GB2259497A - A fuel dispenser. - Google Patents

Abstract

This invention relates to an improved fuel dispenser 20 comprising a gas detector 36 responsive to the presence of gas within the fuel. The gas detector provides an electrical signal indicative of the presence or absence of gas to a computer 32 which controls a valve 27, and thus the dispensing of fuel in dependence upon the signal received from the gas detector 36. <IMAGE>

Description

A Fuel Dispenser This invention relates to a fuel dispenser and in

particular but not exclusively to the type of dispenser common on service station fore- courts for dispensing petroleum and diesel oil for use in motor vehicles.

When fuel is dispensed it is nearly always metered for charging purposes. Because of the relatively high price and taxation levels of fuel compared to other bulk liquids, stringent limits are laid down as to the accuracy with which the fuel must be metered. Contamination with gas, which term for the purposes of this specification including the claims includes vapour and/or air and other gases, results in inaccurate measurement of the quantity of fuel dispensed. Contamination tends to occur during the pumping of" fuel whilst dispensing as this encourages vaporisation of the fuel and may induce air into the fuel through leaks in the system.

one way of overcoming the above problem is to incorporate a separator in a dispensing system upstream from the meter. This essentially comprises a closed tank in which the fuel passes through a wire gauze which tends to 2 separate out the gas so that it can be vented off. Most fuel passes through to an outlet in the bottom of the separator and to the meter. The separator has to be of sufficient size to ensure adequate separation. This size is dependant upon the flow rate, viscosity and amount of contamination. These values can normally be calculated, but extremes of weather (fuel is more viscous in cold weather especially diesel oil), or faults in the system (for example air leaks in the suction pipe from the pump to a tank), cannot always be allowed for. Furthermore even under normal conditions the size of a separator can be prohibitive, especially in the case of more viscous fuels, and expensive centripetal separators may be necessary if metering of gas-free fuel is to be ensured.

Apparatus which attempts to solve the above problems is disclosed in Australian Patent No. 48522/72, in the- name of Gilbarco Australia Limited. One embodiment of the invention disclosed in this earlier patent specification is illustrated in Figures 1 and 2 of the accompanying drawings.

In Figures 1 and 2 a dispensing system is illustrated which includes a gas separator 1 arranged such that gas entering the system is substantially drawn off through pipe 2, while substantially gas-free fuel passes via pipe 3 4 - 3 through valve 4 and meter 10 for dispensing. The pipe 2 passes through a venturi 5 and into a sump 6. Any fuel accumulating in sump 6 is returned by pipe 7 to the inlet of a pump unit (not shown). When gas-free fuel is passing along line 2 the venturi creates a reduction in pressure, hereinafter referred to as a vacuum, in chamber 8 shown in Figure 2 which causes valve 4 to open. However should air be present, the vacuum is reduced and the valve 4 closes under the action of spring 9, shutting off the fuel for dispensing when gas is present, and therefore only permitting gas-free fuel to pass to the meter 10 which is monitored by a computer 11.

It has been found that employing a system as disclosed in Figures 1 and 2 is not an ideal solution to the problem as the system tends to hunt.

According to the present invention there is provided a fuel dispenser comprising a gas detector for producing an electrical signal in dependence upon the presence of gas in fuel flowing through the detector, and a computer for receiving the electrical signal and controlling the dispensing of fuel at least in part in dependence upon the signal received. By employing such a dispenser it is possible to control the dispensing of fuel in any manner - 4 desired in response to said received signal. This can be employed to reduce or prevent hunting and provides flexibility of control, enabling the dispenser to be easily adapted to comply with different legislative conditions.

Preferably the dispenser further comprises a fuel separator including an inlet for receiving fuel and first and second outlets, wherein the first outlet is positioned so as to receive a greater proportion of gas than the second outlet and wherein the gas detector receives fuel from the first outlet and fuel for dispensing is received from the second outlet. This permits gas to be drawn off through the gas detector which enables fuel to be dispensed as normal if the gas drawn through the detector is below a preset level. If the gas content exceeds this preset level fuel dispensing can be stopped and the system purged by the gas passing through the detector. In addition by employing su-ch a simple separator the concentration of air can be 20 times greater passing through the first outlet than passing through the second outlet. Fuel passing through the gas detector is advantageously recycled through the separator, preferably first flowing into a vented reservoir so that any gas can be vented off.

Fuel passes through the second outlet of the separator - 5 preferably passing through a meter before being dispensed, such that only substantially gas free fuel is metered.

It is advantageous that the gas detector comprises a venturi device and that this comprises a first and second closed chamber separated by a flexible diaphragm, an inlet and outlet in the first chamber forming a venturi device such that fuel passing through them produces a reduction in pressure in the first chamber, the second chamber being connected by a passage to the outlet of the detector. This enables the second chamber to be sealed from the atmosphere.

Advantageously a metallic member is attached to the diaphragm which is adapted to be moved by the diaphragm into and out of a magnetic field between a magnetic source and a magnetically sensitive switching element in the casing of the detector, for producing said electrical signal. This enables an output to be obtained through the casing of the gas detector without the need for an aperture in the casing.

The fuel dispenser may additionally comprise a nozzle through which fuel is dispensed, the nozzle being attached to the main body of the dispenser by a flexible hose, wherein the dispenser includes a cradle for the nozzle to be returned to when not in use, and hose cock switch for - 6 transmitting a signal to the computer indicative of the presence or absence of the nozzle in the cradle. This enables the computer to be adapted such that, once gas-free fuel has been detected after the nozzle has been removed from the cradle, the computer causes a valve to open allowing fuel to be dispensed, and causes the valve to close if gas is again detected. The computer may be set such that the valve remains closed until the nozzle has been returned to the cradle, or alternatively the computer may be set so as to cause the valve to open again if gas- free fuel is again detected in a predetermined period after the initial closing of the valve, and if no gas-free fuel is detected in said period to cause the valve to remain closed until the nozzle has been returned to its cradle.

It is advantageous if the computer records the duration for which gas is detected and uses this inforination to determine whether the fuel so far dispensed is within predetermined metrological limits for the amount of fuel so far dispensed in a transaction, and to then control the valve accordingly. This enables the dispenser to dispense fuel continuously during a transaction even though the fuel received by the dispenser may for a short duration contain a very high content of gas, thereby preventing the dispenser from hunting. The valve may also have more than one setting, permitting the dispensing rate to be reduced enabling the separator to cope with a higher percentage of gas in the fuel. This provides an alternative to completely shutting off the dispensing of fuel, which can be confusing to an operator of the dispenser.

Advantageously the computer records the duration for which gas is detected and provides warning if this exceeds a predetermined limit. This warning could take the form of a signal direct to a pump attendant and/or could provide some sort of flag within the dispenser to warn a service engineer that there is a problem.

one embodiment of the invention will now be described by way of example only with reference to Figures 3 and 4 of the accompanying drawings of which:

Figure 3 schematically depicts a fuel dispenser in accordance with the present invention; Figure 4A is a crosssection through the gas detector of the fuel dispenser depicted in Figure 3, and Figure 4B is a cross-section along the line X-X of Figure 4A.

Referring to Figure 3 the fuel dispenser 20 comprises a pump 21 for raising fuel from an underground tank via suction pipe 22 which is then fed to separator 23. In the separator 23 the fuel passes through a mesh 24 which encourages gases to separate out of the fuel. Substantially gasfree fuel is supplied through pipe 25 via meter 26, valve 27 and flexible hose 28 to nozzle 29 from where it is dispensed. The nozzle 29 is shown resting in its cradle 30 which incorporates a hose cock switch 31 which registers the presence of the nozzle 29 and transmits this information to a computer 32.

The computer 32 in addition to receiving information from the hose cock switch 30 also receives information from the meter 26, a remote console 33 controlled by the service station attendant, and user control panel 34. The cotputer 32 controls the pump 21 and the valve 27, and also provides information to a display 35. In addition to this the computer also receives information from a gas detector 36 which is illustrated in more detail in Figures 4A and 4B.

The gas detector 36 receives gas and fuel via a pipe 37 from the top portion of the separator 23 where most of the gas is accumulated. As is described in moredetail below with reference to Figures 4A and 4B gas/fuel passing via pipe 37 through gas detector 36 passes through a venturi in the detector which causes a switch within the gas detector to open and close dependent on the amount of gas present. Fuel and gas passing through the detector is transmitted via pipe 38 to a sump 39 where the gas is vented off to the atmosphere via a breather 40 located in the nozzle cradle 30. The sump 39 includes a float 41 which, when the level of fuel within the sump 39 is high enough, raises valve 42 such that the fuel is drained via pipe 43 back to the inlet, 22.

Referring to Figure 4A the gas detector 36 of Figure 3 comprises an inlet 50 and outlet 51 which are connected to pipes 37 and 38 of Figure 3 respectively. The dimensions of the inlet and outlet are such that a venturi effect is generated in the region 52 causing pressure in a -first chamber 53 to be reduced when fuel is flowing from the inlet 50 to the outlet 51. The chamber 53 is sealed by diaphragm 54 which also seals a second chamber 55. This second chamber 55 is connected via vent 56 to the outlet 51. Connected to the diaphragm 54 is a metallic member 57 which is biased in direction "All by spring 58.

In operation fuel passing from the inlet to the outlet - 10 causes a vacuum which acts against the spring 58 and draws the metallic member 57 in direction "B". However when a substantial proportion of gas is present in the fuel the vacuum in the first chamber 53 decreases and the metallic member 57 moves in a direction "All such that it moves into a recess 59. The recess 59 is positioned between two recesses 60 and 61 on the external surface of the gas detector 36 as can be seen more clearly from Figure 4B. In aperture 60 there is inserted a piece of magnetic material 62, and in aperture 61 there is inserted a magnetically sensitive reed switch 63 connected by gland 64 to cable 65 which is connected to the computer 32 of Figure 3. When substantially gas- free fuel is flowing through the detector 35 the metallic member 57 is located as shown in Figure 4, and a magnetic field generated by magnetic member 62 causes the contacts in the reed switch 63 to be closed. When fuel flow stops, or gas is present, the vacuum in chambi-ar 53 decreases and spring 58 urges the metallic member 57 into the recess 59 such that the reed switch 63 is shielded from the magnetic field, causing switch 63 to open.

To operate the fuel dispenser a pump attendant at the remote console 33 (Figure 3) enables the dispenser, either after it had been shut down or after a previous transaction has been completed. An operator wishing to use thepump selects the grade of fuel he requires via user control 34 and removes nozzle 29 from nozzle cradle 30 and activates the hose cock switch 31, in response to which the computer 32 activates pump 21. When gas-free fuel passes through the gas detector 36, the reed switch 63 closes, and the computer causes valve 27 to open permitting fuel to be dispensed via nozzle 29. Gas separated from the fuel via separator 23 and passing through gas detector 36 causes the reed switch 63 to open. The computer 32 records the duration for which the reed switch is open and uses this time, with information from the meter 26, to calculate whether the fuel dispensed meets metrological limits for the current transaction. if it is too close to such limits, the computer 32 partially shuts the valve 27 slowing the rate of fuel being dispensed providing the separator 23 with more time in which to separate the fuel. If this does not bring the transaction further back within the metrological limits the computer 32 shuts the valve 27 completely. Meanwhile gas in the system is purged by passing through the gas detector 36 and pipe 38 to the sump 39 where it is vented, any fuel accumulating being returned to the pump inlet 21. If within a predetermined time the gas detector 36 again changes state, indicating that substantially pure fuel is passing through it, the computer 32 reopens valve 27 and the transaction continues. However if gas continues to pass through the gas - 12 detector 36 for a period longer than the predetermined time the computer 32 stops the pump 21 and terminates the transaction until the nozzle 29 has been replaced. The computer 32 also transmits a signal to the control console 33 to draw the attendantfs attention to the fact that the transaction had to be terminated.

In addition to the above functions, the computer 32 also calculates the percentage of total operating time of the pump for which the gas detector indicates gas to be present. When this exceeds a predetermined percentage the service engineer is informed during the next service via display 35.

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Claims (17)

1. A fuel dispenser comprising a gas detector for producing an electrical signal in dependence upon the presence of gas in fuel flowing through the detector, and a computer for receiving the electrical signal and controlling the dispensing of fuel at least in part in dependence upon the signal received.

2. A fuel dispenser as claimed in claim 1 further comprising a fuel separator including an inlet for receiving fuel and first and second outlets, wherein the first outlet is positioned such as to receive a greater proportion of gas than the second outlet, and wherein the gas detector receives fuel from the first outlet, and fuel for dispensing is received from the second outlet.

3. A fuel dispenser as claimed in claim 2 wherein fuel passing through the gas detector is recycled through the separator.

4. A fuel dispenser as claimed in claim 2 or 3 wherein fuel from the second outlet of the separator passes through a meter before being dispensed.

5. A fuel dispenser as claimed in any preceding claim wherein fuel after passing through the detector, flows into a vented reservoir.

6. A fuel dispenser as claimed in any preceding claim wherein the gas detector comprises a venturi device.

7. A gas detector for detecting the presence of gas in a fuel, the detector comprising a first and a second closed chamber separated by a flexible diaphragm, and an inlet and outlet in the first chamber of such dimensions and relative displacement that fuel passing through then produces a reduction in pressure in the first chamber by the Venturi effect, the second chamber being connected by a passage to the outlet.

8. A fuel dispenser as claimed in claim 6 comprising a gas detector as claimed in claim 7.

9. A fuel dispenser as claimed in claim 6 or 8 comprising a metallic member attached to a diaphragm which is adapted to be moved by the diaphragm into and out of a magnetic field between a magnetic source of the detector and a magnetically sensitive switching element, in the casing of z - is the detector for producing said electrical signal.

10. A fuel dispenser as claimed in any one of claims 1 to 6, 8 or 9 further comprising a nozzle through which fuel is dispensed, the nozzle being attached to a main body of the dispenser by a flexible hose, wherein the dispenser includes a cradle for the nozzle to be returned to when not in use, and a hose cock switch for transmitting a signal to the computer indicative of the presence or absence of the nozzle in the cradle.

11. A fuel dispenser as claimed in claim 10 wherein once gas free fuel has been detected after the nozzle has been removed from the cradle the computer causes a valve to open allowing fuel to be dispensed, and to cause the valve to close if gas is then detected.

12. A fuel dispenser as claimed in claim 11 wherein the valve remains closed until the nozzle has been returned to the cradle.

13. A fuel dispenser as claimed in claim 11 wherein the computer causes the valve to open again if gas-free fuel is again detected in a predetermined period after the initial closing of the valve and causes the valve to remain - 16 closed until the nozzle has been returned to its cradle if gas-free fuel is not detected in said period.

14. A fuel dispenser as claimed in claim 11, 12 or 13 wherein the computer records the duration for which gas is detected and uses this information to determine whether the fuel so far dispensed is within predetermined metrological limits for the amount of fuel so far dispensed in the transaction, and controls the valve accordingly.

15. A fuel dispenser as claimed in any one of claims 12 to 14 wherein the valve has more than one setting permitting flow rate to be modified.

16. A fuel dispenser as claimed in any one of claims 1 to 6 or 8 to 15 wherein the computer records the duration for which gas is detected and provides a warning if- this exceeds a predetermined limit.

17. A fuel dispenser substantially as hereinbefore described with reference to Figures 3 or 4 of the accompanying drawings.