RU179778U1 - FUEL DISTRIBUTION COLUMN - Google Patents

Abstract

A fuel dispenser can be used at gas stations, providing high accuracy in delivering fuel doses to consumers. The fuel dispensing column contains a reading device and in each hydraulic channel a monoblock or submersible electric drive pump, a filter, two quantity meters, two two-wire solenoid valves, two sleeves with dispensing taps, four electrically controlled single-pass valves, which provide for the execution of a task to issue a dose of fuel from the first dispenser the crane is connected in series with the first quantity meter of the second quantity meter, routinely conducting a measurement of a given dose t fuel from the second dispensing tap. When dispensing a dose from the second dispensing tap, electrically controlled single-pass valves provide a series connection with the second quantity meter of the first quantity meter. The reading device compares the information obtained when a predetermined dose was received from both quantity meters, and when a predetermined limit is exceeded in the difference in values, it issues a warning command to the control system.

Description

The utility model relates to fluid metering techniques and can be used to dispense fuel at gas stations, providing high accuracy.

Modern fuel dispensers are a means of measurement, in which the error of delivery is determined by pouring a dose of fuel into a measuring tank. Traditionally, such an operation is carried out at the beginning of the shift. At the same time, the column error beyond the permissible limits may occur suddenly, which leads to the appearance of shortages or excess fuel in the tanks of the gas station. In most cases, the result of the column with increased error is detected only when summing up the work or transferring the shift.

A fuel dispenser is known that contains electric motors, pumps, a filter, volume meters, flow reduction valves, metering devices, indicators and taps dispensing with pressure hoses, which allows for the delivery of up to four types of fuel, and at the same time, from one to two types of fuel from different sides of the column ( utility model patent RU 28868 U1, priority dated November 12, 2002, IPC - B67D 5/00).

The closest in technical essence to the claimed one is a multi-fuel fuel dispenser containing electric motors, pumps, filters, performance reducing valves, float chambers, dispensing taps with pressure hoses, in which a multi-channel Coriolis mass flow meter is used as a quantity meter. The column allows you to issue simultaneously from one to two types of fuel from different sides of the column (patent for utility model RU 132062 U1, priority dated February 27, 2013, IPC B67D 7/04).

The disadvantage of these fuel dispensers is the lack of automatic control of exceeding the permissible error limits for issuing fuel doses.

The objective of the utility model is to eliminate this drawback and improve consumer qualities.

It is known that the measurement of the same value has greater reliability if this measurement is carried out by two independent meters.

The technical result in the proposed utility model is implemented in a multi-fuel fuel dispenser designed to simultaneously deliver from one to two types of fuel from different sides of the column. In such a fuel dispenser containing a readout device and in each hydraulic channel a monoblock or submersible electric drive pump, a filter, two quantity meters, two two-pass solenoid valves and two sleeves with dispensing valves, the technical result is achieved by the fact that each hydraulic channel of the column is additionally equipped with four electrically controlled single-pass valves, the first two of which are connected to the gap in the hydraulic connection between the output of the filter and the entrance to each meter number, and the other two are connected between the outputs of the respective meters the quantity and inputs other gauges quantity, and controls each reading device electrically controllable valve.

At the same time, the reading device compares the information obtained when the ordered dose was received from both quantity meters, and when a predetermined limit is exceeded in the difference in values, it issues a warning command to the control system.

In FIG. 1 shows a diagram of a fuel dispenser designed to dispense one grade of fuel through two dispensing hoses located on both sides of the column.

The fuel dispenser contains a monoblock or submersible electric drive pump 1, filter 2, meters 3 and 7, throttle solenoid valves 4 and 8, hoses 5 and 9, transfer valves 6 and 10, metering device 11, electrically controlled hydraulic valves 12, 13, 14 and fifteen.

The fuel dispenser is designed to measure the amount (volume or mass) of fuel when it is delivered to the fuel tanks of vehicles, taking into account the requirements of accounting and settlement operations.

Fuel dispenser works as follows. Before operation, a permissible limit of discrepancies in the measurement results by each pair of quantity meters in each hydraulic channel is entered into the memory of the reading device.

In the initial position, all electrically operated column valves are closed. After receiving the fuel delivery task from the control system, the column reading device 11 after removing the dispensing valve 6 turns on the electric drive pump 1 and opens the electrically operated valves 13, 15 and the two-way solenoid valve 4.

In this case, the fuel starts moving from the reservoir to the electric drive pump 1, then through the filter 2 and the open valve 13 to the meter 7, then through the open valve 15 to the meter 3 and then through the two-way valve 4, hose 5 and the dispensing valve 6 into the fuel tank of the vehicle. The fuel dose is counted according to the readings of the main column of the meter 3 for this channel, and the readings of the meter 7 are control and serve to assess the quality of the meter 3 and the state of the corresponding channel for processing the measuring information of the reading device 11.

Upon receipt from the control system of a task for the delivery of fuel through another dispensing valve, the reading device 11 after removing the dispensing valve 10 turns on the electric drive pump 1 and opens the electrically operated valves 12, 14 and the two-way solenoid valve 8.

In this case, the fuel begins to move from the tank to the electric drive pump 1, then through the filter 2 and the open valve 12 to the meter 3, then through the open valve 14 to the meter 7 and then through the two-way valve 8, hose 9 and the transfer valve 10 into the fuel tank of the vehicle. The fuel dose is counted according to the readings of the main column of the meter 7 for this channel, and the readings of the meter 3 are control and serve to assess the quality of the meter 7 and the state of the corresponding channel for processing the measuring information of the reading device 11.

Thus, the measurement of the dose of fuel occurs simultaneously by two independent quantity meters. If quantitative discrepancies in the readings of both meters are obtained within acceptable limits, column operation continues, if the discrepancy limits are exceeded, the reading device issues a warning command to the control system for the gas station operator to take measures to check the column on both cranes by the method of filling the dose into the meter. In the case when the gas station operator requires the operation of the column simultaneously on two cranes 6 and 10 for refueling two vehicles, the reading device 11 does not include loading control mode.

Thus, externally, the column operation is no different from the traditional one, but the moment of exceeding the permissible error of any measurement channel is determined automatically during the operation of the column, which does not allow the column to work with exceeding the permissible error limits.

Claims (2)

1. A fuel dispenser containing a readout device and in each hydraulic channel an electric drive pump, a filter, two quantity meters, two two-way solenoid valves, two hoses with dispensing taps, characterized in that each hydraulic channel of the column is additionally equipped with four electrically controlled single-pass valves, the first two of which are connected to the hydraulic connection between the filter output and the input to each quantity meter, and the other two are connected between the outputs of the corresponding quantity meters and the inputs of other quantity meters, and a reading device controls each electrically controlled single-pass valve. 2. The fuel dispensing column according to claim 1, characterized in that the metering device compares the information obtained when the ordered dose was issued from both quantity meters and, when the predetermined limit in the difference of values is exceeded, issues a warning command to the control system.

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