CN116514296B

CN116514296B - Water ecological restoration processing system

Info

Publication number: CN116514296B
Application number: CN202310768909.0A
Authority: CN
Inventors: 奚霄松; 冯业成; 王洁; 王子萌; 谢剑刚
Original assignee: Gardening Lanscaping Construction Co ltd
Current assignee: Gardening Lanscaping Construction Co ltd
Priority date: 2023-06-28
Filing date: 2023-06-28
Publication date: 2023-09-05
Anticipated expiration: 2043-06-28
Also published as: CN116514296A

Abstract

The invention discloses a water ecological restoration treatment system, which belongs to the technical field of ecological restoration and comprises a ship body, wherein a plurality of middle discs are rotatably arranged on a main shaft, a rotating disc is rotatably arranged on each middle disc, a plurality of gear shafts are rotatably arranged on each rotating disc, a scraping plate is rotatably arranged on each gear shaft, a protruding support is fixedly arranged on each scraping plate, a rotating frame is rotatably arranged on each protruding support, a fixed filter plate is fixedly arranged on each rotating frame, a sliding filter plate is slidably arranged on each fixed filter plate, the sliding filter plates are staggered with the fixed filter plates, the sliding filter plates and the fixed filter plates are parallel to the scraping plates after rotating, so that the moving speed of the device is increased, and meanwhile, a fixed cylinder can be used for fixing the device, so that the device can be used for driving water to flow and oxygen in water, and accelerating the diffusion speed of a medicament, and the ecological restoration efficiency is accelerated.

Description

Water ecological restoration processing system

Technical Field

The invention belongs to the technical field of ecological restoration, and particularly relates to a water ecological restoration treatment system.

Background

In the process of economic rapid development, the development of industry has serious damage to ecological environment, so that river pollution is caused, and further, the problems of water quality reduction, water resource shortage and the like are caused, meanwhile, the surface vegetation is also seriously damaged, the oxygen content in a water source is reduced, the ecological environment is unbalanced, and the ecological environment is greatly necessary for the ecological management and ecological protection problems of the river.

The invention discloses a Chinese patent with publication number of CN110697904A, which discloses a floating bed for ecologically repairing water and relates to the technical field of ecologically repairing.

The invention discloses a Chinese patent with publication number of CN116099276A, which discloses a landscape water ecological restoration system and relates to the technical field of water ecological restoration devices.

The device is only the basic link of ecological management, not clear up to current rubbish in the river course, simultaneously to the river course self-repairing process, still need use certain nutritional agent to accelerate ecological remediation efficiency in the river course, and when repairing ecological environment, the problem that runs into often has a plurality of, so all go on one by one when solving to each problem, when carrying out ecological remediation like this, ecological remediation's efficiency is often very low, the cost is too high when ecological remediation simultaneously, leads to ecological remediation engineering to be difficult to generally use.

Disclosure of Invention

Aiming at the technical problems, the invention provides the following technical scheme:

the utility model provides a water ecological restoration processing system, includes the hull, the one end fixed mounting of hull has the bin, fixed mounting has the rotation motor on the hull, fixed mounting has the motor gear on the output shaft of rotation motor, rotation is installed on the hull has the main shaft, rotation is installed on the main shaft has a plurality of intermediate disks, rotation is installed on the intermediate disks and is rotated the dish, be provided with outer lane tooth on the rotating disk, outer lane tooth and motor gear engagement, rotation is installed on the rotating disk has a plurality of gear shafts, fixed first gear on the gear shaft, fixed mounting has a plurality of draw-in groove pieces on the gear shaft, be provided with a plurality of scraper blade draw-in grooves on the draw-in groove piece, fixed mounting has the carousel torsional spring on one end of the draw-in groove piece near the rotating disk, fixed mounting is on the rotating disk at the other end of carousel torsional spring, still rotate and install the scraper blade on the gear shaft, scraper blade and fixed connection, one end fixed mounting that the scraper blade kept away from the scraper blade is provided with the protrusion gear shaft support, be provided with the rotating frame on the protrusion support, fixed mounting has the scraper blade on the motor gear wheel, rotation is provided with a plurality of gear shafts, fixed mounting on the other end of scraper blade, rotation is provided with a plurality of scraper blades on the filter plate support, fixed mounting is provided with the filter plate, fixed mounting has the filter screen on the other end of the filter plate, fixed mounting is fixed mounting has the filter screen on the filter carrier, fixed mounting has the filter screen, and fixed mounting has fixed mounting on the sliding frame, the other end of the steel rope is fixedly arranged on the gear shaft.

Further, the bin rotates and installs a plurality of fixed cylinders, also be provided with a plurality of fixed cylinders on the hull, fixed cylinder can be fixed this device and work in the river course that flows when using, fixed mounting has the spray line on the one end that the bin was kept away from to the hull.

Further, the one end fixed mounting who keeps away from the hull of spray line has the sprinkler, fixed mounting collects the concave plate on the intermediate tray, collect the concave plate and be trapezoidal, its one end that collects the concave plate side length is the open end, one side fixed mounting who collects the concave plate has the swing board, fixed mounting has a plurality of protruding She Niuhuang on the swing board, and protruding She Niuhuang's the other end fixed mounting is on collecting the concave plate, still rotate on the intermediate tray and install the collection screw rod.

Further, collect screw rod and main shaft meshing, still fixed mounting has the lifting pipeline on the collection concave plate, the lifting pipeline rotates with the collection screw rod and is connected, still rotate in the lifting pipeline and install the lifting screw rod, the lifting screw rod rotates with the collection concave plate and is connected, the one end that the collection concave plate was kept away from to the lifting screw rod is provided with first bevel gear, still rotate on the collection concave plate and install the bevel gear axle, the bevel gear axle meshes with first bevel gear on the lifting screw rod, the bevel gear axle still rotates with the intermediate lamella to be connected, fixed mounting has first pipeline on the collection concave plate.

Further, the conveying screw is rotationally installed in the first pipeline, the first pipeline is fixedly connected with the lifting pipeline, the first pipeline is fixedly connected with the collecting concave plate, a first belt is further arranged on the bevel gear shaft, the other end of the first belt is arranged on the conveying screw, a second belt is further arranged on the conveying screw, and the other end of the second belt is arranged on the main shaft.

Further, one end of the first pipeline, which is far away from the lifting pipeline, is provided with a transfer pipeline, the transfer pipeline is fixedly connected with the ship body, the transfer pipeline is fixedly connected with the storage box, and an outlet of the transfer pipeline is arranged in the storage box.

Further, still rotate on the hull and install the card fluted disc, be provided with a plurality of card tooth draw-in grooves on the card fluted disc, card tooth dish and epaxial first gear engagement of gear, still slidable mounting has a plurality of displacement fixture blocks on the rotating disc, the displacement fixture block contacts with card tooth draw-in groove on the card fluted disc, the displacement fixture block still contacts with the scraper blade draw-in groove on the draw-in groove piece.

Further, the clamping groove spring is fixedly installed on the displacement clamping block, the other end of the clamping groove spring is fixedly installed on the rotating disc, the telescopic cylinder is fixedly installed on the ship body, the extrusion inclined ring is fixedly installed at the other end of the telescopic cylinder and is in contact with the displacement clamping block, and an inclined surface is arranged on one surface, in contact with the displacement clamping block, of the extrusion inclined ring and is used for extruding the displacement clamping block to move.

Compared with the prior art, the invention has the beneficial effects that: (1) The device is arranged on the water surface through the ship body, and can clean floating garbage on the water surface through the scraping plate, the sliding filter plate and the fixed filter plate when the device moves on the water surface; (2) The device sprays various liquids by arranging the sprayer, then the sliding filter plate and the fixed filter plate are staggered, the sliding filter plate and the fixed filter plate rotate and are parallel to the scraping plate, so that the moving speed of the device is increased, and meanwhile, the device can be fixed by using the fixed cylinder, so that the device can be used for driving the water area to flow and to perform oxygenation in water, and the liquid diffusion speed of the sprayer spraying is accelerated, so that the ecological restoration efficiency is accelerated; (3) The device can clean the shallow water area by dredging or garbage when rotating through the scraping plate, the sliding filter plate and the fixed filter plate, and then deposit and store through the storage box.

Drawings

Fig. 1 is a schematic diagram of the whole structure of the device.

Fig. 2 is a cross-sectional view of the storage tank and hull of the device.

Fig. 3 is an enlarged view at a in fig. 2.

FIG. 4 is a schematic view of the structure of the collecting concave of the device.

Fig. 5 is a cross-sectional view of the first pipe and bevel gear of the present device.

FIG. 6 is a schematic diagram of the structure of the slot block of the device.

Fig. 7 is a schematic diagram of the structure of the rotating frame of the device.

FIG. 8 is a schematic diagram of the structure of the latch plate of the present device.

Reference numerals: 101-a hull; 102-a storage tank; 103-fixing a cylinder; 104-a sprinkler; 105-a spray pipe; 106, rotating a motor; 107-telescopic cylinders; 108-a motor gear; 201-collecting concave plate; 202-swinging plate; 203-a spindle; 204-a conveyor screw; 205-a first pipe; 206-collecting the screw; 207-bevel gear shaft; 208-lifting the pipeline; 209-lifting the screw; 210-switching the pipeline; 301-an intermediate disk; 303-rotating a disc; 304-a clamping fluted disc; 305-extruding the diagonal ring; 306-a gear shaft; 401-a scraper; 403-steel cord; 404-a clamping groove block; 405-turntable torsion spring; 406-displacing the clamping block; 407-slide filter plate; 408-fixing the filter plate; 409-turret; 410-rotating the rope; 411-projecting brackets; 412-a detent spring.

Description of the embodiments

As shown in fig. 1 and 2, the water ecological restoration processing system comprises a hull 101, wherein a storage tank 102 is fixedly arranged at one end of the hull 101, a plurality of fixed air cylinders 103 are rotatably arranged on the storage tank 102, a plurality of fixed air cylinders 103 are also arranged on the hull 101, the fixed air cylinders 103 can fix the device in a flowing river channel for working when in use, a spraying pipeline 105 is fixedly arranged at one end, far away from the storage tank 102, of the hull 101, a sprayer 104 is fixedly arranged at one end, far away from the hull 101, of the spraying pipeline 105, and the sprayer 104 is used for spraying a medicament or nutrient solution stored in the hull 101.

As shown in fig. 2 to 5, a cleaning motor is fixedly installed on the hull 101, a main shaft 203 is fixedly installed on an output shaft of the cleaning motor, the main shaft 203 is rotatably connected with the hull 101, a plurality of intermediate disks 301 are rotatably installed on the main shaft 203, a collecting concave plate 201 is fixedly installed on the intermediate disks 301, the collecting concave plate 201 is trapezoid, one end of the collecting concave plate 201 with the longest side length is an opening, a swinging plate 202 is fixedly installed on one side of the collecting concave plate 201, a plurality of protrusions She Niuhuang are fixedly installed on the swinging plate 202, the other end of the protrusions She Niuhuang is fixedly installed on the collecting concave plate 201, a collecting screw 206 is rotatably installed on the intermediate disks 301, the collecting screw 206 is meshed with the main shaft 203, a lifting screw 208 is fixedly installed on the collecting concave plate 201, the lifting screw 208 is rotatably connected with the collecting screw 206, a lifting screw 209 is rotatably installed in the lifting pipe 208, one end, far from the collecting concave plate 201, of the collecting concave plate 201, a first bevel gear 205 is fixedly installed on one end 205, a first bevel gear shaft 205 is rotatably installed on the collecting concave plate 201, a second bevel gear shaft 207 is rotatably installed on the collecting screw 207 is rotatably connected with the first bevel gear shaft 201, a lifting screw 207 is fixedly installed on the second bevel gear shaft 204, a lifting screw 207 is rotatably connected with the second bevel gear shaft 204, a lifting screw 207 is fixedly installed on the second bevel gear shaft 204 is rotatably installed on the intermediate shaft 207, a lifting screw 204 is fixedly connected with the lifting screw 204, the one end that first pipeline 205 kept away from lifting pipeline 208 is provided with transfer pipeline 210, transfer pipeline 210 and hull 101 fixed connection, transfer pipeline 210 still with bin 102 fixed connection, the export setting of transfer pipeline 210 is in bin 102.

As shown in fig. 3, 6 and 7, a rotating motor 106 is fixedly installed on the hull 101, a motor gear 108 is fixedly installed on an output shaft of the rotating motor 106, a rotating disc 303 is rotatably installed on an intermediate disc 301 close to the rotating motor 106, an outer ring tooth is arranged on the rotating disc 303, the outer ring tooth is meshed with the motor gear 108, a plurality of gear shafts 306 are rotatably installed on the rotating disc 303, a first gear is fixedly installed on the gear shafts 306, a plurality of clamping groove blocks 404 are fixedly installed on the gear shafts 306, a plurality of scraper clamping grooves are formed in the clamping groove blocks 404, a turntable torsion spring 405 is fixedly installed at one end of the clamping groove blocks 404 close to the rotating disc 303, the other end of the turntable torsion spring 405 is fixedly installed on the rotating disc 303, a scraper 401 is also rotatably installed on the gear shafts 306, the scraper 401 is fixedly connected with the clamping groove blocks 404, the end of the scraper 401 far away from the gear shaft 306 is fixedly provided with a protruding support 411, the protruding support 411 is rotatably provided with a rotating frame 409, the rotating frame 409 is fixedly provided with a scraper torsion spring, the other end of the scraper torsion spring is fixedly provided with the scraper 401, the rotating frame 409 is fixedly provided with a fixed filter plate 408, the fixed filter plate 408 is slidably provided with a sliding filter plate 407, the sliding filter plate 407 and the fixed filter plate 408 are respectively provided with a plurality of filtering holes, the sliding filter plate 407 is slidably connected with the rotating frame 409, the sliding filter plate 407 is fixedly provided with a filtering screen spring, the other end of the filtering screen spring is fixedly provided with the rotating frame 409, the sliding filter plate 407 is fixedly provided with a rotating rope 410, the other end of the rotating rope 410 is fixedly provided with the protruding support 411, the rotating frame 409 is fixedly provided with a steel rope 403, the other end of the steel cable 403 is fixedly attached to the gear shaft 306.

As shown in fig. 6 and 8, the hull 101 is further rotatably provided with a latch disc 304, the latch disc 304 is provided with a plurality of latch slots, the latch disc 304 is meshed with a first gear on the gear shaft 306, the rotating disc 303 is further slidably provided with a plurality of displacement clamping blocks 406, the displacement clamping blocks 406 are contacted with the latch slots on the latch disc 304, the displacement clamping blocks 406 are contacted with scraper clamping slots on the latch blocks 404, when the displacement clamping blocks 406 move, the displacement clamping blocks 406 are firstly separated from the latch disc 304, if the displacement clamping blocks 406 continue to move, the displacement clamping blocks 406 are separated from the latch blocks 404, a latch slot spring 412 is fixedly installed on the displacement clamping blocks 406, the other ends of the latch slot springs 412 are fixedly installed on the rotating disc 303, the other ends of the telescopic cylinders 107 are fixedly installed with extrusion diagonal rings 305, the extrusion diagonal rings 305 are contacted with the displacement clamping blocks 406, and one sides of the extrusion diagonal rings contacted with the displacement clamping blocks 406 are provided with inclined surfaces for extrusion displacement clamping blocks 406.

Working principle: before the device is used, it should be noted that the state of the device in the drawing is an initial state, when the device is used, the device needs to be placed on the water surface, then the rotating motor 106 is started, the rotating motor 106 drives the rotating disc 303 to rotate through the motor gear 108, the rotating disc 303 drives the clamping disc 304, the displacement clamping block 406, the gear shaft 306 and the scraping plate 401 to rotate around the axis of the main shaft 203 together, at this moment, the telescopic cylinder 107 can be started, the telescopic cylinder 107 drives the extrusion inclined ring 305 to extrude the displacement clamping block 406, and the telescopic cylinder slides on the rotating disc 303, so that the displacement clamping block 406 is separated from contact with the clamping groove on the clamping disc 304, the clamping disc 304 does not rotate along with the rotating disc 303, and it is worth noting that after the displacement clamping block 406 moves a certain distance under the state, the telescopic cylinder can contact with the scraping plate clamping groove on the clamping groove block 404.

When the displacement fixture block 406 is out of contact with the latch plate 304, the telescopic cylinder 107 stops moving, the displacement fixture block 406 keeps the state, at this time, the rotating disk 303 continues to rotate, so that the gear shaft 306 is driven by the latch plate 304, at this time, the gear shaft 306 rotates around the self axis of the gear shaft 306 while rotating around the axis of the main shaft 203, the gear shaft 306 drives the steel rope 403, so that the steel rope 403 is wound on the gear shaft 306, the steel rope 403 pulls the rotating frame 409 and the fixed filter plate 408, the sliding filter plate 407 rotates around the joint of the rotating frame 409 and the protruding support 411, when the sliding filter plate 407 rotates, the rotating rope 410 is loosened due to the reduced distance between the sliding filter plate 407 and the protruding support 411, then the sliding filter plate 407 is driven by the filter screen spring, the sliding filter plate 407 slides away from the rotating frame 409, the holes on the sliding filter plate 407 are dislocated with the filtering holes on the fixed filter plate 408, so that the sliding filter plate 407 and the fixed filter plate 408 form a sealing surface, after the fixed filter plate 408 is parallel to the scraping plate 401 and the sliding filter plate 407 and the fixed filter plate 408 are misplaced to form a sealing surface, the telescopic cylinder 107 drives the extrusion inclined ring 305 to move away from the rotating disc 303, so that the displacement clamping block 406 returns to the initial position to contact with the clamping tooth clamping groove on the clamping tooth disc 304, then the rotating disc 303 rotates to drive the gear shaft 306, the scraping plate 401, the sliding filter plate 407 and the fixed filter plate 408 to stir the water area where the device is positioned, so that the scraping plate 401, the sliding filter plate 407 and the fixed filter plate 408 can perform an oxygen beating function in the device when the device is driven to move, and when the device needs to manufacture the water area to flow or needs special oxygen beating, the fixed cylinders 103 can be rotated, the fixing cylinder 103 is aligned with the river bottom, then the fixing cylinder 103 is started, one end of the fixing cylinder 103 is contacted with the river bottom to support and fix the device, then the device can perform oxygenation at a fixed place or flow in a manufacturing water area, and meanwhile, the sprinkler 104 can be started when the device moves, performs oxygenation and flows in the manufacturing water area, and the sprinkler 104 is sprayed with a chemical agent for repairing and relieving, a disinfectant and the like and an agent for accelerating ecological restoration.

When the device is used for dredging a water area or cleaning water surface garbage, the rotating motor 106 can be started in the initial state of the device, the rotating motor 106 drives the rotating disc 303 to rotate through the motor gear 108, so that the rotating disc 303 drives the scraping plate 401, the sliding filter plate 407 and the fixed filter plate 408 to continuously clean garbage on the surface of river water, the garbage falls into the collecting concave 201 to be collected, when dredging is needed, the water depth is needed to be judged, the sliding filter plate 407 and the fixed filter plate 408 can be contacted with the sludge in the initial state of the device, the fixed cylinder 103 can be started to fix the device in the initial state of the device, then the device is operated, when the rotating disc 303 rotates, the scraping plate 401, the sliding filter plate 407 and the fixed filter plate 408 are driven to continuously rotate, when the scraper 401, the sliding filter plate 407 and the fixed filter plate 408 rotate, the sludge is continuously brought out of the water, the swinging plate 202 is contacted with the scraper 401, the sludge falls into the collecting concave plate 201 through the swinging plate 202, then the cleaning motor is started, the cleaning motor drives the main shaft 203 to rotate, the main shaft 203 rotates to drive the conveying screw 204, the bevel gear shaft 207 and the collecting screw 206 to rotate, the collecting screw 206 drives the sludge in the collecting concave plate 201 to concentrate to the lifting pipeline 208, the bevel gear shaft 207 drives the lifting screw 209 to rotate, the sludge around the lifting pipeline 208 is conveyed into the lifting pipeline 208, the sludge enters the first pipeline 205, the sludge is conveyed into the transfer pipeline 210 through the conveying screw 204, and the sludge enters the storage tank 102 for sedimentation storage.

Claims

1. The utility model provides a water ecological remediation processing system, includes hull (101), the one end fixed mounting of hull (101) has bin (102), its characterized in that: the ship comprises a ship body (101), a rotating motor (106) is fixedly arranged on the ship body (101), a motor gear (108) is fixedly arranged on an output shaft of the rotating motor (106), a main shaft (203) is rotatably arranged on the ship body (101), a plurality of middle discs (301) are rotatably arranged on the main shaft (203), a rotating disc (303) is rotatably arranged on the middle discs (301), outer ring teeth are arranged on the rotating disc (303), the outer ring teeth are meshed with the motor gear (108), a plurality of gear shafts (306) are rotatably arranged on the rotating disc (303), a first gear is fixed on the gear shafts (306), a plurality of clamping groove blocks (404) are fixedly arranged on the gear shafts (306), a plurality of scraper clamping grooves are formed in the clamping groove blocks (404), a turntable torsion spring (405) is fixedly arranged at one end of each clamping groove block (404) close to the rotating disc (303), the other end of each turntable torsion spring (405) is fixedly arranged on the rotating disc (303), a plurality of scraper blades (401) are rotatably arranged on the gear shafts (306), a plurality of scraper blades (411) are fixedly arranged on one end of each scraper blade (401) which is fixedly connected with a rotary bracket (409), the other end of the scraper torsion spring is fixedly arranged on the scraper blade (401), a fixed filter plate (408) is fixedly arranged on the rotating frame (409), a sliding filter plate (407) is slidably arranged on the fixed filter plate (408), a plurality of filter holes are formed in each of the sliding filter plate (407) and the fixed filter plate (408), the sliding filter plate (407) is slidably connected with the rotating frame (409), a filter screen spring is fixedly arranged on the sliding filter plate (407), the other end of the filter screen spring is fixedly arranged on the rotating frame (409), a rotating rope (410) is fixedly arranged on the sliding filter plate (407), the other end of the rotating rope (410) is fixedly arranged on the protruding support (411), a steel rope (403) is fixedly arranged on the rotating frame (409), and the other end of the steel rope (403) is fixedly arranged on the gear shaft (306);

the ship body (101) is further rotatably provided with a clamping disc (304), the clamping disc (304) is provided with a plurality of clamping grooves, the clamping disc (304) is meshed with a first gear on the gear shaft (306), the rotating disc (303) is further slidably provided with a plurality of displacement clamping blocks (406), the displacement clamping blocks (406) are contacted with the clamping grooves on the clamping disc (304), and the displacement clamping blocks (406) are further contacted with scraping plate clamping grooves on the clamping groove blocks (404);

the displacement fixture block (406) is fixedly provided with a clamping groove spring (412), the other end of the clamping groove spring (412) is fixedly arranged on the rotating disc (303), the hull (101) is fixedly provided with a telescopic cylinder (107), the other end of the telescopic cylinder (107) is fixedly provided with an extrusion inclined ring (305), the extrusion inclined ring (305) is in contact with the displacement fixture block (406), and one surface of the extrusion inclined ring (305) in contact with the displacement fixture block (406) is provided with an inclined surface for extruding the displacement fixture block (406) to move;

when the telescopic cylinder (107) is started, the telescopic cylinder (107) drives the extrusion inclined ring (305) to extrude the displacement clamping block (406), then the displacement clamping block (406) is separated from contact with the clamping tooth clamping groove on the clamping tooth disc (304), the clamping tooth disc (304) does not rotate along with the rotating disc 303, after the displacement clamping block (406) is separated from contact with the clamping tooth disc (304), the telescopic cylinder (107) stops moving, the displacement clamping block (406) keeps in the state, at the moment, the rotating disc (303) continuously rotates to enable the gear shaft (306) to be driven by the clamping tooth disc (304), at the moment, the gear shaft (306) rotates around the axis of the gear shaft (306) while rotating around the axis of the main shaft (203), the gear shaft (306) drives the steel rope (403), the steel rope (403) is wound on the gear shaft (306), so that the steel rope (403) pulls the rotating frame (409) and the fixed filter plate (408) and the sliding filter plate (407) rotate around the joint of the rotating frame (409) and the protruding support (411), when the sliding plate (407) rotates, the rotating, the distance between the rotating rope (410) and the sliding filter plate (407) and the sliding plate (407) is reduced, and the sliding plate (407) is driven by the direction of the sliding plate (407) to be far away from the sliding filter plate (407), the holes on the sliding filter plate (407) are staggered with the filter holes on the fixed filter plate (408), so that the sliding filter plate (407) and the fixed filter plate (408) form a sealing surface, after the fixed filter plate (408) is parallel to the scraping plate (401) and the sliding filter plate (407) and the fixed filter plate (408) are staggered to form a sealing surface, the telescopic cylinder (107) drives the extrusion inclined ring (305) to move in the direction away from the rotating disc (303), so that the displacement clamping blocks (406) return to the initial positions to be in contact with the clamping grooves on the clamping tooth disc (304), and then the rotating disc (303) rotates to drive the gear shaft (306), the scraping plate (401) and the sliding filter plate (407) and the fixed filter plate (408) to stir a water area where the device is located together, so that the scraping plate (401), the sliding filter plate (407) and the fixed filter plate (408) can perform an oxygen beating function in the device when the device is driven to move.

2. The water ecology remediation treatment system of claim 1 wherein: the storage box (102) is rotatably provided with a plurality of fixed air cylinders (103), the ship body (101) is also provided with a plurality of fixed air cylinders (103), the fixed air cylinders (103) can fix the device in a flowing river channel for working when in use, and one end, far away from the storage box (102), of the ship body (101) is fixedly provided with a spraying pipeline (105).

3. A water ecology remediation treatment system according to claim 2 wherein: the utility model discloses a ship, including hull (101) and spraying pipeline, spraying pipeline (105), middle dish (301) are gone up, one end fixed mounting who keeps away from hull (101) has sprinkler (104), fixed mounting has collection concave plate (201) on middle dish (301), collection concave plate (201) are trapezoidal, and the longest one end in side of its collection concave plate (201) is the open end, one side fixed mounting who collects concave plate (201) has swinging plate (202), fixed mounting has a plurality of protruding She Niuhuang on swinging plate (202), and the other end fixed mounting of protruding She Niuhuang is on collecting concave plate (201), still rotate on middle dish (301) and install collection screw rod (206).

4. A water ecology remediation treatment system according to claim 3 wherein: the utility model provides a collection screw (206) and main shaft (203) meshing, still fixed mounting has lifting pipeline (208) on collecting concave board (201), lifting pipeline (208) rotate with collection screw (206) and are connected, still rotate in lifting pipeline (208) and install lifting screw (209), lifting screw (209) rotate with collecting concave board (201) and are connected, the one end that collecting concave board (201) was kept away from to lifting screw (209) is provided with first bevel gear, still rotate on collecting concave board (201) and install bevel gear axle (207), bevel gear axle (207) and the first bevel gear meshing on lifting screw (209), bevel gear axle (207) still rotate with intermediate disc (301) to be connected, fixedly mounted with first pipeline (205) on collecting concave board (201).

5. The water ecology remediation treatment system of claim 4 wherein: the conveying screw (204) is rotationally installed in the first pipeline (205), the first pipeline (205) is fixedly connected with the lifting pipeline (208), the first pipeline (205) is fixedly connected with the collecting concave plate (201), a first belt is further arranged on the bevel gear shaft (207), the other end of the first belt is arranged on the conveying screw (204), a second belt is further arranged on the conveying screw (204), and the other end of the second belt is arranged on the main shaft (203).

6. The water ecology remediation treatment system of claim 4 wherein: one end of the first pipeline (205) far away from the lifting pipeline (208) is provided with a transfer pipeline (210), the transfer pipeline (210) is fixedly connected with the ship body (101), the transfer pipeline (210) is also fixedly connected with the storage box (102), and an outlet of the transfer pipeline (210) is arranged in the storage box (102).