CN207074073U - Intelligent tidal level remote real time monitoring device - Google Patents
Intelligent tidal level remote real time monitoring device Download PDFInfo
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- CN207074073U CN207074073U CN201720601419.1U CN201720601419U CN207074073U CN 207074073 U CN207074073 U CN 207074073U CN 201720601419 U CN201720601419 U CN 201720601419U CN 207074073 U CN207074073 U CN 207074073U
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- clipper tube
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Abstract
It the utility model is related to monitoring system, disclose intelligent tidal level remote real time monitoring device, it includes pressure sensor (1), also include a plurality of clipper tube (3), pressure sensor (1) is arranged on clipper tube (3), also include solar power supply apparatus (7), digital altimeter (6) and central controller (8), solar power supply apparatus (7) is powered to digital altimeter (6) and central controller (8), the data that central controller (8) is connected with pressure sensor (1) and digital altimeter (6) and transmitted to it carry out the tide level data that analysis draws observation place marine site.The characteristics of the utility model has intelligence, automatic, accurate, continuous, collection in real time and sends tidal level information, can be the offer strong supports such as scientific research, ocean engineering construction, military affairs, Fairway navigation management, it is significant to tidal data collection, the storm tide research under extreme condition.
Description
Technical field
It the utility model is related to monitoring system, more particularly to intelligent tidal level remote real time monitoring device.
Background technology
Tidal level information is directly connected to the oceanographic researches such as oceanics, military oceanography and scientific research of seas
Every aspect.The tidal level information for quickly and accurately obtaining target marine site has very important significance.Currently used seawater tide
Position monitoring instrument mainly has pressure type tide gauge, float-type tide gauge, Acoustic Tide Gauge etc..But float-type tide gauge needs to beat
Tide gauge well, simplification are poor;Acoustic Tide Gauge is harsher to environmental requirement while freezed in winter sea is unable to tidal observation;And press
The manufacturing technology of power formula tide gauge is highly developed in itself, and instrument is very high to the accuracy of observation of tidal level in itself, but band
The tide gauge of ventilation cable using by having been limited, one, tracheae must be firm, if tracheal rupture makes seawater flow into tide register
Tide register can be burnt;2nd, due to there is tracheae to lead to bank or sea, cause tide register to lay and be unable to offshore farther out, tidal observation is deep
Degree will not be too deep, using being above restricted and absolute pressure formula tide gauge can both make wired equipment due to internal obstructed air,
Can also be used as self contained device, but its tidal level information measured be with atmospheric pressure and seawater pressure sum, be at it
The one synchronous work of atmospheric pressure detection device of configuration nearby, practical operation are got up also inconvenient.With scientific research of seas
The continuous progress developed with ocean engineering, to the simple of the ageing and persistence of tidal level monitoring, the portability of equipment and installation
Property, the accuracy of data and the intelligent and interactivity of monitoring propose new requirement, but current tidal observation technology is not yet full
Sufficient aforementioned claim.
The content of the invention
The utility model be directed to lack in the prior art ageing, persistence, the portability of equipment, installation simplification,
The shortcomings that accuracy of data and the intelligent of monitoring and interactivity, there is provided intelligent tidal level remote real time monitoring device.
In order to solve the above-mentioned technical problem, the utility model is addressed by following technical proposals:
Intelligent tidal level remote real time monitoring device, including pressure sensor, in addition to a plurality of clipper tube, each clipper tube pass through
Flange is connected, and pressure sensor is mounted on the clipper tube of bottom, in addition to solar power supply apparatus, digital altimeter
And central controller, solar power supply apparatus are powered to digital altimeter and central controller, central controller and pressure sensing
The data that device is connected with digital altimeter and transmitted to it carry out the tide level data that analysis draws observation place marine site, in addition to remote
Journey server and backup computer, include data processing module on backup computer, tide level data is sent to remotely by central controller
Tide level data is sent to backup computer by server, remote server by mail he, and backup computer receives tide level data and entered
Row backs up and tide level data is analyzed by data processing module.
Preferably, clipper tube includes the punching clipper tube below the water surface and the non-porous wave absorption above the water surface
Pipe.
Preferably, the tube wall in the vertical direction of punching clipper tube is provided with a diameter 5mm~10mm every 1000mm
Hole, adjacent holes positioned at punching clipper tube axis both sides.
Preferably, being provided with inner tube in punching clipper tube, inner tube is provided with a plurality of helicla flute to cave inward, helicla flute
Between spacing be 20mm~40mm, be additionally provided with the first hole and the second hole on helicla flute, the first hole is with the second hole in same spiral shell
It is arranged at intervals in spin slot, a diameter of 5mm~7mm in the first hole, a diameter of 2mm~4mm in the second hole.Pass through the spiral in inner tube
Groove can eliminate the influence of wave, coordinate the design buffering in the first hole and the second hole by there is the water that the hole on the clipper tube of hole enters
Stream.
Preferably, the inwall of punching clipper tube is provided with bulge loop, inner tube is provided with the annular groove coordinated with bulge loop.
Preferably, clipper tube is by etch-proof 316 steel stainless steel tube that more root long degree are respectively 2000mm and 3000mm
Connection forms.
Preferably, clipper tube external stability has water gauge piece, the external diameter of water gauge piece is 450mm~490mm, and internal diameter is
430mm~470mm, thickness are 7mm~13mm.
Preferably, pressure sensor diameter is not more than 30mm.
The utility model has significant technique effect as a result of above technical scheme:The utility model wave absorption
Pipe avoids excavation and the addressing limitation of tide gauge well, and digital altimeter is integrated into whole system, both make use of absolute pressure type to test
The institute of damp instrument is advantageous, the shortcomings that having evaded absolute pressure type tide register again, at the same again can independent output services ground Real-Time Atmospheric pressure
Value, can accurately measure tidal level value, substantially the not influence of the external condition such as climate, hydrology;Between solar electric power supply system provides not
Power is powered off, long-term unattended surveillance can be achieved.Intelligent system design, can be long-range according to weather condition and particular/special requirement
Control data gathers density;Unique burglary-resisting system design, it is ensured that the security of system;Energy-saving circuit design, make be
System volume greatly reduces, and power consumption greatly reduces, and the convenience of portability and installation greatly enhances.The system have intelligence, it is automatic,
Accurately, the characteristics of gathering continuously, in real time and send tidal level information, can be scientific research, ocean engineering construction, military, Fairway navigation pipe
The offer strong supports such as reason, it is significant to tidal data collection, the storm tide research under extreme condition.
Brief description of the drawings
Fig. 1 is structural representation of the present utility model.
Fig. 2 is Fig. 1 punching clipper tube and the structural representation of inner tube.
Fig. 3 is data acquisition structured flowchart of the present utility model.
Fig. 4 is data receiver program flow diagram of the present utility model.
Fig. 5 is interactive software program flow diagram of the present utility model.
The toponym that each number designation is referred in accompanying drawing is as follows:1-pressure sensor, 2-water gauge piece, 3-wave absorption
Pipe, 4-flange, 5-cable, 6-digital altimeter, 7-solar power supply apparatus, 8-central controller, 31-punching wave absorption
Pipe, 32-non-porous clipper tube, 33-inner tube, 311-hole, 312-bulge loop, 331-helicla flute, 332-annular groove, 3311-
First hole, the 3312-the second hole.
Embodiment
The utility model is described in further detail with embodiment below in conjunction with the accompanying drawings.
Embodiment 1
Intelligent tidal level remote real time monitoring device, as illustrated, including pressure sensor 1, in addition to a plurality of clipper tube 3,
Each clipper tube 3 is connected by flange 4, and the specification of flange 4 is installed in place for the hole heart away from 980mm, thickness 20mm, pressure sensor 1
In solar power supply apparatus 7, digital altimeter 6 and center on the clipper tube 3 of bottom, in addition on clipper tube 3
Controller 8, solar power supply apparatus 7 are powered to digital altimeter 6 and central controller 8, and central controller 8 is by positioned at wave absorption
Cable 5 in pipe 3 is connected with pressure sensor 1, and central controller 8 connects pressure sensor 1 and digital altimeter 6 and it is passed
The data sent carry out the tide level data that analysis draws observation place marine site, in addition to remote server and backup computer, backup electricity
Include data processing module on brain, tide level data is sent to remote server by central controller 8, and remote server is by tidal level number
Backup computer is sent to according to by mail he, backup computer receives tide level data and backed up and by data processing module pair
Tide level data is analyzed.
To ensure system work persistence, system has carried out high energy saving processing, and system standby electric current about 100uA is left
The right side, there are 3 pieces of high-performance lithium ion batteries inside central controller, in the case of fully charged, if collection one in default every 10 minutes
Secondary data, every 2 hours send a data, instrument can with normal acquisition, send data and maintain system worked well 1 year with
On.When accessing solar power supply apparatus 7, the solar energy that solar panel is collected into is converted to electrical power storage in lithium-ion electric
Chi Zhong, so it can guarantee that within systems life cycle never because short of electricity is stopped.
To reach the interactivity of system, interactive software system is developed, during collection for real time modifying tidal level information
Between, frequency acquisition, remote power-off, remote system upgrade, data subsequent collection and repeating transmission;To reach the intelligent of system, develop anti-
Theft system, when intelligent tidal level remote real time monitoring device is knocked down, is damaged and is stolen, these three feelings of system meeting automatic discrimination
Condition, particularly when stolen, system can high density send latitude and longitude information for positioning, its principle is in systems integrated one
Individual GPS module and inclination sensor, it is antitheft when inclination sensor inclination angle is more than certain angle or is hit or damaged energetically
System sends information to central controller 8, and central controller 8 can provide message information or the positioning letter of intensive collection GPS module
Cease and be sent to public mailbox server and the system private server.
After starting measurement, the pressure data that pressure sensor 1 measures reaches central controller 8 by armored cable 5, with
The Real-Time Atmospheric pressure value of synchronous digital barometer 6 that centre controller 8 receives by central controller 8 is sent to central control after subtracting each other
GPRS module in device 8 processed, sent by GPRS module with mail he to mailbox server, later by GPRS module with number
The system private server, clipper tube 3, pressure sensor 1, digital altimeter 6, CPU are sent to according to the form of stream
8th, solar power supply apparatus 7 forms collection in worksite emitter.
Clipper tube 3 includes the punching clipper tube 31 below the water surface and the non-porous clipper tube 32 above the water surface.For
Increase clipper tube 3 and the fixation in seabed, will not sink when laying for a long time and lateral displacement, the bottom of clipper tube 3 after connection are opened
Mouthful, while fixed by fixed system and bunding or other support systems, the top of clipper tube 3 for connecting shaping is connected by flange 4
Connect remote controlled central controller 8.
The tube wall in the vertical direction for punching clipper tube 31 is provided with diameter 7.5mm hole 311, wave absorption every 1000mm
Pipe 3 is coupled by the etch-proof 316 steel stainless steel tube that more root long degree are respectively 2000mm and 3000mm to be formed, namely 2000mm is not
Rust steel pipe only makes a hole, and 3000mm stainless steel tubes make a call to two holes, and adjacent holes 311 is positioned at the axis of punching clipper tube 31
Both sides.
Inner tube 33 is installed in punching clipper tube 31, inner tube 33 is provided with a plurality of helicla flute 331 to cave inward, helicla flute
Spacing between 331 is 30mm, and the first hole 3311 and the second hole 3312, the first hole 3311 and second are additionally provided with helicla flute 331
Hole 3312 is arranged at intervals in the same helicla flute 331, a diameter of 6mm in the first hole 3311, the second hole 3312 it is a diameter of
3mm。
The inwall of punching clipper tube 31 is provided with bulge loop 312, and inner tube 33 is provided with the annular groove coordinated with bulge loop 312
332, by the cooperation of bulge loop 312 and annular groove 332, ensure that inner tube 33 is arranged in macropore clipper tube 31 and around macropore wave absorption
The axis rotation of pipe 31.
The external stability of clipper tube 3 has water gauge piece 2, and the external diameter of water gauge piece 2 is 470mm, internal diameter 450mm, thickness 10mm.
The diameter of pressure sensor 1 is not more than 30mm, can ensure armouring communication cable 5 connect under in clipper tube 3 from
By vertical movement.
Intelligent tidal level remote real time monitoring device is to the monitoring method of ocean tidal level, and the method includes the steps of:
1) determine to need the total length of installation clipper tube 3 according to the tidal level excursion in place to be measured and determine to punch wave absorption
The quantity of pipe 31 and non-porous clipper tube 32;
2) the punching clipper tube 31 determined and non-porous clipper tube 32 are connected and is erected at tidal level station placement, it is non-porous
Clipper tube 32 is arranged on the top of punching clipper tube 31 and exposed the surface, and connects pressure sensor 1 by cable 5 and center controls
Device 8;
3) pressure data that remote controlled central controller 8 is received by the reception pressure sensor 1 of armored cable 5
The barometric pressure data measured with digital altimeter 6 obtains the tide level data in observation place marine site after subtracting each other;
4) tide level data received from remote controlled central controller 8 sends data to long-range clothes by data flow
Business device, remote server include GPRS module, and GPRS module sends tide level data to specified mailbox with mail he;
5) backup computer is specified mailbox by data processing module automated log on mounted thereto and downloaded in mail
Tide level data, data processing module are parsed to the tide level data of download and the time being resolved to and the numerical value of parameters
It is added to the lane database of backup computer, receives tide level data information, first can ensures that data processing module can be simultaneously
The tide level data information at multiple tidal level stations is handled, tide level data user of service second can be ensured in any place that can be surfed the Net
Tidal level information can be received, the pressure data information that above-mentioned 5 steps are obtained, tide level data song is depicted as by special-purpose software
Line is shown that the water surface quickly changes (burr) caused by the design of clipper tube has eliminated wave, final accurate output
Tidal level information.
In a word, preferred embodiment of the present utility model is the foregoing is only, it is all according to present utility model application the scope of the claims institute
The equivalent changes and modifications of work, it should all belong to the covering scope of the utility model patent.
Claims (6)
1. intelligent tidal level remote real time monitoring device, including pressure sensor (1), its feature with:Also include a plurality of clipper tube
(3), each clipper tube (3) is connected by flange (4), and pressure sensor (1) is mounted on the clipper tube (3) of bottom, also
Including solar power supply apparatus (7), digital altimeter (6) and central controller (8), solar power supply apparatus (7) is to digital gas
Pressure meter (6) and central controller (8) power supply, central controller (8) are connected simultaneously with pressure sensor (1) and digital altimeter (6)
The data transmitted to it carry out the tide level data that analysis draws observation place marine site, in addition to remote server and backup computer,
Include data processing module on backup computer, tide level data is sent to remote server, remote server by central controller (8)
Tide level data is sent to backup computer by mail he, the tide level data that backup computer receives backed up and by data at
Reason module is analyzed tide level data.
2. intelligent tidal level remote real time monitoring device as claimed in claim 1, it is characterized in that:Clipper tube (3) includes being located at water
Punching clipper tube (31) below face and the non-porous clipper tube (32) above the water surface.
3. intelligent tidal level remote real time monitoring device as claimed in claim 2, it is characterized in that:Punch the tube wall of clipper tube (31)
In the vertical direction is provided with diameter 5mm~10mm hole (311) every 1000mm, and adjacent holes (311) is positioned at punching
The both sides of the axis of clipper tube (31).
4. intelligent tidal level remote real time monitoring device as claimed in claim 2, it is characterized in that:Punch in clipper tube (31) and install
There is an inner tube (33), inner tube (33) is provided with a plurality of helicla flute (331) to cave inward, and the spacing between helicla flute (331) is
20mm~40mm, the first hole (3311) and the second hole (3312), the first hole (3311) and the second hole are additionally provided with helicla flute (331)
(3312) it is arranged at intervals in same helicla flute (331), a diameter of 5mm~7mm of the first hole (3311), the second hole (3312)
A diameter of 2mm~4mm.
5. intelligent tidal level remote real time monitoring device as claimed in claim 1, it is characterized in that:Clipper tube (3) is by more root long degree
Respectively 2000mm and 3000mm etch-proof 316 steel stainless steel tube, which is coupled, to be formed.
6. intelligent tidal level remote real time monitoring device as claimed in claim 1, it is characterized in that:Pressure sensor (1) diameter is not
More than 30mm.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201720601419.1U CN207074073U (en) | 2017-05-26 | 2017-05-26 | Intelligent tidal level remote real time monitoring device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201720601419.1U CN207074073U (en) | 2017-05-26 | 2017-05-26 | Intelligent tidal level remote real time monitoring device |
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Publication Number | Publication Date |
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CN207074073U true CN207074073U (en) | 2018-03-06 |
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ID=61512267
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CN201720601419.1U Expired - Fee Related CN207074073U (en) | 2017-05-26 | 2017-05-26 | Intelligent tidal level remote real time monitoring device |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110388900A (en) * | 2019-07-22 | 2019-10-29 | 霍吉亮 | A kind of system observed in real time for harbor approach tidal level and trend |
CN110608726A (en) * | 2019-10-23 | 2019-12-24 | 中电科信息产业有限公司 | Storm surge tide level observation station |
-
2017
- 2017-05-26 CN CN201720601419.1U patent/CN207074073U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110388900A (en) * | 2019-07-22 | 2019-10-29 | 霍吉亮 | A kind of system observed in real time for harbor approach tidal level and trend |
CN110608726A (en) * | 2019-10-23 | 2019-12-24 | 中电科信息产业有限公司 | Storm surge tide level observation station |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20180306 Termination date: 20200526 |
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CF01 | Termination of patent right due to non-payment of annual fee |