JP2005188925A - Gas cut-off device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reduce manual valve opening work by automatically performing valve opening at the time of cut-off while keeping safety. <P>SOLUTION: When an abnormality in a gas flow rate is detected by a flow measuring means 1, or when an abnormality signal is inputted from a seismoscope sensor 7, a pressure sensor 8 or an external input terminal 9, a valve driving part 3 is driven to make a cut-off valve 2 take a closing operation, whereby a gas passage is cut off, and according to a restoration request signal, the valve driving part 3 is operated to make the cut-off valve 2 take an opening operation, whereby the gas passage is opened. This device comprises an automatic restoration part 11 which monitors the flow measuring means 1 for gas leak and the seismoscope sensor 7, the pressure sensor 8, or the external input terminal 9 for a restoration abnormality signal for a predetermined period after the opening of the gas passage, closes the cut-off valve 2 in the case that an abnormality is present to cut off the gas passage, and transmits, in the case that no abnormality is present, an opening operation completion signal to the control part 20 after the lapse of a predetermined period. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a gas shut-off device that prevents a gas accident in advance.

  Conventionally, in this type of gas shut-off device, in FIG. 6, 2 is a shut-off valve for opening and closing a gas passage, 1 is a flow rate measuring means for measuring a flow rate corresponding to the passing gas flow rate, and 3 is for driving the shut-off valve 2 to open and close. A drive unit, 4 is a gas meter to which the shut-off valve 2 and the flow rate measuring means 1 are attached, 7 is a seismic sensor that detects earthquake vibration, 8 is a pressure sensor that detects a pressure drop in the gas pipe, and 9 is an alarm. An external input terminal for inputting an abnormal signal from an external device such as a vessel, 12 is an LED as a notification means for notifying the outside that the gas passage has been blocked, and 13 is an external return for instructing the opening of the shut-off valve 2 from the outside. The switch 30 as a means is driven when there is an abnormality in the gas flow rate by the flow measurement means 1, or when there is an abnormality signal from the external input terminal 9 from an external device such as the seismic sensor 7, pressure sensor 8, alarm device or the like. Operate part 3 The shut-off control unit which opens the shut-off valve 2 by driving the drive unit 3 by a signal from the external return means (switch) while closing the gas shut-off valve 2 to shut off the gas passage and displaying the LED (notification means 12) It is.

  The control unit 30 operates the driving unit 3 and closes the shut-off valve 2 when there is an abnormality in the gas flow rate by the flow rate measuring means 1 or when there is an abnormality signal from the seismic sensor 7, pressure sensor 8, or external input terminal 9. It operates and notifies to the outside by LED (notification means 12). After seeing this LED (indication on the notification means 12) and a person in the household using the gas confirming an abnormality, the switch (external return means 13) is pressed to return the shutoff valve 2 so that the gas can be used. It was.

  However, in the conventional configuration, since the shutoff valve 2 is shut off and the notification means 12 only notifies, for example, when the gas passage is shut off due to an impact or the like, it is difficult to notice until the household person uses the gas. It was necessary to push the switch (external return means 13) to the place where the gas meter was installed even if it was noticed. In addition, when the shutoff valves 2 of each household in the area are closed at the same time due to an earthquake, etc., it is necessary to explain how to return the shutoff valve 2 to each household. Then, after confirming safety, it was necessary to go to the switch (external return means 13).

  SUMMARY OF THE INVENTION The present invention solves the above-described conventional problems, and an object thereof is to reduce the human valve opening work by automatically opening the valve while keeping safety when shut off.

  In order to solve the above-described conventional problems, a gas shut-off device according to the present invention includes a flow rate measuring unit that measures a flow rate corresponding to a passing gas flow rate, a shut-off valve that opens and closes a gas passage, and an open / close drive for the shut-off valve. The gas flow rate is adjusted by the drive unit, the seismic sensor for detecting the vibration of the earthquake, the pressure sensor for detecting the pressure drop of the gas pipe, the external input terminal for inputting the abnormal signal from the external device, and the flow rate measuring means. When there is an abnormality, or when there is an abnormality signal from the seismic sensor, the pressure sensor, or the external input terminal, the drive unit is operated to close the shut-off valve to shut off the gas passage and the seismic sensor A control unit that outputs a return request signal a plurality of times every predetermined period when shut off at the time, and the drive unit is operated by the return request signal from the control unit to open the shut-off valve to open the gas passage That is, it is monitored whether there is no gas leakage by the flow rate measuring means for a predetermined period and whether there is a return abnormality signal from the seismic sensor, pressure sensor, or external input terminal. If there is an abnormality, the shut-off valve is closed. And an automatic return unit that shuts off the gas passage and sends an open operation completion signal to the control unit after a lapse of a predetermined period if there is no abnormality.

  As a result, the control unit shuts off at the time of the earthquake, and if this earthquake is detected and the automatic return unit is safe, the shut-off valve can be opened after a predetermined period so that the gas can be used and the human valve opening work can be reduced. .

  The gas shut-off device of the present invention can ensure the safety even if the shut-off valves of the households in the area are closed all at once due to an earthquake or the like, and the people in the household can use the gas. There is no need to explain how to return the shut-off valve to each household as in the past, and there is no need to go to the switch after the gas company is dispatched to confirm safety.

  A gas shut-off device according to an embodiment of the present invention includes a flow rate measuring unit that measures a flow rate corresponding to a passing gas flow rate, a shut-off valve that opens and closes a gas passage, a drive unit that opens and closes the shut-off valve, and an earthquake If there is an abnormality in the gas flow rate by the seismic sensor that detects the vibration of the gas, the pressure sensor that detects the pressure drop of the gas pipe, the external input terminal that inputs an abnormal signal from an external device, and the flow rate measuring means, Alternatively, when there is an abnormal signal from the seismic sensor, the pressure sensor, or the external input terminal, the drive unit is operated to close the shut-off valve to shut off the gas passage and return when shut off by the seismic sensor. A control unit that outputs a request signal a plurality of times every predetermined period, and a predetermined period after the drive unit is operated by the return request signal from the control unit to open the gas shut-off valve and open the gas passage The flow rate measuring means monitors whether there is a gas leak or whether there is a return abnormality signal from the seismic sensor, the pressure sensor, or the external input terminal. If there is no abnormality, it has an automatic return unit that sends an open operation completion signal to the control unit after a predetermined period of time. Once secured, the person in the household can use the gas. There is no need to explain how to return the shut-off valve 2 to each household as before, and there is no need to go to the switch after the gas company has been dispatched to confirm safety. The valve opening operation is automatically performed while keeping it, and human valve opening work can be reduced.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. Note that the present invention is not limited to the present embodiment.

(Embodiment 1)
The gas cutoff device in Embodiment 1 of this invention is demonstrated using FIG. 1 and FIG.

  In FIG. 1, 2 is a shut-off valve for opening and closing the gas passage, 1 is a flow rate measuring means for measuring a flow rate corresponding to the passing gas flow rate, 3 is a foolish part for driving the shut-off valve 2 to open and close, 4 is a shut-off valve 2 The gas meter 6 to which the flow rate measuring unit is attached detects that the shut-off valve 2 has been operated when there is no drive signal for driving the drive unit 3 (the plunger of the shut-off valve 2 having the configuration shown in FIG. 2 has been actuated). 2 detects an open / close state of the shut-off valve 2 based on the impact signal from the impact detecting means 6 (detects the electromotive force at the time) and outputs an impact signal (of the shut-off valve 2 configured as shown in FIG. 2). An open / closed state detection unit that outputs a return request signal if it is closed (detecting inductance due to a difference in plunger position), 7 is a seismic sensor that detects earthquake vibration, and 8 is a pressure drop detection of the gas pipe Pressure sensor, 9 outside alarm An external input terminal for inputting an abnormal signal from the device, 12 is an LED as a notification means for notifying the outside that the gas passage has been blocked, and 13 is a switch as an external return means for instructing to open the shut-off valve 2 from the outside. 10 is when the gas flow rate is abnormal by the flow rate measuring means 1 or when there is an abnormal signal from the seismic sensor 7, pressure sensor 8 or external input terminal 9, the drive unit 3 is operated and the shut-off valve 2 is closed. A control unit for driving the driving unit 3 to open the shut-off sentence 2 by a signal from an external return unit (switch) while blocking the gas passage and displaying the LED (notification unit 12). In response to a return request signal from, the drive unit 3 is operated to open the shut-off valve 2 to open the gas passage, and then the flow rate measuring means 1 for a predetermined period to check whether there is any gas leakage, the seismic sensor 7 and the pressure sensor , Monitoring whether there is a return abnormality signal from the external input terminal 9, and if there is an abnormality, shuts off the shut-off valve 2 and shuts off the gas passage. If there is no abnormality, an opening operation completion signal is sent to the control unit 10 after a predetermined period. It is an automatic return part to send.

  When the shutoff valve 2 is operated due to the impact of a ball or the like and the gas passage is shut off, the impact detection unit 6 detects the electromotive force of the shutoff valve 2 and outputs an impact signal. The open / close state detection unit 5 measures the inductance of the shutoff valve 2 to determine whether the shutoff valve 2 is closed by the impact signal, and outputs a return request signal if the shutoff valve 2 is closed. The automatic return unit 11 operates the drive unit 3 in response to the return request signal to open the shut-off valve 2 to open the gas passage. After that, there is no leak of gas by the flow rate measuring means 1 for a predetermined period. It is monitored whether there is a return abnormality signal from the pressure sensor 8 and the external input terminal 9, and if there is an abnormality, the shut-off valve 2 is closed to shut off the gas passage, and if there is no abnormality, the control unit 10 is opened after a predetermined period. Send a completion signal to enable the gas. As a result, even when the gas passage is blocked by an impact or the like, safety can be ensured and the household can use the gas. The above-described automatic return unit 11 can be realized by using a calculation or determination function based on a program operation of a microcomputer or the like.

  FIG. 3 shows a program flow from when the automatic return unit 11 described above receives a return request signal due to an impact until the opening operation is completed. If it is checked in process 40 that there is no return request signal from the open / close state detection unit 5, the drive unit 3 is driven in process 41 to open the shut-off valve 2 and open the gas passage. Next, in step 42, a two-minute timer is started to monitor the leakage amount. Next, in process 43, the flow rate measuring means 1 monitors whether there is a gas leak or whether there is a return abnormality signal from the seismic sensor 7, pressure sensor 8, or external input terminal 9. If there is no abnormality, whether or not the process ends for 2 minutes is confirmed in process 45, and if the process ends for 2 minutes, an open operation completion signal is sent to the control unit 10 in process 46 so that the gas can be used.

(Embodiment 2)
A gas cutoff device according to Embodiment 2 of the present invention will be described with reference to FIG.

  In FIG. 4, 2 is a shut-off valve for opening and closing the gas passage, 1 is a flow rate measuring means for measuring a flow rate corresponding to the passing gas flow rate, 3 is a drive unit for driving the shut-off valve 2 to open and close, 4 is a shut-off valve 2 A gas meter equipped with a flow rate measuring means, 7 is a seismic sensor for detecting earthquake vibration, 8 is a pressure sensor for detecting a pressure drop in the gas pipe, and 9 is an abnormal signal from an external device such as an alarm. An external input terminal for input, 12 as an LED for notifying the outside that the gas passage has been shut off, 13 as a switch as an external return means for instructing to open the shut-off valve 2 from the outside, and 20 as a flow rate measuring means When the gas flow rate is abnormal due to 1 or when there is an abnormal signal from the seismic sensor 7, pressure sensor 8 or external input terminal 9, the drive unit 9 is operated to close the shut-off valve 2 and shut off the gas passage. LED (notification Step 12) is displayed and when the seismic sensor is shut off, a return request signal is output a plurality of times every predetermined period, while a drive unit 3 is driven by a signal from an external return means (switch) to turn off the shutoff valve 2 The control unit 11 that opens is operated by the return request signal from the control unit 20 to operate the drive unit 3 to open the shut-off valve 2 to open the gas passage. , Monitoring whether there is a return abnormality signal from the seismic sensor 7, pressure sensor 8, external input terminal 9, if there is an abnormality, shut off the shut-off valve 2 to shut off the gas passage, if there is no abnormality, a predetermined period of time has passed It is an automatic return unit that sends an opening operation completion signal to the rear control unit 10.

  When a drive signal is sent from the control unit 20 to the drive unit 3 due to an earthquake, the shutoff valve 2 is closed and the gas passage is shut off, the control unit 20 outputs a return request signal. The automatic return unit 11 operates the drive unit 3 in response to the return request signal to open the shut-off valve 2 to open the gas passage. After that, there is no leak of gas by the flow rate measuring means 1 for a predetermined period. It is monitored whether there is a return abnormality signal from the pressure sensor 8 and the external input terminal 9, and if there is an abnormality, the shut-off valve 2 is closed to shut off the gas passage, and if there is no abnormality, the control unit 10 is opened after a predetermined period. Send a completion signal to enable the gas. In addition, the control unit 20 outputs a return request signal three times every 24 hours because repairs such as breakage of gas pipes and the like due to an earthquake may be performed. As a result, even if the shutoff valves 2 of the households in the area are closed at the same time due to an earthquake or the like, a person in the household can use the gas after ensuring safety. There is no need to explain how to return the shut-off valve 2 to each household as before, and it is also necessary to push the switch (external return means 13) after the gas company is dispatched and confirms safety. Disappear. The automatic return unit 11 and the control unit 20 described above can be realized by using a calculation or determination function based on a program operation such as a microcomputer.

  FIG. 5 shows a program flow from when the control unit 20 and the automatic return unit 11 described above receive a return request signal due to seismic interruption to the completion of the opening operation. In step 50, the control unit 20 determines whether or not the abnormal signal from the seismic sensor 7 is interrupted, and if it is a seismic interrupt, the control unit 20 clears (0) a counter for outputting a return signal multiple times. . Next, in a process 52, the operation of the 25-hour timer is started. Next, in step 53, a return request signal is output to the automatic return unit 11. If there is a return request signal from the control unit 20, the automatic return unit 11 drives the drive unit 3 in processing 54 to open the shut-off valve 2 and open the gas passage.

  Next, in a process 55, a 2-minute timer is started to monitor the leakage amount. Next, in process 56, it is monitored whether there is any gas leakage by the flow rate measuring means 1, and whether there is a return abnormality signal from the seismic sensor 7, pressure sensor 8, or external input terminal 9. If there is no abnormality, it is confirmed in step 58 whether or not the process ends for 2 minutes. If the process ends for 2 minutes, an open operation completion signal is sent to the control unit 10 in step 59 so that the gas can be used. Next, in step 60, it is checked whether or not this operation is the third time. If it is not the third time, the counter is incremented by 1 in step 61 and 25 hours elapses in step 62, and the same processing is repeated three times from step 52. If the unsafety caused by the earthquake can be canceled within these three times, the shut-off valve 2 is automatically returned and the gas can be used.

1 is a functional block diagram showing a gas cutoff device according to Embodiment 1 of the present invention. (A) Configuration diagram showing the shut-off valve of the device in an open state (b) Configuration diagram showing the shut-off valve of the device in a closed state Flow chart showing the operation program of the device Functional block diagram showing a gas cutoff device in Embodiment 2 of the present invention Flow chart showing the operation program of the device Functional block diagram showing a conventional gas shut-off device

Explanation of symbols

2 Shut-off valve 5 Open / close state detection unit 6 Impact detection unit 7 Seismic sensor 10, 20 Control unit 11 Automatic return unit

Claims (1)

A flow rate measuring means for measuring a flow rate corresponding to the passing gas flow rate, a shut-off valve for opening and closing the gas passage, a drive unit for opening and closing the shut-off valve, a seismic sensor for detecting earthquake vibration, and a gas A pressure sensor for detecting a pressure drop in the pipe, an external input terminal for inputting an abnormal signal from an external device, and when the gas flow rate is abnormal by the flow rate measuring means, or the seismic sensor, the pressure sensor, and the When there is an abnormal signal from the external input terminal, the drive unit is operated to close the shut-off valve to shut off the gas passage, and when the seismic sensor is shut off, a return request signal is output a plurality of times every predetermined period. And the drive unit is operated by a return request signal from the control unit and the shut-off valve is opened to open the gas passage, and then the gas is not leaked by the flow rate measuring unit for a predetermined period. , Monitoring whether there is a return abnormality signal from the seismic sensor, the pressure sensor, the external input terminal, and if there is an abnormality, the shut-off valve is closed to shut off the gas passage, and if there is no abnormality, a predetermined period A gas shut-off device comprising an automatic return unit that sends an opening operation completion signal to the control unit after elapse.

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