CN211019034U - Ship-shore wireless communication device for operation and maintenance of submarine cables of strait - Google Patents
Ship-shore wireless communication device for operation and maintenance of submarine cables of strait Download PDFInfo
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- CN211019034U CN211019034U CN201921817668.XU CN201921817668U CN211019034U CN 211019034 U CN211019034 U CN 211019034U CN 201921817668 U CN201921817668 U CN 201921817668U CN 211019034 U CN211019034 U CN 211019034U
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Abstract
The utility model discloses a ship bank wireless communication device for the operation and maintenance of submarine cables of the strait, which comprises a ship-borne terminal, a ship-borne exchanger, a ship-borne WiMAX base station, a shore-based WiMAX base station positioned at one side of the strait, a first exchanger and a first remote control terminal, and a second exchanger and a second remote control terminal positioned at the other side of the strait; the shipborne terminal is in communication connection with the shipborne WiMAX base station through the switch, the shipborne WiMAX base station is in wireless communication connection with the shore-based WiMAX base station, the shore-based WiMAX base station is in communication connection with the remote control terminal through the switch I, the switch I is in communication connection with the switch II through the optical cable bundled on the submarine cable, and the switch II is in communication connection with the remote control terminal. The utility model discloses a ship bank wireless communication device for strait submarine cable fortune dimension can realize that marine operation personnel and land personnel carry out instant, effective, fast-speed communication.
Description
Technical Field
The utility model relates to a submarine cable fortune dimension technical field, concretely relates to ship bank wireless communication device for submarine cable fortune dimension.
Background
The north end of the 500kV submarine cable of the Hippocampus in Qin province starts from the corner south of the lamp building in Xuwen county in Guangdong province, and the south end of the 500kV submarine cable reaches the corner-covered Lin Shi village in Chengmi county in Hainan province, is a unique channel for connecting a southern main network and a Hainan power grid, and has important significance for safe and stable operation of the Hainan power grid and improvement of power quality. The whole submarine cable route is 31km in the north-south direction, and the widest part in the east-west direction is about 2 km.
During the process of carrying out the relevant work of the sea cable operation and maintenance such as sea cable patrol, sea cable emergency treatment and sea cable detection, the sea cable operation and maintenance personnel need to keep communication with onshore technicians in real time to obtain the latest data and information, so that the relevant work of the sea can be opened more quickly and better.
Due to the large routing range and the long distance between the south and north, mobile phone calls and network signals can not be used in most ranges of the protection area, particularly in the middle section of the protection area, and offshore operators and onshore personnel can not carry out instant, effective and high-speed communication.
On one hand, the main risk of submarine cable operation is ship anchoring external force damage, and submarine cable operation and maintenance personnel not only need to monitor ship dynamics in a protected area through a background radar monitoring system for 24h, but also need field personnel to board and go out of the sea for field disposal when finding that the ship protected area is anchored. The whole field disposal process can be completed safely, efficiently and high-quality by the mutual communication and cooperation of the background monitoring personnel and the field disposal personnel in the whole process.
On the other hand, in the submarine cable detection process, after equipment is collected and released, debugging and submarine cable detection are carried out on a ship by marine operators, the obtained detection data cannot be remotely transmitted to land in real time and is processed by the marine operators, the marine operators can go off the ship to carry out centralized processing after all marine operations are finished, detection abnormity and data unqualified points cannot be found in time, field timely compensation and detection are difficult, reworking is repeated, the overall detection efficiency is reduced, and the cost is increased.
SUMMERY OF THE UTILITY MODEL
To above problem, the utility model provides a ship bank wireless communication device for strait submarine cable fortune dimension can realize that marine operation personnel and land personnel carry out instant, effective, fast-speed communication.
In order to achieve the above object, the utility model adopts the following technical scheme:
a ship-shore wireless communication device for operation and maintenance of submarine cables of a strait comprises a ship-borne terminal, a ship-borne exchanger, a ship-borne WiMAX base station, a shore-based WiMAX base station positioned on one shore of the strait, a first exchanger and a first remote control terminal, and a second exchanger and a second remote control terminal positioned on the other shore of the strait; the shipborne terminal is in communication connection with the shipborne WiMAX base station through the switch, the shipborne WiMAX base station is in wireless communication connection with the shore-based WiMAX base station, the shore-based WiMAX base station is in communication connection with the remote control terminal through the switch I, the switch I is in communication connection with the switch II through the optical cable bundled on the submarine cable, and the switch II is in communication connection with the remote control terminal.
Further, it is characterized in that: the shipborne terminal comprises a high-definition camera ball machine and a language scheduling handheld terminal.
Furthermore, the first remote control terminal and the first remote control terminal both comprise a testing computer and voice equipment.
Compared with the prior art, the beneficial effects of the utility model reside in that:
this application is through the long distance wireless communication mode based on WiMAX, signal and the wireless transmission on the bank such as marine pronunciation, the image, video, make the marine operation personnel in the submarine cable protection zone can keep in touch with the personnel on the bank in real time, fast and high-quality ground with the pronunciation on the spot, the image, signal transmission to personnel on the bank such as video, for personnel's cooperation work provides the basic condition, the work efficiency of the emergent processing of submarine cable cast anchor scene and submarine cable detection operation in the submarine cable fortune dimension work has been improved, important communication technology guarantee is provided for submarine cable fortune dimension work, it has important meaning to the safe and stable operation of submarine cable.
Drawings
Fig. 1 is a schematic structural view of the present invention;
description of reference numerals: 1-a shipborne terminal; 2-an on-board switch; 3-shipborne WiMAX base station; 4-shore-based WiMAX base stations; 5, a first switch; 6-remote control terminal one; 7-an optical cable; 8, a second switch; 9-remote control terminal two.
Detailed Description
In order to make the above objects, features and advantages of the present invention more comprehensible, the present invention is described in detail with reference to the accompanying drawings and the detailed description.
As shown in fig. 1, a ship-shore wireless communication device for operation and maintenance of an ocean bottom cable includes a ship-borne terminal 1, a ship-borne switch 2, a ship-borne WiMAX base station 3, a shore-based WiMAX base station 4, a switch one 5, a remote control terminal one 6, an optical cable 7, a switch two 8 and a remote control terminal two 9.
The shipborne terminal 1, the shipborne exchanger 2 and the shipborne WiMAX base station 3 are all arranged on a maintenance ship, the shore-based WiMAX base station 4, the first exchanger 5 and the first remote control terminal 6 are positioned on one side of the strait, the second exchanger 8 and the second remote control terminal 9 are positioned on the other side of the strait, and the optical cable 7 is bound on the submarine cable and is used for connecting the first exchanger 5 and the second exchanger 8 on the two sides of the strait.
Shipborne terminal 1 includes high definition camera ball machine and language scheduling handheld terminal etc. for gather signals such as marine pronunciation, image, video, transmit to remote control terminal 6 through switch 2, shipborne WiMAX basic station 3, bank base WiMAX basic station 4 and switch 5, remote control terminal 6 includes test computer and voice equipment, can monitor whole on-the-spot processing process, and handle the data of gathering, real-time and on-the-spot processing personnel communicate, so, backstage control personnel and on-the-spot processing personnel can communicate the cooperation each other in whole journey, thereby safety, high efficiency, high-quality completion fortune dimension work.
Meanwhile, signals such as marine voice, images and videos collected by the shipborne terminal 1 are transmitted to a second remote control terminal 9 on the other bank through the optical cable 7 and the second exchanger 8, and three-party intercommunication is achieved.
It is thus clear that the ship bank wireless communication device of this application, through the long distance wireless communication mode based on WiMAX, signal and the wireless transmission on the bank such as marine pronunciation, image, video have been realized, make the marine operation personnel in the submarine cable protection zone can keep in touch with the personnel on the bank in real time, signal transmission to personnel on the bank such as speech on scene, image, video fast and high-quality, provide basic condition for personnel's cooperation work, the work efficiency of the emergent processing in the submarine cable scene of breaking anchor and submarine cable detection operation in the submarine cable fortune dimension work has been improved, important communication technology guarantee is provided for submarine cable fortune dimension work, safe and stable operation to the submarine cable has important meaning.
The above detailed description is specific to possible embodiments of the present invention, and the embodiments are not intended to limit the scope of the present invention, and all equivalent implementations or modifications that do not depart from the scope of the present invention should be included within the scope of the present invention.
Claims (3)
1. A ship-shore wireless communication device for strait submarine cable maintenance, characterized in that: the system comprises a shipborne terminal, a shipborne switch, a shipborne WiMAX base station, a shore-based WiMAX base station positioned on one shore of the strait, a first switch and a first remote control terminal, and a second switch and a second remote control terminal positioned on the other shore of the strait; the shipborne terminal is in communication connection with the shipborne WiMAX base station through the switch, the shipborne WiMAX base station is in wireless communication connection with the shore-based WiMAX base station, the shore-based WiMAX base station is in communication connection with the remote control terminal through the switch I, the switch I is in communication connection with the switch II through the optical cable bundled on the submarine cable, and the switch II is in communication connection with the remote control terminal.
2. The ship-shore wireless communication device for strait submarine cable operations and maintenance according to claim 1, wherein: the shipborne terminal comprises a high-definition camera ball machine and a language scheduling handheld terminal.
3. The ship-shore wireless communication device for strait submarine cable operations and maintenance according to claim 1, wherein: the remote control terminal I and the remote control terminal I both comprise a test computer and voice equipment.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201921817668.XU CN211019034U (en) | 2019-10-25 | 2019-10-25 | Ship-shore wireless communication device for operation and maintenance of submarine cables of strait |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201921817668.XU CN211019034U (en) | 2019-10-25 | 2019-10-25 | Ship-shore wireless communication device for operation and maintenance of submarine cables of strait |
Publications (1)
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CN211019034U true CN211019034U (en) | 2020-07-14 |
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CN201921817668.XU Active CN211019034U (en) | 2019-10-25 | 2019-10-25 | Ship-shore wireless communication device for operation and maintenance of submarine cables of strait |
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2019
- 2019-10-25 CN CN201921817668.XU patent/CN211019034U/en active Active
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Effective date of registration: 20230802 Address after: 570000 Unit B, 14 #, Fortune Plaza, 103 Binhai Avenue, Haikou City, Hainan Province Patentee after: Haikou Branch of Guangzhou Bureau of China Southern Power Grid Co.,Ltd. Address before: 510663 Building 2, 223 science Avenue, Science City, Luogang District, Guangzhou City, Guangdong Province Patentee before: GUANGZHOU BUREAU OF EXTRA HIGH VOLTAGE TRANSMISSION COMPANY OF CHINA SOUTHERN POWER GRID Co.,Ltd. |