CN203520622U - Marine environment non-contact-type universal data collecting and transmitting system - Google Patents
Marine environment non-contact-type universal data collecting and transmitting system Download PDFInfo
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- CN203520622U CN203520622U CN201320687408.1U CN201320687408U CN203520622U CN 203520622 U CN203520622 U CN 203520622U CN 201320687408 U CN201320687408 U CN 201320687408U CN 203520622 U CN203520622 U CN 203520622U
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- signal coupler
- communication controller
- terminal communication
- data acquisition
- sensor data
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Abstract
The utility model discloses a marine environment non-contact-type universal data collecting and transmitting system. The marine environment non-contact-type universal data collecting and transmitting system consists of sensor data collecting and transmitting instruments and a terminal communication controller which are respectively fixed on a plastic wrap steel cable; the sensor data collecting and transmitting instruments are connected with underwater marine surveying sensors; the terminal communication controller is connected with a data recording transmitting instrument of an ocean observing platform; the sensor data collecting and transmitting instruments and the terminal communication controller are respectively internally provided with signal couplers which are formed by two semi-circular magnetic rings by butting joint via bolts; the plastic wrap steel cable penetrates through each signal coupler; two ends of the plastic wrap steel cable are communicated with seawater so as to form a coupling loop with seawater; the sensor data collecting and transmitting instruments collect observation data in real time, and the data are transmitted to the remote terminal communication controller by the signal transmitting and coupling loop; the terminal communication controller and the data recording transmitting instrument of the ocean observation platform connected with the terminal communication controller transmit data in real time.
Description
Technical field
The utility model relates to ocean measuring instrument, particularly relates to the data acquisition conveyor apparatus device of remote cordless.
Background technology
Large scale, many key elements, long sequential ocean underwater environment real-time monitored are the important means that builds modern marine environment stereoscopic monitoring net, and under the ocean water that comprises many key elements such as various temperature, conductivity, the degree of depth, chlorophyll, ocean current, sensing measurement system is the important component part of obtaining environmental data under ocean water.
The mode that under the ocean water of Real-time Obtaining large scale, many key elements, environmental data is taked is mainly by scientific investigation ship, to carry all kinds of measuring multiple parameters instruments to carry out periodic observation to far-reaching sea, and its advantage is that observation erect-position can randomly changing.But, its deficiency is also apparent: the one, and this mode is limited by weather effect, can not observe at any time, and the marine environment data sequential that it obtains is short, sample is few, be difficult to meet scientific research of seas, early warning of marine disasters, marine environmental protection, the demand of military marine environment guarantee to the instant data of marine environment; The 2nd, employ ship oceangoing voyage costly, during normalization observation, financial cost pressure is all affected voyage schedule, voyage in various degree.Therefore, flourishing maritime state mainly carries out at present and by all kinds ocean environment observation platform (buoy, subsurface buoy, sea bed observation platform), mutually supplements, constructs stereoscopic viewing survey grid and marine environment is carried out to normalization, the businessization observation of large scale, many key elements, long sequential in the world.
Under existing most of ocean water, environment measurement instrument self does not have the ability of long distance, big data quantity transmission, therefore when far-reaching maritime patrol is surveyed, under the ocean water that they are observed, environmental data can only be stored in the data recorder of self, cannot in real time observed data be grown under water to the transmission of distance.Simultaneously, because hardware interface, the software protocol of environment measurement instrument equipment are also different under country variant production, dissimilar ocean water, cause in actual use and do not have a kind of data transmission system under water that can be general to process and long Distance Transmission from different ocean measuring instruments compatibilities and by its observation data.
Fig. 1 shows that under existing ocean water, environment measurement instrument access ocean environment observation plateform system carries out the configuration state of measuring from holding.As shown in Figure 1, buoy at ocean environment observation platform 1 has been fixed the ocean measuring instrument 2 that different classes of self-tolerant is observed on mooring wirerope 3 different depths under water, the survey sensor of these ocean measuring instruments 2 is stored in environmental data under observed ocean water in the data recorder of ocean measuring instrument, cannot in real time observed data transmission be gone out.
Utility model content
, Long-range Data Transmission ability not real-time for environment measurement instrument under existing ocean water self, the utility model has been released the contactless universal data collection transmission system of marine environment, its object is to utilize the mooring of observation platform to mould Baogang's cable and seawater as transmission medium, by signal coupler, forms the long Distance Transmission that induction of signal coupling circuit completes data.
The contactless universal data collection transmission system of the disclosed marine environment of the utility model is comprised of sensor data acquisition transmission instrument and terminal communication controller, sensor data acquisition transmission instrument and terminal communication controller are separately fixed at moulding on Baogang's cable of mooring observation platform, sensor data acquisition transmission instrument is connected with ocean survey sensor under water, and terminal communication controller is connected with the data recording transmitter of observation platform.
Sensor data acquisition transmission instrument comprises signal coupler, data acquisition transport module, battery compartment, multiplex watertight socket, withstand voltage watertight housings, signal coupler, data acquisition transport module, battery compartment are placed in the withstand voltage watertight housings of cylindrical-shaped structure, data acquisition transport module connects battery compartment, multiplex watertight socket and signal coupler, and multiplex watertight socket is placed in withstand voltage watertight housings.
Terminal communication controller comprises signal coupler, communication control module, battery compartment, withstand voltage watertight housings, signal coupler, communication control module, battery compartment are placed in the withstand voltage watertight housings of cylindrical-shaped structure, and communication control module connects battery compartment and signal coupler.
In sensor data acquisition transmission instrument and terminal communication controller, respectively there is signal coupler.Signal coupler is docked and is formed by bolt by two semicircle magnet rings, and one of them is the semicircle magnet ring that is wound with enameled wire loop, on another semicircle magnet ring, there is no coiling.In terminal communication controller, the coil two ends of the semicircle magnet ring that is wound with coil of signal coupler are connected with communication control module, and in sensor data acquisition transmission instrument, the coil two ends of the semicircle magnet ring that is wound with coil of signal coupler are connected with data acquisition transport module.
When the contactless universal data collection transmission system of marine environment that the utility model relates to is applied, terminal communication controller and sensor data acquisition transmission instrument are fixed on and mould on Baogang's cable by securing member, and a plurality of sensor data acquisition transmission instruments connect the Ocean Surveying sensor of environment measurement instrument under all kinds of ocean water by multiplex watertight socket.Mould Baogang's cable and pass from each signal coupler, mould Baogang's cable two ends and seawater conducting, form coupling circuit with seawater.Sensor data acquisition transmission instrument is controlled the duty of environment measurement instrument under ocean water, Real-time Collection observation data is also transferred to terminal communication controller at a distance by signal transmission coupling circuit, and terminal communication controller sends data in real time by the data recording transmitter of connected observation platform.
The related contactless universal data collection transmission system of marine environment of the utility model is stuck in formation signal transmission the common of coupling circuit and moulds on Baogang's cable, the installation site of sensor data acquisition transmission instrument and quantity all can be carried out autonomous configuration according to the setting of environment measurement instrument under ocean water, have use flexibly, advantage easily.Its multiplex watertight socket is integrated international standard interface that current most of underwater environment surveying instruments such as standard RS232, RS485 widely adopt, has the peculiar advantage compatible high, usable range is large.
Accompanying drawing explanation
Fig. 1 is that under existing ocean water, environment measurement instrument carries out the configuration schematic diagram of measuring from holding;
Fig. 2 is the external structure schematic diagram of sensor data acquisition transmission instrument of the present utility model;
Fig. 3 is the external structure schematic diagram of terminal communication controller of the present utility model;
Fig. 4 is the configuration schematic diagram of survey sensor under the utility model and ocean water.
Description of symbols in figure:
1, ocean environment observation platform 2, ocean measuring instrument
3, mooring wirerope 4, seabed
5,6, multiplex watertight socket 7,8, securing member
9,10, withstand voltage watertight housings 11, data acquisition transport module
12, communication control module 13,14, battery compartment
15,16, signal coupler 17, terminal communication controller
18, Ocean Surveying sensor 19, sensor data acquisition transmission instrument
20, mould Baogang's cable
Embodiment
Below in conjunction with accompanying drawing, the technical solution of the utility model is further illustrated.
Fig. 2 and Fig. 3 show respectively the external structure of sensor data acquisition transmission instrument of the present utility model and terminal communication controller.Fig. 4 shows the configuration state of the utility model survey sensor under ocean environment observation platform and ocean water.
As shown in the figure, the contactless universal data collection transmission system of marine environment that the utility model relates to consists of sensor data acquisition transmission instrument 19 and terminal communication controller 17, sensor data acquisition transmission instrument 19 and terminal communication controller 17 are separately fixed at moulding on Baogang's cable 20 of mooring ocean environment observation platform, sensor data acquisition transmission instrument 19 is connected with Ocean Surveying sensor 18, and terminal communication controller 17 is connected with the data recording transmitter of ocean environment observation platform 1.
Sensor data acquisition transmission instrument 19 comprises signal coupler 15, data acquisition transport module 11, battery compartment 13, multiplex watertight socket 5, withstand voltage watertight housings 9, signal coupler 15, data acquisition transport module 11, battery compartment 13 is placed in the withstand voltage watertight housings 9 of cylindrical-shaped structure, data acquisition transport module 11 connects battery compartment 13, multiplex watertight socket 5 and signal coupler 15, multiplex watertight socket 5 is arranged on one end of withstand voltage watertight housings 9, signal coupler 15 is arranged on the other end of withstand voltage watertight housings 9, securing member 7 use bolts are fixed on the sidewall of withstand voltage watertight housings 9.
Terminal communication controller 17 comprises signal coupler 16, communication control module 12, battery compartment 14, multiplex watertight socket 6, signal coupler 16, withstand voltage watertight housings 10, communication control module 12, battery compartment 14 are placed in the withstand voltage watertight housings 10 of cylindrical-shaped structure, communication control module 12 connects battery compartment 14, signal coupler 16 and multiplex watertight socket 6, multiplex watertight socket 6 is arranged on one end of withstand voltage watertight housings 10, signal coupler 16 is arranged on the other end of withstand voltage watertight housings 10, and securing member 8 use bolts are fixed on the sidewall of withstand voltage watertight housings 10.
In sensor data acquisition transmission instrument 19 and terminal communication controller 17, there are respectively signal coupler 15 and signal coupler 16. Signal coupler 15,16 is docked and is formed by bolt by two semicircle magnet rings, and one of them is the semicircle magnet ring that is wound with enameled wire loop, on another semicircle magnet ring, there is no coiling.In terminal communication controller 17, the coil two ends of the semicircle magnet ring that is wound with coil of signal coupler 16 are connected with communication control module 12, and in sensor data acquisition transmission instrument 19, the coil two ends of the semicircle magnet ring that is wound with coil of signal coupler 15 are connected with data acquisition transport module 11.
When the contactless universal data collection transmission system of marine environment that the utility model relates to is applied, terminal communication controller 17 and sensor data acquisition transmission instrument 19 are fixed on and are moulded on Baogang's cable 20 by securing member 7,8 respectively, under all kinds of ocean water, environment measurement instrument is connected with sensor data acquisition transmission instrument 19 by multiplex watertight socket 5, and terminal communication controller 17 is connected with the data recording transmitter of ocean environment observation platform 1 by multiplex watertight socket 6.Mould Baogang's cable 20 and pass from each signal coupler, mould Baogang's cable 20 two ends and seawater conducting, form coupling circuit with seawater.Sensor data acquisition transmission instrument 19 is controlled the duty of environment measurement instrument under ocean water, and its observation data of Real-time Collection transmits coupling circuit via signal, is transferred to terminal communication controller 17 at a distance.Terminal communication controller 17 carries out bidirectional real-time with all sensor data acquisition transmission instruments 19 of moulding on Baogang's cable 20 that are fixed on, thereby realizes Real-time Obtaining length apart from the observation data function of surveying instrument under all kinds of ocean water of joining extension on wirerope.
Claims (4)
1. the contactless universal data collection transmission system of marine environment, it is characterized in that, by sensor data acquisition transmission instrument (19) and terminal communication controller (17), formed, sensor data acquisition transmission instrument (19) and terminal communication controller (17) are separately fixed at moulding on Baogang's cable (20) of mooring observation platform, sensor data acquisition transmission instrument (19) is connected with ocean survey sensor (18) under water, and terminal communication controller (17) is connected with the data recording transmitter of observation platform; Described sensor data acquisition transmission instrument (19) comprises signal coupler (15), data acquisition transport module (11), multiplex watertight socket (5), and data acquisition transport module (11) connects signal coupler (15) and multiplex watertight socket (5); Described terminal communication controller (17) comprises signal coupler (16), communication control module (12), multiplex watertight socket (6), and communication control module (12) connects signal coupler (16) and multiplex watertight socket (6); In described sensor data acquisition transmission instrument (19) and terminal communication controller (17), respectively there is signal coupler, signal coupler is docked and is formed by bolt by two semicircle magnet rings, mould Baogang's cable (20) passes from each signal coupler, mould Baogang's cable (20) two ends and seawater conducting, form coupling circuit with seawater.
2. the contactless universal data collection transmission system of marine environment according to claim 1, it is characterized in that, the signal coupler (15) that described sensor data acquisition transmission instrument (19) comprises and data acquisition transport module (11) are placed in the withstand voltage watertight housings (9) of cylindrical-shaped structure, multiplex watertight socket (5) is arranged on one end of withstand voltage watertight housings (9), and signal coupler (15) is arranged on the other end of withstand voltage watertight housings (9).
3. the contactless universal data collection transmission system of marine environment according to claim 1, it is characterized in that, the signal coupler (16) that described terminal communication controller (17) comprises and communication control module (12) are placed in the withstand voltage watertight housings (10) of cylindrical-shaped structure, multiplex watertight socket (6) is arranged on one end of withstand voltage watertight housings (10), and signal coupler (16) is arranged on the other end of withstand voltage watertight housings (10).
4. the contactless universal data collection transmission system of marine environment according to claim 1, it is characterized in that, two semicircle magnet rings of described signal coupler (5,6), one of them is the semicircle magnet ring that is wound with enameled wire loop, on another semicircle magnet ring, there is no coiling; In described terminal communication controller (17), the coil two ends of the semicircle magnet ring that is wound with coil of signal coupler (16) are connected with communication control module (12), and in described sensor data acquisition transmission instrument (19), the coil two ends of the semicircle magnet ring that is wound with coil of signal coupler (15) are connected with data acquisition transport module (11).
Priority Applications (1)
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CN201320687408.1U CN203520622U (en) | 2013-11-01 | 2013-11-01 | Marine environment non-contact-type universal data collecting and transmitting system |
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CN201320687408.1U CN203520622U (en) | 2013-11-01 | 2013-11-01 | Marine environment non-contact-type universal data collecting and transmitting system |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103544829A (en) * | 2013-11-01 | 2014-01-29 | 国家海洋技术中心 | Marine environment non-contact conventional data collecting and transmitting system |
CN111521260A (en) * | 2020-05-11 | 2020-08-11 | 上海海洋大学 | Detection system for underwater light field of fish gathering lamp |
CN114283976A (en) * | 2021-12-13 | 2022-04-05 | 中国科学院海洋研究所 | Underwater light wear-resistant tensile inductive coupling transmission cable |
US20240003862A1 (en) * | 2019-09-17 | 2024-01-04 | Eugene M. Lavely | Correction of internal wave effects on a propagating acoustic signal |
-
2013
- 2013-11-01 CN CN201320687408.1U patent/CN203520622U/en not_active Expired - Fee Related
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103544829A (en) * | 2013-11-01 | 2014-01-29 | 国家海洋技术中心 | Marine environment non-contact conventional data collecting and transmitting system |
US20240003862A1 (en) * | 2019-09-17 | 2024-01-04 | Eugene M. Lavely | Correction of internal wave effects on a propagating acoustic signal |
CN111521260A (en) * | 2020-05-11 | 2020-08-11 | 上海海洋大学 | Detection system for underwater light field of fish gathering lamp |
CN114283976A (en) * | 2021-12-13 | 2022-04-05 | 中国科学院海洋研究所 | Underwater light wear-resistant tensile inductive coupling transmission cable |
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C14 | Grant of patent or utility model | ||
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CF01 | Termination of patent right due to non-payment of annual fee | ||
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Granted publication date: 20140402 Termination date: 20171101 |