JPH09178528A - Isolation valve controller for gas meter - Google Patents

Abstract

PROBLEM TO BE SOLVED: To surely open/close an isolation valve when it is required while reducing power consumption. SOLUTION: A safety function section 23 delivers a valve close or valve open command signal to an isolation valve drive circuit 24 which then applies a valve close and valve open drive signal to an isolation valve 13 in response to the command signal. If the isolation valve 13 is not brought into perfectly closed or open state after a first time valve close or valve open command signal is delivered to the isolation valve drive circuit 24, the safety function section 23 delivers a valve close or valve open command signal again to the isolation valve drive circuit 24 while prolonging the application time as compared with the first time.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a shutoff valve control device for a gas meter, which controls a shutoff valve for shutting off a gas passage in the event of an abnormality.

[0002]

2. Description of the Related Art Some gas meters have a safety function of shutting off a gas flow path by a shut-off valve when an abnormality occurs by using a microcomputer. Also, as the shutoff valve,
A shutoff valve that can electrically perform both an operation from an open state (return state) that opens the gas flow path to a closed state (shutdown state) that shuts off the gas flow path, and an operation from the closed state to the open state. (Hereinafter, it is also referred to as a bidirectional shutoff valve.) In the safety function of the gas meter using such a bidirectional shutoff valve, the microcomputer outputs the output of the flow rate calculation unit that calculates the flow rate based on the output of the flow rate detection unit, and the pressure sensor for detecting the gas supply pressure. When it determines that there is an abnormality based on the output or the output of the seismic shock absorber, it outputs a valve closing command signal to the shutoff valve drive circuit, and the shutoff valve drive circuit that receives this valve shutoff command signal causes the shutoff valve solenoid to operate. The shutoff valve is closed by applying a pulsed valve closing drive signal. Further, the microcomputer outputs a valve opening command signal to the shutoff valve drive circuit when the gas flow path is opened in response to the operation of a return switch (not shown), and the shutoff valve drive receives the valve opening command signal. The circuit is adapted to open the shutoff valve by applying a pulsed valve opening drive signal to the solenoid of the shutoff valve.

By the way, when the shut-off valve is not completely closed by the application of the one-shot valve closing drive signal, and there is a gas outflow on the downstream side of the gas meter due to cracking of the rubber tube or erroneous opening of the gas plug. , The gas flows out to the downstream side of the gas meter. Therefore, conventionally, the shutoff valve has been controlled as shown in the flow chart of FIG. That is, when the microcomputer determines that there is an abnormality, it first outputs a valve closing command signal to the shutoff valve drive circuit, and the shutoff valve drive circuit that receives this valve shutoff command signal outputs the valve shutoff drive signal to the solenoid of the shutoff valve. Yes (step S201). Next, the microcomputer monitors the flow rate pulse output from the flow rate detection unit according to the flow rate, and determines whether there is a flow rate pulse, that is, whether there is a flow rate (step S202).
When there is no flow rate pulse (N), the microcomputer ends the operation of the shutoff valve control. If there is a flow rate pulse (Y), the process returns to step S201, the microcomputer outputs the valve closing command signal again, and the shutoff valve drive circuit outputs the valve closing drive signal to the solenoid of the shutoff valve.

[0004]

However, in the conventional operation as shown in FIG. 8, when the shut-off valve is not completely closed by the first valve closing operation, it is shut off by the second and subsequent valve closing operations. In some cases, the valve did not close completely, and then the investigator had to be dispatched to investigate the cause, and there was a problem in that an emergency response was necessary.

Further, even when the valve opening operation is performed, if the shutoff valve is not completely opened due to the application of the one-shot valve opening drive signal, a gas supply failure may occur or the flow rate may become unstable, resulting in a safety function. There was a problem that would not work properly.

Further, conventionally, the application time of the valve closing drive signal and the valve opening drive signal to the shutoff valve is set to be long in anticipation of a low temperature and the end of battery exhaustion, resulting in a waste of power consumption. was there.

The present invention has been made in view of the above problems, and an object thereof is to reliably open and close the shutoff valve when the shutoff valve needs to be opened and closed, and to reduce power consumption. An object of the present invention is to provide a shutoff valve control device for a gas meter that enables the above.

[0008]

A shutoff valve control device for a gas meter according to the present invention operates from a closed state in which an open gas passage in a gas meter is opened to a closed state in which a gas flow passage in a gas meter is shut off. Applying a pulsed valve closing drive signal to the shutoff valve that can electrically perform both operations to the open state to close the shutoff valve and pulsed open valve drive to the shutoff valve A shutoff valve drive means for applying a signal to open the shutoff valve, a first detection means for detecting whether or not the shutoff valve is completely closed, and a shutoff valve fully opened. Second detection means for detecting whether or not it is in a state, and outputting a closing command for closing the shutoff valve to the shutoff valve drive means when shutting off the gas flow path is required. It is possible to control the application time of the valve closing drive signal,
When the first detecting means detects that the shutoff valve is not completely closed after the first valve closing command is output, the valve closing command is output again and the first valve closing command is output the first time. Valve closing control means for making the application time of the valve closing drive signal longer than when the valve closing command is output, and for opening the shutoff valve to the shutoff valve driving means when the gas flow path needs to be opened. The valve opening command can be output and the application time of the valve opening drive signal can be controlled. After the first valve opening command is output, the second valve opening command is output.
When it is detected that the shutoff valve is not completely opened, the valve opening command is output again and the valve opening command is output again when the valve opening command is output again than when the valve opening command is output for the first time. And a valve opening control means for lengthening the application time of the drive signal.

In this shutoff valve controller for a gas meter, the shutoff control means outputs a shutoff command for shutting off the shutoff valve to the shutoff valve drive means when shutting off the gas flow path is required. To do. The valve closing control means also outputs the valve closing command again when the first detecting means detects that the shutoff valve is not completely closed after the first valve closing command is output. When the valve closing command is output, the application time of the valve closing drive signal is made longer than when the valve closing command is output for the first time. As a result, the shutoff valve can be closed more reliably when the valve closing command is output again. The valve opening control means outputs a valve opening command for opening the shutoff valve to the shutoff valve driving means when the gas flow path needs to be opened. The valve opening control means also outputs the valve opening command again when the second detecting means detects that the shutoff valve is not completely opened after the first valve opening command is output. When the valve opening command is output, the application time of the valve opening drive signal is set longer than when the first valve opening command is output. This makes it possible to open the shutoff valve more reliably when the valve opening command is output again.

[0010]

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

FIG. 1 is a sectional view showing a schematic configuration of a gas meter to which a shutoff valve control device for a gas meter according to a first embodiment of the present invention is applied. The gas meter 10 includes a main body 11 and a gas pipe 12 which is inserted into the main body 11 and has an inlet portion 12A for receiving the gas a and an outlet portion 12B for discharging the gas as a gas passage. The gas pipe 12 includes, in order from the inlet portion 12A side, a shutoff valve 13 for shutting off the gas flow passage in the event of an abnormality, a flow rate detection unit 14 for detecting the flow rate of gas flowing through the gas flow passage, and a gas pipe. A pressure sensor 15 for detecting the gas supply pressure is arranged via a pressure guiding hole 17 provided in the No. 12. The flow rate detector 14 outputs a flow rate pulse whose cycle becomes shorter as the flow rate increases. In the main body 11,
A seismoscope 18 for detecting an earthquake, and a flow rate detector 14,
A control unit 20 is provided which inputs the output signals of the pressure sensor 15 and the seismic sensor 18 and controls the shutoff valve 13. The shutoff valve 13 electrically performs both an operation from an open state (return state) that opens the gas passage to a closed state (shutoff state) that shuts off the gas passage and an operation from the closed state to the open state. A shut-off valve that can be used is used.

2 and 3 show the shutoff valve 13 in FIG.
3 is a sectional view showing the configuration of FIG. 2, FIG. 2 shows an open state, and FIG.
Indicates a closed state. In the following description, the positional relationship between the opening 12a and the shutoff valve 13 in the gas flow path in the gas pipe 12 is described with the opening 12a side being the upper side and the shutoff valve 13 side being the lower side.

The shutoff valve 13 includes a housing 41 made of a magnetic material. The housing 41 is formed in a cylindrical shape having a small diameter on the upper side and a large diameter on the lower side, and has an open upper end and a closed lower end. A flange portion 42 is fixed to the outside of the central portion of the housing 41 in the vertical direction. This flange portion 42 is fixed to the main body 11 in FIG. A cylindrical permanent magnet 43 is provided on the upper side of the housing 41, and a coil 44 serving as an electromagnet is provided on the lower side of the housing 41. A plunger 45 is axially movably inserted in a hollow portion formed by the permanent magnet 43 and the coil 44. The plunger 45 has an upper magnetic portion 45a formed of a magnetic material and a lower nonmagnetic portion 45b formed of a nonmagnetic material. The upper end of the plunger 45 projects from the upper end of the housing 41, and a rubber valve body 46 capable of closing the opening 12a is attached to the upper end of the plunger 45. Also, this rubber valve body 46
A spring 47 for urging the rubber valve body 46 upward is provided between and the flange portion 42.

No current flows through the coil 44 of the shutoff valve 13 in a normal time. Further, as shown in FIG. 2, the magnetic force of the permanent magnet 43 acts as shown by the arrow 48, the plunger 45 is drawn in, and the opening 12a is opened. As a result, the gas passes through the opening 12a as indicated by the arrow 49. To close the shutoff valve 13,
As shown in FIG. 3, a pulsed valve closing drive signal is applied to the coil 44 to flow a current, and a magnetic field that cancels the magnetic field generated by the permanent magnet 43 is generated. The magnetic force generated by the coil 44 is indicated by a dashed arrow 50. Then, the force of the spring 47 causes the plunger 45 to project, and the rubber valve element 46 causes the opening 12
a is closed. On the other hand, in order to open the shutoff valve 13, a pulsed valve opening drive signal is applied to the coil 44,
A current flows in the opposite direction to the closed state and the permanent magnet 4
A magnetic field for strengthening the magnetic field by 3 is generated. As a result, the plunger 45 overcomes the force of the spring 47 and is retracted, and as a result, the opening 12a is opened.

FIG. 4 is a block diagram showing the configuration of the control unit 20 and its peripherals in FIG. As shown in this figure, the gas meter further includes a display unit 25, and the control unit 20 is connected to the shutoff valve 13, the flow rate detection unit 14, the pressure sensor 15, the vibration sensor 18, and the display unit 25. Control unit 2
0 is a flow rate calculation unit 21 that calculates the flow rate based on the output of the flow rate detection unit 14, an integration unit 22 that integrates the flow rates calculated by this flow rate calculation unit 21 to calculate an integrated flow rate, and a flow rate calculation unit 21. A safety function unit 23 that detects an abnormality based on the output signals of the pressure sensor 15 and the vibration sensor 18, and a shutoff valve drive circuit 24 that drives the shutoff valve 13 under the control of the safety function unit 23. ing. The safety function unit 23 and the shutoff valve drive circuit 24 constitute the shutoff valve control device for a gas meter according to the present embodiment, the shutoff valve drive circuit 24 corresponds to the shutoff valve drive means in the present invention, and the safety function unit 23 is the main unit. It corresponds to the first detecting means, the second detecting means, the valve closing control means and the valve opening control means in the invention. Flow rate calculation unit 21,
The integrating unit 22 and the safety function unit 23 are configured by, for example, a microcomputer.

The integrated flow rate calculated by the integrating unit 22 is displayed on the display unit 25. The safety function unit 23 determines the gas supply pressure based on the output of the pressure sensor 15 when detecting a gas flow rate of a predetermined amount or more based on the output of the flow rate calculation unit 21 or when detecting the gas flow rate for a predetermined period of time or more. When it is detected that the value falls below a value, or when an earthquake is detected based on the output of the seismic sensor 18, it is judged to be abnormal, and a valve closing command signal is output to the shutoff valve drive circuit 24, and the display unit An alarm display is given to 25 by blinking an LED (light emitting diode).
The shutoff valve drive circuit 24 applies a pulsed valve closing drive signal to the shutoff valve 13 in response to the valve closing command signal from the safety function unit 23 to close the shutoff valve 13. There is. Further, the safety function unit 23 outputs a valve opening command signal to the shutoff valve drive circuit 24 in response to an operation of a return switch (not shown) or automatically when the abnormality is resolved. The shut-off valve drive circuit 24 includes the safety function unit 23.
A pulsed valve opening drive signal is applied to the shutoff valve 13 in response to the valve opening command signal from (1) to open the shutoff valve 13. The safety function unit 23 is capable of controlling each application time of the valve closing drive signal and the valve opening drive signal applied to the shutoff valve 13 by the shutoff valve drive circuit 24, and the shutoff valve drive circuit 24 is safe. The application time of the valve closing drive signal and the valve opening drive signal is switched by the control of the function unit 23.

The safety function unit 23 detects whether or not the shutoff valve 13 is completely closed after the first valve closing command signal is output, and when the shutoff valve 13 is not completely closed. In addition to outputting the valve opening command signal once to the shutoff valve drive circuit 24, the valve closing command signal is output again, and when the valve closing command signal is output again, the first valve closing command signal is output. Also increases the application time of the valve closing drive signal. Similarly, the safety function unit 23 detects whether or not the shutoff valve 13 is completely open after the first valve opening command signal is output, and when the shutoff valve 13 is not completely open. In addition to outputting the valve closing command signal once to the shutoff valve drive circuit 24, the valve opening command signal is output again, and at the time of outputting the valve opening command signal again, from the time of outputting the first valve opening command signal. Also increases the application time of the valve opening drive signal. In the present embodiment, in particular, the application time of the valve closing drive signal when outputting the first valve closing command signal and the application time of the valve opening driving signal when outputting the first valve opening command signal are 40 msec and The application time of the valve closing drive signal when the valve closing command signal is output and the application time of the valve opening drive signal when the valve opening command signal is output again are set to 80 msec. Further, when the shutoff valve 13 is not completely closed after the first valve closing command signal is output, the application time of the valve opening drive signal when the valve opening command signal is once output to the shutoff valve driving circuit 24. And the application time of the valve closing drive signal when the valve closing command signal is once output to the shutoff valve driving circuit 24 when the shutoff valve 13 is not completely opened after the first valve opening command signal is output. Each is set to 60 msec.

As a method of detecting whether or not the shutoff valve 13 is completely closed and whether or not the shutoff valve 13 is completely open, for example, the coil 44 depending on the position of the plunger 45 is used. By utilizing the fact that the inductances are different, an AC current for state detection is passed through the coil 44, and the state of the shutoff valve 13 is detected from the phase difference between the AC current flowing through the coil 44 and the original AC current for state detection. And a method of detecting the positions of the rubber valve element 46 and the plunger 45 of the shutoff valve 13 using a sensor can be used. In addition to this, as a method for detecting whether or not the shutoff valve 13 is completely closed, the presence or absence of a flow rate pulse, that is, the presence or absence of a flow rate is monitored. There is also a method of judging that the shutoff valve 13 is not completely closed when there is a flow rate.

Next, the operation of the control for closing the shutoff valve 13 in the shutoff valve control device for the gas meter according to the present embodiment will be described with reference to the flow chart shown in FIG.
The safety function unit 23 includes a flow rate calculation unit 21, a pressure sensor 15,
When it is judged as abnormal based on each output of the seismic sensor 18,
A valve closing command signal is output to the shutoff valve driving circuit 24, and the shutoff valve driving circuit 24 applies a pulsed valve closing driving signal to the shutoff valve 13 in response to the valve closing command signal (step S10).
1). At this time, the application time of the valve closing drive signal to the shutoff valve 13 is 40 msec. Next, the safety function unit 23 detects whether or not the shutoff valve 13 is completely closed (step S102). The safety function unit 23 includes the shutoff valve 13
Is completely closed (Y), the shutoff valve 13
The control operation of is ended.

When the shutoff valve 13 is not completely closed (step S102; N), the safety function section 23:
Once, a valve opening command signal is output to the shutoff valve driving circuit 24, and the shutoff valve driving circuit 24 applies the valve opening driving signal to the shutoff valve 13 in response to the valve opening command signal (step S10).
3). At this time, the application time of the valve opening drive signal to the shutoff valve 13 is 60 msec. Next, the safety function unit 23 outputs the valve closing command signal to the shutoff valve drive circuit 24 again,
In response to the valve opening command signal, the shutoff valve drive circuit 24 applies the close valve drive signal to the shutoff valve 13 again (step S10).
4). At this time, the application time of the valve closing drive signal to the shutoff valve 13 is 80 msec. Next, the safety function unit 23 detects whether the shutoff valve 13 is completely closed (step S105). The safety function unit 23 includes the shutoff valve 13
Is completely closed (Y), the shutoff valve 13
The control operation of is ended. The safety function unit 23 includes the shutoff valve 1
If 3 is not completely closed (N), it is determined whether the output of the valve closing command signal again is n times or less (step S106). If the output of the valve closing command signal again is n times or less (Y), the safety function unit 23 performs step S10.
4, the valve closing command signal is output again to the shutoff valve drive circuit 24. At this time, the application time of the valve closing drive signal to the shutoff valve 13 is 80 msec. The safety function unit 23 is
If the valve closing drive signal is not output again n times or less (step S106; N), the display unit 25 is used to output an alarm notifying the abnormality of the shutoff valve 13 (step S1).
07), the control operation of the shutoff valve 13 is terminated.

Next, the operation of the control for opening the shutoff valve 13 in the shutoff valve control device for a gas meter according to the present embodiment will be described with reference to the flow chart shown in FIG.
When the shutoff valve 13 is opened, the safety function unit 23 outputs a valve opening command signal to the shutoff valve drive circuit 24, and the shutoff valve drive circuit 24 drives the valve in a pulsed manner in response to the valve open command signal. A signal is applied to the shutoff valve 13 (step S111).
At this time, the application time of the valve opening drive signal to the shutoff valve 13 is 40 msec. Next, the safety function unit 23 operates the shutoff valve 1
It is detected whether or not 3 is completely opened (step S112). When the shutoff valve 13 is completely open (Y), the safety function unit 23 ends the control operation of the shutoff valve 13.

When the shutoff valve 13 is not completely opened (step S112; N), the safety function section 23:
Once, the shutoff valve drive circuit 24 outputs a valve closing command signal, and the shutoff valve drive circuit 24 applies the valve closing drive signal to the shutoff valve 13 in response to the valve closing command signal (step S11).
3). At this time, the application time of the valve closing drive signal to the shutoff valve 13 is 60 msec. Next, the safety function unit 23 outputs the valve opening command signal to the shutoff valve drive circuit 24 again,
In response to this valve opening command signal, the shutoff valve drive circuit 24 applies the valve opening drive signal to the shutoff valve 13 again (step S11).
4). At this time, the application time of the valve opening drive signal to the shutoff valve 13 is 80 msec. Next, the safety function unit 23 detects whether or not the shutoff valve 13 is completely opened (step S115). The safety function unit 23 includes the shutoff valve 13
Is completely open (Y), shutoff valve 13
The control operation of is ended. The safety function unit 23 includes the shutoff valve 1
When 3 is not in the completely open state (N), it is determined whether the output of the valve opening command signal again is n times or less (step S116). If the output of the valve opening command signal again is n times or less (Y), the safety function unit 23 performs step S11.
4, the valve opening command signal is output again to the shutoff valve drive circuit 24. At this time, the application time of the valve opening drive signal to the shutoff valve 13 is 80 msec. The safety function unit 23 is
When the valve opening drive signal is not output again n times or less (step S116; N), the display unit 25 is used to output an alarm notifying the abnormality of the shutoff valve 13 (step S1).
17) The control operation of the shutoff valve 13 is terminated.

Here, the relationship between the application time of the valve closing drive signal or the valve opening drive signal to the shutoff valve 13 and the applied voltage will be described with reference to FIG. In this figure, reference numeral 31 indicates the relationship between the applied time and the applied voltage under the environment of 20 ° C. when the voltage is normal, for example, when the battery in the gas meter is not at the end of exhaustion, and the reference numeral 32 indicates when the voltage drops.
For example, it shows the relationship between the applied time and the applied voltage under the environment of −10 ° C. or at the end of battery exhaustion. Also, V
₀ is the minimum applied voltage of the valve closing drive signal required to shift the shutoff valve 13 from the open state to the closed state, and the minimum voltage of the valve opening drive signal required to shift the shutoff valve 13 from the closed state to the open state. The applied voltage is shown. As can be seen from this figure, the applied voltage of the valve closing drive signal or the valve opening drive signal to the shutoff valve 13 increases with the application time of the valve closing drive signal or the valve opening drive signal. In addition, when the voltage drops, the applied voltage of the valve closing drive signal or the valve opening drive signal generally decreases as compared to when the voltage is normal. In the present embodiment, in order to prevent malfunction of the shutoff valve 13 when the voltage drops, the application time of the valve closing drive signal at the time of the first valve closing command signal output and the opening time at the time of the first valve opening command signal output. The application time of the valve drive signal is set to the time t ₂ (= 40 ms) when the applied voltage reaches the minimum applied voltage V ₀ even when the voltage drops. Further, the application time of the valve closing drive signal when the valve closing command signal is output again and the valve opening drive signal when the valve opening command signal is output again is t ₃ (= 80 ms) longer than t ₂ (= 40 ms). ) Is set.

As described above, in the shutoff valve control device for the gas meter according to the present embodiment, the safety function part 23 is
When it is detected that the shutoff valve 13 is not completely closed after the first closing command signal is output to the shutoff valve drive circuit 24, the shutoff valve drive circuit 24 is once After the valve opening command signal is output, the valve closing command signal is output again, and when the valve closing command signal is output again, the application time of the valve closing drive signal is set longer than when the first valve closing command signal is output. . As a result, when the valve closing command signal is output again, the application time of the valve closing drive signal to the shutoff valve 13 becomes long and the applied voltage becomes large. Therefore, when the valve closing command signal is output again, the shutoff valve 13 can be closed more reliably.

Similarly, the safety function section 23 detects that the shutoff valve 13 is not completely opened after outputting the first valve opening command signal to the shutoff valve drive circuit 24. In this case, after outputting the valve closing command signal once to the shut-off valve drive circuit 24, the valve opening command signal is output again, and the valve opening command signal is output again when the valve opening command signal is output for the first time. The application time of the valve opening drive signal is longer than that. As a result, when the valve opening command signal is output again,
As the application time of the valve opening drive signal to the shutoff valve 13 becomes longer, the applied voltage becomes larger. Therefore, when the valve opening command signal is output again, the shutoff valve 13 can be opened more reliably.

Further, according to the shutoff valve control device for a gas meter according to the present embodiment, the number of failures due to malfunction of the shutoff valve 13 is reduced, so the number of investigators dispatched is reduced. Further, the shutoff valve 1 is output at the time of the first valve closing command signal output.
Even if 3 is not completely closed, the shut-off valve 13 can be closed in the second output of the valve closing command signal in many cases, and similarly, the shut-off valve is output in the first output of the valve opening command signal. Even if the valve 13 is not completely opened, in many cases, the shutoff valve 13 can be opened at the time of outputting the second valve opening command signal. Therefore, the shutoff valve 13 can be repeatedly closed and closed. No signal or valve opening drive signal is applied, and power consumption can be reduced.

Next, a second embodiment of the present invention will be described. In the present embodiment, the application time of the valve closing drive signal at the time of the first valve closing command signal output and the application time of the valve opening drive signal at the time of the first valve opening command signal output are as shown in FIG. The time t ₁ (for example, 30 msec) when the applied voltage reaches the minimum applied voltage V ₀ when the voltage is normal is set. As a result, in this embodiment, when the voltage is normal, the application time of the valve closing drive signal and the first valve opening command signal output at the time of the first valve closing command signal output are higher than those in the first embodiment. The application time of the valve opening drive signal is shortened. In the present embodiment, when the voltage drops, the shutoff valve 13 is not completely closed at the time of the first valve closing command signal output, or the shutoff valve 13 is completely open at the time of the first valve opening command signal output. However, in many cases, there is no problem because the valve is reliably closed or opened when the valve closing command signal is output again or when the valve opening command signal is output again. As described above, according to the present embodiment, it is possible to reduce the power consumption when the voltage is normal, and particularly the effect of reducing the power consumption is large under the situation where the voltage is normal for most of the time. Other configurations, operations, and effects in the present embodiment are the same as those in the first embodiment.

The present invention is not limited to the above-described embodiments. For example, the application time of the valve closing drive signal or the valve opening drive signal depends on the specifications of the shutoff valve 13 and the environment in which the gas meter is used. It can be appropriately set according to

[0029]

As described above, according to the shutoff valve control device for a gas meter of the present invention, when the shutoff valve is not completely closed after the first closing command output to the shutoff valve drive means. In addition to outputting the valve closing command again, when the valve closing command is output again, the application time of the valve closing drive signal to the shutoff valve is made longer than that at the time of outputting the first valve closing command, and similarly, the valve shutoff driving means When the shutoff valve is not completely open after the first valve opening command is output, the valve opening command is output again, and when the valve opening command is output again, the first valve opening command is output. Since the application time of the valve opening drive signal to the shutoff valve is longer than that of the shutoff valve, even if the shutoff valve is not completely closed or opened at the time of the first output of the closing command or the opening command, it is often the second time. Valve closing command or The complete shut-off valve when the output of the valve command may be a closed or open state, an effect that opening and closing operation of the shutoff valve can be reliably opened and closed with the shutoff valve when needed. Further, it is possible to reduce the number of times the valve closing drive signal or the valve opening drive signal is applied, and shorten the application time of the valve closing drive signal or the valve opening drive signal at the time of outputting the first valve closing command or the valve opening signal. Therefore, the power consumption can be reduced.

[Brief description of the drawings]

FIG. 1 is a cross-sectional view showing a schematic configuration of a gas meter to which a shutoff valve control device for a gas meter according to a first embodiment of the present invention is applied.

FIG. 2 is a cross-sectional view showing a configuration of a shutoff valve in FIG.

FIG. 3 is a cross-sectional view showing a configuration of a shutoff valve in FIG.

FIG. 4 is a block diagram showing a configuration of a control unit in FIG. 1 and its peripherals.

FIG. 5 is a flow chart showing an operation of control for closing the shutoff valve in the shutoff valve control device for a gas meter according to the first embodiment of the present invention.

FIG. 6 is a flowchart showing an operation of control for opening the shutoff valve in the shutoff valve control device for a gas meter according to the first embodiment of the present invention.

7 is a characteristic diagram showing the relationship between the application time and the applied voltage of the valve closing drive signal or the valve opening drive signal for the shutoff valve in FIG.

FIG. 8 is a flowchart showing an operation relating to control of a shutoff valve in a conventional gas meter.

[Explanation of reference numerals] 10 gas meter 12 gas pipe 13 shutoff valve 14 flow rate detection unit 20 control unit 21 flow rate calculation unit 23 safety function unit 24 shutoff valve drive circuit

Claims (1)

[Claims] 1. An operation from an open state in which a gas flow path in a gas meter is opened to a closed state in which a gas flow path in a gas meter is blocked and an operation from a closed state to an open state can be electrically performed. To apply a pulsed valve closing drive signal to the shutoff valve to close the shutoff valve and to apply a pulsed valve opening drive signal to the shutoff valve to open the shutoff valve Shut-off valve driving means, first detecting means for detecting whether or not the shut-off valve is completely closed, and second detecting means for detecting whether or not the shut-off valve is completely open. When it is necessary to shut off the gas flow path, it is possible to output a closing command for closing the shutoff valve to the shutoff valve driving means and control the application time of the shutoff valve drive signal, After the first valve closing command is output, the shutoff valve is completed by the first detecting means. When it is detected that the valve is not completely closed, the valve closing command is output again, and when the valve closing command is output again, the application time of the valve closing drive signal is longer than when the valve closing command is output for the first time. A valve closing control means for lengthening, and a valve opening command for opening the shut-off valve to the shut-off valve driving means when the gas flow path needs to be opened and an application time of the valve opening drive signal. When it is detected by the second detecting means that the shutoff valve is not completely opened after the first valve opening command is output, the valve opening command is output again and the A shutoff valve control device for a gas meter, comprising: a valve opening control unit that makes the application time of the valve opening drive signal longer when the valve opening command is output than when the first valve opening command is output.