SU845062A1 - Strain-measuring device - Google Patents

Description

(54) TENSION METER

one

The invention relates to the field of measurement technology, in particular, to the field of measuring humidity and the potential of soil moisture and can be used in automatic irrigation control systems.

A known tensiometer containing a device for removing air from a tensio meter, comprising a tank with a spare water volume, a sealed tube, a controllable solenoid valve, and a germinal chamber with a porous filter in the lower part 1.

The closest in technical essence to the invention is a tensiometer containing a tank filled with water and connected in the lower part with a porous filter, and in the middle part with a vacuum gauge transducer, and an air control device including a nozzle and an electromagnetic valve 2.

The disadvantage of the known tensiometer is that it contains an additional vessel, which is periodically refilled with water. Therefore, the tensiometer is installed in the upper horizon of the soil, which, firstly, makes it possible to carry out agrotechnical

Measures (flashes, cultivation, etc.) and, secondly, the tensiometer can be damaged as a result of raids on it by agricultural machinery. All of these drawbacks prevent the use of a tensiometer in automatic irrigation control systems.

The aim of the invention is to expand the functionality of the tensiometer and install it in the subsurface soil horizon, excluding refueling with water.

This goal is achieved by the fact that the device for de-airing is performed.

to in the form of a vacuum pump connected by an inlet to the upper part of the tank, and an outlet through an electromagnetic valve with a nozzle located in the soil.

The drawing shows the functional5 on the circuit of the tensiometer.

The tensiometer consists of a tank 1 filled with water, connected in the lower part with a porous filter 2, in the middle part with a vacuum pressure transducer 3, an air removal device

20 includes a vacuum pump 4, an electromagnetic valve 5 and a bent nozzle 6. A vacuum pressure transmitter 3, a vacuum pump 4 and an electromagniii K.iaiiaH 5 are connected to an irrigation control system 7.

The tensiometer works as follows.

R the initial position, the tank 1 is filled with water, the solenoid valve 5 is closed, the vacuum pump is turned off, and the spun (|) filter 2 is tight to the ground. The soil, drying out, sucks moisture from capacitor 1 through porous filter 2. Vacuum is created in the tank, which is measured by a vacuum pressure transducer, - down 3 and the measurement result is transmitted along the communication line to the irrigation control system 7. When the potential of the soil moisture is reached The irrigation control system 7 automatically starts zeroing, and after the end of the irrigation, it forms |:) signals, opening the solenoid valve and starting the vacuum pump 4. The vacuum pump 4 removes air from the em ivshiys in free form from the water, filling the container 1 TENSO .i-Va. Water from the soil is sucked into the mold. 1 with a vacuum of vacuum generated by the vacuum pump and completely fills it. After the time selected experimentally, the tensiometer returns to its original position.

When air is removed from the tank in this way, there is no need for an additional vessel, which is periodically refilled

water, because 1gos "those watering water,

created by the pump 4, do. bone 1 from soil through porous fil || . The economic effect from the introduction of the invention on irrigated floors will be 150 thousand rubles / year.

Claims (2)

1. USSR Author's Certificate No. 362230, cl. G 01 N 13/04, 1971. 2. USSR author's certificate number 310163, cl. G 01 N 7/04, 1970.