SU1071886A1 - Air conditioning plant - Google Patents

Abstract

AIR CONDITIONING INSTALLATION comprising a supply duct disposed in the air intake, the regenerative air-to-air heat exchanger and arranged in parallel to the supply duct heat exchanger-accumulator and connected to the regenerative air-to-air heat exchanger with an exhaust duct and push the cuttings nga.htoy bypass channel recuperative heat exchanger, wherein so that, in order to reduce energy costs for the processing of fresh air, the installation is additionally equipped with a jumper m Between the exhaust and intake ducts, the ice bunker with a gun and an irrigation device installed in the casing, the casing is placed in the upper zone of the bunker with the ability to move in two mutually perpendicular directions and sub-connection; 1 by means of a telescopic nipple and a flexible the air duct to the air inlet duct in front of the recuperative heat exchanger, the irrigation device is connected by a circulating ring to the drain, and the jumper is connected to the exhaust air duct to the recuperative Tenvio exchanger, and to the supply air - to the heat exchanger-battery, which is installed in the air supply duct after the recuperative heat exchanger. (L 77 27 00 00 O5

Description

The invention relates to air conditioning technology.

A known installation of air conditioning, comprising an air intake located in a supply air duct, a heat recovery air-air heat exchanger, a heat exchanger-accumulator mounted parallel to the air supply duct, and an exhaust air duct with exhaust plate and a bypass heat recovery channel connected to a recuperative air-air heat exchanger with exhaust shield and bypass heat recovery channel heat exchanger with exhaust shield and bypass heat recovery channel heat exchanger and exhaust air heat exchanger with exhaust shield and bypass heat recovery channel connected to the recuperative air heat exchanger with exhaust shield and bypass heat recovery channel.

The disadvantage of this setup is the significant energy cost of handling the incoming air. These costs are due to the fact that significant amounts of energy are expended on heating the supply air in the winter, as well as cooling it in the summer.

The purpose of the invention is to reduce energy costs for the treatment of fresh air.

This aim is achieved in that the installation of air conditioning comprising arranged in the supply air duct air intake, a regenerative air-to-air heat exchanger and arranged in parallel with the supply air heat exchanger, an accumulator, and connected to the regenerative vozduhovozdushnomu exchanger exhaust duct to push the cuttings schahtoy and bypass channel recuperative heat exchanger , additionally provided with a jumper between exhaust and supply air ducts, ice bunker with An irrigation device and an irrigation device installed in the casing, the casing is placed in the upper zone of the bunker with the ability to move in two mutually perpendicular directions and connected with a telescopic pipe and a flexible air duct to the inlet air duct in front of the recuperative heat exchanger, the irrigation device is connected with a circulating ring at and the jumper is connected to the exhaust duct to the recuperative heat exchanger, and to the supply duct to the heat exchanger-accumulator, which is installed in the supply air after the regenerative heat exchanger.

FIG. 1 shows the installation, plan view; in fig. 2 - the same, longitudinal section.

The air conditioning unit contains air intake 2 placed in the inlet duct 1, a regenerative air-to-air heat exchanger 3 and a heat exchanger-accumulator 4 installed parallel to the inlet duct 1, as well as an exhaust duct 5 connected to the recuperative air-air heat exchanger 3 with exhaust shaft 6

and the bypass channel 7 of the regenerative heat exchanger 3.

In addition, the installation is additionally equipped with a jumper 8 between exhaust 5 and inlet 1 air ducts, ice bin 9 with attachment 10 and irrigation device II installed in the casing 12, the latter being placed in the upper zone of the bunker 9 with the ability to move in two mutually perpendicular directions and is connected with a telescopic nozzle 13 and a flexible duct 14 to the intake duct 1 in front of the recuperative heat exchanger 3, the irrigation device 11 is connected by a circulating ring 15 with a cup 10, and pin 8

connected to the exhaust duct 5 to the regenerative heat exchanger 3, and to the supply duct to the heat exchanger-battery 4, which is installed in the supply duct 1 after the regenerative heat exchanger 3.

The air is displaced by fans 16 and 17. A crane path 18 with rails 19 and a frame 20 with wheels 21 can be provided for moving the casing 12 with the irrigation device 11.

5 Heat exchanger-accumulator 4 can be made as shell-and-tube. Around the housing 22 there is a space 23 for recirculating air. An electric air heater 25 and a fan 26 are located under the pipes 24. The annular space is filled with fusible substances with a high melting point, such as sodium nitrate.

The installation is equipped with switching valves 27-30.

The installation is controlled by sensor 31.

The installation works as follows.

In the summer, the intake air is taken in through the air intake 2. Ice from the outflow unit 10 through the circulating ring 15 is supplied to the irrigation device II, sprayed, cools and moistens the intake air. Then the intake air through the air duct 1 enters the recuperative air-air heat exchanger 3, where it is supplied by the fan 16, and after the heat exchanger 3 air enters the room. Exhaust air is taken in by the fan 17 and through the duct 5 enters the heat exchanger 3, where it is cooled, the supply air is heated, and released into the atmosphere through the shaft 6.

The bypass channel 7 with the valve 27 allows adjusting the supply air temperature. In winter, the supply air is cleaned and heated in the ice bunker 9 mainly due to the latent heat of freezing of water 5, heated in a recuperative heat exchanger 3, and then, if necessary, heated by passing part of the air through a heat exchanger-battery 4.

At night, using the jumper 8, air is recirculated in the room with its heating in the heat exchanger-accumulator 4.

A heat exchanger-accumulator can accumulate heat during periods of lowest energy consumption. Heat is accumulated by melting the meltable substance with air circulating in

tube space, due to the operation of the fan 26 and the electric air heater 25.

The proposed air conditioning unit allows to reduce energy consumption for air treatment by using off-peak energy, as well as by using the heat of freezing of water to heat the air and at the same time getting ice used in summer as a source of cold.

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Claims (1)

INSTALLATION OF AIR CONDITIONING, comprising an air intake located in the supply air duct, a recuperative air-to-air heat exchanger and a heat exchanger-accumulator installed parallel to the supply air duct, and an exhaust air duct connected to the recuperative air-to-air heat exchanger with an exhaust shaft and a recuperative heat exchanger bypass that in order to reduce energy costs for processing the supply air, the installation is additionally equipped with a jumper between the exhaust a clear and supply air duct, an ice hopper with a pit and an irrigation device installed in the casing, the casing being placed in the upper zone of the hopper with the ability to move in two mutually perpendicular directions and choked with a telescopic nozzle and a flexible duct to the supply air duct in front of the recuperative irrigation heat exchanger, the device is connected by a circulation ring to the pit, and the jumper is connected to the exhaust duct to the regenerative heat exchanger, and to the supply - to the heat exchanger-accumulator, which is installed in the supply air duct after the regenerative heat exchanger. FIG. 1