JP2604763B2 - Gas shut-off device - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention automatically shuts off a gas passage when an abnormality occurs, thereby preventing explosion accidents and poisoning accidents caused by city gas, propane gas, etc. Estimate the usage fee,
The present invention relates to a gas shut-off device having a communication function of transmitting the gas safety information and gas meter data through a line.

2. Description of the Related Art As shown in FIG. 3, in this type of conventional gas shut-off device, a line interface 4 for controlling connection connection to a telephone line 1 or switching line between a telephone terminal 2 and a gas shut-off device 3 is connected to a telephone line 1. It had been. 5 is a line protector,
Reference numeral 7 denotes a communication line between the telephone 2 and the gas cutoff device 3 and the line interface 4, respectively, which is connected to a telephone line by line switching to enable information communication. Reference numeral 8 denotes a house wall.

FIG. 4 shows a configuration example of this conventional gas shut-off device. Those having the same numbers as those in FIG. 3 are components having the same functions. The gas shut-off device of No. 3 has a flow rate measuring means 9 for generating a signal in accordance with an amount of gas passing through a gas meter provided in a gas supply line, and detects a gas use state by a flow rate signal sent from the flow rate measuring means 9. A gas safety control unit 10 that outputs a shut-off signal upon determining that it is abnormal when deviating from a preset proper use condition, and a shut-off unit 11 that shuts off a gas passage according to a shut-off signal from the gas safety control unit 10. A gas flow integrating unit 12 for integrating the flow signal from the flow measuring means 9 and a first transmission control unit 13 for transmitting a signal between the line interface 4 and the gas interface are included. Also, 4
The line interface includes a second transmission control unit 14 that performs signal transmission with the gas shutoff device 3 and signal transmission with the center computer via the line, and connection control with the line or a terminal device. Line control unit that controls line switching
15 were included.

FIG. 5 shows a first transmission control unit 13 of the gas shutoff device 3,
2 shows a communication line between the line interface 4 and the second transmission control unit 14 and a specific example of an interface circuit. The second transmission control unit 14 includes a switch means 16 for controlling message information, a current limiting resistor 17 and a load resistor 18.
It is included. Further, the first transmission control unit 13 includes a switch means 19 for controlling message information, and a resistor for limiting current.
20 and a load resistor 21 are included. That is, a communication message is transmitted by controlling the switch means 16 and 19, respectively. In an actual circuit, protection circuits 3 and 4 are provided respectively for withstanding electric noise, surge, static electricity and the like mixed in from the communication line.

FIG. 6 shows a diagram of a centralized monitoring system for communicating between a gas user and a center. 3, 22, and 24 are conventional gas shut-off devices installed for each individual gas user.
Each transmission information is transmitted to the computer 28 of the center 27 via the telephone switching facility 26 via the line interface of 4, 23, 25. 29 is a line interface on the center side. Thus, for one center,
Hundreds or thousands of user information are transmitted over the line.

Problems to be Solved by the Invention However, in the above configuration, in addition to the installation of the gas meter itself, installation work of a line interface is necessary, and in a communication test, a telephone line between the line interface and the center computer is required. A test and, furthermore, a communication test between the gas shut-off device and the line interface had to be performed. In addition, each of the gas shut-off device and the line interface had to have a transmission control unit for communication, which required a considerable number of parts in an actual device configuration. Further, as described above, when communicating between the gas shut-off device of the terminal and the center computer, signal transmission must be performed on a communication line other than the telephone line, and from the viewpoint of transmission quality, the communication lines must be guaranteed. There was a factor that did not.

The present invention solves such a conventional problem. By integrating a gas shut-off device as a terminal and a line interface, a gas shut-off device for rationalizing construction and device configuration and improving communication reliability as a system. The purpose is to provide.

Means for solving the problemsTo solve the above problems, the gas shut-off device of the present invention is provided in a gas supply line, a flow measurement unit that emits a signal according to the amount of passing gas, and a flow measurement unit. A gas safety control unit that detects a use state of gas with a sent flow signal and judges that it is abnormal when it deviates from a preset proper use condition and outputs a cutoff signal, according to a cutoff signal from the gas safety control unit. Blocking means for blocking the gas passage;
A gas flow integrating unit that integrates a flow signal from the flow measuring unit, a transmission control unit that performs signal transmission of gas safety information and integrated information of each of the gas safety control unit and the gas flow integrating unit, and a line. The present invention is a gas shut-off device in which connection control or connection control with a line and a line control unit that controls line connection switching for at least one terminal device are integrated.

According to the present invention, the gas safety control unit activates the shut-off means and stops the gas supply if the gas use state deviates from the set proper use condition, thereby preventing a gas accident. . In addition, the signal from the gas flow rate measuring means is integrated, and the gas flow rate integrating section operates so that the signal can be treated as a gas usage fee. In addition, these gas safety information, that is, information on whether the gas is used properly within the proper use conditions or whether an event that could lead to shut-off has occurred, etc. The information is sent to the center computer via the transmission control unit and the line control unit.

Embodiments Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

In FIG. 1, components having the same numbers as those in FIG. 4 are components having the same functions. The gas shut-off device 30 is configured integrally with the flow measuring unit 9, the gas safety control unit 10, the shut-off unit 11, the gas flow integrating unit 12, the line control unit 15, and the transmission control unit 31. ing. The transmission control unit 31 sends information of the gas safety control unit 10 and information of the gas flow rate integrating unit 12 to the line 1 and receives information sent from the center computer through the line. That is, the communication between the first transmission control unit 13 and the second transmission control unit 14 in FIG. 4 is eliminated. Therefore,
The control of the transmission control unit 31 only requires a communication function via a line, and the control load is light.

The above-described gas shut-off device can be easily realized by using a calculation or judgment function by a program operation of a microcomputer or the like, and further, by using a communication processing function.

FIG. 2 is a view in which a gas shut-off device of the present invention is installed, and components having the same numbers as those in FIG. 3 are components having the same functions. The gas cutoff device 30 is directly connected to the line protector 5. That is, the line-side exit of the gas cutoff device 30 is connected to the immediate telephone line. In addition, a communication line is provided from a line control unit in the gas shutoff device 30 to the telephone 2, which is another line terminal. With this configuration, when constructing the system, the gas user terminal only needs to perform the installation work of the gas meter, that is, the gas shutoff device of the present invention, and the communication test between the present device and the center computer.

In the present invention, the example in which the telephone line is used as the communication medium has been described. However, the system can be realized using a dedicated line or a telegraph network. As a result, workability, communication reliability, and the like can be improved.

Effects of the Invention As described above, the following effects are obtained according to the gas shut-off device of the present invention.

(1) Since the line control unit, which is the interface between the gas meter unit as the gas user terminal equipment and the telephone line, is integrated on the meter side, the system uses wired wiring that connects the line control unit and the meter. Even if the meter and the telephone line drop-in section (usually where the protector is installed) are far away (sometimes several tens of meters), the wiring between them can be eliminated. Due to the long distance, noise in the communication line driven at a low voltage due to the surrounding radio wave environment, or the problem of communication quality and reliability such as susceptibility to lightning surge can be solved. In other words, lightning surges from telephone lines are usually addressed at the entrances of protectors and line terminal equipment (telephones, line control units, etc.). Since the superimposed noises can be eliminated, the reliability of data transmission can be greatly improved.

(2) Since the meter unit and the line control unit are integrally configured, from the meter unit to the line control unit, that is, from the meter unit, which is the terminal component of the system, to the connection point with the telephone line, for example, at the factory shipment stage Can be tested as part. That is, the communication test up to the telephone line outlet can be performed as an integrated gas shut-off device. Therefore, it is possible to eliminate the incorrect wiring which has been a problem when a communication test is performed by connecting the separate meter unit and the line control unit at the site, and naturally each communication unit may be connected due to the incorrect wiring. The risk of leading to breakage can be avoided.

(3) From the viewpoint of ease of installation of the terminal equipment, conventionally, the line control unit is installed near the protector of the telephone line, and it is necessary to secure a space for mounting the line control unit on the wall of the house. , Installation work (Depending on the form of the house, 2
Construction in the upper part of the floor roof or in a narrow space between adjacent houses), but by integrating it as in the present invention, only the installation work of the gas meter part is sufficient, The cost can be greatly reduced, and the installation work becomes extremely easy. Therefore, it can greatly contribute to the spread of gas meters for ensuring gas security including automatic meter reading.

(4) Since the shutoff means provided in the gas supply line for shutting off the gas passage and the line control unit are integrated, the operation of the shutoff means and the line control unit can be easily assured by the gas shutoff device alone. Along with the operation guarantee period, a series of devices including a blocking unit and a line control unit can be designed reasonably and with high cost performance, and have high reliability.

[Brief description of the drawings]

FIG. 1 is a functional block diagram of a gas shut-off device according to one embodiment of the present invention, FIG. 2 is a cross-sectional view showing an installation example of the gas shut-off device, FIG. 4th
FIG. 5 is a functional block diagram of a conventional gas shut-off device, FIG. 5 is a circuit diagram of a communication interface between the conventional gas shut-off device and a line interface, and FIG. 6 is a diagram of a conventional centralized monitoring system. 9: flow measuring means, 10: gas safety control unit, 11: shutoff means, 12: gas flow integrating unit, 15: line control unit, 30: gas shutoff device, 31: transmission control unit.

 ──────────────────────────────────────────────────続 き Continuation of the front page (72) Inventor Toru Kobayashi 1006 Kazuma Kadoma, Kadoma, Osaka Prefecture Inside Matsushita Electric Industrial Co., Ltd. (56) References JP-A-62-24113 (JP, A) JP-A-62- 111556 (JP, A) Edited by the Ministry of Posts and Telecommunications, Integrated Telemeter System Development Conference, “Survey on Integrated Telemeter System Development Report II” (March 1980, published by The Japan Data Communications Association). 21 to 24

Claims (1)

(57) [Claims] 1. A flow rate measuring means provided in a gas supply line for generating a signal in accordance with a passing gas amount, and detecting a gas use state by a flow rate signal sent from the flow rate measuring means to set a proper use condition in advance. A gas safety control unit that determines that there is an abnormality when it deviates and outputs a shutoff signal, a shutoff unit that shuts off a gas passage according to a shutoff signal from the gas safety control unit, and integrates a flow signal from the flow measurement unit. A gas flow integrating unit, a transmission control unit for transmitting a signal through each of the gas safety information and the integrated information of the gas safety control unit and the gas flow integrating unit, and a connection control with the line or a connection control with the line. A gas shut-off device in which a line control unit for controlling line connection switching is integrated with one terminal.