CN117262119B

CN117262119B - Buoy mechanism for marine environment monitoring

Info

Publication number: CN117262119B
Application number: CN202311504730.0A
Authority: CN
Inventors: 高旭辰; 李寒林; 王文浩; 张函溢; 李泽辰
Original assignee: Jimei University
Current assignee: Jimei University
Priority date: 2023-11-13
Filing date: 2023-11-13
Publication date: 2024-02-06
Anticipated expiration: 2043-11-13
Also published as: CN117262119A

Abstract

The invention discloses a buoy mechanism for marine environment monitoring, which relates to the technical field of buoys, and comprises an upper cover body and a bottom connecting plate, wherein a first vertical rod and a water pump are inserted into the top of the upper cover body, fan blades are symmetrically fixed on the top of the first vertical rod, the fan blades are blown by wind to rotate on the first vertical rod, a second vertical rod is connected inside the upper cover body, and a first transmission rod and a second transmission rod are connected between the second vertical rod and the first vertical rod; this buoy mechanism for marine environment monitoring through connecting first pole setting and flabellum on upper cover plate, and the flabellum drives first pole setting rotation according to the wind direction of sea wind, and first pole setting drives the second pole setting through first transfer line and second transfer line and rotates, through setting up the location inductor on first motor for first motor drives the screw rotation and can remove the buoy that surpasss monitoring range to monitoring range in, has avoided the staff to remove fixedly to the buoy.

Description

Buoy mechanism for marine environment monitoring

Technical Field

The invention relates to the technical field of buoys, in particular to a buoy mechanism for marine environment monitoring.

Background

The ocean buoy is an automatic ocean hydrological water quality meteorological observation station which is anchored at sea and takes the observation buoy as a main body. The system can continuously collect marine hydrological water quality meteorological data required by marine scientific research, offshore oil (gas) development and port construction for a long time according to the specified requirements, and particularly can collect data of severe weather and sea conditions which are difficult to collect by a survey ship.

The utility model discloses a prior publication-CN 110962994B discloses a buoy mechanism for marine environment monitoring, this buoy mechanism for marine environment monitoring, including base, signal transmitter and air velocity monitor, the top surface fixedly connected with support of base, the surface fixedly connected with solar panel of support, the surface fixedly connected with annular water pipe of base, the bottom surface of annular water pipe has been seted up and has been sprayed the mouth, one side fixedly connected with booster pump of diapire in the base, the fixed intercommunication of the input of booster pump has the water inlet pipe. According to the buoy mechanism for marine environment monitoring, the buoyancy of the base when suffering from wind and waves is enhanced by arranging the telescopic mechanism, the connecting pipe and the air bag, so that the stability of the base is effectively enhanced, the problem that the outer surface of the base is attached with organisms for a long time and the service life of the base is reduced is solved by arranging the booster pump, the water inlet pipe, the drain pipe, the spraying port and the annular water pipe, the base can be cooled, and the service life of equipment in the base is prolonged; through the buffering of stormy waves among the above-mentioned technical scheme, receive and release the gasbag to increase the stability of base, can't carry out spacingly to the position of buoy, the iron chain soaks in the sea water for a long time, appears damaging cracked condition easily, receives environmental factor to influence greatly, makes the buoy drift to the place far away easily, so that lose, and the buoy receives the influence of stormy waves to take place the displacement easily, still needs the staff to remove fixedly, has certain not enoughly in the aspect of the practicality.

Disclosure of Invention

The invention aims to provide a buoy mechanism for marine environment monitoring, which aims to solve the problems that the position of a buoy cannot be limited in the technical scheme, the buoy is easy to displace under the influence of wind waves, and an iron chain is easy to damage and break after being soaked in seawater for a long time.

In order to achieve the above object, the present invention provides the following technical solutions: the buoy mechanism for marine environment monitoring comprises an upper cover body and a bottom connecting plate, wherein a first vertical rod and a water pump are inserted into the top of the upper cover body, fan blades are symmetrically fixed at the top of the first vertical rod, the fan blades are blown by the wind to rotate on the first vertical rod, a second vertical rod is connected to the interior of the upper cover body, a first transmission rod and a second transmission rod are connected between the second vertical rod and the first vertical rod, and a propeller and a first motor for moving the upper cover body and the bottom connecting plate are connected to the lower part of the second vertical rod;

keep away from fixedly connected with isolation frame in the upper cover body of second pole setting one side, isolation frame internally connected with winding post and chain, the chain winding is on the winding post, the one end of chain has connected gradually closure block and anchor, and wherein, the anchor passes the bottom connecting plate, and the closure block is connected with the bottom connecting plate, isolation frame's internal connection has the inlet tube, the inlet tube passes isolation frame and upper cover body and fixes the bottom at the water pump.

Further, the bottom of first pole setting passes upper cover body fixed connection and is in the one end of first transfer line, and first pole setting rotates in the upper cover body, the one end that first pole setting was kept away from to first transfer line rotates with the second transfer line to be connected.

Further, the top fixedly connected with driving disk of second pole setting, the top and the second transfer line eccentric connection of driving disk, and the one end that the second transfer line kept away from first transfer line rotates on the driving disk.

Further, screw and first motor symmetry connect in the second pole setting, first motor fixed connection is in one side of second pole setting, and the output shaft of first motor passes second pole setting and screw fixed connection, the top fixedly connected with location inductor of first motor, fixedly connected with protection casing in the second pole setting of first motor outer wall, fixedly connected with connection pad in the second pole setting of screw and first motor top.

Further, the central point department fixedly connected with rivers inductor of bottom connecting plate bottom, the outer wall of connection pad rotates to be connected on the bottom connecting plate, and the protection casing is fixed in the bottom of connection pad.

Further, the outer wall equidistance of upper portion lid is connected with suspension component, suspension component includes stock, gasbag and connecting block, connecting block fixed connection is at the outer wall of upper portion lid, one side that the upper portion lid was kept away from to the connecting block is rotated with the one end of stock and is connected, the one end that the connecting block was kept away from to the stock rotates with the gasbag to be connected, and the stock is done rotation from top to bottom according to sea rivers on gasbag and connecting block.

Further, the bottom of isolation frame is fixed on the bottom connecting plate, fixedly connected with water level inductor on the isolation frame of bottom connecting plate top, fixedly connected with second motor on the one side that the isolation frame is close to the second pole setting, the top fixedly connected with second sensor of second motor, the output shaft of second motor passes isolation frame and winding post fixed connection, and the one end that the winding post kept away from the second motor rotates the inner wall of connecting the upper portion lid.

Further, one end of the chain is fixed on the winding column, the other end of the chain is fixed at the top of the blocking block, and the bottom of the blocking block is fixed on the fixed anchor.

Further, a through hole is formed in the bottom of the bottom connecting plate, the chain slides in the through hole, and the blocking block is abutted to the through hole.

Further, the water pump is fixedly connected to the top of the upper cover body, a water outlet pipe is fixedly connected to one side, away from the first vertical rod, of the water pump, and a first sensor is fixed to the top of the water pump.

Compared with the prior art, the buoy mechanism for marine environment monitoring provided by the invention has the following beneficial effects:

according to the buoy mechanism for marine environment monitoring, the first vertical rod and the fan blades are connected to the upper cover plate, the fan blades drive the first vertical rod to rotate according to the wind direction of sea wind, the first vertical rod drives the second vertical rod to rotate through the first transmission rod and the second transmission rod, and the buoy beyond the monitoring range can be moved to the monitoring range by the first motor through the positioning sensor arranged on the first motor, so that the need of moving and fixing the buoy by workers is avoided;

through the isolation frame arranged in the upper cover body and the water flow sensor connected to the bottom connecting plate, sea waves can be monitored through the water flow sensor, and when the sea waves are large, the fixed anchor can be retracted and released through the chain and the fixed anchor stored in the isolation frame, so that the buoy is further fixed, and the practicability of the device is greatly improved;

in order to further protect the buoy, the water pump connected in the upper cover body and the water level sensor connected in the isolation frame can monitor the seawater in the isolation frame, and the seawater in the isolation frame is pumped away through the water pump, so that the isolation frame is prevented from being soaked in the seawater for a long time and damaged, the protection performance of the device is improved, and the cost expenditure is reduced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required for the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments described in the present invention, and other drawings may be obtained according to these drawings for a person having ordinary skill in the art.

FIG. 1 is a schematic view of the whole structure of the first view angle of the present invention;

FIG. 2 is a schematic diagram of the overall structure of the second view angle of the present invention;

FIG. 3 is a schematic view of an explosion structure at a first view angle according to the present invention;

FIG. 4 is a schematic diagram of an exploded view of the second view of the present invention;

FIG. 5 is a schematic cross-sectional view of the present invention;

FIG. 6 is a schematic view of a part of the structure of the present invention;

FIG. 7 is a schematic view showing the internal structure of the isolation frame of the present invention;

fig. 8 is an external schematic view of the isolation frame of the present invention.

Reference numerals illustrate:

1. an upper cover; 2. a bottom connecting plate; 3. a first upright; 4. a fan blade; 5. a water pump; 6. a levitation member; 601. a long rod; 602. an air bag; 603. a connecting block; 7. fixing anchors; 8. a protective cover; 9. a second upright; 10. a propeller; 11. a connecting disc; 12. a water flow sensor; 13. a drive plate; 14. an isolation frame; 15. winding a column; 16. a water inlet pipe; 17. a water outlet pipe; 18. a first sensor; 19. a first motor; 20. positioning an inductor; 21. a first transmission rod; 22. a second transmission rod; 23. a water level sensor; 24. a chain; 25. blocking; 26. a second motor; 27. and a second sensor.

Detailed Description

In order to make the technical scheme of the present invention better understood by those skilled in the art, the present invention will be further described in detail with reference to the accompanying drawings.

Referring to fig. 1-8, a buoy mechanism for marine environment monitoring comprises an upper cover 1 and a bottom connecting plate 2, wherein a first vertical rod 3 and a water pump 5 are inserted into the top of the upper cover 1, fan blades 4 are symmetrically fixed on the top of the first vertical rod 3, the fan blades 4 are rotated on the first vertical rod 3, a second vertical rod 9 is connected inside the upper cover 1, a first transmission rod 21 and a second transmission rod 22 are connected between the second vertical rod 9 and the first vertical rod 3, and a propeller 10 and a first motor 19 for moving the upper cover 1 and the bottom connecting plate 2 are connected to the lower part of the second vertical rod 9;

keep away from fixedly connected with isolation frame 14 in the upper cover 1 of second pole setting 9 one side, isolation frame 14 internally connected with winding post 15 and chain 24, the chain 24 twines on winding post 15, the one end of chain 24 has connected gradually closure 25 and anchor 7, wherein, anchor 7 passes bottom connecting plate 2, closure 25 is connected with bottom connecting plate 2, isolation frame 14's internal connection has inlet tube 16, inlet tube 16 passes isolation frame 14 and upper cover 1 to be fixed in the bottom of water pump 5.

Referring to fig. 2-6, the bottom of the first vertical rod 3 passes through the upper cover 1 and is fixedly connected to one end of the first transmission rod 21, the first vertical rod 3 rotates in the upper cover 1, one end of the first transmission rod 21 away from the first vertical rod 3 is rotationally connected with the second transmission rod 22, an included angle between two fan blades 4 on the first vertical rod 3 is ninety degrees, no matter which direction blows sea wind, the fan blades 4 can drive the first vertical rod 3 to point to the wind direction, when the first vertical rod 3 rotates, the first vertical rod 3 drives the first transmission rod 21 to do circular motion, the first transmission rod 21 drives the second vertical rod 9 connected to the bottom of the transmission disc 13 through the second transmission rod 22 to rotate, the second vertical rod 9 drives the connecting disc 11 to rotate on the bottom connecting plate 2, the propeller 10 and the fan blades 4 are always in the same direction, and the bottom connecting plate 2 plays a role of supporting the second vertical rod 9.

The top fixedly connected with driving disk 13 of second pole setting 9, the top and the eccentric connection of second transfer line 22 of driving disk 13, and the one end rotation setting of second transfer line 22 keeping away from first transfer line 21 is on driving disk 13.

The screw 10 and the first motor 19 are symmetrically connected to the second vertical rod 9, the first motor 19 is fixedly connected to one side of the second vertical rod 9, an output shaft of the first motor 19 penetrates through the second vertical rod 9 to be fixedly connected with the screw 10, the top of the first motor 19 is fixedly connected with a positioning sensor 20, the second vertical rod 9 on the outer wall of the first motor 19 is fixedly connected with a protective cover 8, the second vertical rod 9 above the screw 10 and the first motor 19 is fixedly connected with a connecting disc 11, the first motor 19 is electrically connected with an external power supply, the first motor 19 is electrically connected with the positioning sensor 20, and the positioning sensor 20 adopts the prior art, belongs to common knowledge of a person skilled in the art and is directly applied without modification, so that details are not repeated; when the positioning sensor 20 exceeds the set monitoring range, the positioning sensor 20 sends a starting signal to the first motor 19, the first motor 19 drives the propeller 10 to rotate, the upper cover 1 moves towards the monitoring range, and when the positioning sensor 20 enters the center of the monitoring range, the positioning sensor 20 stops sending a signal to the first motor 19, and the first motor 19 stops driving the propeller 10 to rotate.

The water flow sensor 12 is fixedly connected to the central position of the bottom connecting plate 2, and the water flow sensor 12 adopts the prior art, belongs to the common knowledge of the person skilled in the art, and is directly applied without modification, so that the description is omitted; the outer wall of connection pad 11 rotates to be connected on bottom connecting plate 2, and protection casing 8 is fixed in the bottom of connection pad 11, by the rivers inductor 12 of being connected on bottom connecting plate 2, can monitor the velocity of flow of sea water, when the wave is great, rivers inductor 12 sends the signal to second sensor 27, second sensor 27 starts second motor 26, second motor 26 drives winding post 15 rotation, the chain 24 on the winding post 15 is reeled out, chain 24 and anchor 7 receive the gravity influence to the seabed removal, limit the buoy, when the wave is reduced, and in a period of time, rivers are comparatively steady, when slow, rivers inductor 12 sends the signal to second sensor 27, second sensor 27 starts second motor 26, second motor 26 drives winding post 15 rotation and packs up chain 24 can.

The outer wall equidistance of upper portion lid 1 is connected with suspension member 6, suspension member 6 includes stock 601, gasbag 602 and connecting block 603, connecting block 603 fixed connection is at the outer wall of upper portion lid 1, one side that upper portion lid 1 was kept away from to connecting block 603 is rotated with the one end of stock 601 and is connected, one end that connecting block 603 was kept away from to stock 601 is rotated with gasbag 602 and is connected, and stock 601 rotates about according to sea rivers on gasbag 602 and connecting block 603, through the gasbag 602 that sets up on upper portion lid 1, can make the buoy float on the sea, through the connected mode between stock 601, gasbag 602 and the connecting block 603, be convenient for gasbag 602 reciprocates according to the float of the sea, not only increased the stationarity of buoy, still increased the flexibility of the device.

Referring to fig. 7 and 8, the bottom of the isolation frame 14 is fixed on the bottom connecting plate 2, and a water level sensor 23 is fixedly connected to the isolation frame 14 above the bottom connecting plate 2, wherein the water level sensor 23 is of the prior art, is common knowledge of those skilled in the art, and is directly applied without modification, and is not repeated herein; the side of the isolation frame 14 close to the second upright rod 9 is fixedly connected with a second motor 26, the top of the second motor 26 is fixedly connected with a second sensor 27, the second sensor 27 adopts the prior art, belongs to the common general knowledge of the person skilled in the art, and is directly applied without modification, so that the description is omitted; the output shaft of the second motor 26 passes through the isolation frame 14 and is fixedly connected with the winding column 15, and one end of the winding column 15 far away from the second motor 26 is rotationally connected with the inner wall of the upper cover body 1, and water in the isolation frame 14 can be monitored through the water level sensor 23 arranged in the isolation frame 14, so that seawater is prevented from being stored in the isolation frame 14 for a long time, and parts in the isolation frame 14 are corroded.

Referring to fig. 2 and 4, one end of a chain 24 is fixed on a winding column 15, the other end of the chain 24 is fixed on the top of a block 25, the bottom of the block 25 is fixed on a fixed anchor 7, and the block 25 connected between the chain 24 and the fixed anchor 7 can be connected with a through hole formed in a bottom connecting plate 2, so that seawater is prevented from entering an isolation frame 14 when the chain 24 is not used. The bottom of the bottom connecting plate 2 is provided with a through hole in which the chain 24 slides, and the block 25 abuts.

Referring to fig. 8, the water pump 5 is fixedly connected to the top of the upper cover 1, a water outlet pipe 17 is fixedly connected to one side of the water pump 5 away from the first upright 3, a first sensor 18 is fixed to the top of the water pump 5, the water pump 5 is electrically connected to an external power supply, the first sensor 18 is electrically connected to the water pump 5, when the water level sensor 23 in the isolation frame 14 senses seawater in use, the water level sensor 23 sends a signal to the first sensor 18, the first sensor 18 starts the water pump 5, and the water pump 5 discharges the seawater in the isolation frame 14 through the water outlet pipe 17 through a water inlet pipe 16 connected to the bottom.

Working principle: when in use, a worker firstly sets the monitoring range of the positioning sensor 20, the device can be placed in the monitoring range, when the device is influenced by sea wind and moves out of the monitoring range, the fan blade 4 can drive the first upright rod 3 to point to the wind direction, at the moment, the propeller 10 and the fan blade 4 are always in the same direction, the positioning sensor 20 sends a starting signal to the first motor 19, the first motor 19 drives the propeller 10 to rotate, the upper cover body 1 moves towards the monitoring range, when the positioning sensor 20 enters the center of the monitoring range, the positioning sensor 20 stops sending signals to the first motor 19, the first motor 19 stops driving the propeller 10 to rotate, when sea waves are large, the water flow sensor 12 sends signals to the second sensor 27, the second sensor 27 starts the second motor 26, the second motor 26 drives the winding post 15 to rotate, the chain 24 on the winding post 15 is wound out, the chain 24 and the fixed anchor 7 are influenced by gravity to move towards the sea bottom, the buoy is limited, at this moment, seawater enters the isolation frame 14 through the through hole formed in the bottom connecting plate 2, the water level sensor 23 senses the seawater and sends a signal to the first sensor 18, the first sensor 18 starts the water pump 5, the water pump 5 discharges the seawater in the isolation frame 14 through the water outlet pipe 17 through the water inlet pipe 16 connected with the bottom, the sea surface is calm, the water flow sensor 12 sends a signal to the second sensor 27, the second sensor 27 starts the second motor 26, and the second motor 26 drives the winding post 15 to rotate to retract the chain 24.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that modifications may be made to the described embodiments in various different ways without departing from the spirit and scope of the invention. Accordingly, the drawings and description are to be regarded as illustrative in nature and not as restrictive of the scope of the invention, which is defined by the appended claims.

Claims

1. The utility model provides a buoy mechanism for marine environment monitoring, includes upper cover body (1) and bottom connecting plate (2), its characterized in that, the top of upper cover body (1) is pegged graft and is had first pole setting (3) and water pump (5), the top symmetry of first pole setting (3) is fixed with flabellum (4), and two contained angle between flabellum (4) is ninety degrees setting, and wind blows flabellum (4) and rotates on first pole setting (3), the internal connection of upper cover body (1) has second pole setting (9), be connected with first transfer line (21) and second transfer line (22) between second pole setting (9) and first pole setting (3), the lower part of second pole setting (9) is connected with screw (10) and first motor (19) that move upper cover body (1) and bottom connecting plate (2), wherein, water pump (5) and first motor (19) all are connected with outside power electrically;

keep away from fixedly connected with isolation frame (14) in upper cover (1) of second pole setting (9) one side, isolation frame (14) internal connection has winding post (15) and chain (24), chain (24) twine on winding post (15), the one end of chain (24) has connected gradually sprue (25) and anchor (7), and wherein, anchor (7) pass bottom connecting plate (2), and sprue (25) are connected with bottom connecting plate (2), the internal connection of isolation frame (14) has inlet tube (16), inlet tube (16) pass isolation frame (14) and upper cover (1) to be fixed in the bottom of water pump (5);

the bottom of the first vertical rod (3) penetrates through the upper cover body (1) and is fixedly connected to one end of the first transmission rod (21), the first vertical rod (3) rotates in the upper cover body (1), and one end, far away from the first vertical rod (3), of the first transmission rod (21) is rotationally connected with the second transmission rod (22);

the top of the second vertical rod (9) is fixedly connected with a transmission disc (13), the top of the transmission disc (13) is eccentrically connected with a second transmission rod (22), and one end, far away from the first transmission rod (21), of the second transmission rod (22) is rotatably arranged on the transmission disc (13);

the screw propeller (10) and the first motor (19) are symmetrically connected to the second vertical rod (9), the first motor (19) is fixedly connected to one side of the second vertical rod (9), an output shaft of the first motor (19) penetrates through the second vertical rod (9) to be fixedly connected with the screw propeller (10), the top of the first motor (19) is fixedly connected with a positioning sensor (20), a protective cover (8) is fixedly connected to the second vertical rod (9) on the outer wall of the first motor (19), and a connecting disc (11) is fixedly connected to the second vertical rod (9) above the screw propeller (10) and the first motor (19);

a water flow sensor (12) is fixedly connected to the central position of the bottom connecting plate (2), the outer wall of the connecting disc (11) is rotatably connected to the bottom connecting plate (2), and the protective cover (8) is fixed to the bottom of the connecting disc (11);

the outer wall of the upper cover body (1) is equidistantly connected with a suspension component (6), the suspension component (6) comprises a long rod (601), an air bag (602) and a connecting block (603), the connecting block (603) is fixedly connected with the outer wall of the upper cover body (1), one side, far away from the upper cover body (1), of the connecting block (603) is rotationally connected with one end of the long rod (601), one end, far away from the connecting block (603), of the long rod (601) is rotationally connected with the air bag (602), and the long rod (601) rotates up and down on the air bag (602) and the connecting block (603) according to sea water flow;

the bottom of isolation frame (14) is fixed on bottom connecting plate (2), fixedly connected with water level inductor (23) on isolation frame (14) of bottom connecting plate (2) top, fixedly connected with second motor (26) on one side that isolation frame (14) is close to second pole setting (9), the top fixedly connected with second sensor (27) of second motor (26), the output shaft of second motor (26) passes isolation frame (14) and winding post (15) fixed connection, and the one end that winding post (15) kept away from second motor (26) rotates the inner wall of connecting upper portion lid (1).

2. Buoy mechanism for marine environmental monitoring according to claim 1, characterized in that one end of the chain (24) is fixed on the winding column (15), the other end of the chain (24) is fixed on top of the block (25), the bottom of the block (25) is fixed on the anchor (7).

3. Buoy mechanism for marine environmental monitoring according to claim 1, characterized in that the bottom of the bottom connection plate (2) is provided with a through hole, the chain (24) slides in the through hole and the block (25) abuts in the through hole.

4. Buoy mechanism for marine environmental monitoring according to claim 1, characterized in that the water pump (5) is fixedly connected to the top of the upper cover (1), one side of the water pump (5) away from the first upright (3) is fixedly connected with a water outlet pipe (17), and the top of the water pump (5) is fixedly provided with a first sensor (18).