阅读说明：本技术 地下管线数据监测方法、装置和系统 (Underground pipeline data monitoring method, device and system ) 是由 雷欢欢 张弓 陈子申 樊伟平 田骊宁 于 2019-09-09 设计创作，主要内容包括：本公开提供了一种地下管线数据监测方法、装置和系统,涉及数据处理技术领域。本公开提供的地下管线数据监测方法、装置和系统,通过物联网监测平台接收各监测设备传输的地下管线的监测数据,对各监测设备传输的地下管线的监测数据进行解析,将解析后的监测数据进行存储,判断解析后的监测数据是否达到报警阈值,若存在达到报警阈值的监测数据,将达到报警阈值的监测数据进行存储,并将解析后的监测数据以及达到报警阈值的监测数据传输到应用端进行显示,整个过程基于物联网技术实时处理,提高了监测的实时性。(The disclosure provides a method, a device and a system for monitoring underground pipeline data, and relates to the technical field of data processing. The utility model provides an underground pipeline data monitoring method, device and system, receive the monitoring data of the underground pipeline of each monitoring facilities transmission through thing networking monitoring platform, analyze the monitoring data of the underground pipeline of each monitoring facilities transmission, the monitoring data after will analyzing is saved, judge whether the monitoring data after the analysis reaches alarm threshold value, if there is the monitoring data who reaches alarm threshold value, the monitoring data who reaches alarm threshold value is saved, and the monitoring data after will analyzing and the monitoring data who reaches alarm threshold value are transmitted to the application and are shown, whole process is based on thing networking technology real-time processing, the real-time of monitoring has been improved.)

1. The underground pipeline data monitoring method is applied to an Internet of things monitoring platform, and comprises the following steps:

receiving monitoring data of the underground pipelines transmitted by each monitoring device;

analyzing the monitoring data, and storing the analyzed monitoring data;

judging whether the analyzed monitoring data reach an alarm threshold value or not, and storing the monitoring data reaching the alarm threshold value;

and transmitting the analyzed monitoring data and the monitoring data reaching the alarm threshold value to an application end for displaying.

2. The underground pipeline data monitoring method according to claim 1, wherein the internet of things monitoring platform receives the underground pipeline monitoring data transmitted by each monitoring device based on a socket network.

3. The underground pipeline data monitoring method according to claim 1, wherein the internet of things monitoring platform transmits the analyzed monitoring data and the monitoring data reaching the alarm threshold to the application terminal for display based on a websocket technology.

4. The underground pipeline data monitoring method according to claim 1, wherein the internet of things monitoring platform stores identification information of each monitoring device and an adaptation program of each monitoring device; the monitoring data comprises identification information of the monitoring equipment;

the step of analyzing the monitoring data comprises:

and analyzing the monitoring data transmitted by each monitoring device based on the stored adaptive program of each monitoring device to obtain the identification information of each monitoring device.

5. The underground pipeline data monitoring method according to claim 4, wherein the internet of things monitoring platform stores position information of each monitoring device, and the step of transmitting the analyzed monitoring data and the monitoring data reaching the alarm threshold value to an application end for display comprises:

according to the identification information of each monitoring device, associating the analyzed monitoring data and the monitoring data reaching the alarm threshold value with the position information of the corresponding monitoring device respectively;

and transmitting the analyzed monitoring data and the associated position information, the monitoring data reaching the alarm threshold value and the associated position information to an application end for displaying.

6. The underground utility data monitoring method of claim 5, further comprising:

based on gis technology, location information associated with the monitoring data reaching the alarm threshold is displayed on the gis map.

7. The underground utility data monitoring method of claim 1, further comprising:

and alarming the monitoring data reaching the alarm threshold value, transmitting the monitoring data reaching the alarm threshold value to the mobile terminal, so that the mobile terminal determines whether the alarm is effective according to the monitoring data reaching the alarm threshold value, and feeding back the information whether the alarm is effective to the Internet of things monitoring platform.

8. The underground utility data monitoring method of claim 7, further comprising:

after receiving the information of invalid alarm fed back by the mobile terminal, closing the alarm of the monitoring data corresponding to the information;

and after receiving the effective alarm information fed back by the mobile terminal, sending the monitoring data corresponding to the information to a management terminal so that the management terminal processes the monitoring data based on the monitoring data corresponding to the information.

9. The underground pipeline data monitoring device is applied to an Internet of things monitoring platform and comprises a receiving module, a processing module and a sending module;

the receiving module is used for receiving the monitoring data of the underground pipelines transmitted by each monitoring device;

the processing module is used for analyzing the monitoring data and storing the analyzed monitoring data;

the processing module is also used for judging whether the analyzed monitoring data reaches an alarm threshold value or not and storing the monitoring data reaching the alarm threshold value;

and the sending module is used for transmitting the analyzed monitoring data and the monitoring data reaching the alarm threshold value to an application end for displaying.

10. An underground pipeline data monitoring system is characterized by comprising an Internet of things monitoring platform, a plurality of monitoring devices and an application end; the Internet of things monitoring platform is in communication connection with each monitoring device and the application end;

the monitoring platform of the internet of things receives the monitoring data of the underground pipelines transmitted by the monitoring devices, analyzes the monitoring data, stores the analyzed monitoring data, judges whether the analyzed monitoring data reach an alarm threshold value, stores the monitoring data reaching the alarm threshold value, and transmits the analyzed monitoring data and the monitoring data reaching the alarm threshold value to an application end for displaying.

Technical Field

The disclosure relates to the technical field of data processing, in particular to a method, a device and a system for monitoring underground pipeline data.

Background

The urban underground pipeline refers to pipelines and auxiliary facilities for water supply, drainage, gas, heat, electric power, communication, radio and television, industry and the like in the urban range, and is an important infrastructure and a 'lifeline' for ensuring urban operation. Therefore, there is a need for monitoring, assessing, pre-warning and supervising the potential safety hazards of underground pipelines. At present, most underground pipelines are monitored and early warned by acquiring running state data of the underground pipelines, but the real-time performance of monitoring the underground pipelines at present needs to be improved.

Disclosure of Invention

Based on the research, the disclosure provides a method, a device and a system for monitoring underground pipeline data.

Embodiments of the present disclosure may be implemented as follows:

in a first aspect, the present disclosure provides an underground pipeline data monitoring method applied to an internet of things monitoring platform, the method including:

receiving monitoring data of the underground pipelines transmitted by each monitoring device;

analyzing the monitoring data, and storing the analyzed monitoring data;

judging whether the analyzed monitoring data reach an alarm threshold value or not, and storing the monitoring data reaching the alarm threshold value;

and transmitting the analyzed monitoring data and the monitoring data reaching the alarm threshold value to an application end for displaying.

In an optional implementation manner, the internet of things monitoring platform receives monitoring data of the underground pipelines transmitted by the monitoring devices based on a socket network.

In an optional implementation manner, the internet of things monitoring platform transmits the analyzed monitoring data and the monitoring data reaching the alarm threshold to the application terminal for display based on the websocket technology.

In an optional embodiment, the internet of things monitoring platform stores identification information of each monitoring device and an adaptation program of each monitoring device; the monitoring data comprises identification information of the monitoring equipment;

the step of analyzing the monitoring data comprises:

and analyzing the monitoring data transmitted by each monitoring device based on the stored adaptive program of each monitoring device to obtain the identification information of each monitoring device.

In an optional implementation manner, the internet of things monitoring platform stores location information of each monitoring device, and the step of transmitting the analyzed monitoring data and the monitoring data reaching the alarm threshold to the application terminal for display includes:

according to the identification information of each monitoring device, associating the analyzed monitoring data and the monitoring data reaching the alarm threshold value with the position information of the corresponding monitoring device respectively;

and transmitting the analyzed monitoring data and the associated position information, the monitoring data reaching the alarm threshold value and the associated position information to an application end for displaying.

In an alternative embodiment, the method further comprises:

based on gis technology, location information associated with the monitoring data reaching the alarm threshold is displayed on the gis map.

In an alternative embodiment, the method further comprises:

and alarming the monitoring data reaching the alarm threshold value, transmitting the monitoring data reaching the alarm threshold value to the mobile terminal, so that the mobile terminal determines whether the alarm is effective according to the monitoring data reaching the alarm threshold value, and feeding back the information whether the alarm is effective to the Internet of things monitoring platform.

In an alternative embodiment, the method further comprises:

after receiving the information of invalid alarm fed back by the mobile terminal, closing the alarm of the monitoring data corresponding to the information;

and after receiving the effective alarm information fed back by the mobile terminal, sending the monitoring data corresponding to the information to a management terminal so that the management terminal processes the monitoring data based on the monitoring data corresponding to the information.

In a second aspect, the present disclosure provides an underground pipeline data monitoring device, which is applied to an internet of things monitoring platform, and comprises a receiving module, a processing module and a sending module;

the receiving module is used for receiving the monitoring data of the underground pipelines transmitted by each monitoring device;

the processing module is used for analyzing the monitoring data and storing the analyzed monitoring data;

the processing module is also used for judging whether the analyzed monitoring data reaches an alarm threshold value or not and storing the monitoring data reaching the alarm threshold value;

and the sending module is used for transmitting the analyzed monitoring data and the monitoring data reaching the alarm threshold value to an application end for displaying.

In a third aspect, the present disclosure provides an underground pipeline data monitoring system, which includes an internet of things monitoring platform, a plurality of monitoring devices, and an application end; the Internet of things monitoring platform is in communication connection with each monitoring device and the application end;

the monitoring platform of the internet of things receives the monitoring data of the underground pipelines transmitted by the monitoring devices, analyzes the monitoring data, stores the analyzed monitoring data, judges whether the analyzed monitoring data reach an alarm threshold value, stores the monitoring data reaching the alarm threshold value, and transmits the analyzed monitoring data and the monitoring data reaching the alarm threshold value to an application end for displaying.

In a fourth aspect, the present disclosure provides a storage medium having stored thereon a computer program which, when executed, implements the steps of the above-described underground utility data monitoring method.

The utility model provides an underground pipeline data monitoring method, device and system, receive the monitoring data of the underground pipeline of each monitoring facilities transmission through thing networking monitoring platform, analyze the monitoring data of the underground pipeline of each monitoring facilities transmission, the monitoring data after will analyzing is saved, judge whether the monitoring data after the analysis reaches alarm threshold value, if there is the monitoring data who reaches alarm threshold value, the monitoring data who reaches alarm threshold value is saved, and the monitoring data after will analyzing and the monitoring data who reaches alarm threshold value are transmitted to the application and are shown, whole process is based on thing networking technology real-time processing, the real-time of monitoring has been improved.

Drawings

To more clearly illustrate the technical solutions of the present disclosure, the drawings needed for the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present disclosure, and therefore should not be considered as limiting the scope, and those skilled in the art can also obtain other related drawings based on the drawings without inventive efforts.

Fig. 1 is a schematic flow chart of a method for monitoring underground pipeline data according to the present disclosure.

FIG. 2 is another schematic flow chart of a method for monitoring data of an underground utility according to the present disclosure.

FIG. 3 is a schematic flow chart of a method for monitoring data of an underground pipeline according to the present disclosure.

Fig. 4 is a block diagram of an internet of things monitoring platform provided in the present disclosure.

FIG. 5 is a block diagram of an underground utility data monitoring apparatus according to the present disclosure.

FIG. 6 is a block diagram of an underground utility data monitoring system provided by the present disclosure.

Icon: 1-an underground pipeline data monitoring system; 100-an internet of things monitoring platform; 10-an underground pipeline data monitoring device; 11-a receiving module; 12-a processing module; 13-a sending module; 200-a monitoring device; 300-application side.

Detailed Description

To make the objects, technical solutions and advantages of the present disclosure more clear, the technical solutions of the present disclosure will be described clearly and completely below with reference to the accompanying drawings in the present disclosure, and it is obvious that the described embodiments are some, but not all embodiments of the present disclosure. The components of the present disclosure, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present disclosure, presented in the figures, is not intended to limit the scope of the claimed disclosure, but is merely representative of selected embodiments of the disclosure. All other embodiments, which can be derived by a person skilled in the art from the embodiments disclosed herein without making any creative effort, shall fall within the protection scope of the present disclosure.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present disclosure, it should be noted that if the terms "upper", "lower", "inner", "outer", etc. are used for indicating the orientation or positional relationship based on the orientation or positional relationship shown in the drawings or the orientation or positional relationship which the present invention is used to usually place, the description is only for convenience of describing and simplifying the present disclosure, but not for indicating or implying that the referred device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present disclosure.

It should be noted that the features in the embodiments of the present disclosure may be combined with each other without conflict.

With the rapid development of economic construction in China, the basic facilities of urban traffic, buildings and the like are multiplied, and the urban scale is gradually enlarged. In order to ensure the normal operation of economic activities, the demand for urban infrastructure construction is also increasing. The underground pipeline is one of important infrastructure for guaranteeing urban operation, and once a problem occurs, normal operation of urban life is affected, so that monitoring, evaluation, early warning and supervision of potential safety hazards of the underground pipeline are necessary. At present, most underground pipelines are monitored and early warned by acquiring running state data of the underground pipelines, but the real-time performance of monitoring the underground pipelines at present needs to be improved.

Based on the above research, the present disclosure provides an underground pipeline data monitoring method to improve the above problems.

Referring to fig. 1, fig. 1 is a schematic flow chart of an underground pipeline data monitoring method according to the present disclosure. The underground pipeline data monitoring method is applied to an Internet of things monitoring platform. The specific flow of the underground pipeline data monitoring method shown in fig. 1 is described in detail below.

And step S10, receiving the monitoring data of the underground pipeline transmitted by each monitoring device.

The monitoring devices include various sensors, such as a temperature sensor, a pressure sensor, a flow sensor, etc., and each sensor is disposed at a position to be monitored of the underground pipeline to monitor a state of the underground pipeline in real time, such as the temperature sensor monitoring temperature data of the underground pipeline, the pressure sensor monitoring pressure data of the underground pipeline, and the flow sensor monitoring flow data of the underground pipeline.

In order to improve the real-time performance of monitoring, the monitoring platform of the internet of things receives the monitoring data of the underground pipelines transmitted by each monitoring device based on socket network service. After the monitoring platform of the internet of things and each monitoring device are connected based on a socket network, each monitoring device transmits monitored monitoring data of the underground pipelines to the monitoring platform of the internet of things in real time.

Step S20: and analyzing the monitoring data, and storing the analyzed monitoring data.

The monitoring platform of the internet of things analyzes the monitoring data transmitted by each monitoring device after receiving the monitoring data of the underground pipelines transmitted by each monitoring device, and stores the analyzed monitoring data to a database in real time.

Step S30: and judging whether the analyzed monitoring data reach an alarm threshold value or not, and storing the monitoring data reaching the alarm threshold value.

Step S40: and transmitting the analyzed monitoring data and the monitoring data reaching the alarm threshold value to an application end for displaying.

After analyzing the monitoring data transmitted by each monitoring device, the monitoring platform of the internet of things stores the analyzed monitoring data into a database in real time and transmits the analyzed monitoring data to an application end in real time for display; and on the other hand, whether the analyzed monitoring data reaches the alarm threshold value is judged. The monitoring platform of the internet of things is provided with an alarm threshold value of data, if the analyzed monitoring data reaches the alarm threshold value, the monitoring data reaching the alarm threshold value is stored in a database in real time, and the monitoring data reaching the alarm threshold value is transmitted to an application end in real time to be displayed.

As an optional implementation manner, the database storing the analyzed monitoring data and the database storing the monitoring data reaching the alarm threshold may be the same database, or may be different databases, and if the same database is used, the two types of data are stored in different data tables.

According to the underground pipeline data monitoring method, after the monitoring data are analyzed, on one hand, the analyzed monitoring data are stored in real time, on the other hand, the monitoring data are transmitted to the application end in real time to be displayed, and then the storage of the monitoring data and the transmission of the monitoring data are processed in parallel, so that the working efficiency and the real-time performance of monitoring are improved; meanwhile, after analyzing the monitoring data, the method for monitoring the underground pipeline data, provided by the disclosure, stores the analyzed monitoring data in real time on one hand, judges whether the analyzed monitoring data reaches an alarm threshold value or not on the other hand, stores the monitoring data reaching the alarm threshold value, and transmits the monitoring data to an application end for displaying, and the application end can directly acquire the monitoring data reaching the alarm threshold value according to a display result without warehousing, inquiring and acquiring the monitoring data, so that the working time is saved, and the real-time performance of monitoring is improved.

Further, in order to improve the real-time performance of data monitoring, the internet of things monitoring platform provided by the disclosure transmits the analyzed monitoring data and the monitoring data reaching the alarm threshold to the application terminal for displaying based on a websocket (full-duplex communication protocol based on TCP) technology.

The analyzed monitoring data and the monitoring data reaching the alarm threshold value can be transmitted to the application end in real time for displaying through the websocket technology, the data transmission efficiency is improved, and the monitoring real-time performance of the underground pipeline is further improved.

As an alternative embodiment, the application provided in the present disclosure may be, but is not limited to, a smart phone, a Personal Computer (PC), a tablet PC, a Personal Digital Assistant (PDA), a Mobile Internet Device (MID), and the like.

In an optional embodiment, the internet of things monitoring platform further stores identification information of each monitoring device and an adaptation program of each monitoring device; the monitoring data comprises identification information of the monitoring equipment; the step of analyzing the monitoring data comprises the following steps.

And analyzing the monitoring data transmitted by each monitoring device based on the stored adaptive program of each monitoring device to obtain the identification information of each monitoring device.

The transmission protocols of different monitoring devices are different, and if correct and effective monitoring data are obtained, verification is required according to the transmission protocols of the monitoring devices, and adaptation and analysis work is performed on the different transmission protocols. In order to ensure normal transmission and analysis of monitoring data, the internet of things monitoring platform stores adaptation programs of the monitoring devices, and then after the internet of things monitoring platform receives the monitoring data of the underground pipelines transmitted by the monitoring devices, the monitoring data of the underground pipelines transmitted by the monitoring devices can be analyzed based on the stored adaptation programs of the monitoring devices. Because the monitoring platform of the internet of things provided by the present disclosure is provided with adaptation programs for different monitoring devices, the monitoring platform of the internet of things provided by the present disclosure is suitable for different monitoring devices, and the applicability is strong.

For different monitoring devices, each monitoring device has unique identification information, the identification information of each monitoring device is stored in the monitoring platform of the Internet of things, and when the monitoring data of the monitored underground pipelines are transmitted to the monitoring platform of the Internet of things by each monitoring device, the transmitted monitoring data comprise the identification information of the monitoring devices. And after receiving the monitoring data transmitted by each monitoring data, the monitoring platform of the internet of things analyzes the monitoring data, so that the identification information of each monitoring device can be obtained.

As an alternative embodiment, the identification information of each monitoring device may be a unique identifier, name, number, or the like.

In an optional embodiment, the internet of things monitoring platform further stores location information of each monitoring device, please refer to fig. 2, and the step of transmitting the analyzed monitoring data and the monitoring data reaching the alarm threshold to the application terminal for displaying includes steps S41 to S42.

Step S41: and respectively associating the analyzed monitoring data and the monitoring data reaching the alarm threshold value with the position information of the corresponding monitoring equipment according to the identification information of each monitoring equipment.

When each monitoring device is arranged in an underground pipeline, the set position information is transmitted to the Internet of things monitoring platform to be stored, and is associated with the identification information stored in the Internet of things monitoring platform by each monitoring device, namely, the position information of each monitoring device is associated with the identification information stored in the Internet of things monitoring platform by the monitoring device, and then the monitoring data transmitted by each monitoring device is analyzed by the Internet of things monitoring platform, after the identification information of each monitoring device is obtained, the same identification information is searched for by the Internet of things monitoring platform according to the identification information of each monitoring device, if the same identification information is searched for in the Internet of things monitoring platform, the analyzed monitoring data is associated with the position information of the corresponding monitoring device. Likewise, monitoring data that reaches an alarm threshold is also associated with location information of the corresponding monitoring device.

Step S42: and transmitting the analyzed monitoring data and the associated position information, the monitoring data reaching the alarm threshold value and the associated position information to an application end for displaying.

After the analyzed monitoring data are associated with the position information of the corresponding monitoring equipment and the monitoring data reaching the alarm threshold are associated with the position information of the corresponding monitoring equipment, the analyzed monitoring data, the associated position information, the monitoring data reaching the alarm threshold and the associated position information are transmitted to an application end to be displayed, so that a worker can conveniently check and manage the monitoring data, the position information of the monitoring equipment corresponding to abnormal monitoring data can be timely known, the running state of an underground pipeline can be timely mastered, and the underground pipeline in the abnormal state is processed.

As an optional implementation manner, the disclosure may further utilize gis (Geographic Information System) technology to display the position Information associated with the monitoring data reaching the alarm threshold on the gis map, so that the staff can more intuitively obtain the position of the monitoring device corresponding to the monitoring data reaching the alarm threshold, and process the underground pipeline at the position in time, thereby avoiding unnecessary loss, and saving economic loss and management cost.

As an optional implementation, the method further comprises:

and alarming the monitoring data reaching the alarm threshold value, transmitting the monitoring data reaching the alarm threshold value to the mobile terminal, so that the mobile terminal determines whether the alarm is effective according to the monitoring data reaching the alarm threshold value, and feeding back the information whether the alarm is effective to the Internet of things monitoring platform.

When the monitoring data reaching the alarm threshold value is transmitted to the application end for display by the internet of things monitoring platform, the monitoring data reaching the alarm threshold value can be alarmed by the internet of things monitoring platform in order to improve the timeliness of data processing, and the specific alarm mode can refer to the prior art and is not repeated herein.

In order to ensure the accuracy of alarm, when the monitoring data reaching the alarm threshold value is alarmed, the monitoring data reaching the alarm threshold value is transmitted to the mobile terminal, so that a worker at the mobile terminal can determine whether the alarm is effective or not according to the monitoring data reaching the alarm threshold value on site, and the information about whether the alarm is effective or not is fed back to the monitoring platform of the internet of things.

Optionally, in order to improve timeliness of the alarm processing, the alarm is performed on the monitoring data reaching the alarm threshold, and the time for transmitting the monitoring data reaching the alarm threshold to the mobile terminal is controlled within 1 s.

As an alternative embodiment, the mobile terminal provided in the present disclosure may be, but is not limited to, a mobile device such as a smart phone, a Personal Computer (PC), a tablet computer, and the like.

As an optional implementation manner, the monitoring platform of the internet of things provided by the present disclosure may transmit the monitoring data reaching the alarm threshold to the mobile terminal in a manner of short message, APP (APPlication) information prompt, and the like.

Referring to fig. 3, after receiving the information indicating whether the alarm fed back by the mobile terminal is valid, the internet of things monitoring platform processes the information, including steps S50 to S60.

Step S50: and after receiving the information of invalid alarm fed back by the mobile terminal, closing the alarm of the monitoring data corresponding to the information.

If the staff at the mobile terminal confirms that the alarm is invalid on site according to the monitoring data reaching the alarm threshold value, namely the alarm is wrong, the information of the invalid alarm is sent to the Internet of things monitoring platform, and the Internet of things monitoring platform closes the alarm of the monitoring data corresponding to the information after receiving the information of the invalid alarm, namely the alarm of the monitoring data corresponding to the information is closed.

Step S60: and after receiving the effective alarm information fed back by the mobile terminal, sending the monitoring data corresponding to the information to a management terminal so that the management terminal processes the monitoring data based on the monitoring data corresponding to the information.

If the staff at the mobile terminal confirms that the alarm is effective on site according to the monitoring data reaching the alarm threshold value, the alarm effective information is sent to the Internet of things monitoring platform, and the Internet of things monitoring platform sends the monitoring data corresponding to the information to the management terminal after receiving the alarm effective information, so that the management terminal processes the monitoring data corresponding to the information. For example, remove the staff of end and confirm the back to the scene, discover that the abnormal condition does appear in the gas pipeline, then with the information transmission of the abnormal condition that appears in the gas pipeline to thing networking monitoring platform, be about to report to the police effectual information transmission to thing networking monitoring platform, thing networking monitoring platform is after receiving the effectual information of reporting to the police, then with the monitoring data transmission that this information corresponds to gas management end to make gas management end handle unusual gas pipeline based on the monitoring data that this information corresponds, the authenticity of alarm information has been ensured.

It should be noted that the underground pipeline data monitoring method provided by the disclosure applies an internet of things monitoring platform, which may be any internet of things platform, such as an ariclout platform, a huazhi cloud platform, and the like.

Referring to fig. 4, fig. 4 is a block schematic diagram of an internet of things monitoring platform provided by the present disclosure, which may include an operation monitoring unit, an equipment management maintenance unit, a field inspection maintenance unit, an operation maintenance unit, and a data integration unit. The operation monitoring unit is mainly used for receiving monitoring data transmitted by each monitoring device in real time and analyzing and processing the monitoring data, the equipment management maintenance unit is mainly used for storing identification information, position information and the like of each monitoring device, the field inspection unit maintenance unit is mainly used for communicating with the mobile terminal and sending data reaching an alarm threshold value to the mobile terminal, the operation maintenance unit is mainly used for operation maintenance management of each unit and setting of platform authority, and the data integration unit is mainly used for storing historical monitoring data and alarm data.

As an optional implementation manner, each unit of the internet of things monitoring platform provided by the present disclosure may adopt a micro-service and distributed architecture, and adopt distributed deployment for services such as data reception and data analysis.

The underground pipeline data monitoring method is based on the Internet of things technology, receives the monitoring data of the underground pipeline transmitted by each monitoring device in real time, analyzes the monitoring data of the underground pipeline transmitted by each monitoring device, stores the analyzed monitoring data and the monitoring data reaching the alarm threshold in real time, transmits the analyzed monitoring data and the monitoring data reaching the alarm threshold to an application end in real time, and displays the analyzed monitoring data and the monitoring data reaching the alarm threshold, so that the real-time performance of underground pipeline data monitoring is ensured.

On the basis, please refer to fig. 5 in combination, the present disclosure provides an underground pipeline data monitoring device 10, which is applied to a monitoring platform of the internet of things, wherein the underground pipeline data monitoring device 10 includes a receiving module 11, a processing module 12 and a sending module 13.

The receiving module 11 is configured to receive monitoring data of the underground pipeline transmitted by each monitoring device.

The processing module 12 is configured to analyze the monitoring data and store the analyzed monitoring data.

The processing module 12 is further configured to determine whether the analyzed monitoring data reaches an alarm threshold, and store the monitoring data reaching the alarm threshold.

And the sending module 13 is configured to transmit the analyzed monitoring data and the monitoring data reaching the alarm threshold to the application terminal for display.

It is clear to those skilled in the art that, for convenience and brevity of description, the specific working process of the underground pipeline data monitoring device 10 described above may refer to the corresponding process in the foregoing method, and will not be described in too much detail herein.

On the basis, please refer to fig. 6 in combination, the present disclosure further provides an underground pipeline data monitoring system 1, which includes an internet of things monitoring platform 100, a plurality of monitoring devices 200, and an application terminal 300; the internet of things monitoring platform 100 is in communication connection with each monitoring device 200 and the application terminal 300.

The internet of things monitoring platform 100 receives the monitoring data of the underground pipelines transmitted by each monitoring device 200, analyzes the monitoring data, stores the analyzed monitoring data, judges whether the analyzed monitoring data reaches an alarm threshold value, stores the monitoring data reaching the alarm threshold value, and transmits the analyzed monitoring data and the monitoring data reaching the alarm threshold value to the application terminal 300 for display.

It can be clearly understood by those skilled in the art that, for convenience and brevity of description, the specific working process of the underground pipeline data monitoring system 1 described above may refer to the corresponding process in the foregoing method, and will not be described in detail herein.

On the basis of the above, the present disclosure provides a storage medium having a computer program stored thereon, which when executed, implements the steps in the underground pipeline data monitoring method described above.

It is clear to those skilled in the art that, for convenience and brevity of description, the specific working process of the storage medium described above may refer to the corresponding process in the foregoing method, and will not be described in too much detail herein.

The utility model provides an underground pipeline data monitoring method, device and system, based on internet of things, receive the monitoring data of the underground pipeline of each monitoring facilities transmission, analyze the monitoring data of the underground pipeline of each monitoring facilities transmission, the monitoring data after will analyzing is saved, and transmit to the application and show, judge whether the monitoring data after the analysis reaches the alarm threshold value, if there is the monitoring data who reaches the alarm threshold value, the monitoring data who will reach the alarm threshold value is saved and is transmitted to the application and shows, the real-time of data transmission, the storage has been improved, the real-time of underground pipeline data monitoring has been guaranteed.

The above description is only for the specific embodiments of the present disclosure, but the scope of the present disclosure is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present disclosure should be covered within the scope of the present disclosure. Therefore, the protection scope of the present disclosure shall be subject to the protection scope of the claims.