SU519573A1 - The method of controlling the humidity of the air in the chamber of the refrigerator and the device for its implementation - Google Patents

Description

The implementation of the method and operation of the device is carried out as follows.

In the process of regulating the wet thermometer 2 stabilizes the temperature of the air passing through the heater 1 (point B of fig. 2). Point B is rigidly associated with the parameters of point C by the values of absolute temperature (d)) and relative (/ g) humidity. This means that when the temperature changes on a dry thermometer in chamber 10 (point L to pa of Fig. 2) at d const, for example, in the direction of increasing temperature to point L, heater 1 at constant air flow will raise the parameters of point C to point C and relative humidity will increase from / 3 to / w. Accordingly, the temperature on the wet thermometer rises to the value B and the thermometer 2 will give an impulse to turn on the refrigeration machine 7.

The process will go in the opposite direction with a decrease in the air temperature in chamber 10 to the parameters of point A. In this position, the power of heater 1 will be sufficient only for the nrn D const to heat the sampled air to the temperature of point C, and the temperature on the wet thermometer at its location decreases to the parameters of point B, while the wet thermometer 2 will give an impulse to shut off the chiller 7.

The processes associated with a decrease in the absolute humidity of air in chamber 10 are located in the sector between the L-L (i € onst) and L-L ((i const) lines) and end on a boundary curve between points L and L, which determine the temperature of the wet thermometer and the dew point temperature of supersaturated air.Therefore, if the air humidity in chamber 10 is lowered, the air stream drawn from it will heat up in heater 1 with the same A const to the parameters of the points located on the curve / h within.

Thermometer 3, configured to the temperature of the wet thermometer point B, will give the command

through its regulator 6 to turn on the source of water vapor 8. Accordingly, after the humidity in the chamber 10 rises to the value determined by point L, thermometer 3 will give the command to turn off the source of water vapor 8 according to the temperature of point B.

Claims (3)

1. A method of controlling the humidity of the air in the refrigerator chamber by changing the supply of water vapor, characterized in that, in order to ensure the relative humidity of the air in the chamber, exceeding 100% at low temperatures, preferably minus 15 - minus 40 ° C, to reduce shrinkage of the frozen products, a constant air flow is taken from the chamber, thermal energy of stable power is supplied to it to achieve a positive temperature and a relative humidity of less than 100%, and its temperature is measured but with a wet thermometer, and regulation of the air humidity in the chamber is carried out depending on the measured temperature. 2. A device for carrying out the method of claim 1, comprising a source of water vapor and a temperature control loop associated therewith, including a wet thermometer and a regulator, characterized in that it is provided with a series-installed tube for evacuating the air from the chamber, a constant heater power, capacity to accommodate a wet thermometer and a booster for sucking air. Sources of information taken into account in the examination: 1.G. V. Arkhinov, “Automatic regulation of air conditioning. M., “Profizdat, 1962, pp. 120-122. 2.V. S. Uzhansky et al. “Refrigeration Automatics, Handbook, M.,“ Food Industry, 1971, p. 351. 3. Journal “Refrigeration equipment, 1972, No. 10, pp. 10-13 (prototype).  five