JPH0546881A - Gas leak detector - Google Patents

Abstract

PURPOSE:To early detect gas leak from a gas bottle and a gas passage on the upstream side of a gas meter with a convenient means. CONSTITUTION:The gas meter 4 monitors gas flow rate and a flow rate signal transmitter 9 transmits a flow rate signal. A level sensor 7 measures remaining gas in the gas bottle. A microcomputer 8 monitors gas leak with a leak decision means 14. When a flow rate signal decision means 13 decides the flow rate to be 'absent' and when the level gas sensor 7 detects the decrease of remaining gas, a leak generation signal transmitted.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a gas leakage detection device for detecting gas leakage from a gas flow path.

[0002]

2. Description of the Related Art In recent years, gas explosion accidents caused by gas leakage from gas pipes have frequently occurred. In addition, there is a leak accident due to toxic gas. Especially when there is a long distance from the gas storage facility to the gas use facility, such as in hospitals and schools, and there is a gas pipe buried underground between these locations,
There is a risk that the buried pipe may crack due to corrosion of the buried pipe or uneven settlement of the ground, causing leakage of flammable gas or medical gas. Conventionally, in order to detect the gas leakage from such a gas flow path, a pressure sensor is arranged in the gas flow path, and a predetermined fixed inspection period, for example, once a year or once every two years. Each time, the both ends of the gas flow path to be inspected are closed and the pressure in the gas flow path is increased to about 850 mmH ₂ O for LP gas or city gas, and the presence or absence of pressure drop due to leakage is inspected to detect gas leakage. ing. There is also a method of detecting a gas leak by arranging a flow rate sensor in the gas flow path and constantly monitoring the flow rate of the gas, thereby monitoring an abnormality in the gas flow rate that would not be possible under normal gas usage. ..

[0003]

However, in the method of detecting gas leakage by the periodic inspection, the leakage generated immediately after the inspection is overlooked until the next inspection, and early detection cannot be performed. That is, there are no leaks during regular inspections, or
If a leak is not found because it is a very small amount of leak, the accumulated gas will reach a dangerous amount due to long-term leak, or the corrosion of the buried pipe will increase with the passage of time and the leak amount will increase, resulting in a gas explosion risk. .. In addition, in the method of constantly monitoring the gas flow rate with a flow rate sensor to detect gas leakage, the flow rate sensor does not function when leakage occurs upstream of the flow rate sensor, so leakage is found downstream of the flow rate sensor. Even if it is possible, the upstream leakage cannot be found. As described above, in facilities such as hospitals and schools, the distance from the gas storage facility to the gas use facility is long, and in many cases there is a gas pipe buried underground. In such a case, the flow rate sensor is usually built in the gas meter of the gas use facility or fixed to the wall surface of the gas use facility. Therefore, even if a leak occurs in the buried pipe, the flow rate sensor does not function, and the gas leak cannot be detected.

[0004]

SUMMARY OF THE INVENTION The present invention has been proposed in view of the above, and it is an object of the present invention to detect a gas leak from a gas passage early and surely, and to detect the flow rate of the gas flowing in the gas passage. Flow rate sensor, and a flow rate signal transmitter that transmits the gas flow detected by the flow rate sensor as a flow rate signal,
It is composed of a level sensor for detecting the remaining amount of gas in the gas container, and a flow rate signal transmitter and a calculation means in communication with the level sensor. The calculation means is a flow rate signal for determining the presence or absence of a flow rate signal from the flow rate signal transmitter. And a flow rate signal determining means for determining that the flow rate signal is "absent", and a leak determining means for transmitting a leak signal when the level sensor detects a decrease in the remaining gas amount. To do.

[0005]

When the flow sensor detects the flow of gas, the flow signal transmitter transmits the flow signal. Further, the level sensor measures the remaining amount of gas in the gas container. In the calculation means,
The flow rate signal determining means determines the presence / absence of the flow rate signal, and when the flow rate signal is determined to be "absent", when the level sensor detects a decrease in the remaining gas amount, the leak determining means issues a leak signal.

[0006]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a schematic block diagram of an embodiment of a gas leakage detection device 1 according to the present invention. This gas leak detection device 1
Is provided with a shutoff valve 3 in the middle of the gas flow path 2, a gas meter 4 which is a flow rate sensor for detecting the flow rate of gas flowing in the gas flow path 2 is provided on the downstream side of the shutoff valve 3, and an upstream side of the shutoff valve 3 is provided. A pressure regulator 5 for adjusting the gas pressure flowing into the gas flow path 2 to a constant level is provided, and a level sensor 7 for measuring the amount of gas remaining in the gas container 6 is provided in the gas container 6. Although the shutoff valve 3 is provided between the gas meter 4 and the pressure regulator 5 in this embodiment, the shutoff valve 3 may be provided at another position, for example, on the downstream side of the gas meter 4.

Further, the gas meter 4 is electrically connected to the microcomputer 8 which is a computing means through the flow rate signal transmitter 9, and the level sensor 7, the display section 10 for displaying an abnormality and the shutoff valve 3 are provided. And are electrically connected. Further, the microcomputer 8 is supplied with drive power from the battery 11. A return safety device 12 for returning the shutoff valve 3 is connected to the shutoff valve 3 for shutting off the gas flow path 2 described above.

The above microcomputer 8 is shown in FIG.
As shown in FIG. 5, when the flow rate signal determination means 13 determines whether or not there is a flow rate signal from the flow rate signal transmitter 9, and when the flow rate signal determination means 13 determines that the flow rate is “none”, The main components are a leak determining means 14 that transmits a leak signal when the decrease in the amount is measured, a timer 15 that generates various timings, and the like.

The above flow rate signal transmitter 9 converts the mechanical movement of the gas meter 4 into an electric signal each time the gas meter 4 makes one revolution. The case where the flow rate signal transmitter 9 is provided in the membrane gas meter 4 will be described. The flow rate signal transmitter 9 includes a membrane driven by the flow of gas, a magnet rotating in conjunction with the movement of the membrane, and this magnet. And a reed switch that detects the movement of the switch and repeats on and off.
Then, when the magnet rotates in response to the flow of gas, the magnet approaches or moves away from the reed switch, and the reed switch turns on and off, and one pulse of each time the membrane makes one reciprocation, that is, every one rotation of the magnet. Send a flow signal.

The pressure adjuster 5 is a device for adjusting the gas pressure flowing into the gas passage 2 to a constant value. For example, LP
In case of gas, cylinder pressure is 0.7-15.6kg
/ Cm ³ is limited to, in order to properly burn the burner, it is necessary to supply under reduced pressure adjusting gas pressure to 200~330mmH ₂ O. Therefore, the pressure regulator 5 is attached to the outlet of the cylinder to adjust the pressure of the gas flowing into the gas passage 2.

The level sensor 7 detects the liquefied gas surface in the gas container 6 with a float, and moves the float up and down on a pointer rotating shaft 17 of a level meter 16 provided at an appropriate position outside the gas cylinder. introduce. As shown in FIG. 3, a pointer 18 is attached to the pointer rotating shaft 17 of the level meter 16.
Is rotatably attached. Further, a light receiving element 19 is attached to the front side of the pointer rotating shaft 17, and the light receiving element 1
A plurality of light emitting elements 20 are mounted on the circumference centered on 9. Further, a reflecting plate 21 is provided on the front surface of the pointer 18 so as to correspond to the light receiving element 19 and the light emitting element 20.

The gas container 6 is provided by the level sensor 7 described above.
A method for detecting the remaining gas amount in the inside will be described below. First,
The plurality of light emitting elements 20 are sequentially turned on from the end. When the light emitting element 20 at the position corresponding to the pointer lights up, the pointer 18
The reflection plate 21 provided in the above reflects the light from the light emitting element 20,
The reflected light enters the light receiving element 19. Therefore, the position of the pointer 18 can be detected by the position of the light emitting element 20 when the light receiving element 19 detects light. And
The detected position of the pointer 18 is transmitted to the microcomputer 8.

The gas leak detecting process by the gas leak detecting apparatus 1 will be described with reference to the flow chart shown in FIG. When the processing is started, the flow rate signal determining means 13 determines whether the flow rate is “absent” continuously by the timer 15 for a predetermined time. When it is determined that the flow rate is “absent” for a certain period of time, the level sensor 7 measures the level at that time, and when a certain observation time preset by the timer 15 has elapsed, the level sensor 7 measures the level again. To do.

Here, when the difference between the measured levels exceeds a predetermined fixed range, it is judged that gas leakage has occurred on the upstream side of the gas meter 4, and the gas leakage is displayed on the display unit 10. Display that it is occurring. On the other hand, if the difference between the measured levels is within a predetermined range, it is determined that no gas leakage has occurred, and the process ends.

Further, the leakage on the downstream side of the gas meter 4 can be detected by other known means, for example, by monitoring the flow rate of gas by a flow rate sensor or detecting the leaked gas by using the gas sensor. In this case, when a gas leak is detected, a leak is displayed on the display unit 10, and
The shutoff valve 3 may be shut off to stop the gas flow.

The gas leak detection device 1 described above is an LP
Besides being used as a gas container, it can also be applied to an industrial gas container such as a bulk container and an oxygen container and a medical gas container such as liquid oxygen. Further, by using a telephone line or the like to connect the microcomputer 8 installed in each facility to the monitoring center, it is possible to detect a gas leak in each facility by remote control from the monitoring center. ..

[0017]

As described above, according to the present invention, the level sensor for detecting the remaining amount of gas in the gas container is provided, and the remaining amount of gas in the gas container is reduced even though there is no gas flow in the gas passage. In this case, it is determined that a gas leak has occurred, and the gas leak is displayed. Therefore, even if the distance from the gas storage facility to the gas use facility is long and there is a gas pipe buried underground, the distance between the gas storage facility and the gas use facility is long, as in facilities such as hospitals and schools. It is possible to detect a gas leak from the gas container or the gas flow path on the upstream side early and surely.

[Brief description of drawings]

FIG. 1 is a schematic block diagram showing a configuration of a gas leakage detection device.

FIG. 2 is a schematic block diagram showing the configuration of a microcomputer.

FIG. 3 is a level meter of a level sensor, (A) is a front view and (B) is a side view showing the inside.

FIG. 4 is a flowchart illustrating a determination process.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Gas leak detection device 2 Gas flow path 4 Gas meter 6 Gas container 7 Level sensor 8 Microcomputer 9 Flow rate signal transmitter 13 Flow rate signal determination means 14 Leakage determination means

 ─────────────────────────────────────────────────── ─── Continuation of front page (72) Inventor Yuki Sugiura 2-16-4 Tadao, Machida, Tokyo Metropolitan Gas Safety Association, Liquefied Petroleum Gas Laboratory (72) Inventor Shigetada Sazawa 2-chome, Tadao, Machida, Tokyo No. 16-4 High Pressure Gas Safety Association Liquefied Petroleum Gas Research Center

Claims (1)

[Claims] 1. A flow rate sensor for detecting the flow rate of gas flowing through a gas flow path, a flow rate signal transmitter for transmitting the flow of gas detected by the flow rate sensor as a flow rate signal, and a level for detecting the remaining amount of gas in a gas container. It consists of a sensor and a calculation means that communicates with the flow rate signal transmitter and the level sensor. The calculation means is a flow rate signal determination means for determining the presence or absence of a flow rate signal from the flow rate signal transmitter and a flow rate signal determination means. A gas leakage detection device comprising: a leakage determination unit that transmits a leakage signal when a level sensor detects a decrease in the amount of remaining gas when the signal is determined to be “absent”.