KR20170091421A - Gas metering systems and gas control method thereof - Google Patents

Abstract

The present invention relates to a gas metering system, and a method of blocking gas. The disclosed gas metering system includes a gas flow rate control device, a communication relay device, and a metering server device. The gas flow rate control device includes a gas valve controlling a flow rate by supplying or blocking gas depending on an opening or closing state, and uses a first communication network. The metering service device collects metering information for a gas flow rate supplied through the gas valve, and uses a second communication network. The communication relay device may transmit and receive information with the gas flow rate control device through the first communication network, and may transmit and receive information with a metering server device through a second communication network. Moreover, the metering server device may transmit and receive a gas valve opening and closing command by responding to a metering report received from the communication relay device including metering information. The communication relay device may relay a gas valve opening and closing command by responding to the metering report received from the gas flow rate control device including metering information. The gas flow rate control device may open or close the gas valve in accordance with the gas valve opening and closing command relayed by the communication relay device. The gas flow rate control device is able to remotely block a gas valve using a communication network. As such, the gas flow rate control device is able to solve a problem by making it necessary for a worker to block a gas supply by closing a gas valve by directly visiting a site and reduce costs accordingly.

Description

TECHNICAL FIELD [0001] The present invention relates to a gas metering system and a gas shut-

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a gas meter reading system and a gas shut-off control method thereof, and more particularly, to a gas meter reading system and a gas shut-off control method that can shut off a gas valve remotely using a communication network.

As is well known, the gas meter reading to determine how much city gas has been consumed in each household, the person in charge visits each household and records the meter reading number of the gas meter, or the resident checks the gas meter directly, The classic way of recording in the promised place of the present is widely used today.

In recent years, there has been a growing interest in remote gas meter reading using a communication network, and the applicant has been actively developing and disclosing " Method and Apparatus for Checking Water and Gas Using Wireless Communication ", also in Laid-open Patent Publication No. 10-2011-0030999 There is one.

However, conventionally, efforts have been made to remotely control a gas valve for controlling the flow rate by supplying or shutting off gas according to the open / closed state.

Therefore, when there is a request by the customer or when gas blocking is required for the delinquent customer, the operator has to visit the site directly to shut off the gas valve to shut off the gas supply, which is an expensive problem there was.

Korean Patent Publication No. 10-2011-0030999, published on March 24, 2011.

According to an embodiment of the present invention, there is provided a gas meter reading system and a gas shut-off control method that can open and close a gas valve remotely using a communication network.

The problems to be solved by the present invention are not limited to those mentioned above, and another problem to be solved can be clearly understood by those skilled in the art from the following description.

According to one aspect of the present invention, the gas meter reading system includes a gas flow rate adjusting device, a communication relay device, and a meter reading server device. The gas flow rate regulating device includes a gas valve for regulating the flow rate by supplying or shutting off gas according to the open / closed state, and uses the first communication network. The meter reading server apparatus collects meter reading information on the gas flow rate supplied through the gas valve, and uses the second communication network. The communication relay apparatus can transmit and receive information through the first communication network with the gas flow rate control apparatus and can transmit and receive information through the second communication network with the meter reading server apparatus. Further, the meter reading server device can transmit the gas valve opening / closing command through the reply to the meter reading report received from the communication relay device including the meter reading information. The communication relay device may relay the gas valve opening / closing command through the return to the meter reading report received from the gas flow rate adjusting device including the meter reading information. The gas flow rate regulating device can open and close the gas valve in accordance with the gas valve opening / closing command relayed by the communication relay device.

A gas meter reading system for performing a gas shut-off control method according to another aspect of the present invention includes a gas flow rate adjusting device, a meter reading server device, and a communication relay device. The gas flow rate regulating device includes a gas valve that regulates a flow rate by supplying or shutting off gas in accordance with an open / closed state, and uses a first communication network. The meter reading server device collects meter reading information on the gas flow rate supplied through the gas valve, and uses the second communication network. The communication relay device transmits and receives information through the first communication network with the gas flow rate control device, and transmits and receives information through the second communication network with the meter reading server device. The gas shut-off control method by the gas metering system may include the step of sending the gas valve opening / closing command through the meter reading server device, including the meter reading information, by returning to the meter reading report received from the communication relay device . The communication relay device may further include relaying the gas valve opening / closing command through the return to the meter reading report received from the gas flow rate adjusting device including the meter reading information. And closing the gas valve in accordance with the gas valve opening / closing command relayed by the communication relay device.

According to the embodiment of the present invention, the gas valve can be opened and closed remotely using a communication network. Therefore, it is possible to improve the inconvenience that the worker must visit the site to shut off the gas supply by shutting off the gas supply, and reduce the cost.

Further, by sending a gas valve opening / closing command through a reply to a meter reading report which is periodically performed without using a dedicated new data format or path for sending out the gas valve opening / closing command, only the minimum design change to the gas meter reading system The present invention realizes remote control of the gas valve, minimizes the process for transmitting and receiving the gas valve open / close command, and minimizes power consumption.

1 is a network configuration diagram of a gas meter reading system according to an embodiment of the present invention.
2 is a block diagram of a gas flow rate control apparatus according to an embodiment of the present invention.
3 is a block diagram of a communication relay apparatus according to an embodiment of the present invention.
4 is a block diagram of a meter reading server apparatus according to an embodiment of the present invention.
5 is a flowchart for explaining a gas cutoff control method of the gas meter reading system according to the embodiment of the present invention.
6 is a flowchart for explaining a gas opening method of the gas metering system according to the embodiment of the present invention.
7 is a flowchart illustrating an event transmission method of the gas metering system according to an embodiment of the present invention.
8 is a flowchart for explaining a gas measurement method of the gas metering system according to the embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention and the manner of achieving them will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. To fully disclose the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims.

In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The following terms are defined in consideration of the functions in the embodiments of the present invention, which may vary depending on the intention of the user, the intention or the custom of the operator. Therefore, the definition should be based on the contents throughout this specification.

2 is a block diagram of a gas flow rate control apparatus according to an embodiment of the present invention. FIG. 3 is a block diagram of a communication system according to an embodiment of the present invention. FIG. 4 is a block diagram of a meter reading server apparatus according to an embodiment of the present invention. FIG.

As shown therein, the gas meter reading system 100 according to the embodiment includes a gas flow rate regulator 200, a communication relay device 300, and a meter reading server device 400.

The gas flow rate regulator 200 includes an electric gas valve 220 that regulates a flow rate by supplying or shutting off a gas according to an open or closed state and uses the first communication network 101 to communicate information with the communication relay device 300 And closes the electric gas valve 220 in accordance with the gas valve opening / closing command transmitted from the meter reading server 400 and relayed by the communication relay device 300 to shut off the gas flow. Here, the first communication network 101 may be implemented as a LoRa WAN (Long Range Wide Area Network), which is one of Low Power Wide Area (LPWA) technologies, a low power wireless communication technology.

The gas flow rate regulator 200 includes a gas flow rate indicator 210, a gas flow rate meter 230, a gas pressure meter 240, a carbon monoxide meter 250, an information indicator 260, a controller 270, ).

The gas flow meter 230 measures the flow rate of the gas supplied into the household through the gas pipe and provides it to the gas flow rate indicator 210 and the control unit 270. The gas pressure meter 240 measures the pressure of the gas supplied into the household through the gas pipe and provides it to the control unit 270. The carbon monoxide meter 250 measures the concentration of carbon monoxide in the ambient air and provides it to the controller 270 to determine whether the gas is leaking. The information display 260 indicates the state of gas shutoff and the leakage of gas due to the opening and closing of the electric gas valve 220 under the control of the controller 270. The information indicator 260 may be implemented as a liquid crystal display device such as a liquid crystal display (LCD).

The control unit 270 receives the flow rate measurement data from the gas flow meter 230 and reads the status information about the opening or closing from the electric gas valve 220. The control unit 270 reads the status information from the electric gas valve 220 according to a request from the communication unit 280 Gas meter reading information and status information. When the gas valve opening / closing command generated by the meter reading server device 400 is transmitted through the communication unit 280, the electric gas valve 220 is closed and controlled to shut off the gas, And returns status information indicating the status.

The communication unit 280 activates at a predetermined transmission period to request the control unit 270 for the gas meter reading information by the gas flow rate indicator 210 and the status information indicating the open or closed state of the electric gas valve 220, To the communication relay device 300. The communication relay device 300 transmits the inspection report including the gas meter reading information and the gas valve status information provided by the communication relay device 300. [ When the gas valve opening / closing command is received from the communication relay device 300 through the return to the inspection report, the control unit 270 transmits the gas valve opening / closing command to the control unit 270. The control unit 270 reads out the gas valve 220, When the valve state information is returned, it sends a gas valve cutoff state information report including the information to the communication relay device 300.

The communication relay device 300 transmits and receives information through the gas flow rate control device 200 and the first communication network 101 and transmits and receives information through the second communication network 102 and the meter server device 400. The communication relay device 300 relays the gas valve opening / closing command through the reply to the meter reading report received from the gas flow rate regulating device 200 including meter reading information. Here, the second communication network 102 may be implemented by various mobile communication networks such as an LTE (Long Term Evolution) network, a WCDMA (Wideband Code Division Multiple Access) network, a GSM (Global System for Mobile)

The communication repeater 300 includes a first transmission / reception unit 310, a second transmission / reception unit 320, a control unit 330, and a storage unit 340.

The first transceiver 310 transmits and receives information to and from the gas flow rate regulator 200 through the first communication network 101 under the control of the controller 330 and the second transceiver 320 receives information And transmits and receives information to and from the meter reading server 400 through the second communication network 102 in accordance with the control. The control unit 330 controls the second transceiver 320 to transmit the measurement report including the gas meter reading information and the gas valve status information to the meter reading server 400, When the gas valve opening / closing instruction is transmitted from the meter reading server device 400 through the storage unit 340, the storage unit 340 waits. Thereafter, when the meter reading report including the gas meter reading information and the gas valve status information is received from the gas flow rate adjusting device 200, the first transceiver 310 is controlled to transmit the gas valve opening / closing command through the reply to the meter reading report . When the report including the gas valve shutoff state information is received from the gas flow rate regulator 200 through the first transceiver 310, the second transceiver 320 returns the reception state, And transmits a meter reading report including meter reading data and status information to the meter reading server 400.

The meter reading server device 400 collects a meter reading report including meter reading information and status information on the gas flow rate from the communication relay device 300 through the second communication network 102. When the gas valve opening / Sends a gas valve opening / closing command through a reply to the report. The meter reading server device 400 displays whether the gas is shut off due to the opening or closing of the electric gas valve 220 based on the gas valve status information included in the meter reading report transmitted from the communication relay device 300. [

The meter reading server 400 includes a communication unit 410, a control unit 420, a storage unit 430, and a display unit 440. The control unit 420 includes an account management unit 421, an environment setting management unit 422 and a gas valve control unit 423. The display unit 440 includes a metering monitoring unit 441 and a flow control monitoring unit 442 .

If the gas valve opening / closing instruction has been input through the user interface, the gas valve control unit 423 outputs a gas valve opening / closing command to the gas valve control unit 423 in response to the meter reading report including gas meter reading information and gas valve status information transmitted from the communication relay apparatus 300 And transmits it through the communication unit 410. The gas valve control unit 425 receives the meter reading report including the gas meter reading information and the gas valve status information through the communication unit 410 and displays the gas valve status information on the electric gas valve 220 The display unit 440 displays whether the gas is shut off due to opening or closing. The meter monitoring unit 441 may display the gas meter reading information under the control of the controller 420 including the gas valve controller 423 and the flow rate monitoring unit 442 may monitor the gas meter information of the electric gas valve 220 It is possible to indicate whether the gas is blocked due to opening or closing.

The account management unit 421 matches the subscriber who supplies and consumes gas with the gas flow rate regulator 200 and stores the same in the storage unit 430 together with the gas usage amount per subscriber. The environment setting management unit 422 manages the operating environment information of the meter reading server apparatus 400 set through the user interface.

5 is a flowchart for explaining a gas cutoff control method of the gas meter reading system according to the embodiment of the present invention.

As shown in the figure, the gas shut-off control method according to the embodiment includes steps S501, S505, and S507 of transmitting a gas valve opening / closing command through a reply to a meter reading report received from a communication relay device including meter reading information ).

The method further includes a step (S503, S509) in which the communication relay device waits after storing the gas valve opening / closing command received from the meter reading server device.

Subsequently, the communication relay device includes steps S511, S513, S515, S517, S519, and S521 for relaying the gas valve opening / closing command through the reply to the meter reading report received from the gas flow rate adjusting device including meter reading information .

The method further includes steps (S523, S525) of closing the gas valve in accordance with the gas valve opening / closing command relayed by the communication relay device.

Next, the method further includes a step (S527, S529, S531) of sending a status report to the communication relay device, the gas flow rate control device including blocking information according to the closing of the gas valve.

The method further includes a step (S533, S535, S537) in which the communication relay device transmits a meter reading report including a status report to the meter server device at a transmission time reached according to a predetermined report transfer cycle.

In addition, the meter reading server further includes steps (S539 and S541) of outputting the closed state of the gas valve in accordance with the blocking information included in the inspection report.

FIG. 6 is a flowchart for explaining a gas opening method of the gas metering system according to an embodiment of the present invention, FIG. 7 is a flowchart for explaining an event transmitting method of the gas metering system according to an embodiment of the present invention, Is a flow chart for explaining the gas measurement method of the gas metering system according to the embodiment of the present invention. The gas opening method, event transmitting method and gas reading method will be described in detail below.

Hereinafter, the gas shutoff control method and other operations performed by the gas metering system according to the embodiment of the present invention will be described in detail with reference to FIGS. 1 to 8. FIG.

First, the gas shutoff control method by the gas metering system will be described with reference to FIGS. 1 to 5. FIG.

When the gas valve opening / closing command is input (S501) to the meter reading server device 400, the gas valve control unit 423 waits until the reading report is received from the communication relay device 300 without processing it immediately.

The communication relay apparatus 300 transmits a signal to the second transceiver 320 through the second communication network 102 under the control of the control unit 330 when a predetermined transmission time (for example, every 10 minutes, etc.) The inspection report is transmitted to the server apparatus 400 (S505). Such a meter reading report includes the gas meter reading information received from the gas flow rate regulating apparatus 200 and the status information of the gas valve.

Then, the gas valve control unit 423 of the meter reading server apparatus 400 controls the communication unit 410 to send a gas valve opening / closing command to the communication relay apparatus 300 (step S507) by returning to the inspection report in step S505 .

Here, the communication repeater 300 waits until the inspection report is received from the gas flow rate regulator 200 without directly processing the gas valve opening / closing command. The control unit 330 of the communication repeater 300 stores the gas valve opening and closing command received from the meter reading server 400 in the storage unit 340 and then transmits the gas valve opening and closing command to the first communication network 101 and the first transmitting and receiving unit 310 (S509) until the inspection report is received.

Meanwhile, the communication unit 280 of the gas flow rate regulator 200 activates every predetermined transmission period (S511) and requests the control unit 270 for the meter reading information and the status information (S513) (S517) the gas meter reading information and the gas valve state information to the communication unit 280 when flow measurement data is inputted from the electric gas valve 230 or the opening / closing state information is inputted from the electric gas valve 220 (S515).

The communication unit 280 of the gas flow rate regulator 200 then sends the meter reading report including the gas meter reading information and the gas valve status information to the communication relay device 300 through the first communication network 101 (S519) The communication repeater 300 sends back the gas valve opening / closing command stored in step S509 (S521).

The communication unit 280 of the gas flow rate regulator 200 transmits the gas valve opening and closing command received from the communication relay apparatus 300 through the first communication network 101 to the controller 270 in step S523, 270 closes the electric gas valve 220 and blocks the supply of gas into the household (S525). The communication unit 280 reads the gas valve shutoff status information from the electric gas valve 220 in S527 and communicates the gas valve shutoff status information to the communication unit 280 in S529. To the communication relay device 300 through the first communication network 101 (S531).

Thereafter, the communication relay device 300 returns to the report of step S531 (S533), waits until the preset transfer time comes, without sending the report to the meter reading server device 400 immediately, When the predetermined transmission time arrives (S535), the second transmission / reception unit 320 is controlled to transmit a meter reading report including the gas meter reading information and the gas valve status information through the second communication network 102 to the meter server apparatus 400 (S537).

The control unit 420 of the meter reading server 400 controls the communication unit 410 to reply to the communication relay apparatus 300 through the second communication network 102 to notify that the meter reading report has been received And controls the display unit 440 to output the gas meter reading information and the state information of the gas valve (S541). That is, the meter reading monitoring unit 421 outputs measurement data on the gas flow rate measured in step S515, and the flow rate adjustment monitoring unit 422 outputs status information indicating the opening or closing of the gas valve read in step S527 .

Next, the gas opening method of the gas metering system will be described with reference to Figs. 1 to 4 and 6.

The safety checker can visit the site where the gas flow rate regulator 200 is installed and input a safety check command to the gas flow rate regulator 200 after confirming the shutoff of the electric gas valve 220. Such a safety check command can be input by operating a touch screen or a separately provided check button (not shown) which can be integrally implemented in the information indicator 260. [ At this time, the controller 270 of the gas flow rate regulator 200 temporarily opens the electric gas valve 220 for a set time (for example, about 30 seconds), and at this time, through the carbon monoxide meter 250, The safety check is performed, and when the set time has elapsed, the electric gas valve 220 is closed and the gas is shut off again (S601).

If there is no abnormality in the safety check, the safety checker connects to the meter reading server 400 through the portable communication device or the like, inputs a gas valve opening command, and then inputs a safety check command again to the gas flow rate control device 200 (S603). Then, the control unit 270 of the gas flow rate regulator 200 temporarily opens the electrically operated gas valve 220 for a set time (for example, about 30 seconds), and then, through the carbon monoxide meter 250, The safety check is performed, and when the set time has elapsed, the electric gas valve 220 is closed to shut off the gas again.

When the safety check command is input to the gas flow rate regulator 200, the controller 270 of the gas flow rate regulator 200 generates an interrupt (S605, S607) to activate the communication portion 280 (S609) The communication unit 280 requests the control unit 270 to send the status information to the communication relay device 300 in step S615 and returns the status report including the status information and the user interrupt information to the communication relay device 300 in step S615.

The communication relay device 300 sends the activation time information to the gas flow rate regulator 200 in response to the reception of the status report to the gas flow rate regulator 200 in step S617. (Step S619).

Then, the communication unit 280 of the gas flow rate regulator 200, which has received the activation time information from the communication relay device 300, switches to the inactivation mode (S621) and periodically activates in accordance with the activation time information in step S617 ).

When the communication relay device 300 receives the user interrupt information from the gas flow rate control device 200, the communication relay device 300 connects with the meter reading server 400 in real time to transmit interrupt information and status information (S619) 400 in step S631 and stores it in the storage unit 340 in step S633.

The communication unit 280 of the gas flow rate regulator 200 periodically activates in accordance with the activation time information in step S617 to receive the status information from the control unit 270 in steps S625 and S627 and transmits the status information to the communication relay device 300 (S629), receives the gas valve opening command from the communication relay device 300 (S635), and transmits it to the control unit 270 (S637).

The control unit 270 of the gas flow rate regulator 200 then opens the electrically operated gas valve 220 (S641) and notifies the communication unit 280 of the opening of the gas valve 220 S639) and transmits an interrupt corresponding to the gas valve opening event S643 to the communication unit 280 (S645). The communication unit 280 requests the control unit 270 for status information according to the gas valve opening interruption (S647) After receiving the reply (S649), the gas valve opening information report is transmitted (S651, S653, S655) to the meter reading server device (400) through the communication relay device (300).

Then, the meter reading server device 400 displays the state in which the gas is not cut off by the gas valve opening state (S657, S659).

Next, an event transmission method of the gas meter reading system will be described with reference to Figs. 1 to 4 and Fig.

An event may be generated in which the supply pressure measured by the gas pressure meter 240 in the gas flow rate regulator 200 is determined to be abnormal by the control unit 270 and the use flow rate measured by the gas flow rate meter 230 An event determined to be an abnormal situation may be generated by the control unit 270. [ In addition, an event may occur when the electric gas valve 220 is opened or closed (S701).

When the event occurs, the control unit 270 of the gas flow rate regulator 200 generates an event interrupt (S703, S705) to activate the communication unit 280 (S707).

The communication unit 280 of the gas flow rate regulator 200 requests the control unit 270 to send the status information to the communication relay apparatus 300 in response to the status information received in step S709, Via the first communication network 101 (S713).

Here, the communication repeater 300 transmits the next activation time information while returning to the step S713 (S715), and the communication unit 280 of the gas flow rate regulator 200 is in the inactive state until the next activation time comes (S717).

The communication relay apparatus 300 transmits the status report including the status information to the meter reading server apparatus 400 through the second communication network 102 in step S719 and the meter reading server apparatus 400 receives the status report (S721) and displays the event information generated in step S701 (S723) so that the operator of the meter reading server 400 can recognize the event information.

Next, the gas measurement method of the gas metering system will be described with reference to FIGS. 1 to 4 and 8. FIG.

The communication unit 280 of the gas flow rate regulator 200 activates only the period set by the meter reading server apparatus 400 in step S801 and requests the control unit 270 for the gas meter reading information and the gas valve status information in step S803, And receives the flow measurement data and the status information that have been secured (S805 and S807).

The communication unit 280 of the gas flow rate regulator 200 transmits a status report including the gas meter reading information and the gas valve status information to the communication repeater 300 in step S809. If there is no reply to the status report, (S811, S813). If there is no reply even after several attempts, it is deactivated (S815). If the transmission of the status report fails even after several times of activation and deactivation (S819, S821), the current gas meter reading information and the gas valve status information (S823).

Thereafter, when the next activation time is received (S825) from the communication repeater 300 (S827), it is set (S827) and the inactive state is maintained until the next activation time comes (S829) to minimize power consumption.

The communication relay device 300 transmits the inspection report received from the gas flow rate regulating device 200 to the meter reading server device 400 via the second communication network 102 when the predetermined transfer time comes (S831) (S833 And the meter reading server device 400 returns (S837) to notify that the meter reading report has been received (S837), and also outputs the gas meter reading information and the state information of the gas valve (S839). That is, the meter reading monitoring unit 421 outputs measurement data on the meter reading gas flow rate, and the flow rate adjustment monitoring unit 422 outputs status information indicating the opening or closing of the gas valve.

Combinations of the steps of each flowchart attached to the present invention may be performed by computer program instructions. These computer program instructions may be loaded into a processor of a general purpose computer, special purpose computer, or other programmable data processing apparatus so that the instructions, which are executed via a processor of a computer or other programmable data processing apparatus, Lt; / RTI > These computer program instructions may also be stored in a computer usable or computer readable memory capable of directing a computer or other programmable data processing apparatus to implement the functionality in a particular manner so that the computer usable or computer readable memory It is also possible to produce manufacturing items that contain instruction means for performing the functions described in each step of the flowchart. Computer program instructions may also be stored on a computer or other programmable data processing equipment so that a series of operating steps may be performed on a computer or other programmable data processing equipment to create a computer- It is also possible for the instructions to perform the processing equipment to provide steps for executing the functions described in each step of the flowchart.

In addition, each step may represent a module, segment, or portion of code that includes one or more executable instructions for executing the specified logical function (s). It should also be noted that in some alternative embodiments, the functions mentioned in the steps may occur out of order. For example, the two steps shown in succession may in fact be performed substantially concurrently, or the steps may sometimes be performed in reverse order according to the corresponding function.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

According to the embodiment of the present invention, the gas valve can be opened and closed remotely using a communication network. Therefore, it is possible to improve the inconvenience that the worker must visit the site to shut off the gas supply by shutting off the gas supply, and reduce the cost.

Further, by sending a gas valve opening / closing command through a reply to a meter reading report which is periodically performed without using a dedicated new data format or path for sending out the gas valve opening / closing command, only the minimum design change to the gas meter reading system In addition to implementing remote control of the gas valve, the process for transmitting and receiving the gas valve opening / closing command is minimized to minimize power consumption.

The present invention can be applied to a remote gas meter reading system which requires gas meter reading to determine how much city gas has been consumed in each household.

100: Gas meter reading system 200: Gas flow rate adjusting device
210: Gas flow indicator 220: Electric gas valve
230: Gas flow meter 240: Gas pressure meter
250: carbon monoxide meter 260: information indicator
270: control unit 280: communication unit
300: communication relay device 310: first transmission /
320: second transmission / reception unit 330:
340: storage unit 400: meter reading server device
410: communication unit 420:
421: an account management unit 422: an environment setting management unit
423: Gas valve control part 430: Storage part
440: Display section 441: Metering monitoring section
442: Flow control monitoring section

Claims (6)

And a gas valve for controlling a flow rate by supplying or shutting off gas in accordance with an open / closed state, the apparatus comprising: a gas flow rate regulating device using a first communication network;
A meter reading server device which collects meter reading information about a gas flow rate supplied through the gas valve and uses a second communication network,
And a communication relay device for transmitting and receiving information through the first communication network with the gas flow rate adjusting device and transmitting and receiving information through the second communication network with the meter reading server device,
Wherein the meter reading server device transmits a gas valve opening / closing command through a reply to the meter reading report received from the communication relay device including the meter reading information,
Wherein the communication relay device relays the gas valve opening and closing command through a reply to the meter reading report received from the gas flow rate adjusting device including the meter reading information,
Wherein the gas flow rate regulating device is configured to open and close the gas valve in accordance with the gas valve opening and closing command relayed by the communication relay device
Gas meter reading system. The method according to claim 1,
The communication relay device waits after storing the gas valve opening / closing command received from the meter reading server device, and transmits the stored gas valve opening / closing command through the reply when the reading of the gas reading is received from the gas flow rate adjusting device
Gas meter reading system. The method according to claim 1,
The gas flow rate control device transmits a status report including information on the opening and closing of the gas valve to the communication relay device,
Wherein the communication relay apparatus transmits the status report to the meter reading server apparatus at a transmission time reached according to a predetermined report transfer cycle,
The meter reading server apparatus outputs the open / close state of the gas valve in accordance with the open / close information included in the status report
Gas meter reading system. A gas shutoff control method by a gas meter reading system including a gas flow rate adjusting device, a meter reading server device, and a communication relay device,
Wherein the gas flow rate regulating device includes a gas valve for regulating a flow rate by supplying or shutting off gas in accordance with an open / closed state, wherein a first communication network is used,
Wherein the meter reading server device collects meter reading information on a gas flow rate supplied through the gas valve, uses a second communication network,
The communication relay device transmits and receives information through the first communication network with the gas flow rate control device, transmits and receives information through the second communication network with the meter reading server device,
Wherein said gas shut-off control method comprises the steps of: sending said gas valve opening / closing command through said meter reading server device by returning to said meter reading report received from said communication relay device including said meter reading information;
Relaying the gas valve opening / closing command through a reply to a meter reading report received from the gas flow rate adjusting device including the meter reading information;
And closing the gas valve in accordance with the gas valve opening / closing command relayed by the communication relay device
Gas shutoff control method. 5. The method of claim 4,
Wherein the step of relaying the gas valve opening and closing command is a step of waiting after the communication relay device stores the gas valve opening and closing command received from the meter reading server device and, And transmits the stored gas valve opening / closing command
Gas shutoff control method. 5. The method of claim 4,
The gas flow rate control device transmitting a status report including information on opening and closing of the gas valve to the communication relay device;
Transmitting the status report to the metering server device at a transmission time reached by the communication relay device according to a predetermined report transmission period;
Further comprising the step of the meter reading server device outputting the open / close state of the gas valve in accordance with the open / close information included in the status report
Gas shutoff control method.

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