SU859771A1 - Air conditioning apparatus automatic control system - Google Patents

Description

(54) AUTOMATIC AIR CONDITIONER REGULATION SYSTEM

one

The invention relates to ventilation and air conditioning and can be used for automatic control of air conditioning systems.

A known system for automatically controlling the air conditioner comprises a room air temperature sensor connected by means of a temperature controller to a second heater heater control valve, an air temperature sensor installed behind the irrigation chamber equipped with a control valve, and a first heater heater control valve (1.

A disadvantage of the known system is that the humidity control is carried out by adjusting the moisture drainage system, which complicates the control process and leads to a decrease in the reliability of the system and the accuracy of maintaining the desired thermal and humidity parameters of the air in the room.

The purpose of the invention is to increase the reliability and accuracy of maintaining the specified heat and humidity parameters.

The goal is achieved by the fact that the system additionally contains a two-parameter dew point temperature controller and supply air temperature sensor connected to the latter and a temperature sensor installed behind the irrigation chamber, and the output of the two dew point center regulator to the first heater control valve and irrigation chambers.

The control valve of the irrigation chamber may not be made three-way.

The drawing shows a schematic diagram of an automatic air conditioning control system.

The system comprises an air temperature sensor 1 of room 2 connected by means of a temperature controller 3 with a control valve 4 of the second preheating heater 5, an air temperature sensor 6 installed behind an irrigation chamber 7 equipped with a three-way control valve 8, and a control valve 9 heater 10 1t pvogo heating.

The system additionally contains a two-parameter temperature control 1.

“The dew point and supply air temperature sensor 12 connected to the latter's inlet and temperature sensor 6 installed behind the irrigation chamber 7, and the output of the two-parameter dew point regulator 11“ connected to the control valves 9 and 8 of the first heater and the irrigation chamber, respectively.

For supplying air to room 2, the system contains a fan and supply and recirculation ducts.

The automatic control system of the air conditioner operates as follows.

External air of a constant amount and partially mixed recirculated air, having passed the heater 10 of the first heating, chamber 7 and the heater 5 of the second heating, with the help of a fan through the duct enters the room 2 to be serviced and partially returns to the air conditioning through the duct.

When the air temperature in the serviced room 2 increases, the air temperature sensor 1 in the room 2, installed in the recirculation duct, sends a signal to the regulator 3, which acts on the control valve 4, and reduces the amount of coolant passing through the second preheating heater 5. As a result, the supply air temperature begins to decrease.

This lowering of the supply air temperature will fix the temperature sensor 12 and supply a correction signal to the controller 11, which with the help of valve 9 of the first heater 10 (in winter) or three-way valve 8 of the irrigation chamber 7 (in summer) lowers the dew point temperature, leaving the specified temperatures between the supply air and the air after the irrigation chamber.

This correction of the dew point temperature does not allow the intake air, after correcting its temperature, to change its moisture content, i.e. incoming air to service room 2 always has a predetermined moisture content.

When the air temperature in the serviced room 2 decreases, the process of automatic control goes in the opposite direction.

The introduction of a dew point temperature regulator into the automatic control system of the air conditioner ensures reliable and high-quality maintenance of the thermal and moisture characteristics in the room served.

Claims (2)

1. An automatic air conditioner control system comprising a room air temperature sensor connected by means of a temperature controller to a second heater heater control valve, an air temperature sensor installed behind the irrigation chamber equipped with a control valve, and a first heater heater control valve, that, in order to increase the reliability and accuracy of maintaining the specified thermal and humidity parameters of air, the system additionally contains a two-parameter controller a dew point temperature and supply air temperature sensor connected to the latter’s inlet and a temperature sensor installed behind the irrigation chamber, and a two-parameter dew point controller output connected to the first heating and irrigation chamber control valves. 2. The system according to claim 1, wherein the control valve of the irrigation chamber is three-way. Sources of information taken into account in the examination of 40 1- USSR Copyright Certificate № 566078, cl. F 24 F 11/00, 1974.