JP2019064636A - Fuel supply system - Google Patents

Abstract

To enable fuel supply to a supplied unit without error, and to improve workability during fuel supply.SOLUTION: Provided in each of fuel supply devices 8A-8D are: detection means, such as a nozzle switch, for detecting whether or not a nozzle 10 is removed; determination means for determining whether or not a prescribed time has passed after an operation for fuel supply was executed by a fueling control device 1A or 1B; and control means (i.e., a control part of the fueling control device 1A or 1B) for permitting any one of the fuel supply devices 8A-8D to supply fuel, when the detection means detects that the operation was executed and when the determination means determines that the prescribed time has passed.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a fuel supply system suitably used, for example, to supply fuel (gasoline, light oil, etc.) to a fuel tank of a vehicle.

  Generally, a fuel supply device for supplying fuel to a vehicle such as a car, a setting device for setting the fuel supply, and a management device for transmitting a permission signal for the fuel supply set by the setting device to the fuel supply device A fuel supply system is known, which comprises, e.g. In the fuel supply system according to the related art of this kind, the worker who performs the fuel supply operation operates the management device to transmit a permission signal from the management device to the fuel supply device, and the worker himself operates the fuel by the fuel supply device. Supply.

JP, 2006-264704, A

  In the prior art fuel supply system, a permission signal is transmitted by operating the management device, and fuel is supplied by the fuel supply device that has received the signal. However, when there is a distance from the management device to the fuel supply device, it takes time for the operator who operates the management device to move to the position of the fuel supply device. For this reason, there is a possibility that a third party may operate the fuel supply device to supply fuel while the operator moves to the position of the fuel supply device.

  The present invention has been made in view of the above-described problems of the prior art, and an object of the present invention is to provide a fuel supply system capable of preventing fuel supply to a supply target by a third party other than an operator. It is to provide.

  In order to solve the problems described above, according to the present invention, a fuel supply device for supplying fuel to a supply target, setting means for performing settings relating to fuel supply, and communication connection with the fuel supply device are provided. Determining means for determining whether or not a predetermined time has elapsed after the setting regarding the fuel supply is made in the setting means, in the fuel supply system having a management device for transmitting a permission signal based on the contents set in The fuel cell system is characterized by further comprising: control means for permitting the fuel supply device to supply the fuel when it is determined by the determination means that the predetermined time has elapsed.

  According to the present invention, the time setting until the fuel supply permission can be actually issued after the fuel supply setting is made is the time (moving time) required for the operator to move from the management device to the fuel supply device. It can be set accordingly. This can reduce the possibility of fuel supply by a third party before the operator moves to the fuel supply device.

BRIEF DESCRIPTION OF THE DRAWINGS It is a whole block diagram which shows the fuel supply system in the private filling station by embodiment of this invention. It is a control block diagram of the fuel supply system shown in FIG. It is a front view which expands and shows the refueling management apparatus in FIG. It is a front view which expands and shows the touch-panel-type display part in FIG. It is a flowchart which shows the refueling management processing procedure of the fuel supply by this Embodiment. It is a flowchart which shows the refueling management processing procedure following FIG. It is a flowchart which shows the refueling management processing procedure performed following FIG. 5 separately from FIG. It is a flowchart which shows the refueling management processing procedure performed following FIG. 5 separately from FIG. 6, FIG.

  Hereinafter, a fuel supply system according to an embodiment of the present invention will be described in detail with reference to FIGS. 1 to 8 of the accompanying drawings, taking as an example a case where the fuel supply system is applied to a private filling station as a fuel supply station.

  Among transport companies including transport companies and bus companies, a private service station as a fuel supply site that supplies fuel exclusively to sales vehicles such as owned trucks and buses is provided in its own business establishment. There is a business operator. In the case of a private fueling system installed at a private fueling station as such a fuel supply station, since the vehicles to be refueled are limited to the company's sales vehicles and the like, workers ( The clerk) makes the card reader read the information of the refueling card (for example, a vehicle card such as an IC card) distributed for each vehicle in advance, and then performs the refueling operation to the vehicle using a private refueling machine There is.

  In FIG. 1, a private service station 100 as a fuel supply station is provided, for example, at a position away from the office 101 of the transport company. That is, the in-house service station 100 as the fuel supply station and the office 101 are located, for example, at a distance of about 4 to 5 minutes on foot. Here, in the office 101, a first management device (hereinafter referred to as a first refueling management device 1A) provided with a POS terminal is provided.

  A second management device (hereinafter, referred to as a second refueling management device 1B) similarly provided with a POS terminal is provided in the in-house fueling station 100 as a fuel supply station. The second refueling management device 1B is connected to the first refueling management device 1A via a communication line 102 such as SS-LAN, for example. In addition, a plurality of (for example, four) fuel supply devices 8A, 8B, 8C, 8D are provided in the private fueling station 100 as a fuel supply station, and these fuel supply devices 8A to 8D communicate similarly It is connected to the first and second refueling management devices 1A and 1B via the line 102.

  In other words, the first and second refueling management devices 1A and 1B are communicably connected to the fuel supply devices 8A to 8D, and are permitted based on the contents set by the setting device 12 (that is, setting means) described later. The management apparatus which transmits a signal (refer step 31 of FIG. 8) is comprised. As shown in FIG. 2, the first and second refueling management devices 1A and 1B include the control unit 2, the IC card reader 3, the touch panel display unit 4, and a fuel supplier database (hereinafter referred to as a fuel supplier DB 5). , A timer 6, and a slip issuing mechanism 7.

  Among these, the control unit 2 is constituted by, for example, a microcomputer, and constitutes control means for permitting the fuel supply devices 8A to 8D to supply the fuel or stopping the fuel supply. The control unit 2 can individually control each state of "standby state", "fuel supply waiting state", and "fuel supply in progress state" for each of the fuel supply devices 8A to 8D, and also permits / stops the fuel supply Thus, the functions of the fuel supply devices 8A to 8D are individually controlled.

  The IC card reader 3 is a device for reading the information of the fuel supplier DB 5 stored in the IC card 3A or the IC tag 3B (see FIG. 7). Here, the IC card 3A is owned by, for example, a fuel supplier (operator) and registered in advance in a private refueling system (i.e., fuel supply system). In addition, the IC tag 3B is an information medium which is always prepared, for example, in the office 101, and is temporarily lent to the fuel supplier. The IC card 3A may also be lent temporarily as needed, as shown in FIG. Thus, the IC card 3A to be lent is a card registered in advance as a borrowed IC card in the private refueling system.

  The touch panel display unit 4 can display the nozzle selection buttons 4A to 4D or display various messages by the fuel supplier operating the touch panel as shown in FIG. The nozzle selection buttons 4A to 4D are displayed on the display unit 4 and are buttons for the fuel supplier (operator) to select one of the fuel supply devices 8A to 8D to be used for fuel supply by selection means such as a touch panel. is there.

  For example, when the fuel supplier (operator) presses the nozzle selection button 4A, it is selected that the fuel oil supply is performed by the nozzle 10 of the fuel supply device 8A, and when the nozzle selection button 4B is pressed, the fuel supply device 8B It is selected that the refueling is performed at the nozzle 10 of (1) (including supply of urea). Further, when the nozzle selection button 4C is pressed, it is selected that the fuel supply is performed by the nozzle 10 of the fuel supply device 8C, and when the nozzle selection button 4D is pressed, the fuel supply is performed by the nozzle 10 of the fuel supply device 8D. Is selected.

  In one example shown in FIG. 4, the liquid type selected by the nozzle selection button 4A is "light oil", the liquid type selected by the nozzle selection button 4B is "urea", and the liquid selected by the nozzle selection button 4C The species will be described as "light oil", and the liquid type selected by the nozzle selection button 4D will be described as "light oil". In addition to "light oil" and "urea", examples of liquid types that can be selected by the nozzle selection buttons 4A to 4D include gasoline and kerosene. Moreover, it is also possible to limit the kind of liquid that can be supplied with fuel by adding the kind of liquid type to the fuel supplier DB5.

  The fuel supplier DB 5 is a memory for storing the information on the authentication of the fuel supplier and the information on the usable fuel supply devices 8A to 8D in an updatable manner as a database. The timer 6 starts counting when it issues a permission signal of fuel supply to the fuel supply devices 8A to 8D, and for safety, it is not ready for fuel supply even if a predetermined time has elapsed. It is for canceling the permission signal of supply. The slip issuing mechanism 7 prints a date of fuel supply after completion of fuel supply, an operator (ie, a fuel supplier), a liquid type, an amount of fuel supply, etc., and a printer (printer) that issues a receipt etc. Configured.

  The fuel supply devices 8A to 8D each have a control unit 9 and a nozzle 10 as shown in FIG. 1 and FIG. 2, and for example, supply liquids such as gasoline, light oil, urea (liquid for exhaust gas treatment) or kerosene Is a device for supplying fuel. The control unit 9 of each of the fuel supply devices 8A to 8D is a device (for example, a pump, a flow meter, and / or a control valve, etc.) for supplying fuel to a supplied object (for example, a fuel tank of a vehicle) individually. Is controlled to drive and stop the transmission of fuel supply information via the communication line 102 with the first and second fuel supply management devices 1A and 1B. The nozzles 10 of each of the fuel supply devices 8A to 8D are for supplying fuel to a supply target (for example, a fuel tank of a vehicle) as, for example, a refueling nozzle.

  Further, as shown in FIG. 1, the fuel supply devices 8A to 8D are operated by the display 11 as a display means for displaying the fuel supply amount, and the fuel supplier (operator's staff member) manually operating the fuel A setting device 12 is provided as setting means for setting the supply (refueling amount). The display 11 displays the amount of fueling at the present time (that is, the amount of fueling obtained by integrating the instantaneous flow rates measured by the flowmeter at the time of fueling by each nozzle 10) according to the display control signal output from each control unit 9 While displaying, when the fueling operation is completed, the amount of fueling is displayed on the screen of the display 11.

  The setting device 12 is provided with, for example, an operation switch for selectively setting the amount of oil applied at the time of preset oil supply, an oiling start button, an oiling end button, and the like. The operation switch is, for example, an operation switch (button) selectively pressed by a staff member when performing preset fueling, and a staff member selectively when performing free fueling for arbitrarily setting the amount of lubrication instead of the preset fueling. It is comprised including the operation switch (button) etc. which are pressed down. The oil supply start button of the setting device 12 is an operation switch (button) that outputs a pump drive signal to the control unit 9 when a staff member presses it when actually performing refueling. On the other hand, the oil supply end button is an operation switch (button) for outputting a pump stop signal to the control unit 9 when a staff member depresses the oil supply when it is interrupted or ended.

  In the housings of the fuel supply devices 8A to 8D, the control unit 9 is provided as control means for performing control related to refueling based on the refueling amount set by each setting device 12. The control unit 9 includes display control means for causing the display unit 11 to display the amount of fueling obtained by integrating the instantaneous flow rates measured by a flowmeter (not shown) at the time of fueling by each nozzle 10 There is. The display control means also has a function of causing the display 11 to display the refueling amount when the refueling operation is completed.

  The input side of the control unit 9 is connected to a nozzle switch mounted on a nozzle, a flow rate pulse transmitter (not shown) of a flow meter, each operation switch of the setting device 12, a communication line 102 and the like. The output side of the control unit 9 is connected to a pump motor of the fuel supply pump, a control valve (neither is shown), the display 11, the communication line 102 and the like. The control unit 9 enables the pump motor to be activated when each nozzle 10 is removed from the nozzle hook and a detection signal is input.

  Each control unit 9 of the fuel supply devices 8A to 8D has a memory (not shown) including, for example, a ROM, a RAM, and / or a non-volatile memory. The same memory (not shown) is incorporated in the control unit 2 of the first and second refueling management devices 1A and 1B. In these memories, control programs for executing, for example, refueling management processing, control processing, display control processing and the like shown in FIGS. 5 to 8 are stored.

  A plurality of fuel supply devices 8A to 8D are often provided as weighing machines in a site of a fuel supply station (in-house fueling station 100), and these fuel supply devices 8A to 8D are refueling management devices 1A as POS devices. , 1B, etc. (i.e., the communication line 102) to connect to the main computer (not shown) of the office 101. The POS device is a system for managing information (history) on fuel supply such as the oil type (for example, liquid type such as gasoline and light oil) of the fuel by each nozzle 10, the amount of fuel supplied, and the fueling time. The control unit 9 of the fuel supply devices 8A to 8D can store the accumulated supply amount for each nozzle 10 updatable in the memory via such a POS device.

  The fuel supply devices 8A to 8D are provided with a nozzle switch of the above-mentioned nozzle hook that detects whether or not each nozzle 10 is removed, and each nozzle switch performs the fuel processing in step 9 shown in FIG. The detection means is configured to detect whether an operation has been performed with respect to the supply. In addition, such a detection means is not restricted to the said nozzle switch which detects whether the nozzle 10 provided in fuel supply apparatus 8A-8D was removed. Besides this, it is also possible to configure the detection means depending on whether or not the oil supply start button of the setting device 12 provided in the fuel supply devices 8A to 8D is operated.

  The control unit 2 and the timer 6 provided in the first and second refueling management devices 1A and 1B have a predetermined time (for example, time t1 or t1) after the fuel supply management device 1A or 1B performs an operation for fuel supply. A determination means is configured to determine whether or not ') has passed as in the processes of steps 6 and 10 shown in FIG.

  Furthermore, when the control unit 2 of the refueling management device 1A or 1B detects that the operation is performed by the detection unit, and the determination unit determines that a predetermined time (time t1 or t1 ') has elapsed, For example, a "permission signal" of the fuel supply is transmitted to the control unit 9 of any one of the fuel supply devices 8A to 8D as shown in step 31 of FIG. 8 to constitute control means for permitting the fuel supply.

  The private refueling system (i.e., the fuel supply system) according to the present embodiment has the above-described configuration. Next, the operation procedure of the refueling management process will be described with reference to FIGS. 5 to 8.

  First, when the processing operation shown in FIG. 5 starts, it is determined in step 1 whether the fuel supplier (person in charge) holds the IC card 3A. If “YES” is determined in step 1, the next step 2 is performed. To the second refueling management device 1B. The processing up to this point is performed at the judgment of the fuel supplier (operator). In the next step 3, the IC card reader 3 of the second refueling management device 1B reads the IC card 3A of the clerk, and in the next step 4, it is determined whether the authentication of the clerk is OK.

  That is, the second refueling management device 1B inquires the fuel supplier DB 5 about the fuel supplier information authenticated by the IC card reader 3 and, if it is a previously permitted fuel supplier, “YES” in step 4 In the next step 5, one of the nozzle selection buttons 4A to 4D of the touch panel display 4 is made operable. If the fuel supplier is not permitted, it is determined as "NO" in step 4, so that "notice of NG" is displayed on the touch panel display unit 4 as "authentication NG" in step 8, and the fuel supplier Report to (person in charge). Then, the process returns to step 3 and waits for reading of the IC card 3A.

  When one of the nozzle selection buttons 4A to 4D (for example, the nozzle selection button 4A) is pressed in step 5, the timer 6 is set to t1 in the next step 6, and the timer 6 is started. That is, in step 5, the fuel supplier (operator) operates the nozzle selection button 4A to select the fuel supply device 8A to supply the fuel, and when the fuel supply setting is finished, the second refueling management device 1B The supply DB 5 is inquired to extract a supply preparation completion waiting time (here, t1 = 300 seconds) as the predetermined time t1 in the corresponding fuel supply device 8A, and in step 6, the timer 6 is set to “timer 6 = Set to t1 and start up. Thereafter, at step 7, the state shifts to a state of waiting for the supply preparation completion of the corresponding fuel supply device 8A. Here, the fuel supply device is selected by operating the nozzle selection button, and the timer 6 is set and started as the predetermined time t1, but the invention is not limited thereto. For example, the timer is started by pressing the supply start button As a matter of course, 6 may be activated, or may be activated by setting of the oil type and the amount of oil supply.

  Next, when the fuel supplier removes the nozzle 10 of the fuel supply device 8A, "YES" is determined in step 9, so whether or not counting of the timer 6 ends in the next step 10, that is, the timer 6 is set. It is determined whether or not a predetermined time t1 (or time t1 'described later) as the supply preparation completion waiting time has elapsed. If the supply preparation completion waiting time (predetermined time t1 or t1 ') has elapsed, it is determined as "YES" in step 10, so the process moves to the next step 11, sets timer 6 = t2, and starts timer 6 . The set time t2 is a fuel supply start waiting time (here, t2 = 180 seconds), and the timer 6 is set and started at the set time t2.

  When the determination in step 9 is “NO”, the nozzle 10 of the fuel supply device 8A is not removed. In this case, the time t1 or t1 ′ (that is, the supply preparation completion waiting time) elapses in the next step 12. It is determined whether it has been done. While the determination in step 12 is “NO”, the processing returns to step 9 and the subsequent processing is repeated. When it is determined as "YES" in step 12, the predetermined time t1 or t1 '(that is, the supply preparation completion waiting time) has elapsed while the nozzle 10 of the fuel supply device 8A is not removed. That is, in this case, since the waiting time t1 or t1 'has elapsed without the fuel supply (refueling) operation using the nozzle 10 of the fuel supply device 8A being started, the supply setting is performed in the next step 13. Cancel and finish the work without supplying fuel.

  On the other hand, when it is determined "NO" in the step 1, the fuel supplier does not possess the IC card 3A. Therefore, in the next step 14, this fuel supplier is the first fuel management device in the office 101. Move to 1A. In the next step 15, it is determined whether or not the fuel supplier selects the IC tag 3B. If it is determined "NO", the fuel supplier borrows the IC card 3A, as shown in FIG. Move to step 16. Note that the processing of steps 14 and 15 is a processing procedure performed at the judgment of the fuel supplier.

  When the IC card 3A is borrowed at step 16, the first refueling management apparatus 1A in the office 101 is registered in advance as a borrowed IC card in the private refueling system at step 17 shown in FIG. The IC card 3A is read. In the next step 18, one of the nozzle selection buttons 4A to 4D (for example, the nozzle selection button 4A) is pressed (selected) to complete the fuel supply setting. As a result, the first refueling management device 1A inquires the fuel supplier DB 5, and the supply preparation completion waiting time (here, t1 '= 300 seconds) in the corresponding fuel supply device 8A is set to the timer 6 in step 19. Set t1 'to start the timer 6.

  Next, at step 20, the state shifts to a state of waiting for the supply preparation completion of the corresponding fuel supply device 8A. Next, the fuel supplier returns the temporarily lent IC card 3A in step 21. In the next step 22, the office 101 walks from the office 101 to the fuel supply station (the private service station 100 as a fuel supply station). Moving. And after that, the process after step 9 of FIG. 5 mentioned above is performed similarly.

  On the other hand, when it is determined “YES” in step 15 of FIG. 5, the fuel supplier borrows the IC tag 3B. In this case, the IC tag 3B is borrowed in step 23 shown in FIG. In step S24, the information of the IC card for borrowing 3B is read by the first refueling management device 1A in the office 101. In the next step 25, one of the nozzle selection buttons 4A to 4D (for example, the nozzle selection button 4A) is pressed (selected) to complete the fuel supply setting.

  As a result, the first refueling management device 1A transitions to the IC tag authentication waiting state in step 26, and queries the fuel supplier DB 5 in the next step 27 to wait for the supply preparation completion in the corresponding fuel supply device 8A. (Here, t1 '= 300 seconds) is set as timer 6 = t1' and timer 6 is started.

  Next, at step 28, the fuel supplier moves on foot from the office 101 to the second fuel supply management device 1B of the fuel supply station (the private service station 100). In the next step 29, the IC card reader 3 of the second refueling management device 1B reads the information of the IC tag 3B, and waits for the IC tag 3B to be authenticated. If "YES" is determined in the step 29, the process proceeds to the supply ready completion waiting state of the fuel supply device 8A in the next step 30, and thereafter, the processes after step 9 in FIG. 5 described above are similarly executed.

  Next, in step 31 shown in FIG. 8, following the setting process of the fuel supply start waiting time (timer 6 = t2, start timer 6) in step 11 of FIG. 5 described above, the fuel management device 1A or 1B is applicable The "permission signal" of the fuel supply is transmitted to the control unit 9 of the fuel supply device 8A. In the next step 32, it is determined whether or not refueling has been started by the nozzle 10 of the fuel supply device 8A. Since refueling has not been started while the determination is "NO", the fuel supply device in the next step 33. It is determined whether the nozzle 10 of 8A is not engaged with the nozzle hook (not shown), that is, whether it is in a fuel supply start waiting state. If "NO" in the step 33, the process returns to the step 32 to execute the subsequent processes.

  When it is determined in step 32 that the result is "YES" and fuel supply to the supply target (for example, a fuel tank of a vehicle) is being performed by the nozzle 10 of the fuel supply device 8A, it is assumed that fuel supply is started. The timer 6 is stopped at. In the next step 35, it is determined whether or not the refueling operation is completed, and while the determination is "NO", the refueling operation is continued. If it is determined "YES" in step 35, refueling by any one of the fuel supply devices 8A to 8D (for example, the fuel supply device 8A) is completed, so the slip issuing mechanism of the refueling management device 1A or 1B in step 36. At 7, the refueling slip (for example, the slip after refueling by the fuel supply device 8A) is output. Then, at the next step 37, the fuel supply management device 1A or 1B enters a standby state.

  In the next step 38, it is judged whether or not the fuel supplier possesses the IC tag 3B. When it is judged "YES", the operation moves to the office 101 in step 39 and the IC tag 3B is carried out in the next step 40. Return Note that the processing of steps 38 and 39 is a processing procedure performed at the judgment of the fuel supplier. Thereafter, when the fuel supplier leaves at step 41, a series of refueling operations are completed. In addition, if it is determined “NO” in the step 39 and the fuel supplier leaves in the step 41 even when the IC tag 3B is not possessed, a series of refueling operations are completed.

  On the other hand, if “YES” is determined in the step 33, whether or not the timer 6 counts the set time t2 (for example, 180 seconds) which is the fuel supply start waiting time in the next step 42 Is determined, and while the determination is "NO", the process returns to the step 32, and the subsequent processes are executed. However, if "YES" is determined in step 42, the fuel supply is not started for the fuel supply start waiting time t2 even after the fuel supply permission signal is transmitted to the fuel supply device 8A in step 31. It is. In such a case, the timer 6 is stopped in the next step 43, and in step 44, processing for canceling the fuel supply (fuel supply) setting is executed. After that, at step 45, the fuel supply management device 1A or 1B is put in a standby state, and after the fuel supplier leaves at step 41, a series of fueling operations are completed.

  By the way, in a normal fuel supply station, an office is installed adjacent to the fuel supply station. On the other hand, in the private service station 100, the distance between the office 101 and the fuel supply station (the private service station 100) may be long. In such a case, it takes time for the fuel supplier (operator) to operate the refueling management apparatus 1A of the office 101 to set the fuel supply, and then to move to the private fueling station 100, so that the fuel is supplied. If the third party operates any one of the fuel supply devices 8A to 8D before the lapse of time, an erroneous fuel supply may occur.

  Therefore, in the present embodiment, in the fuel supply system in private fueling station 100, one of fueling devices 8A to 8D is used by refueling management devices 1A and 1B of both private fueling station 100 and office 101. It is an object of the present invention to provide a solution for improving safety in order to solve the above-mentioned problems in enabling fuel supply settings to be made to the device.

  That is, according to the present embodiment, the fuel supply devices 8A to 8D for supplying the fuel to the supply target, the setting device 12 for setting the fuel supply, and the fuel supply devices 8A to 8D are communicably connected. In a fuel supply system having refueling management devices 1A and 1B transmitting permission signals based on the contents set by setting device 12, fuel supply devices 8A to 8D are respectively provided and whether or not an operation is performed regarding the supply Detection means (for example, a nozzle switch for detecting whether or not the nozzle 10 has been removed, and the process of step 9 shown in FIG. 5), and fuel supply by the fuel supply management device 1A or 1B. Determination means for determining whether or not a predetermined time (for example, time t1 or t1 ') has elapsed after the operation is performed (that is, the processing of steps 6 and 10 shown in FIG. 5) When it is detected that the operation has been performed by the detection means, and when it is determined that the predetermined time (time t1 or t1 ') has elapsed by the determination means, any one of the fuel supply devices 8A to 8D is Control means for permitting fuel supply (i.e., the control unit 2 of the fuel supply management device 1A or 1B).

  For this reason, according to the present embodiment, the setting of the predetermined time (time t1 or t1 ') from when the fuel supply setting is performed until the fuel supply permission signal can be actually output can be obtained by the fuel supply management device 1A or It becomes possible to set taking into consideration the movement time according to the distance between 1 B and the fuel supply devices 8A to 8D. For example, if the time required to move from the fuel supply management device 1B to the fuel supply device 8D is longer than the time required to move from the fuel supply management device 1B to the fuel supply device 8A, the fuel supply device 8D is set. The predetermined time in this case is longer than the predetermined time when the fuel supply device 8A is set. As a result, the possibility of erroneous fuel supply can be eliminated, and the workability at the time of fuel supply can be improved.

  That is, in the fuel supply system in which the fuel supply management devices 1A and 1B and the fuel supply devices 8A to 8D are separately installed, after the fuel supply setting by the fuel supply management devices 1A and 1B by the clerk is completed, the fuel supply of the clerk During a predetermined time (time t1 or t1 ') which is assumed to take movement of the devices 8A to 8D, the fuel supply can be performed remotely even if the fuel supply preparation is completed and the fuel supply can not be performed. It is possible to prevent another fuel supplier from erroneously performing the fuel supply between the time when the fuel supply management device 1A performs the fuel supply setting and the time it moves to the fuel supply devices 8A to 8D.

  In other words, according to the present embodiment, depending on the positional relationship between fuel supply management device 1A or 1B and fuel supply devices 8A to 8D (distance or time required to move to fuel supply devices 8A to 8D), Since a predetermined time (time t1 or t1 ') until the fuel supply by any one of the supply devices 8A to 8D is set, an attendant arrives at any position of the fuel supply devices 8A to 8D. It is possible to prevent that the fuel supply can not be performed because the predetermined time (time t1 or t1 ') has not elapsed despite the presence.

  Further, according to the present embodiment, the fuel supply devices 8A to 8D transmit the permission signal from the refueling management devices 1A and 1B and the timer 6 (time setting means) for setting the time (for example, the set time t2) in advance. It comprises a cancellation means (eg, step 44 shown in FIG. 8) for canceling the setting or permission signal when the set time stored in advance has passed since the start of the operation. If a fuel supply operation is not performed within a set time after a predetermined time has elapsed since the signal is issued, the permission signal transmitted from the fuel supply management devices 1A and 1B is cancelled. That is, after the clerk operates the fuel supply management devices 1A and 1B and moves to the fuel supply device within a predetermined time, the fuel supply using the fuel supply device is performed within the set time.

  As a result, despite the fact that the setting or supply permission signal is operated, if the operation relating to fuel supply is not performed within a set time (time t1) and within the set time (time t2), the setting or supply permission signal Since it is canceled, by operating the setting or supply permission signal, the time taken by the clerk to move to the fuel supply device (predetermined time as compared with the case where the setting time for canceling the setting or supply permission signal is set) ) Can be secured. Furthermore, since the fuel supply operation is not performed after the set time elapses or the supply permission signal is canceled, it is possible to limit the time during which the fuel supply device can supply fuel. Can be used to prevent unauthorized use by a third party.

  In the above embodiment, the case where the fuel supply system is applied to a private fueling station as a fueling station has been described as an example. However, the present invention is not limited to this, and can be applied to a fueling station other than a private service station, for example, a general service station such as a gas station.

  Further, in the above embodiment, the case where the IC card 3A is used as the fuel supplier authentication means and the IC tag 3B is used as the temporary authentication means for the fuel supplier has been described as an example. However, the present invention is not limited to this, and it is also possible to use other authentication means such as fingerprint authentication, vein authentication, magnetic card and the like.

  On the other hand, in the above embodiment, the supply preparation completion waiting time of the predetermined time t1 or t1 'set in the timer 6 is provided for each of the refueling management devices 1A and 1B. However, the present invention is not limited to this, and the supply preparation completion waiting time (for example, time t1 or t1 ') may be set for each of the fuel supply devices 8A to 8D. Furthermore, in the above embodiment, although the fuel supplier DB 5 is made independent of the fuel supply management devices 1A and 1B, another terminal connected to any of the fuel supply management devices 1A and 1B or the network (communication line 102) The fuel supplier DB 5 may be provided and shared.

  In the above embodiment, when the detecting means detects that the nozzle 10 is removed from the nozzle hooking, and the judging means performs an operation for fuel supply, a predetermined time (time t1 or t1 ') has elapsed. However, the present invention is not limited to this, and it is naturally determined that the predetermined time (time t1 or t1 ') has elapsed after the operation for fuel supply is performed by the judging means. Of course, it may be possible to start the pump motor.

  Further, in the above-described embodiment, the set time is set by the operation related to the fuel supply being performed within the set time after a predetermined time has elapsed since the permission signal is issued by the refueling management devices 1A and 1B. However, the present invention is not limited to this, and the setting may be performed by setting the fuel supply by the setting device 12. In that case, the time set by the set time is longer than the predetermined time.

1A, 1B Refueling management device (management device)
2 Control unit (control means)
3 IC card reader 4 Touch panel display 6 Timer (determination means)
8A to 8D Fuel supply device 9 control unit 10 nozzle 12 setting device (setting means)
100 private service station (fuel supply station)
101 office 102 communication line t1, t1 'predetermined time t2 set time

Claims (4)

A fuel supply device for supplying fuel to a supply object;
Setting means for setting the fuel supply;
A management device connected communicably to the fuel supply device and transmitting a permission signal based on the contents set by the setting means;
In a fuel supply system having
A determination unit that determines whether a predetermined time has elapsed since the setting related to fuel supply is made in the setting unit;
Control means for permitting the fuel supply device to supply fuel when it is determined by the determination means that a predetermined time has elapsed;
A fuel supply system comprising: The fuel supply device is provided with detection means for detecting whether or not an operation related to the fuel supply has been performed,
The control unit is configured to allow the fuel supply device to supply the fuel when it is detected that the operation related to the fuel supply has been performed by the detection unit, and when the determination unit determines that the predetermined time has elapsed. The fuel supply system according to claim 1, characterized in that:   The fuel supply system according to claim 1, wherein the predetermined time is set in accordance with a positional relationship between the management device and the fuel supply device. The fuel supply device
The system is provided with a cancellation means for canceling the setting or permission signal when the setting time stored in advance has passed after the permission signal from the management device is transmitted by the setting means. The fuel supply system according to any one of 1 to 3.

Images