SU903665A2 - Conditioner - Google Patents

Description

This invention relates to a conditioning technique. According to the main author. St. An air conditioner is known, comprising a housing divided into two compartments, one of which houses a compressor condensing unit with a fan, and the other contains an evaporator, a fan and a recuperative heat exchanger connected to the first compartment through a channel equipped with a damper I. A disadvantage of the known conditioner is the impossibility of stabilizing the air temperature in the second compartment. This is due to the fact that at low ambient temperatures, the cooling of conditioned air is carried out in a heat exchanger, with the flap being brought to the position that ensures that the heat exchanger is blown by the condenser fan. At high ambient temperatures, the compensator operates, which circulates the refrigerant and removes heat excess in the evaporator. Under these conditions, the flap is moved to a position in which the condenser is blown by a fan. . The purpose of the invention is to stabilize the air temperature in the second compartment. This goal is achieved in that the air conditioner is equipped with a condensation pressure regulator mounted on the discharge side of the compressor and connected to the flap. The drawing shows a diagram of the air conditioner. The air conditioner comprises a housing 1, divided into compartments 2 and 3, in the first of which a condensing unit with a fan 5 is placed, and in the second - an evaporator 6, a fan 7. a recuperative heat exchanger 8 connected to a compartment

2 through a channel 9 in which a damper 10 is installed, provided with a condensing pressure regulator 11 (proportional or discrete) mounted on the discharge side of the compressor 12.

The air conditioner also contains a duct 13, a condenser} k, a thermostatic valve 15.

Air conditioning works as follows.

At the highest possible temperatures of the ambient air, the compressor 12 injects refrigerant vapor into the air-blown condenser T, where the refrigerant condenses and, after throttling in the thermostatic valve 15, enters the evaporator 6, in which it boils, extracts heat from the air supplied by the fan 7 to the conditioned object It maintains the temperature of the conditioned air at a predetermined level. In this case, the damper takes a position that ensures that the fan 5 blows only condenser 1.

When the heat generation in the air-conditioned object decreases, or when the outside temperature drops, as well as the simultaneous occurrence of two effects, the condensation pressure and boiling temperature fall, with this condensation pressure regulator 11 moves the damper 10. Moving the damper 10 reduces the air flow through the condenser 1A and at the same time, the heat exchanger 8 enters into operation by circulating external air through it with the help of a fan 5, thereby introducing an additional thermal load on the evaporator. Reducing the flow rate air through the condenser 1 and blowing air through the heat exchanger 8, the fan 5 is increased and the condensation pressure of the refrigerant boiling point that allows to maintain the temperature of conditioned air in a predetermined narrow range.

With an increase in heat generation, as well as with an increase in the outdoor temperature under the action of the pressure regulator 11, the flap 10 moves, ensuring an increase in the air flow through the condenser I to the maximum and. reduction of air flow through the heat exchanger 8 (down to zero).

This leads to a drop in condensation pressure and stabilization of the temperature of the conditioned air at a predetermined level.

At low ambient temperatures, the condensation pressure regulator 11 sets the valve 10 to the position that provides the product of the heat exchanger 8 with external air without the compressor 12 functioning.

The invention allows, by adjusting the condensation pressure and cooling capacity, to stabilize the temperature of the conditioned air when operating in a wide range of high ambient air temperatures and heat generation in the cooling object, thus eliminating the need to introduce an additional device into the design of the air conditioner to simplify its automation and design.

Claims (1)

1. USSR author's certificate W 68it255, cl. F 2C F 1/02, 1978. J