SU1361441A1 - Cold supply system of conditioners - Google Patents

Abstract

The invention relates to air conditioning technology. The purpose of the invention is to increase efficiency by continuously supplying coolant to the irrigation chambers and maintaining pressure in the cold accumulator that is close to atmospheric. For this, the system additionally contains a bypass pipeline 13 connected to the circulation circuit 9 in parallel to the cold battery (A) 8, a regulator 14 with two sensors (D) 15, 16 temperatures and two connected to it

Description

m valve-cutters 17, 18 and two pressure regulators 19, 20 with D 21 and 22 and control valves 23 24. One shut-off valve 17 is located on the bypass pipeline 13, the other in the circulation circuit 9 for A 8 cold. D 15 t-ry is located between A 8 cold and the point of connection of the bypass pipeline 13 to the circulation loop 9, and D 16 t-ry - between A 8 cold and the slam-shut valve 18. Valve 23 y; installed in circulating circuit 9 to A and valve 24 in pipeline 11; the invention relates to air conditioning technology;

The purpose of the invention is to increase efficiency by continuously supplying coolant to the irrigation chambers and maintaining a near-atmospheric pressure in the cold accumulator.

The drawing shows the functional scheme of the cooling system for air conditioners.

The system contains evaporators 1 of refrigerating machines connected by means of line 2 with pumps 3 installed on it, inverse 4 and mixing 5 valves to irrigation chambers 6 equipped with pallets with equalizing pipe 7, and to cold accumulator 8 with formation of a circulation circuit 9, and pumps 10 irrigation chambers 6 connected by a pipeline for supplying heated coolant with non-return valves 12 to a cold accumulator 8. The system further comprises a bypass pipeline 13 connected to the circulation circuit 9 in parallel with the cold battery 8, a controller 14 with two temperature sensors 15 and 16 and two shut-off valves 17 and 18 connected to it, two pressure regulators 19 and 20 with sensors 21 and 22 and control valves 23 and 24, with the first shut-off valve 17 placed on the bypass conduit 13, the second in the circulation circuit 9 behind the cold accumulator .8, heat-insulated coolant. D 21 and 22 regulators 19 and 20 are installed respectively on line 2 and in A 8 cold. By maintaining a constant predetermined pressure in line 2, excess coolant through regulator 19 and valve 23 through circulation circuit 9 is again supplied to pump 3 and line 2. This reduces the flow rate of the cooled coolant supplied to the irrigation chambers of air conditioners. 1 il.

The temperature sensor 15 is between the cold battery 8 and the point where the bypass pipe 13 is connected to the circulation loop 9, the second temperature sensor 16 is between the cold battery 8 and the second shutoff valve 18, the valve 23 of the first pressure regulator 19 is set to circuit 9 to

the accumulator 8, the valve 24 of the second pressure regulator 20 on the supply line 11 of the heated coolant, and the sensors 21 and 22 of the regulators 19 and 20, respectively

line 2 and in the battery 8 cold.

The system also contains pipelines 25-27 of the circulation circuit 9, valves 28 and 29 and air

crane 30.

The cooling system works as follows.

When the pump 10 and the system of automatic support

nor a predetermined dew point temperature of the conditioned air by changing the ratio of the heated and cooled coolant supplied to the irrigation chamber 6 by

valve 5 turns on the pump 3 of the evaporator 1 of the refrigerating machine. Turning on the next pump 3 or turning it off is determined by the magnitude of the deviation from the set pressure in line 2,

depending on the need for a chilled refrigerant.

The coolant taken from the accumulator 8 through pipeline 25 and the bypass pipeline 13 to line 2 after being displaced with the heated coolant supplied by pumps 10 by means of valves 5 to the irrigation chambers 5, and the informant as a result of maintaining a constant predetermined pressure main 2, by means of controller 19 and valve 23 through circulation circuit 9 are again supplied to pump 3 and line 2. At the same time,

The surplus of the pipe storage line 11 goes to pumps 10 from the subdomain 15, pumps, reverse and mixing chambers 6 irrigated, the heated refrigerant fills the battery 8 on its reverse side. When the temperature of the coolant withdrawn from the battery 8 is higher than that specified by the signal from the sensor 15, the valve 17 is closed, the valve 18 is opened, and the evaporators 1 of the pumps 3 in operation are turned on. At the same time, the heated refrigerant to the evaporators 1 for cooling is supplied simultaneously from the accumulator 8 through the conduit 26 of the circulation circuit 9 and directly from the pans of the irrigation chambers 6 with the pumps 10, and the excess cooled refrigerant through the conduit 25 of the circuit 9 fills the accumulator 8 s back of his hand.

When the temperature of the coolant in the pipe 27 at the outlet of the battery 8 drops to a predetermined value, the valve 18 closes at a signal from the sensor 16, the valve 17 opens, and the described cycle repeats.

Hydraulically, the system is connected in such a way that when the pumps 10 and 3 are simultaneously operated in the accumulator 8, the pressure is maintained close to atmospheric pressure, which is additionally provided by the pressure regulator 20. In the case of operation of the pumps 1O with the pumps 3 disconnected or when the system is inoperative and there is a significant difference in the marks between the pallets of the chambers 6 and the battery 8, the valve 24 is closed.

The system is filled with a coolant (water) through the valve 28 and the order 6216/43 Circulation 660 Poppx Production-by: shgr. pr-tie, Uzhgorod, st. Project, 4

The valves of the pallets of the irrigation chambers 6.

The air from the tank Akumul 8 is discharged through the air valve 30, and the coolant is discharged through the drain with the valve 29.

Claims (1)

Invention Formula A cold supply system for air conditioners containing refrigeration evaporators connected via a line installed on 0 five to the irrigation chambers equipped with pallets with a balancing pipe, and to the cold accumulator with the formation of a circulation circuit, and pumps to the irrigation chambers connected by the heated coolant pipeline with non-return valves to the cold accumulator, which is different. five that, in order to increase efficiency by continuously supplying refrigerant to the irrigation chambers and maintaining a close to atmospheric pressure in the cold accumulator, 0 additionally contains bypass pipeline connected to the circulating-cooling circuit parallel to the cold accumulator, a regulator with two temperature sensors and two shut-off valves connected to it and two pressure regulators with sensors and regulating valves, the first shut-off valve located on the bypass pipeline , the second is in the circulation circuit behind the cold battery, the first temperature sensor is between the cold battery and the point where the bypass pipeline is connected to the circulation loop 5 RU, the second temperature sensor is between the cold accumulator and the second valve-shutoff valve, the valve of the first pressure regulator is installed in the circulation circuit to the battery, the valve of the second pressure regulator is installed in the coolant supply pipeline, and the sensors of the mentioned regulators are respectively in the line and in the battery cold torus. 0 0