CN101867604B - Remote monitoring system of mineral resource excavating surface operation - Google Patents
Remote monitoring system of mineral resource excavating surface operation Download PDFInfo
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- CN101867604B CN101867604B CN2010101837161A CN201010183716A CN101867604B CN 101867604 B CN101867604 B CN 101867604B CN 2010101837161 A CN2010101837161 A CN 2010101837161A CN 201010183716 A CN201010183716 A CN 201010183716A CN 101867604 B CN101867604 B CN 101867604B
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Abstract
The invention discloses a remote monitoring system of mineral resource excavating surface operation, which is characterized in that the system operates according to the following steps: identifying a radio-frequency signal identification subsystem of information corresponding to a radio-frequency signal; collecting the signals sent by movements or shifts of a dynamic object and the like, and identifying a dynamic object collecting subsystem of the information corresponding to the signal; collecting and processing the received information corresponding to each radio-frequency signal and each dynamic object signal, and transmitting the excavating information of mineral resources to a remote communication master station of a designated terminal server through a wired or wireless network system; and obtaining the excavating information of the mineral resources transmitted from the communication master station through the network transmission of the wireless communication, and storing to a database for the terminal server to inquire. The communication master station of the invention judges whether the position of the signal is within a rule-breaking range such as mining beyond layer or boundary and the like. The monitoring process has real time property and high efficiency.
Description
Technical field
The present invention relates to a kind of remote monitoring system of mineral resource excavating surface operation, more specifically saying so is used for the illegal exploitation incidents of violation such as the exploitation situation of bargh's used on down-hole mining surface operation and ultra layer cross the border are carried out the long distance control system of remote monitoring and administration.
Background technology
The monitoring management of present mineral resource excavating surface operation is to be deep into bargh by relevant supervisor to check the exploitation of mineral resources situation on the spot, judges whether to exist the illegal exploitation situation of violation such as ultra layer crosses the border.Because each bargh used on down-hole mining surface tunnel is complicated; Situation is different; It is big to utilize said method to supervise required workload, and the user of service measures many, and the amount of expending time in is long; And the artificial operability of corresponding violation violation of law is high, can not in time, truly reflect the actual conditions of resource digging exploitation.
Summary of the invention
The present invention is for avoiding above-mentioned existing in prior technology weak point; A kind of remote monitoring system of mineral resource excavating surface operation is provided; Utilize the present invention can realize the digging exploitation information of remote monitoring and administration down-hole mineral resources; Rely on wired or wireless network to transmit the information of mineral resources digging development situation; And there are corresponding exploitation track and ultra layer to cross the border exploitation specifying information synchronous transmission, violation exploitation situation is reported to the police, make relevant supervisor grasp illegal warning message in violation of rules and regulations the very first time to the designated terminal server; And can will exploit the historical track storage of situation, prepare against and check as favourable evidence.
The design feature of remote monitoring system of mineral resource excavating surface operation of the present invention is that its system's formation comprises:
One radiofrequency signal recognition subsystem, the information that radiofrequency signal recognition is corresponding;
One dynamic object is collected subsystem, the signal that collect that dynamic object moves or displacement etc. sent, and the corresponding information of identification signal;
Each radiofrequency signal information corresponding with dynamic target signals received of also handling is collected by one telecommunication master station, and through wired or wireless network system with mining mineral resource message transmission to designated terminal server;
One terminal server utilizes the Network Transmission of radio communication, obtains the mining mineral resource information from the general communication station transmission, and is stored to database in order to inquiry;
One power module has the power supply of 220V mains supply and standby battery, and the system works power supply is provided.
The design feature of remote monitoring system of mineral resource excavating surface operation of the present invention also is:
Said radiofrequency signal recognition subsystem is at face radiofrequency signal to be installed to read identification equipment; The radiofrequency signal identification card is installed on the locomotive of transportation mineral resources; Send and each locomotive radio frequency signal one to one with said each radiofrequency signal identification card; Said fetch equipment reads radiofrequency signal identification card information in read range, and the information that will read transfers to general communication station with the RS-485 bus network.
It is at face dynamic object to be installed to collect device that said dynamic object is collected subsystem; Said dynamic object is collected device and is comprised and be embedded in the underground coil pickoff that is used for induction machine vehicle metal mobiles, stand on infrared inductor that the tunnel is used to respond to personnel's activity, be hung in back and be used to detect the displacement transducer whether back exists the displacement situation of sinking activity, and the acousto-optic sensor that is used to respond to the activity change of acoustic and light information.
Compared with present technology, beneficial effect of the present invention is embodied in:
1, the present invention relates to radiofrequency signal identification (RFID) subsystem, dynamic object collection subsystem, radio communication subsystem etc.; Each face is installed radiofrequency signal recognition subsystem or dynamic object collection subsystem under mine; General communication station judges through radiofrequency signal recognition and the corresponding respectively information of dynamic target signals whether this signal position is within the violation scopes such as ultra layer crosses the border, and observation process has real-time, high efficiency.
2, general communication station utilizes the RS-485 network can under noise circumstance, realize reliable transfer of data among the present invention, is fit to the transmission of adverse circumstances and long term distance.
3, general communication station of the present invention is through cable network or wireless network transmissions; Mineral resources digging exploitation message transmission to designated terminal server with each bargh; So that storing queries; And provide the track of historical exploitation information to supply inquiry, greatly improve the work and the work quality of this working link.
Description of drawings
Fig. 1 constitutes sketch map for system of the present invention.
Below, the present invention is described further in conjunction with accompanying drawing through embodiment.
Embodiment
Referring to Fig. 1, the system of present embodiment formation comprises:
One radiofrequency signal recognition subsystem, the information that radiofrequency signal recognition is corresponding; Be utilized in face installation radiofrequency signal and read identification equipment, the radiofrequency signal identification card is installed on locomotives such as the mine car that transports mineral resources, forklift, radio-frequency card sends radio frequency signal, corresponding one by one each locomotive information.Read in the read range of identification equipment when the radiofrequency signal identification card gets into radio frequency, fetch equipment may be read into radiofrequency signal identification card information, utilizes the RS-485 bus network to transfer to general communication station the information that reads.
One dynamic object is collected subsystem, the signal that collect that dynamic object moves or displacement etc. sent, and the corresponding information of identification signal; Be utilized in face and dynamic object is installed is collected device, as dynamic object in activity when collecting device, can the trigger switch signal, this switching signal utilizes the RS-485 bus network to transfer to general communication station.Dynamic object is collected subsystem and is comprised: coil pickoff, be embedded in undergroundly, and be used to respond to metal mobileses such as mine car, forklift; Infrared to love dart, stand in the tunnel, be used to respond to mobileses such as mine car with certain altitude, forklift; Infrared inductor stands in the tunnel, is used to respond to personnel's activity; Displacement transducer is hung in back, is used to detect the displacement situation whether back exists the sinking activity.Acousto-optic sensor is used to respond to the activity change of information such as acousto-optic.
Each radiofrequency signal information corresponding with dynamic target signals received of also handling is collected by one telecommunication master station, and through wired or wireless network system with mining mineral resource message transmission to designated terminal server;
One terminal server utilizes the Network Transmission of radio communication, obtains the mining mineral resource information from the general communication station transmission, and is stored to database in order to inquiry;
One power module has the power supply of 220V mains supply and standby battery, and the system works power supply is provided.
The present invention collects the information that subsystem sent through radiofrequency signal recognition recognition subsystem, dynamic object, can judge the institute residing position of photos and sending messages.
General communication station is collected subsystem etc. through RS-485 bus network and radiofrequency signal recognition subsystem, dynamic object and is linked together; Regularly read radio-frequency information, dynamic object information; The information Recognition that reads is handled; To the RS485-RS232 modular converter, be converted into the RS-232 mode bus through the RS-485 Network Transmission, utilize wired or wireless network remote to transfer to terminal server through data transmission module.After terminal server is accepted the general communication station information processed, judge present position, information collected source, illegal phenomenon in violation of rules and regulations whether occurs.As in violation of rules and regulations illegal information appears; Server passes through alarm module; Send warning message to relevant supervisor through the mobile phone short message form; Supervisor's internet network remote capable of using query monitor information is checked bargh's exploitation mineral products information and the illegal information of violation simultaneously, and the very first time is grasped real mining situation.
Claims (2)
1. remote monitoring system of mineral resource excavating surface operation is characterized in that system constitutes to comprise:
One radiofrequency signal recognition subsystem, the information that radiofrequency signal recognition is corresponding; Be utilized in face installation radiofrequency signal and read identification equipment, the radiofrequency signal identification card is installed on the locomotive of transportation mineral resources, radio-frequency card sends radio frequency signal, corresponding one by one each locomotive information; The radiofrequency signal identification card gets into radio frequency and reads in the read range of identification equipment, and fetch equipment may be read into radiofrequency signal identification card information, utilizes the RS-485 bus network to transfer to general communication station the information that reads;
One dynamic object is collected subsystem, collects the signal that dynamic object moves or displacement is sent, and the corresponding information of identification signal; Be utilized in face and dynamic object is installed is collected device, as dynamic object in activity when collecting device, can the trigger switch signal, this switching signal utilizes the RS-485 bus network to transfer to general communication station; Collect the information that subsystem sent through radiofrequency signal recognition recognition subsystem, dynamic object, can judge the institute residing position of photos and sending messages; After terminal server is accepted the general communication station information processed, judge present position, information collected source, illegal phenomenon in violation of rules and regulations whether occurs;
Each radiofrequency signal information corresponding with dynamic target signals received of also handling is collected by one telecommunication master station, and through wired or wireless network system with mining mineral resource message transmission to designated terminal server;
One terminal server utilizes the Network Transmission of radio communication, obtains the mining mineral resource information from the general communication station transmission, and is stored to database in order to inquiry;
One power module has the power supply of 220V mains supply and standby battery, and the system works power supply is provided.
2. remote monitoring system of mineral resource excavating surface operation according to claim 1 is characterized in that it is at face dynamic object to be installed to collect device that said dynamic object is collected subsystem; Said dynamic object is collected device and is comprised and be embedded in the underground coil pickoff that is used for induction machine vehicle metal mobiles, stand on infrared inductor that the tunnel is used to respond to personnel's activity, be hung in back and be used to detect the displacement transducer whether back exists the displacement situation of sinking activity, and the acousto-optic sensor that is used to respond to the activity change of acoustic and light information.
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CN2010101837161A CN101867604B (en) | 2010-05-24 | 2010-05-24 | Remote monitoring system of mineral resource excavating surface operation |
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CN2010101837161A CN101867604B (en) | 2010-05-24 | 2010-05-24 | Remote monitoring system of mineral resource excavating surface operation |
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CN101867604B true CN101867604B (en) | 2012-09-05 |
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US9903090B2 (en) * | 2012-01-18 | 2018-02-27 | Harnischfeger Technologies, Inc. | System and method for vibration monitoring of a mining machine |
CN111811635B (en) * | 2020-07-07 | 2021-06-15 | 美钻石油钻采系统(上海)有限公司 | Underwater target monitoring device |
Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN2856425Y (en) * | 2005-07-15 | 2007-01-10 | 刘立 | Safety dynamic monitoring management system of mine |
CN201060267Y (en) * | 2007-07-27 | 2008-05-14 | 北京华大恒泰科技有限责任公司 | Tracking position location system |
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Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2856425Y (en) * | 2005-07-15 | 2007-01-10 | 刘立 | Safety dynamic monitoring management system of mine |
CN201060267Y (en) * | 2007-07-27 | 2008-05-14 | 北京华大恒泰科技有限责任公司 | Tracking position location system |
Non-Patent Citations (1)
Title |
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王建民 等.应用信息化网络技术监测越层越界开采初探.《煤矿安全》.2009, * |
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