Underground flood alarm method based on image and water sump monitoring
A water tank and image technology, applied in image communication, earth-moving drilling, television and other directions, can solve the problems of environmental deterioration, improper design and complex hydrological conditions for people who do not escape in time
Active Publication Date: 2016-04-13
CHINA UNIV OF MINING & TECH (BEIJING)
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Problems solved by technology
[0003]
1. Washing away the roadway, burying, submerging and blocking personnel
[0004]
2. Accompanied by water inrush, there will be a large amount of coal slime and rock silting up the roadway, which will cause difficulties for personnel to escape
[0005]
3. Damaged equipment
[0006]
4. A large amount of poisonous and harmful gas gushes out, which worsens the living conditions and environment of those who have not escaped in time
At present, flood early warning is mainly based on hydrological detection and prevention, underground water detection, and aura phenomenon observation and monitoring. Hydrological detection and underground water detection can prevent underground flood accidents. Hydrological detection and underground water exploration cannot completely prevent the occ...
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[0019] The flood alarm method is realized by a monitoring system, and the system mainly includes:
[0020] 1. Storage server (101), responsible for receiving and storing video data, tank water level data and tank displacement data, and providing query and retrieval services for the monitoring host and flood monitoring server.
[0021] 2. The flood monitoring server (102), receives the digital video stream collected by the camera, processes the video image of the camera, monitors the abnormal continuous changes in the set area in the video image of the camera, and refers to the water level of the corresponding roadway water tank stored in the storage server and displacement data, if the alarm condition is met, the water inrush alarm signal will be output to the monitoring host. When there are too many monitoring video channels and the processing capacity of the server is insufficient, multiple servers can be placed to monitor the video separately.
[0022] 3. geographic inform...
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The invention discloses an underground flood alarm method based on image and water sump monitoring. The alarm method includes the steps that cameras are placed on an underground coal mine tunneling working face, a coal working face or other operation faces possibly having a water inrush accident, and a water sump liquid level monitoring device and a water discharge monitoring device are placed in a downstream water sump of a drainage channel of a roadway monitored by each camera; when it is monitored that abnormal water flow appears in a set region in video images of the cameras, moreover, the duration time of the water flow exceeds a set time threshold value or water flow increasing speed exceeds a set threshold value, and meanwhile water intake quantity of the corresponding water sump is abnormal, a flood alarm signal is sent out. The alarm method fully considers the characteristic of a coal mine coal working face flood and is easy to implement, corresponding measures are taken automatically in time, an alarm can be given for water inrush of a coal mine accurately at first time, and valuable rescue and escape time is bought for underground staff, not at the flood site, in other regions.
Description
technical field [0001] The invention relates to an underground flood alarm method based on image and water tank monitoring, and the method relates to the fields of image pattern recognition, sensor, communication and the like. Background technique [0002] Coal is the main energy in my country, accounting for about 70% of the primary energy. The coal industry is a high-risk industry, and accidents such as gas, flood, fire, roof, and coal dust have plagued coal mine safety production. Among the major accidents in coal mines in my country, mine floods are the most harmful natural disasters to mines. Calculated by the number of deaths in coal mine accidents, water accidents accounted for 15.72%, second only to gas and roof accidents, ranking third. After a flood accident, the hazards include: [0003] 1. Wash away the roadway, bury, submerge and block people. [0004] 2. Accompanied by water inrush, there will be a large amount of coal slime and rock silting up the roadway, w...
Claims
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Login to view more IPC IPC(8): E21F17/18H04N7/18
CPCE21F17/18H04N7/183
Inventor 孙继平刘毅
Owner CHINA UNIV OF MINING & TECH (BEIJING)
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