RU2302588C1 - Conditioning system - Google Patents

Abstract

FIELD: air conditioning and ventilation.

SUBSTANCE: conditioning system comprises receiving chamber, sprinkling chamber, drip pan, and fan. The deicer is made of a heat exchanger and is mounted at the entrance to the receiving chamber. The inlet of the deicer is connected with the heat water supply pipeline, and its output is connected with the return heat water supply pipeline of the heat supply system. The heat exchanger is mounted upstream of the drip pan. The input of the heat exchanger is connected with the supplying pipeline, and its output is connected with the discharging pipeline. The heat exchanger of secondary heating is mounted downstream of the drip pan parallel to the deicer. The inlet of the heat exchanger is connected with the straight main heat water pipeline, and the outlet of the heat exchanger is connected with the return heat water main pipeline of the heat water supply system.

EFFECT: enhanced efficiency and reliability.

1 dwg

Description

The invention relates to techniques for air conditioning and ventilation and can be used to create comfortable microclimate conditions in domestic, administrative and industrial premises.

The closest technical solution to the claimed object is the air conditioning system according to the patent of the Russian Federation No. 2031319, class. F24F 5/00 from 04/27/92 (prototype), containing a supply chamber, an irrigation chamber, a droplet eliminator and a fan.

Its disadvantage is the relatively low efficiency of the process of heat-moisture treatment of air in the winter period of time.

The technical result is an increase in efficiency and a reduction in the energy consumption of heat-moisture treatment of air in the winter time period.

This is achieved by the fact that in an energy-saving air conditioning system containing an inlet chamber, an irrigation chamber, a droplet eliminator and a fan, an anti-icer is installed at the inlet of the inlet chamber, made in the form of a heater, the inlet of which is connected to a direct heating main, and the output - to the return heating main of the heating system, and in front of the droplet eliminator, a heat exchanger of the secondary energy resources (VER) system is installed, the input of which is connected to the supply line from the VER source, and the output - to the discharge line and after the drip trap, a second heating coil is installed in parallel with the de-icer in the heat supply system, the input of which is connected to the direct heat main, and the output to the return heat main of the heat supply system.

The drawing shows a schematic diagram of an energy-saving air conditioning system.

The energy-saving air conditioning system contains a supply air chamber 1, at the inlet of which an anti-icer 6 is installed, which is a heater, the inlet of which is connected to the direct heat pipe 10, and the output to the return heat pipe 11 of the heat supply system. At the outlet of the supply chamber 1, a fan 2 is installed. In the irrigation chamber 4 there is a collector 14 with nozzles for forming a finely divided water curtain, a bath 15 for collecting waste water, overflowing and draining it through valves 3 and 8, filtering through a filter 16 and pumping 5 manifold 14 with nozzles, i.e. the irrigation chamber 4 operates in a closed cycle. In front of the drip trap 17, a heat exchanger 7 of the secondary energy resources (VER) system is installed, the input of which is connected to the supply line 12 from the VER source, and the outlet is connected to the discharge line 13, and after the drip trap 17, a second heating coil is installed in the heat supply system, the input of which is connected with direct heating 10, and the output with return heating 11.

Energy-saving air conditioning system operates as follows.

An anti-icer 6 is installed at the inlet to the inlet chamber, which in the cold season reduces the aerodynamic drag of the tract and avoids icing of the intake valve elements. In front of the drip catcher 17, a heat exchanger 7 of the secondary energy resources (VER) system is installed, the input of which is connected to the supply line 12 from the VER source, and the output is connected to the discharge line 13, and after the drop catcher 17, a second heating coil is installed in the heat supply system, the input of which connected to the direct heat line 10, and the output to the return heat line 11, which allows for optimal heat and humidity operation of the supply chamber and the entire air conditioning system as a whole.

Claims (1)

An energy-saving air conditioning system containing an inlet chamber, an irrigation chamber, a droplet eliminator and a fan, characterized in that an anti-icer is installed at the inlet of the inlet chamber, made in the form of a heater, the inlet of which is connected to the direct heating main, and the output - to the return heating main of the heating system, and before a drip catcher installed a heat exchanger of the secondary energy resources (VER) system, the input of which is connected to the supply line from the VER source, and the output to the outlet line, and le eliminator parallel defroster is installed in the heating system of the second heating coil, the input of which is connected to the direct heating duct, and output - with reverse heating main heating system.