CN115745203A

CN115745203A - Fishery resource monitoring system based on fresh water lake

Info

Publication number: CN115745203A
Application number: CN202211549078.XA
Authority: CN
Inventors: 朱书礼; 李捷; 李跃飞; 武智; 陈蔚涛; 杨计平
Original assignee: Pearl River Fisheries Research Institute CAFS
Current assignee: Pearl River Fisheries Research Institute CAFS
Priority date: 2022-12-05
Filing date: 2022-12-05
Publication date: 2023-03-07
Anticipated expiration: 2042-12-05
Also published as: CN115745203B

Abstract

The invention discloses a fishery resource monitoring system based on a freshwater lake, which comprises an installation ring, wherein a fixed cylinder is installed at the top end of the installation ring, a threaded inner cylinder is connected to the top position of the inner side of the fixed cylinder in a threaded manner, a water sample pipe is embedded into the inner side of the threaded inner cylinder, an inverted cone base is sleeved on the outer side of a connecting end, a water inlet pipe is installed on the inner side of the inverted cone base, a water inlet end of a water inlet hose is connected with a water suction pump, a water inlet end of the water suction pump is connected with a water suction hose, and a water inlet end of the water suction hose is connected with a sampling pipe.

Description

Fishery resource monitoring system based on fresh water lake

Technical Field

The invention relates to the technical field of freshwater fishery, in particular to a fishery resource monitoring system based on a freshwater lake.

Background

Fishery is a social industry sector for obtaining aquatic products by fishing, breeding and processing by utilizing the substance conversion function of organisms in water areas, and is generally divided into marine fishery and fresh water fishery. The fishery can provide food and industrial raw materials for people's life and national construction, is an important component of national economy, has abundant protein content which provides 6 percent of the total consumption of the world and 24 percent of the consumption of animal protein, can also provide high-quality fertilizer for agriculture, provide concentrated feed for animal husbandry and provide important raw materials for food, medicine and chemical industry. The fresh water fishery plays an important role in fishery production, fishery resources and environmental conditions need to be monitored in real time in fresh water fishery production activities, so that not only can the resource maintenance strategy be mastered and adjusted in time, but also a good water area environment required by normal growth of fishes can be ensured.

However, when a water sample is taken, the existing resource and environment monitoring is difficult to sample water bodies with different depths quickly and effectively, so that people can not know monitoring results comprehensively and accurately enough, comprehensive and effective data support can not be timely provided for fishery resource maintenance and environment monitoring, and green development of fishery is influenced. To avoid the above technical problems, it is necessary to provide a fisheries resource monitoring system based on a fresh water lake to overcome the above disadvantages in the prior art.

Disclosure of Invention

The invention provides a fishery resource monitoring system based on a fresh water lake, which can effectively solve the problem that water bodies with different depths are difficult to be quickly and effectively sampled when water samples are taken by the conventional fishery resource and environment monitoring provided in the background technology, so that people cannot know monitoring results comprehensively and accurately enough, cannot provide comprehensive and effective data support for fishery resource maintenance and environment monitoring in time, and further influences the green development of fishery.

In order to achieve the purpose, the invention provides the following technical scheme: a fishery resource monitoring system based on a fresh water lake comprises a mounting ring, wherein a sampling assembly is mounted on the outer side of the mounting ring;

the sampling assembly comprises a fixed cylinder, a threaded inner cylinder, a water sample pipe, a connecting end, a rubber leakage-proof plug, an inverted cone base, a water inlet pipe, an annular groove plate, an electric push rod, a water inlet hose, a water suction pump, a water suction hose, a sampling pipe, a waterproof servo motor, a lifting roller and a driving motor;

the top end of the mounting ring is provided with a fixed cylinder, the top position of the inner side of the fixed cylinder is in threaded connection with a threaded inner cylinder, the inner side of the threaded inner cylinder is embedded with a water sample pipe, the bottom end of the water sample pipe is connected with a connecting end, the inner side of the connecting end is embedded with a rubber leakage-proof plug, the outer side of the connecting end is sleeved with a reverse taper base, the inner side of the reverse taper base is provided with a water inlet pipe, the outer side of the mounting ring is rotatably sleeved with a ring groove plate, the outside of ring frid is connected with electric push rod, the end of intaking of back taper base is connected with the hose of intaking, the end of intaking of the hose of intaking is connected with the suction pump, the end of intaking of suction pump is connected with the hose of drawing water, the end of intaking of the hose of drawing water is connected with the sampling tube, waterproof servo motor is installed to a side end face of suction pump, waterproof servo motor's transmission end is connected with the lift roller, driving motor is installed to the bottom position department of ring frid.

Preferably, the flexible end of electric putter is connected with the back taper base, the control end of electric putter is connected with external control ware.

Preferably, the fixed cylinder is provided with a plurality of fixed cylinders, and the fixed cylinders are arranged at the top of the mounting ring at equal angles.

Preferably, driving motor's transmission end is connected with the drive roller, suction pump, waterproof servo motor and driving motor's input end all with external control ware's output electric connection.

Preferably, a movable oxygen generation assembly is installed on the outer side of the circular groove plate;

the movable oxygen generation assembly comprises a connecting rod, a clamping ring, a floating box, a left connecting rod, a right connecting rod, a positioning rod, a conversion groove plate, a rotating plate, a paddle machine, a propeller, a rotating rod, a driven gear, a motor base, a high-torque motor and a driving gear;

the welding of the outside of ring frid has the connecting rod, the one end of connecting rod is connected with the joint ring, the inboard embedding of joint ring has floating box, the outside of ring frid is connected with left connecting rod, the outside and the welding of left connecting rod symmetric position department of ring frid have right connecting rod, the locating lever is installed to a side end face of right connecting rod, conversion frid is installed to the one end of locating lever, the rotor plate is installed in the inboard rotation of conversion frid, the oar machine is installed to the bottom of rotor plate, the transmission end of oar machine is connected with the screw, the dwang is installed to a side end face of rotor plate, the outside joint of dwang has driven gear, the motor cabinet is installed on the top of conversion frid, high torsion motor is installed to the inboard of motor cabinet, the transmission end of high torsion motor is connected with drive gear.

Preferably, the two rotating plates are symmetrically arranged at the inner side of the conversion groove plate.

Preferably, the driven gear is meshed with the driving gear, and the input ends of the paddle machine and the high-torque motor are electrically connected with the input end of the external controller.

Preferably, a protection assembly is installed on one side end face of the positioning rod;

the protection assembly comprises a power line, a limiting metal cylinder, a limiting groove plate, a limiting connecting rod, a limiting clamping hole, a threaded limiting cylinder, a limiting screw rod, a floating block, a lightening hole and a power groove;

the locating device comprises a locating rod, a power line, a limiting metal cylinder, a limiting groove plate, a limiting connecting rod, a limiting clamping hole, a threaded limiting cylinder, a limiting screw rod, a floating block, a lightening hole and a power groove, wherein the power line is connected to one side end face of the locating rod, the limiting metal cylinder is clamped to the outer side of the locating rod, the limiting groove plate is sleeved to the outer side of the limiting groove plate, the threaded limiting cylinder is installed at the top position of the outer side of the limiting groove plate, the limiting screw rod is connected to the inner side of the threaded limiting cylinder in a threaded mode, the floating block is sleeved to the outer side of the power line, the lightening hole is formed in the inner side of the floating block, and the power groove is formed in the position, corresponding to the power line, of the inner side of the floating block.

Preferably, the outer diameter of the limiting metal cylinder is equal to the inner diameter of the limiting clamping hole, and the limiting metal cylinder is connected with the limiting groove plate in a sliding mode through the limiting clamping hole.

Preferably, two lightening holes are formed in the floating block, and the two lightening holes are symmetrically formed in the inner side of the floating block.

Compared with the prior art, the invention has the beneficial effects that: the invention has scientific and reasonable structure and safe and convenient use:

1. be provided with sampling component, the lift through the sampling tube can be with the water to the different degree of depth monitoring of taking a sample, and then can help people to carry out careful effectual monitoring to the fresh water condition of fishery, both made things convenient for people in time to master and adjust the resource maintenance strategy, can prevent again to cause fishery loss because of the water fault, very big has made things convenient for fresh water fishery maintenance, avoids the economic damage that fishery loss caused, has effectively promoted ecological benefits and economic benefits.

2. Be provided with and remove system oxygen subassembly, control high torsion motor and rotate, thereby it rotates to drive gear, then it is rotatory by drive gear drive driven gear, thereby it is rotatory in the inboard of conversion frid to drive the rotor plate, can drive the rotor plate this moment and rotate surface of water position department, thereby the continuous stirring surface of water of screw when can opening the oar machine this moment, thereby carry out oxygenation to the lake water, with the vigor that increases inside fish, and can be through the operating position who changes the oar machine, make the device can be arbitrary remove the optional position of lake surface and carry out the system oxygen, thereby the vigor of very big increase fish, further guarantee the growth that the fish can be healthy, improve the quality of fish, further promote economic profit.

3. Be provided with the protection subassembly, screw up stop screw to can fix the power cord to the short position of internal connection, only can pull the power cord beyond the wiring end when pulling this moment, thereby can prevent when equipment removes, pull the wiring end pine that the power cord leads to and take off, and then prevent bad contact, and through a plurality of floating blocks this moment, can prevent that the power cord from sinking the end, thereby prevent that sundries such as power cord and pasture and water from twining mutually, further guarantee that equipment can normal work operation.

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 structural view of the present invention;

FIG. 2 is a schematic structural view of a sampling assembly of the present invention;

FIG. 3 is a schematic view of the mounting structure of the sampling tube of the present invention;

FIG. 4 is a schematic view of the mounting structure of the sampling tube of the present invention;

FIG. 5 is a schematic structural view of the mobile oxygen generation assembly of the present invention;

FIG. 6 is a schematic structural view of the protective assembly of the present invention;

reference numbers in the figures: 1. a mounting ring;

2. a sampling assembly; 201. a fixed cylinder; 202. a threaded inner barrel; 203. a water sample pipe; 204. a connecting end; 205. rubber leakage-proof plugs; 206. an inverted cone base; 207. a water inlet pipe; 208. a ring groove plate; 209. an electric push rod; 210. a water inlet hose; 211. a water pump; 212. a water pumping hose; 213. a sampling tube; 214. a waterproof servo motor; 215. a lifting roller; 216. a drive motor;

3. the oxygen generation component is moved; 301. a connecting rod; 302. a snap ring; 303. a floating box; 304. a left connecting rod; 305. a right connecting rod; 306. positioning a rod; 307. a conversion slot plate; 308. a rotating plate; 309. a paddle machine; 310. a propeller; 311. rotating the rod; 312. a driven gear; 313. a motor base; 314. a high torque motor; 315. a drive gear;

4. a protection component; 401. a power line; 402. limiting the metal cylinder; 403. a limiting groove plate; 404. a limit connecting rod; 405. limiting clamp holes; 406. a threaded limiting cylinder; 407. a limit screw; 408. floating blocks; 409. lightening holes; 410. and a power supply groove.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Example (b): as shown in figures 1-6, the invention provides a technical scheme, a fishery resource monitoring system based on a fresh water lake, which comprises a mounting ring 1, wherein a sampling component 2 is arranged on the outer side of the mounting ring 1;

the sampling component 2 comprises a fixed cylinder 201, a threaded inner cylinder 202, a water sampling pipe 203, a connecting end 204, a rubber anti-leakage plug 205, an inverted cone base 206, a water inlet pipe 207, a ring groove plate 208, an electric push rod 209, a water inlet hose 210, a water pump 211, a water pumping hose 212, a sampling pipe 213, a waterproof servo motor 214, a lifting roller 215 and a driving motor 216;

the top end of the mounting ring 1 is provided with a plurality of fixed cylinders 201, the fixed cylinders 201 are arranged at the top position of the mounting ring 1 at equal angles, a plurality of samples are stored, the top position of the inner side of the fixed cylinders 201 is in threaded connection with a threaded inner cylinder 202, a water sample pipe 203 is embedded in the inner side of the threaded inner cylinder 202, the bottom end of the water sample pipe 203 is connected with a connecting end 204, the inner side of the connecting end 204 is embedded with a rubber leakage-proof plug 205, the outer side of the connecting end 204 is sleeved with an inverted cone base 206, the inner side of the inverted cone base 206 is provided with a water inlet pipe 207, the outer side of the mounting ring 1 is rotatably sleeved with a ring groove plate 208, the outer side of the ring groove plate 208 is connected with an electric push rod 209, and the telescopic end of the electric push rod 209 is connected with the inverted cone base 206, the control end of electric push rod 209 is connected with external control ware, make things convenient for the multiposition sample, the end of intaking of back taper base 206 is connected with into water hose 210, the end of intaking hose 210 is connected with water suction pump 211, the end of intaking of water suction pump 211 is connected with water suction hose 212, the end of intaking of water suction hose 212 is connected with sampling tube 213, waterproof servo motor 214 is installed to a side end face of water suction pump 211, waterproof servo motor 214's transmission end is connected with lift roller 215, driving motor 216 is installed to the bottom position department of annular plate 208, the transmission end of driving motor 216 is connected with the drive roller, conveniently rotate collar 1, water suction pump 211, the input end of waterproof servo motor 214 and driving motor 216 all with external control ware's output electric connection.

The outer side of the ring groove plate 208 is provided with a movable oxygen generating assembly 3;

the movable oxygen generating assembly 3 comprises a connecting rod 301, a clamping ring 302, a floating box 303, a left connecting rod 304, a right connecting rod 305, a positioning rod 306, a conversion groove plate 307, a rotating plate 308, a paddle machine 309, a propeller 310, a rotating rod 311, a driven gear 312, a motor base 313, a high-torque motor 314 and a driving gear 315;

the outer side of the annular groove plate 208 is welded with a connecting rod 301, one end of the connecting rod 301 is connected with a clamping ring 302, a floating box 303 is embedded in the inner side of the clamping ring 302, the outer side of the annular groove plate 208 is connected with a left connecting rod 304, a right connecting rod 305 is welded at the position where the outer side of the annular groove plate 208 is symmetrical to the left connecting rod 304, a positioning rod 306 is installed on one side end face of the right connecting rod 305, a conversion groove plate 307 is installed at one end of the positioning rod 306, a rotating plate 308 is rotatably installed on the inner side of the conversion groove plate 307, two rotating plates 308 are symmetrically installed at the position where the two rotating plates 308 are arranged, a convenient driving device is arranged, a paddle machine 309 is installed at the bottom end of the rotating plate 308, a propeller 310 is connected to the driving end of the paddle machine 309, a rotating rod 311 is installed on one side end face of the rotating plate 308, a driven gear 312 is clamped to the outer side of the rotating rod 311, a motor base 313 is installed at the top end of the conversion groove plate 307, a high-torque motor 314 is installed on the inner side of the driving base 313, a driving gear 315 is connected with a driving gear 315, the driven gear 312 is meshed with the driving gear 315, the rotating plate 308, the rotating plate is convenient to rotate the rotating plate 308, and the rotating plate, the input end of the high-torque motor 314, and the rotating motor is electrically connected with the input end of an external controller.

A protection component 4 is arranged on one end face of the positioning rod 306;

the protection component 4 comprises a power line 401, a limiting metal cylinder 402, a limiting groove plate 403, a limiting connecting rod 404, a limiting clamping hole 405, a threaded limiting cylinder 406, a limiting screw 407, a floating block 408, a lightening hole 409 and a power groove 410;

the end face of one side of the locating rod 306 is connected with a power line 401, the outer side of the locating rod is clamped with a limiting metal cylinder 402, the outer side of the limiting metal cylinder 402 is sleeved with a limiting groove plate 403, the outer diameter of the limiting metal cylinder 402 is equal to the inner diameter of a limiting clamping hole 405, the limiting metal cylinder 402 is in sliding connection with the limiting groove plate 403 through the limiting clamping hole 405, the limiting metal cylinder 402 is convenient to fix, the end face of one side of the limiting groove plate 403 is connected with a limiting connecting rod 404, the limiting clamping hole 405 is formed in the inner side of the limiting groove plate 403, a threaded limiting cylinder 406 is installed at the top position of the outer side of the limiting groove plate 403, a limiting screw rod 407 is connected with the inner side of the threaded limiting cylinder 406, a floating block 408 is sleeved on the outer side of the power line 401, a lightening hole 409 is formed in the inner side of the floating block 408, a power supply groove 410 is formed in the position, corresponding to the power line 401, two lightening holes 409 are formed, the two lightening holes 409 are symmetrically formed in the position of the inner side of the floating block 408, and resistance of the power line 401 is reduced.

The working principle and the using process of the invention are as follows: firstly, when sampling the water body, firstly moving the device to a position to be sampled through the propeller 310, then directly controlling the water pump 211 to work if the water body at the top of the lake needs to be sampled, at this time, the water pump 211 can be pumped into the inner side of the water pumping hose 212 through the sampling pipe 213, then the water is introduced into the inverted cone base 206 through the water inlet hose 210, finally the water is stored into the inner side of the water sample pipe 203 through the water inlet pipe 207, then the electric push rod 209 is controlled to work, the water inlet pipe 207 is pulled out from the inner side of the water sample pipe 203, then the driving motor 216 is controlled to rotate the mounting ring 1 at the inner side of the annular groove plate 208, and the next water sample pipe 203 is moved to the top end of the inverted cone base 206, thereby it contracts to retract at this moment control electric push rod 209 and insert inlet tube 207 the inboard of new empty water sample pipe 203, can control waterproof servo motor 214 afterwards and rotate, thereby drive lift roller 215 rotates, then will extend to with dark water department, can gather the water sample of different lake depth this moment, thereby lift through sampling tube 213 can be with the water to the different degree of depth monitoring of taking a sample, and then can help people to carry out meticulous effectual monitoring to the fresh water condition of fishery, both make things convenient for people in time to master and adjust resource maintenance strategy, can prevent to cause fishery loss because of the water becomes the event again, very big fresh water fishery maintenance of having made things convenient for, avoid the economic damage that fishery loss caused, ecological benefit and economic benefits have effectively been promoted. (ii) a

Then, when different positions need to be sampled, the device can be moved to the position needing to be sampled by controlling the two paddle machines 309 to work, the device can stably float on the water surface through the plurality of floating boxes 303 at the moment, then the device is sampled quickly, and after the sampling is finished, the high-torque motor 314 can be controlled to rotate so as to drive the driving gear 315 to rotate, then the driving gear 315 drives the driven gear 312 to rotate, so as to drive the rotating plate 308 to rotate on the inner side of the conversion trough plate 307, at the moment, the rotating plate 308 is driven to rotate to the position of the water surface, at the moment, the paddle machines 309 can be opened so that the propellers 310 continuously stir the water surface, so as to oxygenate the lake water, so as to increase the vitality of internal fishes, and the working position of the paddle machines 309 can be changed so that the device can be arbitrarily moved to any position of the lake surface to produce oxygen, so as to greatly increase the vitality of the fishes, further ensure that the fishes can grow healthily, improve the quality of the fishes, and further improve the economy;

finally, when equipment removed at the surface of water, power cord 401 can be continuously dragged, can be through screwing up stop screw 407 this moment, thereby can fix power cord 401 to the short position of internal connection, only can drag power cord 401 outside the terminal when dragging this moment, thereby can prevent when equipment removes, the terminal pine that drags power cord 401 and leads to takes off, and then prevent contact failure, and through a plurality of floating blocks 408 this moment, can prevent that power cord 401 from sinking, thereby prevent that power cord 401 from twining with debris such as pasture and water mutually, further guarantee that equipment can normal work operation.

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 fishery resources monitoring system based on fresh water lake, includes collar (1), its characterized in that: a sampling assembly (2) is arranged on the outer side of the mounting ring (1);

the sampling assembly (2) comprises a fixed cylinder (201), a threaded inner cylinder (202), a water sampling pipe (203), a connecting end (204), a rubber anti-leakage plug (205), an inverted cone base (206), a water inlet pipe (207), an annular groove plate (208), an electric push rod (209), a water inlet hose (210), a water suction pump (211), a water suction hose (212), a sampling pipe (213), a waterproof servo motor (214), a lifting roller (215) and a driving motor (216);

the utility model discloses a waterproof water pump, including collar (1), installation ring (1), the top of installation ring (201) is installed solid fixed cylinder (201), the inboard top position department threaded connection of solid fixed cylinder (201) has screw thread inner tube (202), the inboard embedding of screw thread inner tube (202) has water sample pipe (203), the bottom of water sample pipe (203) is connected with link (204), the inboard embedding of link (204) has rubber leak protection stopper (205), back taper base (206) has been cup jointed in the outside of link (204), inlet tube (207) are installed to the inboard of back taper base (206), the outside of installation ring (1) is rotated and is cup jointed and has been had annular groove board (208), the outside of annular groove board (208) is connected with electric putter (209), the end of intaking of back taper base (206) is connected with intake hose (210), the end of intaking of intake hose (210) is connected with suction pump (211), the end of intaking of suction pump (211) is connected with suction hose (213), waterproof servo motor (214) is installed to the one side terminal surface of suction pump (211), servo motor (214) the position of servo motor (216) is connected with lifting roller (216).

2. The freshwater lake-based fishery resource monitoring system according to claim 1, wherein: the flexible end of electric putter (209) is connected with back taper base (206), the control end of electric putter (209) is connected with external control ware.

3. The freshwater lake-based fishery resource monitoring system according to claim 1, wherein: the fixed cylinder (201) is provided with a plurality of fixed cylinders (201), and the fixed cylinders (201) are arranged at the top of the mounting ring (1) at equal angles.

4. The freshwater lake-based fishery resource monitoring system according to claim 1, wherein: the transmission end of driving motor (216) is connected with the drive roller, the input end of suction pump (211), waterproof servo motor (214) and driving motor (216) all with external control ware's output electric connection.

5. The fishery resource monitoring system based on the fresh water lake as claimed in claim 1, wherein: a movable oxygen generation assembly (3) is arranged on the outer side of the annular groove plate (208);

the movable oxygen generation assembly (3) comprises a connecting rod (301), a clamping ring (302), a floating box (303), a left connecting rod (304), a right connecting rod (305), a positioning rod (306), a conversion groove plate (307), a rotating plate (308), a paddle machine (309), a propeller (310), a rotating rod (311), a driven gear (312), a motor base (313), a high-torque motor (314) and a driving gear (315);

the outside welding of ring frid (208) has connecting rod (301), the one end of connecting rod (301) is connected with joint ring (302), the inboard embedding of joint ring (302) has floating box (303), the outside of ring frid (208) is connected with left connecting rod (304), the outside and the welding of left connecting rod (304) symmetrical position department of ring frid (208) have right connecting rod (305), locating lever (306) are installed to a side terminal surface of right connecting rod (305), conversion frid (307) are installed to the one end of locating lever (306), the inboard rotation of conversion frid (307) installs rotor plate (308), oar machine (309) is installed to the bottom of rotor plate (308), the transmission end of oar machine (309) is connected with screw (310), dwang (311) are installed to a side terminal surface of rotor plate (308), the outside joint of dwang (311) has driven gear (312), motor cabinet (313) are installed to the top of conversion frid (307), high torsion motor (314) are installed to the inboard of motor cabinet (313), the drive gear (315) end is connected with high torsion motor (315).

6. The system for monitoring fishery resources based on the fresh water lake as claimed in claim 5, wherein: the two rotating plates (308) are symmetrically arranged at the inner side positions of the conversion groove plate (307).

7. The system for monitoring fishery resources based on the fresh water lake as claimed in claim 5, wherein: the driven gear (312) is meshed with the driving gear (315), and the input ends of the paddle machine (309) and the high-torque motor (314) are electrically connected with the input end of an external controller.

8. The system for monitoring fishery resources based on the fresh water lake as claimed in claim 5, wherein: a protective assembly (4) is arranged on one side end face of the positioning rod (306);

the protection assembly (4) comprises a power line (401), a limiting metal cylinder (402), a limiting groove plate (403), a limiting connecting rod (404), a limiting clamping hole (405), a threaded limiting cylinder (406), a limiting screw (407), a floating block (408), a lightening hole (409) and a power groove (410);

the locating rod is characterized in that a power line (401) is connected to one side end face of the locating rod (306), a limiting metal barrel (402) is clamped to the outer side of the limiting metal barrel (402), a limiting groove plate (403) is sleeved to the outer side of the limiting groove plate (402), a limiting connecting rod (404) is connected to one side end face of the limiting groove plate (403), a limiting clamping hole (405) is formed in the inner side of the limiting groove plate (403), a threaded limiting barrel (406) is installed at the top position of the outer side of the limiting groove plate (403), a limiting screw rod (407) is connected to the inner side of the threaded limiting barrel (406), a floating block (408) is sleeved to the outer side of the power line (401), a lightening hole (409) is formed in the inner side of the floating block (408), and a power groove (410) is formed in the position, corresponding to the power line (401), of the inner side of the floating block (408).

9. The freshwater lake-based fishery resource monitoring system according to claim 8, wherein: the outer diameter of the limiting metal cylinder (402) is equal to the inner diameter of the limiting clamping hole (405), and the limiting metal cylinder (402) is connected with the limiting groove plate (403) in a sliding mode through the limiting clamping hole (405).

10. The freshwater lake-based fishery resource monitoring system according to claim 8, wherein: two lightening holes (409) are formed, and the two lightening holes (409) are symmetrically formed in the inner side positions of the floating block (408).