CN115304174B - Environmental ecological restoration river channel purification system - Google Patents

Abstract

The invention relates to the technical field of environmental remediation, in particular to an environmental ecological remediation river channel purification system, which comprises a central fixed cavity pipe, a rotary outer sleeve, a screwing and extruding arc plate, an air supply swinging pipe and a bubble stone, wherein the rotary outer sleeve is rotationally sleeved outside the central fixed cavity pipe, the screwing and extruding arc plate is fixedly arranged at the upper end surface position of the rotary outer sleeve, a water flow driving structure with a self-adaptive lifting function is arranged outside the rotary outer sleeve, and the water flow driving structure can drive the rotary outer sleeve to rotate; according to the purification system, through the water flow driving structure, the water flow driving of the river channel can be utilized, so that the central cavity-defining tube can absorb oxygen-containing air from the outside, the oxygen-containing air is driven into a deep water layer through the bubble stone, the oxygen content in the deep water layer of the river channel is increased, and therefore growth and propagation of aerobic bacteria can be promoted, the purpose of enhancing and accelerating decomposition of organic pollutants in water is achieved, and environmental ecological restoration is achieved.

Description

Environmental ecological restoration river channel purification system

Technical Field

The invention relates to the technical field of environmental remediation, in particular to an environmental ecological remediation river channel purification system.

Background

The ecological restoration of the environment of the river channel is a comprehensive method for restoring polluted environment by combining various physical restoration, chemical restoration and engineering technical measures based on ecological principles and by optimizing combination, so that the best effect and the lowest consumption are achieved.

Disclosure of Invention

The invention aims to provide an environmental ecological restoration river channel purification system so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an environmental ecology restores river course clean system, includes that cavity pipe, rotatory outer tube are decided to the center, screw extrusion arc board, air feed swinging pipe and bubble stone, rotatory outer tube rotates the cover and establishes the outside at cavity pipe is decided to the center, rotatory outer tube's upper end surface position is fixed to be provided with screw extrusion arc board, rotatory outer tube's outside is provided with the rivers drive structure that has self-adaptation raising and lowering functions, rivers drive structure can drive rotatory outer tube and rotate, cavity pipe's inside is decided to the center is provided with one-way piston structure, one-way piston structure can cooperate with screw extrusion arc board for cavity pipe inside produces the gas of downwardly flowing is decided to the center, cavity pipe is decided to the lower extreme intercommunication of cavity pipe to the center is provided with the pendulum structure of sending air, the pendulum structure of swinging can cooperate with rotatory outer tube, and the small swing of drive the pendulum pipe is swung with the rotation speed of rotatory outer tube, the inside of pendulum pipe is provided with the flexible inner tube structure of sending air feed pipe, the flexible trend of elasticity shrink has the flexible structure of flexible inner tube of sending air feed swinging pipe and bubble.

The water flow driving structure comprises a limit convex rib, a limit convex ring, a water level adaptation sleeve, a limit convex groove, a connecting lever, a fixed outer ring, a floating inner ring and a driven water driving plate.

The utility model discloses a water level adaptation cover, including rotatory outer tube, spacing bulge loop, water level adaptation cover, connecting lever, fixed outer loop, floating inner loop, connecting lever's the other end and fixed outer loop's inner wall surface fixed mounting, fixed outer loop's inner wall surface fixed is provided with the floating inner loop, the inside of floating inner loop runs through and has been seted up through the jack, connecting lever alternates through passing through the jack, fixed outer loop's outer surface fixed is provided with from the movable water drive board, from the movable water drive board is arc curved plate, and is circumference array evenly distributed.

The unidirectional piston structure comprises a lifting inner ring, an extrusion pin rod, a limiting pin groove, a compressed air blowing spring, a compressed spring upper frame, an inner ring fixing frame, a connecting push rod, a piston disc, a unidirectional vent hole, a unidirectional blocking piece, a connecting elastic piece, an external contact eave and a contact rubber ring.

The lifting inner ring is movably arranged in the central cavity-defining tube in a lifting manner, an extrusion pin rod is fixedly arranged on the outer surface of the lifting inner ring, a limiting pin groove is formed in the surface of the central cavity-defining tube in a penetrating manner, the extrusion pin rod penetrates through the limiting pin groove, one side of the screwing extrusion arc plate is arc-shaped, the other side of the screwing extrusion arc plate is vertical, and the extrusion pin rod is in contact fit with the screwing extrusion arc plate.

The upper portion of lift inner ring is provided with the air-blowing pressure spring, the fixed pressure spring upper portion frame that is provided with in inner wall surface position of central fixed cavity pipe, pressure spring upper portion frame is pressed and is established in the upper end of air-blowing pressure spring, the fixed inner ring mount that is provided with in inside of lift inner ring, the fixed connection push rod that is provided with in lower surface of inner ring mount, the fixed piston disc that has had of lower extreme of connecting the push rod, the surface of piston disc runs through and has seted up one-way air vent, the lower part activity of piston disc is provided with one-way jam, one-way jam with the position and the quantity one-to-one of one-way air vent, the diameter of one-way jam be greater than the diameter of one-way air vent, one-way jam with be connected with between the lower surface of piston disc and connect the elastic piece, the outer lane surface of piston disc is fixed and is provided with the outer contact eaves, the surface cover of outer contact eaves is fixed with the contact rubber ring, the contact rubber ring with the inner wall surface of central fixed cavity pipe airtight contact.

The swing jarring structure comprises a conical shrinkage port, a vibration connecting spring, a mounting ring disc, a rubber hose, a clamping plate supporting bar, a contact clamping plate and a swing poking gear ring.

The utility model discloses a rotary outer tube, including the fixed cavity pipe of vibration, the fixed cavity pipe of vibration with the fixed cavity pipe's lower extreme, the fixed cavity pipe's of vibration upper end and the fixed cavity pipe's of vibration lower extreme position fixed connection, the fixed cavity pipe's of vibration upper end is equipped with the collar dish, the outside cover of vibration connecting the spring is established and is installed rubber hose, the upper end and the fixed cavity of cone shrink mouth intercommunication, lower extreme and collar dish intercommunication, the fixed surface mounting of collar dish has the cardboard support bar, the fixed contact cardboard that is provided with in tip of cardboard support bar, the inner wall surface of rotary outer tube is close to the fixed swing and dials the ring gear that is provided with of lower extreme position, the contact cardboard with swing dials the contact block of ring gear.

The telescopic inner tube structure comprises an inner wall pull ring, a pull holding spring, a pull holding sealing ring, a telescopic adjusting tube, a telescopic sealing groove and a telescopic sealing rubber ring.

The inner wall pull ring is fixedly arranged at the inner wall surface of the air supply swing pipe, the upper end of the pull holding spring is fixedly arranged with the inner wall pull ring, the lower end of the pull holding spring is fixedly provided with a pull holding sealing ring, the lower surface of the pull holding sealing ring is fixedly provided with a telescopic adjusting pipe, the lower end of the telescopic adjusting pipe is communicated with the air bubble stone, the outer surface of the pull holding sealing ring is provided with a telescopic sealing groove, a telescopic sealing rubber ring is sleeved in the telescopic sealing groove, and the telescopic sealing rubber ring is in airtight fit with the inner wall surface of the air supply swing pipe.

Compared with the prior art, the invention has the beneficial effects that:

according to the purification system, through the water flow driving structure, the central cavity-defining tube can absorb oxygen-containing air from the outside through the water flow driving of the river channel, and the oxygen content in the deep water layer of the river channel is increased through the bubble stone, so that the growth and propagation of aerobic bacteria can be promoted, the purpose of enhancing and accelerating the decomposition of organic pollutants in water is achieved, the ecological restoration of the environment is realized, and the oxygen exposure of the deep water layer of the river channel can be independently increased without additional energy supply;

through the arranged swinging shock structure, through the connection of the air supply swinging pipe, the bubble stone can swing and vibrate in water, so that the scouring effect of water flow on the bubble stone can be enhanced, the bubble stone is kept clean and prevented from being blocked by mud sundries, and meanwhile, when the bubble stone is out of air, bubbles can be further scattered by utilizing the swinging of the bubble stone, the diameter of the bubbles is further reduced, and the fusion effect of oxygen and water is improved;

the water flow driving structure can drive the rotary outer sleeve to rotate by utilizing water flow, the water flow is more turbulent, the rotating speed of the rotary outer sleeve is faster, and when the water flow is turbulent, the upper layer of the water flow of the river channel has high oxygen content, so that oxygen exposure is not needed, at the moment, the rotating speed of the rotary outer sleeve is faster, the air supply swing pipe can swing rapidly, the expansion adjusting pipe can extend downwards for a longer time by utilizing centrifugal throwing force generated by swing, so that bubble stones can further explore downwards in the water and oxygenate deeper into the water flow; when the water flow is mild, the oxygen content of the water flow near the upper layer is low, the rotating outer sleeve is low in rotating speed, the air supply swing pipe swings at a low speed, the expansion adjusting pipe is enabled to extend downwards less, the bubble stone is located near the upper position, oxygen exposure is carried out on the water surface near the upper layer, and therefore the oxygen exposure position of the bubble stone can be automatically adapted according to water flow change.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is an isometric view of the present invention;

FIG. 3 is an enlarged schematic view of area A of FIG. 2;

FIG. 4 is a schematic view in semi-section of the overall structure of the present invention;

FIG. 5 is an enlarged schematic view of area B of FIG. 4;

FIG. 6 is an enlarged schematic view of area C of FIG. 4;

FIG. 7 is a front elevational view, in semi-section, of the overall structure of the present invention;

FIG. 8 is an enlarged schematic view of area D of FIG. 7;

FIG. 9 is a front view of the present invention;

fig. 10 is a top view of the present invention.

In the figure: 1. a central lumen; 2. rotating the outer sleeve; 3. screwing the extrusion arc plate; 4. a swinging tube for air supply; 5. a bubble stone; 201. a limit rib; 202. a limit convex ring; 203. a water level adaptation sleeve; 204. limit edge grooves; 205. a connecting lever; 206. fixing the outer ring; 207. floating the inner ring; 208. through the jack; 209. a driven water drive plate; 301. lifting the inner ring; 302. extruding the pin rod; 303. a limit pin slot; 304. a compressed air spring; 305. a pressure spring upper frame; 306. an inner ring fixing frame; 307. the push rod is connected; 308. a piston disc; 309. a one-way vent; 310. unidirectional blocking sheets; 311. connecting an elastic sheet; 312. an external contact eave; 313. contacting the rubber ring; 401. a conical shrinkage port; 402. vibrating the connecting spring; 403. a mounting ring disk; 404. a rubber hose; 405. a clamping plate supporting bar; 406. a contact card; 407. swinging a poking gear ring; 501. an inner wall pull ring; 502. a pull-hold spring; 503. pulling and holding the sealing ring; 504. a telescopic adjusting tube; 505. a telescopic sealing groove; 506. a telescopic sealing rubber ring; 101. a foreign matter shield; 102. mounting a support plate; 103. mounting a foot plate; 104. a rotary limit groove; 105. and rotating the limiting ring.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 to 10, the present invention provides a technical solution: the utility model provides an environmental ecology restores river course clean system, including central cavity tube 1, rotatory outer tube 2, screw extrusion arc board 3, send out air swing pipe 4 and bubble stone 5, rotatory outer tube 2 rotates the cover and establishes in the outside of cavity tube 1 is decided to the center, the fixed extrusion arc board 3 that is provided with in upper end surface position of rotatory outer tube 2, the outside of rotatory outer tube 2 is provided with the rivers drive structure that has self-adaptation raising and lowering functions, rivers drive structure can drive rotatory outer tube 2 rotation, the inside of cavity tube 1 is decided to the center is provided with one-way piston structure, one-way piston structure can cooperate with the extrusion arc board 3 of screwing, make the inside gas that produces down of cavity tube 1 is decided to the center, the lower extreme intercommunication of cavity tube 1 is provided with send out air swing pipe 4, be provided with between cavity tube 1 and the send out air swing pipe 4 to swing structure, swing and rotatory outer tube 2 cooperation can, drive send out air swing pipe 4 and swing speed and rotatory 2's rotation trend of swing, the inside of sending out air swing pipe 4 is provided with flexible inner pipe structure, flexible inner pipe structure has elasticity shrink and upwards through the bubble swing pipe 4 intercommunication.

The water flow driving structure comprises a limit convex rib 201, a limit convex ring 202, a water level adapting sleeve 203, a limit edge groove 204, a connecting lever 205, a fixed outer ring 206, a floating inner ring 207, a through jack 208 and a driven water driving plate 209.

The vertical fixed setting of spacing bead 201 is in the surface position of rotatory outer tube 2, and spacing bulge loop 202 fixed mounting is in the surface of rotatory outer tube 2, is located the both ends position of spacing bead 201 respectively, and water level adaptation cover 203 cover is established in the outside of rotatory outer tube 2, and spacing arris groove 204 has been seted up to the inner wall surface of water level adaptation cover 203, and spacing bead 201 is located the inside in spacing arris groove 204.

The outer surface fixation of water level adaptation cover 203 is provided with connecting lever 205, fixed outer lane 206 cover is established in the outside of water level adaptation cover 203, and the two coaxial line sets up, the other end of connecting lever 205 and the inner wall fixed surface installation of fixed outer lane 206, the inner wall fixed surface position of fixed outer lane 206 is provided with the showy inner circle 207, the inside of showy inner circle 207 is run through and is offered through jack 208, connecting lever 205 alternates through passing through jack 208, the fixed driven water drive board 209 that is provided with in surface position of fixed outer lane 206, driven water drive board 209 is the arc curved platy, and be circumference array evenly distributed.

The unidirectional piston structure comprises a lifting inner ring 301, an extrusion pin rod 302, a limit pin groove 303, a compressed air spring 304, a compressed air spring upper frame 305, an inner ring fixing frame 306, a connecting push rod 307, a piston disc 308, a unidirectional vent 309, a unidirectional blocking piece 310, a connecting elastic piece 311, an external contact eave 312 and a contact rubber ring 313.

The lifting inner ring 301 is movably arranged in the central cavity-defining tube 1 in a lifting manner, the extrusion pin rod 302 is fixedly arranged on the outer surface of the lifting inner ring 301, the limiting pin groove 303 is formed in the surface of the central cavity-defining tube 1 in a penetrating manner, the extrusion pin rod 302 penetrates through the limiting pin groove 303, one side of the screwing extrusion arc plate 3 is arc-shaped, the other side of the screwing extrusion arc plate is vertical, and the extrusion pin rod 302 is in contact fit with the screwing extrusion arc plate 3.

The upper part of the lifting inner ring 301 is provided with an air blowing pressure spring 304, the inner wall surface of the central fixed cavity tube 1 is fixedly provided with a pressure spring upper frame 305, the pressure spring upper frame 305 is pressed at the upper end of the air blowing pressure spring 304, the inner part of the lifting inner ring 301 is fixedly provided with an inner ring fixing frame 306, the lower surface of the inner ring fixing frame 306 is fixedly provided with a connecting push rod 307, the lower end of the connecting push rod 307 is fixedly provided with a piston disc 308, the surface of the piston disc 308 is provided with a one-way vent 309 in a penetrating way, the lower part of the piston disc 308 is movably provided with one-way blocking pieces 310, the positions and the number of the one-way blocking pieces 310 are in one-to-one correspondence with the one-way vent holes 309, the diameter of the one-way blocking pieces 310 is larger than the diameter of the one-way vent holes 309, a connecting elastic piece 311 is connected between the one-way blocking pieces 310 and the lower surface of the piston disc 308, the outer ring surface of the piston disc 308 is fixedly provided with an outer contact eave 312, the outer surface of the outer contact eave 312 is sleeved with a contact rubber ring 313, and the contact rubber ring 313 is hermetically contacted with the inner wall surface of the central fixed cavity tube 1.

The swinging jarring structure comprises a conical shrinkage port 401, a vibration connecting spring 402, a mounting ring disk 403, a rubber hose 404, a clamping plate supporting bar 405, a contact clamping plate 406 and a swinging poking gear ring 407.

The conical shrinkage mouth 401 is fixedly communicated with the lower end of the central fixed cavity tube 1, the upper end of the vibration connecting spring 402 is fixedly connected with the lower surface position of the conical shrinkage mouth 401, the lower end of the vibration connecting spring 402 is fixedly connected with a mounting ring disk 403, a rubber hose 404 is sleeved outside the vibration connecting spring 402, the upper end of the rubber hose 404 is communicated with the conical shrinkage mouth 401, the lower end of the rubber hose 404 is communicated with the mounting ring disk 403, the rubber hose 404 is made of soft materials such as rubber and can be bent, the inner wall surface of the rubber hose 404 can be fixedly adhered to the vibration connecting spring 402, the phenomenon that the rubber hose 404 is bulged to influence gas transmission is avoided, a clamping plate supporting bar 405 is fixedly arranged on the surface of the mounting ring disk 403, a contact clamping plate 406 is fixedly arranged at the end part of the clamping plate 405, a swinging poking gear ring 407 is fixedly arranged on the inner wall surface of the rotary outer sleeve 2 close to the lower end, and the contact clamping plate 406 is clamped with the swinging poking gear ring 407.

The telescopic inner tube structure comprises an inner wall pull ring 501, a pull holding spring 502, a pull holding sealing ring 503, a telescopic adjusting tube 504, a telescopic sealing groove 505 and a telescopic sealing rubber ring 506.

The inner wall pull ring 501 is fixedly arranged on the inner wall surface of the air supply swing pipe 4, the upper end of the pull holding spring 502 is fixedly arranged with the inner wall pull ring 501, the lower end of the pull holding spring 502 is fixedly provided with a pull holding sealing ring 503, the lower surface of the pull holding sealing ring 503 is fixedly provided with a telescopic adjusting pipe 504, the lower end of the telescopic adjusting pipe 504 is communicated with the air bubble stone 5, the outer surface of the pull holding sealing ring 503 is provided with a telescopic sealing groove 505, the inner part of the telescopic sealing groove 505 is sleeved with a telescopic sealing rubber ring 506, and the telescopic sealing rubber ring 506 is in airtight fit with the inner wall surface of the air supply swing pipe 4.

The fixed cover in upper end of cavity tube 1 is decided to center is equipped with foreign matter protection casing 101, and the foreign matter protection casing 101 can avoid the foreign matter, and debris such as leaf fall into the upper end inside of cavity tube 1 is decided to center, avoids when long-time use, causes the upper end of cavity tube 1 to block up is decided to center, and the fixed surface mounting of cavity tube 1 has installation extension board 102, and the fixed installation foot plate 103 that is provided with in tip of installation extension board 102, and rotatory spacing groove 104 has been seted up to rotatory outer tube 2's inner wall surface, and the fixed surface of cavity tube 1 is decided to center is provided with rotatory spacing ring 105, and rotatory spacing ring 105 rotates the inside that sets up at rotatory spacing groove 104.

When the invention is used, the system device is installed and fixed through the installation foot plate 103, so that the upper end of the central cavity-defining tube 1 is exposed out of the water surface, and the driven water drive plate 209 is contacted with the water surface;

the water level adaptation sleeve 203 can move up and down outside the rotary outer sleeve 2, so that the buoyancy of the floating inner ring 207 can be utilized to enable the driven water drive plate 209 and the water level height of the water surface to be self-adapted in a certain interval;

the river water flow drives the driven water driving plate 209 to rotate, the driven water driving plate 209 is arc-shaped bent plate-shaped as shown in fig. 1, so that the driven water driving plate 209 can directionally rotate irrespective of the water flow direction, the rotating torque is amplified through the connecting lever 205, the rotating outer sleeve 2 is enabled to rotate, the screwing extrusion arc plate 3 can be driven to rotate, the screwing extrusion arc plate 3 is in extrusion fit with the extrusion pin rod 302 as shown in fig. 1, the extrusion pin rod 302 is lifted by the cambered surface of the screwing extrusion arc plate 3, when the cambered surface of the screwing extrusion arc plate 3 reaches the vertical surface of the screwing extrusion arc plate 3, the extrusion pin rod 302 rapidly falls under the elasticity of the air blowing pressure spring 304, the piston disc 308 can axially move up and down in the central fixed cavity pipe 1, and in the axial lifting and reciprocating movement process of the piston disc 308, the air in the central fixed cavity pipe 1 can be pushed down through the arrangement of the unidirectional blocking piece 310, so that the external air at the upper end of the central fixed cavity pipe 1 is driven into the lower part of the central fixed cavity pipe 1, the air bubble stone 5 is sprayed out through the air blowing swing pipe 4, and the aeration in the river water flow is increased;

in the process of rotating the outer sleeve 2, the air supply swing pipe 4 can swing slightly through the clamping fit of the swing poking gear ring 407 and the contact clamping plate 406, so that the air bubble stone 5 communicated with the air supply swing pipe 4 swings back and forth in water flow, the scouring force of the water flow on the air bubble stone 5 is increased, the air bubble stone 5 can be kept clean, and when the air bubble stone 5 jets air, the air bubble can be further broken up by utilizing the back and forth swing of the air bubble stone 5, and the fusion effect of the water flow and the air is improved;

because the rotational speed of rotatory outer tube 2 receives the water flow velocity to influence, when the water flow velocity is faster, the rotational speed of rotatory outer tube 2 can be faster, simultaneously, when the water flow velocity is faster, the churning is wave-like, can make the water flow surface more abundant with the air contact, the upper strata oxygen content of rivers is high this moment, it is not significant to the oxygen exposure of upper strata that the rivers are close to again, therefore, utilize the change that the rotational speed of rotatory outer tube 2 is accelerated, make the swing velocity of gas supply swing pipe 4 increase, when the swing velocity of gas supply swing pipe 4 increases, the centrifugal throwing power that the flexible adjusting tube 504 of gas supply swing pipe 4 inside received will increase, make pull holding spring 502 stretched, and flexible adjusting tube 504 further stretches out downwards, make bubble stone 5 further deep into the rivers, expose oxygen to the depths of rivers, thereby make the oxygen exposure position of bubble stone 5 can carry out the automatic adaptation according to the water flow velocity variation.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a river course clean system is restoreed to environment ecology, includes that center decides chamber pipe (1), rotatory outer tube (2), screws extrusion arc board (3), sends air swing pipe (4) and bubble stone (5), its characterized in that: the utility model discloses a pneumatic pipe, including cavity pipe (1) is decided to center, cavity pipe (1) is decided to center's (2) rotation cover, the upper end surface position of rotation outer tube (2) is fixed to be provided with and screws extrusion arc board (3), the outside of rotation outer tube (2) is provided with the rivers drive structure that has self-adaptation raising and lowering functions, rivers drive structure can drive rotation outer tube (2) and rotate, the inside of cavity pipe (1) is decided to center is provided with one-way piston structure, one-way piston structure can with screw extrusion arc board (3) cooperation for the inside gas that flows down of cavity pipe (1) is decided to center, the lower extreme intercommunication of cavity pipe (1) is provided with pendulum pipe (4) is decided to center with be provided with between pendulum pipe (4) of sending, pendulum structure can with rotation outer tube (2) cooperation, drive pendulum pipe (4) swing by a small margin, and the rotation speed of inner tube of pendulum pipe (4) and inner tube of sending pendulum pipe (4) and rotation of rotation outer tube (2) are directly proportional, inner tube (4) are provided with flexible expansion and contraction trend (5) through the inside of pendulum pipe (4) is provided with flexible expansion and contraction trend (5).

2. The environmental ecology restoration channel purification system of claim 1 wherein: the water flow driving structure comprises a limiting convex rib (201), a limiting convex ring (202), a water level adaptation sleeve (203), a limiting convex groove (204), a connecting lever (205), a fixed outer ring (206), a floating inner ring (207), a jack (208) and a driven water driving plate (209).

3. An environmental ecology restoration river purification system according to claim 2 wherein: the utility model discloses a water driven plate, including rotatory outer tube (2), including spacing bead (201), fixed outer lane (206), connecting lever (205), fixed outer lane (206), connecting lever (205) and fixed outer lane (206), the vertical fixed surface that sets up in rotatory outer tube (2), spacing bead (201) are located the surface of outer tube, spacing bulge loop (202) are fixed to be set up in the surface of rotatory outer tube (2), are located the both ends position of spacing bead (201) respectively, water level adaptation cover (203) are overlapped and are established at the surface of rotatory outer tube, the fixed inner lane (207) are provided with in the inner wall surface fixed installation of fixed outer lane (206), the inside of floating inner lane (207) is run through and is seted up through jack (208), connecting lever (205) are alternately through jack (208), the fixed outer surface position of fixed outer lane (206) is established in the outside of water level adaptation cover (203), and the two coaxial line sets up in the outside of fixed outer lane (206), the inner lane (206) is curved water driven plate (209) is evenly distributed, and is the curved water driven plate is evenly distributed.

4. The environmental ecology restoration channel purification system of claim 1 wherein: the unidirectional piston structure comprises a lifting inner ring (301), an extrusion pin rod (302), a limit pin groove (303), a gas-blowing pressure spring (304), a pressure spring upper frame (305), an inner ring fixing frame (306), a connecting push rod (307), a piston disc (308), a unidirectional vent hole (309), a unidirectional blocking piece (310), a connecting elastic piece (311), an external contact eave (312) and a contact rubber ring (313).

5. The environmental ecology restoration channel purification system of claim 4 wherein: the lifting inner ring (301) is movably arranged in the central fixed cavity pipe (1), an extrusion pin rod (302) is fixedly arranged on the outer surface of the lifting inner ring (301), a limiting pin groove (303) is formed in the surface of the central fixed cavity pipe (1) in a penetrating mode, the extrusion pin rod (302) penetrates through the limiting pin groove (303), one side of the screwing extrusion arc plate (3) is arc-shaped, the other side of the screwing extrusion arc plate is vertical, and the extrusion pin rod (302) is in contact fit with the screwing extrusion arc plate (3).

6. The environmental ecology restoration channel purification system of claim 5 wherein: the inner wall surface position of the central fixed cavity pipe (1) is fixedly provided with a pressure spring upper frame (305), the pressure spring upper frame (305) is pressed and arranged at the upper end of the air blowing pressure spring (304), an inner ring fixing frame (306) is fixedly arranged in the lifting inner ring (301), a connecting push rod (307) is fixedly arranged on the lower surface of the inner ring fixing frame (306), a piston disc (308) is fixedly arranged at the lower end of the connecting push rod (307), a one-way vent hole (309) is formed in the surface of the piston disc (308) in a penetrating mode, one-way blocking pieces (310) are movably arranged at the lower portion of the piston disc (308) in a one-to-one mode, the diameter of each one-way blocking piece (310) is larger than that of each one-way vent hole (309), a connecting elastic piece (311) is connected between the lower surface of the inner ring fixing frame (306), a piston disc (308) is fixedly arranged on the outer surface of the piston disc (308), and the outer ring (313) is fixedly contacted with the outer ring (313).

7. The environmental ecology restoration channel purification system of claim 1 wherein: the swinging jarring structure comprises a conical shrinkage port (401), a vibration connecting spring (402), a mounting ring disc (403), a rubber hose (404), a clamping plate supporting bar (405), a contact clamping plate (406) and a swinging poking gear ring (407).

8. The environmental ecology restoration channel purification system of claim 7 wherein: the utility model discloses a vibration connection spring, including fixed cavity pipe (1) and fixed cavity pipe, fixed cavity pipe (1) and fixed cavity pipe (403) are fixed in the fixed cavity pipe, fixed cavity pipe (401) and fixed cavity pipe (1) are fixed in the fixed cavity pipe, fixed cavity pipe (401) are fixed with fixed cavity pipe (1) and fixed cavity pipe, fixed cavity pipe (401) are fixed with the lower surface of fixed cavity pipe, fixed cavity pipe (401) with fixed cavity pipe (401) are fixed with the lower surface of fixed cavity pipe, fixed cavity pipe (401) are fixed with fixed cavity pipe (407) are provided with in the lower surface of rotatory outer tube (2), fixed cavity pipe (407) are fixed with the swing and dial ring gear (407), contact cardboard (406) with swing dial ring gear (407) contact block.

9. The environmental ecology restoration channel purification system of claim 1 wherein: the telescopic inner tube structure comprises an inner wall pull ring (501), a pulling and holding spring (502), a pulling and holding sealing ring (503), a telescopic adjusting tube (504), a telescopic sealing groove (505) and a telescopic sealing rubber ring (506).

10. The environmental ecology restoration channel purification system of claim 9 wherein: the inner wall pull ring (501) is fixedly arranged at the inner wall surface position of the air supply swing pipe (4), the upper end of the pull holding spring (502) is fixedly arranged with the inner wall pull ring (501), the lower end of the pull holding spring (502) is fixedly provided with a pull holding sealing ring (503), the lower surface of the pull holding sealing ring (503) is fixedly provided with a telescopic adjusting pipe (504), the lower end of the telescopic adjusting pipe (504) is communicated with the air bubble stone (5), the outer surface of the pull holding sealing ring (503) is provided with a telescopic sealing groove (505), the inner part of the telescopic sealing groove (505) is sleeved with a telescopic sealing rubber ring (506), and the telescopic sealing rubber ring (506) is in airtight fit with the inner wall surface of the air supply swing pipe (4).