JPH0596747U - Gas leak alarm shutoff device - Google Patents

Abstract

(57) [Summary]   Because it is an application before electronic filing There is no abstract / selection drawing and applicant identification number.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial field of application] The present invention relates to a gas leak alarm shutoff device which detects a gas leak and issues an alarm and closes a gas shutoff valve, and is particularly supplied through a gas meter. The present invention relates to a gas leak alarm cutoff device that detects a gas leak by distinguishing gas from gas caused by other factors.

[Prior Art] Conventionally, a gas leak alarm device, which detects a gas by a gas sensor and issues an alarm, is widely used to inform a user of a gas leak. This gas leak alarm is for detecting LP gas and city gas components, which are mainly used as household fuels, and reacts particularly well to propan and isobutane, which are the main components of LP gas.

 In addition, recently, a system (gas leak alarm shutoff device) that shuts off gas when a gas leaks has been developed by combining a gas leak alarm and a gas circuit breaker, and its spread has begun. This device closes the gas cutoff valve built into the gas meter after a certain time (about 40 seconds) has passed since the gas leak was detected.

[Problems to be Solved by the Invention] However, this type of gas leak alarm cutoff device has the following problems. That is, since the gas leak alarm also responds to the insecticide spray containing isobutane as a main component, the gas leak alarm may give a false alarm when these insecticide sprays are used indoors. Further, the gas leak signal from the alarm device may cause the gas circuit breaker to operate, resulting in erroneous disconnection, which makes it extremely inconvenient to use.

 Further, in the conventional gas leak alarm cutoff device, in order to connect the gas leak alarm and the gas breaker, three systems for the cutoff valve drive coil for driving the gas cutoff valve, the flow rate sensor and the answer switch are required. .. In this case, the number of signal lines will increase to more than 4 cores, the wiring will be easy to make mistakes, and the construction cost will be high.

 The present invention has been made in view of such circumstances, and an object of the present invention is to prevent erroneous shutoff due to insecticide spray and the like, and to provide a gas leak alarm and a gas circuit breaker. It is to provide a device for shutting off a gas leak alarm that can facilitate the connection with the.

[Means for Solving the Problems] The essence of the present invention is to compare and compare the detection output of the gas sensor with various operation signals of the gas meter (indicating the usage status of the gas, the open / close status of the gas shutoff valve, etc.) Leak detection is to be distinguished from gas detection by insecticide spray.

 That is, the present invention provides a gas leak alarm device that detects a gas leak and gives an alarm, and a gas circuit breaker that shuts off the gas supply in response to a signal supplied from the gas leak alarm device. In a leak alarm cutoff device, the gas breaker is connected between two terminals connected to the gas leak alarm, and the gas cutoff valve is closed when the voltage between the terminals exceeds a predetermined value. And a gas flow switch that is inserted between one of the terminals and the shutoff valve drive coil and that repeats on and off when gas is in the supply state. Gas leak judgment circuit that judges gas leak based on the output of the above, an alarm circuit that issues an alarm when this judgment circuit judges that there is a gas leak, and the threshold of the shutoff valve drive coil between the two terminals of the gas circuit breaker. Than value A pull-up circuit that applies a low DC voltage, a chattering prevention circuit that converts the change in voltage between the two terminals due to on / off of the gas flow switch of the gas circuit breaker into a rectangular pulse, and a gas leakage determination circuit When there is a leak, the pulse from the chattering prevention circuit is counted, and when the count value exceeds a certain value, a shutoff instruction signal is output and the gas leak determination circuit causes a gas leak. If a timer circuit that outputs a shutoff instruction signal after a certain period of time that is determined to be and a shutoff signal from the integrating circuit or the timer circuit are input, a shutoff pulse voltage higher than the threshold value of the shutoff valve drive coil is generated, Resets the operation of the cutoff pulse generation circuit that supplies this cutoff pulse voltage between the two terminals of the gas circuit breaker, and the integration circuit and the timer circuit. It is configured to include a reset switch.

[Operation] In general, when supplying gas to a house, the gas is supplied from a gas supply pipe or a gas cylinder through a gas meter. The gas meter is for measuring the amount of gas used and charging the fee, and is installed in most cases. If a gas leak occurs inside the house, the leaked gas has passed through the gas meter, so the gas meter is naturally operating. On the other hand, the gas meter does not work even if a pesticide spray is used. In other words, by monitoring both the gas meter operation signal (indicating the gas supply state) and the gas sensor detection signal, it is possible to determine whether gas detection is due to an insecticide spray or the like.

By closing the gas shutoff valve only when both signals are detected, it is possible to prevent false shutoff.

 In addition, if a pesticide spray is used when using gas, it may be detected as a gas leak even if it is not the original gas leak, resulting in erroneous shutoff. In this case, in the present invention, since the cutoff pulse is generated by the integrating circuit when the gas supply amount exceeds a certain value, the above false cutoff can be prevented. In other words, the gas detection by insecticide spraying is only for a very short time compared to the original gas leakage, so that the integrating circuit does not generate the interruption pulse during this time.

 Further, in the present invention, since the gas leak alarm and the gas breaker are configured as described above, it is sufficient to connect the gas leak alarm and the gas breaker with two wires.

For this reason, the possibility of incorrect connection can be reduced, and the construction cost can be reduced.

[Embodiment] An embodiment of the present invention will be described below with reference to the drawings.

 FIG. 1 is a block diagram showing the basic configuration of a gas leak alarm cutoff device according to an embodiment of the present invention. In the figure, 1 is a gas leak alarm installed at a predetermined position in the room, 2 is a gas circuit breaker incorporated in the gas meter, and 3 is a gas cutoff valve installed in the gas meter. The basic operation is the same as the conventional one. When the gas leak alarm 1 detects a gas leak, the gas breaker 2 drives a shut-off valve drive coil (not shown), which causes the gas shut-off valve 3 to operate. Is closed.

 Next, a specific structure of this embodiment will be described with reference to FIGS. 2 and 3.

 FIG. 2 is a circuit diagram showing a specific configuration of the gas circuit breaker 2. This circuit is connected to the gas leak alarm 1 at two terminals A and B. Between these terminals A and B, a shutoff valve drive coil 21 for driving the gas shutoff valve 3 and a gas flow switch (flow rate sensor) 22 are connected in series. A protective resistor 23, an answer switch 24, and a display LED 25 are connected in series between the terminals A and B.

 Here, the gas flow switch 22 is repeatedly turned on and off by the operation of the gas meter (during gas supply), and the on-off cycle is, for example, 0.7 l. The answer switch 24 is turned on when the gas cutoff valve 3 is closed, and the LED 25 is turned on when the switch 24 is turned on. The protection resistor 23, the answer switch 24, and the display LED 25 are not always necessary, and can be omitted.

 FIG. 3 is a circuit diagram showing a specific configuration of the gas leak alarm. In the figure, 31 is a surge circuit, 32 is a power supply circuit for obtaining a DC power supply from a commercial AC power supply, and a DC current is supplied from this power supply circuit 32 to each part. Reference numeral 33 denotes a gas sensor for detecting gas. The detection signal of the gas sensor 33 is amplified by the amplification circuit 34 and then supplied to the gas leakage determination circuit 35. The gas leakage determination circuit 35 detects the presence or absence of gas leakage from the gas detection output, and the determination output of this determination circuit 35 is supplied to the buzzer circuit 37 via the delay circuit 36 and also to the lamp circuit 38. It

The buzzer circuit 37 calls the buzzer, and the lamp circuit 38 turns on or off the lamp.

The determination output of the gas leakage determination circuit 35 is the chattering prevention circuit 39, the integrating circuit 40, the timer circuit 41, the transistors Q _{1 to} Q ₃ , the diodes D _{1 to} D ₃ , the resistors R _{1 to} R ₃ , the capacitors. It is supplied to a gas cutoff pulse generation unit including C ₁ , C ₂ , reset switch SW ₁ , varistor BR ₁ , AND gates AND ₁ , AND ₂ and OR gates OR ₁ , OR ₂ . This gas interruption pulse generator is connected to the terminals A and B of the gas circuit breaker 2 and is obtained from the gas leakage signal from the gas leakage judgment circuit 35 and the chattering prevention circuit 39 from the gas circuit breaker 2 side. Based on the flow rate signal generated, a gas shutoff pulse of a sufficient magnitude to drive the shutoff valve coil 21 is sent between the terminals A and B.

Here, D ₂ and R ₃ are for pulling up the terminal A, so that a constant DC voltage is applied to the terminal A. When the gas flow switch 22 of the gas circuit breaker 2 is turned on, the voltage at the terminal A drops due to the voltage drop due to R ₃ , and this change in voltage is detected by the chattering prevention circuit 39. Then, when the flow rate switch 22 is repeatedly turned on and off in the gas use state, the chattering prevention circuit 39 supplies a pulse (flow rate signal) corresponding to the on-off state to the AND ₁ . The the AND ₁ is input is determined output of the gas leak judgment circuit 35, the AND ₁ is boil integrating circuit 40 to the flow rate signal only when the gas leak. Normally, the flow signal is not accepted (when there is no gas leakage).

The integrating circuit 40 counts the flow rate signal and outputs a shutoff instruction signal to the AND ₂ when it reaches a preset value. For example, it is composed of a binary binary counter (16, 32, 64 division, etc.). Has been done.

The AND ₂ inputs the determination output of the gas leak determination circuit 35, and this AND ₂ sends the output signal of the integrating circuit 40 to OR ₁ and OR ₂ only when the gas leaks.

The output signal of OR ₁ is supplied to Q ₂ described later. The output signal of OR ₂ is sent to the multiplication circuit 40 and the timer circuit 41 as a reset signal. The timer circuit 41 sends a shutoff instruction signal to the OR ₁ after a certain time after receiving the gas leak signal from the gas leak determination circuit 35. SW ₁ , C ₂ , and R ₂ form a reset circuit, and the output of this reset circuit is sent to OR ₂ . Therefore, when the integrating circuit 40 reaches the set value or when the reset SW ₁ is pressed from the outside, the integrating circuit 40 and the timer circuit 41 are reset. Then, this reset delays the generation of the cutoff pulse.

R ₁ , C ₁ , Q _{1 to} Q _{3 form} a cutoff pulse generation circuit. Normally, C ₁ is not charged, so that even if Q ₂ and Q ₃ are turned on due to noise or the like, a cutoff pulse is not generated. In state C ₁ when being leaked gas is charged, when Q ₂ is turned on by the output of OR _1, charge of C ₁ Ri by the conduction of Q ₃ is supplied to the terminal A, which shut-off valve as a blocking pulse voltage It is supplied to the drive coil 21. D ₃ and BR ₁ act as an output protection circuit.

 Next, the operation of the present apparatus configured as described above will be described.

First, when the gas leak determination circuit 35 determines that there is a gas leak, the lamp circuit 38 lights or blinks the lamp L, and the delay circuit 36 and the buzzer circuit 37 call the buzzer B after a lapse of a predetermined time. Further, AND ₁ and AND ₂ as gate circuits are opened, and charging of C ₁ is started.

 Here, if the gas is not used, the gas flow switch 22 does not repeatedly turn on and off, so that the integrating circuit 40 does not count up.

Therefore, the integrating circuit 40 does not generate the cutoff instruction signal, and the cutoff pulse generating circuit does not operate. However, for safety, the long-time timer circuit 41 operates for about 5 minutes, and then the cutoff instruction signal is supplied from the timer circuit 41 to Q ₂ via OR ₁ . It should be noted that the timer circuit 41 is adapted to repeatedly generate the interruption signal as long as the gas leakage continues. The operation of the timer circuit 41 can be reset by operating the reset SW ₁ described later.

 On the other hand, if gas is used, the gas flow switch 22 is repeatedly turned on and off, the chattering prevention circuit 39 sends a flow rate signal, and the integration circuit 40 starts counting.

Here, when the value reaches a preset value, the cutoff instruction signal is output from the integrating circuit 40. The blocking indication signal Q ₂ is turned on, blocking pulse voltage is generated, the shut-off pulse voltage is supplied to via the terminals A, B to the gas circuit breaker 2. Then, the gas shutoff valve 3 is closed. In this case, the cutoff timing is not decided by time as in the past, but the cutoff is performed when the gas flow rate reaches a certain value.

At the same time as the cutoff instruction signal is output from the integrating circuit 40, the integrating circuit 40 is reset via OR ₂ to prepare for the next count. Normally, once it is cut off, the flow rate signal does not come, so it is not counted up.

Further, for example, if the user uses an insecticide spray or the like while the gas is normally used, the gas sensor 33 reacts to this, and it is inevitable that the gas sensor 33 is shut off if left as it is. However, if you do not want to shut off the gas because it is in normal use and not a gas leak, you can further extend the time to shut off by pressing the reset SW ₁ . Since gas detection with an insecticide spray or the like takes a very short time, if the gas sensor 33 does not react at the time of pressing the reset SW ₁ , the gas will not be shut off. Since SW ₁ constitutes a differentiating circuit together with C ₂ and R ₂ , even if SW ₁ is continuously pressed, it is accepted only once, and mischief or the like can be prevented.

 As described above, in the present embodiment, the gas shutoff is performed only when the gas leak is detected when the gas is used, so that the erroneous shutoff due to the use of the insecticide spray can be eliminated. Therefore, the reliability as an alarm device can be improved and the usability can be improved. Furthermore, when an erroneous gas leak is detected by using an insecticide spray when using gas, the user can press the reset switch to prevent the gas shutoff valve from shutting off.

 Further, as the gas flow switch and the answer switch, those normally provided in the gas circuit breaker 2 can be used, and the configuration of the gas circuit breaker 2 can be simplified. Moreover, only two signal lines are required to connect the gas leak alarm 1 and the gas circuit breaker 2. Even in this case, the flow rate signal and the valve answer signal can be obtained, and the shutoff pulse can be monitored and controlled. For this reason, misconnections can be reduced and construction costs can be reduced.

 Next, another embodiment of the present invention will be described with reference to FIGS. FIG. 4 is a circuit diagram showing a specific configuration of the gas circuit breaker 2. This circuit differs from the circuit shown in FIG. 2 in that a diode of the illustrated polarity is connected in parallel to the flow rate sensor 22. Further, the protection resistor 23, the answer switch 24 and the display LED 25 are omitted.

FIG. 5 is a circuit diagram showing a specific configuration of the gas cutoff pulse generator. Basically, it is the same as that in FIG. 3, and the difference is in the configuration of the cutoff pulse generation circuit. That is, the cutoff pulse generating circuit of this embodiment is composed of R ₁ , R ₄ , C ₁ , and Q _{1 to} Q _3, and the emitter of Q ₂ is connected to the collector of Q ₁ via R ₄ instead of ground. There is. A reverse voltage generating circuit 42 is connected to the emitter of Q ₁ . Further, the diode D ₁ is in the opposite direction to the previous embodiment, and the diode D ₃ is omitted.

 In such a structure, the shut-off pulse signal causes a current to flow in the shut-off valve coil 21 in a direction opposite to that in the previous embodiment, and operates in substantially the same manner as in the previous embodiment. Therefore, the same effect as that of the previous embodiment can be obtained.

 In addition to this, the present embodiment has the following advantages. That is, in the above embodiment, when the gas leak is determined and the shutoff pulse is generated, when the flow sensor 22 is open (including a failure), the shutoff is not performed until the flow sensor 22 is turned on. On the other hand, in the present embodiment, since the cutoff pulse is supplied to the coil 21 via the diode 26, the cutoff can be surely cut off regardless of whether the flow rate sensor 22 is ON or OFF.

 It should be noted that the present invention is not limited to the above-described embodiments, and various modifications can be carried out without departing from the scope of the invention. For example, the set value of the integrating circuit and the set time of the timer circuit may be appropriately set in consideration of safety. Further, the circuit configuration of the gas cutoff pulse generating section shown in FIG. 3 and FIG. 5 can be appropriately changed according to the specifications.

[Advantages of the Invention] As described in detail above, according to the present invention, by comparing and collating the detection output of the gas sensor and the operation signal of the gas meter, it is possible to prevent erroneous interruption due to an insecticide spray or the like. Therefore, it becomes possible to realize a highly reliable gas leak alarm shutoff device. In addition, the gas leak alarm and the gas circuit breaker can be connected by two wires, which facilitates the connection.

[Brief description of drawings]

 FIG. 1 is a block diagram showing the basic constitution of a gas leakage alarm cutoff device according to an embodiment of the present invention, FIG. 2 is a circuit constitution diagram showing the concrete constitution of the gas breaker used in the above device, and FIG. FIG. 4 is a block diagram showing a specific configuration of a gas leak alarm used in the above device, FIGS. 4 and 5 are for explaining another embodiment of the present invention, and FIG. 4 is a gas circuit breaker. FIG. 5 is a circuit configuration diagram showing the specific configuration of FIG. 5, and FIG. 5 is a block diagram showing the specific configuration of the gas leakage alarm device. DESCRIPTION OF SYMBOLS 1 ... Gas leak alarm device, 2 ... Gas breaker, 3 ... Gas cutoff valve, 21 ... Cutoff valve drive coil, 22 ... Gas flow switch (flow sensor), 23 ... Resistor, 24 ... Answer switch, 33 ... Gas sensor, 35 ... Gas leak determination circuit, 36 ... Delay circuit, 37 ... Buzzer circuit, 38 ... Lamp circuit, 39 ... Chattering prevention circuit, 40 ... Accumulation circuit, 41 ... Timer circuit, 42 ... Reverse voltage generation circuit.

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[Procedure amendment]

[Submission date] Hira 3.4.30 Amend the simple explanation of the drawings as follows. On page 14, line 14 of the description, "Enter 40" is corrected to "Enter 40." Insert the following sentence after the last line on page 21 of the description. Further, in the gas flow switch 22 in the first embodiment,
As shown in FIG. 6, a series circuit of a plurality of diodes 26 may be connected in parallel. In this case, even if the gas flow switch 22 is open, it can be cut off, and the reverse voltage generating circuit 42 as shown in FIG. 5 is also unnecessary. Further, by connecting the plurality of diodes 26 in series, when the gas flow switch 22 is turned on and off, a voltage L-H is generated at the terminal A, and the chattering circuit 39.
The gas flow signal can be detected at. "Block diagram" on page 22, line 20 of the specification is corrected to "block diagram, FIG. 6 is a circuit configuration diagram showing a modified example of the present invention".

Claims (3)

[Scope of utility model registration request] 1. A gas leak equipped with a gas leak alarm for detecting a gas leak and issuing an alarm, and a gas circuit breaker for interrupting the gas supply according to a signal supplied from the gas leak alarm. In the alarm cutoff device, the gas breaker is connected between two terminals connected to the gas leak alarm, and the gas cutoff valve is closed when the voltage between the terminals exceeds a predetermined value. A gas flow switch that is inserted between one of the terminals and the shutoff valve drive coil and that repeats on and off when gas is in a supply state. A gas leak judging circuit for judging a gas leak based on the above, an alarm circuit for issuing an alarm when a gas leak is judged by this judging circuit, and a threshold value of a shutoff valve driving coil between two terminals of the gas circuit breaker. Too low A pull-up circuit that applies a DC voltage, a chattering prevention circuit that converts the change in voltage between the two terminals due to on / off of the gas flow switch of the gas circuit breaker into a rectangular pulse, and a gas leak determination circuit that leaks gas. Counts the pulse from the chattering prevention circuit when it is judged to be present, and outputs an interruption instruction signal when the count value exceeds a certain value, and the interruption instruction signal from this multiplication circuit is input. Then, the operation of the cutoff pulse generation circuit that generates a cutoff pulse voltage higher than the threshold value of the cutoff valve drive coil and supplies the cutoff pulse voltage between the two terminals of the gas circuit breaker and the integration circuit is reset. A gas leak warning shutoff device comprising a reset switch. 2. A gas leak equipped with a gas leak alarm for detecting a gas leak and issuing an alarm, and a gas circuit breaker for interrupting the gas supply according to a signal supplied from the gas leak alarm. In the alarm cutoff device, the gas breaker is connected between two terminals connected to the gas leak alarm, and the gas cutoff valve is closed when the voltage between the terminals exceeds a predetermined value. A gas flow switch that is inserted between one of the terminals and the shutoff valve drive coil and that repeats on and off when gas is in a supply state. A gas leak judging circuit for judging a gas leak based on the above, an alarm circuit for issuing an alarm when a gas leak is judged by this judging circuit, and a threshold value of a shutoff valve driving coil between two terminals of the gas circuit breaker. Too low A pull-up circuit that applies a DC voltage, a chattering prevention circuit that converts the change in voltage between the two terminals due to on / off of the gas flow switch of the gas circuit breaker into a rectangular pulse, and a gas leak determination circuit that leaks gas. If there is a gas leak from the chattering prevention circuit while it is determined to be present, and the gas leak determination circuit outputs the cutoff instruction signal when the count value exceeds a certain value. A timer circuit that outputs a shutoff instruction signal after a certain period of time that has been judged and the shutoff signal from the integrating circuit or the timer circuit are input, and a shutoff pulse voltage higher than the threshold value of the shutoff valve drive coil is generated. A cutoff pulse generation circuit that supplies a cutoff pulse voltage between the two terminals of the gas circuit breaker, and a reset circuit that resets the operation of the integration circuit and the timer circuit. A gas leak alarm shutoff device characterized by a set switch. 3. The cutoff pulse generation circuit discharges the electric charge of the capacitor that receives the cutoff instruction signal and the capacitor that charges the electric charge when the gas leakage judgment circuit judges that there is a gas leak. The gas leak alarm cutoff device according to claim 1 or 2, comprising a transistor that generates a cutoff pulse signal.