JP5434988B2 - Inventory management system - Google Patents

Description

  The present invention relates to an inventory management system that unifies inventory and leakage management of a plurality of gas stations.

  In general, a plurality of underground tanks are buried in a filling station that supplies fuel oil, and fuel oil such as gasoline and light oil is stored in these underground tanks. The workers at the gas station shall specify the amount of fuel in the underground tank at the start and end of work, the amount of fuel supplied from each refueling device, the amount of fuel unloaded from the tank lorry to the underground tank, etc. It is recorded in the record book.

  The present applicant discloses in Patent Document 1 an inventory amount storage means for storing an inventory amount of fuel oil in an underground tank calculated based on a measured value of an oil level meter attached to the underground tank, and an oil level gauge. The amount of fuel collected from the liquefied recovery unit that collects the amount of fuel oil vaporized when the fuel oil received into the underground tank and the amount of fuel oil received into the underground tank are stored. A recovery amount storage means for storing, an oil supply amount storage means for storing the amount of oil supplied from a measuring machine connected to the underground tank, an automatic data summarization means for automatically summing up data stored in each storage means, etc. We proposed a technique for automatically counting books.

JP 2011-149830 A

  The above conventional inventory management system can perform automatic counting of record books and functions effectively. However, it can only perform automatic counting at one gas station, and it can centralize inventory at multiple gas stations. There was a problem that management was impossible.

  Therefore, the present invention has been made in view of the problems in the above-described conventional technology, and provides an inventory management system that unifies inventory and leakage management of a plurality of gas stations such as a group gas station. Objective.

In order to achieve the above object, the present invention is an inventory management system comprising an oil level gauge for measuring a liquid level in a plurality of underground tanks, and the plurality of underground tanks that receive measurement data of the oil level gauge. A liquid amount management device that manages the stock amount of fuel oil stored in the fuel oil, a fuel supply device that manages the cumulative amount of fuel supply, a POS terminal that receives the fuel data from the fuel supply device and manages sales, and A centralized monitoring device that is connected to each of the oil level gauge, the liquid amount management device, the oil supply device, and the POS terminal, and receives and stores data from the centralized monitoring device and stores them in the plurality of underground tanks at a set time And a server for automatically counting the amount of fuel oil to be stored, wherein the server stores information associating a plurality of fuel nozzles provided in the fueling device with the plurality of underground tanks. .

  According to the present invention, in order to automatically aggregate the amount of fuel oil stored in a plurality of underground tanks by a server, inventory management that unifies inventory and leakage management of a plurality of gas stations such as a group gas station. A system can be provided, and a shortage of fuel oil stored in an underground tank can be detected at an early stage, and an early response can be made.

Moreover, to confirm a plurality of oil supply nozzles provided in the fuel supply apparatus by the server, and more and child stores information for associating the underground tanks of several, a plurality of fueling nozzles, a connection relationship between the underground tank In addition, the presence or absence of leakage of fuel oil from the underground tank can be accurately determined.

The said inventory management system WHEREIN: The said server can memorize | store the total amount of oil supply on the use day of the said fueling apparatus for every said fueling nozzle. Thereby, it is possible to notify the replacement time of the consumables provided in the fueling device.

  As described above, according to the present invention, it is possible to provide an inventory management system capable of unifying inventory and leakage management of a plurality of gas stations.

1 is an overall configuration diagram showing an embodiment of an inventory management system according to the present invention. It is a functional block diagram of each apparatus of the inventory management system shown in FIG. It is the schematic for demonstrating operation | movement of the inventory management system shown in FIG. It is a flowchart for demonstrating operation | movement of the inventory management system shown in FIG. It is a diagram for demonstrating operation | movement of the inventory management system shown in FIG. It is a figure which shows the message | telegram transmitted to a server in the inventory management system shown in FIG. It is a whole block diagram which shows the case where the stock management system concerning this invention is utilized for the stock management of the water for emergency and disaster prevention.

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

  FIG. 1 shows an embodiment of an inventory management system 1 according to the present invention. The inventory management system 1 is roughly divided into an oil supply device 10 (10A to 10C) installed in a gas station, and a liquid amount management device. 40 is arranged between each gas station equipment and the POS terminal 60 so that data can be transmitted / received between the gas station equipment and the POS terminal 60 in order to centrally monitor the gas station equipment, the POS terminal 60, and the underground tank 20 (20A to 20C). Is connected to the centralized monitoring apparatus 70 connected to the centralized monitoring apparatus 70, the centralized monitoring server 70 connected to the centralized monitoring apparatus 70 via a network such as the Internet (hereinafter abbreviated as “server”) Support center 90, a headquarters 100 that supervises a plurality of gas stations, and a management device (PC) 110 provided in the gas station equipped with the inventory management system 1.

  As shown in FIGS. 1 and 2, the fueling device 10 is provided with a nozzle switch 12 that detects the unloading of the fueling nozzle and a pulse generator 13 that is provided in a flow meter for counting the amount of fueling in order to supply fuel oil. Based on the signal from the pit leak sensor 14 or the like that detects oil leakage, the oil supply pump 15 and the display 16 are controlled, and the oil supply control device 11 that stores the oil supply information or controls inspection notification etc. Consists of.

  The oil supply control device 11 stores information related to device operation such as the amount of oil obtained by counting the flow rate pulses from the pulse oscillator 13 and the number of times of oil supply obtained by counting the on / off of the nozzle switch 12. It comprises information storage means and an oil supply control program for controlling the oil supply mechanism and the like.

  The liquid amount management device 40 displays an oil level gauge 42 (42A to 42C) that detects the liquid level of the underground tank 20 that stores the fuel oil, a temperature sensor 43 that detects the temperature of the fuel oil, detection data, and the like. And a liquid amount management control device 41 that controls these, stores the specifications, liquid amount, and change amount of the underground tank 20 and performs control for detecting a leakage state.

  The liquid quantity management control device 41 determines whether or not a leak has occurred in the underground tank 20 and time keeping means, stock quantity storage means for storing liquid quantity (stock quantity) data from the oil level gauge 42, and the like. Leakage determination means, notification means for issuing an alarm or the like when the leakage determination means determines that leakage has occurred, display means for displaying and printing various data, and printing means are provided.

  The POS terminal 60 includes a card reader 62 for reading a credit card, a keyboard 63 for data input, a printer 64 for printing a slip, a display 65 for displaying input data, and a POS for controlling these. The control device 61 is configured to receive a refueling request signal from the refueling device 10 and output a refueling permission signal, and perform settlement processing and sales management based on refueling data such as a refueling amount received from the refueling device 10. .

  The POS control device 61 has a POS information storage means for storing information relating to equipment status such as sales data and remaining tank capacity, and a POS control program for controlling each part.

  The centralized monitoring device 70 is connected to a data storage unit for storing data, and lower devices including the oil supply device 10 and the liquid amount management device 40, and is connected to the POS terminal 60 and the server 80 so that data communication is possible. It consists of parts.

  The server 80 includes a communication control unit connected to the centralized monitoring device 70 so as to be able to transmit and receive data, a calendar unit for performing date and date management, a form creation unit for creating a report such as inventory management information, and a fueling device It is composed of a totaling / display unit that totals 10 sales volumes for each oil type and displays each information in a viewable manner.

  Next, an inventory management method by the inventory management system 1 having the above configuration will be described with reference to FIGS.

  FIG. 3 shows an example of a fueling station that is an object of inventory management by the inventory management system 1, and includes two fueling apparatuses 10A and 10B and four underground tanks 20A to 20D.

  The oil supply devices 10A and 10B are each provided with two systems of oil supply equipment, and each system has one nozzle for supplying regular (nozzle 1), high-octane (nozzle 2), and light oil (nozzle 3). Provided one by one.

  The underground tanks 20A and 20B are provided for storing regular gasoline, and these are connected to each other. The underground tanks 20C and 20D are provided for storing high-octane gasoline and light oil, respectively. The oil supply pipes of the underground tanks 20A and 20B are connected to the regular nozzles 1 of the oil supply apparatuses 10A and 10B. Connected to.

  Next, an inventory management method at the gas station will be described with reference to FIG.

  First, in step S 1, data related to “inventory amount” and “integrated value” is transmitted as periodic data to the server 80 (see FIG. 1) via the oil supply device 10, the liquid amount management device 40, and the centralized monitoring device 70. Here, as shown in FIG. 5, “inventory amount” and “integrated value” are aggregated in units of one day at the aggregation time set in the centralized monitoring device 70, such as at the end of the day (for example, 23:00). Data. The “inventory amount” is calculated from the residual oil amount measured by the oil level gauge 42 of each underground tank 20 for each oil type, and the “integrated value” is an integrated value of the oil amount for each oil supply nozzle of each oil supply device 10. Therefore, it is transmitted to the server 80 by a message as shown in FIG. Here, since each of the fueling apparatuses 10A and 10B includes two systems of fueling equipment, four messages are transmitted to the server 80 at the same time.

  Next, in step S2, the server 80 calculates the difference between the integrated value and the previous day's integrated value for each nozzle. In step S3, the “nozzle / tank connection” registered in the server 80 in advance, that is, a fueling device. The four telegram data are linked to the underground tanks 20A to 20D according to the corresponding relationship between the nozzles 1 to 3 of 10A and 10B and the underground tanks 20A to 20D. In step S4, the sales volume for each of the underground tanks 20A to 20D Count as C.

  By calculating the sales quantity C, as shown in FIG. 5, the calculated inventory quantity D = A + B−C can be calculated from the previous day inventory quantity A and the received quantity B from the tank truck.

  Then, in step S5 of FIG. 4, instead of the calculated inventory quantity D, the received quantity B = EA−C is calculated using the actual inventory quantity E calculated by the oil level gauge 42 of each underground tank 20 on that day. Round to the nearest 1 kL.

  Finally, in step S6, the calculated inventory amount D is calculated from D = A + B−C using the calculated B, and the increase / decrease amount F = ED is calculated. Here, if the increase / decrease amount is negative, it means that the increase / decrease amount is in the decrease direction. By monitoring the increase / decrease amount F calculated in this way, it is possible to find out the shortage of the fuel oil stored in the underground tank at an early stage, and to deal with it early.

  From the above, it is possible to perform simple inventory management even at a gas station where the amount B received from the tank lorry cannot be calculated by the oil level gauge 42 of each underground tank 20, and to manage inventory and leakage at a plurality of gas stations. Centralized management can be performed.

  As shown in Table 1, in addition to the above data A to F, the cumulative amount G of the sales amount C, the cumulative amount H of the increase / decrease amount F, and the cumulative increase / decrease rate I (= H / G) are managed as a list. The form was displayed on the server 80, or the form displayed on the server 80 was downloaded by the support center 90, the headquarters 100, and the management apparatus 110 and printed, so that it was conventionally handwritten at a gas station. It can be replaced with a record book, and it can be freed from forgetting to write data and the troublesomeness of tabulation. If there is an abnormality in the stock status, an alarm mail can be transmitted from the server 80 to the support center 90 or the like.

  Further, based on the integrated value on the first day when the inventory management system 1 is introduced, the next consumables notification amount and timing of the hose of the fueling device 10 and other consumables are registered in the gas station basic information of the server 80, and the server 80 Receives the integrated value for the number of nozzles of the fueling device 10 together with the number of the fueling device 10 and updates it in units of one month based on the introduction date of the usage period. For example, the notification amount is 1.5 million L, the period is 36 months As shown in Tables 2 to 4, consumables can be managed.

  Furthermore, the inventory management system 1 can be used not only for inventory management of fuel oil but also for inventory management of emergency and disaster-preserving water.

  Some municipalities usually operate as a part of the drain pipe to allow fresh tap water to flow, and when there is a water outage, the inlet and outlet valves are closed, and a disaster underground water supply tank is installed to secure drinks in the tank. ing. Therefore, as shown in FIG. 7, by managing inventory of emergency and disaster-preserving water in the server 80, emergency water can be delivered from the supply port 20a of the underground tank 20, and emergency life can be achieved. It can be used for water supply planning.

DESCRIPTION OF SYMBOLS 1 Inventory management system 10 (10A-10C) Oil supply apparatus 11 Oil supply control apparatus 12 Nozzle switch 13 Pulse oscillator 14 Pit leak sensor 15 Oil supply pump 16 Indicator 20 (20A-20C) Underground tank 20a Supply port 40 Liquid quantity management apparatus 41 Liquid Quantity management control device 42 (42A to 42C) Oil level gauge 43 Temperature sensor 44 Display device 60 POS terminal 61 POS control device 62 Card reader 63 Keyboard 64 Printer 65 Display device 70 Central monitoring device 80 Central monitoring server 90 Support center 100 Head office 110 Management device

Claims (2)

Oil level gauge that measures the liquid level in multiple underground tanks,
A liquid amount management device that receives measurement data of the oil level gauge and manages an inventory amount of fuel oil stored in the plurality of underground tanks;
A refueling device that manages the accumulated amount of refueling,
A POS terminal that receives the refueling data from the refueling device and manages the sales;
A centralized monitoring device that is connected to each of the oil level gauge, the liquid amount management device, the oil supply device, and the POS terminal, and transmits and receives data;
A server that receives data from the centralized monitoring device and automatically totals the amount of fuel oil stored in the plurality of underground tanks at a set time ;
The server stores information associating a plurality of oil supply nozzles provided in the fuel supply device with the plurality of underground tanks . The inventory management system according to claim 1, wherein the server stores the total amount of oil used on the usage date of the fueling device for each of the fueling nozzles.

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