SU966563A1 - Filtration degree meter - Google Patents

Description

Union of Soviet Socialist Republics DESCRIPTION OF THE INVENTION TO COPYRIGHT CERTIFICATE (> "966563 (61) Additional to author good woo ~ (22) 3Approved 16.03-81 (21) 3262918 / 18-25 (51) M. Cl ³ State Committee with joining application no. G 01 N 15/08 USSR (23) Priority - for inventions Posted on 10/15/82. Bulletin No. 38 (53) UDC663.63. and discoveries Date of publication of the description 10/15/82 .067 (088.8)

L. I. Tarasov and F. I. Mustakimov (72) Authors of the invention

ALL-Union (71) Applicant

Volzhsky research hydraulic engineering and land reclamation

ATATENTICAL

LIBRARY (54) FILTROMER _} The invention relates to a control ^11- measuring technique and can be used in agriculture to study the filtration properties of soils in ponds at a variable water level, to determine the actual irrigation norms when irrigated by flooding, for example when irrigation in strips, at. flooding of rice checks and estuaries.

A known filter gauge consisting of a guarding element, a feeding device with a valve and a recording device with a float system associated with a valve of a feeding device equipped with a device for fixing the position of the suspension thread of the float kinematically connected with the valve of the feeding device. The filter gauge works at a variable level. The operation of this device is based on recording the amount of absorbed water when the cavity of the enclosing element briefly connects to the external level £ 1}. However, the accuracy of measurements by the device decreases with a rapid rise or fall in the external level, for example, when watering with inlet in strips or when the check is flooded and water is dumped from it when watering alfalfa.

The closest in technical essence to the proposed ₁₀ is a filter containing a nutrient container, a guarding element and a needle valve, the needle of which is installed on the level tracking float in the ₁₅ guarding element, and the socket is in communication with the nutrient tank [2].

However, in the device it is impossible to conduct a reliable assessment with 20 fluctuations in the water level in the reservoir.

The purpose of the invention is to increase the accuracy of the measurement of water filtration with changes in its level in the reservoir.

This goal is achieved by the fact that the filter containing the feeding container, the enclosing element and the needle valve, the needle of which is installed on the level tracking float in the enclosing element, and the socket is in communication with the feeding container, is additionally equipped with level tracking floats in the reservoir and drain with a tank located below the level of the soil under study, while the needle valve seat is mounted on level tracking floats in a reservoir, and the upper surface of the level tracking float in the fence - 15 It is full in the form of water ^and water, communicated by a flexible water conduit. with drain tank.

In FIG. Figures 1 and 2 show a schematic diagram of a filter gauge in working positions '20.

the filter consists of the enclosing element 1, the feed tank 2, installed above the external water level, the drain tank 3, 25 installed below the surface of the earth, the needle valve 4, the socket 5 of which is mounted on tracking floats of the “level in the pond (external floats) 6 and the locking needle 7 - on the ₃₀ float tracking level in the enclosing element 8 (inner float), flexible nutrient 9 and drain 10 water conduits, guide 11.. . The upper surface of the inner float is in the form of a harrow with a drain hole 12. The force for locking the valve is provided by the buoyancy of the float. The locking needle 7 completely blocks the feed conduit 9 when the tracking float of the inner level 8 is immersed to the upper edge of the funnel. In this case, the external and internal levels are the same. For reliable operation of the valve at the beginning and end of flooding pits 13 are made on the surface of the earth.

The filter meter works as follows.

In the initial position, between ⁵⁰ and the surface of the earth outside the enclosing element 1 is not flooded with water, the outer floats 6 hang on the inner float 8 above the pits 13 and reliably close the feed line with a needle-55 valve. When the external level rises (or the beginning of flooding), the floats 6 rise together with the valve seat 5 (Fig. 1), the force to close the valve decreases, and water from the supply tank 2 enters the enclosing element 1. As the internal level aligns with the external float 8 is immersed to the upper edge of the funnel and the locking needle 7 completely covers the supply pipe 9 completely; ^1. When the external level (or discharge) decreases, the floats 6 are lowered (figure 2) and through the needle slot 5; the valves float the mass of the inner float 8, the water from the enclosing element 1 enters the funnel on the float and through the hole 12, the flexible conduit 10 is discharged into the tank 3. When the inner level reaches the upper edge of the funnel, which corresponds to the external level, the drain stops. The amount of absorbed water (filtration or irrigation rate) is determined by the difference between the initial and final volumes in the nutrient tank, taking into account the volume of the baud in the drain tank.

The filter gauge improves the accuracy of measuring the filtration volume by automatically equalizing the water levels outside and inside the enclosing element during sudden fluctuations in the external level.

Claims (1)

The invention relates to a control measuring technique and may be used in agriculture for studying the filtration properties of soils in water bodies at varying water levels, to determine the actual irrigation rates for irrigation by flooding, for example, for irrigation of rice fields. and estuaries. A filter is known, consisting of a barrier element, a feeding device with a valve and a recording device with a float system associated with a valve of a feeding device equipped with a device for fixing the position of the thread of the suspension of the float, kinematically connected with the valve of the feeding device. Filtromer works at a variable level. The operation of this device is based on the recording of the volume of absorbing water when the cavity of the enclosing element is briefly connected to the external level G}. However, the accuracy of measurements with the device decreases when the external level rises or falls rapidly, for example, when watering by flooding in strips or When a check is flooded and water is dropped from it when watering alfalfa. The closest in technical essence to the present invention is a filter gauge containing a nutrient container, a guard element and a needle valve, the needle of which is mounted on the level tracking float in the barrier element, and the nest is communicated with the nutrient container. However, it is not possible to make a reliable assessment in the device when the water level in a pond fluctuates. The purpose of the invention is to increase the accuracy of the measurement of water filtration with changes in its level in a pond. The goal is achieved by the fact that the filter gauge, containing a nutrient tank, a guard element and a needle valve, the needle of which is installed on the level tracking float in the barrier, is an element, and a drain tank located below the level of the soil being studied, with the needle valve seat mounted on the level tracking floats in the pond, and the top surface of the level tracking float in the fence | This element is made in the form of a cord, communicated by a flexible conduit with a drain tank. FIG. Figures 1 and 2 show the principle of the filter gauge in working positions. The filter gauge consists of a barrier element 1, a feed tank 2 installed at an elevated water level, a drain tank 3 installed below the ground, a needle valve 4, the nest S of which is mounted on the water level float floats (external floats) 6, and a stop needle 7 on the level tracking float in the enclosing element 8 (internal float), flexible nutrient 9 and drain 1Q conduits, guide 11, The upper surface of the internal float has the shape of a funnel with a drain hole 12. Locking force The valve is provided with buoyancy float. The locking needle 7 completely overlaps the nutrient conduit 9 when the tracking float of the internal level 8 is submerged to the upper edge of the funnel. At the same time, the outer and inner levels are the same; For reliable operation of the valve at the beginning and at the end of the flooding, there are marks 13 on the ground surface. The filter is working as follows. In the initial position, when the surface of the earth outside the enclosing element 1 is not flooded with water, the external floats 6 hang on the internal float 8 above the wire 13 and securely close the supply line with a needle valve. When raising the outer level (or the beginning of flooding), the floats 6 rise together with the valve seat 5 (Fig. 1), the force for locking the valve decreases, and water — from the feed tank 2 enters the enclosing element 1. As the inner level aligns with the outer float 8 is immersed to the upper edge of the funnel and the locking needle 7 completely covers the feedwater E. When the external level decreases (or is reset), the floats 6 descend (Fig. 2) and through the needle slot 5; the valve with its mass heats the internal float 8, water from the enclosing element 1 enters the funnel on the float and through the opening 12, the flexible conduit 10 merges into the container 3. When the internal level reaches the upper edge of the funnel, which corresponds to the external level, the drain stops. The volume of water absorbed (filtration or full norm) is determined by the difference between the initial and final volumes in the nutrient tank, taking into account the volume of iodine in the drain tank. The filter gauge improves the accuracy of the filtration volume measurement by automatically leveling the water levels inside and outside the enclosing element during sharp fluctuations in the external level. The invention includes a filter gauge containing a nutrient tank, a barrier element and a needle valve, the needle of which is installed on the level tracking float in the barrier element, and the nest is communicated with the nutrient tank, so as to improve the accuracy of water filtration measurement its level in the reservoir, the filter is additionally equipped with level tracking floats in the reservoir and a drainage tank located below the level of the soil studied, while the needle valve seat is mounted on the float level tracking in the reservoir, and the top surface of the level tracking float in the enclosure is made in the form of a funnel communicated by a flexible conduit with a drain tank. Sources of information taken into account when expretizing 1. USSR author's certificate No. 626396, cl. G 01 N 15/08, 1977. 2. USSR Author's Certificate No. 316973, cl. G 01 N 15/08, 1970 (prototype).