SU979797A1 - Air conditioning system - Google Patents

Description

one

The invention relates to air conditioning technology.

A known air conditioning system has recirculation and supply air ducts connected to the air conditioner, the latter of which has a closer heater 1 installed.

The disadvantage of this system is significant energy consumption due to the presence of energy-intensive units in the system.

The purpose of the invention is to reduce energy consumption.

The goal is achieved by having an outside air duct connected to the air conditioner in front of the recirculation air duct, and 15 also with an evaporator and a condenser with fans and located respectively in the recirculation air duct and the outdoor air duct, and a valve is installed between these ducts.

FIG. 1 shows the air conditioning system, a general view; in fig. 2 channel designs; in fig. 3 shows the structure of a device for supplying air to a working room; in fig. 4 shows the design of the air temperature sensor in the working room.

The air conditioning system contains a working room I and a channel 2 connected to it, connected to air conditioner 3 by means of recirculation and supply air ducts 4 and 5, in the latter of which a closer-heater 6 is installed, in addition, the system is equipped with outdoor air duct 7, connected to the air conditioner 3 before the recirculation duct 4, as well as the evaporator 8 and the condenser 9 having fans 10 and 11 and placed respectively in the recirculation air duct 4 and the air duct 7 externally of the air between these ducts and a valve 12.

The air-conditioning system also has a temperature sensor 13 installed in the workroom 1, thermoconstant equipment 14, a discharge valve 15 with a passage valve 16.

In channel 2 there are partitions 17, which are installed relative to each other with intake air gaps 18, the outlet

device 19. The temperature sensor consists of a rod 20, one end of which is fixed to a smaller internal wall 21 of the workroom 1, and the other end of this rod communicates with a lever 22, which, together with the pointer 23, changes position and spring 24 is mounted on a support 25 rigidly fixed on the opposite wall 26 of the workroom.

In the intake duct 5 is placed a temperature sensor.

The air conditioning system operates as follows.

Air from the working space 1 of the recirculation duct 4 is sucked through the evaporator 8 by the axial fan 10 and cooled in the evaporator. The outside air blows through the condenser 9 under the action of an axial fan 11, heats up and enters either the air conditioner 3, or is thrown out, or, depending on the temperature of the supply air, is displaced with the cold outside air.

Then the air is supplied by the centrifugal fan 10 to the air conditioner 3, the temperature sensor 27 controls the valve 12 and the through valve 16, adjusting the degree of its opening depending on the temperature in the supply air duct 5, and the final temperature is adjusted by the sensor-heater 6 13 are set in room 1.

When the supply air temperature is lowered, the temperature sensor 27, through an appropriate controller, commands the opening of valve 12, thereby increasing the amount of warm air from the condenser 8 and opening the passage valve 16 ajar, throwing a part of the air from room 1 out.

When the air temperature in the working room rises, the temperature sensor 13 controlling the closers-heating device 6 reduces the heating of the air entering the room. If the air temperature in the room decreases, then the sensor 13 receives a command to increase the heating in the closer 6, in order to reduce the heat exchange between the air and the process equipment of the room and the surrounding air and reduce the pre-start time required to stabilize the temperature of the process equipment, reducing weight and saving insulation materials; a channel 2 is provided between the outer and inner walls of the room; it is provided with partitions 17 separating Air currents uniformly over space

duct 2. Due to the air envelope created in the duct, the air from room 1 is forced out through this duct 2 into the recirculation duct 4, creating the desired temperature of the inner wall 21, placing 1 in a shorter period of time. For equi-dimensional blowout of the front wall, where the entire length is formed

the slot 18 opposite to the rear wall, as well as above the ceiling and under the floor between the inner and outer walls of the partition 17 is parallel to each other, and non-parallel in the side walls

(Fig. 2).

Partitions are made of sheet steel. For the passage of air in the duct 2 in places where air is supplied from the intake duct 5 directly to the room, the output device 19 is located between the partitions 17.

The sensor 13, located in the conditioned room, works as follows.

When the air temperature in the room 1 changes, the lengths of the walls 21 also change, since these walls are made of materials with large linear elongation factors, for example, of steel (JL; 1210 1 / degree), due to

This lever 22 and, respectively, the position indicator 23 are rotated and locked in the new position. According to the graduated scale, the deviation of the air temperature in the room 1 is determined and compared

readings of this sensor with readings of sensor 13, also located in room 1.

The described implementation of the air conditioning system reduces the energy consumption.

Claims (1)

Invention Formula An air conditioning system containing recirculation and supply air ducts connected to the air conditioner, the latter having a closer-heater, characterized in that, in order to reduce energy consumption, the system is equipped with an outside air duct connected to the air conditioner before the recirculation air duct, and an evaporator and a condenser, which have fans and are located respectively in the recirculation duct and the outside air duct, 0 between these ducts installed valve. Sources of information taken into account during the examination 1. Barkalov B.V. Air conditioning , air in industrial, public and residential buildings. M., stroiizdat, 1971, p. 21-23.  / / / 7 Figg fie.Z