CN206362346U - Floating hydrology visualizer - Google Patents
Floating hydrology visualizer Download PDFInfo
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- CN206362346U CN206362346U CN201621413277.8U CN201621413277U CN206362346U CN 206362346 U CN206362346 U CN 206362346U CN 201621413277 U CN201621413277 U CN 201621413277U CN 206362346 U CN206362346 U CN 206362346U
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- floatoblast
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Abstract
The utility model discloses a kind of floating hydrology visualizer.The floating hydrology visualizer includes the weight for being used to be placed in seabed, the floatoblast being connected by cable with weight;Also include multiple hydrological observation meters;The floatoblast at sea level is built with battery, data acquisition unit and memory;Multiple hydrological observation meter correspondences are at least one structure on the floatoblast, in floatoblast and on cable;The battery is the data acquisition unit, memory, multiple hydrological observation meters are powered;The data real-time storage that the data acquisition unit is monitored based on by multiple hydrological observations is in the memory.The utility model is simple in construction, easy to use efficient, can efficiently reduce Potential Working Time For Operation At Sea and workload.
Description
Technical field
The utility model is related to a kind of floating hydrology visualizer, belongs to oceanographic hydrological observation field.
Background technology
Oceanographic hydrological observation is the observation carried out for understanding oceanographic hydrological element distribution situation and changing rule, general bag
Include:The depth of water, tidal level, ocean current, wave, water Inversion phenomenon, temperature, air pressure etc. observe, observed pattern have big face observation, Continuous Observation,
Sectional observation etc..When carrying out the depth of water, temperature, air pressure, Current Observations, Continuous Observation need to be carried out, is laid in investigation sea area some
Continuous Observation more than diel is carried out in observation station, each observation station.
If Current Observations are point dried layer from sea to sea bed, every layer of measurement flow velocity and flow direction, water-depth measurement are real-time measurements
The live depth of water, temperature, barometric observation are temperature and air pressure on real-time measurement sea.The depth of water, temperature, the observation of air pressure and ocean current
Carry out simultaneously.
Conventional method is that ship reaches observation station one by one, ocean current and depth of water scope is abandon successively, and aboard ship observe
Temperature, air pressure, the time to be observed are met after requirement, and equipment is dragged for back one by one, is not only wasted time and energy, time of measuring is it cannot be guaranteed that simultaneously
Carry out, observation data need to merge arrangement, very cumbersome.
Utility model content
The utility model aims to provide a kind of floating hydrology visualizer, and this is scopic simple in construction, easy to use efficient,
Potential Working Time For Operation At Sea and workload can be efficiently reduced.
To achieve these goals, the technical scheme that the utility model is used is:
A kind of floating hydrology visualizer, including for being placed in the weight in seabed, the floatoblast being connected by cable with weight;Its
It is structurally characterized in that, in addition to multiple hydrological observation meters;The floatoblast at sea level built with battery, data acquisition unit and
Memory;
Multiple hydrological observation meter correspondences are at least one structure on the floatoblast, in floatoblast and on cable;
The battery is the data acquisition unit, memory, multiple hydrological observation meters are powered;
The data real-time storage that the data acquisition unit is monitored based on by multiple hydrological observations is in the memory.
Thus, floating hydrology visualizer of the present utility model can be completely independent automatic running, and battery is that the data are adopted
Storage, memory, multiple hydrological observation meters are powered, and the data that data acquisition unit is monitored based on by multiple hydrological observations are real-time
It is stored in the memory, operating personnel's timing or not timing are taken away, considerably reduce Potential Working Time For Operation At Sea and work
Industry amount.
According to embodiment of the present utility model, further optimization can also be made to the utility model, below for optimization after
The technical scheme of formation:
The data for for convenience in real time monitoring multiple hydrological observation meters are real-time transmitted at the top of reception center, the floatoblast
Transmitting set is set, and the data that the transmitting set is monitored based on by multiple hydrological observations are sent in reception
The heart, the transmitting set is battery powered.Reception center is generally located on the bank or on ship.
In order to prevent that observation device from being hit by mistake, navigation light is housed, the navigation light is by battery at the top of the transmitting set
Power supply.As a kind of substitute mode, the navigation light can also be set directly at the top of floatoblast, and the navigation light is supplied by battery
Electricity.
The hydrological observation meter is selected from airspeedometer, anemoscope, wave instrument, water thermometer, current meter, thermometer, barometer, water
At least two in deep meter, salinometer;The airspeedometer and anemoscope are arranged on the top of floatoblast, the thermometer and barometer
In floatoblast, the wave instrument and water gage are connected in floatoblast and/or on cable by connecting element, and wave instrument and
Water gage is located at sea level, and the water gage is fixed on floatoblast and/or cable, the water thermometer, current meter and salinometer
It is arranged on cable, and water thermometer, current meter and salinometer are located at b.s.l..Thus, battery be airspeedometer, anemoscope,
At least two and the data acquisition unit in wave instrument, water thermometer, current meter, thermometer, barometer, water gage, salinometer,
Memory is powered, data acquisition unit be used for by airspeedometer, anemoscope, wave instrument, water thermometer, current meter, thermometer, barometer,
At least two in water gage, the salinometer data real-time storages monitored are in the memory.
According to embodiment of the present utility model, the hydrological observation is calculated as water gage, current meter, thermometer, barometer;Institute
State thermometer and barometer is arranged in floatoblast, the water gage sets floatoblast bottom, and the current meter is arranged on cable.By
This, battery is water gage, current meter, thermometer, barometer, data acquisition unit, memory are powered, and data acquisition unit is used for water
The data real-time storage that deep meter, current meter, thermometer, barometer are monitored is in the memory.
In order to adapt to marine environment, the cable is that polyvinyl plastic core is provided with the steel cable that stainless steel is made, steel cable.It is excellent
The outer wall of the steel cable is selected provided with epoxide resin type anticorrosive paint layer.
Preferably, the floatoblast is the ball float with inner chamber.
Preferably, bonded and be connected by polyurethane adhesive between the floatoblast and water gage.
In order to ensure that visualizer is run long-term effectively, the outer surface of the floatoblast is equipped with solar panel, the sun
Energy cell panel is connected by photovoltaic charge controller with battery.
The floatoblast is the floating object that superhigh molecular weight polyethylene material is made.The superhigh molecular weight polyethylene material is
Refer to the unbranched linear polyethylene of molecular weight more than 1,500,000.
Thus, according to embodiment of the present utility model, current meter is located at below sea by wirerope wire saws, steel cable lower end
Sea bed is fixed on lead cake;Steel cable upper end is ined succession ball float, and ball float lower end is ined succession water gage, sets radio to launch on ball float top
By two steel grating one dividing into three inside device and navigation light, ball float, battery, data acquisition are placed with side by side on steel grating above
Thermometer, barometer are placed with side by side on device, memory, steel grating below.
Preferably, the battery in the ball float is launched with water gage, current meter, thermometer, barometer, radio respectively
Device, navigation light, data acquisition unit and memory electrical connection.
The utility model is ined succession water gage by wirerope wire saws ball float, current meter, lead cake, and equipment is connected to form entirety, is seen
Ball float and water gage are first thrown away during survey, current meter is dragged to specified location by speedboat with lead cake and abandon, and ball float and the depth of water are first received during recovery
Meter, current meter is dragged go on board in the lump when withdrawing steel cable with lead cake.
To adapt to briny environment, the ball float uses stainless steel alloy material, and steel cable uses stainless steel steel wire, polyethylene
Epoxide resin type anticorrosive paint layer is scribbled outside core, lubricating grease material, ball float and steel cable, the lead cake uses pure lead material
Material.
Preferably, polyurethane adhesive is passed through between ball float and water gage by being weldingly connected between the ball float and steel cable
Bond, be bolted between steel cable and lead cake.
Preferably, the water gage, the observation period of current meter and thermometer, barometer are carried out simultaneously, the water gage,
The data that thermometer, barometer, current meter are known pass to data acquisition unit in real time, and the data one that data acquisition unit is collected are to pass through
Data wire passes to memory preservation, and two be that center is passed on ship or received on the bank by transmitting set.
By said structure, the utility model can promote the convenient and efficient of depth of water temperature and air pressure Current Observations to use, and carry
The automation in high oceanographic hydrological observation field, technicalization level, promote industry innovation and the technology leather of oceanographic hydrological observation industry
Life, realizes intelligent Application.
Compared with prior art, the beneficial effects of the utility model are:The utility model is simple in construction, height easy to use
Effect, it is to avoid throw away receipts ocean current and depth of water scope one by one, reduces Potential Working Time For Operation At Sea and workload, while it is unified to observe data
In memory, later data analysis workload is simplified, the observed efficiency and technical merit of depth of water temperature and air pressure ocean current is improved,
The intelligent Application of depth of water temperature and air pressure Current Observations is promoted, is conducive to promoting the high-endization hair of oceanographic hydrological observation industry
Exhibition.
Brief description of the drawings
Fig. 1 is the structural representation of the utility model one embodiment;
Fig. 2 is Fig. 1 structure top view;
Fig. 3 is the structural representation of the ball float part.
In figure:
1- water gages;2- lead cakes;3- steel cables;4- current meters;5,6- batteries;7- data acquisition units;8- memories;9-
Transmitting set;10- navigation lights;11- ball floats;12- steel gratings;13- thermometers;14- barometers.
Embodiment
Describe the utility model in detail below with reference to accompanying drawing and in conjunction with the embodiments.It should be noted that not conflicting
In the case of, the feature in embodiment and embodiment in the utility model can be mutually combined.For sake of convenience, hereinafter such as
There are " on ", " under ", "left", "right" printed words, only represent that the upper and lower, left and right direction with accompanying drawing in itself is consistent, not to structure
Play restriction effect.
A kind of floating depth of water temperature and air pressure sea current observation instrument, as Figure 1-3, including water gage 1, current meter 4, steel cable
3rd, ball float 11 and lead cake 2, the current meter 4 is located at below sea to be drawn by steel cable 3, and the lower end lead cake 2 of steel cable 3 is fixed on
Sea bed;The upper end of steel cable 3 is ined succession ball float 11, and the lower end of ball float 11 is ined succession water gage 1, and ball float 11 sets transmitting set 9 on top
With navigation light 10, by two one dividing into three of steel grating 12 inside ball float 11, be placed with side by side on steel grating 12 above battery 5,6,
Thermometer 13, barometer 14 are placed with side by side on data acquisition unit 7, memory 8, steel grating 12 below.
As shown in figure 3, the ball float 11, which is used, scribbles the painting of epoxide resin type heavy antisepsis outside stainless steel alloy material, ball float 11
The bed of material.
The steel cable 3 scribbles epoxide resin type outside using stainless steel steel wire, polyvinyl plastic core, lubricating grease material, steel cable 3
Anticorrosive paint layer, the lead cake 2 uses pure lead material.
Weld, bonded between ball float 11 and water gage 1 by polyurethane adhesive, wirerope between the ball float 11 and steel cable 3
It is bolted between rope 3 and lead cake 2.
The battery 5,6 respectively with water gage 1, current meter 4, thermometer 13, barometer 14, transmitting set 9, navigation mark
Lamp 10, data acquisition unit 7 and memory 8 are electrically connected.
The observation period of the water gage 1 is carried out simultaneously with thermometer 13, barometer 14, current meter 4, the water gage 1,
Thermometer 13, barometer 14, current meter 4 and data acquisition unit 7 use fiber optic communication, water gage 1, thermometer 13, barometer 14,
The data that current meter 4 is known pass to data acquisition unit 7 in real time, and the data one that data acquisition unit 7 is collected are passed to by data wire
Memory 8 is preserved, and two be that center is passed on ship or received on the bank by transmitting set 9.
As shown in Figure 1-2, the utility model floating depth of water temperature and air pressure sea current observation instrument includes six roots of sensation steel cable, six blocks of lead
Cake and a ball float.
The utility model can promote the convenient and efficient of depth of water temperature and air pressure Current Observations to use, and improve oceanographic hydrological observation
The intellectuality in field, technicalization level, promote the industry innovation and technological revolution of oceanographic hydrological observation industry, realize marine hydrology
Observe the high-endization development of industry.
The content that above-described embodiment is illustrated should be understood to that these embodiments are only used for being illustrated more clearly that the utility model,
Rather than scope of the present utility model is limited, after the utility model has been read, those skilled in the art are new to this practicality
The modification of the various equivalent form of values of type each falls within the application appended claims limited range.
Claims (11)
1. a kind of floating hydrology visualizer, including for being placed in the weight in seabed, the floatoblast being connected by cable with weight;It is special
Levy and be, in addition to multiple hydrological observation meters;The floatoblast at sea level is built with battery(5,6), data acquisition unit
(7)And memory(8);
Multiple hydrological observation meter correspondences are at least one structure on the floatoblast, in floatoblast and on cable;
The battery(5,6)For the data acquisition unit(7), memory(8), multiple hydrological observation meters power;
The data acquisition unit(7)The data real-time storage monitored based on by multiple hydrological observations is in the memory(8)
It is interior.
2. floating hydrology visualizer according to claim 1, it is characterised in that set radio to launch at the top of the floatoblast
Device(9), the transmitting set(9)The data monitored based on by multiple hydrological observations send reception center to, and this is wireless
Electric transmitter(9)By battery(5,6)Power supply.
3. floating hydrology visualizer according to claim 2, it is characterised in that the transmitting set(9)Top is filled
There is navigation light(10), the navigation light(10)By battery(5,6)Power supply.
4. floating hydrology visualizer according to claim 1, it is characterised in that the hydrological observation meter be selected from airspeedometer,
Anemoscope, wave instrument, water thermometer, current meter(4), thermometer(13), barometer(14), water gage(1), in salinometer at least
Two kinds;
The airspeedometer and anemoscope are arranged on the top of floatoblast, the thermometer(13)And barometer(14)Installed in floatoblast
It is interior, the wave instrument and water gage(1)It is connected to by connecting element in floatoblast and/or on cable, and wave instrument and water gage
At sea level, the water gage(1)It is fixed on floatoblast and/or cable, the water thermometer, current meter and salinometer are set
On cable, and water thermometer, current meter and salinometer are located at b.s.l..
5. the floating hydrology visualizer according to any one of claim 1-4, it is characterised in that the hydrological observation is calculated as
Water gage(1), current meter(4), thermometer(13), barometer(14);The thermometer(13)And barometer(14)Installed in floating
It is intracapsular, the water gage(1)Floatoblast bottom, the current meter are set(4)It is arranged on cable.
6. the floating hydrology visualizer according to any one of claim 1-4, it is characterised in that the cable is stainless steel
The steel cable being made(3), steel cable(3)It is interior to be provided with polyvinyl plastic core.
7. floating hydrology visualizer according to claim 6, it is characterised in that the steel cable(3)Outer wall be provided with ring
Oxygen tree epoxy-type anticorrosive paint layer.
8. the floating hydrology visualizer according to any one of claim 1-4, it is characterised in that the floatoblast is with interior
The ball float of chamber(11).
9. floating hydrology visualizer according to claim 5, it is characterised in that the floatoblast and water gage(1)Between lead to
Cross polyurethane adhesive and bond and be connected.
10. the floating hydrology visualizer according to any one of claim 1-4, it is characterised in that the appearance of the floatoblast
Face is equipped with solar panel, and the solar panel passes through photovoltaic charge controller and battery(5,6)It is connected.
11. the floating hydrology visualizer according to any one of claim 1-4, it is characterised in that the floatoblast is superelevation
The floating object that molecular weight polyethylene material is made.
Priority Applications (1)
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CN201621413277.8U CN206362346U (en) | 2016-12-22 | 2016-12-22 | Floating hydrology visualizer |
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CN201621413277.8U CN206362346U (en) | 2016-12-22 | 2016-12-22 | Floating hydrology visualizer |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107607684A (en) * | 2017-08-17 | 2018-01-19 | 马鞍山市桓泰环保设备有限公司 | A kind of water quality on-line detection method in high drop limiting water level river |
CN107677780A (en) * | 2017-08-17 | 2018-02-09 | 马鞍山市桓泰环保设备有限公司 | A kind of water quality consistently online detection method of water body complicated and changeable |
CN108001626A (en) * | 2017-12-28 | 2018-05-08 | 浙江大学 | A kind of wave-energy power generation energy supply buoy and method based on piezoelectric effect |
CN112729257A (en) * | 2021-02-01 | 2021-04-30 | 中国长江三峡集团有限公司 | Ocean comprehensive observation buoy and method capable of accurately measuring wave parameters |
-
2016
- 2016-12-22 CN CN201621413277.8U patent/CN206362346U/en active Active
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107607684A (en) * | 2017-08-17 | 2018-01-19 | 马鞍山市桓泰环保设备有限公司 | A kind of water quality on-line detection method in high drop limiting water level river |
CN107677780A (en) * | 2017-08-17 | 2018-02-09 | 马鞍山市桓泰环保设备有限公司 | A kind of water quality consistently online detection method of water body complicated and changeable |
CN107677780B (en) * | 2017-08-17 | 2019-10-11 | 马鞍山市桓泰环保设备有限公司 | A kind of water quality consistently online detection method of water body complicated and changeable |
CN107607684B (en) * | 2017-08-17 | 2019-10-11 | 马鞍山市桓泰环保设备有限公司 | A kind of water quality on-line detection method in high drop limiting water level river |
CN108001626A (en) * | 2017-12-28 | 2018-05-08 | 浙江大学 | A kind of wave-energy power generation energy supply buoy and method based on piezoelectric effect |
CN112729257A (en) * | 2021-02-01 | 2021-04-30 | 中国长江三峡集团有限公司 | Ocean comprehensive observation buoy and method capable of accurately measuring wave parameters |
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