SU96390A1 - The method of operation of refrigeration units and device for its implementation - Google Patents

Description

There is a method of operation of refrigeration units with batteries of the cascade type and a liquid refrigerant circulating from top to bottom through the tubes of the battery. In comparison with this, the proposed method allows to improve the separation of the vapor phase of the refrigerant from the liquid without separators and to significantly safeguard the operation of compressors, to which liquid is often thrown, which creates a hydraulic shock and destroys the cylinders of the compressor. The proposed method is characterized in that the horizontal tubes of the battery are filled with circulating refrigerant at 5-12% of the cross section of the tubes.

Constructive — a feature of the fixture is that a collimated diaphragm is installed in the pipe that supplies the refrigerant to the battery, and to obtain a constant pressure on the diaphragm B, the refrigerant distributor has a built-in bracket for removing the excess amount of refrigerant. One end of the clamped tube is brought into the pressure head at a lower level of the diaphragm, and the other end is above the input of the residual liquid phase of the refrigerant entering the pressure collector after the heating device.

The drawing shows a diagram of a device for carrying out the method of operation of refrigeration units with batteries of the type "cascade" with filling the horizontal tubes of batteries with a circulating cooling agent at 5-12% of the pipe section.

Above the battery type cascade is installed refrigerant dispenser 1. Calibrated diaphragms 3 are installed on the pipes 2 supplying the refrigerant to the battery.

In the pressure one-to-four distributor 1, clamp-shaped pipes 5 are mounted, one ends of which are brought into the pressure one-hundred to four below the level of the diaphragm 3, and the others above the input of the residual liquid phase of holo # 96390

dilny agent coming after the cooling device in the pressure one hundred to.

The principle of operation of the device is as follows.

The refrigerant from the receiver or monjus (not shown in the diagram) is fed through pipe 6 to distributor 1, from which, by gravity, through the pressure stand 4, through a calibrated diaphragm under pressure I, flows in a stream, at the top, in batteries 7 slzaye fourth) floor of the refrigeration unit.

The holes of the calibrated diaphragms 3 are designed so that at head I, the horizontal tubes of a battery of the type "cascade are filled with circulating refrigerant at 5-12% of the cross section of these tubes.

With a small number of calibrated diaphragms 3 on the fourth floor (or some other) as compared to the underlying third floor (or some other lower floor), excess refrigerant is formed, which from the distributor / through the clamp-shaped pipe 5 along the stack 4 enters powering the batteries of the third floor, save the pressure I'm on the fourth floor. The non-evaporated refrigerant in the batteries of the fourth floor also enters the stack 4 through the calibrated diaphragm 3 into the batteries of the third floor.

In the case of repair or shutdown of batteries on the third floor, the entire amount of refrigerant through a clamp-shaped pipe 5 along the route 4 4 enters through the calibrated diaphragm 3 into the batteries of the second floor.

In the process of moving a refrigerant on all floors, the calibrated diaphragms on batteries of the "cascade" type are at the same head of refrigerant I.

The residual non-evaporated refrigerant enters the receiver for recirculation.

Subject invention

Claims (3)

1. A method of operating refrigeration units with a cascade-type battery and a liquid refrigerant circulating from top to bottom through the tubes of the battery, characterized in that, in order to ensure stable operation of the unit, the horizontal tubes of the batteries are filled with a circulating refrigerant of 5-12% of the living section pipes. 2. A device for carrying out the method of claim 1, characterized in that calibrated diaphragms are installed in the pipes supplying the refrigerant to the battery. 3. A device according to claim 1, characterized in that, in order to obtain a constant pressure on the diaphragm, in the pressure station a refrigerant distributor, stapled tubes are installed to drain excess amount of the refrigerant, one end of which is brought into the pressure station to a lower aperture level and the other is above the input of the residual liquid phase of the refrigerant flowing after the cooling device into the pressure manifold to one hundred.