CN205582250U - Mine hydraulic support pressure on -line monitoring system based on zigBee network - Google Patents
Mine hydraulic support pressure on -line monitoring system based on zigBee network Download PDFInfo
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- CN205582250U CN205582250U CN201620363943.5U CN201620363943U CN205582250U CN 205582250 U CN205582250 U CN 205582250U CN 201620363943 U CN201620363943 U CN 201620363943U CN 205582250 U CN205582250 U CN 205582250U
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Abstract
The utility model discloses a mine hydraulic support pressure on -line monitoring system based on zigBee network, including being located aboveground monitor platform, the industry ethernet ring network, the CAN that are located in the pit change ethernet, coordinator node, a plurality of routing node and multiunit pressure data acquisition node, the utility model discloses a pressure of mine hydraulic support each point is gathered to pressure data acquisition node, then transmit in proper order for the routing node, the coordinator node that correspond through the zigBee network, and the coordinator node loops through that CAN changes the ethernet, industry ethernet ring network transmits data collection for aboveground monitor platform. The utility model discloses gather hydraulic support pressure data in real time, and data transmission is quick, effective purpose of monitoring is realized to the true pressure of mastering mine hydraulic support each point of aboveground personnel of being convenient for.
Description
Technical field
This utility model relates to mine hydraulic support pressure monitor field, a kind of mine hydraulic support pressure on-line monitoring system based on ZigBee-network.
Background technology
China's coal-mine is numerous, Safety of Coal Mine Production always country and the hot issue of social concerns.Tradition Safety of Coal Mine Production mainly faces five the Nature disasters: top board, gas, coal dust, gushing water, fire, wherein roof accident occupies the biggest proportion.Along with the region of coal mining is constantly deepened, the ground pressure suffered by fully-mechanized mining working is increasing, is particularly important underground hydraulic support frame pressure monitoring.
At present, mine hydraulic support pressure monitoring mode mainly has two kinds: one to be that staff reads data in down-hole, data is taken to aboveground being analyzed and processes;Two is the data of collection to be transferred on ground-based computer by fieldbus or RS485 bus, carries out Data Analysis Services.But, along with operations such as the propelling of coal-face and cranes, cable network is easily torn, and causes the pressure data of collection in worksite cannot in real time, reliably upload to ground-based computer, and making system be in semiparalysis state, the safety for colliery leaves serious hidden danger.
Utility model content
The technical problems to be solved in the utility model is to provide a kind of mine hydraulic support pressure on-line monitoring system based on ZigBee-network, use ZigBee-network that the pressure data of hydraulic support collection is transferred to aboveground monitoring platform, provide more guarantees for safety in production under mine.
The technical solution of the utility model is:
A kind of mine hydraulic support pressure on-line monitoring system based on ZigBee-network, includes and is positioned at aboveground monitor supervision platform, is positioned at the industrial ethernet ring network of down-hole, CAN turns Ethernet, coordinator node, multiple routing node and many group pressure data acquisition nodes;Wherein, often group pressure data acquisition node is connected with corresponding routing node by ZigBee-network, multiple routing nodes are connected with coordinator node by ZigBee-network, and coordinator node turns Ethernet and industry ethernet ring network by CAN, and industry ethernet ring network is connected with aboveground monitor supervision platform.
Described down-hole is additionally provided with the intrinsic safety electric source being connected with coordinator node, multiple routing node.
In described many groups pressure data acquisition node, each pressure data acquisition node all includes pressure data acquisition controller, the first ZigBee communication module, lithium battery, signal processing module, digital display module, input button and the first display lamp being connected respectively with pressure data acquisition controller, and the pressure transducer being connected with signal processing module.
Described routing node includes Node Controller, the second ZigBee communication module being connected respectively with Node Controller and the second display lamp.
Described coordinator node includes tuning controller, the 3rd ZigBee communication module, CAN controller and the 3rd display lamp being connected respectively with tuning controller.
Described monitor supervision platform includes monitoring host computer, switch, display screen, input equipment and the alarm module being connected with monitoring host computer.
Advantage of the present utility model:
This utility model uses many group pressure data acquisition nodes to gather the pressure of mine hydraulic support each point, then the routing node of correspondence, coordinator node it are transferred to successively by ZigBee-network, coordinator node by CAN turn Ethernet with industry ethernet ring network, industry ethernet ring network be connected with aboveground monitor supervision platform collection data are transferred to aboveground staff monitor.This utility model Real-time Collection hydraulic support pressure data, and data transmission is quickly, it is simple to aboveground personnel's fact grasps the pressure of mine hydraulic support each point, it is achieved the purpose of effective monitoring.
Accompanying drawing explanation
Fig. 1 is structural representation of the present utility model.
Detailed description of the invention
See Fig. 1, a kind of mine hydraulic support pressure on-line monitoring system based on ZigBee-network, include and be positioned at aboveground monitor supervision platform 1, be positioned at the industrial ethernet ring network 2 of down-hole, CAN turns Ethernet 3, coordinator node 4, multiple routing node 5 and many group pressure data acquisition nodes 6;Wherein, monitor supervision platform 1 includes monitoring host computer 11, switch 12, display screen 13, input equipment 14 and the alarm module 15 being connected with monitoring host computer 11, and when gathering data and exceeding setting value, alarm module 15 realizes warning function;In many group pressure data acquisition nodes 6, each pressure data acquisition node 6 all includes pressure data acquisition controller 61, the first ZigBee communication module 62, lithium battery 63, signal processing module 64, digital display module 65, input button 66 and the first display lamp 67 being connected respectively with pressure data acquisition controller 61, and the pressure transducer 68 being connected with signal processing module 64;Routing node 5 includes Node Controller 51, the second ZigBee communication module 52 and the second display lamp 53 being connected respectively with Node Controller 51;Coordinator node 4 includes tuning controller 41, the 3rd ZigBee communication module 42, CAN controller 43 and the 3rd display lamp 44 being connected respectively with tuning controller 41;
The pressure data of the hydraulic support collected is connected with corresponding routing node by pressure transducer 68 by first ZigBee communication module the 62, second ZigBee communication module 52, multiple routing nodes are connected with coordinator node 4 by the second ZigBee communication module the 52, the 3rd ZigBee communication module 42 again, the CAN controller 43 of coordinator node 4 turns Ethernet 3 and industry ethernet ring network 2 by CAN, and industry ethernet ring network 2 is connected with the switch 12 of aboveground monitor supervision platform;Wherein, coordinator node, multiple routing node are all connected with intrinsic safety electric source.
Operation principle of the present utility model:
nullEach hydraulic support is all loaded with a pressure data acquisition node 6,This node uses lithium battery 63 to power,Wherein,Pressure signal is converted to the signal of telecommunication by pressure transducer 68,Owing to output voltage signal is less,Need to send into pressure data acquisition controller 61 after signal processing module 64 amplifies,Again through the first ZigBee communication module 62、Second ZigBee communication module 52 sends signal to routing node,Then routing node will gather data again by the second ZigBee communication module 52、3rd ZigBee communication module 42 is uploaded to coordinator node 4,Tuning controller 41 realizes the mutual conversion of ZigBee module and CAN controller,The information collected is turned Ethernet 3 by CAN by CAN controller 43 again、Industry ethernet ring network 2 is uploaded to aboveground monitor supervision platform 1.
Claims (6)
1. a mine hydraulic support pressure on-line monitoring system based on ZigBee-network, it is characterized in that: include and be positioned at aboveground monitor supervision platform, be positioned at the industrial ethernet ring network of down-hole, CAN turns Ethernet, coordinator node, multiple routing node and many group pressure data acquisition nodes;Wherein, often group pressure data acquisition node is connected with corresponding routing node by ZigBee-network, multiple routing nodes are connected with coordinator node by ZigBee-network, and coordinator node turns Ethernet and industry ethernet ring network by CAN, and industry ethernet ring network is connected with aboveground monitor supervision platform.
A kind of mine hydraulic support pressure on-line monitoring system based on ZigBee-network the most according to claim 1, it is characterised in that: described down-hole is additionally provided with the intrinsic safety electric source being connected with coordinator node, multiple routing node.
A kind of mine hydraulic support pressure on-line monitoring system based on ZigBee-network the most according to claim 1, it is characterized in that: in described many groups pressure data acquisition node, each pressure data acquisition node all includes pressure data acquisition controller, the first ZigBee communication module, lithium battery, signal processing module, digital display module, input button and the first display lamp being connected respectively with pressure data acquisition controller, and the pressure transducer being connected with signal processing module.
A kind of mine hydraulic support pressure on-line monitoring system based on ZigBee-network the most according to claim 1, it is characterized in that: described routing node includes Node Controller, the second ZigBee communication module being connected respectively with Node Controller and the second display lamp.
A kind of mine hydraulic support pressure on-line monitoring system based on ZigBee-network the most according to claim 1, it is characterized in that: described coordinator node includes tuning controller, the 3rd ZigBee communication module, CAN controller and the 3rd display lamp being connected respectively with tuning controller.
A kind of mine hydraulic support pressure on-line monitoring system based on ZigBee-network the most according to claim 1, it is characterized in that: described monitor supervision platform includes monitoring host computer, switch, display screen, input equipment and the alarm module being connected with monitoring host computer.
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CN201620363943.5U CN205582250U (en) | 2016-04-27 | 2016-04-27 | Mine hydraulic support pressure on -line monitoring system based on zigBee network |
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CN201620363943.5U CN205582250U (en) | 2016-04-27 | 2016-04-27 | Mine hydraulic support pressure on -line monitoring system based on zigBee network |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108756962A (en) * | 2018-05-04 | 2018-11-06 | 西安科技大学 | A kind of hydraulic support monitoring method and system based on MVC design pattern |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108756962A (en) * | 2018-05-04 | 2018-11-06 | 西安科技大学 | A kind of hydraulic support monitoring method and system based on MVC design pattern |
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Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20160914 Termination date: 20190427 |