SU883613A1 - Device for utilizing heat in conditioning systems - Google Patents

Description

The invention relates to ventilation and air conditioning and can be used for heat recovery in air conditioning systems

The known plant for heat recovery in air conditioning systems, co- ^s holding heat exchanger arranged in the suction and discharge ducts, respectively attached to the supply and exhaust ventilyato'ram [1]. ¹⁰

However, in a known installation, the channels of the heat exchanger freeze with condensing moisture at a low outdoor temperature.

The purpose of the invention is to increase the effect of DHG ⁵ to carry heat recovery at low negative. outdoor temperatures.

This goal is achieved by the fact that the suction and discharge ducts are connected to each other through a channel with a flap valve, the channel being trisoing to the suction air-water along the supply air to the heat exchanger, and to the discharge air along the exhaust air after the heat exchanger.

On Fig, 1 shows a diagram of a plant for heat recovery in air conditioning systems; in fig. 2 - unit 1 in fig. 1.

The installation for heat recovery in air conditioning systems contains a heat exchanger 1 installed in the suction and discharge ducts 2 and 3, connected respectively to the supply and exhaust fans 4 and 5. The suction and discharge ducts 2 and 3 are connected to each other through a channel 6, moreover, channel 6 is connected to the suction duct '2 along the supply air to the heat exchanger 1, and to the discharge duct 3 - along the exhaust air after the heat exchanger.

The supply fan 4 has a discharge duct 8, and the exhaust fan 5 has a suction duct 9. A condensate collector 10 is installed on the discharge duct 3 of the exhaust fan 5 behind the heat exchanger 1,

The changeover valve 7 is equipped with an actuator 11, triggered by the temperature of the air mixture.

Installation for heat recovery in air conditioning systems works as follows.

The internal air from the premises through the duct '9 with the help of an exhaust fan 5 is fed into the heat exchanger 1, in which it is cooled and cleaned of moisture and harmful gases, when leaving the heat exchanger 1, the air enters the condensate collector 10, where condensate with dissolved harmful gases is removed from it , After the condensate collector 10 through the duct 3, the stream of purified internal air is supplied partially for recirculation in the channel 6 and partially removed. The external supply and purified internal air from the channel 6 by the fan 4 through the duct 2 is fed into the heat exchanger 2, passing through which, the air through the duct 8 enters the room.

The regulation of the volume of recirculation is carried out by a rocker valve 7 with actuator 11 according to the temperature of the air mixture, excluding freezing of the heat exchanger 1.,

Such a design of a heat recovery unit in heating systems will increase the efficiency of heat recovery at low negative temperatures of external air,

Claims (1)

The invention relates to ventilators and air conditioning and can be used for heat recovery in D Kono systems; A known device for heat recovery in the systems of cone-ios-fowan, a societal heat exchanger, installed in the intake and discharge air box, is connected respectively to the supply air and exhaust air of the Hungarians. However, in a known installation, the exchanger channels of the heat exchanger froze with condensing moisture at a low temperature of the outside air. The purpose of the invention is to increase the effectiveness of the use of heat at low negative temperatures of outdoor air. This goal is achieved by the fact that the suction and the driver1. the air through the channel with the flip valve is connected with itself, the channel (trisoating to suction air in the course of the inlet to the heat exchanger, and to the discharge air through the exhaust air) - after the heat exchanger. heat in air-conditioning systems; Fig. 2 - unit 1 in Fig. 1. The installation for heat utilization in conching systems includes a heat exchanger 1 installed in the suction and discharge air ducts 2 and 3, respectively attached to the inlet and exhaust fans 4 and 5, Suction and discharge air ducts 2 and 3 are connected to each other by means of channel 6 with reversing valve 7, channel 6 being connected to suction air duct 2 along the supply air to heat exchanger 1, and to discharge air duct 3 after the heat exchanger. The supply fan 4 has a hygienic air outlet 8, and the exhaust fan 5 has a suction air duct 9. A condensate collector is mounted on the air duct 3 of the exhaust fan 5 behind the heat exchanger IR 10. The reversing valve 7 is provided with an actuator 11, which is activated according to the temperature of the air mixture. The heat recovery plant in final systems works as follows. The inside air from the premises is supplied through the air duct 9 by means of BbiTsDKHoro fan 5 in the heat transfer unit) 1, 1 into which it is cooled and cleaned from moisture and harmful gases, when leaving the heat exchanger 1 air enters the condensate collector 1O, where condensate is removed from with dissolved hazardous gases. After the condensation collector 1O, through the air duct 3, the stream of internal air is supplied partly to the recirculation part in the canal B and partly removed. The supply air and cleaned internal air from Channel 6 by fan 4 through duct 2 is fed to heat exchanger 2, through which air through duct 8 enters the room, Regulus -1 of recirculation is carried out by means of mixture 11 air that prevents the heat exchanger from freezing 1. Such a complete installation for heat utilization in coniferous systems L () will increase the efficiency of heat recovery at low negative temperatures of the outer air; The invention The installation for heat recovery in air conditioning systems, containing a heat exchanger installed in the inlet and inlet ducts, respectively, connected to the intake and exhaust fans, with , in order to increase the efficiency of heat heat treatment at low ambient temperatures Hap cHoro of air, sucking and nascent air flow through the canal with perpendicular valve are interconnected, and the channel is ne; is connected to the intake air inlet along with Boaojxa prior to the heat exchanger, and to the discharge air through the exhaust air after the heat exchanger Isto-P1iki shfq-Jmation, taken into account during the examination 1. Karpis E, E, Discharge of Science and Technology in the Stationion 1st Review Shformatsi. M 5 CIIITE g: Troymash, 1979, p. 50-53,