

The purpose of the invention is to reduce the energy consumption of the air cooler.

The supply chain is achieved by the device dp preventing the formation of a snow coat in the form of an additional installation of a louvered air intake connected to the freezer and an inertial cyclone communicated through the knee to the inlet of the heat exchanger.

In the drawing of the diagrams, the voi-i spirit hood is shown attic.

The air cooler contains a louvered air intake 1, an inertial cyclone 2 attached to it, inside which the pipe 3, which is connected to the heat exchanger 5, which consists of the ovoid serpentine pipes, is connected to the cooling unit (not shown). A fan 6 is installed behind the heat exchanger 5, which injects cold air into the chamber through pipe 7. The lower part of the cyclone 2 is connected to the drain pipe 8 lowered by the lower condom B and the condensate collector 9. Dp increasing the airflow of the wet vapor and imparting inertial vultures, the entry into the cyclone 2 is made in the form of narrow chips (shown).

The air cooler works in a slow way.

Moist air from the top of the freezers (not shown) through the louvered air intake 1 enters the inertial cyclone 2, where, under the action of Qvi centrifugal forces, moisture particles and large specific gravity are transferred to the walls of the cyclone 2 to flow through the condensate collector 9. The air released from moisture through the pipe 3 at the xener 4 is drawn in by the ventinator 6 to the finned heatman device 5, in the tubes of which ammonia circulates. Further, the cold air through the pipe 7 is injected into the chamber.

Thus, the design of the air cooler prevents the formation of & snow in a fur coat on the surface of the heat exchanger, intensifies the cooling process of the products in the chamber, reduces the efficiency of the refrigeration unit and reduces power consumption.

Claims (2)

1. USSR author's certificate number 545841, cl. F25D21 / O6, 1975. 2. The author's certificate of the USSR P 589513, cl. F25TJ21 / O6, 1976. -, g, - ± I ± head