SU237424A1 - DEVICE FOR TESTING AND TESTING INSTRUMENTS - Google Patents

Description

Devices for checking and testing humidity instruments are known, which contain a working chamber, a humidifier equipped with a heater or placed in a refrigerator, a heat exchanger, throttle and air valves and a pipeline.

The proposed device differs from the known ones in that the iodo-heating unit is made in the form of a coil placed in a thermal bath, one end of which is connected to a pipe with a humidifier throttle installed and the other with a working chamber. This makes it possible to simplify the co-adjustment with a simultaneous increase in the range and the resulting relative humidity.

FIG. Figure 1 shows a general view of a device for checking and testing humidity instruments with various output parameters; in fig. 2 - a general view of the unit's working chamber block.

The unit / wetting unit consists of a coil 2 and a humidifier 3, which are placed in a thermal bath 4.

The heating unit 5 contains a coil 6 installed in the thermal bath 7.

The thermo baths of the humidification and non-chamber heating units are equipped with heaters 5 and I with air mixers 10 11 with temperature controllers 12 and 13.

surface that improves heat transfer between the water in the humidifier and the bath. This compensates for the loss of heat in the humidifier from the evaporation of water. The temperature and pressure in the filler is controlled by a thermometer 15 and a pressure gauge 16.

Two pipes 17 and 18 are mounted into the humidifier cover. Pipe 17 forms the first channel and directly connects the humidifier to the working chamber 19, and pipe 18 forms the second channel and communicates the humidifier to the working chamber through the heating unit coil 6.

Pipeline 18 has a heater 20 with thermal insulation in the area between the humidification and low-chamber heating units, and pipelines are insulated in the areas between the humidification unit and the working chamber, as well as between the pre-chamber heating units and the working chamber. Both pipelines are equipped with a filter 21 and throttle valves 22 and 23 mounted in the pipeline sections located in the thermal bath 4.

The pressure loss in the first channel is negligible, so 100% saturation with water vapor can be created in the working chamber.

The temperature of the air entering the working chamber but the IS pipeline is monitored with a thermometer 24. The water temperature in

Thermal baths 4 and 7 are measured by thermometers 25 and 26.

The working chamber contains a housing 27, the walls of which are transparent and made of special anti-sweat glass with electrical heating, and the bases — the upper 28 and lower 29 — are also electrically heated and equipped with a stirrer (fan) 30, grids 31 and 32, and temperature controllers 33, 34 and 35. and a humidity control device 36.

Heating of the entire internal surface of the working chamber ensures the absence of condensate on its walls, close to and at 100% air saturation.

The device works in the following way.

The air from the compressor through the oil separator and the air filter enters the coil 2, the passage through which is heated or cooled to a temperature equal to or near the temperature of the thermal bath 4. From the coil the air enters the bubbler 14 installed in the humidifier, passes through a layer of water and reaches 100% it mixes with the air above the water surface, which in turn also has a 100% saturation.

From the humidifier, depending on which throttle valve is open, the air in the working chamber 19 through one of the two channels is opened. The first channel is designed to produce air with high and medium pressure in the working chamber, thin water vapor, the second channel is to receive air with low water vapor saturation, while the water temperature in the humidifier is lowered in advance.

The temperature of the water in the humidifier is lowered in order to reduce the elasticity of the water vapor before throttling. Therefore, after throttling, the air note has a much lower elasticity than when using a humidifier, the water temperature of which is equal to the air temperature in the working air.

the camera. Air flow with reduced temperature is heated in the pre-chamber heating block to the air temperature in the working chamber.

At a constant temperature in the humidifier, depending on the pressure drop in it and the chamber 19 in the latter, a certain level of elasticity of the water bed is established. The greater the pressure drop, the lower the absolute humidity in the chamber at a given temperature of water in the humidifier. The relative humidity in this case depends on the air temperature in the chamber. The higher the temperature of the air in the working chamber compared to

the temperature in the humidifier at a constant pressure in it, the lower the relative humidity in the working volume.

The device can be used for both positive and negative.

The temperature difference with the only difference is that, in the case of the ice case, the baths and the working chamber are cooled to the required level of negative temperatures, and the cooled air in the evaporator does not pass through a layer of water, but through icy solid particles (above the ice surface).

Subject invention

A device for checking and testing humidity instruments, containing a working chamber, a humidifier equipped with a heater or placed in a refrigerator, heat exchanger, throttle and air taps and

A pipeline, characterized in that, in order to simplify the design while simultaneously increasing the range of relative humidity to be obtained, the heating unit in it is made in the form of a coil placed in a thermal bath, one end of which is connected by a pipeline with a humidifier throttle installed in it and the other one the camera.

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ig. one

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