CN211627860U - Ocean wind power monitoring devices - Google Patents

Abstract

The utility model discloses an ocean wind-force monitoring devices, including body bedplate, body subassembly, installation sleeve, lift actuating mechanism, lift bedplate and anemorumbometer, the upper end fixed mounting of body bedplate has the installation sleeve, the bedplate in the middle of the installation sleeve internal fixation is provided with, and middle bedplate separates into upper barrel chamber and lower barrel chamber in with the installation sleeve, the upper barrel intracavity is provided with the lift bedplate, install lift actuating mechanism on the middle bedplate, lift actuating mechanism's lift output is connected with the lift bedplate, and the last distribution of lift bedplate is provided with a plurality of mount pads, installs anemorumbometer on one of them mount pad. The utility model can realize the remote detection of wind direction and wind speed on the ocean water surface; when the wind speed on the ocean surface is too big, can avoid too big wind-force to cause the detecting instrument to damage inside anemorumbometer or other detecting instrument withdrawal installation sleeves, have good guard action.

Description

Ocean wind power monitoring devices

Technical Field

The utility model relates to an ocean information detection equipment technical field specifically is an ocean wind-force monitoring devices.

Background

The ocean is a collective term for the widest bodies of water on earth. The earth's surface is divided into a large number of interconnected bodies of water called oceans by continents, the central part of the oceans is called oceans, the peripheral part is called seas, and the bodies of water are communicated with each other to form a unified body of water. The total ocean area on the earth is about 3.6 hundred million square kilometers, which accounts for about 71 percent of the earth surface area, and the average water depth is about 3795 meters. The ocean contains thirteen hundred and fifty thousand cubic kilometers of water, which accounts for about 97% of the total water on earth, and can be drunk by human only by 2%.

The sea is one of the main factors determining the climate development on the earth, and is particularly important for monitoring meteorological factors such as wind speed, wind direction, air pressure, air temperature and humidity of the water part of the sea. The existing ocean wind power monitoring equipment has low protection effect, does not have good protection measures for a detection instrument, and is very easy to cause the damage of the detection instrument when the ocean wind power is too large.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an ocean wind-force monitoring devices to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

a marine wind power monitoring device comprises a floating body seat plate, a floating body assembly, a mounting sleeve, a lifting driving mechanism, a lifting seat plate and a wind speed and direction instrument, wherein the bottom of the floating body seat plate is fixedly provided with the floating body assembly floating on the sea, the upper end of the floating body seat plate is fixedly provided with the mounting sleeve, the mounting sleeve is internally and fixedly provided with a middle seat plate, the middle seat plate divides the interior of the mounting sleeve into an upper cylinder cavity and a lower cylinder cavity, the upper cylinder cavity is internally provided with the lifting seat plate, the middle seat plate is provided with the lifting driving mechanism, the lifting output end of the lifting driving mechanism is connected with the lifting seat plate, the lifting seat plate is provided with a plurality of mounting seats in a distributed manner, one mounting seat is provided with the wind speed instrument, the lower cylinder cavity is internally provided with a controller and a storage battery for supplying power, the outer wall of the mounting, and the controller is respectively connected with the signal control end of the lifting driving mechanism, the signal output end of the anemorumbometer and the signal antenna.

Preferably, the lifting driving mechanism comprises a lifting driving motor installed at the bottom of the middle base plate and a driving lead screw connected with the output end of the lifting driving motor, the top of the driving lead screw is rotatably installed in a rotating sleeve, the rotating sleeve is fixedly connected with the side wall of an installing sleeve through a front cross rod and a rear cross rod, at least one vertical guide rail is arranged on the inner wall of the installing sleeve in a distributed mode, a guide groove used for sliding fit of the vertical guide rail is formed in the outer wall of the lifting base plate, a lead screw nut is fixedly installed at the center of the lifting base plate, and the driving lead screw penetrates through a center hole of the middle base plate, the lifting base plate and is connected.

Preferably, the upper end face of the middle seat plate extends to be provided with a waterproof sleeve corresponding to the central hole, the lower end of the driving screw rod is fixedly sleeved with an umbrella-shaped rubber sleeve for covering and sealing an opening in the upper end of the waterproof sleeve, and the side wall of the mounting sleeve is provided with an overflow hole corresponding to the bottom of the upper barrel cavity.

Preferably, still including being used for the cover to seal the sleeve end cover of installation sleeve upper end opening, the up end of lift bedplate distributes all around and is fixed with a plurality of support pull rods, and the top of support pull rod passes through spring and the lower terminal surface fixed connection of sleeve end cover.

Preferably, a mounting bracket is further fixed around the upper end face of the floating body seat plate, a solar power generation panel is fixedly mounted on the mounting bracket, and the solar power generation panel is electrically connected with the storage battery.

Preferably, the body subassembly includes gasbag circle body, and gasbag circle body passes through the rope ligature to be fixed in the lower terminal surface of body bedplate, still fixedly is provided with the anchor ring that is used for wearing to establish the anchor rope on the lateral wall all around of body bedplate.

Preferably, the center of the bottom of the floating body seat plate is fixedly connected with a center rod, and the bottom of the center rod is fixedly connected with a counterweight cone.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model can realize the remote detection of wind direction and wind speed on the ocean water surface; when the wind speed on the ocean water surface is overlarge, the anemoclinograph or other detection instruments can be retracted into the installation sleeve, so that the detection instruments are prevented from being damaged due to overlarge wind power, and a good protection effect is achieved; when the lift bedplate was driven to the extreme low position, the sleeve end cover can the closing cap completely on the opening of installation sleeve upper end, avoids inside outside rainwater or the sea water entering installation sleeve, helps further improving the safeguard effect.

Drawings

FIG. 1 is a schematic cross-sectional view of an ocean wind monitoring device;

FIG. 2 is a schematic cross-sectional view of a marine wind monitoring device with the sleeve end cover open;

FIG. 3 is a schematic cross-sectional view of the installation sleeve of the ocean wind monitoring device.

In the figure: 1-floating body seat plate, 11-anchor ring, 12-central rod, 13-counterweight cone, 14-mounting bracket, 15-solar power generation plate, 2-floating body component, 21-air bag ring floating body, 22-rope, 3-mounting sleeve, 31-rotating sleeve, 32-vertical guide rail, 33-central seat plate, 34-waterproof sleeve, 35-controller, 36-storage battery, 37-overflow hole, 4-lifting driving mechanism, 41-lifting driving motor, 42-driving screw rod, 43-lifting seat plate, 44-screw rod nut, 45-umbrella-shaped rubber sleeve, 5-mounting seat, 6-sleeve end cover, 61-spring, 62-supporting pull rod, 7-anemorumbometer, 71-wind direction detector, 72-wind speed monitor, 8-signal antenna.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 to 3, the present invention provides a technical solution: an ocean wind power monitoring device comprises a floating body base plate 1, a floating body assembly 2, a mounting sleeve 3, a lifting driving mechanism 4, a lifting base plate 43 and an anemorumbometer 7, wherein the bottom of the floating body base plate 1 is fixedly provided with the floating body assembly 2 which floats on the sea, the upper end of the floating body base plate 1 is fixedly provided with the mounting sleeve 3, the mounting sleeve 3 is internally and fixedly provided with a middle base plate 33, the middle base plate 33 divides the interior of the mounting sleeve 3 into an upper cylinder cavity and a lower cylinder cavity, the upper cylinder cavity is internally provided with the lifting base plate 43, the middle base plate 33 is provided with the lifting driving mechanism 4, the lifting output end of the lifting driving mechanism 4 is connected with the lifting base plate 43, the lifting base plate 43 is distributed and provided with a plurality of mounting bases 5, one of the mounting bases 5 is provided with the anemorumbometer 7, other mounting bases 5 can be provided with other detecting instruments, the lower cylinder cavity is internally, the outer wall of the mounting sleeve 3 is fixedly provided with a signal antenna 8 for wireless data transmission, and the controller 35 is respectively connected with the signal control end of the lifting driving mechanism 4, the signal output end of the anemorumbometer 7 and the signal antenna 8.

The anemorumbometer 7 can adopt a WJ-3E type anemorumbometer in the prior art, and the anemorumbometer 7 is provided with a wind direction detector 71 and a wind speed monitor 72 and is used for detecting the wind direction and the wind speed on the ocean water surface; the signal antenna 8 can adopt the GPRS antenna of prior art, anemorumbometer 7 transmits the detected wind direction and wind speed data to controller 35, controller 35 can adopt a Rockwell type PLC controller, and controller 35 transmits the wind direction and wind speed data to a remote upper computer through signal antenna 8, thereby realizing the remote detection of wind direction and wind speed on the ocean water surface.

When the wind speed on the ocean surface is too high (reaches a set wind speed threshold), the controller 35 controls the lifting driving mechanism 4 to work, and the lifting driving mechanism 4 drives the lifting base plate 43 to descend, so that the anemorumbometer 7 or other detection instruments retract into the installation sleeve 3, damage to the detection instruments due to too high wind power is avoided, and a good protection effect is achieved.

The lifting driving mechanism 4 comprises a lifting driving motor 41 arranged at the bottom of the middle seat plate 33 and a driving lead screw 42 connected with the output end of the lifting driving motor 41, the top of the driving lead screw 42 is rotatably arranged in a rotating sleeve 31, the rotating sleeve 31 is fixedly connected with the side wall of the mounting sleeve 3 through a front cross rod and a rear cross rod, at least one vertical guide rail 32 is distributed on the inner wall of the mounting sleeve 3, a guide groove used for the vertical guide rail 32 to be in sliding fit is formed in the outer wall of the lifting seat plate 43, a lead screw nut 44 is fixedly arranged at the center of the lifting seat plate 43, and the driving lead screw 42 penetrates through the center hole of the middle seat plate 33, the lifting seat plate 43 and is in threaded fit connection with the.

The signal control end of the lifting driving motor 41 is in signal connection with the controller 35, when the wind speed on the ocean surface is too high (reaches a set wind speed threshold), the controller 35 controls the lifting driving motor 41 to rotate positively, the lifting driving motor 41 drives the driving screw rod 42 to rotate, and the lifting seat plate 43 descends along the vertical guide rail 32 due to the threaded fit connection of the driving screw rod 42 and the screw rod nut 44.

The upper end face of the middle seat plate 33 extends to form a waterproof sleeve 34 corresponding to the central hole, the lower end of the driving screw rod 42 is fixedly sleeved with an umbrella-shaped rubber sleeve 45 used for covering and sealing an opening at the upper end of the waterproof sleeve 34, and the side wall of the mounting sleeve 3 corresponding to the bottom of the upper barrel cavity is provided with an overflow hole 37. Structural design arranges rationally, even if get into rainwater or sea water in the installation sleeve 3, rainwater or sea water can flow in the upper cylinder chamber bottom along umbelliform rubber sleeve 45, finally discharges through spillway hole 37, can not get into lower cylinder chamber, ensures controller 35 and battery 36's normal use, and electrical control equipment's water-proof effects is good.

The utility model discloses still including being used for the cap to seal 3 upper end open-ended sleeve end covers 6 of installation sleeve, the up end of lift bedplate 43 distributes all around and is fixed with a plurality of support pull rods 62, and spring 61 and sleeve end cover 6's lower terminal surface fixed connection is passed through at support pull rod 62's top. When lift bedplate 43 is driven to the lowest position, sleeve end cover 6 can the complete closing cap on installation sleeve 3 upper end opening, avoids inside outside rainwater or the sea water entering installation sleeve 3, helps further improving the protective effect.

And the periphery of the upper end surface of the floating body seat plate 1 is also fixedly provided with a mounting bracket 14, a solar power generation plate 15 is fixedly mounted on the mounting bracket 14, and the solar power generation plate 15 is electrically connected with a storage battery 36.

Preferably, the floating body component 2 comprises an airbag floating body 21, and the airbag floating body 21 is bound and fixed on the lower end surface of the floating body seat plate 1 through a rope 22, so that the assembly is convenient; the side wall around the floating body seat plate 1 is also fixedly provided with an anchor ring 11 used for penetrating anchor ropes, and the floating body seat plate 1 can be pulled by the anchor ropes. The bottom center of the floating body seat plate 1 is also fixedly connected with a center rod 12, and the bottom of the center rod 12 is fixedly connected with a counterweight cone 13. Ensure that the whole wind power monitoring device can stably float on the sea level.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (7)

1. An ocean wind monitoring device, characterized in that: the floating body base plate comprises a floating body base plate (1), a floating body component (2), a mounting sleeve (3), a lifting driving mechanism (4), a lifting base plate (43) and an anemorumbometer (7), wherein the bottom of the floating body base plate (1) is fixedly provided with the floating body component (2) floating on the sea surface, the upper end of the floating body base plate (1) is fixedly provided with the mounting sleeve (3), the mounting sleeve (3) is internally and fixedly provided with a middle base plate (33), the middle base plate (33) divides the interior of the mounting sleeve (3) into an upper barrel cavity and a lower barrel cavity, the upper barrel cavity is internally provided with the lifting base plate (43), the middle base plate (33) is provided with the lifting driving mechanism (4), the lifting output end of the lifting driving mechanism (4) is connected with the lifting base plate (43), the lifting base plate (43) is provided with a plurality of mounting seats (5) in a distributed manner, one of the mounting, install controller (35) and battery (36) that are used for the power supply down in the barrel cavity, fixed signal antenna (8) that are used for wireless data transmission that are provided with on the outer wall of installation sleeve (3), controller (35) are connected with signal control end, the signal output part and signal antenna (8) of anemorumbometer (7) of lift actuating mechanism (4) respectively.

2. An offshore wind monitoring device according to claim 1, characterized in that: lifting drive mechanism (4) are including installing in lifting drive motor (41) and the drive lead screw (42) that the output of lifting drive motor (41) is connected of middle bedplate (33) bottom, and the top of drive lead screw (42) is rotated and is installed in rotating cover (31), rotates cover (31) through the lateral wall fixed connection of two horizontal poles and installation sleeve (3) around, the inner wall distribution of installation sleeve (3) is provided with at least one vertical guided way (32), offer the guide way that is used for vertical guided way (32) sliding fit on the outer wall of lift bedplate (43), the center installation of lift bedplate (43) is fixed with screw nut (44), drive lead screw (42) pass the centre bore of middle bedplate (33), lift bedplate (43) and be connected with screw nut (44) screw-thread fit.

3. An offshore wind monitoring device according to claim 2, characterized in that: middle bedplate (33) up end corresponds the centre bore and extends and is provided with waterproof sleeve (34), the lower extreme suit of drive lead screw (42) is fixed with and is used for covering umbrella form rubber sleeve (45) of waterproof sleeve (34) upper end open-ended, overflow hole (37) have been seted up corresponding last bobbin cavity bottom on the lateral wall of installation sleeve (3).

4. An offshore wind monitoring device according to claim 1, characterized in that: the lifting seat plate is characterized by further comprising a sleeve end cover (6) used for covering and sealing an opening in the upper end of the mounting sleeve (3), a plurality of supporting pull rods (62) are distributed and fixed on the periphery of the upper end face of the lifting seat plate (43), and the tops of the supporting pull rods (62) are fixedly connected with the lower end face of the sleeve end cover (6) through springs (61).

5. An offshore wind monitoring device according to claim 1, characterized in that: the solar floating body type floating body base plate is characterized in that mounting supports (14) are further fixed on the periphery of the upper end face of the floating body base plate (1), a solar power generation plate (15) is fixedly mounted on the mounting supports (14), and the solar power generation plate (15) is electrically connected with a storage battery (36).

6. An offshore wind monitoring device according to claim 1, characterized in that: the floating body assembly (2) comprises an air bag ring floating body (21), the air bag ring floating body (21) is bound and fixed on the lower end face of the floating body seat plate (1) through a rope (22), and anchor rings (11) used for penetrating anchor ropes are fixedly arranged on the peripheral side walls of the floating body seat plate (1).

7. An offshore wind monitoring device according to claim 1, characterized in that: the bottom center of the floating body seat plate (1) is also fixedly connected with a center rod (12), and the bottom of the center rod (12) is fixedly connected with a counterweight cone (13).

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