Urban pipe gallery power supply and distribution system based on Internet of Things

Abstract

The invention discloses an urban pipe gallery power supply and distribution system based on the Internet of Things, an urban pipe gallery is divided into a plurality of power distribution areas, each power distribution area is internally provided with a data acquisition subsystem and a data acquisition subsystem, and the data acquisition subsystem comprises power equipment and an environment monitoring sensor. The power equipment and the environment monitoring sensor are used for acquiring monitoring data and are both provided with wireless data transmission modules, the data acquisition subsystem comprises a track arranged along the urban pipe gallery and a power monitoring device, and the power monitoring device is internally provided with a data acquisition communication module, a data interaction communication module, a storage battery, a driving device and a control device. The driving device is used for driving the power monitoring devices to reciprocate along the track, the motion directions of the power monitoring devices of two adjacent power distribution areas are always opposite, and the data acquisition communication module and the wireless data transmission module perform information interaction in the process that the power monitoring devices move along the track. An interaction area is formed between every two adjacent power distribution areas.

Description

technical field [0001] The invention relates to the technical field of urban pipe gallery power supply and distribution, in particular to an urban pipe gallery power supply and distribution system based on the Internet of Things. Background technique [0002] The urban pipe gallery, also known as the comprehensive pipe gallery (called "Common Ditch" in Japan and "Common Pipeline" in Taiwan), is an underground urban pipeline comprehensive corridor, that is, a tunnel space is built underground in the city to supply electricity, communication, gas and heating. It integrates various engineering pipelines such as water supply and drainage, and has special inspection ports, hoisting ports and monitoring systems. It implements unified planning, unified design, unified construction and management. It is an important infrastructure and "lifeline" to ensure the operation of the city. For the integrated pipe gallery, the power system needs to be developed in the future, and it is also ...

AI Technical Summary

Problems solved by technology

In the traditional field, because the intelligence of the power supply and distribution system has not been realized, if the on-duty personnel need to obtain data parameters, they must visit the site in person, record and report various data and parameters, resulting in cumbersome and heavy work, and urban utility corridors It is a tunnel space built underground. Although it is equipped with ventilation equipment, the gas and environment inside will still cause discomfort to the human body.

Detrimental to the health of the staff on duty

Based on the development of science and technology, the Internet of Things technology has entered people's lives, and the Internet of Things technology has also been introduced into the power supply and distribution system of urban utility corridors. Various environmental monitoring sensors are used to obtain and collect various required information parameters and then transmit them to the corresponding Control equipment to monitor power data and environmental parameters, but because various environmental monitoring sensors do not have the ability to analyze data, a large number of power cables need to be laid, the wiring is complicated, and once any of the equipment or lines appear Faults may cause the overall monitoring of the power supply and distribution system to lose its function.

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