	US 12,392,456 B2
	Pipeline monitoring methods and internet of things based on smart gas pipeline network safety
Zehua Shao, Chengdu (CN); Yaqiang Quan, Chengdu (CN); Guanghua Huang, Chengdu (CN); Haitang Xiang, Chengdu (CN); and Yuefei Wu, Chengdu (CN)
Assigned to CHENGDU QINCHUAN IOT TECHNOLOGY CO., LTD., Chengdu (CN)
Filed by CHENGDU QINCHUAN IOT TECHNOLOGY CO., LTD., Sichuan (CN)
Filed on Oct. 30, 2022, as Appl. No. 18/051,006.
Claims priority of application No. 202211238334.3 (CN), filed on Oct. 11, 2022.
Prior Publication US 2023/0083626 A1, Mar. 16, 2023
Int. Cl. F17D 5/00 (2006.01); G06N 20/00 (2019.01)

CPC F17D 5/005 (2013.01) [G06N 20/00 (2019.01)]

20 Claims

1. A pipeline monitoring method based on smart gas pipeline network safety, which is implemented based on a pipeline monitoring Internet of Things system, the Internet of Things system comprising a smart gas user platform, a smart gas service platform, a smart gas pipeline network safety management platform, a smart gas sensing network platform and a smart gas object platform interacting in sequence, wherein the smart gas pipeline network safety management platform comprises a smart gas data center and a smart gas pipeline network inspection management sub-platform, the method being performed by the smart gas pipeline network safety management platform, comprising:

by the smart gas data center, obtaining, based on the smart gas sensing network platform, transportation characteristics of at least one gas pipeline segment from inspection equipment corresponding to the at least one gas pipeline segment in a preset area, wherein the gas inspection equipment is configured in the smart gas object platform;

by the smart gas pipeline network inspection management sub-platform,

obtaining pipeline characteristics and the transportation characteristics of the at least one gas pipeline segment in the preset area from the smart gas data center, and determining an inspection need of the at least one gas pipeline segment based on the pipeline characteristics and the transportation characteristics;

based on the inspection need of the at least one gas pipeline segment, determining at least one target pipeline segment;

sending the at least one target pipeline segment to the smart gas data center, and further sending the at least one target pipeline segment to the smart gas user platform based on the smart gas service platform; and

based on the at least one target pipeline segment, generating a remote control instruction and sending the remote control instruction to the smart gas data center, and based on the smart gas sensing network platform, send the remote control instruction to the smart gas object platform to perform deep inspection, wherein the deep inspection is an inspection of an interior of a gas pipeline.