SU1557429A1 - Air-cooler - Google Patents

Abstract

The invention relates to a technique of ventilation and air conditioning. The aim of the invention is to reduce water consumption, reduce overall dimensions and ensure continuity of fresh air cooling. The air cooler contains heat accumulator 2, fan 3 and irrigation chamber 4 sequentially located in the inlet duct 1 along the air path. In the inlet duct 1, an additional irrigation chamber 7 with two bypass channels 8 and 9 and placed in them is installed in front of the heat accumulator 2 oppositely switchable elements 10 and 11. The section of the supply air duct 1 between the additional irrigation chamber 7 and the fan 3 and the heat accumulator 2 are separated by a longitudinal vertical partition 12 into two flow parts 13 and 14, each of which is connected by input 15 or 16 through switchable element 10 or 11 to the corresponding bypass channel 8 or 9 of additional irrigation chamber 7, and exit 17 or 18 using two additional oppositely switchable elements 19 and 20 - to the inlet 21 of the fan 3, which is connected with the atmosphere by the outlet. 1 il.

Description

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The invention relates to a technique of ventilation and air conditioning.

The purpose of the invention is to reduce water consumption, reduce overall dimensions and ensure continuity of cooling of the supply air.

The drawing shows a schematic diagram of the air cooler.

The air cooler contains a heat accumulator 2, a fan 3 and an irrigation chamber 4 sequentially located in the supply air duct 1 along the air flow.

The supply air duct 1 is connected to the inlet 5 and the outlet 6, respectively, with the atmosphere and the room (not shown).

In the supply air duct 1, an additional irrigation chamber 7 with two bypass channels 8 and 9 and placed in them oppositely switched elements 1 0 and 1 1 is installed in front of the heat accumulator 2.

The section of the supply air duct 1 between the additional irrigation chamber 7 and the fan 3 and the heat accumulator 2 is divided by means of a longitudinal vertical partition 12 into two flow parts 13 and 14, which are connected by the input 15 and 16 via switchable elements 10 and 11 to the bypass channels 8 and 9 additional irrigation chambers 7, and exits 17 and 18 with the help of two additional opposable switchable elements 19 and 20 to the input 21 of the fan 3, which is sorbed with the atmosphere at the exit 22.

The main and additional irrigation chambers 4 and 7 are made with an irrigated heat exchange nozzle (not shown) and are equipped with circulation pumps 23 and 24.

The air cooler works as follows.

The total air flow is fed into the supply air duct 1 through the inlet 5 and is divided into two streams, the main and the auxiliary. The auxiliary air stream passes through the additional irrigation chamber 7, is cooled and humidified, and the vent enters the heat accumulator 2 located in the flow path 14. After cooling, the heat accumulator 2 located in the flow portion 14

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the auxiliary air flow by the fan 3 through its outlet 22 is vented to the atmosphere.

In this period, the switchable element 11 overlaps the bypass channel 9 of the additional irrigation chamber 7, and the additional switchable element 20 - the outlet 18 of the flow-through part 14 of the duct to the main irrigation chamber 4.

At the same time, the main air flow through the bypass channel 8 and the flow part 1.3 enters the heat accumulator 2 located in the latter, is cooled without changing the moisture content and then is fed into the main irrigation chamber 4, in which it is further cooled and moistened and then through the outlet 6 is supplied to the consumer.

During this period, the switchable element 10 isolates the additional) irrigation chamber 7 from the inlet 15 of the flow-through part 13 of the duct 1, and the additional switch-over element 19 - the outlet 17 of the flow-through part 13 from the outlet 22 of the fan 3.

After a certain period of time, the main and additional elements 10, 11 and 19, 20 are placed in the opposite position.

At the same time, through the flow part 14, the heat accumulator 2 located in the latter and the main irrigation chamber 4 passes the main air flow, which after cooling through outlet 6 is supplied to the consumer, and through the additional irrigation chamber 7, the flow part 13 and the heat accumulator disposed in the latter 2 is an auxiliary air flow, which is then vented to the atmosphere by the fan 3.

Claims (1)

Invention Formula An air cooler containing a heat accumulator, a fan and an irrigation chamber sequentially located in the flow duct along the air flow, the intake duct communicating with the inlet and outlet respectively with the atmosphere and the room, characterized in that in order to reduce water consumption, reduce overall dimensions and provide fresh air cooling, air cooler 51 supplied with an additional irrigation chamber with two bypass channels and oppositely switched elements installed in the flow duct in front of the heat accumulator along the air flow; the section of the supply duct between the additional irrigation chamber and the fan and the heat accumulator are divided into two flow parts using a longitudinal vertical partition, each of ko57429 6 The toriX is connected by an input through a switchable element to the corresponding bypass channel of an additional irrigation chamber, and an output using two additional oppositely switched elements to the fan inlet, which is connected to the atmosphere with an outlet, while the main and additional irrigation chambers are irrigated .