CN112330928A - Information processing method and system of gas meter linkage alarm and storage medium - Google Patents

Abstract

The invention discloses an information processing method, a system and a storage medium of a gas meter linkage alarm.A first wireless module in a gas meter is adopted to establish communication with a second wireless module in the alarm, the alarm is associated with the gas meter, on one hand, the alarm sends a self-running state result to the gas meter through the second wireless module, and the gas meter receives a self-checking result through the first wireless module, so that the timeliness of fault processing is improved, and the use of a user is facilitated; when the gas meter cannot detect the self-detection result of the alarm, the first wireless module at the gas meter end and the second wireless module at the alarm end synchronously hop to other frequency channels, and self-detection is performed again, so that the accuracy of the detection result and data transmission is improved, and the safety of gas use is promoted; the alarm detects that the gas leaks, the alarm gives an alarm and sends an alarm signal to the gas meter through the second wireless module, and the linkage device of the gas meter closes the gas inlet valve, cuts off the leakage source and improves the safety of gas use.

Description

Information processing method and system of gas meter linkage alarm and storage medium

Technical Field

The invention relates to the field of gas detection methods, in particular to an information processing method and system of a gas meter linkage alarm and a storage medium.

Background

The gas alarm is an alarm instrument for detecting gas leakage, and when the gas alarm detects that the gas concentration in the surrounding environment reaches an explosion or poison critical point, the gas alarm can send out an alarm signal. The gas alarm is widely applied to petrochemical industries with toxic gas such as petroleum, gas, chemical industry, oil depots and the like at the beginning, and is an important instrument for ensuring production and personal safety. Along with the fact that the safety of household gas is gradually paid attention to, more and more household gas is provided with a gas alarm.

The invention discloses a gas detection alarm information processing system, a method, a device and a storage medium in application number CN202010065702.3, wherein the system collects alarm signals through a gas alarm of a user, transmits gas leakage information to a base station, and uploads the gas leakage information to a data center and an alarm information platform, and the information platform arranges maintenance personnel for maintenance according to user information. Application number is CN201820926772.1 discloses a gas leakage detecting system based on LoPa intelligent gas table, and it can gather the gas leakage alarm signal in real time and upload the server, in time reminds the user gas leakage alarm through the server. The comparison file gas detector takes an alarm signal and transmits the signal to an alarm information platform or a server to prompt users and maintenance personnel. However, the gas alarm is used as an independent alarm, only an alarm signal is sent when the gas concentration in a room exceeds the standard, no correlation with the gas meter is established, the operation state and the operation result of the alarm are not detected by other devices, and the monitoring effect and the alarm effect are not easily perceived and lost when the monitoring effect and the alarm effect are lost after the alarm breaks down.

Application No. CN201810715192.2 discloses a gas alarm safety coordinated control system, wherein gas alarm, gas table carry out coordinated control through bluetooth communication and/or server relay and user terminal, and when the gas alarm takes place the erroneous judgement mistake report to gas concentration, the user can send self-checking, cancel the warning, adjustment alarm threshold value etc. to the gas alarm through user terminal, in time removes the warning, eliminates extra puzzlement. In the invention, only when the gas alarm misjudges and misreports the gas concentration, the gas alarm sends the gas concentration information to the user terminal, and then the user terminal sends the instructions of self-checking, alarm cancellation, alarm threshold value adjustment and the like to remove the misalarm, but the user terminal cannot monitor the real-time running state of the gas alarm in real time.

Disclosure of Invention

Based on the problems existing in the background technology, the invention provides a method for linking a gas meter with an alarm and monitoring the operation state of the alarm, the system comprises the gas meter and the alarm, the gas meter monitors the gas leakage information of the alarm, the gas meter comprises a first wireless module, the alarm comprises a second wireless module, the first wireless module and/or the second wireless module can be communicated with a remote terminal, the first wireless module and the second wireless module can be communicated, and the gas meter monitors the operation state information of the alarm.

The invention has at least the following technical effects and advantages: according to the invention, the first wireless module in the gas meter is in communication connection with the second module in the alarm, the second wireless module of the alarm transmits the running state result of the alarm to the gas meter through the first wireless module, and the gas meter transmits the normal and fault results of the running state of the alarm to the remote communication terminal, so that the gas meter can monitor the running state of the alarm in real time, and the gas meter and the alarm are linked to reduce the safety risk caused by the failure of the alarm and incapability of finding the alarm in time; meanwhile, when the first wireless module of the gas meter fails to receive the operation state result transmitted by the second wireless module, the first wireless module and the second wireless module hop frequency simultaneously to continue information transmission and detection, so that the accuracy of detecting the operation state of the alarm by the gas meter is improved.

Drawings

FIG. 1 is a schematic diagram of a gas meter monitoring alarm module according to the invention;

FIG. 2 is a schematic flow diagram of a gas meter monitoring alarm of the present invention;

FIG. 3 is a schematic diagram of a gas meter monitoring module of the alarm of the invention;

FIG. 4 is a schematic flow chart of an alarm monitoring gas meter according to the invention;

FIG. 5 is a schematic diagram of a module for calculating and transmitting gas flow by the alarm of the invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

Referring to fig. 1, an embodiment of the present invention provides a method for a gas meter to link with an alarm and monitor an operation state of the alarm, the system includes a gas meter 100 and an alarm 200, the gas meter 100 includes a first wireless module 300, the alarm 200 includes a second wireless module 400, and the first wireless module 300 and/or the second wireless module 400 can communicate with a remote terminal 500. On one hand, the gas meter 100 can communicate with the remote terminal 500 through the first wireless module 300 to transmit gas flow information measured by the gas meter 100 to the remote terminal 500, on the other hand, the first wireless module 300 of the gas meter 100 establishes communication with the second wireless module 400 of the alarm 200, and the gas meter 100 transmits leakage gas concentration information transmitted by the alarm 200 to the remote terminal 500; after monitoring that the gas leaks, the alarm 200 sends an alarm signal to warn a user, and transmits alarm information to the remote terminal 500 through the second wireless module 400, so that the first wireless module 300 and the second wireless module 400 are independent from each other but have communication modes related to each other, the stability of data transmission can be improved, and the problem of information transmission caused by faults is reduced.

The first wireless module 300 and the second wireless module 400 can communicate with each other, and the gas meter 100 monitors the operation state information of the alarm 200 itself. The realization of this function except making gas table 100 have the gas concentration alarm information that can detect to remote terminal 500 transmission alarm 200 that exceeds standard, gas table 100 can also be through sending the detection instruction to alarm 200 and obtaining alarm 200 self testing result to the operating condition of real-time supervision alarm 200 self confirms whether alarm 200 normally works, guarantees that alarm 200 detects the gas concentration in the surrounding environment in real time. In the working process that the gas meter 100 monitors the working state of the alarm 200, the gas meter 100 sends self-checking information to the second wireless module 400 through the first wireless module 300, so that the alarm 200 detects the self-running state to obtain the self-working state, and transmits the self-running state information to the first wireless module 300 through the second wireless module 400, and after receiving the self-running state information of the alarm 200, the gas meter 100 judges three results: the alarm 200 itself operates in a normal state, a fault state, and a no-signal state, and is transmitted to the remote terminal 500 through the first wireless module 300.

The gas meter 100 judges that the alarm 200 self-checks the working state in real time, and the working state is three types: normal, fault, no signal.

The normal state of the alarm 200 means that the alarm 200 can transmit all normal data measured by itself to the first wireless module 300 through the second wireless module 400.

The fault state of the alarm 200 is that there is a false alarm in the alarm information, and the alarm 200 can only transmit partial data measured by itself or transmit data distortion, mistransmission, etc., but still can transmit the data to the first wireless module 300 through the second wireless module 400.

The no-signal state of the alarm 200 is no-signal transmission to the gas meter 100, the alarm 200 works normally but the second wireless module 400 works abnormally, and the first wireless module 300 cannot receive data transmitted by the second wireless module 400; or the alarm 200 is not working normally but the second wireless module 400 is working normally, and the first wireless module 300 cannot receive the data transmitted by the second wireless module 400; or both the alarm 200 and the second wireless module 400 are not working properly, the first wireless module 300 does not receive the data transmitted by the second wireless module 400.

Referring to fig. 2, in order to enable the gas meter 100 to monitor the working state of the alarm 200 in real time, the invention provides a method for linking the gas meter with the alarm and monitoring the running state of the alarm, which comprises the following steps:

s1, the gas meter 100 sends the detection instruction to the second wireless module 400 at the alarm 200 end through the first wireless module 300 at the gas meter 100 end;

s2, the alarm 200 performs operation state self-checking through the detection instruction data received by the second wireless module 400 at the alarm 200 end, and sends the data of normal self-checking or failure to the first wireless module 300 at the gas meter 100 end through the second wireless module 400 at the alarm 200 end;

s3, the gas meter 100 receives the self-checking data of the alarm 200 through the first wireless module 300 at the gas meter 100 end, and when the self-checking data result of the alarm 200 is normal, the steps S1 and S2 are continued;

s4, the gas meter 100 receives self-checking data of the alarm 200 through the first wireless module 300 at the gas meter 100 end, and when the self-checking data result of the alarm 200 is a fault, the gas meter 100 reports fault state information of the alarm 200 to the remote terminal 500 through the NB-IoT network;

s5, the gas meter 100 does not receive the self-test result data sent by the alarm 200, the first wireless module 300 at the gas meter 100 end and the second wireless module 400 at the alarm 200 end synchronously hop to other frequency channels, the steps S1, S2, S3 and S4 are repeated, and the detection is carried out again;

after the S6, the first wireless module 300 at the gas meter 100 end, and the second wireless module 400 at the alarm 200 end synchronously hop frequency, the gas meter 100 still does not receive the self-test result data of the alarm 200, and the gas meter 100 reports the no-signal state information of the alarm 200 to the remote terminal 500 through the NB-IoT network.

After the gas meter 100 reports the fault state information or the no-signal state information of the alarm 200 to the remote mobile terminal 500, the remote mobile terminal 500 sends information to the user and the maintenance personnel, and the maintenance personnel are arranged to check and maintain related problems in time while the user is informed of avoiding risks.

The first wireless module 300 and the second wireless module 400 are 2.4G wireless communication modules.

In the above detection step, when the first wireless module 300 of the gas meter 100 does not receive the self-detection result of the alarm 200 or the received self-detection result is a fault, the linkage device of the gas meter 100 closes the gas inlet valve, cuts off gas supply, and prevents the alarm 200 from failing to detect and alarm when gas leakage occurs, or after the alarm 200 detects gas leakage, the remote terminal 500 cannot know the fault due to the failure of communication with the remote terminal 500, and the safety measures can improve the safety of using gas by a user.

Through the steps, the gas meter 100 can detect the working state of the alarm 200 in real time, the remote terminal 500 can know whether the alarm 200 works normally, the alarm 200 can monitor the gas concentration of the surrounding environment in real time, and the safety of using the gas by a user is improved.

Example 2

In order to guarantee that the gas meter 100 works normally, the working state of the gas meter 100 needs to be monitored, and the gas meter 100 is prevented from being unknown by the remote terminal 500 after being broken down, so that safety risk and economic loss are avoided.

Referring to fig. 3, in order to overcome the above problems, the first wireless module 300 and the second wireless module 400 can communicate with each other, and the alarm 200 monitors the operation state information of the gas meter 100 itself, and transmits the operation state information of the gas meter 100 itself to the remote terminal 500 through the first wireless module 300 or the second wireless module 400, so as to monitor the operation state of the gas meter 100 in real time. Besides the alarm information that the gas concentration detected by the alarm 200 exceeds the standard, the alarm 200 can also send a detection instruction to the gas meter 100 and obtain the detection result of the gas meter 100, so that the working state of the gas meter 100 can be monitored in real time, and whether the gas meter 100 works normally or not can be determined. In the working process that the alarm 200 monitors the working state of the gas meter 100, the alarm 200 sends self-checking information to the first wireless module 300 through the second wireless module 400, so that the gas meter 100 detects the self-running state to obtain the self-running state, and transmits the self-running state information to the second wireless module 400 through the first wireless module 300, and after receiving the self-running state information of the gas meter 100, the alarm 200 judges three results: the operation state of the gas meter 100 itself includes a normal state, a fault state, and a no-signal state, and is transmitted to the remote terminal 500 through the second wireless module 400.

The alarm 200 judges that the gas meter 100 has three real-time self-checking working states: normal, fault, no signal.

The normal state of the gas meter 100 means that the gas meter 100 can transmit all data measured by itself to the second wireless module 400 through the first wireless module 300.

The fault state of the gas meter 100 is that there is a false alarm in the transmission information, and the gas meter 100 can only distort and mistransmit part of the data or the transmission data measured by itself, but can still transmit the data to the second wireless module 400 through the first wireless module 300.

The no-signal state of the gas meter 100 is that no signal is transmitted to the alarm 200, the gas meter 100 works normally but the first wireless module 300 does not work normally, and the second wireless module 400 cannot receive data transmitted by the first wireless module 300; or the gas meter 100 does not work normally but the first wireless module 300 works normally, and the second wireless module 400 cannot receive the data transmitted by the first wireless module 300; or both the gas meter 100 and the first wireless module 300 are not working normally, the second wireless module 400 does not receive the data transmitted by the first wireless module 300.

Referring to fig. 4, in order to enable the alarm 200 to monitor the working state of the gas meter 100 in real time, the method for the gas meter to link with the alarm and monitor the operating state of the alarm includes the following steps:

s1, the alarm 200 sends the detection instruction to the first wireless module 300 through the second wireless module 400;

s2, the gas meter 100 performs self-check of the operation status through the detection instruction data received by the first wireless module 300, and sends the data of normal self-check or failure to the second wireless module 400 through the first wireless module 300;

s3, the alarm 200 receives the self-checking data of the gas meter 100 through the second wireless module 400, and when the self-checking data result of the gas meter 100 is normal, the steps S1 and S2 are continued;

s4, the alarm 200 receives the self-test data of the gas meter 100 through the second wireless module 400, and when the self-test data result of the gas meter 100 is a fault, the alarm 200 reports the fault state information of the gas meter 100 to the remote terminal 500 through the NB-IoT network;

s5, the alarm 200 does not receive the self-test result data sent by the gas meter 100, the second wireless module 400 at the alarm 200 end and the first wireless module 300 at the gas meter 100 end synchronously hop to other frequency channels, and the steps S1, S2, S3 and S4 are repeated to perform detection again;

after the S6, the second wireless module 400 at the alarm 200 end and the first wireless module 300 at the gas meter 100 end synchronously hop frequency, the alarm 200 still does not receive the self-test result data of the gas meter 100, and the alarm 200 reports the no-signal state information of the gas meter 100 to the remote terminal 500 through the NB-IoT network.

After the alarm 200 reports the fault state information or the no-signal state information of the gas meter 100 to the remote mobile terminal 500, the remote mobile terminal 500 sends information to the user and the maintenance personnel, and the maintenance personnel are arranged to check and maintain related problems in time while the user is informed of avoiding risks.

The first wireless module 300 and the second wireless module 400 are 2.4G wireless communication modules.

The gas inlet end of the gas meter 100 is provided with a linkage device, and in the detection step, when the second wireless module 400 of the alarm 200 does not receive the self-detection result of the gas meter 100 or the received self-detection result is a fault, the linkage device of the gas meter 100 closes the gas inlet valve to cut off gas supply, so that the remote terminal 500 is prevented from being unable to know when the gas meter cannot normally work, and safety risk and economic loss are prevented from being caused.

Example 3

Along with the popularization and the use of the intelligent gas meter, the functions of accurate metering, remote meter reading, fee prompting and settlement and the like are realized, the intelligent gas meter generally comprises a data acquisition sensor, a data processor, a bus access device, a communication module and the like, the data acquisition sensor acquires gas flow data and transmits the gas flow data to the data processor to calculate gas flow and transmits the gas flow to a gas company through the communication module, and the gas company is ensured to remotely count the gas consumption of a user and charge. Therefore, accurate calculation of the flow signals acquired by the data acquisition sensor by the data processor of the gas meter and the normal working state of the data processor are important bases for guaranteeing the benefits of both the user and the gas company, and once the data processor fails, loss is caused to both the user and the gas company.

Referring to fig. 5, the gas meter 100 includes a first operation module 600, the alarm 200 includes a second operation module 700, and when the first operation module 600 of the gas meter 100 fails, the second operation module 700 is activated to operate the gas flow.

The first operation module 600 can calculate the gas flow data collected by the collecting sensor; a second operation module 700 having the same function as the first operation module 600; the gas flow signal is collected by the collection sensor and stored in the storage module of the gas meter 100, the first operation module 600 of the gas meter 100 calculates the flow value of the gas through the gas flow signal stored in the storage module of the gas meter 100, and then the flow value is transmitted to the user and the remote terminal 500 through the first wireless module 300 of the gas meter 100, or transmitted to the second wireless module 400 through the communication between the first wireless module 300 and the second wireless module 400, and then transmitted to the user and the remote terminal 500 through the second wireless module 400, so that the user and the remote terminal 500 can know the usage amount of the gas.

The gas meter 100 is monitored in real time through the alarm 200, the alarm 200 sends a self-checking instruction to the gas meter through the second wireless module 400 in real time, the gas meter 100 receives the self-checking instruction through the first wireless module 300 to perform self-checking, and a self-checking result is transmitted back to the alarm 200 through the first wireless module 300 and the second wireless module 400;

when the self-checking operation state of the gas meter 100 is a fault, in order to prevent the fault from being that the first operation module 600 in the gas meter 100 cannot acquire a gas flow signal from the storage module of the gas meter 100 to calculate a gas flow value, the alarm 200 sends an instruction to the gas meter 100 through the second wireless module 400 and the first wireless module 300, the gas meter 100 transmits the gas flow signal acquired by the acquisition sensor stored in the storage module of the gas meter 100 to the second operation module 700 in the alarm 200 through the second wireless module 400 by the first wireless module 300, the gas flow value is calculated by the second operation module 700 and transmitted to the remote terminal 500 through the second wireless module 400, and the remote terminal 500 can conveniently count the gas flow value. After receiving the self-checking operation fault alarm of the gas meter 100, a gas company of the remote terminal 500 arranges maintenance personnel to check and maintain the gas meter 100; after the first operation module 600 of the gas meter 100 is maintained, the data of the second operation module 700 is copied into the first operation module 600, and the data of the first operation module 600 is corrected, so that the accuracy of the first operation module 600 in subsequent measurement and calculation of the gas accumulated value is ensured. The scheme can improve the accurate calculation and transmission stability of the gas flow data and maintain the economic benefits of users and gas companies.

In another embodiment, the gas meter 100 calculates the usage flow rate of the gas through the first operation module 600 and transmits the usage flow rate signal to the remote terminal 500 through the first wireless module 300, the gas meter 100 transmits the usage flow rate signal of the gas, which is stored in the storage module of the gas meter 100, to the second operation module 700 in the alarm 200 through the first wireless module 300 and the second wireless module 400, the second operation module 700 calculates the gas flow rate and transmits the gas flow rate signal to the remote terminal 500 through the second wireless module 400, the remote terminal 500 compares the usage flow rate data of the gas, which is calculated by the first operation module 600, with the usage flow rate data of the gas, which is calculated by the second operation module 700, and when the two sets of data are different, a maintenance worker is arranged to check and maintain the first operation module 600 in the gas meter 100 and the second operation module 700 in the alarm 200, through the double calculation and monitoring of the first operation module 600 and the second operation module 700 on the gas flow, the accuracy of the gas flow calculation is improved, and the economic benefits of both the user and the gas company are protected to the greatest extent.

The embodiment of the invention also provides an information processing system of the gas meter linkage alarm, which comprises: the gas meter alarm system comprises a gas meter 100, an alarm 200 and a remote terminal 500, wherein the gas meter 100 comprises a first wireless module 300 and a first operation module 600, the alarm 200 comprises a second wireless module 400 and a second operation module 700, and the system is used for realizing a method for linking the gas meter with the alarm and monitoring the operation state of the alarm.

The embodiment of the invention also provides a storage medium, wherein the storage medium stores an instruction which can be executed by an information processing system of the gas meter linkage alarm, and the instruction is used for realizing a method for linking the gas meter linkage alarm and monitoring the operation state of the alarm when being executed by a processor included in the information processing system of the gas meter linkage alarm.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (10)

1. A gas meter linkage alarm and alarm operation state monitoring method is characterized in that the first wireless module and the second wireless module can communicate, and the gas meter monitors operation state information of the alarm.

2. The method for linking the alarm and monitoring the operation state of the alarm by the gas meter according to claim 1, wherein the alarm monitors the operation state information of the gas meter body.

3. The method for linking the gas meter with the alarm and monitoring the operation state of the alarm according to claim 2, wherein the gas meter comprises a first operation module, the alarm comprises a second operation module, and when the first operation module of the gas meter body fails, the second operation module is started to operate the gas flow.

4. The method for linking the gas meter with the alarm and monitoring the operation state of the alarm according to claim 1, wherein the operation state of the alarm comprises a normal state, a fault state and a no-signal state.

5. The method for linking the alarm with the gas meter and monitoring the operation state of the alarm according to claim 4, wherein the fault state of the alarm is that the alarm information has false alarm, and the no-signal state of the alarm is that no signal is transmitted to the gas meter.

6. The method for linking the alarm and monitoring the operation state of the alarm by the gas meter according to claim 1 is characterized by comprising the following steps:

s1, the gas meter sends the detection instruction to a second wireless module at the alarm end through a first wireless module at the gas meter end;

s2, the alarm carries out operation state self-checking through the detection instruction data received by the alarm end second wireless module, and sends the data of normal self-checking or fault self-checking to the gas meter end first wireless module through the alarm end second wireless module;

s3, the gas meter receives self-checking data of the alarm through the first wireless module at the gas meter end, and when the self-checking data result of the alarm is normal, the steps S1 and S2 are continued;

s4, the gas meter receives self-checking data of the alarm through the first wireless module at the gas meter end, and when the self-checking data result of the alarm is a fault, the gas meter reports fault state information of the alarm to the remote terminal through the NB-IoT network;

s5, the gas meter does not receive the self-checking result data sent by the alarm, the first wireless module at the gas meter end and the second wireless module at the alarm end synchronously hop to other frequency channels, the steps of S1, S2, S3 and S4 are repeated, and the detection is carried out again;

s6, after the first wireless module of the gas meter end and the second wireless module of the alarm end synchronously hop frequency, the gas meter still does not receive self-checking result data of the alarm, and the gas meter reports no-signal state information of the alarm to the remote terminal through the NB-IoT network.

7. The method for linking the gas meter with the alarm and monitoring the operation state of the alarm according to claim 1, wherein the first wireless module and the second wireless module are 2.4G wireless communication modules.

8. The method for linking the alarm and monitoring the operation state of the alarm by the gas meter according to claim 1, wherein a first wireless module of the gas meter does not receive a self-test result of the alarm or the received self-test result is a fault, and a linkage device of the gas meter closes an air inlet valve and cuts off gas supply.

9. An information processing system of a gas meter linkage alarm is characterized in that the system comprises: the system is used for realizing the method for linking the gas meter with the alarm and monitoring the operation state of the alarm according to any one of claims 1 to 8.

10. A storage medium having stored therein instructions executable by the system of claim 9, wherein the instructions when executed by a processor comprised by the system of claim 9 are adapted to implement a method of a gas meter linked alarm and monitoring the operational status of an alarm as claimed in any one of claims 1 to 8.

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