JP3960682B2 - Liquid fuel consumption management device and liquid fuel supply management system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a liquid fuel supply management system for measuring and managing at least one of the usage amount and remaining amount of liquid fuel stored in a home tank.
[0002]
[Prior art]
One home tank is installed outdoors, for example, in each housing complex equipped with a heater or water heater in each household, or for each road / parking snow melting heating system equipped with a boiler. It is a tank for storing liquid fuel (such as kerosene) of about 500 to 1000 liters, and is also called a main tank. For each home tank, a liquid fuel supplier or the like supplies the liquid fuel (delivery and refueling) using an automobile with a tank or the like.
[0003]
Note that a liquid fuel consumption management device for managing the consumption operation of the liquid fuel stored in the home tank is generally installed between the home tank and the heating equipment in each household in the apartment house. The liquid fuel consumption management device once sucks the liquid fuel in the home tank to a predetermined height (for example, about the second floor of an apartment house) and supplies it to the heating equipment of each household at a position lower than this height. Play the role of supplying. Such a liquid fuel consumption management device generally includes a storage tank that stores liquid fuel, a pump that sucks the liquid fuel into the storage tank, and a liquid level sensor that detects the liquid level of the liquid fuel in the storage tank. And a control unit for controlling the operation of the pump. Based on the detection signal of the float switch, the operation of the pump is controlled so that the liquid level in the storage tank is located within a predetermined range. Further, the liquid fuel device may be provided with a flow meter for detecting the flow rate of the liquid fuel. This type of liquid fuel device is proposed, for example, in Japanese Patent Application No. 9-289631.
[0004]
By the way, when liquid fuel is used (supplied (distribution / fueling), stored, consumed), it is necessary to measure and manage the amount of liquid fuel used and the remaining amount stored in the home tank. . In addition, when the liquid fuel consumer is an apartment house, it is necessary to measure and manage the amount of liquid fuel used in each household.
[0005]
Conventionally, at least one of the usage amount and the remaining amount of liquid fuel stored in a home tank is measured and managed as follows. A liquid fuel supplier visits the installation location of each home tank and investigates the remaining amount in the home tank and the detected value of the flow meter. The patrolman takes the survey results back to the supplier. Based on the survey results brought back, the supplier develops a plan to deliver and refuel liquid fuel to the home tank, and then executes delivery and refueling. That is, conventional liquid fuel metering and management is consistently dependent on human work.
[0006]
More specifically, for example, in light of the actual use of kerosene in Hokkaido and Tohoku, home tanks are mainly 490 liter capacity (generally called 500 liter tanks). Recently, those having a capacity of 1000 liters are also being used.
[0007]
The amount of kerosene used in a general household in a season is about 1500 liters. Therefore, if a vehicle with a tank is used and 300 liters of kerosene is supplied to a home tank for one delivery / refueling, delivery / refueling to a general household is 5 times / season.
[0008]
On the other hand, the amount of kerosene used per year in apartment houses such as apartments is about 1000 liters because the number of rooms per household is small, and about 4000 liters if there are 4 households per building. Then, if 300 liters of kerosene is supplied to the home tank for one delivery / refueling, the delivery / refueling to the apartment house is about 13 times / season. In the case of apartments, a flow meter is installed between the home tank and each household heater (near the entrance of each household) so that it can be seen exactly how much kerosene was used for each household. A kerosene supplier performs meter reading of this meter every month and collects usage fees from each household according to the amount.
[0009]
In the heating system for melting snow on roads and parking lots, it is common to supply kerosene from a 500 liter home tank to the boiler, but the amount of kerosene used (about 15 liters per hour) is used for domestic heating. If you run a boiler for 5 hours a day, much more than machines, etc., you will have to supply kerosene to your home tank at least once every 4-5 days during the season. The reality is that the system goes around every day.
[0010]
As measures for reducing the dependence on the above-mentioned artificial work when using liquid fuel, Japanese Patent Laid-Open Nos. 2-143012 (first conventional example) and JP-A-3-56300 (first) 2), and JP-A-5-149527 (third conventional example).
[0011]
In the first conventional example and the second conventional example, the level switch and the integrating mechanism are combined to detect the remaining amount of liquid fuel in the home tank, and a signal indicating the amount of use is transmitted to the liquid fuel supplier through the telephone line. Kerosene supply management system, home tank remaining amount management system.
[0012]
The third conventional example is a fuel inspection device using a fuel amount detector.
[0013]
[Problems to be solved by the invention]
Since the first conventional example and the second conventional example use level switches, the equipment cost is high, and wiring work and the like are extra.
[0014]
The third conventional example uses only a fuel amount detector, so the equipment cost is low, but the necessity of fuel can be confirmed only from the fuel supplier side, and accurate measurement of the amount used can be performed. There is a disadvantage that it can not.
[0015]
An object of the present invention is to provide a liquid fuel consumption management device and a liquid fuel supply management system that are less dependent on human work, can accurately measure the amount used, and have low equipment costs.
[0016]
[Means for Solving the Problems]
According to the present invention, the following modes (1) to (8) are obtained.
[0017]
(1) Liquid fuel consumption management device for managing the consumption operation of liquid fuel stored in a home tank installed on the side consuming liquid fuel Because The consumption information including at least one of the usage amount and the remaining amount of the liquid fuel is transmitted to the liquid fuel supply side through the information transmission line. The amount of liquid fuel discharged from the home tank is measured using a flow meter, and the consumption amount of liquid fuel is normal by comparing the amount used per time with a criterion. A control unit that controls whether or not liquid fuel is consumed based on the determination result, and if the determination criterion is less than that value, the liquid fuel path from the home tank is clogged or A first threshold value for determining that the flow meter is a first abnormality, and a liquid fuel from the home tank that is greater than the first threshold value and exceeds the first threshold value. And a second threshold value for determining that the fuel is leaking from the second path, and the controller performs the liquid fuel consumption operation in the case of the first abnormality. On the other hand, in the case of the second abnormality, the liquid fuel is consumed. Performs control so as to stop the operation, the first or the during the second abnormality, that effect configured to send immediately to the side for supplying the liquid fuel A liquid fuel consumption management device.
[0019]
( 2 The liquid fuel consumption side configuration includes the home tank and the liquid fuel consumption management device according to the aspect (1), and the liquid fuel supply side configuration includes: The consumption information A liquid fuel supply management system comprising a liquid fuel supply management device for performing a plan for delivery and refueling of liquid fuel and calculating a fee based on
[0020]
( 3 The liquid fuel supply management device transmits a transmission instruction signal for instructing the liquid fuel consumption management device to transmit the consumption information, and the liquid fuel consumption management device receives the transmission instruction signal. The aspect of transmitting the consumption information by 2 ) Liquid fuel supply management system.
[0021]
( 4 The liquid fuel consumption management device transmits the consumption information at predetermined time intervals ( 2 ) Liquid fuel supply management system.
[0022]
( 5 The liquid fuel consumption management device transmits the consumption information for each predetermined liquid fuel circulation amount interval ( 2 ) Liquid fuel supply management system.
[0023]
( 6 The liquid fuel consumption management device transmits the consumption information when a predetermined amount of liquid fuel is reached ( 2 ) Liquid fuel supply management system.
[0024]
( 7 The liquid fuel supply management device transmits the determination criteria, and the liquid fuel consumption management device stores the received determination criteria in a rewritable manner ( 2 ) Liquid fuel supply management system.
[0025]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, a liquid fuel consumption management device and a liquid fuel supply management system according to embodiments of the present invention will be described with reference to the drawings.
[0026]
[Embodiment 1]
Referring to FIG. 1, the liquid fuel supply management system according to the first embodiment of the present invention is an example applied to the fuel usage management of individual households such as apartment houses and the remaining amount management of home tank 10. As a configuration on the fuel consuming side, the home tank 10, the liquid fuel consumption management device, and the modem device 80 are provided. A liquid fuel supply management device 90 that performs a plan for delivery and refueling of liquid fuel and calculation of a charge based on one side is provided. The liquid fuel consumption management device and the liquid fuel supply management device 90 are connected by a telephone line 95 as an information transmission line. The liquid fuel supply management device 90 is configured by using, for example, a personal computer including a storage unit that stores software and data, an input unit such as a keyboard, a display unit such as a display, and a modem device.
[0027]
In the present embodiment, for the sake of simplicity of explanation, the telephone line 95 is a wired and dedicated telephone line. However, in the present invention, a wireless line such as a mobile phone system or PHS is used or each household It is also possible to use a general telephone line to which you are subscribed. At this time, it goes without saying that the modem device 80 is configured according to the type of line.
[0028]
The liquid fuel consumption management device manages the consumption operation of the liquid fuel stored in the home tank 10 installed on the liquid fuel consumption side based on the circulation amount measured by the liquid fuel circulation meter 40. A consumption management device for transmitting liquid fuel consumption information including at least one of the amount of liquid fuel used and the remaining amount to a liquid fuel supply side via a telephone line 95 as an information transmission line It is.
[0029]
More specifically, the liquid fuel consumption management device is installed in each household A, B, and has a plurality of sub-tanks 20a, 20b, which can temporarily store the liquid fuel sent from the main tank 10, respectively. And it is comprised so that liquid fuel can be supplied to each supply destinations (not shown), such as a stove, from the terminal piping 22 provided in each of several sub tank 20a, 20b.
[0030]
.. Between the main tank 10 and the plurality of sub tanks 20a, 20b... Are connected to the main pipe 31 connected to the main tank 10 side and between the main pipe 31 and each of the plurality of sub tanks 20a, 20b. It is connected by sub piping 32a, 32b ....
[0031]
An oval type flow meter 40 for detecting the amount of liquid fuel flowing is provided at a location from the main tank 10 to the upstream side of the sub-pipe 32a connected to the uppermost sub-tank 20a of the main pipe 31. It has been. Electromagnetic valves 50a, 50b,... As sub tank on-off valves are provided at any location from the plurality of sub pipes 32a, 32b, to each of the plurality of sub tanks 20a, 20b,. Each of the plurality of sub tanks 20a, 20b,... Is provided with a liquid level sensor 21 that detects the liquid level in each tank.
[0032]
Electromagnetics as liquid pumping means for forcibly flowing liquid fuel at a predetermined flow rate or higher in any part from the main tank 10 to the upstream side of the sub pipe 32a connected to the sub tank 20a of the main pipe 31. A pump 70 is provided. In addition to the electromagnetic pump, for example, an electric pump composed of a combination of a rotary pump and an electric motor may be used as the liquid pumping means.
[0033]
The apparatus further includes a control / display apparatus that controls the operation of the apparatus including the opening / closing control of the electromagnetic valves 50a, 50b. The control / display device includes electromagnetic valves, sub-control units 62a, 62b,... For converting the input / output signals of the liquid level sensor into signals for a short wire, and sub-control units 62a, 62b for each of the plurality of sub-tanks 20a, 20b. ... and a main controller 61 for controlling the operation of the apparatus including the opening / closing control of the solenoid valves 50a, 50b, ....
[0034]
Although not shown, the main control unit 61 measures a discharge amount of the liquid fuel discharged from the home tank 10 and outputs the measurement result, and determines the measurement result from the flow amount detection unit. And a determination unit that outputs the determination result as consumption information. The main controller 61 is also electrically connected to the modem device 80 and transmits / receives electrical signals to / from the modem device 80.
[0035]
FIG. 2 is a diagram illustrating the main control unit 61 and the like housed in the case 615. Referring to FIG. 2, case 615 includes main control unit 61, LED display unit 611, display changeover switch 612, setting switch 613, oil supply request signal transmission switch 614, flow meter 40, filter 41, and electromagnetic valve 42. , And the electromagnetic pump 70 is accommodated or attached. The case 615 and the components housed or attached thereto are collectively referred to as a centralized meter reading board. The flow meter 40 includes a liquid crystal display unit 40a and a signal output unit 40b.
[0036]
Referring to FIGS. 1 and 2, the control / display device (main control unit 61) performs opening / closing control so that two or more of the electromagnetic valves 50a, 50b,. Further, the liquid level signals from the flow meter 40 and each liquid level sensor 21 are taken in, and the flow amount of the liquid fuel flowing into each of the plurality of sub tanks 20a, 20b,. More specifically, the control / display device is electrically connected to the electromagnetic pump 70, the flow meter 40, the liquid level sensor 21, and the electromagnetic valves 50 a, 50 b, and the energization of the electromagnetic pump 70 and the electromagnetic valve 50. , A function for controlling the stop, and a function for calculating and displaying how much liquid fuel has circulated to each of the plurality of sub-tanks 20a, 20b,... In response to signals from the liquid level sensor 21 and the flow meter 40. Have. In FIG. 1, the alternate long and short dash line indicates a signal line. The flow meter 40 may not be accommodated in the same case 615 as the main control unit 61. Moreover, each solenoid valve 50a, 50b ... may be provided in each of several sub tank 20a, 20b .... Each of the plurality of sub tanks 20a, 20b,... Has a terminal pipe 22 for supplying liquid fuel to a stove or the like of each household, and a manual opening / closing for stopping / opening outflow of liquid fuel from the terminal pipe 22 It has a valve (not shown).
[0037]
On the inflow side of the electromagnetic pump 70 as the pressure feeding means, an electromagnetic valve 42 as an opening / closing valve for the pressure feeding means is provided. As a result, the closing ability of the electromagnetic valves 50a, 50b, serving as the on / off valves for the sub tanks provided on the inflow sides of the sub tanks 20a, 20b, etc. is reduced due to the biting of dust and the like, and there is no reproducibility. Even if many slight leaks occur, the backflow of the liquid fuel from the sub tanks 20a, 20b... Can be prevented if the closing capability of the electromagnetic valve 42 provided on the electromagnetic pump 70 side is normal. That is, it is possible to prevent a problem that the liquid fuel once measured is measured again. The on-off valve for the pressure feeding means may be provided on at least one of the inflow side and the outflow side of the pressure feeding means.
[0038]
3 and 4 are flowcharts for explaining the liquid fuel metering operation by the liquid fuel consumption management apparatus according to the present embodiment. Hereinafter, with reference to FIG. 1 to FIG. 4, the liquid fuel metering operation by the liquid fuel consumption management device will be described. In this description, the sub tank is limited to two sub tanks 20a and 20b in order to simplify the description.
[0039]
First, in step S0, when the oil supply request signal transmission switch 614 is turned from the OFF side to the ON side, the output state of the oil supply request signal for requesting oil supply to the main tank 10 is reset. That is, the fuel supply request signal can be output in step S17 described later. The reset signal is output to the main control unit 61.
[0040]
Step S1 is a control start step. In step S1, the main control unit 61 displays the integrated amount of the liquid fuel distribution amount at that time in the present apparatus displayed by the flow meter 40, that is, the display value of the flow meter 40 before the start of operation. Read as meter display value D1.
[0041]
The subsequent steps S2a to S13a are steps for the sub tank 20a. Although there are steps S2b to S13b for the sub tank 20b, these steps are the same as steps S2a to S13a. S2a-S13a Will be explained.
[0042]
In steps S2a and S2b, the process waits until the reed switch LS1 of the liquid level sensor 21 of either the sub tank 20a or 20b is turned on. When the reed switch LS1 of the sub tank 20a is turned on (step S2a), the process proceeds to step S3a.
[0043]
The main controller 61 turns on the electromagnetic valve 50a in step S3a, turns on the electromagnetic valve 42 and the electromagnetic pump 70 in step S4a, and supplies liquid fuel to the sub tank 20a.
[0044]
In step S5a, the main control unit 61 monitors the reed switch LS2 of the sub tank 20a. When the reed switch LS2 is turned on, the main control unit 61 proceeds to step S6a.
[0045]
The main controller 61 turns off the electromagnetic valve 42 and the electromagnetic pump 70 in step S6a, and then turns off the electromagnetic valve 50a in step S7a.
[0046]
In step S8a, the main control unit 61 reads the meter display value of the flow meter 40, that is, the display value of the flow meter 40 after the stop as the meter display value D2. Further, in step S9a, a single use amount ia of the sub tank 20a is obtained by calculating | display value D1-display value D2 |.
[0047]
The single use amount ia of the sub tank 20a obtained here is when the supply amount (for example, 500 ml / min) of the electromagnetic pump 70 is larger than the consumption (for example, 20 ml / min) of the stove or the like. Is generally regarded as an internal volume from when the reed switch LS1 of the sub tank 20a is turned on to when the reed switch LS2 is turned on. In this embodiment, it is about 300 milliliters.
[0048]
In step S10a, the main control unit 61 determines whether or not the single use amount ia is less than the “first threshold value T1a” (200 milliliters). As a result of the determination, if the single use amount ia is less than 200 milliliters, an abnormal signal E1 is output in step S19 as a system abnormality. When the abnormal signal E1 is output, the fact is displayed on the LED display unit 611, and an alarm sound is generated by a buzzer (not shown). System operation continues. This is because the cause of the small amount of use ia at one time may be a clogging of the piping or a failure of the flow meter 40, and these failures and the like are safe. The abnormal signal E1 can be transmitted to the liquid fuel supply management device 90 of the fuel supply company via the modem device 80 and the telephone line 95. As a result of the determination in step S10a, if the single use amount ia is 200 ml or more, the process proceeds to step S11a.
[0049]
In step S11a, the main control unit 61 determines that the amount of use ia once is “ Second threshold value T2a ”(400 milliliters). As a result of the determination, if the single use amount ia exceeds 400 milliliters, an abnormality signal E2 is output in step S20 as a system abnormality, and the system operation is stopped in step S21. When the abnormal signal E2 is output, this is displayed on the LED display unit 611, and an alarm sound is generated by a buzzer (not shown). The reason why the system is also stopped is that there is a possibility of a dangerous situation such as liquid fuel leakage from the supply pipe. The abnormal signal E2 can also be transmitted to the liquid fuel supply management device 90 of the fuel supply company via the modem device 80 and the telephone line 95. If the result of determination in step S10a is that the single use amount ia is 400 milliliters or less, the process proceeds to step S12a.
[0050]
In step S12a, that is, when the single use amount ia is 200 ml or more and 400 ml or less, the main control unit 61 adds up the use amount ia. In step S13a, the integrated value is displayed as the usage amount of the sub tank 20a by the LED display unit 611 for 5 seconds, for example. However, at this time of explanation, since the steps are passed only once, the used amount ia is equal to the accumulated used amount.
[0051]
Next, in step S14, the main control unit 61 reads the meter display value D4 of the flow meter 40. The meter display value D4 is inevitably the same as either the meter display value D2 or the meter display value D3, but for the convenience of explanation, the meter display value D4 is used.
[0052]
In step S15, the main control unit 61 calculates the total circulation amount iT by calculating | display value D1−display value D4 |. Next, in step S16, the total circulation amount is integrated.
[0053]
In step S <b> 17, the main controller 61 determines that the total circulation amount after the full tank replenishment signal is input in step S <b> 0 is “ Third threshold T3 In step S22, a fuel supply request signal is output in step S22. When the oil supply request signal is output, the fact is displayed on the LED display unit 611, and an alarm sound is generated by a buzzer (not shown). System operation continues. As a result of the determination in step S17, if the total circulation amount is 300 liters or less, the process proceeds to step S18.
[0054]
In step S18, the main control unit 61 determines whether or not there is an abnormality in the flow meter 40 based on a normal operation standard regarding the operation of the flow meter 40 stored in advance. As a result of the determination, if there is an abnormality in the flow meter 40, an abnormality signal E3 is output in step S23. When the abnormality signal E3 is output, the fact is displayed on the LED display unit 611, and an alarm sound is generated by a buzzer (not shown). System operation continues. The abnormality signal E3 can also be transmitted to the liquid fuel supply management device 90 of the fuel supply company via the modem device 80 and the telephone line 95. If the flow meter 40 is normal as a result of the determination in step S18, one cycle of control is terminated, and if necessary, the process returns to step S1 to repeat the control.
[0055]
In this system, the liquid fuel supplier remotely performs initial setting of the liquid fuel consumption management device. The clerk of the supplier makes initial settings by keyboard input or the like while referring to the display screen as shown in FIG. 5 of the liquid fuel supply management device 90, and stores the data (including the judgment reference value) in the consumption management device. It transmits via the telephone line 95. On the other hand, the main control unit 61 that has received the data from the liquid fuel supply management device 90 writes each data in the storage means, and thereafter performs a predetermined operation based on the data.
[0056]
Referring to FIG. 5, the supplier's clerk first inputs the customer name in item 1. In this example, the owner name “Sanden Taro” is entered in the upper row, and the resident name “Taro Yamada”, etc. is entered in the lower row. In the apartment house, the remaining amount of the home tank 10 is managed by the owner name, and the usage amount of each household is managed by the resident name.
[0057]
Next, in item 2, a telephone number is input. Since a dedicated line is used in this example, the general line is blank.
[0058]
In item 3, the capacity of the home tank 10 that is actually used is input as the tank capacity.
[0059]
In item 4, the periodic meter reading date and time can be freely set to the date and time the fuel supplier wants to meter. In this example, it is set to “1:00 am” of “25th of every month”, and when this date and time comes, the circulation amount data is automatically obtained from the determination means in the main control unit 61 installed on the apartment house side. Will be sent.
[0060]
In item 5, the usage amount confirmation interval is for determining how many liters the displayed value (usage amount) of the circulation amount sensor 40 is to be used, and in this example “100 liters”. Set to. Therefore, since data is transmitted at intervals of 100, 200, 300,..., 1000, 1100 liters,..., The consumption speed of the home tank can be grasped if the date and time when the data is transmitted is monitored. . In addition, although the frequency | count of communication increases, so that the usage amount confirmation interval is small, the accuracy of grasping consumption speed improves and it becomes possible to estimate the next oiling date by calculation.
[0061]
In item 6, the replenishment request interval is a set value of how many liters are accumulated after the liquid fuel is replenished to the home tank 10 and a request signal is issued from the liquid fuel consumption management device. In this example, “300 liters” was set.
[0062]
When the data is input so far, the “setting end button” on the screen is pressed, and the “send button” is further pressed, the criteria values of items 4 to 6 are transferred from the liquid fuel supply management device 90 to the telephone line 95 and the modem. The information is transmitted to the determination unit in the main control unit 61 of the liquid fuel consumption management device through the device 80.
[0063]
After the initial setting, the liquid fuel supply management device 90 starts monitoring the liquid fuel consumption management device.
[0064]
It should be noted that immediately after the liquid fuel is supplied to the home tank 10, it is necessary to reset the circulation amount data to zero. Specifically, a reset button or the like is provided in the liquid fuel consumption management device, and the person who delivered and supplied the fuel resets it or resets it remotely from the liquid fuel supply management device 90 via the telephone line 95.
[0065]
FIG. 6 is an example of a monitor screen as of February 3, 1998 in the liquid fuel supply management device 90.
[0066]
Here, the customer name, telephone number, tank capacity (liter), and confirmation interval (liter) are the same as the data set on the initial setting screen shown in FIG. In FIG. 6, the supplementary request interval (liter) is not displayed, but it is easier to understand if it is displayed.
[0067]
The previous month meter value is a meter reading (display value of the flow meter 40) of the previous month (here, December 25, 1997). The liquid fuel supply management device 90 calculates the usage amount of the month from the meter value of the previous month and the reading of the meter value of this month (January 25, 1998). And it charges to Taro Yamada of A household and Ichiro Suzuki of B household according to the usage amount.
[0068]
This month meter value (liter) column is set to display the latest data until data is sent on the 25th of this month. In this example, a refueling request on 2 February is sent. The date of the selected date is displayed.
[0069]
The previous refueling date is a column showing the refueling date to the home tank 10 performed independently of the fee payment and the meter reading when refueling. This value is the starting point for issuing the next replenishment request signal. It becomes.
[0070]
As described above, there are various zero reset methods. Here, when an office worker who has received a notification from the kerosene supply manager inputs a key for the fuel supply date to the liquid fuel supply management device 90, the liquid fuel supply management device 90 A telephone call is automatically made to the liquid fuel consumption management device, and the reading of the meter at that time is transmitted from the main control unit 61 and zero reset is applied. When 300 (liters) is consumed from this point, a replenishment request signal is set. Zero reset means to reset the data used in order to issue a replenishment request signal to zero, and the meter reading (display value of the flow meter 40) itself has a problem in the measurement law. The accumulated value is always displayed.
[0071]
In the column of the number of confirmations (reception date) from the refueling date, five data can be received in this example, and data is displayed every time the display value becomes a multiple of 100 (every confirmation interval) after the last refueling date. And the date are displayed.
[0072]
Therefore, when the refueling date is keyed on January 20, 1998, this field is blank for all five locations.
[0073]
The number-of-confirmation column from the refueling date is for preventing the home tank 10 from becoming empty when the forgetting resetting operation of the refueling date is forgotten. That is, if four or more places in the number of confirmations are filled, it is determined that there has been some mistake, and an action can be taken before the home tank 10 becomes empty. Considering such a purpose, when a 1000 liter tank is used as the home tank, the confirmation interval is preferably about 200 liters.
[0074]
In this example, the number of checks from the date of refueling is indicated by the date and meter value at that time, such as “01.21” (January 21) and “1400 liters”. Needless to say, this will increase the accuracy.
[0075]
If data and date appear in the refueling request date column, it is an alarm that 300 liters have already been consumed since the last refueling, so replenishment should be arranged.
[0076]
[Embodiment 2]
The liquid fuel supply management system according to the second embodiment of the present invention is an example applied to the fuel usage management of a general home and the remaining amount management of the home tank 10, and has a particularly simple configuration.
[0077]
Referring to FIG. 7, the present liquid fuel supply management system has a home tank 10, a liquid fuel consumption management device 65, a flow meter 40, and a modem device 80 as a configuration on the liquid fuel consumption side. In addition, as a configuration on the liquid fuel supply side, the liquid fuel supply management device 90 that performs the liquid fuel delivery and refueling plan and the charge calculation based on at least one of the usage amount and the remaining amount of the liquid fuel is provided. ing. The liquid fuel consumption management device 65 can be connected to the liquid fuel supply management device 90 via the modem device 80 and the telephone line 95. 7 that are the same as or similar to those in the first embodiment are denoted by the same reference numerals as those in FIG. Referring to FIG. 8, the liquid fuel consumption management device 65 includes a circuit board 65a, a transmission interval setting dial 65b, a fuel supply push button 65c, and a meter reading push button 65d.
[0078]
In the present embodiment, since the telephone line 95 is a general household line, basically it is not possible to arbitrarily confirm the distribution amount from the fuel supplier side. However, it can be confirmed by subscribing to a so-called no-linking service.
[0079]
Further, the supplier may subscribe to the toll-free service, and the operator may bear the telephone usage fee.
[0080]
The liquid fuel consumption management device 65 outputs the circulation amount data (integration data of the circulation amount) sent from the circulation meter 40. By depressing the fuel supply push button 65c, the liquid fuel consumption management device 65 calculates the accumulated amount at that time. It outputs as data at the time of refueling, and by depressing the meter reading push button 65d, the integrated amount at that time is outputted as meter reading data. The data output from the liquid fuel consumption management device 65 is input to the modem device 80 and transmitted to the liquid fuel supply management device 90 through the telephone line 95.
[0081]
In this example, the transmission interval setting dial 65b has scales of 0, 50, 100, 150, 200, and 400 (liters), and when the integrated value of the flow meter 40 becomes a multiple of the scale. The liquid fuel consumption management device 65 outputs the integrated amount as data. For example, when the transmission interval is set to “150 liters” with the transmission interval setting dial 65b, data is output every time the integrated amount reaches 150, 300, 450 liters,. When the transmission interval is set to “0 liter” with the transmission interval setting dial 65b, data output is not performed.
[0082]
FIG. 9 is an example of a monitor screen as of February 1, 1998 in the liquid fuel supply management device 90 that monitors the liquid fuel consumption management device 65.
[0083]
In the liquid fuel supply management device 90, the operator of the supplier inputs the customer name, telephone number, and tank capacity by keyboard.
[0084]
For the customer “Hanako Yoshida”, the previous meter value (liter) in this example is “1458.0 liter” on January 25, 1998. This is a call to the user to press the meter reading push button 65d. Or the data obtained by the contractor going directly and pressing the meter reading push button 65d. In order to omit the work of pressing the meter reading push button 65d, the data near the 25th day is used without determining the meter reading date as the 25th day of every month. That is, in this example, the data automatically transmitted from the liquid fuel consumption management device 65 (1400 liters on January 21) is set as the meter value of the previous month (January). Thereby, it is possible to charge a monthly usage fee while omitting the operation of pressing the meter-reading pusher 65d.
[0085]
The previous refueling date data “cumulative amount of 1380.0 liters on January 20, 1998” is data transmitted for the first time when the operator presses the refueling push button 65c when refueling in a car with a tank. If the operation of pressing the button 65c is troublesome, the operator may contact the operator with a mobile phone or the like at that time or after the event, and the operator may input the refueling date from the keyboard. However, since the integrated amount at the time of refueling is unknown from the input from the keyboard, an error is likely to occur in the calculation of the refueling designated date described below.
[0086]
The tank filling rate (%) is a measure of how much kerosene is in the tank, assuming that the full tank is 100% at the time of refueling. % ". However, at the end of the season, you don't want to leave kerosene in the tank for the summer, so if you only supplied half of the kerosene to the tank, get the number from the keyboard in response to a contact from the refueling staff. Change to "50%" by input. Accordingly, for example, as the home tank 10, it is considered that a 500 liter tank has temporarily become a 250 liter tank, so that the calculation method of the oil supply designation date is automatically changed.
[0087]
The column of the number of confirmations from the refueling date is a column for displaying data automatically transmitted from the liquid fuel consumption management device 65 at a predetermined transmission interval (liter). In this example, the 0th cell to the 10th cell are displayed. Up to 11 squares are provided. The 0th square shows the date and the integrated value received immediately before the last refueling date. When the keyboard is entered by communication without relying on the data obtained by pressing the refueling push button 65c, the designated refueling date is displayed. Used in calculations to determine. Furthermore, there is no state change at the time of the first mass “January 21, 1400 liters”. At the time of “January 26, 1500 liters”, the second mass is determined by the liquid fuel supply management device 90 based on the tank capacity (500 liters) and the transmission interval (100 = (1500-1400) liters). The first cell to the fifth cell are displayed in reverse video, and when the data is transmitted up to the fifth cell with the tank capacity and the transmission interval, it is notified that the home tank 10 becomes empty.
[0088]
At the same time, the data transmission interval of the first cell and the second cell and the previous refueling date are calculated and the refueling designated date is displayed. Here, when the refueling time is set (how much the remaining amount of the tank will be) can be done in the initial setting of another screen, but in this example up to 60% of the tank capacity The time when kerosene is used is the designated date for refueling. The calculation method in this example is the calculation of the daily usage from the date of the first mass and the second mass, 100 liters / 5 days = 20 liters / day, and when the full tank is 500 liters, 60% (300 liters) Since it takes 300/20 = 15 days to consume, if the refueling date is January 20, February 4 will be the refueling designated date. Next, when data is transmitted on January 31, the calculation is repeated from the date data of the first cell and the third cell, and the refueling designated date is updated (the calculation result is the same in this example). In this way, if the previous refueling date and the tank filling rate at that time are known, the next refueling date (designated refueling date) can be calculated from the integrated amount data automatically transmitted.
[0089]
Here, the operation of the customer “Keda Udagawa” when the tank filling rate is 80% will be described. The transmission interval from the first cell and the second cell is 50 liters, and if the filling rate is 100%, the frame is inverted to the 10th cell, but since the filling rate is 80%, the frame is inverted to the 8th cell. At this point, the tank capacity is considered to be 400 (liters). Therefore, the calculation date of the refueling instruction is also the date when 400 liters x 60% = 240 liters are consumed, and 250 liters / 6 days are calculated as 4.1 liters / day, 240 / Since it is 4.1-6 days and the refueling date is January 25, the refueling designated date is January 31, and as of February 1, the refueling designated date has passed, and it is necessary to refuel quickly is there. However, in this example, the refueling time is shown as when the remaining amount of the same tank is 60% of that at the time of refueling. However, if this number can be set individually on a separate screen, The accuracy of the remaining amount management is improved.
[0090]
In both Embodiments 1 and 2 described above, when trouble such as a flow meter abnormality (battery exhaustion, etc.) or a system abnormality occurs on the liquid fuel consumption management device side, information to that effect is supplied to the liquid fuel It can be configured to transmit to the management device side.
[0091]
In addition, when data is transmitted, if the line is in use (busy), it can be configured to perform retransmission every predetermined time.
[0092]
In addition, as an information transmission line used in the present invention, a telephone line is taken as an example, but it can also be transmitted via the Internet. However, in order to prevent leakage and falsification of personal information (especially billing information etc.) and mixing of viruses into the system, it is necessary to encrypt data.
[0093]
【The invention's effect】
In the liquid fuel supply management system according to the present invention, the liquid fuel consumption management device supplies liquid fuel consumption information including at least one of the usage amount and the remaining amount of the liquid fuel via the information transmission line. Therefore, the dependence on human work is low, the usage amount can be accurately measured, and the equipment cost is low. That is, according to the present invention, the following effects 1 to 6 are obtained.
[0094]
1. The fuel supplier can confirm the amount of liquid fuel discharged from the home tank at any time, and can arbitrarily grasp the fuel consumption.
[0095]
2. Consumption information can be acquired on a preset date without making a telephone call from the fuel supplier.
[0096]
3. Consumption information can be acquired at a preset consumption interval without making a telephone call from the fuel supplier, making it easy to plan liquid fuel delivery and refueling. It can also be used as substitute data for cyclic meter reading of usage.
[0097]
4). If the supplier can reset the home tank to zero through the telephone line, a fuel request signal is automatically transmitted before the home tank is empty, thereby preventing the home tank from running out of fuel.
[0098]
5). Each setting can be used together or properly.
[0099]
6). Since the determination reference value can be changed from the fuel supplier side, it is possible to manage the timing and frequency of information transmission due to differences in the fuel consumption speed and the size of the home tank, etc., by transmitting and receiving the minimum necessary information.
[Brief description of the drawings]
FIG. 1 is a diagram showing a configuration of a liquid fuel expense management device and a liquid fuel supply management system according to Embodiment 1 of the present invention.
FIG. 2 is a diagram showing a detailed configuration of the apparatus shown in FIG. 1;
FIG. 3 is a flowchart for explaining the operation of the liquid fuel expense management device and the liquid fuel supply management system according to the first embodiment of the present invention.
FIG. 4 is a flowchart following the flowchart shown in FIG. 4;
FIG. 5 is a diagram for explaining the operation of the liquid fuel supply management system according to the first embodiment of the present invention.
FIG. 6 is a table for explaining the operation of the liquid fuel supply management system according to the first embodiment of the present invention.
FIG. 7 is a diagram showing a configuration of a liquid fuel expense management device and a liquid fuel supply management system according to Embodiment 2 of the present invention.
8 is a diagram showing a detailed configuration of the apparatus shown in FIG. 7;
FIG. 9 is a table for explaining the operation of the liquid fuel supply management system according to the second embodiment of the present invention.
[Explanation of symbols]
10 Home tank
21 Liquid level sensor
40 Distribution meter
61 Main controller
65 Liquid fuel consumption management device
80 Modem device
90 Liquid fuel supply management device
95 Telephone line

Claims (7)

The liquid fuel consumption management device for managing the consumption operation of the liquid fuel stored in the installed home tank on the side that consumes the liquid fuel,
It is configured to transmit consumption information including at least one of the usage amount and the remaining amount of the liquid fuel to the liquid fuel supply side via the information transmission line ,
Whether the liquid fuel discharged from the home tank is used per meter using a flow meter, and whether the consumption operation of the liquid fuel is normal by comparing the amount used per time with a criterion. It has a control part which judges whether it is abnormal and controls consumption operation of liquid fuel based on a judgment result, and if it is less than the value as the judgment standard, clogging of the path of liquid fuel from the home tank or the circulation A first threshold value for determining a first abnormality that is a failure of the meter, and a liquid fuel from the home tank that is greater than the first threshold value and exceeds the first threshold value. A second threshold value for determining a second abnormality that is a fuel leak from the path is set, and the control unit continues the liquid fuel consumption operation in the case of the first abnormality. On the other hand, in the case of the second abnormality, the consumption of liquid fuel It performs a control so as to stop the work,
In the case of the first or second abnormality, the liquid fuel consumption management device is configured to immediately transmit the fact to the liquid fuel supply side . The liquid fuel consumption side configuration includes the home tank and the liquid fuel consumption management device according to claim 1, and the liquid fuel supply side configuration includes the liquid fuel based on the consumption information . A liquid fuel supply management system comprising a liquid fuel supply management device that performs delivery / fuel supply planning and charge calculation. The liquid fuel supply management device transmits a transmission instruction signal for instructing the liquid fuel consumption management device to transmit the consumption information, and the liquid fuel consumption management device receives the transmission instruction signal. The liquid fuel supply management system according to claim 2 , wherein the consumption information is transmitted. The liquid fuel supply management system according to claim 2 , wherein the liquid fuel consumption management device transmits the consumption information at predetermined time intervals. 3. The liquid fuel supply management system according to claim 2 , wherein the liquid fuel consumption management device transmits the consumption information at predetermined liquid fuel circulation amount intervals. The liquid fuel supply management system according to claim 2 , wherein the liquid fuel consumption management device transmits the consumption information when a predetermined integrated amount of liquid fuel is reached. 3. The liquid fuel supply management system according to claim 2 , wherein the liquid fuel supply management device transmits the determination criterion, and the liquid fuel consumption management device stores the received determination criterion in a rewritable manner.

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