CN2792060Y - Petroleum system emergency long-distance monitoring commanding system - Google Patents
Petroleum system emergency long-distance monitoring commanding system Download PDFInfo
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- CN2792060Y CN2792060Y CN 200520024022 CN200520024022U CN2792060Y CN 2792060 Y CN2792060 Y CN 2792060Y CN 200520024022 CN200520024022 CN 200520024022 CN 200520024022 U CN200520024022 U CN 200520024022U CN 2792060 Y CN2792060 Y CN 2792060Y
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Abstract
The utility model relates to a petroleum system emergency remote monitoring and commanding system which is composed of a wireless transmission system, a monitoring and commanding center network of company headquarters, more than two remote audio/video data collecting and executing networks and an emergency communication command car network, wherein each of the remote audio/video data collecting and executing networks comprises transmitting and receiving equipment, a routing modem, a data switching exchange, an integrated application server, a video encoder, an IP voice gateway and a data collector; the data monitoring and commanding center network of company headquarters comprises transmitting and receiving equipment, a routing modem, a data switching exchange, an integrated application server, an IP voice gateway and a video encoder; the emergency communication command car network is composed of vehicles which are provided with the remote audio/video data collecting and executing networks. The utility model has the advantages that the utility model fully utilizes wireless network resources and integrates a plurality of functions into a whole, such as remote video monitoring and commanding, data transmission, emergency dealing, etc.
Description
Technical field
The utility model relates to the emergent remote monitoring command system of a kind of petroleum system, is applicable to petroleum systems such as oil exploration, drilling well, oil recovery, oil storage, oil transportation, gas transmission.
Background technology
Chinese patent " oil drilling multisatellite network remote monitoring system " (patent No.: 200320111363.x) and " the multi-functional internet network long distance control system of oil drilling " (patent No.: 200320131602.8) two involved distance transmission systems of patent are the transmission between fixing point and the fixing point, the emergent point of carrying out can not carry out motor-driven transmission communication according to field condition fully, and it is very poor to rob danger in emergency.Can not give full play to on-the-spot motor-driven emergent remote monitoring command function.General headquarters can not obtain the data and the graphic materials of far-end service area accurately and timely, and the far-end service area can't in time be got rid of and processing as emergency episode takes place, and therefore the no motor-driven remote monitoring commander work of effectively carrying out cause the loss of economy and engineering aspect.Its immediate constraint the development rate of petroleum industry, restricted the development of petroleum industry.
Summary of the invention
Technical problem to be solved in the utility model provides a kind of petroleum system remote emergency monitoring and commanding system.
The technical scheme that its technical problem that solves the utility model adopts:
The utility model is made up of wireless transmitting system, corporate HQ's control and command central site network and plural far-end audio frequency and video, data acquisition execution network, emergency communication command car network;
Described wireless transmitting system is selected from any in radio station, microwave spread spectrum, GPRS, CDMA, the satellite communication;
Each far-end audio frequency and video, data acquisition are carried out network and are included emitting and receiving equipment, routed modems, data switching exchane, integrated application server, video encoder, ip voice gateway, data acquisition unit; Emitting and receiving equipment is connected with routed modems, and routed modems is connected with data switching exchane, and the integrated application server via Ethernet is connected with data switching exchane, ip voice gateway respectively; The output of video encoder and data acquisition unit is connected with the integrated application server with data exchange unit by Ethernet respectively; The ip voice gateway is connected with data switching exchane by Ethernet; The input of video encoder is connected to video camera; The ip voice gateway is connected to telephone set; The electric signal transducer of data acquisition unit is connected to transducer;
Corporate HQ's control and command central site network includes emitting and receiving equipment, routed modems data switching exchane, integrated application server, ip voice gateway, Video Decoder; Emitting and receiving equipment is connected with routed modems, the routed modems integrated application server via Ethernet that is connected with data switching exchane is connected with data switching exchane, ip voice gateway, Video Decoder respectively, and ip voice gateway and Video Decoder are connected with data switching exchane by Ethernet respectively; The output of Video Decoder is connected to Control Room; The ip voice gateway is connected to telephone set;
Emergency communication command car network is made up of the motor vehicle that far-end audio frequency and video, data acquisition execution network are housed
Be respectively equipped with video conference device in far-end audio frequency and video, data acquisition execution network and corporate HQ's control and command central site network, its video conference device all connects data switching exchane and integrated application server respectively by Ethernet.
In corporate HQ's control and command central site network, also be provided with the broadband internet access port, the broadband internet access port is connected with comprehensive server with data switching exchane respectively by Ethernet.
The course of work of the present utility model is as follows: network A is carried out in each far-end audio frequency and video, data acquisition
2With emergency communication command car network A
3To pass through wireless transmitting system A at the data and the audio/video information of petroleum system collection in worksite
0Be transferred to the control and command central site network A of corporate HQ
1The control and command central site network A of corporate HQ
1Commander's information such as various audio, video datas, also can pass through wireless transmitting system A
0Be transferred to emergency communication command car network A
3Carry out network A with far-end audio frequency and video, data acquisition
2, reach the purpose that remote emergency is speedily carried out rescue work and commanded.
Wireless transmitting system can be wireless transmitting systems such as the radio station, microwave spread spectrum, GPRS, CDMA, satellite VSAT operation network of State Radio Regulatory Commission or Ministry of Information industry approval.
The beneficial effects of the utility model are as follows:
1, native system makes full use of wireless network communication resource, functions such as union monitoring remote video commander, voice data transmission, video conference, broadband internet access, and can satisfy the emergent functional requirement of petroleum industry, and improved the emergency repair ability, guaranteed safety in production.
2, monitoring remote video command function: by native system, the leader of corporate HQ can grasp the far-end field condition in real time and carry out commander's work.
3, motor-driven function: emergency repair communication and command car can pass through the vehicular communication network, motor-driven effectively with the audio frequency and video at scene, data information transfer to general headquarters' command centre's network of speedily carrying out rescue work.
4, phonetic function: can realize that by voice gateways far-end is to the telephony feature between the corporate HQ.But voice gateways are access switch also, realizes and the inner conversation of extension set arbitrarily, accomplishes and does not have the accessible interchange of distance.
5, data-transformation facility: the data message of the far-end of place where the accident occurred being gathered by wireless transmitting system and the production command centre of general headquarters realize the transmission of internal office work data, can help analysis of science and judgement are carried out in the scene of the accident, thereby correctly handle field accident in time.
6, broadband internet inserts: the data information that is transferred to parent company by far-end can insert the Internet, authorizes other relevant units and department and the main leader who travels outside to carry out resource-sharing.
Description of drawings
Fig. 1 is a theory diagram of the present utility model.
Fig. 2 is the theory diagram of far-end audio frequency and video, data acquisition monitor network.
Fig. 3 is the theory diagram of corporate HQ's control and command central site network.
Fig. 4 is a hardware configuration schematic diagram of the present utility model.
In Fig. 1-4,1, emitting and receiving equipment, 2, routed modems, 3, data switching exchane, 4,11, the integrated application server, 5,12, Ethernet, 6, video encoder, 7, ip voice gateway, 8. data acquisition unit, 9, video conference device, 10, telephone set, 13, Video Decoder, 14, the broadband internet access port, 15, video camera, 16, various transducer, 17, Control Room, 18, notebook computer, 19, mobile phone, 20, motor vehicle.
Embodiment
Embodiment 1 (be used for oil exploration and drilling well, and wireless transmitting system A.Elect satellite communication as):
By the embodiment 1 shown in Fig. 1-4 as can be known, it is by wireless transmitting system (A
0), the control and command central site network (A of corporate HQ
1) and plural far-end audio frequency and video, data acquisition carry out network (A
2), emergency communication command car network (A
3) the composition (see figure 1);
Wireless transmitting system A in present embodiment 1
0Select satellite communication for use.
In present embodiment 1, network A is carried out in each far-end audio frequency and video, data acquisition
2(see figure 2) is made up of emitting and receiving equipment 1 (employing satellite antenna), routed modems 2 (adopting the satellite routed modems), data switching exchane 3, integrated application server 4, video encoder 6, ip voice gateway 7, data acquisition unit 8, video conference device 9; Satellite antenna is connected with the satellite routed modems, the satellite routed modems is connected with data switching exchane 3, integrated application server 4 is connected with data switching exchane 3, ip voice gateway 7, video conference device 9 respectively by Ethernet 5, and the output of video encoder 6 and data acquisition unit 8 is connected with integrated application server 4 with data exchange unit 3 by Ethernet 5 respectively; Ip voice gateway 7, video conference device 9 are connected with data switching exchane 3 by Ethernet 5 respectively; The input of video encoder 6 is connected to video camera 15, and they are respectively drilling platforms video camera, pump house video camera, machine room video camera and mud district video camera and living area video camera; Ip voice gateway 7 is connected to the satellite telephone of night shift room and drilling platforms respectively; The electric signal transducer of data acquisition unit 8 is connected to 4-20mA mud temperature sensor, 4-20mA 0-160ms/cm mud conductivity sensor, ultrasonic wave 4-20mA mud volume sensor, 4-20mA 0-2.4g/cm respectively
3Mud weight sensor pulse signal well depth transducer, 8V300mm slush pump pump are towards transducer, 4-20mA electrochemical probe flame proof hydrogen sulfide sensor, jackscrew formula 4-20mA rotating disk twist sensors, the two approaching outstanding transducers of pulse signal 8V.The various kinds of data of various transducers 16 (only drawn it among Fig. 2 three kinds of transducers), parameter become the voltage signal of 2-10 volt through electric signal transducer with the electrical signal conversion of 4-20 milliampere, handle after Ethernet 5 is delivered to integrated application server 4 through data acquisition unit 8 then.
In present embodiment 1, the control and command central site network A of corporate HQ
1(seeing Fig. 3,4) is made up of emitting and receiving equipment 1 (employing satellite antenna), routed modems 2 (adopting the satellite routed modems), data switching exchane 3, integrated application server 11, ip voice gateway 7, Video Decoder 13, video conference device 9, broadband internet access port 14.Satellite antenna 1 is connected with satellite routed modems 2, satellite routed modems 2 is connected with data switching exchane 3, integrated application server 11 is connected with data switching exchane 3, ip voice gateway 7, Video Decoder 13, video conference device 9, broadband internet inlet 14 respectively by Ethernet 12, and ip voice device 7, Video Decoder 13, video conference device 9 and broadband internet access port 14 are connected with data switching exchane 3 by Ethernet 12 respectively; Ip voice gateway 7 is connected to the satellite phone of production scheduling chamber and leader office respectively; The output of Video Decoder 13 is connected to Control Room 17;
In present embodiment 1, satellite emergency communication command car network A
3Employing is by said distal ends audio frequency and video, data acquisition execution network A are housed
2 Motor vehicle 20 form (see figure 4)s.
In present embodiment 1, the model of each parts is as follows: satellite antenna: SKY-FIY-12M; Satellite routed modems: GILAT-360E; Data switching exchane 3:BASELINE10-100; Integrated application server 4:DSL-4010; Integrated application server 11:DSL-4000; Data acquisition unit 8:DLS-CPSIC; Video encoder 6:KDM2400; Video Decoder 13:KDM2500; Ip voice gateway 7:KVP6010; , video conference device 9:KDV8010.
The operation principle of present embodiment 1 is as follows:
1, far-end audio frequency and video, data acquisition monitor network A
2Send data and network management information by the MF-TDMA mode, the available bandwidth of these TDMA carrier waves is shared between remote terminal as required, can realize distribution according to need.Far-end audio frequency and video, data acquisition monitoring network A
2MF-TDMA carrier wave in the remote terminal emission adopts the Turbo coded system.
2, corporate HQ's control and command central site network
The control and command central site network A of corporate HQ
1Be that antenna, satellite routed modems, data switching exchane 3 are transferred in the Ethernet 12 data message that satellite is received via satellite, in integrated application server 11, handle and store, key data and information are delivered to the interconnected access port 14 in ip voice gateway 7, Video Decoder 13, video conference device 9 and broadband respectively by 10M/100M Ethernet 12, so that needed various information are shared by all departments of parent company.
Embodiment 2 (be used for exploration, drilling well, and wireless transmitting system A
0Select the radio station transmission system for use):
Embodiment 3 (be used for recovering the oil, and wireless transmitting system A
0Select GPRS or CDMA for use):
The transducer of embodiment 3 usefulness is: MAX6673 temperature sensor, P47 range sensor, 26PC series sensor, CD potline current/voltage sensor, H
2The S/C-200 hydrogen sulfide sensor.
Embodiment 4 (is used for oil refining, oil storage, oil transportation, gas transmission, wireless transmitting system A
0Select the microwave spread spectrum for use):
Embodiment 4 is wireless transmitting system A as different from Example 1
0When selecting the microwave spread spectrum for use, the model of each parts of system is as follows: emitting and receiving equipment (1) adopts the microwave spread spectrum, and its model is Axelwave (Ai Kesaier); Routed modems 2:Cisco Cisco; Data switching exchane 3: Huawei-3com; Comprehensive with application server 4:DELL (Dell); Integrated application server 11:DELL (Dell); Data acquisition unit 8:SKYcomm; Video encoder 6:Tandberg (Taide); Video Decoder 13:Tandberg; Ip voice gateway 7:TCL; Video conference device 9:Tandberg (Taide).
The transducer of embodiment 4 usefulness is: DS1 722 temperature sensors, three shock sensors of R298 series, 24PC series pressure sensor, SY-93 gas flow sensor, Parasound DCT1088-S duct type flow sensor, H
2The S/C-200 hydrogen sulfide sensor.
Claims (7)
1, the emergent remote monitoring command system of a kind of petroleum system is characterized in that it is by wireless transmitting system (A
0), the control and command central site network (A of corporate HQ
1) and plural far-end audio frequency and video, data acquisition carry out network (A
2), emergency communication command car network (A
3) form;
Described wireless transmitting system (A
0) be selected from radio station, microwave spread spectrum, GPRS, CDMA, the satellite communication any;
Network (A is carried out in each far-end audio frequency and video, data acquisition
2) include emitting and receiving equipment (1), routed modems (2), data switching exchane (3), integrated application server (4), video encoder (6), ip voice gateway (7), data acquisition unit (8); Emitting and receiving equipment (1) is connected with routed modems (2), routed modems (2) is connected with data switching exchane (3), and integrated application server (4) is connected with data switching exchane (3), ip voice gateway (7) respectively by Ethernet (5); The output of video encoder (6) and data acquisition unit (8) is connected with integrated application server (4) with data exchange unit (3) by Ethernet (5) respectively; Ip voice gateway (7) is connected with data switching exchane (3) by Ethernet (5); The input of video encoder (6) is connected to video camera (15); Ip voice gateway (7) is connected to telephone set (10); The electric signal transducer of data acquisition unit (8) is connected to transducer (16);
Control and command central site network (the A of corporate HQ
1) include emitting and receiving equipment (1), routed modems (2), data switching exchane (3), integrated application server (11), ip voice gateway (7), Video Decoder (13); Emitting and receiving equipment (1) is connected with routed modems (2), routed modems (2) is connected with data switching exchane (3), integrated application server (11) is connected with data switching exchane (3), ip voice gateway (7), Video Decoder (13) respectively by Ethernet (12), and ip voice gateway (7) and Video Decoder (13) are connected with data switching exchane (3) by Ethernet (12) respectively; The output of Video Decoder (13) is connected to Control Room (17); Ip voice gateway (7) is connected to telephone set (10);
Emergency communication command car network (A
3) by far-end audio frequency and video, data acquisition execution network (A are housed
2) motor vehicle (20) form.
2, the emergent remote monitoring command system of petroleum system according to claim 1 is characterized in that carrying out network (A in far-end audio frequency and video, data acquisition
2) and the control and command central site network (A of corporate HQ
1) in be respectively equipped with video conference device (9), its video conference device (9) all connects data switching exchane (3) and integrated application server (4,11) respectively by Ethernet (5,12).
3, the emergent remote monitoring command system of petroleum system according to claim 2 is characterized in that the control and command central site network (A in the corporate HQ
1) in also be provided with broadband internet access port (14), broadband internet access port (14) is connected with comprehensive server (11) with data switching exchane (3) respectively by Ethernet (12).
4, the emergent remote monitoring command system of petroleum system according to claim 3 is characterized in that as wireless transmitting system (A
0) when selecting sts satellite transmission system for use, the model of each parts of system is as follows: emitting and receiving equipment (1) adopts satellite antenna, and its model is SKY-FIY-12M; Routed modems (2) adopts the satellite routed modems, and its model is GILAT-360E; Data switching exchane (3): BASELINE10-100; Comprehensive with application server (4): DSL-4010; Integrated application server (11): DSL-4000; Data acquisition unit (8): DLS-CPSIC; Video encoder (6): KDM2400; Video Decoder (13): KDM2500; Ip voice gateway (7): KVP6010; Video conference device (9): KDV8010.
5, the emergent remote monitoring command system of oil according to claim 3 is characterized in that as wireless transmitting system (A
0) when selecting radio station's transmission system for use, each parts of system adopt pairing each parts of MDS series.
6, the emergent remote monitoring command system of petroleum system according to claim 3 is characterized in that as wireless transmitting system (A
0) when selecting GPRS or CDMA for use, each parts of system adopt the pairing parts of SKYcomm series:
7, the emergent remote monitoring command system of petroleum system according to claim 3 is characterized in that as wireless transmitting system (A
0) when selecting the microwave spread spectrum for use, the model of each parts of system is as follows: emitting and receiving equipment (1) adopts the microwave spread spectrum, and its model is Axelwave; Routed modems (2): Cisco; Data switching exchane (3): Huawei-3com; Integrated application server (4): DELL; Integrated application server (11): DELL; Data acquisition unit (8): SKYcomm; Video Decoder (6): Tandberg; Video Decoder (13): Tandberg; Ip voice gateway (7): TCL; Video conference device (9): Tandberg.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 200520024022 CN2792060Y (en) | 2005-05-09 | 2005-05-09 | Petroleum system emergency long-distance monitoring commanding system |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 200520024022 CN2792060Y (en) | 2005-05-09 | 2005-05-09 | Petroleum system emergency long-distance monitoring commanding system |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN2792060Y true CN2792060Y (en) | 2006-06-28 |
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ID=36808102
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| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN 200520024022 Expired - Fee Related CN2792060Y (en) | 2005-05-09 | 2005-05-09 | Petroleum system emergency long-distance monitoring commanding system |
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|---|---|
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Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102196005A (en) * | 2010-03-16 | 2011-09-21 | 武汉特试特科技有限公司 | Electric test vehicle communication network structure |
| CN102785604A (en) * | 2012-07-25 | 2012-11-21 | 上海思快电子科技有限公司 | 3G video/audio emergency integrated command system |
| CN103955198A (en) * | 2014-05-15 | 2014-07-30 | 中国石油大学(华东) | Marine petroleum drilling machine integrated network redundancy monitoring system |
-
2005
- 2005-05-09 CN CN 200520024022 patent/CN2792060Y/en not_active Expired - Fee Related
Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102196005A (en) * | 2010-03-16 | 2011-09-21 | 武汉特试特科技有限公司 | Electric test vehicle communication network structure |
| CN102785604A (en) * | 2012-07-25 | 2012-11-21 | 上海思快电子科技有限公司 | 3G video/audio emergency integrated command system |
| CN103955198A (en) * | 2014-05-15 | 2014-07-30 | 中国石油大学(华东) | Marine petroleum drilling machine integrated network redundancy monitoring system |
| CN103955198B (en) * | 2014-05-15 | 2015-05-13 | 中国石油大学(华东) | Marine petroleum drilling machine integrated network redundancy monitoring system |
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|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| C19 | Lapse of patent right due to non-payment of the annual fee | ||
| CF01 | Termination of patent right due to non-payment of annual fee |