SU1697639A1 - Device for measuring evaporation of atmospheric precipitation - Google Patents

Abstract

The invention relates to agriculture, in particular to the means of water-balance soil studies. The purpose of the invention is to increase the reliability of measurement results. The device contains an open evaporation tank 1 filled with water and an open tank 2 for collecting sediments filled with water with the addition of a surface layer of petroleum products. The evaporating tank 1 is open and communicates with the measuring unit through the supply nozzle 3 and the water supply unit 4. The invention relates to agriculture, in particular to means of water-balance studies of the soil. The purpose of the invention is to increase the reliability of measurement results. The drawing shows a block diagram of a device for measuring evaporation and precipitation. The device contains an open evaporation tank 1 filled with water, and an open tank 2 for collecting sediments, a tank for collecting sediments 2 through the drain pipe 5 with a coupling and a discharge unit 6. The water supply and discharge units are made in the form of metering units and are equipped with bypass solenoid valves 7-10. The measuring unit includes a control unit 11 and a power and registration unit 12. The water supply of the device is carried out from the source 13 of the water supply. During the measurement, the constant level of the liquid in the open evaporating tank 1 is maintained by means of a drain pipe 14 and an additional electrocontact sensor 15 of the level. The level of the liquid in the nodes of the water supply 4 and the discharge 6 is recorded by electrocontact sensors 16 and 17 of the level. Capacity 2 for collecting sediments is not only filled with water with the addition of a surface layer of petroleum products, but also equipped with louvers 18 and a gravel filter 19, which prevents hydraulic losses due to wetting, evaporation and splashing and, consequently, increases the reliability of measurement results. 4 hp ff, 1 ill. filled with water with the addition of a surface layer of a material to prevent evaporation, for example, a mineral mass (petroleum). The container 1 communicates with the measuring unit through the supply nozzle 3 and the water-dispenser unit 4, and the container 2 through the coupling nozzle 5 with the coupling and the metering unit 6. The nodes of the water supply and discharge, made in the form of metered dose containers, are equipped with overflow solenoid valves 7-10. Measuring node including with ON VI VI ON S CHE

Description

The control unit 11 and the registration power supply unit 12 are installed.

The water supply of the device is carried out by the water supply source 13. The constant level of the liquid in the open container 1 is maintained by the drain nozzle 14 and the additional electrocontact level sensor 15. The liquid level in the dispensers 4 and 6 is recorded by electrocontact sensors 16 and 17 levels.

The collecting container 2 is provided with a scoop to prevent splashing, for example, louvers 18 and gravel 19 (layer of gravel).

The device works as follows.

With precipitation, the level of water in the open tank 1 rises. Through the drain pipe 14, the sediments are removed beyond the limits of the tank 1 and the water level in it remains constant.

At the same time, the sediments also enter the open tank 2 for collecting sediments and, passing through the surface layer of oil products (for example, a 10 mm layer of nigrol or mineral oil), which prevents water from splashing and evaporating, increases the level of water in it. Through the drain pipe 5 with the coupling (the coupling prevents the discharge of the surface layer of petroleum products) and the solenoid valve 9, controlled by the unit 11 of the measuring unit, the precipitates enter the dispenser of the resetting unit 6. When a certain amount of precipitation is collected in the dispenser and at the signal of the unit 11, the solenoid valve 9 closes and the valve 10 opens to drain the dose of precipitation. The dosage information, i.e. the amount of precipitation comes from block 11 to a digital display and a recorder in block 12 of power and registration.

Equipping the open reservoir 2 for collecting precipitation with louvre protection 18 (the louvers are located at an angle of 45 ° to the horizon) and a gravel filter 19 normalizes the process of trapping the precipitates, since in any direction of the raindrop falling trajectories the resulting splashes fly away from the open container. In turn, the filling of the open container 2 with water prevents hydro-loss in wetting.

In the case of evaporation of moisture, the water level in the open tank 1 drops, the signal of the electrocontact sensor 15 of the control unit 11 opens the valve 8 and a certain amount of water from the water supply unit 4 enters the open tank 1. The process continues until the initial level is restored. Topping-up is carried out discretely, the dose is determined by the dispenser 4, controlled by the block 11. Information about the number of doses topped up, i.e. about the amount of evaporated

water enters the other counting and recording devices in the power supply unit 12 and registration. The valve 7, controlled by the unit 11, regulates the flow of water from the water supply source 13 to the dispenser 4.

Supply to electrocontact sensors 15-17 levels in open and metered sinusoidal voltage capacitances, for example, frequency 20 kHz and amplitude 2c from the generator unit 11, eliminates electrochemical corrosion of the sensor contacts, which increases the reliability of the device and provides high accuracy of automatic control and measurement of controlled parameters.

The equality of the cross-sectional areas of open containers 1 and 2 makes it possible to simplify the processing of measurement results.

Claims (5)

Invention Formula 1, Device for measuring evaporation and precipitation, containing an open evaporation tank filled with water, discharge units and water recharge, made in the form of metered containers with electrocontact level sensors and bypass electromagnetic valves on the inlet and outlet nozzles of these containers, which are connected to the corresponding inputs of the measuring unit made in the form of a control unit, the power supply and recording unit, and the electrocontact sensors are connected to the corresponding inputs of the measuring unit, the lower part of which is open The evaporative tank communicates with the outlet of the water support unit, characterized in that, in order to increase the reliability of the measurement results, it is provided open tank for collecting rain-filled water, on the surface of which there is a layer of material to prevent evaporation and spraying, while in the open container for collecting sediments there is a drain connection with a coupling in the upper part, communicated with the discharge unit, and the evaporating tank is open, equipped with a drain pipe and an additional electrocontact level sensor connected to the corresponding measuring input node. 2. A device according to claim 1, characterized in that the cross-sectional area of the open evaporating tank is equal to the cross-sectional area of the open container for collecting sediments. 3. The device according to claim 1, of t (in particular, with the use of a layer of mineral oil as a layer of material to prevent evaporation and splashing. 4. The device according to claim 1, characterized in that a layer is arranged around the perimeter of the sediment collection container to prevent splashing. 5. Device pop. 4, characterized in that the layer for preventing splashing is made in the form of a layer of gravel on which the louvers are placed.