RU207771U1 - Soil moisture meter - Google Patents

Abstract

The device for measuring soil moisture belongs to the field of agriculture and is intended for measuring soil moisture. The device contains a body, porous volumetric elements, and the body is made in the form of a U-shaped tube with a calibrated scale, the knees of which are interconnected, while one end of the U-shaped tube is connected to a gas-liquid mixture sensor, and the other end is connected to a device for creating a reduced pressure inside the housing, which is an elastic shell, while the porous volumetric elements are placed in the branches of the U-shaped tube communicating with the gas-liquid mixture. Porous volumetric elements are porous polyvinyl formal with granules from 3 mm to 10 mm. 1 wp f-ly, 1 dwg

Description

The utility model relates to the field of agriculture and is intended for measuring soil moisture.

A device for liquid separation is known, consisting of a cylindrical body with a coaxially built-in membrane element forming an annular channel for receiving a gas-liquid flow, fittings for the inlet of a gas-liquid mixture and an outlet for gas and liquid, characterized in that it contains a moisture-absorbing and moisture-retaining material in contact with a capillary-porous membrane (RU 2453480. B84G 1/60, 2012).

The disadvantage of an analogue is a complex design and unsuitable for measuring soil moisture.

The closest to the proposed device is a device for implementing a method for separating liquid from gas, including a perforated shell installed inside the body of the apparatus against the gas inlet pipes with a gap to the body, closed in the upper part by a partition, and on the shell against perforation there are vertically oriented rows of porous volumetric elements blocking the perforation channels, and the gap between the shell and the body and the top of the shell are covered with a semi-blind plate with nozzles for gas passage connected to the inner cavity of the shell (RU 2279302, B01D 3/32, 53/18, 2006).

The disadvantage of the prototype is its complex design and unsuitable for measuring soil moisture.

Analysis of the known solutions showed that a technical problem in this area is the need to expand the arsenal of tools for measuring soil moisture.

The technical result to be achieved by this utility model is to simplify the design of the device through the use of the effect of moisture absorption of polyvinyl formalin granules.

To solve this technical problem and achieve the claimed technical result in a device for measuring soil moisture, containing a body, porous volumetric elements, and the body is made in the form of a U-shaped tube with a calibrated scale, the knees of which are interconnected, with one end of the U-shaped the tube is connected to the sensor of the gas-liquid mixture, and the other end is connected to a device for creating a reduced pressure inside the housing, which is an elastic shell, while the porous volumetric elements are placed in the elbow of the U-shaped tube communicating with the gas-liquid mixture. In addition, the claimed technical solution has optional features characterizing its particular cases, namely the porous bulk elements are porous polyvinyl formal with granules from 3 mm to 10 mm.

Distinctive features of the proposed device from the one mentioned above, which is closest to it, is that the body is made in the form of a U-shaped tube with a calibrated scale, the knees of which are interconnected, while one end of the U-shaped tube is connected to the gas-liquid mixture sensor, and the other end - with a device for creating a reduced pressure inside the body, which is an elastic shell, while the porous volumetric elements are placed in the elbow of the U-shaped tube communicating with the gas-liquid mixture.

Due to the presence of these features, the use of the proposed device will simplify the design by using the effect of moisture absorption of polyvinyl formalin granules.

The proposed device for measuring soil moisture is illustrated in the drawing, which shows a general diagram of the device.

The device for measuring soil moisture contains a body, which is made in the form of a U-shaped tube 1, to one end of which a gas-liquid mixture sensor 2 is connected, and a device 3 is connected to the other end to create a reduced pressure inside the body, the porous volumetric elements are porous polyvinyl formal 4 with granules from 3 mm to 10 mm, placed in the right knee of the U-shaped tube 1 communicating with the gas-liquid mixture. The sensor 2 of the gas-liquid mixture is made in the form of a perforated tube, which is placed in the soil. The device 3 for creating a reduced pressure is made in the form of an elastic shell filled with atmospheric air. The body is equipped with an atmospheric valve 5, an operating valve 6, a drain valve 7, a bleed valve 8, an elastic tube 9 that connects sensor 2 with a U-shaped tube 1. The device is equipped with a calibration scale 10, a bridge 11 and a sponge layer 12 for holding porous polyvinyl formalin granules 4.

The operation of the device for measuring soil moisture as a soil moisture meter is as follows.

When the atmospheric valve 5 is open and the working valve 6 is closed, the elastic shell 3 is compressed and air is released into the atmosphere. Close the atmospheric valve 5, and open the working valve 6. In the cavity of the U-shaped tube 1, a reduced pressure is created. The drain valve 7 is closed, the bleed valve 8 is pressed against atmospheric pressure. The gas-liquid mixture accumulated in the sensor 2, through the elastic tube 9 enters the filling of porous polyvinyl formal granules 4, which absorbs moisture (water vapor), the water passes through the sponge 12 and accumulates in the lower part of the U-shaped tube 1. The gas passes through the bridge 11 and enters the elastic shell 3. When gas accumulates in the elastic tube 9, it presses on the bleed valve, and the gas is released into the atmosphere. The cycle of measuring soil moisture will end when the elastic shell 3 is filled with gas from the sensor 2. The amount of soil moisture is determined by the water level in the cavity of the U-shaped tube 1 according to the calibration scale 10.

In comparison with the prototype, the proposed device for measuring soil moisture will simplify the design of the nozzle due to the use of the effect of moisture absorption of polyvinyl formalin granules.

Claims (1)

A device for measuring soil moisture, containing a housing, porous volumetric elements, characterized in that the housing is made in the form of a U-shaped tube with a calibrated scale, the legs of which are interconnected, while one end of the U-shaped tube is connected to a gas-liquid mixture sensor, and the other end has a device for creating a reduced pressure inside the body, which is an elastic shell, while the porous volumetric elements are porous polyvinyl formaldehyde with granules from 3 mm to 10 mm and are placed in the bend of the U-shaped tube communicating with the gas-liquid mixture.

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