CN114029335A

CN114029335A - Wetland restoration equipment and restoration method thereof

Info

Publication number: CN114029335A
Application number: CN202111469095.8A
Authority: CN
Inventors: 王久昌
Original assignee: Hangzhou Dajia Mechanical Equipment Co ltd
Current assignee: Hangzhou Dajia Mechanical Equipment Co ltd
Priority date: 2021-12-03
Filing date: 2021-12-03
Publication date: 2022-02-11

Abstract

The invention belongs to the technical field of wetland environment restoration, and particularly relates to wetland restoration equipment and a restoration method thereof. The invention can recycle the polluted sludge, reduce the damage to equipment and timely carry out extrusion dehydration and stirring disinfection on the polluted sludge; carrying out extrusion, compression, storage and dehydration on the polluted sludge; stones and neutral control active carbon are uniformly paved in the wetland, and the pollution source is preliminarily treated to reduce the damage to the wetland.

Description

Wetland restoration equipment and restoration method thereof

Technical Field

The invention belongs to the technical field of wetland environment restoration, and particularly relates to wetland restoration equipment and a restoration method thereof.

Background

The wetland plays a role in purifying a water source, regulating climate and reducing flood damage in a natural environment, the existence of the wetland is very important for maintaining the development of natural ecology no matter in a mountain forest or a river, and especially the estuary wetland plays a key role in maintaining the stability of offshore fishery resources. However, the environment is over developed by human beings, so that climate changes, hydrology and terrain change, and the price is that the area of the wetland is gradually reduced or leaned or even disappears, so that the number of the wetland in the whole world is reduced.

The prior wetland restoration equipment has the following problems,

firstly, the wetland restoration equipment is easy to be wound by vegetation and cannot move when moving;

secondly, when the polluted silt is recycled, the water in the silt cannot be discharged in time;

and thirdly, the wetland soil is not treated after being repaired.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and provides wetland restoration equipment and a restoration method thereof, which can treat polluted vegetation and reduce the obstruction to equipment movement; the polluted sludge is recycled, the damage to equipment is reduced, and the polluted sludge is extruded, dehydrated, stirred and disinfected in time; the polluted sludge is extruded, compressed, stored and dehydrated, so that the storage of the polluted sludge is facilitated; the stones and the neutral control active carbon are uniformly paved in the wetland, the pollution source is preliminarily treated, the damage to the wetland is reduced, and the wetland vegetation restoration is facilitated.

The purpose of the invention can be realized by the following technical scheme: a wetland restoration device and a restoration method thereof comprise the following steps:

s1, moving and cleaning the cut polluted vegetation on the wetland by the wetland restoration equipment;

s2, cleaning, namely recycling the polluted sludge into a treatment box;

s3: stirring and disinfecting, namely stirring and dehydrating the polluted sludge, and disinfecting by mixing a disinfecting solution;

s4: storing, namely extruding, compressing and storing the polluted sludge;

s5: paving, namely uniformly paving stones on the wetland, and then uniformly and compactly paving the stones;

s6: laying hollow activated carbon blocks on the stones in order, and neatly combing the hollow activated carbon blocks;

s7, sewage treatment, namely filtering the entering sewage, and enabling the sewage mixed nutrient water to enter the wetland;

the steps S1-S7 are completed by matching of wetland restoration equipment, the wetland restoration equipment comprises a treatment box, moving parts are arranged on two sides of the treatment box to move and clean polluted vegetation, a treatment part is arranged at one end of the treatment box to recover polluted sludge, a storage part is arranged on the rear side of the treatment part to extrude, compress and drain the sludge for storage, a laying part is arranged in the direction of the storage part far away from the treatment part to lay stones and hollow activated carbon blocks, and a filtering part is arranged in the direction of the laying part far away from the storage part to treat pollution sources.

Preferably, the moving component comprises four first rotating shafts, the four first rotating shafts are located on two sides of the processing box and are connected with the processing box in a rotating mode, four rotating wheels are sleeved on the outer circumferential surfaces of the four first rotating shafts, four rotating rings are sleeved on the outer circumferential surfaces of the four rotating wheels, and four sliding knife rings are arranged in the four rotating rings in a sliding mode.

Preferably, the processing part comprises a processing block, the processing block is positioned at one end of the processing box, a second rotating shaft is rotatably connected between the processing block and the processing box, a plurality of sliding clamping blocks are slidably connected between one side of the processing block and the processing box, two recovery groups are rotatably arranged at the lower end of the processing block and comprise recovery groups, a recovery sleeve is sleeved on the outer circumferential surface of each recovery group, a plurality of recovery blocks are uniformly slidably arranged in the circumferential direction of the recovery sleeve, two sponges are connected between the two sides of each recovery block and the recovery sleeve, a plurality of broken fragments are uniformly slidably arranged in the circumferential direction of the recovery sleeve, a third rotating shaft is rotatably arranged at the lower end of the processing block, and a rotating plate is fixedly arranged on the third rotating shaft.

Preferably, a motor is fixedly arranged at the upper end of the treatment block, a linkage column is fixedly arranged at the lower end of the motor and is rotatably connected in the treatment block, a disinfection solution cavity is formed in one side of the linkage column in the treatment block, a spiral plate is fixedly arranged on the outer circumferential surface of the linkage column, a plurality of stirring columns are uniformly and fixedly arranged on the outer circumferential surface of the linkage column, a disinfection cavity is arranged in each stirring column, the disinfection cavity is connected with the disinfection solution cavity and is provided with a connecting channel, the connecting channel is arranged in the linkage column, the disinfection cavity is connected with the outer part of each stirring column and is provided with a plurality of outlet valves, a plurality of fixed extrusion blocks are fixedly arranged on each stirring column, a plurality of sliding extrusion blocks are slidably arranged on each stirring column, the sliding extrusion blocks are matched with the fixed extrusion blocks to perform extrusion dehydration, and an outlet is formed in one side, far away from the disinfection solution cavity, of the treatment block.

Preferably, the storage part comprises a storage cavity, the storage cavity is located at the rear side of the processing part, a first linkage shaft is arranged above the processing block in a sliding mode in the processing box, a plurality of second linkage shafts are arranged above the storage cavity in a rotating mode, a plurality of extrusion plates are arranged in the storage cavity in a sliding mode, and a pull rope is connected between each extrusion plate and the corresponding first linkage shaft.

Preferably, the laying component comprises a laying block, the laying block is located a storage cavity and is far away from the direction of the processing block, the laying block slides in the processing box, a first storage cavity is arranged at the upper end of the laying block in the processing box, a discharging channel is arranged below the first storage cavity in the laying block, the discharging channel is connected with the first storage cavity, a second storage cavity is arranged on one side of the laying block far away from the storage cavity, a feeding hole is formed in the second storage cavity and the inner portion of the laying block in a connected mode, a conveying mechanism is arranged in the laying block in a sliding mode, a vibrating block is fixedly arranged in the conveying mechanism, a leveling rotating shaft is rotatably arranged below the vibrating block in the laying block, a leveling sleeve is sleeved on the outer circumferential surface of the leveling rotating shaft, a plurality of uniform scraping blocks are arranged in the sliding mode in the circumferential direction of the leveling sleeve, and a compaction block is arranged below the vibrating block in the laying block in a sliding mode.

Preferably, the filter part includes the flexible connection water pipe, the flexible connection water pipe is located and handles the case and keep away from and handle a piece one end, it is equipped with the filter to handle incasement portion to the rotation of flexible connection water pipe one end, the filter is kept away from flexible connection water pipe direction and is equipped with air outlet means handling the incasement rotation, the filter below is equipped with two filtration axis of rotation handling the incasement rotation, two filtration axis of rotation peripheral connections are equipped with filtration membrane, air outlet means below is equipped with the nutrient solution chamber in handling the incasement, nutrient solution chamber below is equipped with the hybrid rotation post handling the incasement rotation, be equipped with the hybrid chamber in the hybrid rotation post, the hybrid chamber is equipped with the blowout valve with hybrid rotation post external connection.

Has the advantages that:

1. through the setting of moving part, handle the pollution vegetation, reduce the hindrance that removes equipment.

2. Through the processing part setting, carry out recovery processing and reduce the damage to equipment to the silt of pollution, in time extrude dehydration and stirring disinfection to the silt of pollution.

3. Through the storage component setting, carry out extrusion compression storage and dehydration to the silt of pollution, be favorable to polluting the storage of silt.

4. Through the arrangement of the laying component and the filtering component, stones and the neutral control activated carbon are uniformly laid in the wetland, the pollution source is subjected to primary treatment, the damage to the wetland is reduced, and the restoration of wetland vegetation is facilitated.

Drawings

The invention is further explained below with reference to the figures and examples:

FIG. 1 is a flow chart of the method of the present invention.

Fig. 2 is a schematic isometric view of the present invention.

Fig. 3 is a schematic structural view in front view of the present invention.

Fig. 4 is a schematic sectional view at a-a in fig. 3.

Fig. 5 is a schematic view of a portion B in fig. 4.

Fig. 6 is a schematic view of a portion C in fig. 4.

Fig. 7 is a schematic view of a portion D in fig. 4.

Fig. 8 is a schematic view of a portion at E in fig. 4.

Fig. 9 is a schematic view of a portion at F in fig. 4.

In the figure, a processing box 10, a moving component 11, a processing component 12, a storage component 13, a laying component 14, a filtering component 15, a first rotating shaft 16, a rotating wheel 17, a rotating ring 18, a sliding cutter ring 19, a processing block 20, a second rotating shaft 21, a sliding fixture block 22, a recovery group 23, a recovery rotating shaft 24, a recovery sleeve 25, a recovery block 26, a sponge 27, a crushing block 28, a third rotating shaft 29, a rotating plate 30, a motor 31, a linkage column 32, a connecting channel 33, a disinfectant solution cavity 34, a spiral plate 35, a stirring column 36, a disinfectant cavity 37, a sliding extrusion block 38, a fixed extrusion block 39, an outlet valve 40, an outlet 41, a storage cavity 42, a first linkage shaft 43, a pulling rope 44, a second linkage shaft 45, an extrusion plate 46, a laying block 47, a first storage cavity 48, a blanking channel 49, a second storage cavity 50, a feeding hole 51, a leveling rotating shaft 52, a leveling sleeve 53, a leveling block 54, a scraping block 54, a third rotating shaft 16, a rotating shaft 17, a rotating ring 18, a rotating shaft, a rotating block, a connecting plate, a connecting channel, a connecting channels, a connecting channel, a connecting channels, the device comprises a conveying mechanism 55, a vibration block 56, a compaction block 57, a telescopic connecting water pipe 58, a filter plate 59, a stain cavity 60, an air outlet mechanism 61, a filter rotating shaft 62, a filter membrane 63, a nutrient water cavity 64, a mixing cavity 65, a mixing rotating column 66 and a spray valve 67.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

With reference to fig. 1-9, a wetland restoration device and a restoration method thereof comprise the following steps:

s2, cleaning, namely recycling the polluted sludge into a treatment box;

s4: storing, namely extruding, compressing and storing the polluted sludge;

the steps S1-S7 are completed by matching wetland restoration equipment, the wetland restoration equipment comprises a treatment box 10, moving parts 11 are arranged on two sides of the treatment box 10 to move and clean polluted vegetation, a treatment part 12 is arranged at one end of the treatment box 10 to recover polluted sludge, a storage part 13 is arranged on the rear side of the treatment part 12 to extrude, compress and drain the sludge for storage, a laying part 14 is arranged on the storage part 13 in the direction away from the treatment part 12 to lay stones and hollow activated carbon blocks, and a filtering part 15 is arranged on the laying part 14 in the direction away from the storage part 13 to treat pollution sources.

Further, referring to fig. 1 to 9, the moving member 11 includes four first rotating shafts 16, the four first rotating shafts 16 are located at two sides of the processing box 10, the four first rotating shafts 16 are rotatably connected to the processing box 10, four rotating wheels 17 are sleeved on outer circumferential surfaces of the four first rotating shafts 16, four rotating rings 18 are sleeved on outer circumferential surfaces of the four rotating wheels 17, and four sliding knife rings 19 are slidably disposed in the four rotating rings 18.

Further, referring to fig. 1-9, the processing unit 12 includes a processing block 20, the processing block 20 is located at one end of the processing box 10, a second rotating shaft 21 is rotatably connected between the processing block 20 and the processing box 10, a plurality of sliding blocks 22 are slidably connected between one side of the processing block 20 and the processing box 10, two recovery groups 23 are rotatably disposed at the lower end of the processing block 20, each recovery group 23 includes a recovery group 23, a recovery sleeve 25 is sleeved on the outer circumferential surface of the recovery group 23, a plurality of recovery blocks 26 are uniformly slidably disposed in the circumferential direction of the recovery sleeve 25, two sponges 27 are connected between the two sides of the recovery block 26 and the recovery sleeve 25, a plurality of broken blocks 28 are uniformly slidably disposed in the circumferential direction of the recovery sleeve 25, a third rotating shaft 29 is rotatably disposed at the lower end of the processing block 20, and a rotating plate 30 is fixedly disposed on the third rotating shaft 29.

Further, referring to fig. 1-9, a motor 31 is fixedly disposed at an upper end of the processing block 20, a linkage column 32 is fixedly disposed at a lower end of the motor 31, the linkage column 32 is rotatably connected in the processing block 20, a disinfection solution chamber 34 is disposed in the processing block 20 on one side of the linkage column 32, a spiral plate 35 is fixedly disposed on an outer circumferential surface of the linkage column 32, a plurality of stirring columns 36 are uniformly and fixedly disposed on the outer circumferential surface of the linkage column 32, disinfection chambers 37 are disposed in the stirring columns 36, the disinfection chambers 37 are connected with the disinfection solution chamber 34 and provided with a connecting channel 33, the connecting channel 33 is disposed in the linkage column 32, the disinfection chambers 37 are connected with the outer portions of the stirring columns 36 and provided with a plurality of outlet valves 40, a plurality of fixed squeezing blocks 39 are fixedly disposed on the stirring columns 36, a plurality of sliding squeezing blocks 38 are slidably disposed on the stirring columns 36, the sliding squeezing blocks 38 are matched with the fixed squeezing blocks 39 for squeezing and dewatering, and an outlet 41 is disposed on a side of the processing block 20 away from the disinfection solution chamber 34.

Further, referring to fig. 1 to 9, the storage unit 13 includes a storage chamber 42, the storage chamber 42 is located at the rear side of the processing unit 12, a first linkage shaft 43 is slidably disposed above the processing block 20 in the processing box 10, a plurality of second linkage shafts 45 are rotatably disposed above the storage chamber 42, a plurality of pressing plates 46 are slidably disposed in the storage chamber 42, and a pull rope 44 is connected between the pressing plates 46 and the first linkage shaft 43.

Further, referring to fig. 1-9, the paving component 14 includes a paving block 47, the paving block 47 is located in the direction of the storage cavity 42 away from the processing block 20, the paving block 47 slides in the processing box 10, a first storage cavity 48 is provided in the processing box 10 at the upper end of the paving block 47, a blanking channel 49 is provided in the paving block 47 below the first storage cavity 48, the blanking channel 49 is connected with the first storage cavity 48, a second storage cavity 50 is provided at the side of the paving block 47 away from the storage cavity 42, a feeding hole 51 is provided in the second storage cavity 50 and the paving block 47, a conveying mechanism 55 is provided in the paving block 47 in a sliding manner, a vibrating block 56 is fixedly provided in the conveying mechanism 55, a leveling rotating shaft 52 is rotatably provided below the vibrating block 56 in the paving block 47, a leveling sleeve 53 is sleeved on the outer circumferential surface of the leveling rotating shaft 52, a plurality of vibrating leveling blocks 54 are provided in a sliding manner in the circumferential direction of the leveling sleeve 53, and a compacting block 57 is provided below the paving block 56 in a sliding manner.

Further, with reference to fig. 1-9, the filtering component 15 includes a flexible connecting water pipe 58, the flexible connecting water pipe 58 is located at one end of the processing box 10 far from the processing block 20, a filtering plate 59 is rotatably disposed inside the processing box 10 towards one end of the flexible connecting water pipe 58, an air outlet mechanism 61 is rotatably disposed in the processing box 10 in the direction of the filtering plate 59 far from the flexible connecting water pipe 58, two filtering rotating shafts 62 are rotatably disposed below the filtering plate 59 in the processing box 10, a filtering membrane 63 is peripherally connected to the two filtering rotating shafts 62, a nutrient water chamber 64 is disposed in the processing box 10 below the air outlet mechanism 61, a mixing rotating column 66 is rotatably disposed in the processing box 10 below the nutrient water chamber 64, a mixing chamber 65 is disposed in the mixing rotating column 66, and a spray valve 67 is disposed between the mixing chamber 65 and the mixing rotating column 66.

Principle of operation

And S1, moving, wherein the first rotating shaft 16 rotates to reach the rotating wheel 17 to rotate, the rotating wheel 17 rotates to drive the treatment box 10 to move, the rotating wheel 17 rotates to drive the rotating ring 18 to rotate, the rotating ring 18 rotates to drive the sliding knife ring 19 to slide out and rotate, so that the polluted vegetation on the wetland is cut and crushed, and the influence on the movement of the treatment box 10 is reduced.

S2, cleaning, wherein the second rotating shaft 21 rotates in the treatment box 10 to drive the treatment block 20 to rotate to contact polluted sludge in the wetland, the recovery rotating shaft 24 rotates to drive the recovery sleeve 25 to rotate, the recovery sleeve 25 rotates to drive the recovery block 26 to slide and rotate, the recovery block 26 rotates to pick the polluted sludge into the treatment block 20, large objects in the polluted sludge rotate through the recovery sleeve 25 to drive the third rotating shaft 29 to rotate to be crushed into small objects, the second rotating shaft 21 rotates to reach the treatment block 20, the third rotating shaft 29 is matched with the rotation of the second rotating shaft 21 to drive the rotating plate 30 to rotate to enable the polluted sludge to enter the treatment block 20, and the 27 pairs of shafts 26 are used for buffer protection.

S3: stirring disinfection, motor 31 starts to rotate through linkage post 32 and drives the spiral plate 35 and rotate, spiral plate 35 rotates the even rebound of silt of pollution, linkage post 32 rotates and drives stirring post 36 and rotate the silt of pollution, disinfection solution in disinfection solution chamber 34 enters into disinfection chamber 37 through interface channel 33, spout the mixed disinfection of stirring in the silt of pollution through outlet valve 40 again, stirring post 36 rotates and drives sliding extrusion piece 38 and move on stirring post 36, sliding extrusion piece 38 removes fixed extrusion piece 39 of cooperation and fixes the silt of pollution and extrude the dehydration.

S4: and storing, the second rotating shaft 21 rotates to drive the processing block 20 to rotate, the motor 31 is matched to start to rotate to drive the spiral plate 35 to rotate through the linkage column 32 so as to enable polluted sludge to enter the storage cavity 42 through the outlet 41, the processing block 20 rotates to touch the first linkage shaft 43, the first linkage shaft 43 is driven to rotate in a linkage mode, the first linkage shaft 43 is matched with the second linkage shaft 45 in a rotating mode to rotate to drive the extrusion plate 46 to slide in the storage cavity 42 through the pull rope 44, and the extrusion plate 46 slides to extrude, compress, store and dewater the polluted sludge.

S5: laying, paving block 47 slides down in processing box 10 to contact pollution-free silt, stones in first storage chamber 48 fall to conveying mechanism 55 through unloading channel 49, conveying mechanism 55 starts to cooperate with shaking block 56 to rotate and evenly drive stones to fall, leveling rotating shaft 52 rotates and drives leveling sleeve 53 to rotate, leveling sleeve 53 rotates and drives even scraping block 54 to rotate and slide, even scraping block 54 rotates and scrapes stones evenly, compacting block 57 slides down in paving block 47 to cooperate with shaking block 56 to vibrate, and stones are vibrated and evenly compacted.

S6: neatly, the hollow activated carbon blocks in the second storage cavity 50 fall onto the conveying mechanism 55 through the feeding hole 51, the conveying mechanism 55 starts to match with the vibrating block 56 to rotate so as to uniformly drive the hollow activated carbon blocks to fall, the leveling rotating shaft 52 rotates to drive the leveling sleeve 53 to rotate, the leveling sleeve 53 rotates to drive the uniform scraping block 54 to rotate and slide, the uniform scraping block 54 rotates to uniformly scrape stones, and the compacting block 57 slides downwards in the laying block 47 to match with the vibrating block 56 to vibrate so as to neatly and compact the hollow activated carbon blocks.

S7, sewage treatment, wherein sewage is telescopically connected through a telescopic connection water pipe 58, the sewage enters a treatment box 10 through the telescopic connection water pipe 58, primary filtration is carried out through a filter plate 59, the sewage is secondarily filtered through a filter membrane 63, the filter plate 59 rotates in the treatment box 10, an air outlet mechanism 61 is started to blow impurities on the filter plate 59 into a stain cavity 60 for storage, a filter rotating shaft 62 rotates to drive the filter membrane 63 to move for timely replacement, the sewage enters a mixing cavity 65 through a spray valve 67, nutrient water in a nutrient water cavity 64 enters the mixing cavity 65 through the spray valve 67, and a mixing rotating column 66 rotates to drive the sewage and the nutrient water in the mixing cavity 65 to be mixed and then discharged into a wetland through the spray valve 67.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. The wetland restoration equipment and the restoration method thereof are characterized by comprising the following steps:

s2, cleaning, namely recycling the polluted sludge into a treatment box;

s4: storing, namely extruding, compressing and storing the polluted sludge;

steps S1-S7 adopt a wetland restoration equipment cooperation to accomplish, and this wetland restoration equipment is including handling case (10), it is equipped with movable part (11) and removes and clear up pollution vegetation to handle case (10) both sides, it is equipped with processing unit (12) and carries out recovery processing to the silt of pollution to handle case (10) one end, processing unit (12) rear side is equipped with storage unit (13) and extrudees compression drainage storage to silt, processing unit (12) orientation is kept away from in storage unit (13) is equipped with and lays part (14) and carries out stone and hollow activated carbon piece and lay, it is equipped with filter element (15) to handle the pollution sources to lay part (14) keep away from storage unit (13) orientation.

2. The wetland restoration equipment and the restoration method thereof according to claim 1, characterized in that: moving part (11) include four first axis of rotation (16), four first axis of rotation (16) are located and handle case (10) both sides, four first axis of rotation (16) are rotating the connection on handling case (10), the cover is equipped with four and rotates wheel (17) on four first axis of rotation (16) outer circumferences, the cover is equipped with four rotating ring (18) on four rotating ring (17) outer circumferences, it is equipped with four slip sword rings (19) to slide in four rotating ring (18).

3. The wetland restoration equipment and the restoration method thereof according to claim 2, characterized in that: the processing part (12) comprises a processing block (20), the processing block (20) is located at one end of the processing box (10), the processing block (20) is connected with the processing box (10) in a rotating mode and is provided with a second rotating shaft (21), the processing block (20) is connected with the processing box (10) in a rotating mode and is provided with a plurality of sliding clamping blocks (22) in a sliding mode, the lower end of the processing block (20) is provided with two recovery groups (23) in a rotating mode, each recovery group (23) comprises a recovery group (23), a recovery sleeve (25) is sleeved on the outer circumferential surface of each recovery group (23), a plurality of recovery blocks (26) are arranged in the recovery sleeve (25) in a circumferential direction in a sliding mode, two sponges (27) are connected between the two sides of the recovery blocks (26) and the recovery sleeve (25), and a plurality of broken blocks (28) are arranged in the recovery sleeve (25) in the circumferential direction in an array in a sliding mode, the lower end of the processing block (20) is rotatably provided with a third rotating shaft (29), and a rotating plate (30) is fixedly arranged on the third rotating shaft (29).

4. The wetland restoration equipment and the restoration method thereof according to claim 3, characterized in that: the utility model discloses a sterilization device, including processing piece (20), motor (31) is set firmly to processing piece (20) upper end, motor (31) lower extreme has set firmly linkage post (32), linkage post (32) internal rotation is connected in processing piece (20), be equipped with disinfection solution chamber (34) in linkage post (32) one side in processing piece (20), spiral plate (35) have set firmly on linkage post (32) the outer periphery, evenly set firmly a plurality of stirring post (36) on linkage post (32) the outer periphery, be equipped with disinfection chamber (37) in stirring post (36), disinfection chamber (37) are connected with disinfection solution chamber (34) and are equipped with connecting channel (33), connecting channel (33) are in linkage post (32), disinfection chamber (37) are equipped with a plurality of play valves (40) with stirring post (36) external connection, a plurality of fixed extrusion blocks (39) have set firmly on stirring post (36), the slip is equipped with a plurality of slip extrusion blocks (38) on stirring post (36), the sliding extrusion block (38) is matched with the fixed extrusion block (39) to perform extrusion dehydration, and an outlet (41) is formed in one side, far away from the disinfection solution cavity (34), of the treatment block (20).

5. The wetland restoration equipment and the restoration method thereof according to claim 4, characterized in that: storage unit (13) are including storing chamber (42), store chamber (42) and be located processing unit (12) rear side, it is equipped with first universal driving shaft (43) to handle piece (20) top and slide in handling case (10), it is equipped with a plurality of second universal driving shafts (45) to store chamber (42) top rotation, it is equipped with a plurality of stripper plates (46) to slide in storage chamber (42), it is equipped with stay cord (44) to connect between stripper plate (46) and first universal driving shaft (43).

6. The wetland restoration equipment and the restoration method thereof according to claim 5, characterized in that: lay part (14) including laying piece (47), lay piece (47) and be located storage chamber (42) and keep away from processing piece (20) direction, lay piece (47) and slide in handling case (10), it is equipped with first storage chamber (48) to lay piece (47) upper end in handling case (10), first storage chamber (48) below is equipped with unloading passageway (49) in laying piece (47), unloading passageway (49) are connected with first storage chamber (48), it is equipped with second storage chamber (50) to lay piece (47) keep away from storage chamber (42) one side, second storage chamber (50) and lay piece (47) internal connection are equipped with feed inlet (51), it is equipped with transport mechanism (55) to slide in laying piece (47), transport mechanism (55) internal fixation has shaken piece (56), shake piece (56) below is equipped with flattening rotation axis (52) in laying piece (47), the flattening device is characterized in that a flattening sleeve (53) is sleeved on the outer circumferential surface of the flattening rotating shaft (52), a plurality of evenly-scraping blocks (54) are arranged in the flattening sleeve (53) in a sliding mode in the circumferential direction, and compaction blocks (57) are arranged below the vibration blocks (56) in the laying blocks (47) in a sliding mode.

7. The wetland restoration equipment and the restoration method thereof according to claim 6, characterized in that: the filter part (15) comprises a telescopic connection water pipe (58), the telescopic connection water pipe (58) is positioned at one end of the treatment box (10) far away from the treatment block (20), a filter plate (59) is rotatably arranged in the treatment box (10) towards one end of the telescopic connection water pipe (58), the filter plate (59) is rotatably arranged in the treatment box (10) far away from the direction of the telescopic connection water pipe (58) and is provided with an air outlet mechanism (61), two filter rotating shafts (62) are rotatably arranged below the filter plate (59) in the treatment box (10), a filter membrane (63) is connected and arranged at the periphery of the two filter rotating shafts (62), a nutrient water cavity (64) is arranged below the air outlet mechanism (61) in the treatment box (10), a mixing rotating column (66) is rotatably arranged below the nutrient water cavity (64) in the treatment box (10), and a mixing cavity (65) is arranged in the mixing rotating column (66), and the mixing cavity (65) and the outer part of the mixing rotating column (66) are connected and provided with a spray valve (67).