SU817405A1 - Method of thermal technical testing of conditioner - Google Patents

Description

one

The invention relates to a technique of conditioning, in particular the testing of air conditioners.

The known method of heat engineering tests of an air conditioner is by creating a closed circulating air flow, which is heated and cooled after an air conditioner using individual heat exchangers for the amount of heat release in the room and its heat accumulation, and the moisture in the amount equal to the moisture distribution in the air flow one,

The disadvantage of the known method is the duration of the tests, since the construction of special calorimetric chambers is required, the mass and volume are significant, and, moreover, the exit to the established thermal regime is long.

The purpose of the invention is to reduce the test time for positional control of the air conditioner performance.

This goal is achieved by circulating the air flow through the duct.

and when the air conditioner is automatically disconnected, the amount of moisture introduced into the air stream is changed in proportion to the mass of air in the duct and in the room.

FIG. 1 shows a schematic diagram of an installation for implementing the method of thermal testing.

0 air conditioning; in fig. 2 - humidifier and its installation in installation.

The installation contains the test conditioner 1, a closed circulation circuit 2, in which

5 air conditioner 1 installed heat. The variable devices 3 and 4, in which the air is respectively heated by the amount of heat emission in the room and cooled by the amount of heat accumulation accumulated by means of humidifier 5, moisture is introduced into the air stream.

Before and after the air conditioner 1, dry 6 and 7 and wet 8 and 9 are installed.

5 thermometers. The heat exchange device 3 can be made of electric heaters and is equipped with a wattmeter. Humidifier 5 consists of two blocks 11 and 12, which are

0 boilers with electric heating elements 13 connected to a source of adjustable voltage. The power consumed by the blocks is measured by i4 wattmeters,

The unit 11 is directly connected to the air duct 2. The unit 12 is connected to the air duct 2 through a solenoid valve 15, and the atmosphere is supplied through a solenoid valve 16. The coils of the valves 15 and 16 are connected to the supply voltage by contacts 17 and 18 of the relay 19. The coil 20 of the relay 19 connected to the contactor 21 of the air conditioner 1, to which the supply voltage is connected.

The method is carried out as follows.

Air with parameters controlled by dry 6 and wet 8 thermometers enters air conditioner 1 where it is processed. The parameters of the air at the outlet of the air conditioner 1 control dry 7 and wet thermometers. Then the air is supplied to the heat exchange device 3, where it perceives heat equal to the heat generated in the room, the heat supply is monitored with a power meter 10, then the air flow enters the humidifier 5. Here, moisture is introduced into the air in an amount equal to the amount of moisture in the room and it enters the heat exchange device 4.

At unit 11, humidifier 5, using wattmeter 14, sets the power to ensure that moisture is released when the air conditioner 1 is stationary, and at unit 12, the power provides the necessary amount of moisture to simulate moisture generation when the air conditioner is working.

When the air conditioner 1 is turned on, the contactor 21 is closed, and the coil 20 of the relay 19 is energized, the contact 17 is pushed in and the contact 18 is opened, the solenoid valve 15 is opened and the valve 16 is closed. Humidifier 5 delivers moisture to the AIR flow in amounts equal to moisture in the room. When the air conditioner is turned off, the contactor 21 opens, coil 20

relay 19 is de-energized, contact 17 is opened, and contact 18 is closed, and accordingly valve 15 on the air supply channel to the air path is closed, and valve 16 is opened and moisture from unit 12 enters the atmosphere. In this case, the humidifier 5 delivers moisture into the air flow in an amount proportional to the ratio of the masses of air found in

Q duct contact 2 and in the room for which the air conditioner is designed.

The proposed method allows to reduce the time of testing, since its implementation does not require expensive, bulky and inertial calorimetric chambers.

Claims (1)

Invention Formula Thermal test method of the air conditioner by creating a closed circulating air 5, which, after the conditioner, is heated and cooled using individual heat exchangers for the amount of heat generation in the room and its heat accumulation, and introducing into the air flow with the help of a moisture humidifier in an amount equal to the moisture release in the room, test periods for positional regulation of the air conditioner performance, the air flow is circulated through the duct, and when the air conditioner is automatically disconnected, the amount of moisture introduced into air flow, 0 is changed in proportion to the mass ratio of air in the duct and in the room. Information sources, . taken into account during the examination 1. Yu.V. Zakharov. Shipboard air conditioning and chillers. L., Shipbuilding, 1972, p. 529-530.