CN206187291U - Hydrologic monitoring buoy - Google Patents
Hydrologic monitoring buoy Download PDFInfo
- Publication number
- CN206187291U CN206187291U CN201621160908.XU CN201621160908U CN206187291U CN 206187291 U CN206187291 U CN 206187291U CN 201621160908 U CN201621160908 U CN 201621160908U CN 206187291 U CN206187291 U CN 206187291U
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- Prior art keywords
- fixedly connected
- hydrologic monitoring
- monitoring buoy
- lower carrier
- upper supporting
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Abstract
The utility model discloses a hydrologic monitoring buoy, including the underplate, the overall structure of underplate is the globoid and the inner chamber is hollow structure, the middle part fixedly connected with sleeve pipe of underplate bottom, the sheathed tube bottom is from a left side to right side fixedly connected with water quality testing in proper order probe, including husky test probe and velocity of flow inductive probe, the middle part fixedly connected with support column at underplate top, the surface of support column has cup jointed down the extension board, and the top fixedly connected with of support column goes up the extension board. The utility model discloses improved the holistic constitution structure of hydrologic monitoring buoy, increased substantially this hydrologic monitoring buoy overall structure fastness, also can improve hydrologic monitoring buoy overall structure's shock resistance simultaneously rapidly, prevented effectively that wind -force from erodeing and the rivers collision leads to this hydrologic monitoring buoy the broken condition of fracture to appear to the holistic life of this hydrologic monitoring buoy has been prolonged.
Description
Technical field
The utility model is related to hydrologic monitoring apparatus technical field, specially a kind of hydrologic monitoring buoy.
Background technology
Hydrologic monitoring buoy is the hydrometeorology constituted as main body with the observation buoy being placed in rivers,lakes and seas from in-motion viewing
Survey station, with nowadays attention of the people to hydrological environment, in the market occurs in that different types of hydrologic monitoring buoy.Such as market
Upper Chinese patent CN204096042U, grant number is a kind of portable hydrology monitering buoy disclosed in 2015.01.14, its composition
Including:There are multiple inclined sides on chassis, described chassis, and described chassis top is provided with a fixed disk, described fixation
Support bar is installed on disk, a communication antenna is provided with described supporting bar top, one is provided with described post upper
Individual truss, described truss two ends are separately installed with anemobiagraph and anemoscope, and two electricity are set in described chassis parallel beneath
Machine, described motor is connected with the propeller of its outer end, and power motor is set under chassis, can allow monitering buoy by personnel control
The waters to be monitored is advanced to, it is convenient and simple, it is to avoid conventional use ship or aircraft are delivered and expend big problem, are adopted
The personnel can be preferably allowed to carry out comprehensive measuring and calculating with controlling organization.
But, above-mentioned Chinese patent CN204096042U, grant number is a kind of portable hydrology disclosed in 2015.01.14
Monitering buoy, overall structural integrity and impact resistance are poor in use, are easily washed away and current by wind-force
The influence of collision, causes hydrologic monitoring buoy the broken situation of fracture occur, and during use, because hydrologic monitoring buoy is steady
Qualitative difference, easily causes that hydrologic monitoring buoy integrally occurs crooked or even is directly entered water under the wind-force or flow action, from
And have impact on the use of hydrologic monitoring buoy, it is difficult to meet the use demand of people.
Utility model content
The purpose of this utility model is to provide a kind of hydrologic monitoring buoy, with asking for solving to propose in above-mentioned background technology
Topic.
To achieve the above object, the utility model provides following technical scheme:A kind of hydrologic monitoring buoy, including basal disc,
The overall structure of basal disc is for orbicule and inner chamber is hollow structure, and sleeve pipe is fixedly connected with the middle part of the basal disc bottom, described
The bottom of sleeve pipe be fixedly connected sequentially from left to right has water quality detection pop one's head in, containing husky detection probe and flow velocity inductive probe, it is described
Middle part at the top of basal disc is fixedly connected with support column.
The outer surface of the support column is socketed with lower carrier plate, and the top of the lower carrier plate is installed with respectively from left to right
Controller, information acquisition module and battery, it is oblique that the position that the bottom of lower carrier plate is located at support column both sides is fixedly connected with
Pole bottom is connected with the solid block being fixedly connected on above basal disc, and the inner side of the oblique fulcrum bar is horizontally connected with bracing piece,
The front of the bracing piece be fixedly connected with containing husky detection probe be electrical connected containing husky detector, the both sides of the oblique fulcrum bar
The reinforcement bar that is fixedly connected with is oblique to be connected to lower carrier plate bottom, and the side of oblique fulcrum bar is fixedly connected with and water quality detection probe
The water quality testing meter being electrically connected, the opposite side of oblique fulcrum bar is fixedly connected with the flow rate detection being electrical connected with flow velocity inductive probe
Instrument, is fixedly connected with upper supporting plate at the top of the support column, the bottom of the upper supporting plate passes through the montant being fixedly connected with
Support plate is fixedly linked, and the top of upper supporting plate is fixedly connected with transverse slat by montant, is fixedly connected with the top of upper supporting plate positioned at perpendicular
The positive solar panel of bar, the output end of the solar panel is electrically connected with the input of battery, the horizontal stroke
The top of plate is fixedly connected sequentially from left to right anemoscope, signal transmitting and receiving antenna and anemobiagraph.
The outer surface of the basal disc is fixedly connected with the steady block of increasing, and the both sides at the top of the steady block of increasing have been fixedly connected with fixed
Block, the top for determining block is fixedly linked by main strut with upper supporting plate bottom, and the outer surface of the main strut is fixedly connected with
Enhancing ring.
Preferably, the anemobiagraph is electrical connected by wire with anemoscope with information acquisition module, information gathering mould
Block is electrically connected with controller, and controller is electrical connected with signal transmitting and receiving antenna.
Preferably, the fixed mount top that the outer surface of described sleeve pipe is socketed with is fixedly linked with the bottom of basal disc.
Preferably, the transverse slat, upper supporting plate are mutually concordant with the installation position of lower carrier plate, and transverse slat, upper supporting plate and lower branch
The plate body outer surface of plate is coated with metal enamelled coating.
Preferably, the monnolithic case that the lower carrier plate, reinforcement bar and bracing piece are mutually combined in isosceles trapezoidal structure, and
Reinforcement bar is equipped with wearing layer with the body of rod outer surface of bracing piece.
Compared with prior art, the beneficial effects of the utility model are:
1st, the utility model is by setting lower carrier plate, solid block, montant, oblique fulcrum bar, bracing piece, reinforcement bar, upper supporting plate, fixed
Block, main strut and enhancing ring, improve hydrologic monitoring buoy and are integrally formed structure, enhance the overall knot of hydrologic monitoring buoy
Structure fastness, impact resistance and intensity, using montant, solid block, oblique fulcrum bar, bracing piece, reinforcement bar, determine block, main strut and increasing
Qiang Huan, enables to upper supporting plate and lower carrier plate that mutually concordant state is remained with the steady block of increasing, and cause hydrology prison
Survey buoy and remain the firm state of balance, enhance the hydrologic monitoring buoy overall structure and mutually consolidate and be attached,
The hydrologic monitoring buoy overall structure fastness is greatly improved, while also can rapidly improve hydrologic monitoring buoy integrally tying
The impact resistance of structure, effectively prevents the feelings that wind-force washes away and current collision causes hydrologic monitoring buoy appearance fracture to crush
Condition, the service life overall so as to extend the hydrologic monitoring buoy, and increase the use of steady block, sleeve pipe and fixed mount, can make
The firm monitoring for being placed on the enterprising water-filling text of the water surface of the hydrologic monitoring buoy is obtained, improve that the hydrologic monitoring buoy uses is steady
It is qualitative, effectively prevent the hydrologic monitoring buoy under wind-force or flow action from feelings crooked or even in being directly entered water integrally occur
Condition, so as to be conducive to the hydrologic monitoring buoy significantly to promote the use of.
2nd, the utility model is by water quality detection probe and water quality testing meter, containing husky detection probe and the detector containing sand and stream
Fast inductive probe and the cooperation of flow detector, can carry out the rapid detection of water quality, silt content and flow rate of water flow, so that just
In the hydrologic monitoring for carrying out rivers,lakes and seas, and anemoscope and the use of anemobiagraph, judgement to water of river, lake and sea can be rapidly monitored
The speed of face windward and the direction of wind.
Brief description of the drawings
Fig. 1 is the utility model structural representation.
In figure:1 basal disc, 2 increase steady block, 3 sleeve pipes, 4 fixed mounts, 5 water quality detections probe, 6 containing husky detection probe, 7 flow velocity senses
Should pop one's head in, 8 support columns, 9 lower carrier plates, 91 montants, 92 solid block, 93 oblique fulcrum bars, 94 bracing pieces, 95 reinforcement bars, 10 upper supporting plates, 101
Determine block, 102 main struts, 103 enhancing rings, 11 transverse slats, 12 anemoscopes, 13 anemobiagraphs, 14 signal transmitting and receiving antennas, 15 solar cells
Plate, 16 water quality testing meters, 17 are containing husky detector, 18 flow detectors, 19 controllers, 20 information acquisition modules, 21 batteries.
Specific embodiment
Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is carried out
Clearly and completely describe, it is clear that described embodiment is only a part of embodiment of the utility model, rather than whole
Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not under the premise of creative work is made
The every other embodiment for being obtained, belongs to the scope of the utility model protection.
Fig. 1 is referred to, the utility model provides a kind of technical scheme:
A kind of hydrologic monitoring buoy, including basal disc 1, the overall structure of basal disc 1 is for orbicule and inner chamber is hollow structure, base
Sleeve pipe 3 is fixedly connected with the middle part of the bottom of disk 1, the top of fixed mount 4 that the outer surface of sleeve pipe 3 is socketed with is consolidated with the bottom of basal disc 1
Fixed to be connected, the bottom of sleeve pipe 3 is fixedly connected sequentially from left to right to be had water quality detection to pop one's head in 5, senses containing husky detection probe 6 and flow velocity
Probe 7, the middle part at the top of basal disc 1 is fixedly connected with support column 8.
The outer surface of support column 8 is socketed with lower carrier plate 9, and the top of lower carrier plate 9 is installed with control respectively from left to right
Device 19, information acquisition module 20 and battery 21, the bottom of lower carrier plate 9 have been fixedly connected with positioned at the position of the both sides of support column 8
The bottom of oblique fulcrum bar 93 be connected with the solid block for being fixedly connected on the top of basal disc 1, lower carrier plate 9, reinforcement bar 95 and the phase of bracing piece 94
Mutually the monnolithic case of combination is in isosceles trapezoidal structure, and reinforcement bar 95 be equipped with the body of rod outer surface of bracing piece 94 it is wear-resisting
Layer, the use of wearing layer can increase substantially the anti-wear performance of reinforcement bar 95 and bracing piece 94 so that extend reinforcement bar 95 and
The useful life of bracing piece 94, the inner side of oblique fulcrum bar 93 is horizontally connected with bracing piece 94, and the front of bracing piece 94 is fixedly connected
Have with containing husky detection probe 6 be electrical connected containing husky detector 17, the reinforcement bar 95 that the both sides of oblique fulcrum bar 93 are fixedly connected with
Oblique to be connected to the bottom of lower carrier plate 9, the side of oblique fulcrum bar 93 is fixedly connected with the water quality being electrically connected with water quality detection probe 5 and examines
Instrument 16 is surveyed, the opposite side of oblique fulcrum bar 93 is fixedly connected with the flow detector 18 being electrical connected with flow velocity inductive probe 7, by water
Quality detection probe 5 is examined with containing husky detector 17 and flow velocity inductive probe 7 with water quality testing meter 16, containing husky detection probe 6 with flow velocity
The cooperation of instrument 18 is surveyed, the rapid detection of water quality, silt content and flow rate of water flow can be carried out, consequently facilitating carrying out rivers,lakes and seas
Hydrologic monitoring.
The display mode of the water quality testing meter 16 that the utility model is used for LED shows, temperature compensation scope:Automatic/hand 0~
99.9 DEG C, 25 DEG C of conversions, power supply:AC220V ± 22V 50Hz ± 1Hz, resolution ratio is 0.001 μ S/cm, and temperature is 0~99.9
DEG C so that the hydrologic monitoring collar of float border strong adaptability, the operating procedure of the hydrologic monitoring buoy is simplified, improve monitoring
Hydrographic information definition and the degree of accuracy.
The utility model use containing husky detector 17, can rapidly detect water outlet under the cooperation containing husky detection probe 6
Silt content, and be digitized display on containing husky detector 17, be easy to the water that people are intuitively checked in rivers,lakes and seas
Silt content, the flow detector 18 that the utility model is used, can quickly detect current in the cooperation of flow velocity inductive probe
Flow velocity, consequently facilitating carrying out hydrologic monitoring to water when flow rate of water flow is very fast.
The outer surface of basal disc 1 is fixedly connected with the steady block 2 of increasing, and the both sides at the steady top of block 2 of increasing have been fixedly connected with determines block 101,
The top for determining block 101 is fixedly linked by main strut 102 with the bottom of upper supporting plate 10, and the outer surface of main strut 102 is fixedly connected with
Enhancing ring 103.
The top of support column 8 is fixedly connected with upper supporting plate 10, and the bottom of upper supporting plate 10 passes through the montant 91 being fixedly connected with
It is fixedly linked with lower carrier plate 9, the top of upper supporting plate 10 is fixedly connected with transverse slat 11 by montant 91, and the top of upper supporting plate 10 is fixed
It is connected with positioned at the positive solar panel 15 of montant 91, the output end of solar panel 15 and the input of battery 21
It is electrically connected, solar panel 15 can fully absorb solar energy and solar energy is carried out into opto-electronic conversion, by conversion gained
Electrical power storage carry out in the battery 21 standby, transverse slat 11, upper supporting plate 10 are mutually concordant with the installation position of lower carrier plate 9, phase
Mutually the concordant transverse slat 11 for setting, upper supporting plate 10 and lower carrier plate 9, enable to the hydrologic monitoring buoy to be in left-right balance all the time
Stable state, so as to be conducive to the use of transverse slat 11, upper supporting plate 10 and lower carrier plate 9, and transverse slat 11, upper supporting plate 10 and lower carrier plate 9
Plate body outer surface be coated with metal enamelled coating, the use of metal enamelled coating can increase substantially transverse slat 11, upper supporting plate 10 and under
The performance that the water resistant body corrosion of the entirety of support plate 9 and external force corrode, so as to extend transverse slat 11, upper supporting plate 10 and lower carrier plate 9
Service life, the top of transverse slat 11 is fixedly connected sequentially from left to right anemoscope 12, signal transmitting and receiving antenna 14 and anemobiagraph 13,
Anemoscope 12 and the use of anemobiagraph 13, can rapidly monitor the direction of the speed and wind judged to rivers,lakes and seas water surface windward.
Anemobiagraph 13 is electrical connected by wire with anemoscope 12 with information acquisition module 20, information acquisition module 20 with
Controller 19 is electrically connected, and controller 19 is electrical connected with signal transmitting and receiving antenna 14.
Operation principle:When using, the basal disc 1 of the hydrologic monitoring buoy is put into water first, using increasing steady block 2 by the water
Literary monitering buoy carries out spacing placement, and sleeve pipe 3 is directly inserted in water, by water quality detection probe 5, containing the and of husky detection probe 6
Flow velocity inductive probe 7, then coordinate water quality testing meter 16, containing husky detector 17 and flow detector 18, detect the water of rivers,lakes and seas
Can be transmitted for the hydrographic information of collection with information acquisition module 20 by literary information, controller 19, by signal transmitting and receiving antenna
14 interact and realize hydrologic monitoring with people.
In sum:The utility model is by setting lower carrier plate 9, solid block 92, montant 91, oblique fulcrum bar 93, bracing piece 94, increasing
Gu bar 95, upper supporting plate 10, determine block 101, main strut 102 and enhancing ring 103, improve hydrologic monitoring buoy and be integrally formed knot
Structure, enhances the overall structural integrity of hydrologic monitoring buoy, impact resistance and intensity, using montant 91, tiltedly solid block 92, branch
Bar 93, bracing piece 94, reinforcement bar 95, determine block 101, main strut 102 and enhancing ring 103, enable to upper supporting plate 10 and lower carrier plate 9
Mutually concordant state is remained with the steady block 2 of increasing, and causes that the hydrologic monitoring buoy remains what balance was consolidated
State, enhance the hydrologic monitoring buoy overall structure mutually consolidate be attached, the hydrologic monitoring buoy is greatly improved
Overall structure fastness, while also can rapidly improve the integrally-built impact resistance of hydrologic monitoring buoy, effectively prevents wind
Power is washed away and current collision causes the hydrologic monitoring buoy the broken situation of fracture occur, is floated so as to extend the hydrologic monitoring
Overall service life, and the steady block 2 of increasing, sleeve pipe 3 and the use of fixed mount 4 are marked, enables to what the hydrologic monitoring buoy was consolidated
Be placed on the monitoring of the water surface enterprising water-filling text, improve the stability that the hydrologic monitoring buoy is used, effectively prevent in wind-force or
Integrally there is situation crooked or even in being directly entered water in the hydrologic monitoring buoy under flow action, so as to be conducive to the hydrology to supervise
Survey buoy significantly to promote the use of, the structural integrity and impact resistance for solving entirety in use are poor, easily
Washed away by wind-force and current collision is influenceed, cause hydrologic monitoring buoy the broken situation of fracture occur, and use process
In, because hydrologic monitoring float stable is poor, easily cause that hydrologic monitoring buoy integrally occurs under wind-force or flow action askew
Tiltedly even it is directly entered in water, so as to have impact on the problem that hydrologic monitoring buoy is used.
While there has been shown and described that embodiment of the present utility model, for the ordinary skill in the art,
It is appreciated that these embodiments can be carried out various changes in the case where principle of the present utility model and spirit is not departed from, repaiies
Change, replace and modification, scope of the present utility model is defined by the appended claims and the equivalents thereof.
Claims (5)
1. a kind of hydrologic monitoring buoy, including basal disc(1), basal disc(1)Overall structure for orbicule and inner chamber be hollow structure,
It is characterized in that:The basal disc(1)Sleeve pipe is fixedly connected with the middle part of bottom(3), described sleeve pipe(3)Bottom from left to right according to
It is secondary to be fixedly connected with water quality detection probe(5), containing husky detection probe(6)With flow velocity inductive probe(7), the basal disc(1)Top
Middle part be fixedly connected with support column(8);
The support column(8)Outer surface be socketed with lower carrier plate(9), the lower carrier plate(9)Top fix respectively from left to right
Controller is installed(19), information acquisition module(20)And battery(21), lower carrier plate(9)Bottom be located at support column(8)Two
The oblique fulcrum bar that the position of side is fixedly connected with(93)Bottom be fixedly connected on basal disc(1)The solid block of top is connected, described
Oblique fulcrum bar(93)Inner side be horizontally connected with bracing piece(94), the bracing piece(94)Front be fixedly connected with and containing sand examine
Probing head(6)Be electrical connected containing husky detector(17), the oblique fulcrum bar(93)The reinforcement bar that is fixedly connected with of both sides
(95)It is oblique to be connected to lower carrier plate(9)Bottom, oblique fulcrum bar(93)Side be fixedly connected with and water quality detection probe(5)Electrical phase
The water quality testing meter for connecing(16), oblique fulcrum bar(93)Opposite side be fixedly connected with and flow velocity inductive probe(7)The stream being electrical connected
Fast detector(18), the support column(8)Top be fixedly connected with upper supporting plate(10), the upper supporting plate(10)Bottom pass through
The montant being fixedly connected with(91)With lower carrier plate(9)It is fixedly linked, upper supporting plate(10)Top pass through montant(91)It is fixedly connected
There is transverse slat(11), upper supporting plate(10)Top be fixedly connected with positioned at montant(91)Positive solar panel(15), it is described
Solar panel(15)Output end and battery(21)Input be electrically connected, the transverse slat(11)Top from a left side to
The right side is fixedly connected sequentially anemoscope(12), signal transmitting and receiving antenna(14)And anemobiagraph(13);
The basal disc(1)Outer surface be fixedly connected with the steady block of increasing(2), it is described to increase steady block(2)The both sides at top are fixedly connected with
Have and determine block(101), it is described to determine block(101)Top pass through main strut(102)With upper supporting plate(10)Bottom is fixedly linked, the master
Pole(102)Outer surface be fixedly connected with enhancing ring(103).
2. a kind of hydrologic monitoring buoy according to claim 1, it is characterised in that:The anemobiagraph(13)With anemoscope
(12)Pass through wire and information acquisition module(20)It is electrical connected, information acquisition module(20)With controller(19)Electrical phase
Connect, and controller(19)With signal transmitting and receiving antenna(14)It is electrical connected.
3. a kind of hydrologic monitoring buoy according to claim 1, it is characterised in that:Described sleeve pipe(3)Outer surface socket
Some fixed mounts(4)Top is fixedly linked with the bottom of basal disc 1.
4. a kind of hydrologic monitoring buoy according to claim 1, it is characterised in that:The transverse slat(11), upper supporting plate(10)
And lower carrier plate(9)Installation position it is mutually concordant, and transverse slat(11), upper supporting plate(10)And lower carrier plate(9)Plate body outer surface it is equal
It is coated with metal enamelled coating.
5. a kind of hydrologic monitoring buoy according to claim 1, it is characterised in that:The lower carrier plate(9), reinforcement bar(95)
And bracing piece(94)The monnolithic case being mutually combined is in isosceles trapezoidal structure, and reinforcement bar(95)With bracing piece(94)The body of rod
Outer surface is equipped with wearing layer.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201621160908.XU CN206187291U (en) | 2016-11-01 | 2016-11-01 | Hydrologic monitoring buoy |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201621160908.XU CN206187291U (en) | 2016-11-01 | 2016-11-01 | Hydrologic monitoring buoy |
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CN206187291U true CN206187291U (en) | 2017-05-24 |
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ID=58732920
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CN201621160908.XU Expired - Fee Related CN206187291U (en) | 2016-11-01 | 2016-11-01 | Hydrologic monitoring buoy |
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CN108037051A (en) * | 2017-12-29 | 2018-05-15 | 广州和时通电子科技有限公司 | A kind of intelligent cleaning formula surveys husky apparatus and method |
CN108357634A (en) * | 2017-09-29 | 2018-08-03 | 国家海洋局南海调查技术中心 | No anchor system automatically resets far-reaching extra large ocean weather station observation buoy and method |
CN109357665A (en) * | 2018-10-16 | 2019-02-19 | 苗娥 | A kind of hydrology buoy Emergent detection device |
CN110207755A (en) * | 2019-06-24 | 2019-09-06 | 中国农业科学院草原研究所 | A kind of Eco-hydrological monitoring device |
CN112572691A (en) * | 2020-12-23 | 2021-03-30 | 张军强 | Modular combined hydrology and water resource surveying buoy |
CN113247185A (en) * | 2021-06-21 | 2021-08-13 | 山东省地质矿产勘查开发局第四地质大队(山东省第四地质矿产勘查院) | Floating type coastal zone monitoring device |
CN108037052B (en) * | 2017-12-29 | 2024-02-02 | 广州和时通电子科技有限公司 | Infrared optical automatic sand measuring device and method for hydrologic station |
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2016
- 2016-11-01 CN CN201621160908.XU patent/CN206187291U/en not_active Expired - Fee Related
Cited By (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108357634A (en) * | 2017-09-29 | 2018-08-03 | 国家海洋局南海调查技术中心 | No anchor system automatically resets far-reaching extra large ocean weather station observation buoy and method |
CN108357634B (en) * | 2017-09-29 | 2023-12-19 | 国家海洋局南海调查技术中心(国家海洋局南海浮标中心) | Anchor-free automatic reset deep-open sea fixed-point observation buoy and method |
CN108037051A (en) * | 2017-12-29 | 2018-05-15 | 广州和时通电子科技有限公司 | A kind of intelligent cleaning formula surveys husky apparatus and method |
CN108037051B (en) * | 2017-12-29 | 2024-02-02 | 广州和时通电子科技有限公司 | Intelligent cleaning type sand measuring device and method |
CN108037052B (en) * | 2017-12-29 | 2024-02-02 | 广州和时通电子科技有限公司 | Infrared optical automatic sand measuring device and method for hydrologic station |
CN109357665A (en) * | 2018-10-16 | 2019-02-19 | 苗娥 | A kind of hydrology buoy Emergent detection device |
CN109357665B (en) * | 2018-10-16 | 2021-07-20 | 山东博泓信息科技有限公司 | Hydrological buoy emergency detection device |
CN110207755A (en) * | 2019-06-24 | 2019-09-06 | 中国农业科学院草原研究所 | A kind of Eco-hydrological monitoring device |
CN112572691A (en) * | 2020-12-23 | 2021-03-30 | 张军强 | Modular combined hydrology and water resource surveying buoy |
CN113247185A (en) * | 2021-06-21 | 2021-08-13 | 山东省地质矿产勘查开发局第四地质大队(山东省第四地质矿产勘查院) | Floating type coastal zone monitoring device |
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CF01 | Termination of patent right due to non-payment of annual fee | ||
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Granted publication date: 20170524 Termination date: 20171101 |