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Water damage spreading system for multi-roadway coupling at random angles under mine

An arbitrary-angle, multi-tunnel technology, applied in mining equipment, mining equipment, earthwork drilling and mining, etc., can solve the lack of real-time performance and timeliness of water inrush and spread simulation, lack of real-time updated data input, and failure to realize on-site data collection , storage and transmission interfaces and other issues

Active Publication Date: 2016-07-27
TAIYUAN UNIV OF TECH
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Problems solved by technology

However, the establishment of this model is based on historical map information, lacks the input of real-time updated data, does not realize the interface of on-site data collection, storage and transmission, and lacks the real-time and timeliness of water inrush simulation
Its water inrush and spreading process is the water inrush speed trained by the neural network model, which has strong professionalism and is difficult to be applied and promoted in the actual coal mine site

Method used

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  • Water damage spreading system for multi-roadway coupling at random angles under mine
  • Water damage spreading system for multi-roadway coupling at random angles under mine
  • Water damage spreading system for multi-roadway coupling at random angles under mine

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Embodiment Construction

[0024] The specific implementation manners of the present invention will be further described below.

[0025] as attached figure 2 , to implement the above-mentioned water damage spreading system provided by the present invention for multi-tunnel coupling at any angle under the mine, the system includes: a plurality of clients; a water inrush spreading subsystem; a plurality of wireless sensor terminals and a plurality of artificial PCs Input terminal; and database server, connected with multiple wireless sensor terminals and multiple manual PC input terminals to store sensor coordinate information, mine excavation position information, roadway linear direction information, roadway length and width information, and roadway obstacle position information etc.; the wireless sensor terminal and the input terminal of the artificial PC transmit the above-mentioned information collected by on-site monitoring or manual to the database server; the water inrush spreading subsystem is u...

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Abstract

The invention discloses a water damage spreading system for multi-roadway coupling at random angles under a mine. According to the water damage spreading system, client sides, a water burst spreading subsystem, wireless sensor terminals, PC input ends and a database server are integrated, and the database server is connected with the wireless sensor terminals and the PC input ends so as to store sensor coordinate information, mine digging position information, roadway linear direction information, roadway length and width information and roadway obstacle position information. The wireless sensor terminals and the PC input ends transmit field monitoring information to the database server, and the water burst spreading subsystem is used for requesting real-time updating information from a database and synchronously loading the real-time updating information to a GIS spatial layer so as to achieve synchronization with the database server, and a real-time roadway water damage spreading layer is obtained by means of an LBM for multi-roadway coupling at random angles under the mine. The client sides synchronously receive graph data from the database server and the real-time roadway water damage spreading layer fed back by the water burst spreading subsystem, the client sides share the information, and finally water damage spreading simulation of multi-roadway coupling at random angles under the mine is achieved.

Description

technical field [0001] The invention relates to a system for detection and early warning of underground water inrush and a method for spreading water damage, and more specifically to a system for online monitoring and early warning of underground water inrush in coal mines and a method for simulating water damage spreading in mine roadways. Background technique [0002] Coal mine accidents occur frequently, among which water accidents are the "second killer" of coal mines after gas accidents. With the gradual increase of mining depth and the large-scale development of lower coal formations, the problem of flooding has become more prominent. Effective online monitoring of water inrush accidents in underground mines, systematic research on water spreading law in tunnels with complex topological structure underground, and rapid identification of water damage spreading path and scope, can formulate effective disaster avoidance routes before disasters occur, and the maximum To...

Claims

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Application Information

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IPC IPC(8): E21F17/18
CPCE21F17/18
Inventor 张雪英李凤莲陈桂军李智勇李文杰黄丽霞
Owner TAIYUAN UNIV OF TECH
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