RU160835U1 - MEASURING UNIT FOR DOSING LIQUID PRODUCTS - Google Patents

Abstract

A measuring device for dispensing liquid products, comprising a liquid temperature sensor, a non-return valve, a filter, an electric pump unit, a gas separator, a Coriolis type mass flow meter, a moisture meter, an electrically controlled hydraulic valve and an indication and control unit, characterized in that the non-return valve is transferred from the unit entrance to rupture of the hydraulic connection between the gas separator and the mass flow meter, and the display and control unit gives a command to set the mass flow meter to zero after the end of the dispensing dose.

Description

Measuring system for dispensing liquid products

The utility model relates to measuring technique, namely to the technique of dispensing liquids, and can be used on gasoline tankers, gas stations, tank farms, filling stations and terminals when filling and draining, ensuring high accuracy of dispensing doses to the consumer.

A known refueling complex comprising a frame with a pump unit installed on it and connected in series, a gas separator filter, a fuel meter and a double-acting valve for adjusting fuel consumption, the pump unit being configured to connect to a fuel tank, a double-acting valve a fuel dispensing device, and in parallel with a double-acting valve, a densitometer is connected (patent for utility model RU 53246, priority date 01.25.2006 IPC B60S 50/02). The disadvantage of this complex is the low reliability, cumbersome design and a large error in determining the dose mass by the indirect method of dynamic measurements.

A known measuring device is designed to measure the amount of liquid in units of volume and mass using the direct dynamic method for dosed filling and consisting of a local control station, an earthing device, a check valve, a filter, an electric pump unit, a gas separator, a Coriolis type mass flow meter, an electromagnetic valve and a temperature sensor ( utility model patent RU 111284, priority dated June 17, 2011, IPC - G01F 11/22).

The design of this setup does not exclude the dependence of the dose measurement error on the zero stability of the mass flow meter.

The closest analogue of the claimed utility model is a measuring device for liquid products, containing a local control station, an earthing device, a liquid temperature sensor, a check valve, a filter, an electric pump unit, a gas separator, a Coriolis type mass flow meter, a moisture meter, an electromagnetic control valve, an indication unit and management (patent for utility model RU 128711 U1, priority dated 10/10/2012, IPC - G01F 11/22).

The disadvantage of this setup is the dependence of the measurement error on the zero stability of the mass flow meter.

The problem to which the claimed utility model is directed is to increase the accuracy of measuring the issued dose.

It is known that the measurement error of a Coriolis type mass flowmeter is determined by the basic error and additional, one of which is directly related to the value of zero stability, which can be reduced if the mass flowmeter is zeroed before measurement. In this case, the zero shift of the mass flow meter depends on how the conditions for measuring the dose differ from the conditions under which the operation of setting zero.

The technical result in the proposed utility model of the measuring installation, comprising a liquid temperature sensor, a check valve, a filter, an electric pump unit, a gas separator, a Coriolis type mass flow meter, a moisture meter, an electrically controlled hydraulic valve and an indication and control unit, is achieved by the fact that the non-return valve is transferred from the entrance to installation of a gas separator and a mass flow meter in the hydraulic communication line, and the indication and control unit, after the completion of the dose, generates a command to install have zero mass flowmeter.

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The end of the dose delivery when the measuring tubes of the mass flowmeter are completely filled and the temperature equilibrium between the measured product and the mass flowmeter is reached, and the closed non-return and electrically controlled valves ensure that the product stops moving in the mass flowmeter - these are sufficient conditions for the zero-setting command to enter a reference point corresponding to the absence flow in the mass flow meter, which reduces the total error in the issuance of the subsequent dose of the product.

In FIG. 1 shows a diagram of a measuring installation for dispensing liquid products.

The measuring installation includes a filter 1, an electric pump unit 2, a gas separator 3, a Coriolis type 4 mass flow meter, an indication and control unit 5, a moisture meter 6, an oil temperature sensor 7, an electrically controlled hydraulic valve 8, a check valve 9.

The purpose of the measuring installation using a mass flow meter is to measure the amount of liquid products in units of mass and volume by the direct dynamic method, while ensuring the measurement of the following parameters: mass, volume, temperature and the proportion of water in the dose given.

The measuring installation operates as follows.

After receiving a job from the control system, the display and control unit 5 of the installation includes an electric pump unit 2 and opens an electrically controlled hydraulic valve 8.

At the same time, the oil product begins to move from the intake pipe to the filter 1, then to the pump cavity of the electric pump unit 2, and then to the gas separator 3, where gases are released and removed to the steam return line.

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From the gas separator 3, the product through the check valve 9 enters the mass flow meter 4, then into the moisture meter 6 and through the open channel of the electrically controlled valve 8 to the outlet.

At the end of the dispensed dose, the indicating and control unit 5 of the installation turns off the electric pump unit 1 and closes the electrically operated valve 8.

In this case, the movement of the oil product in the installation stops, the check valve 9 closes, the measuring tubes of the mass flow meter are completely filled, and due to the passage of the oil product at the previous dose, the temperature equilibrium between the measured product and the mass flow meter is achieved. At this time, the display and control unit 5 gives a zero-setting command, which introduces a reference point in the mass flow meter, corresponding to the absence of flow, which reduces the total error when issuing the next dose of the product.

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Claims (1)

A measuring device for dispensing liquid products, comprising a liquid temperature sensor, a non-return valve, a filter, an electric pump unit, a gas separator, a Coriolis type mass flow meter, a moisture meter, an electrically controlled hydraulic valve and an indication and control unit, characterized in that the non-return valve is transferred from the unit entrance to rupture of the hydraulic connection between the gas separator and the mass flow meter, and the display and control unit gives a command to set the mass flow meter to zero after the end of the dispensing dose.

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