CN104989950A - Gas state monitoring system - Google Patents

Abstract

The invention provides a gas state monitoring system when enables people to conveniently know the use conditions of domestic gas in real time. The gas state monitoring system comprises a flow sensor, a data collecting chip, a first microprocessor, a first transmission module, a power source module and at least one APP mobile terminal. Each APP mobile terminal comprises a first data receiving and sending module, a second microprocessor, a storage module, a check request module and a man-machine interface module. The flow sensor is connected with the data collecting chip which is connected with the first microprocessor, and the first microprocessor is connected with the first transmission module and the power source module. The first data receiving and sending modules are connected the first transmission module and the second microprocessors which are connected with the storage modules, the check request modules and the man-machine interface modules. The invention belongs to the field of monitoring.

Description

Combustion gas condition monitoring system

Technical field

The present invention relates to monitoring field, particularly relate to a kind of combustion gas condition monitoring system.

Background technique

At present, the inflammable gas such as rock gas, coal gas, liquid gas has in production and sphere of life and applies comparatively widely; In recent years, the serious accident causing combustion gas to cause due to a variety of causes makes the attention rate of people to domestic gas using state constantly rise, especially for working clan, miss the service condition of family combustion gas constantly, not only worry into worry, and can working efficiency be affected, therefore, the using state how allowing people can understand domestic gas easily whenever and wherever possible seems particularly important.

Summary of the invention

The present invention overcomes the deficiency that prior art exists, and technical problem to be solved is: provide a kind of people of allowing can understand the combustion gas condition monitoring system of domestic gas service condition easily, in real time.

In order to solve the problems of the technologies described above, the technical solution used in the present invention is: combustion gas condition monitoring system, comprising: flow transducer: be located in the solenoid valve of gas pipeline, for detecting flow value when combustion gas uses; Data acquisition chip: be connected with described flow transducer, detects for gathering described flow transducer the combustion gas use traffic value and service time that obtain; First microprocessor: be connected with described data acquisition chip, for receive and analyze combustion gas use traffic that described data acquisition chip collects and service time data; First transmission module: be connected with described first microprocessor, for transmit described first microprocessor analyze after combustion gas use traffic and service time data; Power module: be connected with described first microprocessor, for powering for described first microprocessor; At least one APP mobile terminal, described APP mobile terminal comprises: the first data transmit-receive module: be connected with described first transmission module, for receive described first transmission module transmission combustion gas use traffic and service time data; Second microprocessor: be connected with described first data transmit-receive module, for receive, analyze and upload described first data transmit-receive module transmission combustion gas use traffic and service time data; Storage module: be connected with described second microprocessor, for store combustion gas use traffic and service time data; Checking request module: be connected with described second microprocessor, checking data request command for sending to described second microprocessor; Human-computer interface module: be connected with described second microprocessor, for show combustion gas use traffic and service time data.

Preferably, described APP mobile terminal also comprises: the second transmission module: be connected with described second microprocessor, for by combustion gas use traffic and service time data upload to high in the clouds; Login module: be connected with described second microprocessor, for sending logging request to described second microprocessor, logging in and carrying out data to high in the clouds and check; Described system also comprises: cloud service platform: be connected with described second transmission module, for by combustion gas use traffic and service time data storing in high in the clouds.

Preferably, described cloud service platform is also connected with described storage module, for by combustion gas use traffic and service time data be downloaded to described storage module and carry out secondary storage.

Preferably, described system also comprises: location active module: be connected with described first microprocessor, for receiving the positioning control order that described first microprocessor sends; At least one associated AP P mobile terminal, described associated AP P mobile terminal comprises: the second data transmit-receive module: be connected with described first transmission module, for receive described first transmission module transmission combustion gas use traffic and service time data; 3rd microprocessor: be connected with described second data transmit-receive module, for receive, analyze and upload described second data transmit-receive module transmission combustion gas use traffic and service time data; 3rd transmission module: be connected with described 3rd microprocessor and described cloud service platform, for by combustion gas use traffic and service time data upload to high in the clouds; Described APP mobile terminal also comprises: locating module: be connected with described location active module and described second microprocessor, for positioning described APP mobile terminal; Associated AP P active module: be connected with described second microprocessor and described 3rd microprocessor, for when APP mobile terminal is not in the transmission range of the first transmission module, activate the associated AP P mobile terminal being positioned at the first transmission module transmission range receive the first transmission module transmission combustion gas use traffic and service time data.

Preferably, described system also comprises: gas transducer: be located near indoor gas pipeline, for the gas concentration in sensing chamber; Described data acquisition chip is also connected with described gas transducer (401), for gathering indoor gas concentration value; Solenoid valve control module: be connected with described first microprocessor, drives solenoid valve action for receiving control command; Alarm module: be connected with described first microprocessor, for sending warning message when indoor gas concentration higher than during setting value.

Preferably, described system also comprises: time block: be connected with described first microprocessor, for setting the permission service time of combustion gas, when the time period that combustion gas uses reaches setting value, control described solenoid valve control module by described first microprocessor and drive solenoid valve to turn off gas pipeline.

The present invention compared with prior art has following beneficial effect:

1, the combustion gas condition monitoring system in the present invention, primarily of flow transducer, data acquisition chip, first microprocessor, the first transmission module and at least one APP mobile terminal composition, and APP mobile terminal primarily of the first data transmit-receive module, the second microprocessor, storage module, check request module and human-computer interface module composition, after flow value when combustion gas uses measured in real time by flow transducer, send flow information to data acquisition chip, data acquisition chip record combustion gas use time and flow after, data are sent to first microprocessor and carry out conversion treatment, data after process are delivered to APP mobile terminal by the first transmission module, after the first data transmit-receive module in APP mobile terminal receives data, send the data to the second microprocessor, second microprocessor sends to storage module to store after data being processed, user is by checking request module, can send to the second microprocessor at any time and check the request of combustion gas status data, after second microprocessor accepts request, the data information stored in storage module is sent to human-computer interface module to show, like this, people can be easily, understand domestic gas service condition in real time whenever and wherever possible.

2, the APP mobile terminal in the present invention also comprises login module and the second transmission module, when the combustion gas status information processed sends to storage module to enter to store by the second microprocessor, also by the second transmission module, synchronizing information is uploaded to cloud service platform, user carries out data by login module login to high in the clouds and checks, not only convenient but also ensured that data are not lost.

3, system of the present invention also comprises location active module and at least one associated AP P mobile terminal, associated AP P mobile terminal comprises the 3rd microprocessor and the 3rd transmission module, APP mobile terminal also comprises locating module and associated AP P active module, when the user carrying APP mobile terminal be on duty period or leave home comparatively far away and the combustion gas status information that the first transmission module transmits cannot be received time, information can be passed to contiguous associated AP P mobile terminal by the first transmission module, associated AP P mobile terminal by data upload to cloud service platform, user carries out data by login module login to high in the clouds and checks.

4, the present invention also comprises gas transducer, solenoid valve control module, alarm module and time block, detect combustion gas by gas transducer whether to leak, if leak, the action of first microprocessor Controlling solenoid valve control module, shut electromagnetic valve, and report to the police, in addition, also by the permission service time of time block setting combustion gas, prevent the generation of the serious accidents such as personnel are poisoning, blast.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, the present invention will be further described in detail;

Fig. 1 is the structural representation of the preferred embodiment of the present invention;

In figure: 101 is flow transducer, 102 is data acquisition chip, 103 is first microprocessor, 104 is the first transmission module, 105 is power module, 106 is APP mobile terminal, 107 is the first data transmit-receive module, 108 is the second microprocessor, 109 is storage module, 110 for checking request module, 111 is human-computer interface module, 201 is login module, 202 is the second transmission module, 203 is cloud service platform, 301 is location active module, 302 is associated AP P mobile terminal, 303 is the 3rd microprocessor, 304 is the 3rd transmission module, 305 is locating module, 306 is associated AP P active module, 307 is the second data transmit-receive module, 401 is gas transducer, 402 is solenoid valve control module, 403 is alarm module, 501 is time block.

Embodiment

As shown in Figure 1, combustion gas condition monitoring system in the present embodiment comprises flow transducer 101, data acquisition chip 102, first microprocessor 103, first transmission module 104, power module 105 and at least one APP mobile terminal 106, in order to only illustrate an APP mobile terminal 106 in the succinct the present embodiment of view, and each APP mobile terminal 106 includes the first data transmit-receive module 107, second microprocessor 108, storage module 109, checks request module 110 and human-computer interface module 111; Flow transducer 101 is located in the solenoid valve of gas pipeline, for detecting flow value when combustion gas uses; Data acquisition chip 102 is connected with described flow transducer 101, and in the present embodiment, data acquisition chip 102 has function time calibration, can real time record Beijing time data, therefore, it is possible to detect for gathering described flow transducer 101 the combustion gas use traffic value and service time that obtain; First microprocessor 103 is connected with described data acquisition chip 102, for receive and analyze combustion gas use traffic that described data acquisition chip 102 collects and service time data; First transmission module 104 is connected with described first microprocessor 103, for transmit described first microprocessor 103 analyze after combustion gas use traffic and service time data; Power module 105: be connected with described first microprocessor 103, for powering for described first microprocessor 103; First data transmit-receive module 107 is connected with described first transmission module 104, for receive described first transmission module 104 transmit combustion gas use traffic and service time data; Second microprocessor 108 is connected with described first data transmit-receive module 107, for receive, analyze and upload described first data transmit-receive module 107 transmit combustion gas use traffic and service time data; Storage module 109 is connected with described second microprocessor 108, for store combustion gas use traffic and service time data; Checking that request module 110 is connected with described second microprocessor 108, checking data request command for sending to described second microprocessor 108; Human-computer interface module 111 is connected with described second microprocessor 108, for show combustion gas use traffic and service time data.

In the present embodiment, also data acquisition chip 102, first microprocessor 103, first transmission module 104 can be arranged at the solenoid valve be positioned on gas pipeline together with power module 105, particularly, described flow transducer 101 can be piezoelectric stress formula sensor, particularly, described first transmission module 104 can be Bluetooth communication modules, and the power consumption of Bluetooth transmission is lower, antijamming capability is strong, propagation length is long, and the radiation pattern of pulsed makes Security higher, and to overcome with dryelement cell be the difficult problem of power supply, particularly, power module 105 can adopt battery, makes first microprocessor 103 without the need to ABAP Adapter, facilitates simply again, during work, flow transducer 101 detects flow value when combustion gas uses in real time, flow information is sent to data acquisition chip 102, data acquisition chip 102 record combustion gas use time and flow after, data are sent to first microprocessor 103 and carry out analysing and processing, data after analysis are delivered to APP mobile terminal 106 by the first transmission module 104, after the first data transmit-receive module 107 in APP mobile terminal 106 receives data, send the data to the second microprocessor 108, second microprocessor 108 stores sending to storage module 109 after data analysis, user is by checking request module 110, the request checking combustion gas status data can be sent at any time to the second microprocessor 108, after second microprocessor 108 accepts request, the data information stored in storage module 109 is sent to human-computer interface module 111 to show.

In the present embodiment, described APP mobile terminal 106 also can comprise login module 201 and the second transmission module 202, and described system also can comprise cloud service platform 203; Second transmission module 202 is connected with described second microprocessor 108, for by combustion gas use traffic and service time data upload to high in the clouds; Login module 201 is connected with described second microprocessor 108, for sending logging request to described second microprocessor 108, logging in and carrying out data to high in the clouds and check; Cloud service platform 203 is connected with described second transmission module 202, for by combustion gas use traffic and service time data storing in high in the clouds; When the combustion gas status information processed sends to storage module 109 to enter to store by the second microprocessor 108, simultaneously by the second transmission module 202, synchronizing information is uploaded to cloud service platform 203, user logs in by login module 201 and carries out data to high in the clouds and check; Particularly, described cloud service platform 203 also can be connected with described storage module 109, for by combustion gas use traffic and service time data be downloaded to described storage module 109 and carry out secondary storage, double insurance stores and data is not easily lost.

In the present embodiment, described system also can comprise location active module 301 and at least one associated AP P mobile terminal 302, described APP mobile terminal 106 also can comprise locating module 305 and associated AP P active module 306, in order to only illustrate an associated AP P mobile terminal 302 in the succinct the present embodiment of view, described associated AP P mobile terminal 302 can comprise the second data transmit-receive module 307, the 3rd microprocessor 303 and the 3rd transmission module 304, location active module 301 is connected with described first microprocessor 103, for receiving the positioning control order that described first microprocessor 103 sends, second data transmit-receive module 307 is connected with described first transmission module 104, for receive described first transmission module 104 transmit combustion gas use traffic and service time data, 3rd microprocessor 303 is connected with described second data transmit-receive module 307, for receive, analyze and upload described second data transmit-receive module 307 transmit combustion gas use traffic and service time data, 3rd transmission module 304 is connected with described 3rd microprocessor 303 and described cloud service platform 203, for by combustion gas use traffic and service time data upload to high in the clouds, locating module 305 is connected with described location active module 301 and described second microprocessor 108, for positioning described APP mobile terminal 106, associated AP P active module 306 is connected with described second microprocessor 108 and described 3rd microprocessor 303, for when APP mobile terminal 106 is not in the transmission range of the first transmission module 104, activate the associated AP P mobile terminal 302 being positioned at the first transmission module 104 transmission range receive combustion gas use traffic that the first transmission module 104 transmits and service time data, after combustion gas status information is passed to first microprocessor 103 by data acquisition chip 102, first microprocessor 103 sends order to location active module 301, location active module 301 activates locating module 305 pairs of APP mobile terminals 106 and positions and locating information is transferred to the second microprocessor 108, second microprocessor 108 differentiates APP mobile terminal 106 whether in transmission range according to locating information, when APP mobile terminal 106 is in transmission range, first microprocessor 103 directly transmits data to APP mobile terminal 106 by the first transmission module 104, when the user carrying APP mobile terminal 106 be on duty period or leave home comparatively far away and the combustion gas status information that the first transmission module 105 transmits cannot be received time, second microprocessor 108 sends order to associated AP P active module 306, associated AP P active module 306 activates contiguous associated AP P mobile terminal 302, make the first transmission module 104 information can be passed to the second data transmit-receive module 307 in contiguous associated AP P mobile terminal 306, the 3rd microprocessor 303 is sent to after second data transmit-receive module 307 receives data, 3rd microprocessor 303 passes through the 3rd transmission module 304 by data upload to cloud service platform 203, user logs in by login module 201 and carries out data to high in the clouds and check, in the present embodiment, in the transmission range of the first transmission module 104, as long as there is the APP mobile terminal of association, so user just can log in APP anywhere from high in the clouds downloading data, check the service condition of oneself family's combustion gas.

In the present embodiment, described system also can comprise: gas transducer 401, solenoid valve control module 402 and alarm module 403; Gas transducer 401 is located near indoor gas pipeline, for the gas concentration in sensing chamber; Described data acquisition chip 102 is also connected with described gas transducer 401, for gathering indoor gas concentration value; Solenoid valve control module 402 is connected with described first microprocessor 103, drives solenoid valve action for receiving control command; Alarm module 403 is connected with described first microprocessor 103, for sending warning message when indoor gas concentration higher than during setting value; During work, whether gas transducer 401 Real-Time Monitoring has gas leakage, and monitoring information is sent to data acquisition chip 102, data acquisition chip 102 passes to first microprocessor 103, after first microprocessor 103 processing information, if discovery gas leakage, then Controlling solenoid valve control module 402 action, solenoid valve control module 402 controls the closed electromagnetic valve on gas pipeline, simultaneously, alarm module 403 is reported to the police, and prevents the generation of major accident; In addition, described system also can comprise: time block 501, described time block 501 can be made into the form of control panel, time block 501 is connected with described first microprocessor 103, for setting the permission service time of combustion gas, when the time period that combustion gas uses reaches setting value, control described solenoid valve control module 402 by described first microprocessor 103 and drive solenoid valve to turn off gas pipeline.

A kind of novel supervisory system can understanding combustion gas state is in real time provided in the present invention, this system can monitor the service condition of combustion gas in real time, and by the transmission technologys such as bluetooth, APP high in the clouds function, the using state of domestic gas is passed to user in real time, there is outstanding substantive distinguishing features and significant progress; User can according to these information analyses and the service condition contrasted from home fuel gas, and then draw best operational version, in addition, the problems such as China's city gas supply and demand, scheduling need based on mass data, the natural gas companies series of problems such as practical difficulty and cost of checking meter of registering one's residence all requires more convenient, the reliable data collection and analysis system of one, the present invention can be used as the point of penetration solving these problems, data summarization can be collected by multiple elementary cell and carry out large data analysis to high in the clouds, assist appropriate authority to carry out decision-making; By reference to the accompanying drawings embodiments of the invention are explained in detail above, but the present invention is not limited to above-described embodiment, in the ken that those of ordinary skill in the art possess, various change can also be made under the prerequisite not departing from present inventive concept.

Claims (9)

1. combustion gas condition monitoring system, is characterized in that: comprising:

Flow transducer (101): be located in the solenoid valve of gas pipeline, for detecting flow value when combustion gas uses;

Data acquisition chip (102): be connected with described flow transducer (101), detects for gathering described flow transducer (101) the combustion gas use traffic value and service time that obtain;

First microprocessor (103): be connected with described data acquisition chip (102), for receive and analyze combustion gas use traffic that described data acquisition chip (102) collects and service time data;

First transmission module (104): be connected with described first microprocessor (103), for transmit described first microprocessor (103) analyze after combustion gas use traffic and service time data;

Power module (105): be connected with described first microprocessor (103), for powering for described first microprocessor (103);

At least one APP mobile terminal (106), described APP mobile terminal (106) comprising:

First data transmit-receive module (107): be connected with described first transmission module (104), for receive combustion gas use traffic that described first transmission module (104) transmits and service time data;

Second microprocessor (108): be connected with described first data transmit-receive module (107), for receive, analyze and upload combustion gas use traffic that described first data transmit-receive module (107) transmits and service time data;

Storage module (109): be connected with described second microprocessor (108), for store combustion gas use traffic and service time data;

Check request module (110): be connected with described second microprocessor (108), for checking data request command to the transmission of described second microprocessor (108);

Human-computer interface module (111): be connected with described second microprocessor (108), for show combustion gas use traffic and service time data.

2. combustion gas condition monitoring system according to claim 1, is characterized in that: described APP mobile terminal (106) also comprises:

Second transmission module (202): be connected with described second microprocessor (108), for by combustion gas use traffic and service time data upload to high in the clouds;

Login module (201): be connected with described second microprocessor (108), for sending logging request to described second microprocessor (108), logging in and carrying out data to high in the clouds and check;

Described system also comprises:

Cloud service platform (203): be connected with described second transmission module (202), for by combustion gas use traffic and service time data storing in high in the clouds.

3. combustion gas condition monitoring system according to claim 2, it is characterized in that: described cloud service platform (203) is also connected with described storage module (109), for by combustion gas use traffic and service time data be downloaded to described storage module (109) and carry out secondary storage.

4. combustion gas condition monitoring system according to claim 2, is characterized in that: described system also comprises:

Location active module (301): be connected with described first microprocessor (103), for receiving the positioning control order that described first microprocessor (103) sends;

At least one associated AP P mobile terminal (302), described associated AP P mobile terminal (302) comprising:

Second data transmit-receive module (307): be connected with described first transmission module (104), for receive combustion gas use traffic that described first transmission module (104) transmits and service time data;

3rd microprocessor (303): be connected with described second data transmit-receive module (307), for receive, analyze and upload combustion gas use traffic that described second data transmit-receive module (307) transmits and service time data;

3rd transmission module (304): be connected with described 3rd microprocessor (303) and described cloud service platform (203), for by combustion gas use traffic and service time data upload to high in the clouds;

Described APP mobile terminal (106) also comprises:

Locating module (305): be connected with described location active module (301) and described second microprocessor (108), for positioning described APP mobile terminal (106);

Associated AP P active module (306): be connected with described second microprocessor (108) and described 3rd microprocessor (303), for when APP mobile terminal (106) is not in the transmission range of the first transmission module (104), activate the associated AP P mobile terminal (302) being positioned at the first transmission module (104) transmission range receive combustion gas use traffic that the first transmission module (104) transmits and service time data.

5. combustion gas condition monitoring system according to claim 1, is characterized in that: described system also comprises:

Gas transducer (401): be located near indoor gas pipeline, for the gas concentration in sensing chamber; Described data acquisition chip (102) is also connected with described gas transducer (401), for gathering indoor gas concentration value;

Solenoid valve control module (402): be connected with described first microprocessor (103), drives solenoid valve action for receiving control command;

Alarm module (403): be connected with described first microprocessor (103), for sending warning message when indoor gas concentration higher than during setting value.

6. combustion gas condition monitoring system according to claim 5, is characterized in that: described system also comprises:

Time block (501): be connected with described first microprocessor (103), for setting the permission service time of combustion gas, when the time period that combustion gas uses reaches setting value, control described solenoid valve control module (402) by described first microprocessor (103) and drive solenoid valve to turn off gas pipeline.

7. combustion gas condition monitoring system according to claim 1, is characterized in that: described flow transducer (101) is piezoelectric stress formula sensor.

8. combustion gas condition monitoring system according to claim 1, is characterized in that: described first transmission module (104) is Bluetooth communication modules.

9. combustion gas condition monitoring system according to claim 1, is characterized in that: described power module (105) is battery.