CN113219145A

CN113219145A - Multi-adaptability portable ocean engineering monitoring device

Info

Publication number: CN113219145A
Application number: CN202110510273.0A
Authority: CN
Inventors: 卜岿
Original assignee: Individual
Current assignee: Shengli Xinke Shandong Survey And Mapping Co ltd
Priority date: 2021-05-11
Filing date: 2021-05-11
Publication date: 2021-08-06
Anticipated expiration: 2041-05-11
Also published as: CN113219145B; CN116918742A

Abstract

The invention discloses a multi-adaptability portable monitoring device for ocean engineering, which comprises a monitoring device and is characterized in that: the monitoring device comprises a feeding mechanism, the feeding mechanism comprises a feeding ball, one side of the feeding mechanism is connected with a storage mechanism through a pipeline, the storage mechanism comprises a transmission ball, a fixed ball is arranged inside the feeding ball, the upper side and the lower side of the fixed ball are both connected with flexible membranes, a first bait cavity and a second bait cavity are formed between the feeding ball and the fixed ball respectively, a rotating hole is formed in the bottom of the second bait cavity, a bait column is connected to an inner bearing of the rotating hole, a pressing block is fixed to the top of the bait column and located inside the second bait cavity, two ends of the pressing block are both connected with bait inlets, and both sides of the inside of the second bait cavity are both connected with fixed shafts.

Description

Multi-adaptability portable ocean engineering monitoring device

Technical Field

The invention relates to the technical field of ocean monitoring devices, in particular to a multi-adaptability portable ocean engineering monitoring device.

Background

The existing multi-adaptability portable ocean engineering monitoring device cannot monitor the quality and environment of ocean through the amount of marine fish, and the existing multi-adaptability portable ocean engineering monitoring device cannot ensure the stability of the monitoring device through the amount of marine fish, so that the design of the multi-adaptability portable ocean engineering monitoring device with strong practicability and enhanced stability is necessary.

Disclosure of Invention

The invention aims to provide a multi-adaptability portable ocean engineering monitoring device to solve the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides a portable ocean engineering of many adaptability uses monitoring devices, includes monitoring devices, its characterized in that: the monitoring device is including throwing something and feeding the mechanism, throw something and feed including throwing something and feeding the ball of mechanism, one side pipe connection of throwing something and feeding the mechanism has storage mechanism, storage mechanism is including driving the ball.

According to the technical scheme, the feeding ball is internally provided with a fixed ball, the upper side and the lower side of the fixed ball are both connected with flexible membranes, a bait cavity I and a bait cavity II are respectively formed between the feeding ball and the fixed ball, the bottom of the bait cavity II is provided with a rotating hole, the inner bearing of the rotating hole is connected with a bait column, the top of the bait column is fixed with a pressing block, the pressing block is positioned inside the second bait cavity, the two ends of the pressing block are connected with bait inlets, the two sides inside the second bait cavity are connected with fixed shafts, the surfaces of the two groups of fixed shafts are connected with rotating shafts, blades are fixed on the toilet surface of the rotating shaft, connecting rods are fixed at both ends of the pressing block, a pull rod is connected between the connecting rods and the rotating shaft, the bottom of the bait column is provided with feeding strips in a training level, the top of each feeding ball is connected with a swinging ball, and the swinging ball is connected with a rotating shaft through a rope.

According to the technical scheme, be connected with the bait pipe between bait chamber one and the bait chamber two, the inside in bait chamber one is fixed with two sets of expansion bags, and is two sets of the expansion bags distributes in the both sides of bait pipe, the top of expansion bag is fixed with the baffle, be fixed with the expansion bag between flexbile membrane and the briquetting, the inside of expansion bag is fixed with expanding spring, the expansion bag is the pipe connection with the expansion bag.

According to the technical scheme, the two sides of the feeding ball are respectively connected with the first channel and the second channel, the inner part of the fixed ball is connected with the floating block, the through hole is formed in the floating block, the through hole is matched with the first channel and the second channel, the floating block is matched with the flexible membrane, and the floating block is in spring connection with the fixed ball.

According to the technical scheme, storage mechanism is including the storage ball, the top of storage ball is connected with the feed inlet, the inside in storage chamber is the storage chamber, the inside in ejection of compact chamber is provided with the fixed axle, the inside of fixed axle is the chamber that rolls, the center in chamber that rolls is fixed with the connecting axle, connecting axle external bearing is connected with the action wheel, the sliding surface of action wheel is connected with main movable blade, the upper and lower both sides in chamber that rolls all are connected with the frictional film, the frictional film contacts with the initiative leaf, the mobile hole has been seted up on the right side in storage chamber, mobile hole and roll chamber are through connection, it has the pipe chute to run through between roll chamber and the passageway two, the pipe chute is located inside the storage ball.

According to the technical scheme, the upper side and the lower side of the interior of the discharging cavity are respectively connected with the stirring wheel through bearings, the stirring blades are fixed on the surfaces of the stirring wheels and are in contact with the friction film, and the stirring blades are matched with the driving blades.

According to the technical scheme, the arc wall has been seted up to the both sides of storage ball, the inside sliding connection of arc wall has the arc kickboard, one side sliding connection that the arc kickboard is close to the action wheel has the slide, the below of arc kickboard is provided with the bottom plate, the bottom plate is fixed with the inner wall of storage ball, be fixed with the water pocket between slide and the bottom plate, the inside of action wheel is provided with flexible bag, be formed with the hydraulic pressure chamber between flexible bag and the action wheel, flexible bag is fixed with the one end of main movable vane, water pocket and hydraulic pressure chamber are the pipe connection.

According to the technical scheme, the friction film is made of flexible materials.

According to the technical scheme, one side of the sliding plate, which is close to the arc-shaped floating plate, is an inclined surface.

According to the technical scheme, the storage cavity is connected with the bait cavity I through a pipeline.

Compared with the prior art, the invention has the following beneficial effects: according to the invention, the feeding mechanism is arranged, so that the seawater environment and quality of the sea area can be judged according to the number of the marine fishes eating the bait, and the seawater condition can be conveniently monitored by workers, so that the seawater can be cleaned.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

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

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

FIG. 3 is a partially enlarged view of region A of the present invention;

in the figure: 1. throwing a ball for feeding; 2. floating blocks; 3. a bait chamber I; 4. a bait cavity II; 5. a first channel; 6. a second channel; 7. throwing feeding strips; 8. a tension spring; 9. a flexible film; 10. a rotating shaft; 11. a blade; 12. a bait tube; 13. a pull rod; 14. a connecting rod; 15. a bait inlet; 16. a bait column; 17. a bellows; 18. a baffle plate; 19. an inflation bladder; 20. a feed inlet; 21. a stirring wheel; 22. stirring blades; 23. a driving wheel; 24. a main movable blade; 25. rubbing the film; 26. briquetting; 27. a flow aperture; 28. an arc-shaped floating plate; 29. an arc-shaped slot; 30. a base plate; 31. a slide plate; 32. a hydraulic chamber; 33. a flexible bladder; 34. a water bladder; 35. and a through hole.

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. 1-3, the present invention provides the following technical solutions: the utility model provides a portable ocean engineering of many adaptability uses monitoring devices, includes monitoring devices, its characterized in that: the monitoring device comprises a feeding mechanism, the feeding mechanism comprises a feeding ball 1, one side of the feeding mechanism is connected with a storage mechanism through a pipeline, the storage mechanism comprises a transmission ball, when the environment of the ocean needs to be monitored, the monitoring device is placed in a certain ocean area in the ocean, bait is placed in the storage mechanism, the storage mechanism can provide power through the fluctuation of waves in the ocean, the feeding mechanism can stir the bait and increase the fluidity of the bait, the stability of the monitoring device can be increased according to the power provided by the waves, the bait is transmitted into the feeding mechanism, the feeding mechanism feeds the bait in the ocean, the bait is attracted to the ocean, when the local water quality and the environment of the ocean need to be monitored, the monitoring device is placed in the ocean, the sea fish is attracted through the bait, when more sea fishes come, the water quality of the ocean area is better, more sea fishes can survive without being cleaned by workers, when fewer sea fishes are eaten, the water quality of the local sea water is poor, more sea fishes go to other sea areas to live, and the workers are required to clean the sea water in the sea areas;

the inside of the feeding ball 1 is provided with a fixed ball, the upper side and the lower side of the fixed ball are both connected with a flexible membrane 9, a bait cavity I3 and a bait cavity II 4 are respectively formed between the feeding ball 1 and the fixed ball, the bottom of the bait cavity II 4 is provided with a rotating hole, the inner bearing of the rotating hole is connected with a bait column 16, the top of the bait column 16 is fixed with a pressing block 26, the pressing block 26 is positioned inside the bait cavity II 4, both ends of the pressing block 26 are both connected with a bait inlet 15, both sides of the inside of the bait cavity II 4 are both connected with fixed shafts, the surfaces of the two groups of fixed shafts are both connected with rotating shafts 10, the toilet surface of the rotating shaft 10 is fixed with blades 11, both ends of the pressing block 26 are both fixed with connecting rods 14, a pull rod 13 is connected between the connecting rods 14 and the rotating shaft 10, the bottom level of the bait column 16 is provided with a feeding strip 7, the top of the feeding ball 1 is connected with a swinging ball, the swinging ball is connected with the rotating shaft 10 by a rope, the monitoring device is placed in a sea area, bait in the bait cavity I can enter the bait cavity II through the bait pipe, the bait in the bait cavity can flow into the inside of the pressing block through the bait inlets on two sides of the pressing block and then flows into the inside of the bait column, and the bait can be attracted to sea fish to eat through the feeding strip, when more sea fish come, the bait can be concentrated around the feeding strip and touches the feeding strip, so that the feeding strip can drive the bait column to rock in the rotating hole, the connecting rod can be pulled to drive the pull rod to move during rocking, so that the rotating shaft is pulled to rotate, the blades are driven to rotate, the bait in the bait cavity II can be stirred when the blades rotate, the bait can flow, the speed of the bait flowing into the bait inlet is increased, the bait can be filled with the bait all the time, more sea fish can eat enough, the survival rate of the sea fish is increased, the ball at the top of the feeding ball can be pulled to rock when the rotating shaft rotates, at the staff observes that the ball rocks acutely, the situation that more sea fishes eat bait at the moment can be shown, the situation that the sea water quality of the local sea is good can be shown at the same time, cleaning by workers is not needed, when fewer sea fishes eat the bait, the bait column cannot shake, the bait column is in a vertical state at the moment, a connecting rod cannot be pulled to move, a pull rod cannot be pulled to move, a rotating shaft cannot rotate, bait cannot be stirred, the bait amount entering a bait inlet is reduced at the moment, the bait amount of the bait entering the bait inlet is reduced to supply less sea fish diet, bait waste is prevented, meanwhile, a shaking ball cannot be driven by the rotating shaft to shake, the shaking ball cannot shake by the workers at the moment, the situation that the water pollution of the sea area is large is proved, the survival rate of the fishes is low, the workers can clean the sea area to guarantee the bad life of the sea fishes, and the sea water environment and the quality of the sea area can be judged according to the number of the sea fishes eating the bait through the steps, the seawater condition can be conveniently monitored by workers, so that the seawater can be cleaned;

the bait tube 12 is connected between the bait cavity I3 and the bait cavity II 4, the two expansion bags 19 are fixed inside the bait cavity I3, the two expansion bags 19 are distributed on two sides of the bait tube 12, the baffle 18 is fixed at the top of each expansion bag 19, the expansion bag 17 is fixed between the flexible membrane 9 and the pressing block 26, the expansion spring 8 is fixed inside each expansion bag 17, the expansion bags 17 and the expansion bags 19 are connected through pipelines, in sum, when more sea fishes eat bait, the bait throwing strip can be propped against, the bait column can be propped upwards, the pressing block can extrude the expansion bags, gas inside the expansion bags is extruded inside the expansion bags, the baffle is propped up, the bait in the bait cavity I can enter the bait cavity II through the bait tube, the situation that the sea fishes eat too much bait is avoided, the bait can not eat enough bait, bait can provide bait for the sea fishes in time, when the sea fishes eat less bait, the bait throwing strip cannot be propped against, so that the bait column cannot move upwards, the pressing block cannot extrude the telescopic bag, the telescopic bag is propped open by the elasticity of the elastic telescopic spring, negative pressure is generated, gas in the expansion bag enters the inside of the telescopic bag, the baffle blocks the inlet of the bait pipe, bait in the first bait cavity cannot enter the inside of the second bait cavity, a large amount of bait flows out when fewer marine fishes are fed, waste is avoided, the bait cost can be saved, the amount of the bait is controlled by judging the amount of the marine fishes through the step, and the effect of saving the bait cost can be achieved;

the two sides of the feeding ball 1 are respectively connected with a first passage 5 and a second passage 6, the inner part of the fixed ball is connected with a floating block 2, the inner part of the floating block 2 is provided with a through hole 35, the through hole 35 is matched with the first passage 5 and the second passage 6, the floating block 2 is matched with a flexible membrane 9, the floating block 2 is in spring connection with the fixed ball, when more marine fishes gathered near the feeding strip are in, the marine fishes swim in seawater, so that larger waves are generated around the feeding ball, the seawater passing through the through hole is more, the floating block can be pressed downwards to press the flexible membrane, the floating block can press the flexible membrane, the telescopic bag can be pressed together with a pressing block, the gas in the inner part is input into the expansion bag to push the baffle open, the baffle can be pushed open under the condition that a fish bait column cannot be pushed by the marine fishes without moving the top of the fish bait column, preparation is made for throwing more baits, when fewer marine fishes near the feeding strip, the fluctuation range of the seawater is not large, at the moment, less seawater enters the through holes in the floating blocks, so that the floating blocks cannot move downwards, the floating blocks are kept in situ, the through holes are communicated with the first channel, the seawater enters the floating blocks through the first channel and flows into the second channel through the through holes in the floating blocks, the seawater flows out of the feeding balls, the phenomenon that the feeding balls sink into the seawater due to more seawater accumulated in the feeding balls is prevented, and the utilization rate of the monitoring device can be improved;

the storage mechanism comprises a storage ball, the top of the storage ball is connected with a feed inlet 20, the storage cavity is internally provided with a storage cavity, the discharge cavity is internally provided with a fixed shaft, the fixed shaft is internally provided with a rolling cavity, the center of the rolling cavity is fixedly provided with a connecting shaft, the outer bearing of the connecting shaft is connected with a driving wheel 23, the surface of the driving wheel 23 is connected with a driving movable blade 24 in a sliding way, the upper side and the lower side of the rolling cavity are both connected with friction membranes 25, the friction membranes 25 are contacted with the driving blades 24, the right side of the storage cavity is provided with a flow hole 27, the flow hole 27 is in through connection with the rolling cavity, an inclined pipe penetrates between the rolling cavity and a channel II 6 and is positioned in the storage ball, a worker inputs bait into the storage cavity of the storage ball through a discharge port, seawater entering the feeding ball can enter into the inclined pipe through the channel II and flows into the rolling cavity along with the inclined pipe, and water flow can impact the main movable blade to rotate due to the inclined pipe being in a slope shape, the flow hole is positioned below the driving wheel, just penetrates through the rolling cavity and penetrates through the inclined tube, so that the seawater in the rolling cavity can be quickly discharged to the flow hole, the circulation of the seawater in the monitoring device is increased, and the phenomenon that the whole monitoring device sinks due to more accumulated seawater in the monitoring device is avoided;

the upper side and the lower side of the interior of the discharging cavity are both in bearing connection with a stirring wheel 21, the surface of the stirring wheel 21 is fixed with a stirring blade 22, the stirring blade 22 is in contact with a friction film 25, the stirring blade 22 is matched with a driving blade 24, when more seawater enters, the rotating speed of the driving blade is increased, the driving blade is contacted with the stirring, so that the driving blade drives the stirring blade to rotate faster, the stirring blade drives the stirring wheel to rotate faster, the bait in the storage cavity can be quickly stirred and ground, so that the sea fish can be conveniently eaten, and can avoid the accumulation of the baits, thereby increasing the liquidity of the baits in the storage cavity, when less seawater enters, the rotating speed of the main movable blade is reduced, so that the rotating speed of the stirring blade is reduced, the bait speed in the stirring storage cavity is reduced, the stirring blade is prevented from being worn due to high-speed running all the time, and the service life of the stirring blade can be prolonged;

the two sides of the storage ball are provided with arc-shaped grooves 29, the inner part of the arc-shaped grooves 29 is connected with arc-shaped floating plates 28 in a sliding manner, one side of the arc-shaped floating plates 28, which is close to the driving wheel 23, is connected with a sliding plate 31 in a sliding manner, a bottom plate 30 is arranged below the arc-shaped floating plates 28, the bottom plate 30 is fixed with the inner wall of the storage ball, a water sac 34 is fixed between the sliding plate 31 and the bottom plate 30, a flexible sac 33 is arranged inside the driving wheel 23, a hydraulic cavity 32 is formed between the flexible sac 33 and the driving wheel 23, the flexible sac 33 is fixed with one end of the main movable blade 24, the water sac 34 is connected with the hydraulic cavity 32 through a pipeline, when fish around the monitoring device is few, the fluctuation of seawater is small, the device can shake in a small range, at the moment, the seawater entering the rolling cavity is few, the rotating speed of the driving blade is slow, so that the distance of the main movable blade is thrown outwards due to inertial force is not large, the flexible sac is pulled to expand outwards, and the force for extruding the hydraulic cavity is small, less liquid in the hydraulic cavity is extruded into the water bag to slightly expand the water bag, the sliding plate is pushed upwards for a small distance, the sliding plate can outwards push the arc floating plates in the arc grooves at the two sides of the storage ball for a small distance at the moment, the extended arc floating plates are contacted with seawater to prevent the storage ball from shaking, the stability of the storage ball can be preliminarily ensured, when more fish around the monitoring device exist, the seawater fluctuation is large, the shaking amplitude of the device is increased, the seawater entering the rolling cavity is more at the moment, the rotating speed of the driving blades is increased, the distance that the driving blades are outwards thrown due to inertial force is increased, the flexible bag is pulled to outwards expand, the force for extruding the hydraulic cavity is large, more liquid in the hydraulic cavity is extruded into the water bag, the expansion degree of the water bag is increased, the sliding plate is pushed upwards for a large distance, and the sliding plate can outwards push the arc floating plates in the arc grooves at the two sides of the storage ball for a large distance at the moment, the longer the length of the extended arc-shaped floating plate is, the longer the arc-shaped floating plate is contacted with seawater, the stability of the storage ball can be further ensured, and the extended length of the arc-shaped floating plate is adjusted according to the amount of bait eaten by the marine fish, so that the stability of the storage ball is ensured;

the friction film 25 is made of a flexible material, so that the service life of the friction film can be prolonged;

one side of the sliding plate 31 close to the arc-shaped floating plate 28 is an inclined surface, because one side of the sliding plate is the inclined surface, the upper side is a low surface, and the lower side is a higher surface, when the ascending distance of the sliding plate is short, the lower surface of the sliding plate can push the arc-shaped floating plate out for a short distance, and when the ascending distance of the sliding plate is long, the higher surface of the sliding plate can push the arc-shaped floating plate out for a large distance;

the storage cavity is connected with the bait cavity 3 through a pipeline, and bait in the storage cavity can be input into the bait cavity through the pipeline.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a portable ocean engineering of many adaptability uses monitoring devices, includes monitoring devices, its characterized in that: the monitoring device is including throwing something and feeding the mechanism, throw something and feed including throwing something and feeding ball (1) of mechanism, one side pipe connection of throwing something and feeding the mechanism has storage mechanism, storage mechanism is including driving the ball.

2. The adaptive portable monitoring device for oceanographic engineering according to claim 1, characterized in that: the bait feeding device is characterized in that a fixed ball is arranged inside the feeding ball (1), the upper side and the lower side of the fixed ball are both connected with a flexible membrane (9), a bait cavity I (3) and a bait cavity II (4) are formed between the feeding ball (1) and the fixed ball respectively, a rotating hole is formed in the bottom of the bait cavity II (4), a bait column (16) is connected to an inner bearing of the rotating hole, a pressing block (26) is fixed to the top of the bait column (16), the pressing block (26) is located inside the bait cavity II (4), bait inlets (15) are connected to two ends of the pressing block (26), fixed shafts are connected to two sides of the inside of the bait cavity II (4), the surfaces of the two groups of fixed shafts are both connected with rotating shafts (10), blades (11) are fixed to the toilet seat of the rotating shafts (10), connecting rods (14) are fixed to two ends of the pressing block (26), be connected with pull rod (13) between connecting rod (14) and rotation axis (10), the level is trained in the bottom of bait post (16) has throws feeding strip (7), the top of throwing feeding ball (1) is connected with shakes the ball, it is connected for the rope with rotation axis (10) to shake the ball.

3. The adaptive portable monitoring device for oceanographic engineering according to claim 2, characterized in that: bait pipe (12) are connected with between bait chamber (3) and the bait chamber two (4), the inside of bait chamber (3) is fixed with two sets of inflation bags (19), and is two sets of inflation bag (19) distribute in the both sides of bait pipe (12), the top of inflation bag (19) is fixed with baffle (18), be fixed with bellows (17) between flexbile diaphragm (9) and briquetting (26), the inside of bellows (17) is fixed with expanding spring (8), bellows (17) and inflation bag (19) are the pipe connection.

4. The adaptive portable monitoring device for oceanographic engineering according to claim 3, characterized in that: the both sides of throwing the ball of feeding (1) are connected with passageway one (5) and passageway two (6) respectively, the internal connection of fixed ball has floating block (2), through-hole (35) have been seted up to the inside of floating block (2), through-hole (35) cooperate with passageway one (5) and passageway two (6), floating block (2) cooperate with flexible membrane (9), floating block (2) are spring coupling with the fixed ball.

5. The adaptive portable monitoring device for oceanographic engineering according to claim 4, characterized in that: storage mechanism is including the storage ball, the top of storage ball is connected with feed inlet (20), the inside in storage chamber is the storage chamber, the inside in unloading chamber is provided with the fixed axle, the inside of fixed axle is the chamber of rolling, the center in chamber of rolling is fixed with the connecting axle, connecting axle external bearing is connected with action wheel (23), the sliding surface of action wheel (23) is connected with main movable blade (24), the upper and lower both sides in chamber of rolling all are connected with tribofilm (25), tribofilm (25) contact with main movable blade (24), mobile hole (27) have been seted up on the right side in storage chamber, mobile hole (27) are through connection with the chamber of rolling, it has the pipe chute to run through between chamber of rolling and two (6), the pipe chute is located inside the storage ball.

6. The adaptive portable monitoring device for oceanographic engineering according to claim 5, characterized in that: equal bearing connection in both sides has stirring wheel (21) about the inside of unloading chamber, the fixed surface of stirring wheel (21) has stirring leaf (22), stirring leaf (22) contact with tribofilm (25), stirring leaf (22) and initiative leaf (24) cooperate.

7. The adaptive portable monitoring device for oceanographic engineering according to claim 6, characterized in that: arc wall (29) have been seted up to the both sides of storage ball, the inside sliding connection of arc wall (29) has arc kickboard (28), one side sliding connection that arc kickboard (28) are close to action wheel (23) has slide (31), the below of arc kickboard (28) is provided with bottom plate (30), bottom plate (30) are fixed with the inner wall of storage ball, be fixed with water pocket (34) between slide (31) and bottom plate (30), the inside of action wheel (23) is provided with flexible bag (33), be formed with hydraulic pressure chamber (32) between flexible bag (33) and action wheel (23), flexible bag (33) are fixed with the one end of initiative leaf (24), water pocket (34) are pipe connection with hydraulic pressure chamber (32).

8. The adaptive portable monitoring device for oceanographic engineering according to claim 7, characterized in that: the friction film (25) is made of flexible materials.

9. The adaptive portable monitoring device for oceanographic engineering according to claim 8, characterized in that: one side of the sliding plate (31) close to the arc-shaped floating plate (28) is an inclined surface.

10. The adaptive portable monitoring device for oceanographic engineering according to claim 9, characterized in that: the storage cavity is connected with the bait cavity I (3) through a pipeline.