China News Service, Chengdu, September 14 (Reporter Liu Zhongjun) At about 14:50 on the 14th, the G5 Jingkun Expressway in the 2044 kilometers and 800 meters from Asbestos to Hanyuan in the Yaxi section of Sichuan Province collapsed, causing the two-way road section. After the interruption, rockfall still occurred on the scene.

  The video of the disaster site showed that all the rocks that collapsed this time were estimated to be about 300 cubic meters. There were no vehicles or casualties.

Because the disaster point is still dropping stones, the rescue situation is complicated, and the opening time is to be determined.

Falling on a rocky mountain on the highway.

High-speed traffic police provide

  After the disaster, the Asbestos Management Office of Sichuan Jiaotou Chuangaoyaxi Company immediately launched a geological disaster emergency plan to control Hanyuan North and asbestos toll stations, and mobilized two 50-ton cranes to the disaster site.

At the same time, the construction access road will be opened to let the stranded vehicles heading for Xichang.

  The Sixth Branch of the Expressway Public Security Bureau of the Sichuan Provincial Public Security Department stated that the high-speed traffic police had diverted trucks from Chengdu to Xichang at the Yingjing security checkpoint on the Yaxi section of the Kunming Expressway, and the Hanyuan North toll station diverted all vehicles from Chengdu to Xichang; at the same time , Divert trucks from Xichang to Chengdu at the Yihai Security Checkpoint in Yaxi Section, and divert all vehicles from Xichang to Chengdu at the asbestos toll station.

  The high-speed traffic police stated that on the west section of the Sichuan Yaxi section of the Jingkun Expressway, trucks with three axles or more are prohibited from entering Xichang from Yingjing to Hanyuan, and trucks with three axles or more are prohibited from entering Chengdu from Xichang to Shimian.

  Currently, the highway management is organizing emergency rescue forces and will carry out emergency rescue work based on the on-site danger.

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