JP3525404B2 - LP gas remaining amount management device in LP gas supply system - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an LP gas residual quantity management device in an LP gas supply system, and more particularly to a gas pressure regulator with an automatic switching function, which connects a supply side container and a supply side container. LP used to supply LP gas
The present invention relates to an LP gas residual quantity management device for detecting and managing a residual gas quantity in an LP gas container in a gas supply system.

[0002]

2. Description of the Related Art Generally, an LP gas supply system is constructed as shown in FIG. In the figure, two containers 1 _1, 1 ₂ are connected to a gas pressure regulator 2 with automatic switching function, the gas from the gas pressure regulator 2 one container through 1 ₁ or 1 ₂ is derived. The gas derived from the gas container is supplied to the gas meter 4 through the gas pipe 3 on the primary side (upstream side), and from there to the gas combustor 6 at the end through the gas pipe 5 on the secondary side (downstream side). To be done. Note that 3a and 5a are gas plugs provided in the gas pipes 3 and 5, respectively.

The [0003] above, the gas discharged from the gas pressure regulator 2 of one container selected by the switching function 1 ₁ or 1 ₂ is supplied to the gas meter 4 through the gas pipe 3, further gas combustion through the gas pipe 5 Is supplied to the burner 6 and consumed by the gas combustor.

Then, by the switching function of the gas pressure regulator 2,
One selected container, eg 1₁ (Supply side
Gas consumption of the container) progresses and the remaining amount of gas decreases,
Container 1 ₁ The internal pressure of is low and is necessary in the gas combustor 6.
It becomes impossible to supply a gas at a proper pressure. Therefore,
In the gas pressure regulator 2 with automatic switching function, the automatic switching
Depending on the function, the other container 1₂ (Replenishment side container) is connected
Open the inlet to automatically introduce gas and run out of gas.
Can reliably supply the gas at the required pressure without causing
It is like this.

Further, the automatic switching function with the gas pressure regulator 2, to perform a display indicating that it has started the supply in accordance with the automatic switching of the container, the gas remaining in the supply side container 1 ₁ is almost There are things that let me know when it's gone. This allows the user who viewed this display to contact by telephone to that effect to the shipper, delivery company container 1 ₂ of the supplying-side with replacing the container 1 ₁ and a new container switched manually supply by a new container 1 ₁ is to be connected to the supplying-side.

In addition, in the LP gas supply system as shown in the figure, generally, a flow rate sensor (not shown) that generates a flow rate signal each time the gas meter 4 supplies a constant flow rate of gas, and a gas usage amount based on the flow rate signal. An integrating means (not shown) for integrating is provided, and the transmission device 7 notifies the information center 9 of the integrated value of the integrating means at a predetermined date and time through the telephone line 8 or the like. Further, there are a type in which both the flow rate sensor and the integrating means are built in the gas meter, and a type in which only the flow rate sensor is built in the gas meter and the integrating means is provided on the transmission device 7 side.

[0007] However, by the display, is one which is adapted to contact to that effect to the delivery skilled in the art from the user know that the gas level of the supply-side container 1 ₁ is almost lost, or Misokona' the display, or display saw If he forgets to contact him, he may fail to replace the container and, in the worst case, may run out of gas.

Therefore, a gas pressure regulator 2 having an automatic switching function, which has a transmission function, is adopted, and the gas meter 4 manages the amount of gas remaining in the container to detect an information sensor when a warning level is reached. There is also a system in which an LP gas residual amount management device is provided so as to notify that fact and prevent damage to the container replacement.

The gas pressure regulator 2 having the transmitting function is turned on when the gas remaining amount in the supply side container 1 ₁ is almost exhausted and the gas supply from the replenishment side container 1 ₂ is started, and the container 1 ₁ is opened. originating switch (not shown) is turned off when switched manually to the supply side is provided a supplying-side of the container 1 ₂ together be replaced with a new container.

By connecting this transmission switch to the LP gas remaining amount management device in the gas meter 4,
The P gas remaining amount management device calls the transmission device 7 in response to the input of the ON signal and causes the information center 9 to perform a notification process via the telephone line L, but with a switching function after the container replacement work. When an off signal of a transmission switch (not shown) is input by the switching operation of the gas pressure regulator 2, no call is made and no information center 9 is notified.

By the way, the LP gas remaining amount control device generally has a structure as shown in FIG.
The flow rate integration unit 4b integrates the flow rate of the gas supplied from the LP gas container based on the flow rate signal from the flow rate sensor 4a therein, and also causes the remaining amount management counter 4c to count up. The count value of the remaining amount management counter 4c is compared with the remaining amount warning level set by the warning level setting unit 4e in the comparison processing unit 4d, and when the count value ≧ the warning level, the comparison processing unit 4d performs the call processing. The section 4f is caused to perform the call processing of the remaining amount warning.

The remaining amount management counter 4c is used for container replacement.
Container change switch 4 that is performed following the switching operation after work
According to the operation of g, the predetermined value is set by the counter setting unit 4h.
It is set, and the remaining amount management function after the container replacement
The remaining amount of the container after replacement is managed by the count value of Unta 4c
When the remaining amount of the container reaches the warning level or higher,
The information center 9 is notified that this notification will be sent at the next container replacement time.
It will be a guide. In addition, 21 is a gas pressure adjustment with a transmission function
It is a switch for transmission in the container 2 and the container 1 on the supply side ₂ from
Turns on when gas supply starts, and switches manually
Turn off.

[0013]

However, the container replacement switch 4 to be performed following the switching operation after the container replacement work.
When the operation of g is forgotten, it becomes impossible to accurately manage the remaining amount thereafter.

As shown by the dotted line in FIG. 8, this is achieved by connecting a transmission switch (not shown) in the gas pressure regulator 2 with a transmission function to the transmission device 7 and changing the container during the container replacement work. Even if the user forgets to operate 47, the transmission device 7 detects an off signal for automatic switching and notifies the information center 9 of that fact, whereby the operator of the information center 9 forcibly manages the remaining amount from the information center 9 side. This can be solved by resetting the counter 4c. However, in this case, the involvement of the operator on the information center 9 side is essential, which is not preferable in operation.

Therefore, the present invention has been made in view of the above problems.
To provide an LP gas residual amount management device in an LP gas supply system capable of normally performing residual amount management even if a container exchange switch operation, which should be performed in connection with a switching operation at the time of container exchange work, is forgotten. It is an issue.

[0016]

In order to solve the above-mentioned problems, the LP gas residual quantity management device in the LP gas supply system according to the present invention, which is made according to the present invention, has a structure as shown in the basic configuration diagram of FIG. It is provided in the gas pressure regulator 2 with an automatic switching function, and is turned on when the amount of remaining gas in the supply side container 1 ₁ is low and gas supply from the supply side container 1 ₂ starts, and the supply side container is connected to the supply side. A transmission switch 21 that is turned off by a manual switching operation, a flow rate sensor 4a that generates a flow rate pulse for each predetermined gas flow rate supplied from the container via the gas pressure regulator, and a flow rate generated by the flow rate sensor. Remaining amount management means 44 for controlling the remaining amount of gas in the container by a numerical value that reflects the remaining amount of gas obtained based on the pulse.
a-1 and the numerical value managed by the residual quantity managing means are compared with a predetermined residual quantity management value, and when the numerical value reaches the residual quantity management value as a result of the comparison, a warning signal to that effect is issued. After the warning signal generating means 44b-1 to be generated and the manual switching operation,
A container exchange switch 4g which is operated when the old supply side container is replaced with a new container and sets the numerical value managed by the remaining amount management means to an initial value, and within a first predetermined time after the transmission switch is turned off. And a remaining amount management assisting means 44b-2 for making the numerical value managed by the remaining amount managing means an initial value when the container exchange switch is not operated.

With the above structure, the transmission switch 21 provided in the gas pressure regulator 2 having the automatic switching function causes the supply side container 1 ₁ to have a small amount of remaining gas and supply gas from the supply side container 1 _2. When you start to turn on, the supply side container 1 ₂ off by manual switching operation to supply. Flow rate sensor 4
a is, the container 1 _1, to generate a flow rate pulse 1 ₂ from each predetermined flow rate of the gas supplied through the gas pressure regulator 2.

The remaining amount managing means 44a-1 is used by the flow rate sensor 4
The remaining gas amount in the containers 1 ₁ and 1 ₂ is controlled by a numerical value that reflects the remaining gas amount obtained based on the flow rate pulse generated by a. The warning signal generation means 44b-1 is the remaining amount management means 44.
The numerical value managed by a-1 is compared with a predetermined remaining amount management value, and when the numerical value reaches the remaining amount management value as a result of the comparison, a warning signal to that effect is generated. Container replacement switch 4g when old container on the supply side is replaced with new container after manual switching operation
Is operated, the numerical value managed by the remaining amount management means 44a-1 is set to the initial value. First from the turning off of the transmission switch 21
When the container exchange switch 4g is not operated within a predetermined time of, the remaining amount management assisting means 44b-2 becomes the remaining amount managing means 44a.
The value managed by -1 is set to the initial value.

Therefore, even if the replacement worker forgets to operate the container replacement switch 4g when the old supply side container is replaced with a new container, the replacement worker manually switches the supply side container 1 ₂ to the supply side. After a certain time has elapsed since the transmission switch 21 was turned off by performing the above procedure, the remaining amount management means 44a-
By setting the numerical value controlled by 1 to the initial value, it can be considered that the container replacement work has been performed without operating the container replacement switch 4g, and the remaining amount management can be newly started from this point.

The LP gas residual quantity management device in the LP gas supply system according to claim 2 is the LP gas residual quantity management device in the LP gas supply system according to claim 1,
That the gas supply from the supply side container has started in response to the turning on of the transmission switch, that the numerical value has reached the remaining amount management value in response to the warning signal generated by the warning signal generating means, And a calling means 44b-3 for making a call for notifying that the container has been replaced in response to the operation of the container replacement switch, and the remaining amount management assisting means includes the calling switch. When the container exchange switch is not operated within a first predetermined time from the turning off of, the calling means is caused to make a call for notifying that the container has been exchanged.

With the above construction, the following operation is performed in addition to the operation of the first aspect of the invention. The calling means 44b-3 is
That gas supply is started from the supply side container 1 ₂ according to the on outgoing switch 21, a warning signal generation means 44b
A call is issued to notify that the numerical value has reached the remaining amount management value according to the warning signal generated by -1, and that the container has been replaced according to the operation of the container replacement switch 4g. . In addition, when the remaining amount management assisting means 44b-2 does not operate the container exchange switch 4g within the first predetermined time after the transmission switch 21 is turned off, the calling means 44b-3.
Since a call is issued to notify that the container has been replaced, it is possible to notify that the container has been replaced without operating the container replacement switch 4g.

The LP gas residual quantity management device in the LP gas supply system according to claim 3 is the LP gas residual quantity management device in the LP gas supply system according to claim 2,
It is characterized by further comprising a data sending means 44b-4 for generating and sending data which is a calling factor in response to a data request received subsequent to the calling by the calling means.

With the above construction, the following operation is performed in addition to the operation of the present invention. Data sending means 44b-
4 generates and sends the data that is the calling factor in response to the data request received subsequent to the calling by the calling means 44b-3, the gas from the replenishing side container is received at the destination of this data. It is possible to know that the supply has started, that the numerical value has reached the residual amount management value, and that the container has been replaced.

The LP gas residual quantity management device in the LP gas supply system according to claim 4 is the LP gas residual quantity management device in the LP gas supply system according to claim 3,
A gas flow rate integrating means 44a-2 for integrating the flow rate of the gas supplied from the container via the gas pressure regulator based on the flow rate pulse generated by the flow rate sensor is further provided, and the calling means determines in advance. When the meter reading date and time arrives, a call is made to report the integrated gas flow rate accumulated by the gas flow rate integrating means, and the data sending means receives a data request following the call by the calling means. The integrated gas flow rate data is generated and sent according to

With the above construction, the following operation is performed in addition to the operation of the third aspect of the invention. Gas flow rate integrating means 44a
-2 integrates the gas flow rates supplied from the containers 1 ₁ and 12 via the gas pressure regulator ₂ based on the flow rate pulse generated by the flow rate sensor 4a. When the calling means 44b-3 reaches the predetermined meter reading date and time, the gas flow rate integrating means 44a.
-2, a call is made to notify the integrated gas flow rate that is being accumulated, and the data sending means 44b-4 is a calling means 44b-.
The cumulative gas flow rate data is generated and transmitted in response to the data request received following the call made by No. 3, so the receiver of this data knows the cumulative gas flow rate and uses the gas based on the difference from the previous cumulative gas flow rate. You can know the quantity.

The LP gas residual quantity management device in the LP gas supply system according to claim 5 is the LP gas residual quantity management device in the LP gas supply system according to any one of claims 2 to 4, wherein the residual quantity management assistance is provided. When the means causes the calling means to make a call for notifying that the container has been replaced, the calling in response to the operation of the container exchange switch within a second predetermined time from the call. It is characterized in that it further comprises call prohibiting means 44b-5 for prohibiting the call by the calling means.

With the above construction, the following operation is performed in addition to the operation of the invention according to any one of claims 2 to 4. When the remaining amount management assisting means 44b-2 causes the calling means 44b-3 to make a call for notifying that the container has been replaced,
The call origination prohibiting means 44b-5 responds to the operation of the container exchange switch 4g within the second predetermined time from the call origination.
Since the calling by b-3 is prohibited, the container exchange switch 4
Even if the container replacement operator operates the container replacement switch 4g after noticing that he / she has forgotten to operate g, if this operation is performed within the second predetermined time, the same notification regarding container replacement is issued twice. You can prevent doing it.

The LP gas residual quantity management device in the LP gas supply system according to claim 6 is the LP gas residual quantity management device in the LP gas supply system according to any one of claims 1 to 5. Is composed of a residual quantity management counter for counting up the flow rate pulse generated by the flow rate sensor, and the residual quantity of gas in the container is managed by the count value of the residual quantity management counter.

With the above structure, the following operation is performed in addition to the operation of the invention according to any one of claims 1 to 5. Since the remaining amount management means 44a-1 is from the remaining amount management counter for counting up the generated flow pulses of the flow rate sensor 4a, manages the vessel 1 _1, 1 ₂ of the gas level by the count value, the remaining amount management counter By clearing the count value of, the numerical value managed by the remaining amount management means 44a-1 can be set to the initial value.

According to a seventh aspect of the present invention, there is provided an LP gas residual quantity control device for use in the LP gas supply system according to any one of the first to sixth aspects of the present invention. A flow rate pulse is generated for each predetermined gas flow rate in accordance with the metering operation of the membrane type metering unit 41 for metering the amount of gas supplied from the container via the gas pressure regulator.

With the above structure, the following operation is performed in addition to the operation of the invention according to any one of claims 1 to 6. Depending on the measurement operation of the film metering unit 41 flow rate sensor 4a is weighed container 1 _1, 1 ₂ the amount of gas supplied via the gas pressure regulator 2 from so generates a flow pulse every predetermined gas flow rate The LP gas remaining amount management device may be incorporated in the membrane gas meter.

[0032]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the drawings. FIG. 2 is a circuit configuration diagram showing an embodiment of the LP gas remaining amount management apparatus in the LP gas supply system according to the present invention. In the figure, parts equivalent to those described above with reference to FIGS. The same reference numerals are attached.

[0033] In the figure, 2 is a gas pressure regulator with automatic switching function having a transmission function of supply side containers 1 ₁ and the supplying-side container 1 ₂ is connected, the gas remaining in the supply side container 1 ₁ is almost It turned on when the gas supply is started from the supply side container 1 ₂ gone by originating switch 21 to turn off is provided a container of the supply side when switched manually to the supply side as well as replacing the container with a new container There is. Reference numeral 4 denotes a gas meter for measuring the flow rate of the gas whose pressure is adjusted by the gas pressure adjuster 2 and supplied to the gas combustor 6 through the gas pipes 3 and 5, and a membrane type measuring section 41 for measuring the gas flow rate, and the measuring section. A flow rate sensor 4a that generates one pulse signal as a flow rate signal in accordance with the measurement of a predetermined flow rate at 41, and an electromagnetic shutoff valve 42 that shuts off the gas supply path when a gas shutoff factor such as an abnormal flowrate occurs To do. On the surface of the gas meter 4,
A container exchange switch 4g that is turned on subsequent to the switching operation after the container exchange work is provided.

The gas meter 4 also contains a microcomputer (μCOM) 44 in which the transmission switch 21 of the gas pressure regulator 2 and the flow rate sensor 4a are connected via an interface (I / F) circuit 43. ing.
The gas meter 4 is further provided with a calendar and a clock 45 for generating date and time information, and a container exchange switch 4g which is turned on after the switching operation at the time of container exchange, and these are also connected to the μCOM 44. The interface (I / F) circuit 43 also exchanges data with the transmission device 7, and the transmission device 7 exchanges information with the information center 9 through the telephone line 8.

The μCOM 44 is a ROM 44a for storing various processing programs and data, a central processing unit (CPU) 44b for performing processing in accordance with the programs stored in the ROM 44a, and a RAM 44c for storing data such as results of processing by the CPU 44b. Have and.

The CPU 44b, which performs processing according to the program stored in the ROM 44a, performs flow rate monitoring processing, flow rate integration processing, meter reading value notification processing, automatic switching determination processing, remaining amount management processing, call origination processing, and the like.

The flow rate monitoring process is for detecting an abnormality in the gas flow. In this processing, the period of the pulse signal from the flow rate sensor 4a is measured to obtain the flow rate per unit time, and based on the obtained flow rate, whether the flow rate is abnormally large, the flow rate is set to 0 for a predetermined period. It is judged according to a predetermined judgment criterion such as whether or not Abnormalities such as gas spouting and minute gas leakage are determined, and if there is an abnormality, the fact is transmitted to the transmission device 7 and the transmission device 7 is notified to the information center 9 via the telephone line 8. In addition, the electromagnetic shutoff valve 42 shuts off the gas supply path.

The flow rate integrating process and the meter reading value reporting process are for automatic meter reading for reporting the gas usage amount. In this process, the pulse signal from the flow rate sensor 41a is counted, the integrated value of the gas usage amount is obtained from this count value, and this integrated value is sent to the transmission device 7 at a predetermined day and time, and the transmission device 7 Is a process for causing the information center 9 to make a notification as a meter reading value via the telephone line 8.

In the automatic switching determination process, the state of the transmission switch 21 provided in the gas pressure regulator 2 having an automatic switching function is monitored, and when the switch is turned on, the remaining amount of gas in the supply side container is almost exhausted and the supply side container is depleted. Is a process of determining that the supply of gas from is started, the container is exchanged with a new container by turning it off, and the supply side container is manually switched to the supply side.

The remaining amount management processing is performed by turning on the container replacement switch 46 after the container is replaced with a new container and the replenishment side container is manually switched to the supply side, or the replenishment side container is manually changed to the supply side. When the container exchange switch 46 is not turned on even after a lapse of a certain time after switching, the remaining amount management counter, which is reset, counts the pulse signal from the flow rate sensor 41a, and this count value is predetermined. This is a process of determining whether or not the warning level has been reached, and if the warning level has been reached, the information center 9 is notified via the transmission device 7 to that effect.

The calling process is a calling process for transmitting the fact to the transmission device 7 when a factor causing the transmission device 7 to notify the information center 9 occurs in the various processes described above. When a call is made, the transmission device 7 sends a data request signal to the CPU 44b of the gas meter 4, and in response to this, the CPU 44b sends the data that is the calling factor to the transmission device 7. This is a process of transmitting data from the transmission device 7 to the information center 9 through the telephone line 8.

In the program ROM of the ROM 44a in the μCOM 44 described above, in order for the CPU 44b to perform the various processing operations described above, the meter reading notification date and time necessary for the meter reading value notification processing, and the remaining capacity necessary for the remaining amount management processing. Various data such as volume control warning level are set, and an integrated flow rate counter that integrates the gas usage amount, a remaining amount for counting the gas usage amount after container replacement and managing the remaining gas amount in the container A management counter and the like are formed.

Moreover, in the RAM 44c in the μCOM 44, various flag areas are formed in the work area used when the CPU 44b performs the various processes described above. Although not shown, in the memory of the transmission device 7, setting data necessary for reporting to the information center 9, for example, customer code (ID), report destination (information center) telephone number, telephone Method (dial type,
Push button type) is stored.

Further, communication between the gas meter 4 and the transmission device 7 and between the transmission device 7 and the information center 9 are performed in a predetermined telegram type.

The details of the operation of the LP gas remaining amount management device in the LP gas supply system outlined above will be described with reference to the CPU 4
4b will be described below with reference to the flowcharts of FIGS. 3 to 7 showing the processing performed according to a predetermined control program.

The CPU 44b starts its operation when the power is turned on, and in the first step S1, the RAM 44b
Initialization processing such as resetting various flags formed in the work area in c and clearing various counters formed in the program ROM of the ROM 44a is performed.
Then, in step S2, the flow rate pulse signal generated by the flow rate sensor 4a is input. In this input process, specifically, μCOM is input for each input of the flow rate pulse signal.
The flow rate pulse counter formed in a predetermined area of the RAM 44c in 44 is counted up. Then step S3
Then, the routine proceeds to step 3 to perform a meter reading processing routine (details will be described later). In the next step S4, a remaining amount warning processing routine (details will be described later) is performed, and then the process proceeds to step S5 to perform a container replacement processing routine (details described later) before proceeding to step S6. In step S6, other processes are performed, and then the process proceeds to step S7 to perform a call transmission process (details will be described later), and then the process returns to step S1 to repeat the above process.

In the meter reading processing routine of step S3, as shown in the flowchart of FIG. 4, in the first step S3a, it is determined whether the count value of the flow rate pulse counter counted up in step S2 is equal to a predetermined value. judge. When the determination in step S3a is NO, the process proceeds to step S4, and when the determination is YES, the process proceeds to step S3b and the ROM4
The count values of the integrated flow rate counter and the remaining amount management counter in 4a are incremented and the count value of the flow rate pulse counter is cleared. And step S3
Proceeding to step c, by comparing the date and time information of the calendar and the clock 45 with the meter reading reporting date and time in the setting data, it is determined whether or not the reporting date and time is reached. If the determination is NO, the procedure proceeds to step S4 and the determination is made. If YES, the process proceeds to step S3d to set the meter reading flag, and then proceeds to the next step S4.

In the remaining amount warning processing routine of step S4, as shown in the flowchart of FIG. 5, it is determined whether or not the remaining amount warning level 1 flag is set in the first step S4a. This step S4a
If the determination is YES, the process proceeds to step S4d, and if the determination is NO, the process proceeds to step S4b to determine whether the counter value of the remaining amount management counter is equal to or greater than the remaining amount warning level 1. When the determination in step S4b is NO, the process proceeds to step S4d, while in step S4b.
When the determination in 4b is YES, the process proceeds to step S4c to set the flag of the remaining amount warning level 1 and the calling flag, and then to step S4d.

In step S4d described above, it is determined whether or not the remaining amount warning level 2 flag is set.
If the determination in step S4d is YES, the process proceeds to step S4g, and if the determination is NO, step S4d.
In step e, it is determined whether the counter value of the remaining amount management counter is greater than or equal to the value of the remaining amount warning level 2. When the determination in step S4e is NO, the process proceeds to step S4g, whereas when the determination in step S4e is YES, the process proceeds to step S4f to set the remaining amount warning level 2 flag and the calling flag. Step S
Go to 4g.

In step S4g, it is determined whether the remaining amount warning level 3 flag is set. If the determination in step S4g is YES, the process proceeds to step S5, and if the determination is NO, the process proceeds to step S4h to determine whether the counter value of the remaining amount management counter is equal to or greater than the remaining amount warning level 3. This step S4
When the determination of h is NO, the process proceeds to step S5, while when the determination of step S4h is YES, the process proceeds to step S4I to set the remaining amount warning level 3 flag and the calling flag, and then to step S5. Proceed to.

In the container exchange processing routine of step S5, as shown in the flowchart of FIG. 6, in the first step S5a, it is determined whether or not the transmission switch 21 is turned on, and the determination in step S5a is made. Y
In the case of ES, the process proceeds to step S5b, and it is determined whether or not the ON state of the transmission switch 21 is continuous for a fixed time of 12 hours, for example. When the determination in step S5b is YES, the process proceeds to step S5c to set the supply start flag and the calling flag, and then to step S5d. In step S5d, it is determined whether the container replacement switch 4g is turned on, and if the determination is NO, the process proceeds to step S6. If the determination in step S5b is NO, the process immediately proceeds to step S6.
When the determination in step S5a is NO, that is, when the transmission switch 21 is in the off state, the process proceeds to step S5e.

In step S5e, it is determined whether the supply start flag is set. The determination in step S5e is to determine whether the off state of the transmission switch 21 is caused by the switching operation after the replenishment is started once. When the determination in step S5e is NO, the process proceeds to step S5d. When the determination in step S5e is YES, that is, when the supply start flag is set, it proceeds to step S5f and it is determined whether or not the off state of the transmission switch 21 is continuous for a fixed time of, for example, 1 minute. To do. When the determination in step S5f is NO, it is determined that the transmission switch 21 has been turned off for some reason and is ignored, and the process proceeds to step S5d to determine whether the container exchange switch 4g is turned on, When this determination is NO, the process proceeds to step S6.

On the other hand, the determination in step S5f is YE.
If S, that is, if the off state of the transmission switch 21 continues for a certain period of time, the process proceeds to step S5g to reset the supply start flag and then to step S5.
Go to h. When the determination in step S5d is YES, that is, the container replacement switch 4g is turned on, and step S5
When the determination of d is also YES, the process proceeds to step S5h. In step S5h, the remaining amount management counter is reset and the remaining amount warning 1 to 3 flags are reset, and then the process proceeds to step S5i. The above step S5f is for assuming that the container replacement has been performed when the transmission switch 21 is continuously off for a certain period of time, even if the container replacement switch 4g has not been turned on before that time. .

In step S5i, it is determined whether or not the container replacement flag is set. If the determination is NO, the process proceeds to step S5j to set the container replacement flag and the calling flag and then set in step S5k.
Proceed to. In step S5k, for example, a timer for measuring a fixed time of 10 minutes is started, and then step S5k
Go to m. When the determination in step S5i is YES, steps S5j and 5k are skipped and the process proceeds to step S5m. In step S5m, it is determined whether the timer started in step S5k has timed out. When the determination in step S5m is NO, the process proceeds to step S6, and when the determination is YES, the step S5
After proceeding to 5n to reset the container replacement flag, the process proceeds to step S6.

The above step S5m is for preventing the next call from being made until a predetermined time of 10 minutes has elapsed after the call flag was set and the timer was started in step S5j. When the calling switch 21 is turned off by this, and a call is made in response to this, even if the container exchange switch is turned on before a predetermined time has elapsed from the call, the call is not made and double calling is made. Preventing calls.

Next, the procedure proceeds to step S6 to perform other processing, and then proceeds to step S7 to perform the calling processing. In the calling processing routine of step S7, as shown in the flowchart of FIG. In step S7a, it is determined whether or not there is a call flag set.
When the determination in step S7a is NO, the process proceeds to step S7d described later, and when the determination is YES, the next step S7
In step 7b, the transmission data is generated according to the calling factor for which the calling flag is set. The transmission data generated in step S7b includes remaining amount warning levels 1 to 3 information, meter reading information, replenishment start information, container replacement information, etc., depending on the calling factor.

After that, the process proceeds to step S7c, and the transmission device 7
Then, the calling data is transmitted, and the calling flag that is the calling factor is reset, and then the process proceeds to step S7d. In step S7d, the above step S7c
It is determined whether or not the data request signal is received from the transmission device 7 in response to the transmission of the calling data in. The reception processing of the data request signal to be determined in step S7d is performed in the other processing of step S6.
When the determination in step S7d is YES, the process proceeds to step S7e, the transmission data generated in step S7b is sent to the transmission device 7, and then the process returns to step S2, and when the determination is NO, step S7e is skipped. Return to S2.

When the transmission device 7 receives the transmission data from the gas meter, the transmission device 7 captures the telephone line 8 and automatically dials the telephone number of the callee stored as the setting data to call the information center. When the telephone line is connected and the connection with the information center is made, the transmission data is sent out, and when a response signal of normal reception is received from the information center, a series of operations for opening the line are performed.

As is clear from the above description, μCOM
ROM44a in 44 containers ₁ 1 based on the flow rate pulse generated by the flow rate sensor 4a, 1 the _second gas remaining, the remaining amount management means for managing the number that reflects the remaining gas amount 44a-
In addition to 1, the gas flow rate integrating means 44a-2 functions to integrate the gas flow rate supplied from the container via the gas pressure regulator 2 based on the flow rate pulse generated by the flow rate sensor 4a.

Further, as is clear from the description with reference to the flowchart, the CPU 44b in the μCOM 44, which executes processing according to a predetermined control program, compares the numerical value for remaining amount management with a predetermined remaining amount management value. As a result of the comparison, as the warning signal generating means 44b-1 for generating a warning signal when the numerical value reaches the residual quantity management value, the residual quantity management assisting means 44 for making the numerical value for residual quantity management an initial value.
As b-2, a call is issued to notify that the gas replenishment has started, that the numerical value has reached the remaining amount management value according to the warning signal, and that the container has been replaced. As the call means 44b-3, as the data sending means 44b-4 for generating and sending the data which becomes the calling factor in response to the data request received subsequent to the calling, the fact that the container has been exchanged is notified. When calling for calling, the calling prohibiting means 44b-5 for prohibiting calling according to the operation of the container exchange switch 4g within the second predetermined time from the calling.

[0061]

As described above, according to the first aspect of the present invention, when the replacement operator replaces the old supply side container with the new container, the operation of the container exchange switch which should be performed in connection therewith is performed. Even if you forget to do so, when the replacement operator performs a manual switching operation with the supply side container as the supply side and a certain time has passed after the transmission switch was turned off, the numerical value managed by the remaining amount management means is reset to the initial value. By doing so, it is possible to consider that the container replacement work has been performed without operating the container replacement switch and start the remaining amount management anew from this point.
The remaining amount can be managed normally.

According to the second aspect of the present invention, when the container exchange switch is not operated within the first predetermined time after the transmission switch is turned off by the manual switching operation, the fact that the container has been exchanged is notified. It is possible to notify that the container has been replaced without operating the container replacement switch, and the container replacement work has been performed without operating the container replacement switch. I can see it.

According to the third aspect of the present invention, since the data which is the calling factor is generated and transmitted in response to the data request received subsequent to the call origination, the gas replenishment is performed at the receiver of this data. It is possible to know that it has started, that the numerical value has reached the remaining amount management value, and that the container has been replaced.

According to the invention described in claim 4, since the integrated gas flow rate data is generated and transmitted in response to the data request received following the call, the receiver of this data knows the integrated gas flow rate, The amount of gas used can be known from the difference from the previous cumulative gas flow rate.

According to the fifth aspect of the present invention, calling is prohibited in response to the operation of the container changing switch within the second predetermined time from the calling. Even if the switch is operated, if this operation is performed within the second predetermined time, it is possible to prevent the same notification from being issued twice regarding container replacement.

According to the sixth aspect of the invention, the remaining gas amount in the container is managed by the count value. Therefore, the numerical value for managing the remaining amount is set to the initial value by clearing the count value of the remaining amount management counter. be able to.

According to the seventh aspect of the present invention, since the flow rate pulse is generated at a predetermined gas flow rate in accordance with the measuring operation of the membrane type measuring section for measuring the supplied gas amount, the existing membrane type gas meter can be used. It can be built and configured.

[Brief description of drawings]

FIG. 1 shows L in an LP gas supply system according to the present invention
It is a block diagram which shows the basic composition of a P gas remaining amount management apparatus.

FIG. 2 is an LP to which the gas remaining amount monitoring device according to the present invention is applied.
It is a block diagram which shows the simplified structure of the whole structure of a gas supply system.

FIG. 3 is a flowchart showing a main process performed by a CPU of the gas remaining amount monitoring apparatus of FIG.

FIG. 4 is a flowchart showing a meter reading process performed by a CPU of the gas remaining amount monitoring apparatus of FIG.

5 is a flowchart showing a remaining amount warning process performed by a CPU of the gas remaining amount monitoring apparatus of FIG.

6 is a flowchart showing a container replacement process performed by a CPU of the gas remaining amount monitoring apparatus of FIG.

FIG. 7 is a flowchart showing a calling process performed by a CPU of the gas remaining amount monitoring apparatus of FIG.

FIG. 8 is a block diagram showing a simplified configuration of the overall configuration of a conventional LP gas supply system.

FIG. 9 is a block diagram showing a simplified configuration of a gas residual amount monitoring device in a conventional LP gas supply system.

[Explanation of Codes] 1 ₁ Supply-side container 1 ₂ Replenishment-side container 2 Gas pressure regulator 21 with automatic switching function 21 Transmission switch 4a Flow rate sensor 4g Container replacement switch 41 Membrane type measuring unit 44a-1 Remaining amount management means (ROM) ) 44a-2 Gas flow rate integrating means (ROM) 44b-1 Warning signal generating means (CPU) 44b-2 Remaining amount management auxiliary means (CPU) 44b-3 Calling means (CPU) 44b-4 Data sending means (CPU) 44b-5 Call inhibition means (CPU)

Claims (7)

(57) [Claims] 1. A gas pressure regulator having an automatic switching function, which is turned on when the amount of remaining gas in the supply side container is low and gas supply from the supply side container starts, and the supply side container is connected to the supply side. A transmission switch that is turned off by a manual switching operation, a flow rate sensor that generates a flow rate pulse for each predetermined gas flow rate supplied from the container via the gas pressure regulator, and a flow rate pulse generated by the flow rate sensor. The remaining amount management means for managing the remaining gas amount of the container by a numerical value reflecting the remaining gas amount obtained based on the above, and the numerical value managed by the remaining amount management means are set in advance. Warning signal generating means for comparing with a remaining amount management value and generating a warning signal to that effect when the numerical value reaches the remaining amount management value as a result of the comparison; and the old supply side container after the manual switching operation. Manually when you replace the And a container exchange switch that sets the numerical value managed by the remaining amount management means to an initial value; and when the container exchange switch is not operated within a first predetermined time after the transmission switch is turned off, the remaining amount LP gas level management apparatus in LP gas supply system, characterized in that it comprises a remaining amount management auxiliary means for the number to an initial value tubes for management of the management unit. 2. When the gas supply from the supply side container is started in response to turning on of the transmission switch, the numerical value becomes the remaining amount management value in accordance with a warning signal generated by the warning signal generating means. The remaining amount management assisting means further comprises calling means for making a call to notify that the container has been exchanged and that the container has been exchanged in response to the operation of the container exchange switch. When the container exchange switch is not operated within a first predetermined time after the power switch is turned off, the calling means is caused to make a call for notifying that the container has been exchanged. The LP gas residual amount management device in the LP gas supply system according to claim 1. 3. The data transmission means for generating and transmitting data as a calling factor in response to a data request received subsequent to a call made by said calling means, further comprising: LP gas remaining amount management device in the LP gas supply system of. 4. A gas flow rate integrating means for integrating a gas flow rate supplied from the container through the gas pressure regulator based on a flow rate pulse generated by the flow rate sensor, wherein the calling means is preliminarily provided. When the appointed meter reading time comes,
A call is issued to report the integrated gas flow rate accumulated by the gas flow rate integrator, and the integrated gas flow rate data is transmitted in response to a data request received by the data transmitter following the call by the caller. The LP gas residual quantity management device in the LP gas supply system according to claim 3, wherein the LP gas residual quantity management device generates and sends out. 5. When the remaining amount management assisting means causes the calling means to make a call for notifying that the container has been replaced, the remaining amount management assist means within the second predetermined time from the call. The LP gas remaining amount in the LP gas supply system according to any one of claims 2 to 4, further comprising call origination prohibition means for prohibiting the call origination by the call origination means according to the operation of the container exchange switch. Management device. 6. The remaining amount management means comprises a remaining amount management counter that counts up flow rate pulses generated by the flow rate sensor, and manages the remaining amount of gas in the container by the count value of the remaining amount management counter. The LP gas residual quantity management device in the LP gas supply system according to any one of claims 1 to 5. 7. The flow rate sensor generates a flow rate pulse for each predetermined gas flow rate in accordance with a metering operation of a membrane type metering unit that measures the amount of gas supplied from the container via the gas pressure regulator. The LP gas residual amount management device in the LP gas supply system according to any one of claims 1 to 6, wherein.