SU22937A1 - Apparatus for measuring the amount of evaporated water and rain - Google Patents

Description

The proposed apparatus is intended to simultaneously take into account two meteorological factors — precipitation and evaporation, and its structure is designed so that the influence of extraneous factors (wind, temperature and pressure) can be eliminated (wind), or also in% ueno (temperature, pressure). The proposed device is based on the condition of the constant level of the evaporating surface.

The drawing shows a diagram of an apparatus for measuring amounts of evaporated water and precipitated rain.

The apparatus consists of two cylindrical vessels 1 and 2 connected by tubes 6, 7 with hermetically sealed vessels 3 and 4, which are connected to each other by tube 5 filled with liquid. Vessels / and 2 are divided into chambers — upper 10 and //, lower 12 and 13 with inclined bottoms; the lower chambers communicate with the upper chambers through tubes 14 and 15. The chambers have drain holes 24, 25, 16 and 17 plugged with plugs. The vessel 2 is provided with a lid 22, and in the vessel / tube 14 a protective extension 23 is fitted to protect the wind blown out of the tube 14. In the upper parts of vessels 3 and 4 there are holes 18 and 19 plugged with plugs. Through the tube 5, having curved ends, the vessels 3 to 4 communicate with each other. The right end of the tube 5, which is located in the vessel 5, is lowered in floating on the floats 2 / vessel 20.

When precipitation falls, part of the liquid from chamber 10 through tube 14 flows into chamber 12, since the upper end of tube 14 is in. fluid level; The vessel 2 is protected from falling into it of precipitation is protected by a lid 22. When evaporating, the liquid level in chamber 10 decreases and the end of tube 6 is exposed. Atmospheric air, penetration of bubbles into the vessel 5, will force out a part of the liquid into the chamber 10; the end of the tube b is automatically flooded and the air penetration stops. Simultaneously with the outflow of liquid from the vessel 5, the floating vessel 20 will be lowered, thus the equality of levels in it and in vessel 4 will be violated. As a result, part of the liquid from vessel 4 through tube 5 will flow into vessel 20 until equality is restored. It is clear that in this case, instead of the gone liquid, atmospheric air will get into the vessel 4 through the tube 7. Thus, the amount of air in the vessels 3 to 4 will remain equal to each other. The vessel 2, being covered with a lid 22, is not able to discharge its liquid through evaporation.

When the temperature rises and the device is heated, the air in the 3 W 4 vessels will expand and displace an equal amount of liquid from both vessels into chambers 10 and //; here these surpluses through tubes 14 and 15 flow into chambers 12 and 13. When the device is cooled, the air in vessels 3 and 4 will reduce its pressure, and under pressure of the atmosphere through the tubes, b and 7 into vessels 3 VL 4 will begin to flow first and 11, and then, when exposing the ends of the tubes, air. When a known amount of air enters the vessels 3 yi 4, the pressure is equal and the ends of the tubes 6 and 7 are flooded.

When the atmospheric pressure decreases, a phenomenon similar to that described when the device is heated will occur, since the air in the vessels 3 and 4 will have a pressure greater than atmospheric. Increased atmospheric pressure corresponds to a decrease in temperature.

The amount of precipitation is equal to the difference of liquids in chambers 12 and 13 (that is, 12 minus 13). The amount of evaporated liquid is equal to the “profit of such a floating vessel 20.

At the time of replenishment of vessels 3 and 4, the ends of tubes 6 and 7 are plugged with stoppers, in order to prevent the outflow of liquids during uncorking, openings 18 and 19, through which replenishment is carried out.

The subject matter of the invention.

Apparatus for measuring quantities of IC; steamed water and precipitated rain, characterized by the use of vessels 1, 2, divided into chambers 10, 12 and //, 13, of which vessels vessel 2 is provided with tube 15 and closed with a cover 22, vessel 1 is equipped with tube 14 with a protective extension 23, and In order to account for the evaporated water, hermetically sealed vessels 5, 4 are connected, which are connected between themselves, lowered at one end into the floating vessel 20 by tube 5 and tubes 6, 7, with chambers 10, 11 vessels 1 and 2.