JPS6366000B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a gas leak centralized monitoring system,
In particular, the present invention relates to a gas leak central monitoring system in which a two-wire line connects a gas leak alarm terminal and a central monitoring panel.

In the conventional gas leak centralized monitoring system, the gas leak alarm terminal and the central monitoring panel are connected by a two-wire line.
Even if it is possible to identify whether the gas leak alarm is normal or not leaking, it is impossible to detect whether the gas leak alarm is properly powered or whether the above line is disconnected. It was possible. Said 4
In the case of detecting the gas leakage state and the non-gas leakage state of the gas leakage alarm, the presence or absence of power supply to the gas leakage alarm, and the presence or absence of line disconnection,
A three-wire line was used to connect the gas leak alarm terminal and a central monitoring panel to detect the four types of conditions mentioned above.
Although it is possible to detect the operating status of the gas leak alarm itself with a two-wire line, it has the disadvantage that it cannot detect the status of the power supply voltage applied to the gas leak alarm and whether the line is disconnected. Therefore, in order to detect the power supply voltage application state and the presence or absence of line disconnection, there was a problem that the line had to be of a three-wire type. This three-wire system has the disadvantage that the wiring is complicated and requires time and effort, making the entire gas leakage central monitoring system expensive.

Therefore, the present invention aims to eliminate the above-mentioned drawbacks, and provides a system in which the above-mentioned four types of states can be detected by connecting the terminal of a gas leak alarm and a central monitoring panel with a two-wire line. The purpose is to provide a centralized gas leak monitoring system. Therefore, the gas leak centralized monitoring system of the present invention includes a gas leak alarm whose output voltage is different between a gas leak and a normal state, and a terminal of the gas leak alarm and a terminal of the gas leak alarm. In a gas leak centralized monitoring system that is connected to a centrally managed central monitoring board via a two-wire line, the system is connected to the line and receives a status signal sent in response to the status of the gas leak alarm and the line. a first photo coupler connected to the line via a zener diode and receiving the status signal;
A signal discrimination circuit that identifies the state of the gas leak alarm and the line according to the current flowing through the first and second photo couplers, and when the potential difference between the two lines disappears, and a signal discrimination circuit that applies an external voltage to one line and discriminates whether the power supply voltage is applied to the gas leak alarm and whether or not the line is disconnected depending on the presence or absence of a voltage appearing on the other line. Features.

The features of the invention will become clearer from the following description of the illustrated embodiments.

The drawing shows the circuit configuration of an embodiment of the centralized monitoring system according to the present invention. The reference numeral 1 in the figure is a central monitoring board, and a terminal 3 of a gas leak alarm is connected to the central monitoring board 1 via a two-wire line 2. A plurality of gas leak alarm terminals 3 are connected to the centralized monitoring panel 1 via two-wire lines 2, but in the figure, one gas leak alarm terminal 3 is connected to the central monitoring panel 1 by way of example. It is shown. The terminal 3 of the gas leak alarm is connected to the gas leak alarm 4 and the resistor 5.
and a diode 6. When the gas leak alarm 4 is in a normal state, the gas leak alarm 4
outputs a DC voltage V ₁ . Further, when the gas leak alarm 4 detects a gas leak, the gas leak alarm 4 outputs a DC voltage V ₂ (V ₂ >V ₁ ).
When the power supply voltage is not applied to the gas leak alarm 4, no output is output from the gas leak alarm 4.

As shown in the figure, a first photo coupler 8 is connected to the central monitoring panel 1 via a resistor 7 to the cathode side of a diode 6 in the terminal 3 of the gas leak alarm. The collector side of the photo transistor of the photo coupler is connected to a power supply, while the emitter side is connected to a first signal discrimination circuit 9 for a state signal and a second signal discrimination circuit 10 as a gate circuit via a point A. It is connected to the. Furthermore, the terminal 3 of the gas leak alarm is equipped with a Zener diode 11.
is connected to the second
It is connected to the photo coupler 13 of. The emitter side of the photo coupler is connected to the first
and second signal discrimination circuits 9 and 10. First and second photo couplers 8 and 13
and is grounded via resistors 14 and 15.

The second signal discrimination circuit 10 is further connected to an operation delay circuit 16 via point C, to a third signal discrimination circuit 17 consisting of a gate circuit, and to a transistor 18 via a resistor. There is. The collector side of the transistor is a relay 19.
The emitter side is grounded. Relay 19 is connected to a power source. This relay 19
is controlled by the transistor 18 by the operation delay circuit 16.
It is designed to operate with some time delay. Based on the operation of relay 19,
Gas leak alarm terminal 3 and photo coupler 8/1
The normally open relay contacts 20 connected to the two-wire circuits 2 and 3 are closed. Further, one relay contact 20 is connected to a power source E, and an external voltage is applied thereto. The other relay contact 20 is connected to the transistor 21 from point D and is grounded via a resistor 22. The emitter side of the transistor 21 is connected to a resistor 23.
and the third signal discrimination circuit 1
7 is connected.

The operation of the gas leak centralized monitoring system of the present invention configured as described above can be performed in four states: operation when the gas leak alarm 4 is in a normal state in which no gas leak is detected; The operation when the is detecting a gas leak, the operation when the two-wire line 2 connecting the central monitoring panel 1 and the terminal 3 of the gas leak alarm is disconnected, and Each operation in a state where power supply voltage is not supplied to the gas leak alarm device 4 will be explained.

() When the gas leak alarm is in a normal state and does not detect a gas leak.

When the gas leak alarm 4 does not detect a gas leak, the DC voltage V ₁ is output as described above. At this time, this DC voltage V ₁ is smaller than the Zener voltage V _Z of the Zener diode 11 (V _Z >V ₁ ). Therefore, since only a small current flows through the Zener diode 11, only the photo coupler 8 of the two photo couplers 8 and 13 operates. As a result, an "H" level voltage appears at point A on the input side of the first signal discrimination circuit 9, and an "L" level voltage appears at point B, and the first signal discrimination circuit 9 detects the gas. The normal status of the leak alarm 4 is displayed.

() When the gas leak alarm is detecting a gas leak.

When the gas leak alarm 4 detects a gas leak, it outputs the DC voltage V ₂ as described above, and the DC voltage V ₂ is larger than the Zener voltage V _Z of the Zener diode 11 (V ₂ ＞V _Z ). Therefore, two photo couplers 8,1
3 operate together, and a large current flows through the diode of each photo coupler. As a result, "H" level voltage appears at both points A and B on the input side of the first signal discrimination circuit 9, and this time, The first signal discrimination circuit 9 provides an alarm display indicating the state of gas leakage.

() When the two-wire line connecting the central monitoring panel and the terminal of the gas leak alarm is disconnected, or when the power supply voltage is not supplied to the gas leak alarm.

If no power supply voltage is supplied to the gas leak alarm 4 of the terminal, its output will be 0V, and as a result, the two photo couplers 8 and 13 will not operate, and the voltage at points A and B on the input side will be 0V. becomes "L" level. In this case, the first signal discrimination circuit 9 cannot clearly distinguish between a disconnection of the line 2 and a state in which the power supply voltage is stopped. At this time, the second signal discrimination circuit 10 consisting of a gate circuit operates based on the combination of the signal values at points A and B on the input side (both A and B are "L" level, that is, output 0), and the second signal discrimination circuit 10 is activated to become "H" level. voltage appears at point C on its output side. This "H" level voltage is then supplied to the third signal discrimination circuit 17, and
On the other hand, the relay 19 is operated through the transistor 18 with some time delay via the operation delay circuit 16. Based on this relay operation, relay contact 20 closes and external voltage E is supplied.

At this time, if the two-wire line 2 is disconnected, no voltage will appear at point D on the input side of the transistor 21, and no voltage will appear at point D on the input side of the transistor 21, and the voltage will not be applied from the second signal discrimination circuit 10 to the third signal discrimination circuit 17. Since the other input is at the "H" level as described above,
For "L" and "H", only the "L" level output appears at the output side F point of the third signal discrimination circuit 17, which indicates that the two-wire line 2 is disconnected. . On the other hand, if the two-wire system line 2 is not disconnected, when the relay contact 20 is closed by the operation of the relay 19, the external voltage E is passed through the line 2 via the resistor 5 to the input side of the transistor 21. appears as an "H" level at point D, and furthermore, this "H" level voltage and the "H" level voltage from the second signal discrimination circuit 10 combine to produce an "H" level and an "H" level. From this combination, an "H" level output voltage appears at point F on the output side of the third signal discrimination circuit 17. In other words, the relay 19 operates and the relay contact 20
When closed and passing external voltage E to line 2,
When the "H" level output voltage of the status signal appears at point F on the output side of the third signal discrimination circuit 17, it indicates that the power supply voltage is not being supplied to the gas leak alarm 4, and the above-mentioned This is distinguished from the state in which the two-wire system line 2 is disconnected.

In this way, depending on the voltage appearing on the input side of the first signal discrimination circuit 9, first, when the gas leak alarm 4 is in a normal state in which it does not detect a gas leak, and when the gas leak alarm 4 is in a normal state in which it does not detect a gas leak. In addition, the second
The central monitoring panel 1 and the terminal 3 of the gas leak alarm are connected depending on the presence or absence of the voltage on the output side of the third signal discrimination circuit 17 when an external voltage is applied to the line 2 via the signal discrimination circuit 10. The two-wire line 2 connected to the gas leak alarm 4 is disconnected and the gas leak alarm 4 is not supplied with power supply voltage. Four states can be identified, allowing for centralized monitoring.

As described above, according to the present invention, it is possible to monitor four states with a two-wire line, requiring one less wire than the conventional three-wire line, simplifying construction work, and reducing wiring. Fewer wires are required. Therefore, the total cost of the gas leakage centralized monitoring system can be reduced.

[Brief explanation of drawings]

The drawing shows a circuit configuration as an embodiment of a centralized monitoring system according to the present invention. 1... Central monitoring panel, 2... 2-wire line, 3... Gas leak alarm terminal, 4... Gas leak alarm, 8,1
3...Photo coupler, 9,10,17...Signal discrimination circuit, 11...Zena diode, 18,21...
Transistor, 19...relay, 20...relay contact.

Claims (1)

[Claims] 1. Equipped with a gas leak alarm whose output voltage differs between when there is a gas leak and when it is normal, and where there is a 2. In a gas leak centralized monitoring system connected by a wired line, a first photo coupler connected to the line and receiving a status signal sent in response to the status of the gas leak alarm and the line, and the line a second connected through a Zener diode to receive the status signal;
photo coupler and the first and second photo couplers.
A signal discrimination circuit that identifies the state of the gas leak alarm and the line according to the current flowing through the coupler, and applies an external voltage to one of the two lines when the potential difference between the lines disappears; A gas leak centralized monitoring system comprising: a signal discrimination circuit that discriminates whether a power supply voltage is applied to the gas leak alarm and whether the line is disconnected depending on the presence or absence of a voltage appearing on the other line.