SU920492A1 - Psychrometer - Google Patents

Description

(5) PSYCHROMETER

Claims (2)

The invention relates to technical physics, and more specifically to devices for research and analysis of moisture content using psychrometric means. A device is known in which the thermometer is located in the measured gas flow, and the wet thermometer is in a liquid and records its temperature. The liquid is in an open vessel and its surface is washed by gas. The liquid vessel has walls of porous material and is located on the base of the body. In the upper part of the housing there is a nozzle directed towards the surface of the liquid. A piping is provided for a constant supply of liquid flowing over the edge of the vessel. On the basis of the housing there is a waste device for draining excess liquid. A disadvantage of this device is the low measurement accuracy due to the constant renewal of water in the bath, which leads to a violation of the temperature mode of evaporation on a wet thermometer. The disadvantage is also the continuous flow of water due to overflow. This device can only be used when the sensors are installed at the same level, as otherwise there will be an unequal water flow at each of them, which leads to an increase in the error in measuring humidity. The closest to the invention to the technical essence is a psychrometer containing dry and wet thermometers connected to a measuring device, a bath with a liquid level regulator feeding the wick of a wet thermometer laid inside a shielding layer of a metal tube 2. The disadvantage of this device is its low accuracy readings due to the heating of the metal tube in which the fitl is placed, up to the ambient temperature — the temperature of the dry thermometer, due to which evaporation is supplied to the wet thermometer water with a dry thermometer temperature, which leads to a distortion of the wet thermometer readings. In addition, the operational possibilities that prevent the wet thermometer from entering the work area in which the measurement is made due to the rigid metal tube in which the wick is placed are limited. The purpose of the invention is to improve the accuracy of moisture measurement. The goal is achieved by the fact that in a psychrometer containing dry and wet thermometers connected to a measuring device, a bath with a liquid level regulator feeding the wick of a wet thermometer placed inside a shielding layer, between the wick and shielding layer is an intermediate layer of porous moisture material, and the shielding layer is at rest with a cooling layer made of several layers of moisture evaporating material with a gradual decrease in the length of the wick of the number of layers to one one approaches wet bulb. In FIG. 1 shows the structure of the device; in fig. 2 - wick construction. The device contains a recharge bath 1 with a liquid level regulator 2, two thermometers: dry 3 and wet t fixed on the back; 1 5 wick 6 and measuring device 7. The wick 6 is made in the form of a liquid evaporating layer 8 made of a thin material, for example , chiffon, cambric with a good degree of evaporation, which ensures the evaporation and corresponding cooling of the wet thermometer on which this material is put. A layer 9 of porous moisture-conducting material is located above the wick. It is made of porous moisture conductive material, for example, a fleecy or porous fabric, a sponge or several layers of cambric, chiffon with a good degree of suction, and is intended to suck moisture and reliably wet the evaporating layer 9 .. The layer 9 is located between layer 8 and a shielding layer 10 made of moisture insulating fabric, for example, nylon nylon, bologna, which ensures protection of the wick from evaporation and premature drying of it in the process of sucking water to a wet thermometer; cooling layer 11. It is made of guide vlagoispar tissue, e.g., of several layers of chiffon, cambric with decreasing number of layers to one as the distance from the feed trays 1 and approach to wet bulb k. This layer is designed to evaporate and match the wick and water in the wick to a wet thermometer temperature k. One end of the wick 6 is immersed in the feed bath 1 with water, and the other end of the wick is tightly wrapped in a wet thermometer. The device 7 for measuring the temperature of dry and wet thermometers is made, for example, by a bridge circuit. Psychrometric moisture meter works as follows. From the water supply network, water flows through level control 2 into the feed bath 1. As the water on the wet thermometer evaporates, the level decreases, which is replenished by the operation of the level control 2. The measuring device 7 registers the humidity depending on the temperature of dry 3 and wet k thermometers. The wet thermometer is wetted as follows. The evaporating layer 8 of the filter supplies the WATER to the wet thermometer A and evaporates this water from it, resulting in the cooling of the wet thermometer. Layer 9 draws water in and reliably wets the evaporating layer 8, continuously drying from evaporation on a wet thermometer. The shielding layer 10 protects the layer 8 from evaporation and premature drying in the process of supplying water to the wet thermometer. The layer 11 cools and, accordingly, brings the temperature of the wick to the temperature of the wet thermometer, which reduces the error of the latter. Making the wick with additional layers improves the accuracy of the moisture content measurement, which increases the reliability of the device as a whole. This is especially important when it is necessary to install a wet thermometer in a measuring working area located at a considerable distance from the feed bath. Finally, the use of a flexible shielding layer, which is enclosed in a wick, simplifies the structural installation of a wet thermometer in the working area of measurement. The application of the proposed technical solution makes it possible to create a high-precision psychrometer, which can be used especially widely in solving problems of agricultural production, which are associated with the requirement of precise maintenance and control of temperature and humidity parameters. These are greenhouse and greenhouse facilities, drying of agricultural products: tobacco, fruits, vegetables, potatoes, etc., storage of agricultural products, violation of technological storage conditions of which often leads to significant loss of them. In addition, the proposed device can be used when drying sheepskins, leather and fur in light industry. In addition, the ability to automate the process leads to the release of ..fxr. I have a new labor force. Automation of the process leads to energy savings in the drying process. A psychrometer containing dry and wet thermometers connected to a measuring instrument, a bath with a fluid level regulator feeding the wick of a wet thermometer laid inside the shielding layer, characterized in that, in order to improve the accuracy of humidity measurement, between the wick and the shielding layer is a layer of porous moisture-conducting material, and the shielding layer is covered with a cooling layer made of several layers of moisture evaporating material with a gradual decrease in fit n number of layers to one as approaching the wet-bulb temperature. Sources of information taken into account in the examination 1.Patent of Germany No. 27t78l5, cl. G 01 N 25/62, published. 19792. USSR author's certificate ZT7961, cl. G 01 N 25/62, 1971 f J I / CHN to (prototype).