RU44315U1 - FUEL DISTRIBUTION COLUMN WITH SELF-ADJUSTING BY VOLUME AND FUEL TEMPERATURE - Google Patents

Abstract

Objective: to reduce the temperature error of fuel metering in operating conditions due to the correction of the price of division of the pulses of the volume meter. The inventive fuel dispenser with a self-adjusting volume and temperature of the fuel, comprising a feed assembly hydraulically connected to the column inlet, and an outlet through a volume meter and a dispenser assembly with a meter reservoir inlet and column outlet, a first hydraulic meter reservoir outlet through a shut-off valve and an empty indicator connected to the hydraulic input of the feed unit, electrically connected to the first output of the processor terminal, the first input connected through the volume converter to the electrical output of the volume meter, and the second input connected through the detector output unit with its electrical output, through the dose indicator with the second output of the measuring tank and the electrical output of the emptying detector, the second output of the processor terminal is connected to the electrical input of the shut-off valve into which the temperature meter is inserted, connected by the input to the measuring tank, and by the output to the second input of the processor terminal. (07) Referent Zaiko A.I.

Description

The invention relates to techniques for measuring the volume of liquids, the density of which depends on temperature, and can be used, for example, at gas stations.

A device is known (AS USSR No. 1321675, MKI ⁴ B 67 D 5/08, 1987), comprising a dispenser, a control unit for the number of refills and a dispenser control device.

A device is also known (AS USSR No. 1825344, MKI ⁵ B 67 D 5/08, 1993), comprising a dispenser, a control unit for the number of refills and a dispenser control device.

The disadvantage of these devices is the large metering error.

The closest in technical essence and the achieved result is a device with self-adjustment in volume (A.C. USSR No. 1652305, MKI ⁵ B 67 D 5/08, 1991), containing a feed unit, a volume meter, dispenser unit, a measuring tank, a shut-off tank a valve, an indicator for emptying the measuring tank, a processor terminal, a volume converter, an indicator of a dispensing unit and a dose indicator.

The disadvantage of the prototype is the large temperature error of dosing in operating conditions, due to changes in the density of fuel with temperature. As a result of this, the mass of fuel delivered to consumers differs significantly from the mass of the bulk supply of fuel to gas stations.

The objective of the invention is to reduce the temperature error of the dosing of fuel under operating conditions.

The problem is achieved in that the fuel dispenser containing the feed unit, the input hydraulically connected to

the input of the column, and the output through the volume meter and the dispensing unit with the input of the measuring tank and the output of the column, the first hydraulic output of the measuring tank through the shut-off valve and the emptying indicator is connected to the hydraulic input of the feed unit, electrically connected to the first output of the processor terminal, the first input connected through the converter volume to the electrical output of the volume meter, and the second input connected through the detector output unit with its electrical output, through the dose indicator with the second output of the emptying signaling device, the second output of the processor terminal being connected to the electrical input of the shut-off valve, a temperature meter connected to the input to the measuring tank and the output to the second input of the processor terminal.

The introduction of a fuel temperature signal into the processor terminal can significantly reduce the dosing error due to a change in the density of the fuel from temperature.

The totality of the claimed features is new and unobvious. It determines the compliance of the proposed invention with the criterion of "inventive step".

The drawing shows a block diagram of the proposed fuel dispenser.

The device comprises a feed unit 1, the input of which is hydraulically connected to the column inlet, and the output through the volume meter 2 and the delivery unit 3 with the input of the measuring tank 4 and the column output. The first hydraulic output of the measuring tank 4 through the shut-off valve 5 and the emptying indicator 6 is connected to the hydraulic input of the supply unit 1 and the input of the column. The electrical input of the feed unit 1 is connected to the first output of the processor terminal 7, which is connected to the electrical output of the volume meter 2 by the first input through the volume converter 8. The processor 7 is connected to the electrical output of the output unit 3 through the signaling device 9 of the output unit 3 and the output of the output unit 3 through the signaling device

doses 10 and a temperature meter 11 to the outputs of the measuring tank 4. It is also connected directly to the output of the emptying alarm 6. The second output of the processor terminal 7 is connected to the electrical input of the shut-off valve 5.

The refueling column works in the following modes. Work mode. The delivery unit 3 is installed in the consumer packaging. Via terminal 7, a dose of fuel to be dispensed is set. At the command of terminal 7, the supply unit 1 is turned on and the fuel enters through the meter 2 and the delivery unit 3 into the consumer's container. In this case, the converter 8 transmits to the terminal 7 electrical signals in proportion to the measured fuel volume. For example, when one liter of fuel is dispensed, the converter 8 gives out 100 pulses to the terminal 7. Thus, to give the consumer a dose of two liters, it is necessary to work out 200 pulses. The price of a pulse (scale factor) is 10 ml / pulse. Upon reaching the specified number of pulses, the feed unit 1 by terminal 7 will be turned off. Next, the dispensing unit 3 is set to its initial position on the top refueling column, about which the signaling device 9 transmits a signal to the terminal 7. When the consumer gives a predetermined amount of fuel, the terminal 7 closes the fuel supply unit 1.

Control mode. The delivery unit 3 is installed in the initial position on the fuel dispenser. The signaling device 9 of the position of the issuing unit 3 transmitted a signal to the terminal 7 about readiness for the control mode. At the command of terminal 7, in accordance with a predetermined program, the supply unit 1 is turned on and the fuel is supplied through the volume meter 2 and the delivery unit 3 to the measuring tank 4. In this case, two situations are possible.

1) Fuel in tank 4 has reached the set dose. This fixes the dose indicator 10, the processor terminal 7 turns off the supply unit 1 and fixes the number of pulses from the output of the volume transducer 8. After that, the processor terminal 7 divides the dose volume by the number of pulses from the volume transducer 8, increases and remembers

the price of one impulse. Then the shutoff valve 5 opens, and the fuel from the tank 4 is discharged into the supply unit 1 until the emptying indicator 6 is activated.

2) If the dose indicator 10 did not work by the time the last pulse of the set dose arrives from the volume transducer 8, then the terminal 7 decreases the pulse division price from the volume meter 2 and opens the shut-off valve 5. The fuel from the tank 4 is drained and the control mode is repeated until until the dose indicator 10 is activated, i.e. until the first situation is realized.

After that, using the signal of the temperature meter 11, the processor terminal 7 adjusts the division price of the pulse of the volume converter 8, taking into account the change in fuel density with temperature, so that the fuel volume at any temperature has the same mass. The dividing price of the momentum converter of volume 8 is refined taking into account the temperature of the fuel, and then in the operating mode, fuel is loaded with the updated dividing price of the converter of volume 8, thereby reducing the temperature dependence of the mass of supplied fuel.

Measuring tank 4, shut-off valve 5, emptying indicator b, dose indicator 10 and temperature meter 11 can be implemented as separate blocks and can be connected to the fuel dispenser only in self-tuning mode or during verification.

Thus, the proposed invention allows to reduce the error of dosing of fuel under operating conditions.

Claims (1)

A fuel dispenser with self-adjustment in terms of volume and temperature of the fuel, comprising a feed assembly hydraulically connected to the column inlet and an outlet through a volume meter and dispenser assembly with a volumetric reservoir inlet and column outlet, the first hydraulic output of the volumetric reservoir through a shut-off valve and an empty indicator the hydraulic input of the feed unit, electrically connected to the first output of the processor terminal, the first input connected through a volume converter to an electric the volume meter, and the second input connected through the detector output unit with its electrical output, through the dose indicator with the second output of the measuring tank and the electrical output of the emptying detector, the second output of the processor terminal is connected to the electrical input of the shut-off valve, characterized in that it further comprises temperature meter connected by the input to the measuring tank, and by the output to the second input of the processor terminal.