CN111707240A

CN111707240A - Ocean hydrology observation device

Info

Publication number: CN111707240A
Application number: CN202010597356.3A
Authority: CN
Inventors: 董江; 桑金; 任晓东; 汪连贺; 边志刚; 肖鸿飞; 姜楠; 曲萌
Original assignee: TIANJIN MARINE GEOMATICS CENTER NAVIGATION GUARANTEE CENTER OF NORTH CHINA SEA
Current assignee: TIANJIN MARINE GEOMATICS CENTER NAVIGATION GUARANTEE CENTER OF NORTH CHINA SEA
Priority date: 2020-06-28
Filing date: 2020-06-28
Publication date: 2020-09-25

Abstract

The invention discloses an ocean hydrological observation device, which comprises a floating platform, a main bracket arranged above the floating platform and a balance bracket arranged at the bottom of the floating platform, wherein a closed electronic cabin is arranged inside the floating platform, a storage battery, a control circuit and a memory are arranged inside the closed electronic cabin, a monitoring device is arranged above the floating platform, the storage battery is connected with the monitoring device through the control circuit, the output end of the monitoring device is connected with the memory, a support frame is fixed at the top of the main bracket, a solar cell panel is movably arranged at the top of the support frame and is connected with the storage battery through the control circuit, the upper end of the solar cell panel is hinged with the top of the support frame, a connecting rod is fixed at one side of the bottom of the solar cell panel, a movable rod is hinged at the lower end of the connecting rod, and a first sleeve is sleeved at the lower end of the movable rod, so, the buoy can better adapt to the environment in water, so that the buoy is kept more stable.

Description

Ocean hydrology observation device

Technical Field

The invention relates to the technical field of marine hydrological observation, in particular to a marine hydrological observation device.

Background

Marine hydrological observation is observation performed for understanding the distribution conditions and change rules of marine hydrological elements, and generally includes: the observation modes include large-area observation, continuous observation, section observation and the like. When observing the water level, the ocean current, the wind speed and the wind direction, continuous observation is needed, a plurality of observation points are distributed in an investigation sea area, and each observation point is continuously observed for more than one month. The water level observation is to measure the sea tide height in real time, the ocean current observation is to divide a plurality of layers from the sea surface to the seabed, each layer is to measure the flow velocity and the flow direction, and the wind speed and the wind direction observation are to measure the wind speed and the wind direction on the sea surface in real time respectively. The observation of wind speed, wind direction, water level and ocean current are carried out simultaneously. The traditional method is that ships arrive observation point one by one, throw away ocean current observation equipment in proper order to observe water level, wind speed, wind direction, each key element is observed and analyzed alone, after observation time satisfies the requirement, drag back equipment one by one, not only waste time and energy, measuring time can not guarantee to go on simultaneously, the observation data need to merge and arrange, very loaded down with trivial details.

The buoy adopts a power supply mode combining a storage battery and a solar battery, the electric quantity of the storage battery can ensure that a buoy system can continuously supply power for one month under the condition of no solar charging supplement, a functional module on the buoy mainly comprises power supply, communication control, a sensor and the like, the offshore buoy is generally established at a place far away from the land, signals are sent to a satellite, and then are transmitted to a ground receiving station by the satellite, but the existing monitoring buoy has a simple structure and does not have good stability, when the buoy is used, the solar cell panel is easily damaged, the maintenance times of the solar cell panel by workers are increased, when the connecting rod is connected with other connecting columns, the buoy can not be well adapted to the environment in water, and can not be kept more stable when the buoy is subjected to stronger wind power at sea or collides with foreign matters in seawater.

Disclosure of Invention

The technical problem to be solved by the invention is to overcome the existing defects and provide an ocean hydrology observation device, which can effectively solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: an ocean hydrology observation device comprises a floating platform, a main support and a balance support, wherein the main support is arranged above the floating platform, the balance support is arranged at the bottom of the floating platform, an airtight electronic cabin is arranged inside the floating platform, a storage battery, a control circuit and a storage device are arranged inside the airtight electronic cabin, a monitoring device is arranged above the floating platform, the storage battery is connected with the monitoring device through the control circuit, the output end of the monitoring device is connected with the storage device, a support frame is fixed at the top of the main support, a solar cell panel is movably mounted at the top of the support frame, the solar cell panel is connected with the storage battery through the control circuit, the upper end of the solar cell panel is hinged with the top of the support frame, a connecting rod is fixed at one side of the bottom of the solar cell panel, a first sleeve is sleeved at the lower end of the connecting rod, and a first spring is connected between the bottom of, the bottom of the first sleeve is fixedly connected with a fixed rod, the bottom of the fixed rod is fixedly provided with a sliding block, the surface of the floating platform is provided with a plurality of grooves which are distributed in an annular shape, the inner sides of the grooves are horizontally provided with sliding rods, a round hole matched with the slide bar is arranged on the inner side of the slide block, the two sides of the slide block are both connected with second springs, the balance support comprises an anchor rod hinged to the center of the bottom of the floating platform through a universal ball, a plurality of auxiliary rods are hinged to the edge of the bottom end of the floating platform at equal intervals, the bottom of the auxiliary rod is hinged with a movable rod, the bottom of the movable rod is sleeved with a second sleeve, the bottom of the inner side of the second sleeve is provided with a third spring connected with the bottom of the auxiliary rod, the bottom of the second sleeve is fixedly connected with the outer wall of the middle of the anchor rod, and the bottom of the anchor rod is fixedly provided with a balancing weight.

As a preferable technical scheme of the invention, the surface of the floating platform is coated with an epoxy resin type heavy-duty coating layer.

As a preferred technical scheme of the present invention, the inner side of the floating platform is provided with a plurality of channels, the side surface of the floating platform is provided with a plurality of first through holes, the bottom edge of the floating platform is provided with a plurality of second through holes, the upper and lower ends of the channels are respectively communicated with the first through holes and the second through holes, and the inner sides of the first through holes and the second through holes are both provided with filter screens.

As a preferred technical scheme of the present invention, the monitoring device includes a wind direction indicator, an anemoscope, a temperature and humidity sensor, and a hydrological water quality sensor, wherein input ends of the wind direction indicator, the anemoscope, the temperature and humidity sensor, and the hydrological water quality sensor are all electrically connected to an output end of the storage battery, and output ends of the wind direction indicator, the anemoscope, the temperature and humidity sensor, and the hydrological water quality sensor are all electrically connected to an input end of the memory.

As a preferable technical scheme of the invention, the anemoscope and the anemoscope are both arranged at the top of the support frame, the temperature and humidity sensor is arranged at one side of the anemoscope, and the hydrology and water quality sensor is arranged at the lower end of the inner side of the channel.

As a preferable technical scheme of the present invention, a connecting plate is fixed between two adjacent first through holes on a side surface of the floating platform, and a floating plate is movably mounted at a lower end of the connecting plate.

As a preferable technical scheme of the invention, a current meter and a water level meter are respectively and fixedly installed on the outer wall of the anchor rod, and the current meter and the water level meter are both electrically connected with the input end of the storage.

As a preferable embodiment of the present invention, the storage battery has a model number of 12SP 135.

Compared with the prior art, the invention has the beneficial effects that:

the invention is provided with a floating platform, a main bracket, a closed electronic cabin, a storage battery, a memory, a support frame, a solar cell panel, a connecting rod, a movable rod, a first sleeve, a connecting rod, a first spring, a sliding block, a groove, a sliding rod, a second spring, an anchor rod, an auxiliary rod, a second sleeve, a third spring, a balancing weight, a channel, a first through hole, a second through hole, a filter screen, a wind direction instrument, a wind speed instrument, a temperature and humidity sensor, a hydrological water quality sensor, a connecting plate, a floating plate, a current meter, a water level meter and a movable rod, when the solar cell panel is strongly impacted by wind power or marine organisms, the solar cell panel drives the connecting rod to move towards the bottom of the inner side of the first sleeve, so that the first spring is compressed, and simultaneously the first sleeve moves in the horizontal direction to drive the sliding block to slide on the sliding rod, so that the second spring is compressed or extended, and further the solar cell panel can, the solar cell panel has certain buffering capacity, the service life of the solar cell panel can be prolonged, and the maintenance frequency of workers on the solar cell panel can be reduced; when the buoy is subjected to strong wind power on the sea, the buoy can be more stable through the movable plate, when the buoy is shaken by stormy waves, the floating plate on the side surface of the floating platform can rotate around the connecting plate, the floating plate can swing downwards or downwards to form actions similar to water stirring or treading, meanwhile, seawater beaten from the side surface can enter the inner side of the channel from the first through hole and come out from the second through hole, and the resistance of the floating platform on the stormy waves is further reduced, so that the buoy can be more stable, meanwhile, when the lower part of the floating platform is contacted with foreign matters in the seawater, the foreign matter contact auxiliary rod drives the movable rod to extrude a third spring into the second sleeve, so that the anchor rod has good buffering capacity, the anchor rod is kept stable, and meanwhile, the observation of all elements can be synchronously carried out through a wind direction indicator, an anemograph, a temperature and humidity sensor, a current meter, a water level meter and a water quality sensor, the offshore operation time and the workload are reduced, and meanwhile, the observation data are uniformly stored in the memory, so that the later data analysis workload is simplified, the observation efficiency and the technical level of the water level, the wind speed and the wind direction are improved, the intelligent application of water level, wind speed and the wind direction observation is promoted, and the advanced development of the marine hydrology observation industry is promoted.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the floating platform of the present invention;

FIG. 3 is a schematic view of the installation structure of the solar panel of the present invention;

FIG. 4 is an enlarged schematic view of the structure at A of the present invention.

In the figure: 1. a floating platform; 2. a main support; 3. sealing the electronic cabin; 4. a storage battery; 5. a memory; 6. a support frame; 7. a solar panel; 8. a connecting rod; 9. fixing the rod; 10. a first sleeve; 11. a movable rod; 12. a first spring; 13. a slider; 14. a groove; 15. a slide bar; 16. a second spring; 17. an anchor rod; 18. an auxiliary lever; 19. a second sleeve; 20. a third spring; 21. a balancing weight; 22. a channel; 23. a first through hole; 24. a second through hole; 25. a filter screen; 26. a wind direction indicator; 27. an anemometer; 28. a temperature and humidity sensor; 29. a hydrological water quality sensor; 30. a connecting plate; 31. a floating plate; 32. current meters; 33. a water level gauge.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: an ocean hydrology observation device comprises a floating platform 1, a main support 2 arranged above the floating platform 1 and a balance support 2 arranged at the bottom of the floating platform 1, wherein an airtight electronic cabin 3 is arranged inside the floating platform 1, a storage battery 4, a control circuit and a storage device 5 are arranged inside the airtight electronic cabin 3, a monitoring device is arranged above the floating platform 1, the storage battery 4 is connected with the monitoring device through the control circuit, the output end of the monitoring device is connected with the storage device 5, a support frame 6 is fixed at the top of the main support 2, a solar cell panel 7 is movably installed at the top of the support frame 6, the solar cell panel 7 is connected with the storage battery 4 through the control circuit, the upper end of the solar cell panel 7 is hinged with the top of the support frame 6, and a connecting rod 8 is fixed at one side of the bottom of the solar cell panel 7, the lower pot head of connecting rod 8 is equipped with first sleeve 10, be connected with first spring 12 between the inboard bottom of first sleeve 10 and the connecting rod 8 bottom, the bottom fixedly connected with dead lever 9 of first sleeve 10, the bottom fixed mounting of dead lever 9 has slider 13, the surface of floating platform 1 is seted up a plurality of and is the recess 14 that the annular distributes, the inboard level of recess 14 is equipped with slide bar 15, the inboard of slider 13 is seted up the round hole with slide bar 15 looks adaptation, the both sides of slider 13 all are connected with second spring 16, balance bracket 2 includes through universal ball hinge in the stock 17 of floating platform 1 bottom center, the bottom edge of floating platform 1 equidistance articulates there is a plurality of auxiliary rod 18, the bottom of auxiliary rod 18 articulates there is movable rod 11, the bottom cover of movable rod 11 is equipped with second sleeve 19, the bottom of the inner side of the second sleeve 19 is provided with a third spring 20 connected with the bottom of the auxiliary rod 18, the bottom of the second sleeve 19 is fixedly connected with the outer wall of the middle part of the anchor rod 17, and the bottom of the anchor rod 17 is fixedly provided with a balancing weight 21.

In this embodiment, preferably, the surface of the floating platform 1 is coated with an epoxy resin heavy anti-corrosion coating layer.

In this embodiment, preferably, the inner side of the floating platform 1 is provided with a plurality of channels 22, the side surface of the floating platform 1 is provided with a plurality of first through holes 23, the bottom edge of the floating platform 1 is provided with a plurality of second through holes 24, the upper end and the lower end of each channel 22 are respectively communicated with the first through holes 23 and the second through holes 24, and the inner sides of the first through holes 23 and the second through holes 24 are respectively provided with a filter screen 25.

In this embodiment, preferably, the monitoring device includes a wind direction indicator 26, a wind speed indicator 27, a temperature and humidity sensor 28 and a hydrological water quality sensor 29, the input ends of the wind direction indicator 26, the wind speed indicator 27, the temperature and humidity sensor 28 and the hydrological water quality sensor 29 are all electrically connected to the output end of the storage battery 4, and the output ends of the wind direction indicator 26, the wind speed indicator 27, the temperature and humidity sensor 28 and the hydrological water quality sensor 29 are all electrically connected to the input end of the memory 5.

In this embodiment, preferably, the anemoscope 26 and the anemoscope 27 are both disposed on the top of the supporting frame 6, the temperature and humidity sensor 28 is disposed on one side of the anemoscope 26, and the hydrographic water quality sensor 29 is disposed at the lower end of the inner side of the channel 22.

In this embodiment, preferably, a connecting plate 30 is fixed on a side surface of the floating platform 1 between two adjacent first through holes 23, and a floating plate 31 is movably mounted at a lower end of the connecting plate 30.

In this embodiment, preferably, a current meter 32 and a water level meter 33 are respectively and fixedly installed on the outer wall of the anchor rod 17, and the current meter 32 and the water level meter 33 are both electrically connected to the input end of the storage 5.

In this embodiment, the model number of the storage battery 4 is preferably 12SP 135.

The working principle and the using process of the invention are as follows: when the solar cell panel is used, when the solar cell panel 7 is strongly impacted by wind power or marine organisms, the solar cell panel 7 can drive the connecting rod to move towards the bottom of the inner side of the first sleeve, so that the first spring is compressed, meanwhile, the first sleeve moves in the horizontal direction to drive the sliding block to slide on the sliding rod, so that the second spring is compressed or extended, further, the solar cell panel can move within a certain range when impacted, the solar cell panel has certain buffering capacity, the service life of the solar cell panel can be prolonged, and the maintenance times of workers on the solar cell panel can be reduced; when the buoy is subjected to strong wind power on the sea, the buoy can be more stable through the movable plate, when the buoy is shaken by stormy waves, the floating plate on the side surface of the floating platform can rotate around the connecting plate, the floating plate can swing downwards or downwards to form actions similar to water stirring or treading, meanwhile, seawater beaten from the side surface can enter the inner side of the channel from the first through hole and come out from the second through hole, and the resistance of the floating platform on the stormy waves is further reduced, so that the buoy can be more stable, meanwhile, when the lower part of the floating platform is contacted with foreign matters in the seawater, the foreign matter contact auxiliary rod drives the movable rod to extrude a third spring into the second sleeve, so that the anchor rod has good buffering capacity, the anchor rod is kept stable, and meanwhile, the observation of all elements can be synchronously carried out through a wind direction indicator, an anemograph, a temperature and humidity sensor, a current meter, a water level meter and a water quality sensor, the offshore operation time and the workload are reduced, and meanwhile, the observation data are uniformly stored in the memory, so that the later data analysis workload is simplified, the observation efficiency and the technical level of the water level, the wind speed and the wind direction are improved, the intelligent application of water level, wind speed and the wind direction observation is promoted, and the advanced development of the marine hydrology observation industry is promoted.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides an ocean hydrology observation device, includes floating platform (1), locates main support (2) of floating platform (1) top and locating the balanced support (2) of floating platform (1) bottom, its characterized in that: the solar floating platform is characterized in that an airtight electronic cabin (3) is arranged inside the floating platform (1), a storage battery (4), a control circuit and a storage device (5) are arranged inside the airtight electronic cabin (3), a monitoring device is arranged above the floating platform (1), the storage battery (4) is connected with the monitoring device through the control circuit, the output end of the monitoring device is connected with the storage device (5), a support frame (6) is fixed at the top of the main support (2), a solar panel (7) is movably mounted at the top of the support frame (6), the solar panel (7) is connected with the storage battery (4) through the control circuit, the upper end of the solar panel (7) is hinged to the top of the support frame (6), a connecting rod (8) is fixed on one side of the bottom of the solar panel (7), and a first sleeve (10) is sleeved at the lower end of the connecting rod (8), a first spring (12) is connected between the bottom of the inner side of the first sleeve (10) and the bottom of the connecting rod (8), a fixing rod (9) is fixedly connected to the bottom of the first sleeve (10), a sliding block (13) is fixedly installed at the bottom of the fixing rod (9), a plurality of grooves (14) distributed in an annular shape are formed in the surface of the floating platform (1), a sliding rod (15) is horizontally arranged on the inner side of each groove (14), a round hole matched with the sliding rod (15) is formed in the inner side of the sliding block (13), second springs (16) are connected to two sides of the sliding block (13), the balance support (2) comprises an anchor rod (17) hinged to the center of the bottom of the floating platform (1) through universal balls, a plurality of auxiliary rods (18) are hinged to the edge of the bottom of the floating platform (1) at equal intervals, and movable rods (11) are hinged to the bottoms of the, the bottom cover of movable rod (11) is equipped with second sleeve (19), the inboard bottom of second sleeve (19) be equipped with third spring (20) that auxiliary rod (18) bottom is connected, the bottom of second sleeve (19) with the middle part outer wall fixed connection of stock (17), the bottom fixed mounting of stock (17) has balancing weight (21).

2. A marine hydrological observation apparatus according to claim 1, wherein: the surface of the floating platform (1) is coated with an epoxy resin heavy-duty anticorrosive coating layer.

3. A marine hydrological observation apparatus according to claim 1, wherein: a plurality of passageway (22) have been seted up to the inboard of floating platform (1), a plurality of first through-hole (23) have been seted up to the side of floating platform (1), a plurality of second through-hole (24) have been seted up at the bottom edge of floating platform (1), the upper and lower both ends of passageway (22) respectively with first through-hole (23) with second through-hole (24) are linked together, first through-hole (23) with the inboard of second through-hole (24) all is equipped with filter screen (25).

4. A marine hydrological observation apparatus according to claim 1, wherein: monitoring devices includes anemoscope (26), anemoscope (27), temperature and humidity sensor (28) and hydrology water quality sensor (29), the input of anemoscope (26), anemoscope (27), temperature and humidity sensor (28) and hydrology water quality sensor (29) all with the output electricity of battery (4) is connected, the output of anemoscope (26), anemoscope (27), temperature and humidity sensor (28) and hydrology water quality sensor (29) all with the input electricity of memory (5) is connected.

5. A marine hydrological observation device according to claims 3 and 4, characterized in that: anemoscope (26) with anemoscope (27) all locate the top of support frame (6), temperature and humidity sensor (28) are located one side of anemoscope (26), hydrology water quality sensor (29) are located the inboard lower extreme of passageway (22).

6. A marine hydrological observation apparatus according to claim 1, wherein: the side surface of the floating platform (1) is fixed with a connecting plate (30) between two adjacent first through holes (23), and the lower end of the connecting plate (30) is movably provided with a floating plate (31).

7. A marine hydrological observation apparatus according to claim 1, wherein: respectively fixed mounting has current meter (32) and fluviograph (33) on the outer wall of stock (17), current meter (32) with fluviograph (33) all with the input electricity of memory (5) is connected.

8. A marine hydrological observation apparatus according to claim 1, wherein: the model of the storage battery (4) is 12SP 135.