CN106680008B - Communication tower integrity detection method and system - Google Patents

Communication tower integrity detection method and system Download PDF

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Publication number
CN106680008B
CN106680008B CN201611256935.1A CN201611256935A CN106680008B CN 106680008 B CN106680008 B CN 106680008B CN 201611256935 A CN201611256935 A CN 201611256935A CN 106680008 B CN106680008 B CN 106680008B
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iron tower
component
integrity
module
tower
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CN106680008A (en
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严军荣
卢玉龙
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Hangzhou Houbo Technology Co Ltd
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Hangzhou Houbo Technology Co Ltd
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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01MTESTING STATIC OR DYNAMIC BALANCE OF MACHINES OR STRUCTURES; TESTING OF STRUCTURES OR APPARATUS, NOT OTHERWISE PROVIDED FOR
    • G01M99/00Subject matter not provided for in other groups of this subclass

Abstract

The invention discloses a communication iron tower integrity detection method and system. The system comprises a module for identifying key parts of the iron tower, numbering part sensors, a module for collecting part sensor data and a module for judging whether the iron tower has integrity problems. Identifying iron tower key components and numbering the component sensors by the module, namely analyzing the iron tower structure to obtain the key components and determining the connection relation among the components; the collecting component sensor data module is used for collecting the data of the component through the sensor at fixed time; the module for judging whether the tower has the integrity problem judges whether the tower has the integrity problem or not according to whether the tower part number is complete or not and whether the tower part number which has the connection relation with the tower part with the lost number exists or not. The method and the system solve the technical problems of low accuracy and low efficiency of the integrity detection of the communication tower components.

Description

Communication tower integrity detection method and system
Technical Field
The invention belongs to the technical field of communication iron tower maintenance, and particularly relates to a method and a system for detecting the integrity of a communication iron tower.
Background
At present, the communication iron tower is manually detected and maintained. This approach has two disadvantages, one is that it requires manual on-site inspection to see if the iron tower components are complete, which is inefficient, and the other is that the integrity of the iron tower is not detected in time, which is likely to cause serious loss. In order to solve the above problems, a method and a system for detecting the integrity of a communication tower are provided.
Disclosure of Invention
The invention aims to solve the technical problems of low accuracy and low efficiency of integrity detection of communication tower components, and provides a method and a system for detecting the integrity of a communication tower.
The invention relates to an iron tower system application scene based on the Internet of things, which is shown in figure 1. Sensor equipment is installed at a fixed position of a communication iron tower, the sensor collects relevant parameters of the iron tower and sends the relevant parameters to a system through a communication module, the system stores and processes the sensing data, and a client interacts with the system to obtain required information.
The overall system architecture of the iron tower system based on the internet of things is shown in fig. 2. The system hardware part comprises a communication iron tower and sensing equipment arranged on the tower body, and a communication module of the sensing equipment is communicated with the system in real time; the system software part comprises a system database, a data processing platform and a data management publishing platform, wherein the system database receives sensing data from the sensing equipment and stores all system logs, the data processing platform calls the data in the system database for processing and analysis, and the data management publishing platform receives data processing results of the data processing platform and corresponding records in the system database for management and publishing; the system application platform comprises management equipment and clients, wherein the management equipment comprises but is not limited to facilities such as workstations and computers, and the clients comprise but are not limited to forms of APP, WeChat, Html webpage and the like; the application personnel of the system include, but are not limited to, management personnel and maintenance personnel, and the interfaces of the system are management equipment and a client side respectively.
The implementation of the invention depends on the application scene and the system architecture, the sensor is arranged on the communication iron tower for data acquisition, and the integrity detection of the communication iron tower is realized through data analysis.
The integrity detection system for the communication iron tower comprises a module for identifying key parts of the iron tower, numbering part sensors, a module for collecting part sensor data and a module for judging whether the iron tower has integrity problems.
1. Identify iron tower key part and number module to the part sensor: key components that affect the integrity of the pylon are first identified and sensors disposed on the key components are then numbered, with some connection relationship between the key components (e.g., physical up-down or left-right connection relationship and logical sequential connection relationship).
2. A collect component sensor data module: the component sensor sends information to the system database for storage at regular time; data of the component sensor is extracted, and the component sensor number is identified.
3. Judging whether the iron tower has an integrity problem module: judging whether the serial numbers of the component sensors are complete or not, if so, judging that the iron tower has no integrity problem, and returning to a module for collecting component sensor data; otherwise, identifying the lost number and the corresponding key component, judging whether the sensor number of the component having a connection relation with the component exists, if so, judging that the iron tower does not have the integrity problem but the sensor of the component has a fault, returning to the component sensor data collecting module, otherwise, judging that the iron tower has the integrity problem.
Fig. 3 shows a system block diagram of a communication tower integrity detection system.
The invention provides a communication iron tower integrity detection method, which is realized by the following steps:
step 1, identifying key parts of the iron tower and numbering part sensors.
The method comprises the steps of identifying key components influencing the integrity of the iron tower according to iron tower structure information, and numbering sensors arranged on the key components, wherein the key components have connection relations including physical connection relations and logical connection relations.
And 2, extracting sensor data and identifying the serial number.
The component sensor sends information to the system database for storage at regular time; data of the component sensor is extracted, and the component sensor number is identified.
And 3, judging whether the iron tower has an integrity problem or not.
Judging whether the serial numbers of the component sensors are complete, if so, judging that the iron tower has no integrity problem, and returning to the step 2; otherwise, identifying the lost number and the corresponding key component, judging whether the sensor number of the component having the connection relation with the component exists, if so, judging that the iron tower does not have the integrity problem but the sensor of the component has a fault, returning to the step 2, otherwise, judging that the iron tower has the integrity problem. And ending the communication tower integrity detection method.
Fig. 4 shows a flowchart of a method for detecting integrity of a communication tower.
The method and the system have the following two advantages:
(1) through the number of the tower sensor, whether the tower is lost or not can be identified, and whether the tower sensor has a fault or not can be judged through relevance.
(2) The integrity of the communication iron tower can be actively detected in time, and the maintenance efficiency of the iron tower is improved.
Drawings
FIG. 1 is a schematic diagram of an application scenario of the present invention;
FIG. 2 is an overall system architecture diagram of an application scenario of the present invention;
FIG. 3 is a system block diagram of the present invention;
FIG. 4 is a flow chart of a method of the present invention;
fig. 5 is a schematic diagram of key components and numbers of an iron tower according to an embodiment of the present invention.
Detailed Description
The following describes in detail preferred embodiments of the present invention.
The invention relates to an iron tower system application scene based on the Internet of things, which is shown in figure 1. Sensor equipment is installed at a fixed position of a communication iron tower, the sensor collects relevant parameters of the iron tower and sends the relevant parameters to a system through a communication module, the system stores and processes the sensing data, and a client interacts with the system to obtain required information.
The overall system architecture of the iron tower system based on the internet of things is shown in fig. 2. The system hardware part comprises a communication iron tower and sensing equipment arranged on the tower body, and a communication module of the sensing equipment is communicated with the system in real time; the system software part comprises a system database, a data processing platform and a data management publishing platform, wherein the system database receives sensing data from the sensing equipment and stores all system logs, the data processing platform calls the data in the system database for processing and analysis, and the data management publishing platform receives data processing results of the data processing platform and corresponding records in the system database for management and publishing; the system application platform comprises management equipment and clients, wherein the management equipment comprises but is not limited to facilities such as workstations and computers, and the clients comprise but are not limited to forms of APP, WeChat, Html webpage and the like; the application personnel of the system include, but are not limited to, management personnel and maintenance personnel, and the interfaces of the system are management equipment and a client side respectively.
The implementation of the invention depends on the application scene and the system architecture, the sensors are arranged at the corresponding positions of the communication iron tower for data acquisition, and the detection of the integrity of the communication iron tower is realized through data analysis. The following are embodiments of the method and system of the present invention:
the integrity detection system for the communication iron tower comprises a module for identifying key parts of the iron tower, numbering part sensors, a module for collecting part sensor data and a module for judging whether the iron tower has integrity problems.
1. Identify iron tower key part and number module to the part sensor: firstly, identifying N key components influencing the integrity of the iron tower according to the structure information of the iron tower, then numbering sensors arranged on the key components,wherein the key components have a certain connection relationship (e.g., physical up-down connection or left-right connection relationship and logical sequential connection relationship). In this embodiment, 5 key components affecting the integrity of the iron tower are identified according to the structure of the iron tower, and 2 connection structures of the tower body among the 5 key components have a physical up-down connection relationship, as shown in fig. 5, which is numbered A, B, C1、C2D, wherein is numbered C1、C2Have a physical structural top-bottom connection.
2. A collect component sensor data module: in this embodiment, a sampling interval T is set to 1s, and the component sensor sends information to the system database every 1s, extracts sensor data, and identifies a serial number. In this embodiment, the key component sensor data is extracted and each sensor is identified with the number A, B, C2And D.
3. Judging whether the iron tower has an integrity problem module: judging whether the serial numbers of the component sensors are complete or not, if so, judging that the iron tower has no integrity problem, and returning to a module for collecting component sensor data; otherwise, identifying the lost number and the corresponding key component, judging whether the sensor number of the component having a connection relation with the component exists, if so, judging that the iron tower does not have the integrity problem but the sensor of the component has a fault, returning to the component sensor data collecting module, otherwise, judging that the iron tower has the integrity problem. In this embodiment, the missing number C is determined1And is and C1Part number C of parts having connection relation2If the iron tower is judged to have no integrity problem, the number C is1The corresponding sensor has a fault, and returns to the sensor data module of the collecting component to identify the next extracted sensor with the number of A, B, C2At this time, the part corresponding to the missing number D does not have a part having a connection relationship, so it is determined that the iron tower has an integrity problem at this time.
The method for detecting the integrity of the communication iron tower comprises the following steps:
step 1, identifying key parts of the iron tower and numbering part sensors.
Firstly based on ironThe tower structure information identifies N key components that affect the integrity of the tower and then numbers sensors disposed on the key components with some connection relationship between the key components (e.g., structural up-down or left-right connection relationship and logical sequential connection relationship). In this embodiment, the system database identifies 5 key components affecting the integrity of the iron tower according to the structure of the iron tower, and 2 connection structures of the tower body in the 5 key components have a structural up-down connection relationship, as shown in fig. 5, which is numbered A, B, C1、C2D, wherein is numbered C1、C2Have a physical structural top-bottom connection.
And 2, extracting sensor data and identifying the serial number.
Sensor data is extracted and the number is identified. In this embodiment, the key component sensor data is extracted and each sensor is identified with the number A, B, C2And D.
And 3, judging whether the iron tower has an integrity problem or not.
Judging whether the serial numbers of the component sensors are complete, if so, judging that the iron tower has no integrity problem, and returning to the step 2; otherwise, identifying the lost number and the corresponding key component, judging whether the sensor number of the component having the connection relation with the component exists, if so, judging that the iron tower does not have the integrity problem but the sensor of the component has a fault, returning to the step 2, otherwise, judging that the iron tower has the integrity problem. In this embodiment, the missing number C is determined1And is and C1Part number C of parts having connection relation2If the iron tower does not have the integrity problem, the number C is judged1The corresponding sensor has a fault, the step 2 is returned, the sensor data is extracted, and the next extracted sensor with the number of A, B, C is identified2At this time, the part corresponding to the missing number D does not have a part having a connection relationship, so it is determined that the iron tower has an integrity problem at this time. And ending the communication tower integrity detection method.
Of course, those skilled in the art should realize that the above embodiments are only used for illustrating the present invention, and not as a limitation to the present invention, and that the changes and modifications of the above embodiments will fall within the protection scope of the present invention as long as they are within the scope of the present invention.

Claims (2)

1. A communication iron tower integrity detection system is characterized by comprising a module for identifying key parts of an iron tower and numbering part sensors, a module for collecting part sensor data and a module for judging whether the iron tower has integrity problems or not;
the iron tower key component is identified and the component sensor numbering module is characterized in that: firstly, identifying key components influencing the integrity of the iron tower; then numbering sensors arranged on key components, wherein the key components have connection relations including physical connection relations and logical connection relations;
the collection component sensor data module is characterized by: the component sensor sends information to the system database for storage at regular time; extracting data of the component sensor, and identifying a component sensor number;
judge whether there is the characteristic of integrality problem module in iron tower: judging whether the serial numbers of the component sensors are complete or not, if so, judging that the iron tower has no integrity problem, and returning to a module for collecting component sensor data; otherwise, identifying the lost number and the corresponding key component, judging whether the sensor number of the component having the connection relation with the component exists, if so, judging that the iron tower does not have the integrity problem, returning to the component sensor data collecting module, and otherwise, judging that the iron tower has the integrity problem.
2. A communication tower integrity detection method is characterized by comprising the following steps:
step 1, identifying key parts of an iron tower and numbering part sensors;
firstly, identifying key components influencing the integrity of the iron tower according to the structure information of the iron tower, and then numbering sensors arranged on the key components, wherein the key components have connection relations including a physical connection relation and a logical connection relation;
step 2, extracting sensor data and identifying a serial number;
the component sensor sends information to the system database for storage at regular time; extracting data of the component sensor, and identifying a component sensor number;
step 3, judging whether the iron tower has integrity problems or not;
judging whether the serial numbers of the component sensors are complete, if so, judging that the iron tower has no integrity problem, and returning to the step 2; otherwise, identifying the lost number and the corresponding key component, judging whether the sensor number of the component having the connection relation with the component exists, if so, judging that the iron tower does not have the integrity problem but the sensor of the component has a fault, returning to the step 2, otherwise, judging that the iron tower has the integrity problem.
CN201611256935.1A 2016-12-30 2016-12-30 Communication tower integrity detection method and system Active CN106680008B (en)

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Application Number Priority Date Filing Date Title
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Application Number Priority Date Filing Date Title
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CN106680008B true CN106680008B (en) 2020-04-14

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Family Cites Families (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101846989B (en) * 2010-05-20 2012-06-06 西瑞克斯(北京)通信设备有限公司 Communication tower safety monitoring system
CN103389124A (en) * 2012-05-10 2013-11-13 鸿富锦精密工业(深圳)有限公司 Method and system for sensor testing
CN103063255B (en) * 2012-12-28 2016-04-27 北京世纪东方国铁科技股份有限公司 A kind of communication tower monitoring method and system thereof
US9921124B2 (en) * 2015-03-05 2018-03-20 Christos Sotirious Haritou Apparatus and method for monitoring the integrity of a weld seam
CN105680396A (en) * 2015-12-17 2016-06-15 李福军 Intelligent electric transmission line ice layer cutting system

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