RU17081U1 - MERNIK SECOND DISCHARGE - Google Patents

Abstract

Second-order measuring device containing defoaming means - a funnel with a droplet collector, all metal measuring devices are made of corrosion-resistant materials, characterized in that all metal measuring devices are made of three layers, while the middle layer is made of carbon structural or low alloy steel, on which layers of a corrosion-resistant non-metallic intrinsically safe polymer coating are placed on the outside and inside, and the thickness of one corrosion-resistant layer is 400-200 μm, and ogasheniya - defoamer comprises a nozzle receiving opening, the upper cone, the sleeve, the lower cone with the mounting flange, two transport handles and demister forming a sidewall clearance, equal to half the nominal diameter pipe with receiving opening passage.

Description

Mernik of the second category

The utility model relates to measuring equipment, namely to measuring instruments for checking fuel dispensers, taking into account changes in the volume of light oil products and the capacity of the measuring unit from temperature.

Known tube combined for the manufacture of pipelines for transporting aggressive media, including the main part, made of carbon or low alloy steel, and metal shells fixed at its ends by welding, while at least on the inner surface of the pipe and mating shells there is a coating of corrosion-resistant non-metallic material, and the extreme sections of the shells are free from coating, with each shell made of at least two concentric layers, In this case, one layer is made of carbon or low alloy steel and at least one layer is made of corrosion-resistant steel with a chromium content of at least 8%, and the thickness of the corrosion-resistant shell layer is at least 5% of the total thickness of its wall (cm copyright certificate of the Russian Federation No. 21420910, class F 16 L 9/02).

2000122669

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MriKGOIF 19/00

The disadvantages of this combined tube are the high cost of materials and the low corrosion resistance of the non-metallic coating due to its small thickness.

Known metal model measuring devices of the first and second category, containing a transparent neck or a water-indicating window with a scale plate or a water measuring tube or spill for nominal capacity and made of corrosion-resistant materials that provide sufficient rigidity and structural strength (see. State system for ensuring the uniformity of measurements. Standard metal measuring devices Methods and means of verification GOST 8.400 - 80 (ST SEV 1054 - 78), USSR State Committee for Standards, Moscow).

The disadvantages of these metal measuring devices is the complexity of the manufacturing process due to the viscosity of non-ferrous metals and the high cost of materials used for the production of measuring devices.

The closest in technical essence and the achieved positive effect and accepted by the authors for the prototype is a measuring device containing a tank with a transparent neck, equipped with a scale and a protective casing with diametrically located viewing windows, and an adjustment element, while a drain valve with a poppet shut-off element is introduced into it, additional protective casing for the tank and a cover made in

in the form of a funnel with a droplet eliminator, and the scale is applied to the neck along its perimeter, and the adjustment element is made in the form of a cork with an axial hole and a lower end in the form of an inner cone, rigidly connected to the neck and its protective casing, and along the thread - with the reservoir in the bottom which has a drain valve (see USSR author's certificate No. 1742627, class G 01 F 19/00).

The disadvantages of this measurer are the complexity of the design of the measurer, including defoaming agents, the complexity of the manufacturing process due to the viscosity of non-ferrous metals and the high cost of materials used for the production of measuring devices.

The technical result that can be obtained using the proposed utility model is to simplify and reduce the cost of the design and manufacturing process of measuring tanks of the second category by simplifying the design of antifoam and making metal parts of the measuring tank with corrosion-resistant non-metallic polymer coatings.

The technical result is achieved using a second-level measuring device containing a defoaming agent - antifoam, while all the metal parts of the measuring device are made of three layers, with the middle layer made of carbon structural or low alloy steel, on which layers of a corrosion-resistant non-metallic intrinsically safe polymer are placed on the outside and inside coatings, and the thickness of one corrosion-resistant layer

.

is 400 - 200 μm, while the antifoam consists of a nozzle with a receiving hole, an upper cone, a shell, a lower cone with a connecting flange, two transport handles and a droplet separator, which forms a gap with the shell equal to half the diameter of the nominal passage of the nozzle with a receiving hole.

In FIG. 1 shows a measuring device of the second category with antifoam, a General view; in FIG. 2 - defoamer, front view with a slit and a bottom view.

Measuring device of the second category, made in the form of defoamer 1 with a droplet eliminator 2 for receiving working fluid from a fuel dispenser with transport handles 3 for the convenience of moving the measuring apparatus and draining the working fluid, transparent, for example glass, neck 4 with a scale plate 5 with a longitudinal viewing groove enclosed in metal tube 6 to protect the neck from mechanical damage, while the neck is made of glass pipe, which eliminates the total manufacturing error of the reading device TWA, two temperature scales 7 are applied on scale plate 5, the first is designed for the volume of gasoline with a density of 710-760 kg / m in the temperature range from minus 20 ° С to plus 30 ° С, the second - for the volume of diesel fuel with a density of 810-850 kg / m in the temperature range from minus 20 ° С to plus 30 ° С, scales are calculated taking into account the temperature correction for

volumetric expansion of the measuring materials and reduced to a temperature of 20 ° C, taken as a reference point, of the error scale 8, made in the form of a flat movable frame with a water-indicating window 9, on which both numbers and risks are plotted, the division scale S is equal to half the double main relative errors of a measuring device in cubic centimeters, a water indicating window 9 serves to increase the accuracy of reading and ease of use due to its design and the exact reading of errors from the nominal capacity when checking the meter itself onnikov or when checking the fuel dispenser to obtain the value of the phaetic volume of the working fluid, working capacity 10, reference level 11, set screws 12 and nameplate 13 with markings. Temperature scales 7 are made with the possibility of movement along the axis of the transparent neck 4, which is necessary when adjusting and calibrating the meter. All metal parts of the measuring device are made of three layers, with the middle layer made of carbon structural or low alloy steel, on which layers of a corrosion-resistant non-metallic intrinsically safe polymer coating are placed on the outside and inside, while the thickness of one corrosion-resistant layer is 400 - 200 μm. Defoamer 1 consists of a nozzle 14 with a receiving hole, an upper cone 15, a shell 16, a lower cone 17 with a connecting flange 18, transport handles 3 and antifoam 2. The design of the antifoam is designed in such a way that prevents splashes of the working fluid and foam when working with a measuring device for all known standardized fuel dispensers.

Mernik of the second category with antifoam from parts having a corrosion-resistant non-metallic coating works as follows.

When checking, for example, with a fuel dispensing measuring device of the second category with a nominal capacity of 10 dm, the light oil product is driven through the column to equalize the temperatures of the column and the oil in the tank. Then, the working fluid (light oil products) is fed from the column gun directly into the nozzle 14 with the receiving hole of the defoamer 1 of the metal measuring device of the second category, while the liquid is gradually drained through the neck, and the air jets and foam escaping from the neck are broken by droplet eliminator 2 and finally quenched, passing through a gap equal to half the diameter of the conditional passage of the pipe 14 between the casing 16 and the droplet eliminator 2 into the space between it and the upper cone 15 of the antifoam 1. Thus, the liquid awn and foam from the measuring unit does not occur at any flow rate of the dispenser. Mernik is pre-moistened with a working fluid and set at a control level of 10 vertically using set screws 11. After calming the top

liquid level, a shaker is required for air bubbles to escape. Measure the temperature of the working fluid. Combine the zero mark of the error scale 7, moving it along the guides, with the mark of the measured temperature on the corresponding given working fluid temperature scale 6 and evaluate the error of the volume of fluid supplied to the measuring device. The draining of the working fluid from the measuring device is carried out through the neck of the antifoam 1. After draining the liquid with a continuous stream, they hold for 1 minute to drain the drops.

The error of the measure being verified is considered admissible if the lower edge of the meniscus of the liquid is in the water indicating window 8 of the error scale 1. In this case, the error is measured from the nominal capacity of the measuring device, taking readings from the error scale 7, and the error value is entered in the certificate of calibration of the fuel dispenser.

If the meniscus of the working fluid did not appear in the water-indicating window 8, then the fuel dispenser is regulated according to this meter.

The fuel dispenser is checked according to the approved measurement procedure MI 2504 - 98 State system for ensuring the uniformity of measurements. Fuel dispensers. Verification method using measuring devices of type М2р - СШ.

Calibration of the mernik is carried out according to the approved method of verification of Mernik metal special second category M 2P-Sh-04. 4213.00-.48591157.D1. Verification technique, which is developed on the basis of the following regulatory documents:

-TU 4213 - 00- - 48591157 - 99 - Mernik special metal of the second category type M 2R-Sh-04. Technical conditions

-MI 2395 - 97 - State system for ensuring the uniformity of measurements. The volume of petroleum products reduced to a temperature of 20 ° C. The technique of measuring measurements with a special scale.

The process of obtaining a polymer coating on the details of the measuring unit proceeds according to the technical conditions of the polymer powder coatings. TU 2243 - 002 - 48591157 - 99. Technical specifications.

The advantages of the proposed utility model in comparison with the prototype and other well-known technical solutions:

- Simplification of the measuring device design;

-cheapering the cost of the measuring device;

-improvement of ease of use by improving the design of the entire measuring device and defoaming unit in particular;

- Reducing the risk of sparking due to the execution of all metal parts of the measuring device from carbon structural steels, on which a corrosion-resistant non-metallic intrinsically safe polymer coating with a thickness of 400 - 200 microns made of powder material is placed on the outside and inside.

Authors: j / x. S. Dmitriev D.N. Sudavtsov

Claims (1)

Second-order measuring device containing defoaming means - a funnel with a droplet eliminator, all metal measuring devices are made of corrosion-resistant materials, characterized in that all metal measuring devices are made of three layers, while the middle layer is made of carbon structural or low alloy steel, on which layers of a corrosion-resistant non-metallic intrinsically safe polymer coating are placed on the outside and inside, and the thickness of one corrosion-resistant layer is 400-200 μm, the means of ogasheniya - defoamer comprises a nozzle receiving opening, the upper cone, the sleeve, the lower cone with the mounting flange, two transport handles and demister forming a sidewall clearance, equal to half the nominal diameter pipe with receiving opening passage.