SU1606819A1 - Refrigeration plant - Google Patents

Abstract

The invention can be used in installations for cooling a liquid. The purpose of the invention is to simplify the design, reduce metal consumption and increase compactness. For this, the condenser 3 is combined with the shell of the storage tank 6, and the evaporator is combined with the shell of the mounting frame 8. The refrigerant vapor compressed in compressor 1 is condensed in the channels of one coil, which is cooled by water supplied to the channels of another coil. The coolant is fed to the evaporator panel 2, in which the liquid is cooled, which is supplied to the evaporator 2 irrigation through the opening. Useful refrigeration is carried out from the cooled liquid in heat exchanger 26. Water cooled by condenser 3 is cooled by spraying through nozzles 15 onto nozzle 16 and evaporating into the air supplied by fan 19. Instead of cooling tower 7, an evaporative condenser can be used, and then water after condenser 3 sprayed over a grooved plate attachment. The fan 19 can be driven from an external additional rotor of the compressor 1. 10 Cp. F-ly, 7 ill.

Description

The invention relates to refrigeration and can be used in installations for cooling a liquid.

The purpose of the invention is to simplify the design, reduce metal consumption and increase compactness.

FIG. 1 schematically shows a refrigeration unit; FIG. 2 shows an evaporator element with annular channels of the irrigator and regenerative heat exchanger in the upper part of its panel; in fig. 3 - an element of a condenser with alternating feed to each of the channels of a two-winding coil of condensing refrigerant and water cooling the condenser; Fig. 4 shows an element of an evaporative condenser, made in the form of an Archimedes spiral, between the turns of which a corrugated plate attachment is located, which is in thermal contact with it; in fig. 5 is a section A-A in FIG. four; in fig. 6 is a variant of the sweep of the capacitor element spiral; Fig. 7 shows a compressor fixed to the top of the mounting frame.

The refrigeration unit contains a compressor 1, an irrigation evaporator 2, a water condenser 3, a regulating device 4, a regenerative heat exchanger 5, a storage tank 6 and a cooling tower 1.

Irrigation evaporator 2 is made in the form of a panel, combined with the mounting frame 8. In the upper part of the panel are the annular channels of irrigator 9 and the pipeline 10 of the regenerative heat exchanger 5.

The condenser is made in the form of a two-port panel combined with the shell of the accumulator tank 6. One of the coils (11) is designed to circulate freon, and the other coil (12) is used for cooling condenser water. Each of the coils 11 and 12 can be made in the form of a number of parallel channels providing optimal rates of freon and water.

The cooling tower 7 contains, for example, a droplet separator 13, a water distributor 14 combined with a water extraction channel located in the upper part of the condenser panel 3, nozzles 15 and an irrigated nozzle 16. The cooling tower body 7 is the shell of the storage tank and the catchment tank The 17-nth part of the tank between the sides of the condenser 3 and the evaporator 2. Windows 18 are made to pass air into the panels of the condenser 3, and a fan 19 is used to circulate it. To maintain a constant water level in the tank, the float device 2 0, for supplying water from the tank to the condenser - pump 21, which draws water

through the filter 22. The lower part 23 of the tank formed by the evaporator panel 2 is used to accumulate the cooled liquid. The cooled liquid supply line contains the filter 24, the pump 25, the heat exchanger 26 where the coolant is used and the sprinkler 9. The sprinkler 9 has a number of holes 27 for supplying cooled liquid to the irrigation of the evaporator panel 2. Holes 27 can be made either on one side of the panel (if there is a cooling tower inside the unit) or on both sides in order to increase the heat exchange surface of the evaporator

5 2. In the first case, thermal insulation 28 is installed on the outside of the evaporator panel 2, and in the second case, holes 29 are made in the lower part of the evaporator panel 2, which connects the containers inside this panel and between the shells.

The evaporative condenser 30 can be made in the form of a spiral of Archimedes, between the turns of which is located a corrugated plate-shaped nozzle 31. Refrigerant

5 is directed to the channels 32 of the condenser coil, and the air to the channels 33 between the corrugated plate nozzle 31 and the condenser coil.

Compressor 1 can be performed with

0 shielded rotor. In this case, it includes the rotor 34, the screen 35 and the stator 36, the fan is driven from an external additional rotor 37, and the upper part of the shell of the capacitor 3 is made in

5 shows the diffuser 38 of the fan 19,

Refrigeration unit operates as follows.

The compressor 1 injects steam into the condenser 3. In the channels of the coil 11, the vapors are condensed due to heat being extracted by water, which is passed through the channels of the coils 12. Liquid refrigerant is supplied from the bottom of the condenser 3 to the liquid pipe 10 of the regenerative heat exchanger. The supercooled refrigerant is fed through the regulating device 4 to the evaporator panel 2. The vapor-liquid mixture formed after the regulating device 4 boils in the evaporator 2. The vapors are sucked off from the top of the evaporator 2 by the compressor 1,

Overheating is carried out in the upper vapor collector of the evaporator 2 serving

at the same time the steam pipe of the regenerative gene heat exchanger 5.

As a result of the refrigerant boiling in the evaporator 2, the liquid is cooled, for example water, which is fed to the evaporator 2 irrigation through the holes 27 of the irrigator 9. The cooled liquid flows to the bottom

The container part 23, from which through the filter 24, the liquid is pumped by the pump 25 to the heat exchanger 26, where they produce useful cold yield, for example, cooling the milk. Heated while the fluid is fed into the sprinkler 9,

The water cooling the condenser 3 is taken from the bottom of the catchment tank 17 through the filter 22 by the pump 21 and fed into the coil channels 12 to cool the condenser 3. The water heated in the condenser 3 is fed to the water distributor 14 combined with the water extraction channel located in the upper part of the panel condenser H. From the water distributor 14 through the nozzles 15, water is sprayed onto the nozzle 16.

Due to the evaporative effect, water is cooled, passing air through the countercurrent. Air is taken in by the fan 19 through the windows 18 in the panel of the condenser 3. In the upper part of the cooling tower 7, the droplet separator 13 prevents the drip of water from dripping away.

When performing instead of the cooling tower-7 of the evaporative condenser 30, the water after the condenser 3 is fed to the water dispenser 14 for spraying over the corrugated plate nozzle 31, and the air is passed through the channels 33 in countercurrent from the bottom. Due to the evaporative effect, water is cooled and fed to condenser 3. Knocking down the refrigerant overheating and incomplete condensation is carried out in the evaporative condenser 30 into the channel / 32, and full condensation in the coil 11 of the condenser 3, where the refrigerant after the evaporative condenser 30 is directed.

The fan 19 can be driven from an external additional rotor 37 of compressor 1 with a shielded rotor 34 driving the compressor 1 with one stator 36. The upper part of the shell of the condenser 3 is made in the form of a diffuser 38, and the compressor 1 is partially recessed inside the evaporator 2 .

Claims (11)

1. Refrigeration unit comprising a compressor, an irrigation evaporator, a condenser, a regulating device, a regenerative generative heat exchanger, a storage tank, a sprinkler and a mounting frame, which in order to simplify the design, reduce the metal consumption and increase the compactness, the condenser combined with shell of the battery tank, and the evaporator - with the shell of the mounting frame. 2. Installation under item 1, characterized in that the capacitor is made in the form 5 two-way counter-current panel. 3. Installation under item 1, characterized in that the evaporator is made in the form of a panel with an annular irrigation channel located in its upper part. ten 4. Installation under item 3, characterized in that the liquid pipe of the regenerative heat exchanger is made in the form of an annular channel in the evaporator panel directly under the sprinkler.  15 5. Installation on PP. Zi4, characterized in that the sprinkler holes of the sprinkler are made on both sides of the evaporator panel, and in the lower part of this panel there are holes, communicating capacitances inside the evaporator panel and between the evaporator panel and accumulator tank shell, fluid in the tank. 6. Installation according to Claim. 1, characterized by the fact that there is a vaporizer between the shells and a condenser is a cooling tower with irrigated nozzle, with the lower part of the annular tank made in the form of a tank for collecting recycled water, and in the upper part 30 of this tank is a fan. 7. Installation on PP. 1, 3, 4, characterized in that the evaporator is made in the form of an Archimedes spiral, the first turn of which is combined with the shell of the mounting frame 35. 8. Installation according to claim 1, characterized in that there is an evaporative condenser between the storage tank and the mounting frame-evaporator, the outer winding of which is combined with the shell of the storage tank. 9. Installation under item 8, of which is with the fact that there is a corrugated plate-like plate between the turns of the Archimedes spiral. 5 nozzle, in series with the condenser surface. 10. Installation by PP. 1-9, characterized in that the compressor is partially recessed inside the evaporator panel and is fixed at the top of the mounting frame. 11. Installation on PP. 6, 9, 10, characterized in that the fan is mounted on the external additional rotor of the compressor electric motor with a screened rotor, and the upper part of the shell of the condenser tank is made in the form of a fan diffuser. Fi.Z FIG. I 33 FIG. four Aa FIG. five g4A -Uj 6 55 34 36 J7 nineteen