JPH0518607Y2 - - Google Patents

Description

[Detailed description of the invention] [Industrial field of application] The present invention is a method for detecting whether or not there is a gas leak in downstream piping when a gas cutoff valve that is in a closed state is opened when using gas. This invention relates to a return safety confirmation device for a gas supply system that performs return safety confirmation.

[Conventional technology]

A gas supply system in which gas is supplied and cut off by opening and closing a gas cutoff valve is usually equipped with a device for performing a return safety confirmation operation. The return safety confirmation operation is a confirmation operation that detects gas leakage on the downstream side of the gas cutoff valve in advance before using gas.

A gas supply system equipped with such a return safety confirmation device is generally configured as shown in FIG.

In the figure, 1 is a gas cutoff valve, which is controlled to open and close by pulse outputs from a valve return pulse output circuit 6 and a valve cutoff pulse output circuit 7, respectively. A gas appliance (not shown) having a cock C is connected to the tip of the pipe D on the downstream side of the gas cutoff valve 1.

8 is a microcomputer (hereinafter abbreviated as MPU) for performing the return safety confirmation operation, and in addition to ROM, RAM, etc. (not shown), input ports _I1 to
It has _I3 and output ports _O1 to _O4 . The input ports I ₁ to I ₃ are connected to a flow rate pulse generation circuit 9 that is installed in the pipe D on the downstream side of the gas cutoff valve 1 and generates a pulse for each unit gas flow rate, and a flow rate pulse generation circuit 9 that detects the open/closed state of the gas cutoff valve 1. The opening/closing detection circuit 10 is connected to an operation switch circuit 11 consisting of a valve open switch SW ₁ and a valve close switch SW ₂ for operating the opening and closing of the gas cutoff valve 3 from the outside.

Further, the output ports _O1 to _O4 include a buzzer drive circuit 12, a display circuit 13, and a pulse control circuit 14 that outputs control signals _PH1 and _PH2 to the respective pulse output circuits 6 and 7, An abnormal signal output circuit 15 is connected to each. A transmission device 16 is connected to the abnormality signal output circuit 15, which sends a notification to the gas company's central monitoring center (not shown) via a telephone circuit based on the abnormality detection signal from the circuit 15. ing. The display circuit 13 includes a valve open lamp L ₁ , a valve close lamp L ₂ , and an alarm lamp L ₃
It consists of

In the above configuration, the conventional return safety confirmation process performed by the MPU 8 will be explained with reference to the flowchart of FIG. 4. First, in step S1, the gas user closes the gas appliance's pot C to finish using the gas, and then determines whether the valve closing switch _SW2 has been operated. If the determination in step S1 is YES, the MPU 8 provides a drive signal to the pulse control circuit 14, and the control circuit 14 outputs a control signal _PH2 to the valve cutoff pulse output circuit 7.
The output circuit 7 then operates and closes the gas cutoff valve 1.

Next, the process proceeds to step S2, in which it is determined based on the output from the open/close detection circuit 10 whether the gas cutoff valve 1 is closed. If the determination is NO and the valve is not closed, the valve close lamp _L2 is blinked and the buzzer B is sounded in step S3. If the judgment is YES and the valve is closed, proceed to step S4 and turn on the valve close lamp _L2.
lights up. After step S4, the process proceeds to step S5, in which it is determined whether the valve opening switch _SW1 has been operated when the gas user intends to use gas again. If the judgment in step S5 is YES
The MPU 8 gives a drive signal to the pulse control circuit 14, and the control circuit 13 outputs a control signal PH ₁ to the valve return pulse output circuit 6. Then, the output circuit 6 operates to open the gas cutoff valve 1.

Next, the process proceeds to step S6, in which it is determined based on the output from the open/close detection circuit 10 whether the gas cutoff valve 1 is open. If the determination is NO and the valve is not closed, the valve open lamp _L1 is blinked and the buzzer B is sounded in step S7. If the judgment is YES and the valve is closed, proceed to step S8 and the valve close lamp _L2 will be displayed.
Turn off the light and turn on the valve open lamp _L1 .

After processing step S8, proceed to step S9,
After clearing the timer in MPU8, step S10
The timer is driven to perform a timing operation. Next, the process proceeds to step S11, and it is determined whether a predetermined period of time (for example, 2 minutes) has elapsed based on the time count of the timer, and if the determination is NO, the process proceeds to step S12. Step S12
Then, based on the output of the flow rate pulse generation circuit 9, it is determined whether gas flows to the downstream piping D and a flow rate pulse is generated. If no flow rate pulse occurs, the determination in step S12 becomes NO and the process returns to step S11. Also, in step S12, the flow rate pulse is 1.
If at least one occurs, the determination becomes YES, and the pulse control circuit 14 is operated in step S13 to output the control signal _PH1 to drive the valve cutoff pulse output circuit 7 and open the cutoff valve 1.

Next, the process advances to step S14, where the display circuit 13 and buzzer drive circuit 12 are driven to blink the alarm lamp _L3 and sound the buzzer B, and the process proceeds to the next step.
In S15, the valve opening lamp _L1 is turned off. Next, the process advances to step S16, where the abnormal signal output circuit 15
is driven to output an abnormality detection signal to the transmission device 16. Transmission device 16 that received this abnormality detection signal
reports the abnormality to the gas company's central monitoring center via a telephone line (not shown).

When the central monitoring center receives a report, the gas company calls the user's home to confirm and dispatches personnel depending on the situation.

Through the above recovery safety confirmation processing in steps S6 to S16, the gas tank C is closed, and the gas cutoff valve 3 is opened with the gas cutoff valve 1 closed, so that the upstream pipe D' is connected through the gas cutoff valve 3. If gas does not flow into the downstream piping D, it is determined that it is normal, and gas can be used by opening the pot C of the gas appliance. If gas flows, it is determined that there is a gas leak, and the gas cutoff valve 1 is closed, the transmission device 16 notifies the central monitoring center via the telephone line, and the alarm lamp L ₃ and buzzer B are activated. to give a warning to the user.

[The problem that the idea aims to solve]

In the conventional device described above, the gas cutoff valve 1
If even one gas flow pulse is generated by the flow rate pulse generation circuit 9 after the valve is opened, it is determined that a gas leakage state has occurred.

However, if gas cutoff valve 1 closes for some reason when gas is being used normally with Kotuku C open, the gas filled in downstream piping D will escape and the system will be in normal condition. Also, gas is introduced into the pipe D when the gas cutoff valve is opened. At this time, if the volume of the pipe D is large, the flow rate pulse generation circuit 9 may output a flow rate pulse due to the introduced gas. Normally, this flow rate pulse is output every approximately 1 gas flow rate, so especially when the volume of the pipe D is large, a plurality of flow rate pulses will be generated.

If such a flow rate pulse occurs, it will be erroneously determined that a gas leak is occurring, and a false alarm will be output to the central monitoring center, which is undesirable for the gas supplier as well in terms of management.

Therefore, the present invention provides a gas supply system that
An object of the present invention is to provide a return safety confirmation device for a gas supply system that accurately performs a return safety confirmation operation when a gas cutoff valve is closed.

[Means to solve the problem]

As shown in the basic configuration diagram of FIG. 1, the recovery safety confirmation device for a gas supply system, which has been developed according to the present invention to solve the above problems, includes a gas cutoff valve 1 that controls the supply and cutoff of gas, and a gas cutoff valve 1 that controls the supply and cutoff of gas. The gas cutoff valve 1 is equipped with a pipe D provided on the downstream side of the cutoff valve 1 and a stop C provided at the tip of the pipe D, and when the gas cutoff valve 1 which is in the closed state with the contact C closed is opened. In the return safety confirmation device for a gas supply system that detects the gas flow rate in the pipe D to confirm safety at the time of return, the flow rate detects the gas flow rate in the pipe D and outputs a flow rate pulse every predetermined gas flow rate. pulse generating means 9 and the gas cutoff valve 1
A clock means 8a starts counting a certain period of time when the valve of the gas cutoff valve 1 is opened, and a flow pulse generated by the flow pulse generating means 9 is counted when the gas cutoff valve 1 is opened. The gas cutoff valve 1 is characterized by comprising a control means 8b that automatically shuts off the gas cutoff valve 1 when the gas reaches a predetermined value or more before the end of a fixed time measurement.

[Effect]

With the above configuration, when gas is introduced into the pipe D after the gas cutoff valve 1 is opened, the flow rate pulse generating means 9 generates a flow pulse corresponding to the flow rate of the gas introduced into the pipe D. However, since this flow rate pulse is smaller than the flow rate pulse in an abnormal state such as a gas leak, the flow rate pulse counted by the timer 8a during a certain period of time measurement will never exceed a predetermined value, so the control means 8b does not cause the gas cutoff valve 1 to be cut off.

In addition, when an abnormality such as a gas leak occurs, the number of flow rate pulses generated during the time measurement by the timer 8a increases and exceeds a predetermined value, so the control means 8b is in an abnormal state. It is judged that there is a gas cutoff valve 1 and the gas cutoff valve 1 is automatically cut off.

〔Example〕

Hereinafter, embodiments of the present invention will be described based on the drawings.

In the present invention, the configuration example is the same as that shown in FIG. 2, and the processing performed by the MPU 8 is as shown in the flowchart of FIG. 3.

The operation of the embodiment will be described below with reference to this flowchart. In FIG. 3, step S18 is processed instead of step S12 in the flowchart of FIG.

In step S18, when a flow rate pulse is generated after the gas cutoff valve 1 is opened, the number of flow rate pulses is compared with a predetermined number n (for example, 5 pulses);
When the number n is smaller than the predetermined number n, the process returns to step S11. Therefore, if the flow rate pulse is smaller than the predetermined number n set in step S18 within the predetermined time set in step S11, it is not judged as an abnormal state.
Even if gas is introduced into the flow rate pulse generation circuit 9 and a flow rate pulse is generated, the number of pulses is small under normal conditions and is equal to or less than the predetermined number n, so that false detection will not occur.

As is clear from the flowchart in Figure 3,
The MPU 8 not only functions as a timer 8a that starts measuring a certain period of time when the gas cutoff valve 1 is opened, but also counts the flow rate pulses generated by the flow rate pulse generation circuit 9 from the time the gas cutoff valve 1 is opened. It functions as a control means 8b that automatically shuts off the gas cutoff valve 1 when the counted value reaches a predetermined value or more before the end of the constant time measurement by the timer 8a.

As mentioned above, when the flow rate pulse that occurs within a certain period of time after the valve opens exceeds a predetermined value, it is determined that an abnormal condition exists and the gas cutoff valve 1 is shut off. When a large amount of gas leaks due to damage, the flow rate pulse exceeds a predetermined value in a short period of time, and the gas cutoff valve 1 can be shut off immediately, which is extremely safe.

〔effect〕

As explained above, according to the present invention, even if gas is introduced into the downstream piping when the gas cutoff valve is opened, a leakage state will not be mistakenly detected, and the return safety confirmation operation will be performed accurately. It can be carried out.

In particular, since the presence or absence of an abnormal condition is determined based on whether or not the flow rate pulse exceeds a predetermined value during a certain period of time after the gas cutoff valve is opened, a large amount of damage may occur due to pipe damage. When a gas leak occurs, the gas cutoff valve can be shut off immediately to ensure safety.

[Brief explanation of the drawing]

Fig. 1 shows the basic configuration of the gas supply system return safety confirmation device according to the present invention, Fig. 2 is a block diagram showing an embodiment of the device according to the present invention and an example of the configuration of a conventional device, Fig. 3 is a flow chart showing an example of the processing performed by the MPU in Fig. 2 according to the present invention, and Fig. 4 is a flow chart showing the conventional processing performed by the MPU in Fig. 2. 1... Gas shutoff valve, 8a... Timing means (MPU), 8b... Control means (MPU), 9... Flow pulse generating means (flow pulse generating circuit), C...
...Knock, D...Plumbing.

Claims (1)

[Scope of claim for utility model registration] A gas cutoff valve that controls gas supply and cutoff;
Gas in the piping is provided with a pipe provided on the downstream side of the gas cutoff valve and a stop provided at the tip of the pipe, and when the gas cutoff valve, which is in a closed state with the stop closed, is opened. A return safety confirmation device for a gas supply system configured to detect the flow rate and confirm safety upon return, comprising a flow rate pulse generating means for detecting the gas flow rate in the piping and outputting a flow rate pulse every predetermined gas flow rate; a timer that starts counting a certain period of time when the gas cutoff valve is opened, and a flow pulse generated by the flow rate pulse generator from the time the gas cutoff valve is opened, and the counted value is determined by the timer. 1. A return safety confirmation device for a gas supply system, comprising: a control means that automatically shuts off the gas cutoff valve when the gas reaches a predetermined value or more before the end of a predetermined time measurement.