JP5431847B2 - Fuel supply device - Google Patents

Description

  The present invention relates to a fuel supply apparatus, and more particularly, to a fuel supply apparatus configured to notify that it is time to replace a component disposed in each fuel supply system.

  In fuel supply systems that supply fuel, maintenance work such as inspection and repair of parts such as nozzles, hoses, pumps, flow meters, and solenoid valves is regularly performed and used in accordance with the durability of each part. The amount is determined, and parts are replaced as needed before the replacement time is reached.

  A maintenance worker or a fuel supply station where a fuel supply device is installed manages maintenance information such as the maintenance timing, inspection / repair work contents and replacement parts in a slip. In this method, the worker has to write the maintenance time, inspection / repair work contents, replacement parts, etc. on the slip, which is troublesome.

  Further, a fuel having a function of storing data such as the number of times of supply and pump operation time in a memory of the fuel supply device and transmitting each data in response to a data request from a management computer (or POS terminal) installed in the office There exists a supply apparatus (for example, refer patent document 1).

  In the management computer (or POS terminal) described in Patent Document 1, it is possible to collectively read information related to maintenance such as inspection / repair data of each part of each fuel supply device, parts replacement time, etc. Information related to maintenance such as inspection / repair data of each part and parts replacement time can be read and confirmed on a monitor.

Japanese Laid-Open Patent Application No. 2-217991

  In the fuel supply device disclosed in Patent Document 1, an operator operates a management computer in the office to read maintenance data of each fuel supply device before performing maintenance, and inspects / repairs data of each past part, and parts replacement. Information on maintenance such as time will be confirmed.

  However, since the numbering method of each fuel supply device and each nozzle is different depending on each fuel supply station, the identification method is different. Therefore, it is possible to determine which fuel supply system of which fuel supply device is displayed on the monitor. It is difficult, and when a maintenance worker moves from the office to the installation location of each fuel supply device, it is not easy to determine which fuel supply system part to replace based on the number alone. The work will be performed without confirming the relevance with each fuel supply system, and there is a high possibility that the inspection location will be wrong.

  In addition, by providing a maintenance worker with a terminal device that can be connected to the control unit of the fuel supply device, the worker himself may operate the terminal device to read data directly from each fuel supply device. The operation of the apparatus requires extra labor, and there is a problem that the start of maintenance work is delayed.

  In view of the above circumstances, an object of the present invention is to provide a fuel supply device that solves the above-described problems.

In order to solve the above problems, the present invention has the following means.
(1) The present invention provides a fuel supply device having a nozzle communicated with a fuel supply system via a hose, and a nozzle storage portion for storing the nozzle.
A storage unit for storing information corresponding to the amount of each component used in the fuel supply system;
When the nozzle is removed from the nozzle storage unit and returned to the nozzle storage unit without supplying fuel, the information stored in the storage unit is read, and based on the information on the part, the part is immediately before replacement, Or a control means for notifying whether or not the replacement time has arrived.
(2) The control means of the present invention includes:
When performing an operation of removing the nozzle from the nozzle housing and returning it, a reading unit that reads information according to the amount of each component used in the fuel supply system corresponding to the nozzle from the storage unit;
A determination means for determining whether there is a part immediately before the replacement or a part reaching the replacement time based on the information read by the reading means;
Notification means for notifying the determination result by the determination means;
It is characterized by having.
(3) The notification means according to the present invention may be configured such that, when the time immediately before the replacement of the part or the replacement time has arrived, the part is immediately before the replacement or the replacement time together with the identification information corresponding to the fuel supply system. It is characterized by notifying that it has reached.
(4) The notification means according to the present invention may be configured such that a character or symbol for identifying a component disposed in the fuel supply system when the time immediately before replacement of the component or when the replacement time has reached, Characters or symbols indicating that the time immediately before the replacement or the replacement time has arrived are displayed.

  According to the present invention, when the nozzle is removed from the nozzle housing portion and returned to the nozzle housing portion without supplying fuel, the information stored in the storage portion is read and the time immediately before the replacement of the part or the replacement time is determined. In order to notify whether or not it has arrived, it is possible to confirm on the spot that the parts of the fuel supply system corresponding to the nozzle have reached the time immediately before replacement or the time for replacement. It is possible to inspect only parts that have reached, and repair or replace them. Therefore, even if a plurality of fuel supply devices are installed, it is possible to confirm for each fuel supply device which parts of the fuel supply device have reached the time immediately before replacement or the replacement time, and to perform repair / replacement work reliably. it can.

It is a perspective view which shows one Example of the fuel supply apparatus by this invention. It is a system distribution diagram showing connection between a management computer and a plurality of fuel supply devices. It is a block diagram which shows the structure of each part of a fuel supply apparatus. It is a figure which expands and shows a display. It is a figure which shows each display content of a display. It is a figure which shows the example of a display of exchange time. It is a figure which shows an exchange time information storage part typically. It is a flowchart for demonstrating the main control process of a fuel supply apparatus. It is a flowchart for demonstrating the replacement time alerting | reporting process 1 of a fuel supply apparatus. It is a flowchart for demonstrating the replacement time alerting | reporting process 2 of a fuel supply apparatus.

  Hereinafter, embodiments for carrying out the present invention will be described with reference to the drawings.

  FIG. 1 is a perspective view showing an embodiment of a fuel supply apparatus according to the present invention. FIG. 2 is a system diagram showing the connection between the management computer and a plurality of fuel supply devices.

As shown in FIGS. 1 and 2, the fuel supply system 10 includes a plurality of fuel supply devices 16 installed in the liquid supply area 12 and a management computer 20 installed in the office 18. The management computer 20 and a control circuit mounted on the plurality of fuel supply devices 16 (16 _{1 to} 16 _n ) are connected via an SS-LAN 22 so as to be capable of two-way communication.

  The management computer 20 manages each device installed in the fuel supply station. When a supply permission request signal is output from one fuel supply device 16, a staff member is in an abnormal state around the fuel supply device 16. A supply permission signal is transmitted to the fuel supply device 16 by operating a permission button for confirming that there is no supply and outputting a supply permission.

  The fuel supply device 16 includes a self-service liquid supply type meter 24, a setting device 26 mounted on the meter 24, and a display 27 that displays a liquid type unit price and a supply amount. In addition, the weighing machine 24 is provided with the setting device 26 integrally on the front surface and the back surface of the housing 28, and is further provided with a nozzle storage portion 32 in which the nozzle 30 is stored.

  In the present embodiment, three supply systems are provided on one side of the weighing machine 24, and for example, three types of fuels such as light oil, high-octane gasoline, and regular gasoline can be selectively supplied. ing.

  Further, a hose 34 to which fuel is supplied is connected to each nozzle 30, and the hose 34 is suspended from a hose support portion 35 provided at the upper part of the housing 28.

  Each hose 34 communicates with a fuel supply line (not shown) disposed inside the housing 28, and each fuel supply line is provided with devices such as a flow meter, a solenoid valve, and a pump. .

  FIG. 3 is a block diagram showing the configuration of each device of the fuel supply apparatus. As shown in FIG. 3, the control circuit 36 of the fuel supply device 16 includes a setter 26, an electromagnetic valve 38 provided in each fuel supply path, a pump 40, a flow meter 42, a memory 44, and a human detection sensor 46. The intercom 48, the nozzle switch 50 provided in the nozzle housing 32, the static electricity removal detection switch 54, the slip issuing machine 58 for issuing a slip, and the speaker 60 for voice guidance are connected.

  Furthermore, liquid type selection buttons 64 to 66, a full tank selection button 68, preset liquid supply amount selection buttons 70 to 73, and preset liquid supply amount amount selection buttons 76 to 79 are connected to the control circuit 36.

  Then, the control circuit 36 lights or blinks a lamp of a button corresponding to an operation to be performed next in accordance with an input operation of the operator, and makes a voice guidance for guiding an operation procedure from the speaker 60.

  Further, the memory 44 stores various data and a control program executed by the control circuit 36. For example, after the nozzle switch 50 detects that the nozzle 30 is removed from the nozzle storage portion 32, the fuel is supplied. If the nozzle switch 50 detects that the nozzle 30 has been returned to the nozzle housing portion 32 without measuring the flow rate without supplying it, the amount of use of each component of the fuel supply device 16 is immediately before the replacement. Alternatively, a control program (determination unit) for determining whether or not the replacement time has been reached and a control program (notification unit) for informing the determination result are stored.

  FIG. 4A is an enlarged view of the display. As shown in FIG. 4A, the display 27 is a liquid crystal display and has display areas 27a to 27f for displaying 6-digit numerical values or characters (alphabet letters). A triangular display area 27g is provided below the third digit display area 27c. The display areas 27a to 27f display the flow rate measurement values measured by the flow meter 42 during fuel supply.

  In addition, when the nozzle 30 is returned to the nozzle housing portion 32 and the nozzle switch 50 is turned on to terminate the fuel supply, the indicator 27 displays the numerical value of the supply amount at the end time and holds the display. At the start of the next fuel supply, the nozzle 30 is removed from the nozzle housing portion 32, the nozzle switch 50 is turned off, the pump 40 is started, and the numerical value by the previous fuel supply is reset to zero.

  In this embodiment, when the fuel is supplied, the flow rate measurement value measured by the flow meter 42 is displayed on the display 27, and when the fuel is not supplied, the display 27 displays the parts of the fuel supply system corresponding to each nozzle 30. Display data such as inspection information and parts replacement information.

  Here, a display example for informing the inspection / replacement information of the parts of the fuel supply system on the display 27 will be described. In the present embodiment, after the nozzle switch 50 detects that the nozzle 30 has been removed from the nozzle storage portion 32, the nozzle switch 50 indicates that the nozzle 30 has been stored in the nozzle storage portion 32 without supplying fuel. If it is detected by the above, it becomes possible to notify the indicator 27 of the inspection / replacement information of the parts of the fuel supply system.

FIG. 4B is a diagram showing each display content of the display. As shown in FIG. 4B, the display areas 27a and 27b of the display unit 27 are identified when the No. 11 nozzle 30 is removed from the nozzle storage unit 32 and returned to the nozzle storage unit 32 without being supplied. The nozzle number “11” as information is displayed. This nozzle number is a serial number assigned to each fuel supply system provided in the plurality of fuel supply devices 16 _{1 to} 16 _n .

  For example, when four fuel supply devices 16 are installed, since each of the fuel supply devices 16 is provided with six nozzles 30, numbers 1 to 24 can be displayed as nozzle numbers. Is set as follows. Accordingly, when the nozzle 30 of the seventh fuel supply system is operated, the nozzle number “7” is displayed.

  The display area 27c of the display unit 27 displays a horizontal bar (a hyphen). The display area 27d of the display unit 27 displays “n” indicating that the nozzle replacement time is near the replacement time or the replacement time. The display area 27e of the display unit 27 displays a horizontal bar (high phone). The display area 27 f of the display unit 27 displays “h” indicating that the hose replacement time is near to the replacement time or the replacement time. The display area 27g of the display unit 27 displays a symbol (for example, a black triangle mark) indicating that the part replacement time is near the replacement time or the replacement time.

  The replacement time is determined in advance for each part. When the usage amount of each part reaches the replacement judgment value at the replacement time or when the usage amount of each part reaches the value before the replacement judgment value, the replacement time is changed. It is notified by the symbol (black triangle mark) in the display area 27g that it is the time immediately before or near the replacement time. The replacement determination value for each component is stored in the memory 44 in advance. For example, in the case of the nozzle 30, the total use amount reaches 2500 kiloliters, and in the case of the hose 34, the total use amount when the oil type is gasoline reaches 1500 kiloliters. In addition, when the total amount of use when the oil type is light oil or kerosene reaches 2500 kiloliters, it is determined that it is the replacement time.

  FIG. 4C is a diagram showing a display example of the replacement time. As shown in FIG. 4C, for example, when the part replacement time has not been reached, the display unit 27 displays “11-0-0”. Therefore, when an operator (a fuel supply station staff or maintenance worker) removes the nozzle 30 with the nozzle number 11 from the nozzle storage portion 32 and returns it to the nozzle storage portion 32 without supplying fuel, the nozzle number is changed. It can be seen that none of the parts provided in the fuel supply system of the eleven nozzles 30 has reached the replacement time.

  When only the nozzle 30 is approaching the replacement time, the display unit 27 displays “11-n-0”. Therefore, when the operator removes the nozzle 30 with the nozzle number 11 from the nozzle housing portion 32 and returns it to the nozzle housing portion 32 without supplying fuel, the nozzle 30 with the nozzle number 11 immediately before or after the replacement. It turns out that it is.

  Further, when only the hose 34 is approaching the replacement time, the display unit 27 displays “11-0-h”. Therefore, when the operator removes the nozzle 30 with the nozzle number 11 from the nozzle housing portion 32 and returns it to the nozzle housing portion 32 without supplying fuel, the hose 34 with the nozzle number 11 is immediately before or replaced. It turns out that it is.

  Further, when it is the time immediately before the replacement of the nozzle 30 and the hose 34 or the replacement time, the display unit 27 displays “11-nh”. Therefore, when the operator removes the nozzle 30 with the nozzle number 11 from the nozzle housing portion 32 and returns it to the nozzle housing portion 32 without supplying fuel, the nozzle 30 with the nozzle number 11 and the hose 34 are immediately before replacement. Or it turns out that it is the exchange time.

  In the present embodiment, a display example is shown in which the replacement of the nozzle 30 and the hose 34 is informed by a combination of numerical values, characters, and symbols displayed on the indicator 27. However, the present invention is not limited to this. For example, character information may be displayed on the liquid crystal monitor, or a voice message is output from the speaker 60 together with the display on the display 27, and the replacement time of the nozzle 30 and the hose 34 is approaching. You may use the method of alert | reporting that it is.

FIG. 5 is a diagram schematically showing the replacement time information storage unit. As shown in FIG. 5, the replacement time information storage unit 100 is stored in the memory 44 and is classified for each fuel supply device 16 _{1 to} 16 _n , and in order of numbers 1 to n of each fuel supply system. Data such as liquid type, total nozzle usage (integrated supply), total hose usage (integrated supply), nozzle replacement time, hose replacement time, and the like are stored.

  In this embodiment, for example, when the nozzle replacement time reaches the replacement judgment value of 2500 kiloliters regardless of the liquid type, the total usage amount in the case of gasoline is 1500 kiloliters when the hose replacement time reaches the replacement judgment value. When the replacement judgment value is reached, or when the total use amount in the case of light oil and kerosene reaches the replacement judgment value of 2500 kiloliters, the replacement time is set. The setting of the replacement time based on the total use amount is set according to the durability of the nozzle 30 and the hose 34. When the durability of the nozzle 30 and the hose 34 is improved, the replacement determination value is set. The numerical value of is also changed appropriately.

  For example, in FIG. 5, the nozzles 30 and the hoses 34 whose fuel supply systems are No. 1 and No. 4 and later have not reached the timing immediately before the replacement or the replacement timing. It can be seen that the nozzle 30 with the second fuel supply system has reached the time immediately before the replacement at a predetermined time before the replacement time, and the hose 34 has reached the replacement time. Further, it can be seen that the nozzle 30 and the hose 34 having the third fuel supply system have reached the replacement time.

  Here, a control process executed by the control circuit 36 of the fuel supply device 16 will be described. FIG. 6 is a flowchart for explaining a main control process of the fuel supply apparatus.

  As shown in FIG. 6, the detection signal from the nozzle switch 50 is read in S11, and it is checked whether or not the nozzle 30 has been removed from the nozzle housing portion 32. In S11, when the detection signal from the nozzle switch 50 is OFF (in the case of YES), it is determined that the nozzle 30 has been removed from the nozzle storage portion 32, and the process proceeds to S12. In the next S12, the display of the previous supply amount displayed on the display 27 is reset to zero.

  Subsequently, the process proceeds to S13, and a supply permission request signal is output to the management computer 20. In the next S14, it is checked whether or not a supply permission signal is input from the management computer 20. In S14, when the supply permission signal is not input from the management computer 20 (in the case of NO), the process proceeds to S15, the detection signal from the nozzle switch 50 is read, and the nozzle 30 is returned to the nozzle storage portion 32. Check whether or not. In S15, when the detection signal from the nozzle switch 50 is OFF (in the case of NO), it is determined that the nozzle 30 has not been returned to the nozzle housing portion 32, the process returns to S14, and the processes of S14 and S15 are repeated.

  In S14, when a supply permission signal is input from the management computer 20 (in the case of YES), the process proceeds to S16 to drive the pump 40 and open the electromagnetic valve 38. Subsequently, in S17, the supply amount (fuel supply amount) supplied from the nozzle 30 to the fuel tank of the vehicle is measured by the flow meter 42, and the supply amount measured by the flow meter 42 is integrated. Further, in S18, the integrated supply amount is displayed on the display 27.

  In the next S19, the detection signal from the nozzle switch 50 is read, and it is checked whether or not the nozzle 30 has been returned to the storage state in the nozzle storage portion 32. In S19, when the detection signal from the nozzle switch 50 is OFF (in the case of NO), the process returns to S17, and the process of S17 to S19 is repeated, so that the fuel supply from the nozzle 30 is continued and the indicator The numerical value of the supply amount displayed in 27 is updated.

  In S19, when the detection signal from the nozzle switch 50 is ON (in the case of YES), it is determined that the nozzle 30 has been returned to the storage state in the nozzle storage portion 32 and the fuel supply has ended, and the process proceeds to S20. Then, the drive of the pump 40 is stopped and the solenoid valve 38 is closed. Subsequently, in S21, it is checked whether or not the flow rate measured by the flow meter 42 is zero or more.

  In S21, when the flow rate measured by the flow meter 42 is zero or more (in the case of YES), the process proceeds to S22, and the current usage amount (supply amount) corresponding to the nozzle 30 is stored in the total replacement time information storage unit 100. The total amount used is added to the usage amount, and the total new usage amount added is updated and stored in the replacement time information storage unit 100.

  Subsequently, in S 23, the current usage amount (supply amount) is added to the total usage amount corresponding to the hose 34 connected to the nozzle 30, and the new total usage amount is added to the replacement time information storage unit 100. Update memorize.

  In S15, if the detection signal from the nozzle switch 50 is ON (in the case of YES), it is determined that the nozzle 30 has been returned to the nozzle storage portion 32, and the process proceeds to S24. In S21, when the flow rate measured by the flow meter 42 is not zero or more (in the case of NO), the fuel supply is not performed, and the process proceeds to S24.

  As described above, when the nozzle 30 is removed from the nozzle housing portion 32 and the nozzle 30 is returned to the nozzle housing portion 32 without supplying fuel, the process proceeds to the replacement time notification processing 2 in S24. The replacement time notification process 2 in S24 will be described later.

  Here, the control process of the replacement time notification process 1 executed at predetermined intervals in parallel with the control process of FIG. 6 will be described. FIG. 7 is a flowchart for explaining the fuel supply device replacement time notification process 1.

  As shown in FIG. 7, in S31, each information stored in the replacement time information storage unit 100 is read, and the nozzle 30 or hose 34 that has reached the time immediately before the replacement before the predetermined time of the replacement time in the read information. Check if there is any.

  In S31, when there is a nozzle 30 or a hose 34 that has reached the time immediately before the replacement at a predetermined time before the replacement time (in the case of YES), the process proceeds to S32 and the symbol (black triangle mark) of the display area 27g as the replacement time notification lamp 4A) is blinked (intermittent lighting that alternately turns off and on) and is notified (notification means). Thereby, the worker can recognize that the nozzle 30 or the hose 34 has reached the time immediately before the replacement.

  Subsequently, in S33, the corresponding nozzle 30 and hose 34 are associated with the nozzle 30 and the arrival of the time immediately before the replacement is stored in the memory 44.

  In S31, if there is no nozzle 30 or hose 34 that has reached a time before the replacement time (in the case of NO), the processes of S32 and S33 are omitted and the process proceeds to S34.

  In S34, it is checked whether there is a nozzle 30 or a hose 34 that has reached the replacement time. In S34, if there is a nozzle 30 or hose 34 that has reached the replacement time (in the case of YES), the process proceeds to S35, and the symbol (black triangle mark, see FIG. 4A) of the display area 27g as the replacement time notification lamp is turned on ( Notification is performed for a predetermined time (notification means). Thereby, the worker can recognize that the nozzle 30 or the hose 34 has reached the replacement time.

  In the next S36, the corresponding nozzle 30 and hose 34 are associated with the nozzle 30, the arrival of replacement time is stored in the memory 44, and the current process is terminated. Further, in S34, when there is no nozzle 30 or hose 34 that has reached the replacement time (in the case of NO), the processes of S35 and S36 are omitted and the current process is terminated.

  As described above, the control circuit 36 executes the processes of S31 to S36 every predetermined time, and whether there is a nozzle 30 or a hose 34 that has reached the time immediately before the replacement before the predetermined time of the replacement time, or the replacement time. It is confirmed whether or not there is a nozzle 30 or hose 34 that has reached, and if there is a corresponding nozzle 30 or hose 34, it is displayed on the display device 27 so that the operator who has operated the nozzle 30 can display it. Can be notified. Therefore, the operator can confirm on the spot whether the nozzle 30 or the hose 34 held in the hand has reached the time immediately before the replacement or the replacement time, and for which fuel supply system the display 27 indicates. It is possible to prevent the display from being mistaken and to perform inspection / repair and parts replacement reliably.

  Here, the replacement time notification process 2 in S24 will be described.

  FIG. 8 is a flowchart for explaining the fuel supply apparatus replacement time notification process 2. As shown in FIG. 8, in S41, the replacement time information for the hose 34 corresponding to the nozzle 30 in which the nozzle switch 50 is turned on / off / on is read from the replacement time information storage unit 100 (usage amount reading means). . In next S42, it is determined whether or not the time immediately before the replacement (Δ mark in FIG. 5) or the arrival of the replacement time (× mark in FIG. 5) is stored (determination means). In S42, if the time immediately before the replacement or the arrival of the replacement time is stored (in the case of YES), the process proceeds to S43, and the nozzle number of the nozzle 30 is displayed in the display areas 27a and 27b of the display 27 (FIG. 4B). reference).

  In next S44, the replacement time information of the nozzle 30 corresponding to the nozzle number is displayed on the display area 27d of the display device 27 for notification (notification means). When the replacement time information of the nozzle 30 is the time immediately before the replacement, or is not the replacement time, “0” is displayed in the display area 27d of the display device 27, and the replacement time information of the nozzle 30 is “×”. In the case of a mark, “n” is displayed in the display area 27d of the display 27 (see FIGS. 4B and 4C).

  In the next S45, the replacement time information of the hose 34 connected to the nozzle 30 corresponding to the nozzle number is displayed on the display area 27f of the display device 27 for notification (notification means). When the information immediately before the replacement of the hose 34 connected to the nozzle 30 is marked with a mark “◯” indicating that the replacement time has arrived or the replacement time has not arrived, “0” is displayed in the display area 27 f of the display device 27. When the replacement time information is the replacement time arrival or the replacement time arrival, “h” is displayed in the display area 27f of the display 27 (see FIGS. 4B and 4C).

  In the next S46, it is checked whether or not a predetermined time (for example, 5 seconds) set in advance has elapsed. In S46, the display 27 continues to be displayed until the predetermined time elapses. When the predetermined time elapses, the process proceeds to S47, and the integrated value of the flow rate measurement value measured by the flow meter 40 is displayed on the display 27. Switch the display contents to display.

  In S42, if the time immediately before the replacement or the arrival of the replacement time is not stored, the control processing in S43 to S47 is omitted and the current processing is terminated.

  As described above, when the time immediately before the replacement or the arrival of the replacement time is stored, the display 27 displays the nozzle number, the time immediately before the replacement of the nozzle and the hose, or whether or not the replacement time has arrived. Can be notified. For this reason, the operator can indicate whether or not the replacement time corresponding to the nozzle 30 in which the nozzle switch 50 is turned on / off / on or the hose 34 connected to the nozzle 30 has arrived or whether the replacement time has arrived. It is possible to confirm by the display, and it is possible to prevent a mistake in which fuel supply system the display of the display 27 is displayed, and it is possible to perform inspection / repair and replacement of parts reliably.

  In the above embodiment, the case where the usage amount of the nozzle and hose has reached the replacement time has been described as an example. However, the present invention is not limited to this, and components other than the nozzle and hose (for example, flowmeter, solenoid valve, pump) , Display, etc.) can also be notified when the replacement time comes.

  Moreover, in the said Example, when the integrated flow rate of the fuel which flowed to the nozzle (or hose) has reached the predetermined integrated flow rate, it is determined that the usage amount of the nozzle (or hose) has reached the replacement time. Although it is configured, the determination that the usage amount of the nozzle (or hose) in the present invention has reached the replacement time is not limited to the above-described determination. For example, the use of the nozzle (or hose) is started. It may be determined that the usage amount of the nozzle (or hose) has reached the replacement time when the elapsed time from the time reached a predetermined elapsed time, and the fuel supply by the nozzle (or hose) may be determined. Of course, when the number of times reaches a predetermined number, it may be determined that the amount of nozzle (or hose) used has reached the replacement time.

  Further, in the above embodiment, each information stored in the replacement time information storage unit 100 when the nozzle 30 is removed from the nozzle storage unit 32 and the nozzle 30 is returned to the nozzle storage unit 32 without supplying fuel. In the read information, it is determined whether or not there is a nozzle 30 or a hose 34 that has reached the time immediately before the replacement at a predetermined time before the replacement time. Each time the nozzle 30 is returned to the nozzle housing portion 32 without being supplied with fuel, whether or not the replacement time of the nozzle 30 or the hose 34 has reached the time immediately before the predetermined time before the replacement. Of course, it may be determined.

DESCRIPTION OF SYMBOLS 10 Fuel supply system 12 Liquid supply area 16 (16 _{< 1 >} -16n) Fuel supply apparatus 18 Office 20 Management computer 22 SS-LAN
24 Weighing machine 26 Setting device 27 Indicators 27a to 27g Display area 30 Nozzle 32 Nozzle storage part 34 Hose 35 Hose support part 36 Control circuit 38 Solenoid valve 40 Pump 42 Flow meter 44 Memory 50 Nozzle switch 58 Voucher issuing machine 60 Speaker 64 ~ 66 Liquid type selection button 68 Full tank selection button 70 to 73 Preset liquid supply amount selection button 76 to 79 Preset liquid supply amount setting button 100 Replacement time information storage unit

Claims (4)

In a fuel supply apparatus having a nozzle communicated with a fuel supply system via a hose, and a nozzle storage portion for storing the nozzle,
A storage unit for storing information corresponding to the amount of each component used in the fuel supply system;
When the nozzle is removed from the nozzle storage unit and returned to the nozzle storage unit without supplying fuel, the information stored in the storage unit is read, and based on the information on the part, the part is immediately before replacement, Or control means for notifying whether or not the replacement time has arrived,
A fuel supply device comprising: The control means includes
When performing an operation of removing the nozzle from the nozzle housing and returning it, a reading unit that reads information according to the amount of each component used in the fuel supply system corresponding to the nozzle from the storage unit;
A determination means for determining whether there is a part immediately before the replacement or a part that has reached the replacement time based on the information read by the reading means;
Notification means for notifying the determination result by the determination means;
The fuel supply device according to claim 1, comprising:   When the time for replacement of the part or the time immediately before replacement has arrived, the notification means confirms that the time immediately before the replacement of the part or the time for replacement has been reached along with the identification information corresponding to the fuel supply system. The fuel supply device according to claim 2, wherein notification is provided.   The notification means includes a character or symbol for identifying a component disposed in the fuel supply system and a timing immediately before the replacement of the component, The fuel supply apparatus according to claim 2 or 3, wherein a character or a symbol indicating that the replacement time has been reached is displayed.

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