阅读说明：本技术 一种架空线路施工全过程受力分析系统 (Overhead line construction overall process atress analytic system ) 是由 瞿业明 李洪兵 戚立峰 谢兵 张观栋 徐翔 缪建峰 黄一鸣 王铮一 徐笑男 徐恒 于 2021-06-21 设计创作，主要内容包括：本发明涉及电力技术领域,尤其是一种架空线路施工全过程受力分析系统,所述监测子端内设置有处理器以及多个压力传感器,多个所述压力传感器均电性连接有数据接收器,且数据接收器电性连接在处理器上,所述处理器还电性连接有数据发送模块、电源模块、显示模块、操作模块以及储存模块；施工管理端内设置有处理器模块,且处理器模块电性连接数据接收模块、操作模块实时储存模块,当数据接收模块接收到监测子端所发出的数据后,由实时储存模块储存至数据库内；处理器模块还电性连接有波形转换模块、波形显示模块以及显示模块。本发明能够将受力数据转换成波形直观的展现在显示模块上,工作人员能够直观感受数据的变换情况。(The invention relates to the technical field of electric power, in particular to a stress analysis system for the whole process of overhead line construction, wherein a processor and a plurality of pressure sensors are arranged in a monitoring sub-end, the pressure sensors are electrically connected with a data receiver, the data receiver is electrically connected to the processor, and the processor is also electrically connected with a data sending module, a power supply module, a display module, an operation module and a storage module; a processor module is arranged in the construction management end and is electrically connected with the data receiving module and the operation module real-time storage module, and the data receiving module receives data sent by the monitoring sub-end and then the data is stored in the database by the real-time storage module; the processor module is also electrically connected with a waveform conversion module, a waveform display module and a display module. The invention can convert the stress data into waveforms to be visually displayed on the display module, and workers can visually feel the data conversion condition.)

1. A stress analysis system for the whole process of overhead line construction is characterized by comprising a plurality of monitoring sub-ends which are respectively arranged at each node of the overhead line construction, used for collecting construction data, a processor and a plurality of pressure sensors are arranged in the monitoring sub-end, the pressure sensors are used for collecting the stress condition in overhead line construction in real time, the plurality of pressure sensors are electrically connected with a data receiver, the data receiver is electrically connected to the processor, the processor is also electrically connected with the data sending module, the power supply module, the display module, the operation module and the storage module, when the data receiver receives the stress condition, the processor can store the data into the storage module in real time, and then the data is sent to the construction management end in real time through the wireless transmission module by the data sending module;

a processor module is arranged in the construction management end and is electrically connected with the data receiving module and the operation module real-time storage module, and the data receiving module receives data sent by the monitoring sub-end and then the data is stored in the database by the real-time storage module;

the processor module is also electrically connected with a waveform conversion module, a waveform display module and a display module, after the real-time storage module stores data, stress data are transmitted into the waveform conversion module for waveform conversion, and then a waveform diagram of the stress condition is displayed in the display module in real time through the waveform display module.

2. The system for analyzing stress of the whole process of the overhead line construction according to claim 1, wherein the processing module is further electrically connected with a data judgment module and an alarm unit, when the data receiving module receives the real-time stress condition of the construction, the data judgment module judges the stress condition, and if the stress condition is larger than a preset value, the alarm unit gives an alarm.

3. The overhead line construction overall process stress analysis system of claim 2, wherein the alarm unit comprises a microprocessor, a power regulator, a buzzer, a short message editing module and a short message sending module, the microprocessor is electrically connected to the processor module, when the stress judged by the data judgment module is greater than a predetermined value, the microprocessor sends an instruction to the power regulator so as to control the buzzer to work, the short message editing module can edit the alarm short message at the same time when giving an alarm, the short message sending module sends the alarm short message to the smart phone end in real time, and the smart phone end is arranged in the hands of a manager.

4. The overhead line construction overall process stress analysis system of claim 1, wherein the processor module is further electrically connected with an operation and maintenance module, and the operation and maintenance module can maintain the monitoring sub-terminal in real time through the wireless transmission module.

5. The overhead line construction overall process stress analysis system according to claim 1, wherein the processor is further electrically connected with a data entry module, a data identification module and a data processing module, when the overhead line construction node needs data related to stress changes, the data can be entered through the data entry module, the data identification module identifies the data, and after the data is identified without errors, the data processing module can store the data and then send the data to the construction management end through the data sending module.

6. The overhead line construction overall process stress analysis system according to claim 1, wherein a data classification module is arranged in the database, and the data classification module can classify and store data of different monitoring sub-terminals.

7. The overhead line construction overall process stress analysis system according to claim 1, wherein the wireless transmission module is specifically a 5G transmission module, a 4G transmission module or a WIFI module.

8. The overhead line construction overall process stress analysis system of claim 1, wherein a Beidou positioning module is further arranged in the monitoring sub-end and electrically connected in the processor, and when the monitoring sub-end sends stress data, the Beidou positioning module can input a real-time address.

Technical Field

The invention relates to the technical field of electric power, in particular to an overhead line construction overall process stress analysis system.

Background

The overhead line mainly refers to an overhead open line, is erected above the ground and is a power transmission line for transmitting electric energy by fixing a power transmission conductor on a tower erected on the ground through an insulator. In the construction of making somebody a mere figurehead, the installation of cable is extremely difficult, because cable length overlength, and its diameter is limited, in the installation, just need monitor the atress condition of cable, and among the prior art, all adopt traditional artifical form to cable monitoring, data error is big, and can not the visual display atress condition. Therefore, a stress analysis system for the whole process of overhead line construction is provided.

Disclosure of Invention

The invention aims to solve the problem that data cannot be visually observed in the prior art, and provides an overhead line construction overall-process stress analysis system.

In order to achieve the purpose, the invention adopts the following technical scheme:

the stress analysis system comprises a plurality of monitoring sub-ends, wherein the monitoring sub-ends are respectively arranged at each node of overhead line construction and used for collecting construction data, a processor and a plurality of pressure sensors are arranged in the monitoring sub-ends and used for collecting stress conditions in the overhead line construction in real time, the pressure sensors are electrically connected with a data receiver, the data receiver is electrically connected to the processor, the processor is also electrically connected with a data sending module, a power supply module, a display module, an operation module and a storage module, and when the data receiver receives the stress conditions, the processor can store data into the storage module in real time and then send the data to a construction management end in real time through a wireless transmission module;

a processor module is arranged in the construction management end and is electrically connected with the data receiving module and the operation module real-time storage module, and the data receiving module receives data sent by the monitoring sub-end and then the data is stored in the database by the real-time storage module;

the processor module is also electrically connected with a waveform conversion module, a waveform display module and a display module, after the real-time storage module stores data, stress data are transmitted into the waveform conversion module for waveform conversion, and then a waveform diagram of the stress condition is displayed in the display module in real time through the waveform display module.

Preferably, the processing device is also electrically connected with a data judgment module and an alarm unit, after the data receiving module receives the construction real-time stress condition, the data judgment module judges, and if the stress is greater than a preset value, the alarm unit gives an alarm.

Preferably, the alarm unit comprises a microprocessor, a power regulator, a buzzer, a short message editing module and a short message sending module, the microprocessor is electrically connected to the processor module, when the stress judged by the data judging module is greater than a preset value, the microprocessor sends an instruction to the power regulator so as to control the buzzer to work, the short message editing module can edit the alarm short message at the same time when giving an alarm, the short message sending module sends the alarm short message to the smart phone end in real time, and the smart phone end is arranged in the hands of a manager.

Preferably, the processor module is further electrically connected with an operation and maintenance module, and the operation and maintenance module can maintain the monitoring sub-terminal in real time through the wireless transmission module.

Preferably, the processor is also electrically connected with a data entry module, a data identification module and a data processing module, when the node of overhead line construction needs to be related to the data related to stress change, the data can be entered through the data entry module, the data identification module identifies the data, and after the data is identified without errors, the data processing module can store the data and then sends the data to the construction management end through the data sending module.

Preferably, a data classification module is arranged in the database, and the data classification module can classify and store data of different monitoring sub-terminals.

Preferably, the wireless transmission module is specifically a 5G transmission module, a 4G transmission module, or a WIFI module.

Preferably, still be provided with big dipper orientation module in the monitoring subterminal, and big dipper orientation module electric connection is in the treater, and when the monitoring subterminal sent the atress data, big dipper orientation module can be inputed real-time address.

The invention provides a stress analysis system for the whole process of overhead line construction, which has the beneficial effects that: the invention can convert the stress data into the waveform to be visually displayed on the display module, and the workers can visually feel the data conversion condition, thereby effectively reducing the labor intensity of the workers.

Drawings

Fig. 1 is a system block diagram of an overhead line construction overall process stress analysis system provided by the invention.

Fig. 2 is a system block diagram of a construction management end of the overhead line construction overall process stress analysis system provided by the invention.

Fig. 3 is a system block diagram of a monitoring sub-terminal of the overhead line construction overall process stress analysis system provided by the invention.

Fig. 4 is a system block diagram of an alarm unit of the stress analysis system in the whole process of overhead line construction according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Example 1

Referring to fig. 1-4, an overhead line construction overall process stress analysis system comprises a plurality of monitoring sub-ends, the monitoring sub-ends are respectively arranged at each node of the overhead line construction, the installation intervals of the monitoring sub-ends can be correspondingly adjusted according to actual needs, but the monitoring sub-ends need to be installed at equal intervals for collecting construction data, a processor and a plurality of pressure sensors are arranged in the monitoring sub-ends, the pressure sensors are used for collecting the stress condition in the overhead line construction in real time, the pressure sensors need to be installed at working positions of the pressure sensors at equal intervals, the pressure sensors are all electrically connected with a data receiver, the data receiver is electrically connected with the processor, the processor is also electrically connected with a data sending module, a power supply module, a display module, an operation module and a storage module, when the data receiver receives the stress condition, the processor can store data to the storage module in real time, and then send to the construction management end in real time through wireless transmission module by the data sending module wireless transmission module specifically is 5G transmission module, 4G transmission module or is the WIFI module, when using, can select wireless transmission module according to actual conditions, after the corresponding data is received at the processor, very first time can be with data storage in the storage module to prevent that data from losing when transmitting, effectively guaranteed the security of data.

The system comprises a construction management end, a data receiving module, an operation module, a data classification module and a data classification module, wherein the construction management end is internally provided with a processor module which is electrically connected with the data receiving module and the operation module, the data receiving module receives data sent by a monitoring sub-end and then stores the data in a database, the database is internally provided with the data classification module, and the data classification module can classify and store data of different monitoring sub-ends; the processor module is also electrically connected with a waveform conversion module, a waveform display module and a display module, after the real-time storage module stores data, the stress data is transmitted into the waveform conversion module for waveform conversion, and then the waveform diagram of the stress condition is displayed in the display module in real time through the waveform display module.

The processor module is also electrically connected with an operation maintenance module, the operation maintenance module can maintain the monitoring sub-terminal in real time through the wireless transmission module, and the operation maintenance module is internally provided with a fault monitoring module and a fault repairing module, so that the system can be monitored and repaired in real time, and the normal operation of the system is effectively ensured.

Still be provided with big dipper orientation module in the monitoring subterminal, and big dipper orientation module electric connection is in the treater, and when the monitoring subterminal sent the atress data, big dipper orientation module can be inputed real-time address to avoid the confusion of later stage data, and concrete position that can audio-visual show data.

Example 2

Referring to fig. 4, as another preferred embodiment of the present invention, the difference from embodiment 1 is that the processing is further electrically connected to a data judgment module and an alarm unit, when the data receiving module receives a construction real-time stress condition, the data judgment module judges that the stress is greater than a predetermined value, and if the stress is greater than the predetermined value, the alarm unit sends an alarm; the alarm unit comprises a microprocessor, a power regulator, a buzzer, a short message editing module and a short message sending module, the microprocessor is electrically connected to the processor module, when the stress judged by the data judging module is greater than a preset value, the microprocessor sends an instruction to the power regulator so as to control the buzzer to work, the buzzer can attract the attention of workers at the first time, corresponding processing is carried out, and the buzzer can send sounds with different powers through the set power regulator; when an alarm is sent out, the short message editing module can edit the alarm short message at the same time, the short message sending module sends the alarm short message to the smart phone end in real time, the smart phone end is arranged in the hands of a manager, and after the smart phone end receives the short message, the manager can make corresponding treatment at the first time, so that safety accidents are effectively avoided.

Example 3

Referring to fig. 3, as another preferred embodiment of the present invention, the difference from embodiment 1 is that the processor is further electrically connected to a data entry module, a data recognition module and a data processing module, when a node in overhead line construction needs data related to stress variation, the data can be entered through the data entry module, and the data recognition module recognizes the data, so that unnecessary errors can be avoided, after the data is recognized, the data processing module can store the data and then send the data to the construction management end through the data sending module, and the accuracy of stress data acquisition is further improved through a mode of combining a pressure sensor and manual monitoring, and the present invention can also enter some suggestions in the construction process, the experience of workers, and the like, so as to effectively refer to later work.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.