CN103669372A

CN103669372A - Active preventing, treating and monitoring system for debris flow

Info

Publication number: CN103669372A
Application number: CN201210319184.9A
Authority: CN
Inventors: 李乐; 蒋雪琴; 张博
Original assignee: Chengdu Xihui Technology Co Ltd
Current assignee: Chengdu Xihui Technology Co Ltd
Priority date: 2012-09-03
Filing date: 2012-09-03
Publication date: 2014-03-26

Abstract

The invention discloses an active preventing, treating and monitoring system for debris flow. The active preventing, treating and monitoring system comprises anchor cables, net bodies and cable pillars, the anchor cables penetrate through a loose solid accumulation layer on the ground surface and are deeply fixed in a hard stratum, the net bodies cover the anchor cables, the cable pillars are arranged on the net bodies and fix the net bodies and the anchor cables together, wireless displacement sensors are arranged on part of the cable pillars, the anchor cables, the net bodies, the cable pillars and the wireless displacement sensors form a local preventing, treating and monitoring unit arranged in a source area, a monitor unit is arranged near the source area, the wireless displacement sensors collect displacement data information, and the displacement data information is sent to the monitor unit. Substances in the area can be covered to form certain autofrettage pressure, the substances are fixed at original positions and are prevented from moving, the wireless displacement sensors can collect the micro displacement changes of the position and send the collected data information to the monitor unit, people can know the overall condition in time conveniently, and the active preventing, treating and monitoring system is simple in structure, convenient to use and practical.

Description

Mud-rock flow Initiative defence monitoring system

Technical field

The present invention relates to a kind of monitoring system, relate in particular to a kind of mud-rock flow Initiative defence monitoring system.

Background technology

Mud-rock flow is that mountain area cheuch or mountain region are domatic upper, is excited soil, water, the gas mixed flow between sediment laden flow and the landslide that contain a large amount of silt stones by water sources such as heavy rain, ice dissolutions.Mud-rock flow is a kind of global geological disaster, frequently occurring all over the world every year, and also very common in China, and in numerous geological disasters, mud-rock flow is considered to a kind of of lethality maximum, have outburst suddenly, break with tremendous force, the feature such as rapid, and have the double action that avalanche, landslide and flood destroy, endanger larger, current, although have by protective screening, the source area of mud-rock flow is protected, the mud-rock flow mobility status that cannot carry out source area carries out Centralized Monitoring.

Summary of the invention

Object of the present invention is just that providing a kind of addresses the above problem, and can carry out initiatively fixing, active to the material in mud-rock flow source area and protects and can carry out to it mud-rock flow Initiative defence monitoring system of effective monitoring.

To achieve these goals, the technical solution used in the present invention is such: a kind of mud-rock flow Initiative defence monitoring system, comprise through earth's surface bulk solids accumulation horizon, deeply be fixed on the anchor cable in firm hard formation, cover the dictyosome on anchor cable, be positioned on dictyosome the rope pier that dictyosome and anchor cable are fixed together, part rope pier is provided with wireless displacement sensor, described anchor cable, dictyosome, rope pier and wireless displacement sensor form local control monitoring unit and are arranged on source area, near source area, be also provided with a watch-dog, described wireless displacement sensor gathers displacement data information, and be sent in watch-dog.

As preferably: described dictyosome adopts non-corrosive metal (NCM) rope to work out.

As preferably: be uniformly distributed in the region that described wireless displacement sensor covers at dictyosome.

Compared with prior art, the invention has the advantages that: anchor cable is through earth's surface bulk solids accumulation horizon, deeply be fixed in firm hard formation, can not move, on it, be coated with dictyosome, dictyosome is fixed together by rope pier and anchor cable, formed fixing overlay area, this region is the source area of mud-rock flow, can form to the material in this overlay area certain preload pressure, material is fixed up in situ, prevent that it from moving, part rope pier is provided with wireless displacement sensor, the micro-displacement that can gather herein changes, and the data message collecting is sent in watch-dog, watch-dog operated by rotary motion is difficult for occurring the place of mud-rock flow near source area, also can be arranged in monitoring room, dictyosome adopts non-corrosive metal (NCM) rope to work out, solid, in the region that wireless displacement sensor covers at dictyosome, be uniformly distributed, be convenient to people and grasp in time overall condition, the present invention is simple in structure, convenient and practical.

Accompanying drawing explanation

Fig. 1 is structural representation of the present invention;

Fig. 2 is circuit function figure of the present invention.

In figure: 1, source area; 2, bulk solids accumulation horizon; 3, firm hard formation; 4, anchor cable; 5, Suo Dun; 6, dictyosome; 7, wireless displacement sensor.

The specific embodiment

Below in conjunction with accompanying drawing, the invention will be further described.

Embodiment 1: referring to Fig. 1 Fig. 2, a kind of mud-rock flow Initiative defence monitoring system, comprise through earth's surface bulk solids accumulation horizon 2, deeply be fixed on the anchor cable 4 in firm hard formation 3, cover the dictyosome 6 on anchor cable 4, be positioned on dictyosome 6 the rope pier 5 that dictyosome 6 and anchor cable 4 are fixed together, part rope pier 5 is provided with wireless displacement sensor 7, described anchor cable 4, dictyosome 6, rope pier 5 and wireless displacement sensor 7 form local control monitoring unit and are arranged on source area 1, near source area 1, be also provided with a watch-dog, described wireless displacement sensor 7 gathers displacement data information, and be sent in watch-dog, described dictyosome 6 adopts non-corrosive metal (NCM) rope to work out, in the region that described wireless displacement sensor 7 covers at dictyosome 6, be uniformly distributed.

Anchor cable 4 is through earth's surface bulk solids accumulation horizon 2, deeply be fixed in firm hard formation 3, can not move, on it, be coated with dictyosome 6, dictyosome 6 is fixed together by rope pier 5 and anchor cable 4, formed fixing overlay area, this region is the source area 1 of mud-rock flow, can form to the material in this overlay area certain preload pressure, material is fixed up in situ, prevent that it from moving, part rope pier 5 is provided with wireless displacement sensor 7, the micro-displacement that can gather herein changes, and the data message collecting is sent in watch-dog, watch-dog operated by rotary motion is difficult for occurring the place of mud-rock flow near source area 1, also can be arranged in monitoring room, dictyosome 6 adopts non-corrosive metal (NCM) rope to work out, solid, in the region that wireless displacement sensor 7 covers at dictyosome 6, be uniformly distributed, be convenient to people and grasp in time overall condition.

Claims

1. a mud-rock flow Initiative defence monitoring system, comprise through earth's surface bulk solids accumulation horizon, deeply be fixed on anchor cable in firm hard formation, cover the dictyosome on anchor cable, be positioned on dictyosome the rope pier that dictyosome and anchor cable are fixed together, it is characterized in that: part rope pier is provided with wireless displacement sensor, described anchor cable, dictyosome, rope pier and wireless displacement sensor form local control monitoring unit and are arranged on source area, near source area, be also provided with a watch-dog, described wireless displacement sensor gathers displacement data information, and is sent in watch-dog.

2. mud-rock flow Initiative defence monitoring system according to claim 1, is characterized in that: described dictyosome adopts non-corrosive metal (NCM) rope to work out.

3. mud-rock flow Initiative defence monitoring system according to claim 1, is characterized in that: in the region that described wireless displacement sensor covers at dictyosome, be uniformly distributed.