CN113819893A - Self-balancing floating type remote hydrological detection device - Google Patents

Abstract

The invention provides a self-balancing floating type remote hydrological monitoring device, which comprises a main shell; fixed connection is in the storage shell of main casing body upper end, the balanced extension spring at the direction back can be emptyd in the pulling during main casing body slope, balanced extension spring can be automatic pulls the main casing body back to vertical position, can accelerate the speed of recovering vertical balanced gesture, the striking of floater can be avoided to the anticollision gluey ring, light emitting structure can send fluorescence and remind the past ship to notice dodge, during the heavy wind and heavy wave weather, the measuring information transfer of anemometry device is to the control circuit in the measurement control assembly, through the first electric telescopic handle of control circuit control and the withdrawal of second electric telescopic handle, all retrieve inside the storage shell with solar rack and stand, and seal through first closing cap and second closing cap, can protect solar panel and anemometry device.

Description

Self-balancing floating type remote hydrological detection device

Technical Field

The invention relates to the technical field of remote hydrological monitoring, in particular to a self-balancing floating type remote hydrological monitoring device.

Background

The marine environment monitoring comprises meteorological element monitoring on the water part and hydrology and water quality element monitoring on the underwater part, and by monitoring the marine environment elements, the types and concentrations of pollutants in the sea area and the migration and transformation rules of the pollutants in the marine environment can be mastered, so that the pollution prevention and control technology and measures are provided, and the marine environment monitoring has great significance for the development of coastal economy, marine scientific research, reduction of marine environment disasters and improvement of marine defense capacity of the coastal.

Generally, according to actual conditions, the hydrological telemetering terminal is applied to the area, a plurality of shore stations are arranged at the same time, the hydrological condition of the area is remotely monitored, and the hydrological telemetering terminal can collect and transmit monitoring information at regular time by using a relay system, so that the purpose of automatically monitoring the hydrological condition is achieved.

However, in the current market, the common terminal device for remote hydrological monitoring is maintained in the underwater posture by arranging the balancing weight at the water inlet end, when the water flow fluctuates greatly, the water flow recovers to be in a vertical state slowly, and if the water flow fluctuation lasts for a long time, the water flow fluctuation can be always in an inclined state, so that the monitoring work is not facilitated.

Current long-range hydrology monitor terminal device all is provided with the mature solar panel in market cooperation group battery and carries out the electric power storage, and general solar panel all is fixed, and marine environment is abominable relatively, and the floater is also more, and when the stormy waves is great, the floater that the aquatic was carried can break solar panel, causes unable continuation of use.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a self-balancing floating type remote hydrological monitoring device, which solves the problems that the existing remote hydrological monitoring terminal is slow in recovering a balanced state and a solar panel is short of protection.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a floating long-range hydrology monitoring devices of self-balancing which characterized in that: the solar energy wind power generation device comprises a main shell, a buffer component and an anti-corrosion structure, wherein the upper end of the main shell is fixedly connected with a containing shell, the inner side wall of the main shell is fixedly connected with a first supporting plate, the upper surface of the first supporting plate is fixedly connected with a battery pack for storing electric power, the inner side lower wall of the main shell is fixedly connected with a measurement control assembly, the main shell is provided with a probe measuring hole, the probe measuring hole is arranged corresponding to the measurement control assembly, the containing shell is connected with a first protection component, the first protection component is fixedly connected with a solar support, four conical surfaces of the solar support are fixedly connected with a solar panel for charging the battery pack, the solar support is connected with a second protection component, the second protection component is connected with a wind measuring device for measuring wind speed and wind direction, the main shell is fixedly connected with a balance adjusting component, the main shell is connected with a balance ring through the balance adjusting component, the storage shell and the balance ring are provided with light-emitting structures, the lower wall of the main shell is connected with a conical barrel, the lower end of the conical barrel is fixedly connected with a balancing weight, and the lower end of the balancing weight is provided with an anchor fastening ring for fixing an anchor chain.

As a preferred embodiment: the buffer assembly comprises a plurality of groups of anti-collision rubber rings, and the plurality of groups of anti-collision rubber rings are equally sleeved on the outer wall of the balance ring.

As a preferred embodiment: the light-emitting structure comprises a first fluorescent coating and a second fluorescent coating, the first fluorescent coating is arranged on the outer surface of the containing shell, and the second fluorescent coating is arranged on the outer surface of the balance ring.

As a preferred embodiment: first protection component includes second fagging, first closing cap and two sets of electric telescopic handle, first closing cap fixed connection is in solar rack upper end, second fagging fixed connection is in solar rack inside wall, and is two sets of the equal fixed connection of electric telescopic handle is between second fagging and first fagging, and is two sets of electric telescopic handle is located the group battery both sides respectively.

As a preferred embodiment: the second protection subassembly includes second electric telescopic handle, third fagging, stand and second closing cap, third fagging fixed connection is in solar rack bottom, the outer wall of solar rack and the inner wall sliding connection who accomodates the shell, second electric telescopic handle fixed connection is at third fagging lower wall, third fagging and second fagging are run through in proper order to second electric telescopic handle's outer wall.

As a preferred embodiment: stand fixed connection stretches out a tip at second electric telescopic handle, the stand outer wall rotates and is connected with the anemometry device, second closing cap fixed connection keeps away from second electric telescopic handle's one end at the stand.

As a preferred embodiment: the balance adjusting assembly comprises a first fixing seat, a second fixing seat, a balance tension spring and two pull rods, and the balance tension spring is arranged at one end, opposite to the two pull rods, of the balance adjusting assembly.

As a preferred embodiment: the anti-corrosion structure is an elastic protection sleeve, the elastic protection sleeve is arranged on the outer wall of the pull rod and the outer wall of the balance tension spring, a clamp is arranged between the elastic protection sleeve and the pull rod, and the elastic protection sleeve is fixedly connected with the pull rod through the clamp.

As a preferred embodiment: the inside charge-discharge protection circuit that is provided with of group battery, the measurement control assembly comprises temperature measuring probe, dissolved oxygen measuring probe, turbidity measuring probe, pH measuring probe and water quality measuring instrument and control circuit and communication module, solar rack is the square pyramid type, the hollow ring that the balanced circle was made for solid buoyancy material, balanced circle outer wall is provided with and is used for avoiding being bumped the bad buffering subassembly, balanced adjusting part outer wall cover is equipped with and is used for anticorrosive structure.

The working principle is as follows: the device body is transported to a sea area to be monitored through a ship, an anchor chain and an anchor block are tied through a tying anchor ring and then thrown into the sea, the wind measuring device is driven to extend out of the solar support through a second electric telescopic rod to measure wind speed and wind direction, the solar support is driven to extend out of the containing shell through a first electric telescopic rod to enable the solar panel to collect sunlight to carry out photoelectric conversion to charge the battery pack, a measurement control assembly in the main shell is in contact with seawater through a probe measuring hole to carry out measurement and analysis, measurement information is transmitted through a communication module, when the main shell, a conical barrel and a balancing weight incline due to great water flow fluctuation, the balance state is restored through the weight of the balancing weight, meanwhile, as the balance ring is a hollow circular ring made of a solid buoyancy material, the balance ring can float on the water surface all the time, and when the main shell inclines, a balance tension spring in the inclining direction is pulled, the balance tension spring can automatically pull the main shell back to the vertical position, can accelerate the speed of resumeing vertical balanced gesture through balance ring and balance adjustment subassembly, the crashproof rubber ring that the outside cover of balance ring was established can effectually avoid the striking of marine floater, and the service life is prolonged, can send fluorescence after absorbing sunlight through light emitting structure, remind past ship to notice to dodge, when meetting the weather that the gale billow etc. is unsuitable to continue monitoring, the information transfer who measures by the anemometry device is to the control circuit in the measurement control assembly, through the first electric telescopic handle of control circuit control and the withdrawal of second electric telescopic handle, all retrieve inside the storage shell with solar rack and stand, and seal through first closing cap and second closing cap, protection solar panel that can be fine and anemometry device are not destroyed by abominable weather.

(III) advantageous effects

The invention provides a self-balancing floating type remote hydrological monitoring device. The method has the following beneficial effects:

1. compared with the prior art, this floating long-range hydrology monitoring devices of self-balancing, when the rivers undulant great cause main casing body and awl bucket, when the balancing weight slope, through the weight recovery balanced state of balancing weight, simultaneously because the balance ring is the hollow ring that solid buoyancy material was makeed into, it can be at the surface of water at first end, and can stimulate the balanced extension spring of toppling over the direction back when main casing body slope, the balanced extension spring can be automatic with the main casing body pull back to vertical position, can accelerate the speed of resumeing vertical balanced gesture through balance ring and balance adjustment subassembly.

2. Compared with the prior art, this floating long-range hydrology monitoring devices of self-balancing, the anticollision that the outside cover of balance circle was established is glued the striking that the ring can effectually avoid marine floater, improves life, can send fluorescence after absorbing the sunlight through light-emitting structure, reminds passing ship to notice to dodge.

3. Compared with the prior art, this floating long-range hydrology monitoring devices of self-balancing, when meetting the weather that big stormy waves etc. had not been suitable for continuing the monitoring, the control circuit in the information transfer to the measurement control assembly that is measured by the wind measuring device, through the withdrawal of first electric telescopic handle of control circuit control and second electric telescopic handle, all retrieve inside the storage shell solar rack and stand, and seal through first closing cap and second closing cap, protection solar panel that can be fine and wind measuring device are not destroyed by abominable weather.

Drawings

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

FIG. 2 is a top view of the overall structure of the present invention;

FIG. 3 is an enlarged view of A in FIG. 2;

FIG. 4 is a schematic view of a balance adjustment assembly according to the present invention;

FIG. 5 is a sectional view of the internal structure of the main housing and the receiving housing;

fig. 6 is a schematic structural view of a solar rack and a solar panel.

Wherein, 1, a main shell; 2. a housing case; 3. a first fluorescent coating; 4. a solar rack; 5. a solar panel; 6. a first cover; 7. a column; 8. a wind measuring device; 9. a second cover; 10. a balance ring; 11. a second fluorescent coating; 12. an anti-collision rubber ring; 13. measuring a hole by a probe; 14. a conical barrel; 15. a balancing weight; 16. anchoring rings are fastened; 17. a first fixed seat; 18. an elastic protective sleeve; 19. a second fixed seat; 20. a pull rod; 21. clamping a hoop; 22. a balance tension spring; 23. a measurement control assembly; 24. a first supporting plate; 25. a battery pack; 26. a first electric telescopic rod; 27. a second electric telescopic rod; 28. a second supporting plate; 29. and a third supporting plate.

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.

Example (b): as shown in fig. 1-6, a self-balancing floating type remote hydrological monitoring device comprises a main housing 1, a buffering component and an anti-corrosion structure, wherein a receiving shell 2 is fixedly connected to the upper end of the main housing 1, a first supporting plate 24 is fixedly connected to the inner side wall of the main housing 1, a battery pack 25 for storing electric power is fixedly connected to the upper surface of the first supporting plate 24, a measurement control assembly 23 is fixedly connected to the lower wall of the inner side of the main housing 1, the main housing 1 is provided with a probe measuring hole 13, the probe measuring hole 13 and the measurement control assembly 23 are correspondingly arranged, the receiving shell 2 is connected with a first protection component, the first protection component is fixedly connected with a solar support 4, four conical surfaces of the solar support 4 are fixedly connected with a solar panel 5 for charging the battery pack 25, and the solar support 4 is connected with a second protection component, the second protection subassembly is connected with anemometry device 8 that is used for measuring wind speed wind direction, main casing body 1 fixedly connected with balance adjustment assembly, main casing body 1 is connected with balance ring 10 through balance adjustment assembly, all be provided with light-emitting structure on containing shell 2 and the balance ring 10, main casing body 1's lower wall is connected with awl bucket 14, 14 lower extreme fixedly connected with balancing weight 15 of awl bucket, 15 lower extremes of balancing weight are provided with the anchor ring 16 of tying that is used for fixed anchor chain.

Fixed connection is at the first fagging 24 of main casing body 1 inside wall, fixed surface is connected with the group battery 25 that is used for storing electric power on the 24 first fagging, the inside charge-discharge protection circuit that is provided with of group battery 25, main casing body 1 inboard lower wall just is located first fagging 24 downside fixedly connected with measurement control assembly 23, measurement control assembly 23 is by temperature measuring probe, dissolved oxygen measuring probe, turbidity measuring probe, pH measuring probe and water quality measuring instrument and control circuit and communication module constitute, main casing body 1 outer wall just corresponds the position with measurement control assembly 23 and is provided with the probe measuring hole 13 that supplies measurement control assembly 23 to carry out the monitoring, measurement control assembly 23 is used for measuring underwater part and controlling means and transmission signal.

Through the solar rack 4 of first protection subassembly setting in accomodate 2 insides of shell, solar rack 4 is the cubic type of four directions, the equal fixedly connected with of four conical surfaces of solar rack 4 is used for photoelectric conversion to the solar panel 5 that group battery 25 charges, first protection subassembly includes second fagging 28, first closing cap 6 and two sets of electric telescopic handle 26, 6 fixed connection of first closing cap is in solar rack 4 upper end, 28 fixed connection of second fagging is in 4 inside walls of solar rack, the equal fixed connection of two sets of electric telescopic handle 26 is between second fagging 28 and first fagging 24 and is located group battery 25 both sides respectively, the stretching out and the withdrawal of first electric telescopic handle 26 projecting shaft can drive solar rack 4 and rise and fall in accomodating shell 2.

The wind measuring device 8 is arranged in the solar bracket 4 through a second protection component and is used for measuring wind speed and wind direction, the second protection component comprises a second electric telescopic rod 27, a third supporting plate 29 and an upright post 7, second closing cap 9, third fagging 29 fixed connection is in 4 bottoms of solar rack and outer wall and accomodate 2 inside wall sliding connection of shell, second electric telescopic handle 27 fixed connection is at the 29 lower walls of third fagging, second electric telescopic handle 27 stretches out the off-axial wall and runs through third fagging 29 in proper order, second fagging 28 to upside, stand 7 fixed connection stretches out the tip at second electric telescopic handle 27, anemometer 8 rotates to be connected at stand 7 outer wall, the one end of second electric telescopic handle 27 is kept away from at stand 7 to second closing cap 9 fixed connection, stretching out and the withdrawal of second electric telescopic handle 27 projecting shaft can drive anemometer 8 and rise and descend in solar rack 4.

Set up the balance ring 10 at main casing body 1 outer wall through the balance adjustment subassembly, balance ring 10 is the hollow ring that solid buoyancy material made, the balance adjustment subassembly includes first fixing base 17, second fixing base 19, balanced extension spring 22 and two pull rods 20, first fixing base 17, second fixing base 19 fixed connection is in main casing body 1 and the relative one side of balance ring 10 respectively, two pull rods 20 fixed connection is respectively in first fixing base 17 and keeps away from one side that main casing body 1 and second fixing base 19 kept away from balance ring 10, balanced extension spring 22 sets up the one end relative at two pull rods 20.

The outer wall of balance ring 10 is provided with and is used for avoiding being hit bad buffering subassembly, the buffering subassembly includes multiunit anticollision gluey ring 12, multiunit anticollision gluey ring 12 is the equipartition form cover and establishes at balance ring 10 outer wall, balance adjustment subassembly outer wall cover is equipped with and is used for anticorrosive anticorrosion structure, anticorrosion structure is elastic protection cover 18, elastic protection cover 18 sets up at two pull rods 20 and balanced extension spring 22 outer walls, elastic protection cover 18 and two pull rods 20 outer walls are respectively through two sets of clamps 21 fixed connection, balance ring 10 and balanced extension spring 22 can resume balance with higher speed, anticollision gluey ring 12 can avoid balance ring 10 to be hit bad, elastic protection cover 18 can slow down the speed that balanced extension spring 22 was corroded.

The setting is used for reminding the light emitting structure who notices to passing ship on accomodating shell 2 and balance ring 10, and light emitting structure is first fluorescence coating 3, second fluorescence coating 11, and first fluorescence coating 3, second fluorescence coating 11 set up respectively at the surface of accomodating shell 2 and balance ring 10, can send fluorescence after light emitting structure absorbs the sunlight and remind passing ship to dodge.

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 (9)

1. The utility model provides a floating long-range hydrology monitoring devices of self-balancing which characterized in that: the solar energy storage device comprises a main shell (1), a buffering component and an anti-corrosion structure, wherein a storage shell (2) is fixedly connected to the upper end of the main shell (1), a first supporting plate (24) is fixedly connected to the inner side wall of the main shell (1), a battery pack (25) used for storing electric power is fixedly connected to the upper surface of the first supporting plate (24), a measurement control assembly (23) is fixedly connected to the inner side lower wall of the main shell (1), a probe measuring hole (13) is formed in the main shell (1), the probe measuring hole (13) and the measurement control assembly (23) are correspondingly arranged, the storage shell (2) is connected with a first protection component, the first protection component is fixedly connected with a solar support (4), a solar panel (5) used for charging the battery pack (25) is fixedly connected to four conical surfaces of the solar support (4), and the solar support (4) is connected with a second protection component, the second protection subassembly is connected with anemometry device (8) that is used for measuring wind speed wind direction, main casing body (1) fixedly connected with balance adjustment subassembly, main casing body (1) is connected with balance ring (10) through balance adjustment subassembly, all be provided with light-emitting structure on containing shell (2) and balance ring (10), the lower wall of main casing body (1) is connected with awl bucket (14), awl bucket (14) lower extreme fixedly connected with balancing weight (15), balancing weight (15) lower extreme is provided with bolt anchor ring (16) that is used for fixed anchor chain.

2. The self-balancing floating type remote hydrological monitoring device according to claim 1, wherein: the buffer assembly comprises a plurality of groups of anti-collision rubber rings (12), and the outer wall of the balance ring (10) is sleeved with the plurality of groups of anti-collision rubber rings (12) in an equal-dividing manner.

3. The self-balancing floating type remote hydrological monitoring device according to claim 1, wherein: the light-emitting structure comprises a first fluorescent coating (3) and a second fluorescent coating (11), wherein the first fluorescent coating (3) is arranged on the outer surface of the accommodating shell (2), and the second fluorescent coating (11) is arranged on the outer surface of the balance ring (10).

4. The self-balancing floating type remote hydrological monitoring device according to claim 1, wherein: first protection component includes second fagging (28), first closing cap (6) and two sets of electric telescopic handle (26), first closing cap (6) fixed connection is in solar rack (4) upper end, second fagging (28) fixed connection is in solar rack (4) inside wall, and is two sets of the equal fixed connection of electric telescopic handle (26) is between second fagging (28) and first fagging (24), and is two sets of electric telescopic handle (26) are located group battery (25) both sides respectively.

5. The self-balancing floating type remote hydrological monitoring device according to claim 1, wherein: the second protection subassembly includes second electric telescopic handle (27), third fagging (29), stand (7) and second closing cap (9), third fagging (29) fixed connection is in solar rack (4) bottom, the outer wall of solar rack (4) and the inner wall sliding connection who accomodates shell (2), second electric telescopic handle (27) fixed connection is in third fagging (29) lower wall, the outer wall of second electric telescopic handle (27) runs through third fagging (29) and second fagging (28) in proper order.

6. The self-balancing floating type remote hydrological monitoring device according to claim 5, wherein: stand (7) fixed connection stretches out a tip at second electric telescopic handle (27), stand (7) outer wall rotates and is connected with anemometry device (8), second closing cap (9) fixed connection is in the one end of stand (7) keeping away from second electric telescopic handle (27).

7. The self-balancing floating type remote hydrological monitoring device according to claim 1, wherein: balance adjustment subassembly includes first fixing base (17), second fixing base (19), balanced extension spring (22) and two pull rods (20), balanced extension spring (22) set up in the relative one end of two pull rods (20).

8. The self-balancing floating type remote hydrological monitoring device according to claim 1, wherein: anticorrosive structure is elastic protection cover (18), elastic protection cover (18) set up in pull rod (20) and balanced extension spring (22) outer wall, be provided with clamp (21) between elastic protection cover (18) and pull rod (20), elastic protection cover (18) pass through clamp (21) fixed connection with pull rod (20).

9. The self-balancing floating type remote hydrological monitoring device according to claim 1, wherein: the inside charge-discharge protection circuit that is provided with of group battery (25), measurement control assembly (23) comprises temperature measuring probe, dissolved oxygen measuring probe, turbidity measuring probe, pH measuring probe and water quality measuring instrument and control circuit and communication module, solar rack (4) are the square pyramid type, hollow ring that balanced circle (10) were made for solid buoyancy material, balanced circle (10) outer wall is provided with and is used for avoiding being bumped the buffer assembly who damages, balanced adjusting part outer wall cover is equipped with and is used for anticorrosive anticorrosion structure.

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