CN202870591U - Long-distance pipeline coal-transporting SCADA monitoring system - Google Patents

Abstract

The utility model discloses a long-distance pipeline coal-transporting SCADA monitoring system. The long-distance pipeline coal-transporting supervisory control and data acquisition (SCADA) system is an informatization monitor system special for monitoring operation of the long-distance coal transporting pipelines. The SCADA controlling system network is composed of an information layer, a control layer and an equipment layer; and networks of each layer realize complete seamless routing with a computer management system. Through a three-level control (a central control, a site control and a local control), the system realizes a complete control for a head end, an intermediate site and a terminal of the coal transporting pipeline, and completes automatic pressure regulation and protection, water-attack advanced protection, emergency stop, and online leak detection and measurement of 10 sub-control stations and 29 sub-control sites along the line. The system has advantages of reasonable structure, convenient usage and reliable safety, and can be widely used for long-distance pipeline transport industries.

Description

Long-distance pipe is failed coal SCADA supervisory system

Technical field

The utility model relates to supervision and the control of Modern Operations System, is specifically related to the defeated coal SCADA supervisory system of long-distance pipe.

Background technology

First generation monitoring technique is the transmission mode of " one to one ", and namely each measuring point will have a pair of private cable to come the transmission of data, CMM-20 system of the CTT63 of representative is France's sixties in last century/40 systems and Poland; Second on behalf of the frequency division system transmission system, namely by the frequency partition information channel, and the representative TF2 system that surely belongs to the release of West Germany H+F company; Begin to occur processor system 70～eighties, the nineties occurs many matchmakers system and Digital Video System, 21 century Video Supervision Technique entered the management of the whole industry.The enterprise safety operation monitoring and controlling system begins to be applied to coal enterprises in China since 2000, and prior art exists the usable range face narrow, only the defective of applicable mining area and the monitoring of downhole safety production monitoring.

Summary of the invention

The purpose of this utility model provides a kind of rational in infrastructure, and is easy to use, safety, reliable, and adopting programmable logic controller (PLC) is the defeated coal SCADA monitoring system device of long-distance pipe of all fronts supervisory control and data aquisition system of core.

In order to overcome the deficiencies in the prior art, the technical solution of the utility model is to solve like this: the SCADA monitoring system device of the defeated coal of a kind of long-distance pipe comprises Surveillance center, the computer management net, the gateway fire wall, the network printer, the configuration management engineer station, the SCADA active station, data acquisition server, in real time/the historical data acquisition server, the monitor data disk array, Web server, DMS maintenance work station, the DMS data server, router, satellite receiver, water stop control station PLC switch board, son control station, pressure detection station PLC switch board, the slurrying engineer station, the slurrying operator station, pump station engineering teacher station, the pumping plant operator station, slurrying PLC master control cabinet, slurrying PLC I/O cabinet, pumping plant PLC master control cabinet, pumping plant PLC I/O cabinet, water attack protection PLC master control cabinet, terminal engineer station, the terminal operator station, the head end management equipment, surge bunker transformer station communication management equipment, pumping plant transformer station communication management equipment, one-end substation, the drying plant, terminal management apparatus, water plant, slip house electric substation communication management equipment, pumping plant transformer station communication management equipment, the dehydration workshop, production system, Terminal Substation communication management equipment, 2.5Gbps with 155Mbps Optical Fiber Transmission channel, special character of the present invention is described the first Surveillance center, the second Surveillance center, the enterprise computer managerial grid is connected with control net gateway fire wall; The two ends of wherein said control net gateway fire wall are connected with the two ends of a network printer, configuration management engineer station, SCADA active station, another network printer, a data acquisition server, another data acquisition server, a real-time/historical data acquisition server, another real-time/historical data acquisition server, Web server, DMS maintenance work station, the 3rd network printer, DMS data server respectively successively; Described one real-time/historical data acquisition server, another real-time/historical data acquisition server are connected with the monitor data disk array; Between a described data acquisition server, another data acquisition server, described one in real time/the historical data acquisition server, another in real time/also be connected with No. 1 router, No. 1 standby router respectively between historical data acquisition server; Described No. 1 standby router is connected with No. 1 satellite receiver; Described No. 1 router, No. 1 standby router other end and 2.5Gbps are connected end and are connected with the 155Mbps channel; Described 2.5Gbps is connected end and also is connected with No. 2 routers, No. 3 routers, No. 4 routers, No. 5 routers, No. 6 routers, No. 7 routers, No. 8 routers, No. 9 routers, No. 2 standby routers, No. 3 standby routers, No. 4 standby routers, No. 5 standby routers, No. 6 standby routers, No. 7 standby routers, No. 8 standby routers, No. 9 standby router one ends respectively successively with the 155Mbps channel; Described No. 3 standby routers, No. 3 standby routers, No. 4 standby routers, No. 5 standby routers, No. 6 standby routers, No. 7 standby routers, No. 8 standby routers, No. 9 standby router one ends are connected with No. 2 satellite receivers, No. 3 satellite receivers, No. 4 satellite receivers, No. 5 satellite receivers, No. 6 satellite receivers, No. 7 satellite receivers, No. 8 satellite receivers, No. 9 satellite receivers respectively successively; The synchronous optical fiber transmission channel of described SDH is connected with water stop control station PLC switch board, son control station, 1～No. 27 pressure detection station PLC switch board, No. 5 pumping plant fire-fightings control station PLC switch board respectively successively; Described No. 2 routers, No. 2 standby router other ends are connected with water attack protection PLC master control cabinet, No. 1 pumping plant PLC master control cabinet, slurrying PLC master control cabinet, slurrying engineer station, slurrying operator station, No. 1 pump station engineering teacher station, No. 1 pumping plant operator station, the 4th network printer respectively successively; Described slurrying PLC master control cabinet is connected with slurrying PLC I/O cabinet; Described No. 3 routers, No. 3 standby router other ends are connected with No. 2 pumping plant PLC master control cabinets, No. 2 pump station engineering teacher stations, No. 2 pumping plant operator stations, the 5th network printers respectively successively; Described No. 2 pumping plant PLC master control cabinets are connected with No. 2 pumping plant PLC I/O cabinets; Described No. 4 routers, No. 4 standby router other ends are connected with No. 3 pumping plant PLC master control cabinets, No. 3 pump station engineering teacher stations, No. 3 pumping plant operator stations, the 6th network printers respectively successively; Described No. 3 pumping plant PLC master control cabinets are connected with No. 3 pumping plant PLC I/O cabinets; Described No. 5 routers, No. 5 standby router other ends are connected with No. 4 pumping plant PLC master control cabinets, No. 4 pump station engineering teacher stations, No. 4 pumping plant operator stations, the 7th network printers respectively successively; Described No. 4 pumping plant PLC master control cabinets are connected with No. 4 pumping plant PLC I/O cabinets; Described No. 6 routers, No. 6 standby router other ends are connected with No. 5 pumping plant PLC master control cabinets, No. 5 pump station engineering teacher stations, No. 5 pumping plant operator stations, the 8th network printers respectively successively; Described No. 5 pumping plant PLC master control cabinets are connected with No. 5 pumping plant PLC I/O cabinets; Described No. 7 routers, No. 7 standby router other ends are connected with No. 6 pumping plant PLC master control cabinets, No. 6 pumping plant dehydration workshop PLC master control cabinets, No. 5 pumping plant dehydration engineer stations, No. 5 pumping plant dehydrating operations person stations, No. 6 pump station engineering teacher stations, No. 6 pumping plant operator stations, the 9th network printers respectively successively; Described No. 6 pumping plants dehydration workshop PLC master control cabinet is connected with No. 6 pumping plant PLC I/O cabinets; Described No. 6 pumping plant PLC master control cabinets are connected with No. 6 pumping plant PLC I/O cabinets; Described No. 8 routers, No. 8 standby router other ends are connected with No. 2 terminal PLC master control cabinets, No. 2 terminal engineer stations, No. 2 terminal operator stations, the tenth network printers respectively successively; Described No. 2 terminal PLC master control cabinets are connected with No. 2 terminal PLC I/O cabinets; Described No. 9 routers, No. 9 standby router other ends are connected with No. 3 terminal PLC master control cabinets, No. 3 terminal engineer stations, No. 3 terminal operator stations, the 11 network printers respectively successively; Described No. 3 terminal PLC master control cabinets are connected with No. 3 terminal PLC I/O cabinets; Described 2.5Gbps is connected with the 155Mbps channel and also is connected with water plant, head end management equipment, slip house electric substation communication management equipment, surge bunker transformer station communication management equipment, 1～No. 6 pumping plant 6KV transformer station communication management equipment, 1～No. 5 pumping plant 35kV transformer station communication management equipment, dehydration workshop, production system, No. 1 one-end substation, drying plant, No. 3 Terminal Substation communication management equipment, No. 2 terminal management apparatus respectively.

The network of described computer management net is comprised of Information Level, key-course and mechanical floor.

Description of drawings

Fig. 1 is structural representation of the present utility model.

Embodiment

Accompanying drawing is embodiment of the present utility model.

Below in conjunction with accompanying drawing content of the present utility model is described in further detail:

With reference to shown in Figure 1, the SCADA monitoring system device of the defeated coal of a kind of long-distance pipe comprises Surveillance center, the computer management net, the gateway fire wall, the network printer, the configuration management engineer station, the SCADA active station, data acquisition server, in real time/the historical data acquisition server, the monitor data disk array, Web server, DMS maintenance work station, the DMS data server, router, satellite receiver, water stop control station PLC switch board, son control station, pressure detection station PLC switch board, the slurrying engineer station, the slurrying operator station, pump station engineering teacher station, the pumping plant operator station, slurrying PLC master control cabinet, slurrying PLC I/O cabinet, pumping plant PLC master control cabinet, pumping plant PLC I/O cabinet, water attack protection PLC master control cabinet, terminal engineer station, the terminal operator station, the head end management equipment, surge bunker transformer station communication management equipment, pumping plant transformer station communication management equipment, one-end substation, the drying plant, terminal management apparatus, water plant, slip house electric substation communication management equipment, pumping plant 35KV transformer station communication management equipment, the dehydration workshop, production system, Terminal Substation communication management equipment, 2.5Gbps with 155Mbps Optical Fiber Transmission channel, wherein said the first Surveillance center 1, the second Surveillance center 2, enterprise computer managerial grid 3 is connected with control net gateway fire wall 4; The two ends of wherein said control net gateway fire wall 4 are connected with the two ends of a network printer 5, configuration management engineer station 6, SCADA active station 7, another network printer 5, a data acquisition server 8, another data acquisition server 9, a real-time/historical data acquisition server 10, another real-time/historical data acquisition server 11, Web server 13, DMS maintenance work station 14, the 3rd network printer 5, DMS data server 15 respectively successively; Described one real-time/historical data acquisition server 10, another real-time/historical data acquisition server 11 are connected with monitor data redundant array of inexpensive disks 12; Between a described data acquisition server 8, another data acquisition server 9, described one in real time/historical data acquisition server 10, another in real time/also be connected with No. 1 router one 6, No. 1 standby router 17 respectively between historical data acquisition server 11; Described No. 1 standby router 17 is connected with No. 1 satellite receiver 18; Described No. 1 router one 6, No. 1 standby router 17 other end and 2.5Gbps channel 75 are connected an end and are connected with the 155Mbps channel; Described 2.5Gbps channel 75 is connected the other end and also is connected with No. 2 router ones 6, No. 3 router ones 6, No. 4 router ones 6, No. 5 router ones 6, No. 6 router ones 6, No. 7 router ones 6, No. 8 router ones 6, No. 9 router ones 6, No. 2 standby routers 17, No. 3 standby routers 17, No. 4 standby routers 17, No. 5 standby routers 17, No. 6 standby routers 17, No. 7 standby routers 17, No. 8 standby routers 17, No. 9 standby router 17 1 ends respectively successively with the 155Mbps channel; Described No. 3 standby routers 17, No. 4 standby routers 17, No. 5 standby routers 17, No. 6 standby routers 17, No. 7 standby routers 17, No. 8 standby routers 17, No. 9 standby router 17 1 ends are connected with No. 2 satellite receivers 18, No. 3 satellite receivers 18, No. 4 satellite receivers 18, No. 5 satellite receivers 18, No. 6 satellite receivers 18, No. 7 satellite receivers 18, No. 8 satellite receivers 18, No. 9 satellite receivers 18 respectively successively; The synchronous optical fiber transmission channel 76 of described SDH is connected with 20, No. 5 pumping plant fire-fightings of water stop control station 19,1～No. 27 pressure detection station of PLC switch board control station PLC switch board control station PLC switch board 46 respectively successively; Described No. 2 router ones 6, No. 2 standby router 17 other ends are connected with stand 23, No. 1 pumping plant operator stations 24, the 4th network printers 5 of 29, No. 1 pumping plant PLC master control of water attack protection PLC master control cabinet cabinet 27, slurrying PLC master control cabinet 25, slurrying engineer station 21, slurrying operator station 22, No. 1 pump station engineering teacher respectively successively; Described slurrying PLC master control cabinet 25 is connected with slurrying PLC I/O cabinet 26; Described No. 3 router ones 6, No. 3 standby router 17 other ends are connected with stand 30, No. 2 pumping plant operator stations 31, the 5th network printers 5 of 32, No. 2 pump station engineering teachers of No. 2 pumping plant PLC master control cabinets respectively successively; Described No. 2 pumping plant PLC master control cabinets 32 are connected with No. 2 pumping plant PLC I/O cabinets 33; Described No. 4 router ones 6, No. 4 standby router 17 other ends are connected with stand 34, No. 3 pumping plant operator stations 35, the 6th network printers 5 of 36, No. 3 pump station engineering teachers of No. 3 pumping plant PLC master control cabinets respectively successively; Described No. 3 pumping plant PLC master control cabinets (36) are connected with No. 3 pumping plant PLC I/O cabinets (37); Described No. 5 router ones 6, No. 5 standby router 17 other ends are connected with stand 38, No. 4 pumping plant operator stations 39, the 7th network printers 5 of 40, No. 4 pump station engineering teachers of No. 4 pumping plant PLC master control cabinets respectively successively; Described No. 4 pumping plant PLC master control cabinets 40 are connected with No. 4 pumping plant PLC I/O cabinets 41; Described No. 6 router ones 6, No. 6 standby router 17 other ends are connected with stand 42, No. 5 pumping plant operator stations 43, the 8th network printers 5 of 44, No. 5 pump station engineering teachers of No. 5 pumping plant PLC master control cabinets respectively successively; Described No. 5 pumping plant PLC master control cabinets 44 are connected with No. 5 pumping plant PLC I/O cabinets 45; Described No. 7 router ones 6, No. 7 standby router 17 other ends are connected with 51, No. 5 pumping plants dehydrations of 53, No. 6 pumping plants dehydrations of No. 6 pumping plant PLC master control cabinets workshop PLC master control cabinet engineer station 47, No. 5 pumping plant dehydrating operations persons stand 49, No. 6 pumping plant operator stations 50, the 9th network printers 5 of 48, No. 6 pump station engineering teachers of standing respectively successively; Described No. 6 pumping plants dehydration workshop PLC master control cabinet 51 is connected with No. 6 pumping plant PLC I/O cabinets 52; Described No. 6 pumping plant PLC master control cabinets 53 are connected with No. 6 pumping plant PLC I/O cabinets 54; Described No. 8 router ones 6, No. 8 standby router 17 other ends are connected with 57, No. 2 terminal engineer stations 55 of No. 2 terminal PLC master control cabinets, No. 2 terminal operators the 56, the tenth network printer 5 of standing respectively successively; Described No. 2 terminal PLC master control cabinets 57 are connected with No. 2 terminal PLC I/O cabinets 58; Described No. 9 router ones 6, No. 9 standby router 17 other ends are connected with 61, No. 3 terminal engineer stations 59 of No. 3 terminal PLC master control cabinets, No. 3 terminal operators the 60, the 11 network printer 5 of standing respectively successively; Described No. 3 terminal PLC master control cabinets 61 are connected with No. 3 terminal PLC I/O cabinets 62; Described 2.5Gbps is connected with the 155Mbps pipeline successively and also is connected with water plant 69, head end management equipment 63, slip house electric substation communication management equipment 70,71,1～No. 5 pumping plant 35KV transformer station of communication management equipment of 64,1～No. 6 pumping plant 6KV transformer station of surge bunker transformer station communication management equipment communication management equipment 65, dehydration workshop 72, production system 73, No. 1 one-end substation 66, drying plant 67,74, No. 2 terminal management apparatus 68 of No. 3 Terminal Substation communication management equipment respectively.

The network of described computer management net is comprised of Information Level, key-course and mechanical floor.

The technical scheme of three grades of controls

1) one-level control, i.e. control center's control: monitoring station at the corresponding levels is located at Master Control Center, bears pipeline defeated coal along the line, slurrying, pumping plant, dewaters, blocks the monitoring that station and 29 son control stations were controlled in valve chamber, pressure detection and water supply etc. in 10 minutes.The SCADA system of control center is connected with the control system of each website through communication channel, realizes the Centralized Monitoring to each website of a distant place.

2) secondary control, i.e. website control: monitoring station at the corresponding levels is located at each website, pressure detection station and pumping plant, bears the automatic/hand control of website and the control of control block valve for pipeline far away, transmits data and receives instruction to control center.

3) three grades of controls, i.e. on the spot control: the on the spot control of each website single devices, piston pump subsystem and valve is born in monitoring at the corresponding levels.

The working method of three grades of controls

When 1) convey coal pipe normally moves, concentrate supervision by the regulation and control center, control and management and running;

2) when communication channel or regulation and control central apparatus break down, or between turn(a)round, each website control system is finished the monitoring to this website, after communication channel was recovered or regulated and control the normal operation of central apparatus, the monitor data during each website control system is stopped transport the regulation and control center was uploaded to the regulation and control center;

3) when station control system stops transport or stop in emergency, start on the spot control system completely.

Embodiment 1

The structure of Information Level: mainly by SDH equipment, industrial ethernet switch, operator station, engineer station, in real time/historic data server, data acquisition server, Web server and router etc. form, employing is based on the gridding technique of 1000Mbps TCP/IP Ethernet, and supervisory layers adopts iFIX monitor supervision platform software.

The structure of key-course: this layer integrates the information interchange between the information interchange between the processor, processor and the input/output interface, realize that by the PLC controller in real time control of I/O and message transmit, thereby real-time and the accuracy of control information have been guaranteed, and make this layer possess ability with third party's network connection, be connected as waiting with the Modbus net, RSLOGIX5000 software and RSLOGIX500 software have been adopted respectively in the programming at minute control station and son control station.

The structure of mechanical floor: this layer adopts hardwire or by the DeviceNet net, and the process equipment of bottom, frequency converter, instrument and meter etc. are directly linked to each other employing RSNetWorx for DeviceNet software programming with field control station.

Realization of the present utility model is not subjected to the restriction of aforesaid way; as long as the various improvement of having adopted device design of the present utility model and technical scheme to carry out; or without improving design of the present utility model and technical scheme are directly applied to other occasion, all in protection domain of the present utility model.

Claims (2)

1. the SCADA supervisory system of the defeated coal of a long-distance pipe, this supervisory system comprises Surveillance center, the computer management net, the gateway fire wall, the network printer, the configuration management engineer station, the SCADA active station, data acquisition server, in real time/the historical data acquisition server, the monitor data disk array, Web server, DMS maintenance work station, the DMS data server, router, satellite receiver, water stop control station PLC switch board, son control station, pressure detection station PLC switch board, the slurrying engineer station, the slurrying operator station, pump station engineering teacher station, the pumping plant operator station, slurrying PLC master control cabinet, slurrying PLC I/O cabinet, pumping plant PLC master control cabinet, pumping plant PLC I/O cabinet, water attack protection PLC master control cabinet, terminal engineer station, the terminal operator station, the head end management equipment, surge bunker transformer station communication management equipment, pumping plant transformer station communication management equipment, one-end substation, the drying plant, terminal management apparatus, water plant, slip house electric substation communication management equipment, pumping plant transformer station communication management equipment, the dehydration workshop, production system, Terminal Substation communication management equipment, 2.5Gbps with the synchronous optical fiber transmission channel of 155Mbps, it is characterized in that described the first Surveillance center (1), the second Surveillance center (2), enterprise computer managerial grid (3) is connected with control net gateway fire wall (4); The two ends of wherein said control net gateway fire wall (4) successively respectively with a network printer (5), configuration management engineer station (6), SCADA active station (7), another network printer (5), one data acquisition server (8), another data acquisition server (9), one real-time/historical data acquisition server (10), another real-time/historical data acquisition server (11), Web server (13), DMS maintenance work station (14), the 3rd network printer (5), the two ends of DMS data server (15) connect; Described one real-time/historical data acquisition server (10), another real-time/historical data acquisition server (11) are connected with monitor data disk array (12); Reach between a described data acquisition server (8), another data acquisition server (9) between described one real-time/historical data acquisition server (10), another real-time/historical data acquisition server (11) and also be connected with No. 1 router (16), No. 1 standby router (17) respectively; Described No. 1 standby router (17) is connected with No. 1 satellite receiver (18); Described No. 1 router (16), No. 1 standby router (17) other end are connected 76 with 2.5Gbps channel (75) with the 155Mbps channel) end is connected; Described 2.5Gbps channel (75) and 155Mbps channel (76) one ends successively respectively also with No. 2 routers (16), No. 3 routers (16), No. 4 routers (16), No. 5 routers (16), No. 6 routers (16), No. 7 routers (16), No. 8 routers (16), No. 9 routers (16), No. 2 standby routers (17), No. 3 standby routers (17), No. 4 standby routers (17), No. 5 standby routers (17), No. 6 standby routers (17), No. 7 standby routers (17), No. 8 standby routers (17), No. 9 standby router (17) one ends connect; Described No. 3 standby routers (17), No. 4 standby routers (17), No. 5 standby routers (17), No. 6 standby routers (17), No. 7 standby routers (17), No. 8 standby routers (17), No. 9 standby router (17) one ends successively respectively with No. 2 satellite receivers (18), No. 3 satellite receivers (18), No. 4 satellite receivers (18), No. 5 satellite receivers (18), No. 6 satellite receivers (18), No. 7 satellite receivers (18), No. 8 satellite receivers (18), No. 9 satellite receivers (18) connect; The synchronous optical fiber transmission channel of described SDH (76) is connected with water stop control station PLC switch board (19), son control station, 1～No. 27 pressure detection station PLC switch board (20), No. 5 pumping plant fire-fightings son control station PLC switch board (46) respectively successively; Described No. 2 routers (16), No. 2 standby routers (17) other end are connected with water attack protection PLC master control cabinet (29), No. 1 pumping plant PLC master control cabinet (27), slurrying PLC master control cabinet (25), slurrying engineer station (21), slurrying operator station (22), No. 1 pump station engineering teacher station (23), No. 1 pumping plant operator station (24), the 4th network printer (5) respectively successively; Described slurrying PLC master control cabinet (25) is connected with slurrying PLC I/O cabinet (26); Described No. 3 routers (16), No. 3 standby routers (17) other end are connected with No. 2 pumping plant PLC master control cabinets (32), No. 2 pump station engineering teacher station (30), No. 2 pumping plant operator stations (31), the 5th network printers (5) respectively successively; Described No. 2 pumping plant PLC master control cabinets (32) are connected with No. 2 pumping plant PLC I/O cabinets (33); Described No. 4 routers (16), No. 4 standby routers (17) other end are connected with No. 3 pumping plant PLC master control cabinets (36), No. 3 pump station engineering teacher station (34), No. 3 pumping plant operator stations (35), the 6th network printers (5) respectively successively; Described No. 3 pumping plant PLC master control cabinets (36) are connected with No. 3 pumping plant PLC I/O cabinets (37); Described No. 5 routers (16), No. 5 standby routers (17) other end are connected with No. 4 pumping plant PLC master control cabinets (40), No. 4 pump station engineering teacher station (38), No. 4 pumping plant operator stations (39), the 7th network printers (5) respectively successively; Described No. 4 pumping plant PLC master control cabinets (40) are connected with No. 4 pumping plant PLC I/O cabinets (41); Described No. 6 routers (16), No. 6 standby routers (17) other end are connected with No. 5 pumping plant PLC master control cabinets (44), No. 5 pump station engineering teacher station (42), No. 5 pumping plant operator stations (43), the 8th network printers (5) respectively successively; Described No. 5 pumping plant PLC master control cabinets (44) are connected with No. 5 pumping plant PLC I/O cabinets (45); Described No. 7 routers (16), No. 7 standby routers (17) other end are connected with No. 6 pumping plant PLC master control cabinets (53), No. 6 pumping plant dehydration workshop PLC master control cabinets (51), No. 5 pumping plant dehydration engineer stations (47), No. 5 pumping plant dehydrating operations person stations (48), No. 6 pump station engineering teacher station (49), No. 6 pumping plant operator stations (50), the 9th network printers (5) respectively successively; Described No. 6 pumping plants dehydration workshop PLC master control cabinets (51) are connected with No. 6 pumping plant PLC I/O cabinets (52); Described No. 6 pumping plant PLC master control cabinets (53) are connected with No. 6 pumping plant PLC I/O cabinets (54); Described No. 8 routers (16), No. 8 standby routers (17) other end are connected with No. 2 terminal PLC master control cabinets (57), No. 2 terminal engineer stations (55), No. 2 terminal operator stations (56), the tenth network printer (5) respectively successively; Described No. 2 terminal PLC master control cabinets (57) are connected with No. 2 terminal PLC I/O cabinets (58); Described No. 9 routers (16), No. 9 standby routers (17) other end are connected with No. 3 terminal PLC master control cabinets (61), No. 3 terminal engineer stations (59), No. 3 terminal operator stations (60), the 11 network printer (5) respectively successively; Described No. 3 terminal PLC master control cabinets (61) are connected with No. 3 terminal PLC I/O cabinets (62); Described 2.5Gbps channel (75) and 155Mbps channel (76) successively also respectively with water plant (69), management equipment (63), slip house electric substation communication management equipment (70), surge bunker transformer station communication management equipment (64), 1～No. 6 pumping plant transformer station communication management equipment (71), 1～No. 5 pumping plant 35kV transformer station communication management equipment (65), dehydration workshop (72), production system (73), No. 1 one-end substation (66), drying plant (67), No. 3 Terminal Substation communication management equipment (74), No. 2 terminal management apparatus (68) connect.

2. the defeated coal SCADA supervisory system of long-distance pipe according to claim 1 is characterized in that the network of described computer management net is comprised of Information Level, key-course and mechanical floor.