CS218154B1 - Sensor for air and gas humidity measurement - Google Patents

Abstract

The subject of the invention is a sensor for measuring air and gas humidity. The invention is based on the fact that the active element of the wet thermometer is inserted into the brick porous material, which is made of a single-layer burnt brick shard. Water from the distribution system fed into the interior of the ceramic fitting reaches its surface through pores and capillaries. Here, water evaporates, whereby the surface and consequently the entire volume of the fitting will have a temperature lower by the temperature of the evaporation heat. The sensor according to the invention is used for measuring air and gas humidity in the process of drying wet materials during the period of the so-called constant drying speed and in drying devices where the flow speed of the drying medium is greater than 2.5 m/s.

Description

The object of the invention is a sensor for measuring the humidity of air and gases.

The invention is based on the fact that the active element of the wet thermometer is embedded in a brick-like porous material which is formed from a single-layer fired brick casing. The water from the piping fed into the interior of the ceramic fitting is passed through pores and capillaries onto its surface. Here, water evaporates, whereby the surface and subsequent whole volume of the fitting will have a temperature lower by the evaporative heat.

The sensor according to the invention is used in the measurement of the humidity of air and gases in the process of drying the wet materials in the period of the so-called constant drying speed and in the drying devices where the flow velocity of the drying medium is greater than 2.5 m / s. 218154 2

BACKGROUND OF THE INVENTION 1. Field of the Invention The invention relates to a sensor for measuring the humidity of air and gases, in particular in U-shaped double-chamber driers and devices where the flow is higher than 2.5 m / s.

So far known wet and dry humidity sensors have an active element thermometer of conventional construction (eg a resistance thermometer, mercury thermometer) coated with a hydrophilic material. The accuracy of the data and the wet thermometer is dependent on the velocity of the measured medium around the wrapped active part of the thermometer, the radiation of the surrounding surfaces as well as the wetting of the wet sensor thermometer. These sensors use the principle of capillary elevation of distilled water. Such a humidified thermometer has the disadvantage that at higher temperatures and higher flow rates of the measured medium the evaporation rate is higher. Insufficient wetting of the wet thermometer will result in a higher temperature and will cause an error in the measurement.

The above mentioned drawbacks are eliminated by the air and gas humidity sensor according to the invention, the principle of which is that the active element of the wet thermometer is inserted into a porous brick material which, together with the water inlet bushing, forms a pressure vessel connected by means of a bushing and a water distribution hose.

Sufficient dampening of a brick porous material-ceramic fitting is provided by a pressure column of water above the humidity sensor. Distilled water may not always be used. Due to its anergetic complexity and low production cost of the used ceramic fitting, it is also possible to use water from a conventional distribution system at the same time as the fitting life is reduced.

The material of the active element of the sensor - ceramic fitting is a brickwork made of a sufficiently porous material. The sensor mass is designed to have the lowest possible thermal capacity and the amount of water evaporated is controlled by shaping the porous brick casing according to the ambient temperature. The sensor is based on the condition resulting from the requirement of action and the requirement that the heat exchange between the air or the air. gas and water were mainly flowing and the conduction heat exchange was negligible with sufficient turbulence of the flowing air. The airflow velocity around the thermometer should be greater than 2.5 m / s.

An example of an embodiment of a humidity sensor according to the invention is shown in the attached drawing. Moisture sensor active element - damp thermometer 1 is inserted into ceramic junction piece of brick casing 2. Brick 2 is fixed to the passage 3. The water inlet tube 5 is attached to the grommet 3 and also to the thermoelectric cell. Brick 2 and bushing 3 form a pressurized container 4 therebetween, from which the moist brick 2 is then flat. The moisture sensor 6 is inserted into the copper tube 7.

The humidity sensor according to the invention can be used wherever it is necessary to measure the humidity of air and gases for speeds higher than 2.5 m / s and to obtain an electrical signal for measuring and regulating a given production process. The production process in this way guarantees a reduction in energy, as well as a guarantee of higher quality.

Claims (1)

OBJECTS OF THE INVENTION A sensor for measuring the humidity of an air and active element membranes, which is a thermoelectric cell, characterized in that the active element of the wet thermometer (1) is inserted into a brick porous material (2) which, together with the grommet (3), forms a pressure vessel ( 4) connected through a hose (5) for water distribution. 1 is a drawing of the drawing of the invention FIG. 1