CN109018224B - Automatic cutting conveyor for environmental protection water treatment waterweeds - Google Patents

Abstract

The invention discloses an automatic cutting conveyor for deep water plants for environmental water treatment, which comprises a ship body, wherein a cabin is arranged on the ship body, the automatic cutting conveyor also comprises a cutting conveyor, a sliding driving rod is arranged on the ship body, the driving rod rotates in the cutting conveyor, a cutting groove is arranged on the cutting conveyor, a rotating cutting turntable is arranged in the cutting groove, a rubber inflator is arranged at the bottom of the cutting conveyor, an air cavity is arranged in the rubber inflator, a sealing control cavity correspondingly communicated with the air cavity is also arranged in the cutting conveyor, a conveying pipe is also connected on the ship body, the aquatic plants can be further cut through the rotation of the cutting turntable, so that the defect that the traditional aquatic plant cutting machine cannot cut the aquatic plants in deep water is avoided, and the life threat caused by tourists falling into water due to the aquatic plants is avoided, thereby ensuring the self-rescue ability of the tourists.

Description

Automatic cutting conveyor for environmental protection water treatment waterweeds

Technical Field

The invention relates to a float grass harvester, in particular to an automatic cutting conveyor for environmental water treatment deep-water float grass, and particularly relates to an automatic cutting conveyor for environmental water treatment deep-water float grass, which can cut float grass in deep water and can further convey the float grass.

Background

Along with the continuous improvement of living standard and the continuous enhancement of environmental protection consciousness, wherein in the current park, the lake is one of indispensable buildings for beautifying the environment, so that the lake can be arranged in the park to further enhance the beautifying effect of the park, the area of the lake can be further increased due to the larger area of the park, aquatic weeds can be planted in the lake in the construction process of the lake, the beautifying effect of the lake is further increased, the water quality in the lake can be further ensured by utilizing the aquatic weeds, the water quality can be purified, the aquatic weeds in the lake are propagated faster, when the tourists fall into the lake due to the missing, the serious harm can be caused to the tourists falling into the lake due to the mass propagation of the aquatic weeds, and the aquatic weeds can be wound around the feet of the tourists falling into the lake, therefore, the life safety of the tourists is further affected, and therefore, the aquatic weeds need to be cut at regular time, wherein the aquatic weeds are harvested by a large-scale machine in the process of cutting the aquatic weeds, but the aquatic weeds can be cut by the large-scale machine in the process of harvesting, but the following problems exist:

the water plants on the surface of the lake can be cut only in the process of harvesting by using a large machine, the water plants in the deep water of the lake cannot be cut due to the fact that the lake water is deep, and the water plants in the deep water of the lake can also seriously threaten the life of a tourist after the tourist falls due to the shortage of water.

When a large-scale machine is used for cutting aquatic weeds, the machine discharges the cut aquatic weeds into the lake in the cutting process, so that the cut aquatic weeds float on the water surface of the lake, and the water quality of the lake water is seriously polluted.

Therefore, it is necessary to design an automatic cutting conveyor for deep water plants for environmental water treatment to solve the above technical problems.

Disclosure of Invention

The invention aims to overcome the problems in the prior art, and provides an automatic cutting conveyor for deep-water aquatic plants for environmental water treatment, which can further extend the cutting conveyor into lake water through a driving rod arranged on a ship body, wherein the cutting conveyor is provided with a rotating cutting turntable, so that the cutting turntable can further drive the cutting platen to rotate through the rotation of the cutting turntable, aquatic plants can be further extruded through the cutting platen in the rotating process, aquatic plants can be cut in the sliding process of the cutting platen on a pressing slide bar, the aim of cutting aquatic plants at the bottom of a lake is fulfilled, aquatic plants can be further conveyed through the rotation of the conveying platen, and aquatic plants can be cut and crushed through the rotation of the cutting blade, and can further carry the aquatic weeds after cutting and smashing to the cabin through the pump tube in to can further make cutting conveyer can go up and down in the lake water through the inflation and the exhaust of the rubber inflator that cutting conveyer bottom set up to can cut the aquatic weeds at the bottom of the lake, thereby avoided the tourist to fall the danger that the aquatic weeds that causes twines the foot and cause in the lake water, thereby further guarantee tourist's safety.

The invention is realized by the following technical scheme:

the automatic cutting conveyor for the environmental water treatment deepwater aquatic weeds comprises a ship body, wherein a cabin is arranged on the ship body, the automatic cutting conveyor also comprises a cutting conveyor, a sliding driving rod is arranged on the ship body, the driving rod rotates in the cutting conveyor, a cutting groove is formed in the cutting conveyor, a rotating cutting turntable is arranged in the cutting groove, a circle of cutting pressure plate which correspondingly swings is arranged on the cutting turntable, a pressing slide bar corresponding to the cutting pressure plate is arranged in the cutting groove, and the pressing slide bar presses the cutting pressure plate. Can pass through the drive that the rotation of cutting carousel can be further the rotation of cutting pressure disk, thereby can pass through the cutting pressure disk is further hugged the aquatic weeds, and can pass through the continuation of cutting pressure disk rotates can further messenger the cutting pressure disk is in slide on compressing tightly the draw runner, thereby can further utilization the cutting pressure disk cuts the aquatic weeds absolutely to can reach the purpose of cutting the aquatic weeds, thereby avoided the aquatic weeds in deep water department to the safety threat that the tourist of falling into water caused, thereby further assurance arrives tourist's safety.

Two conveying discs which are correspondingly clamped and rotated are further arranged in the cutting groove, and the two conveying discs correspond to the cutting rotary disc. The rotation of the conveying disc can further convey the aquatic weeds, so that the aquatic weeds can be further treated.

The cutting conveyor is characterized in that a cutting opening correspondingly communicated with the cutting groove is further formed in the cutting conveyor, a cutting disc and a rotary feeding disc which are correspondingly clamped and rotated are arranged in the cutting opening, a row of corresponding cutting blades are arranged on the cutting disc, and pushing raised heads are fully distributed on the rotary feeding disc. Can through the rotation of cutting dish can further drive cutting blade's rotation to can utilize the rotation of cutting piece can further cut the aquatic weeds and smash, and can through the rotation of rotating the charging tray can further carry out further transport processing with the aquatic weeds after cutting.

The cutting conveyer is also internally provided with a conveying cavity correspondingly communicated with the cutting opening, the bottom of the conveying cavity is provided with a rotating fluted disc, and the rotating fluted disc is provided with a spiral disc rotating in the conveying cavity. Can can further drive through the rotation of rotation fluted disc the rotation of spiral dish to can utilize the rotation of spiral dish to produce rivers, thereby can be further carry the processing to the aquatic weeds after cutting.

The bottom of cutting conveyer is provided with a rubber inflator, be provided with an air cavity in the rubber inflator, still be provided with in the cutting conveyer with the sealed control chamber of the corresponding intercommunication of air cavity, still be connected with a conveyer pipe on the hull, be provided with in the conveyer pipe one with the corresponding fifth trachea that communicates in sealed control chamber, be provided with a gliding control sliding block in the sealed control chamber, control sliding block control the air cavity admits air and exhausts. The rubber inflator can be further expanded after being inflated by inflating and exhausting the air cavity, so that the rubber inflator can generate buoyancy and can drive the cutting conveyor to float on the water surface, and the cutting conveyor can be controlled.

The conveying pipe is internally provided with a material pumping pipe correspondingly communicated with the conveying cavity, the driving rod drives the cutting turnplates to rotate, the driving rod drives the two conveying plates to rotate, the driving rod drives the cutting plates and the rotating feeding plates to correspondingly rotate, and the driving rod synchronously drives the rotating fluted discs to rotate. Can be through the rotation of the further drive of the rotation of actuating lever the rotation of cutting carousel, thereby can utilize the cutting carousel can cut pasture and water, and can carry out further transport to the pasture and water through the rotation of carrying the carousel, can cut the pasture and water through the rotation of cutting disc, and can further transport to the pasture and water after the cutting through rotate the feed table, thereby can further make cutting carousel, carry the dish, cutting dish, rotate the feed table and rotate the synchronous action that the fluted disc can coordinate.

Furthermore, be provided with a first chamber of changeing in the cutting conveyer, be provided with one on the actuating lever first commentaries on classics intracavity pivoted first gear, be provided with one in the cutting conveyer and be in the first pivot of cutting recess internal rotation, the cutting carousel is connected the one end of first pivot, the other end of first pivot be connected with one with the corresponding meshing fourth gear of being connected of first gear. The first gear and the fourth gear are correspondingly meshed and connected, so that the driving rod can be further utilized to rotate to drive the cutting turntable to rotate.

Furthermore, a second rotating cavity is arranged in the cutting conveyor, a second gear rotating in the second rotating cavity is arranged on the driving rod, a second rotating shaft which rotates in the cutting groove is arranged in the cutting conveyor, a fifth gear which is correspondingly meshed and connected with the second gear is arranged at one end of the second rotating shaft, a fourth rotating cavity is also arranged in the cutting conveyor, the second rotating shaft rotates in the fourth rotating cavity, still be provided with one in the cutting conveyer fourth commentaries on classics intracavity pivoted sixth pivot, the one end of sixth pivot with be provided with a corresponding seventh gear that meshes the connection in the second pivot respectively, two the delivery disc corresponds the connection respectively in the second pivot with in the sixth pivot, be provided with on the delivery disc and hug the frame, hug the frame semicircular in shape setting. Can further make two the corresponding clamping of delivery tray rotate through the seventh gear of two corresponding meshing connections to can further make the rake can corresponding carry the grass, thereby can carry the aquatic weeds further transport processing.

Further, be provided with a third commentaries on classics chamber in the cutting conveyer, be provided with one on the actuating lever the third changes intracavity pivoted third gear, set up one in the cutting conveyer and be in the third pivot and an eighth pivot of cutting port internal rotation, be provided with in the third pivot one with the sixth gear that the corresponding meshing of third gear is connected, the third pivot with be provided with an eighth gear and a ninth gear that corresponding meshing is connected respectively in the eighth pivot, the cutting disc with it connects to rotate the charging tray corresponding respectively the third pivot with in the eighth pivot, the number of teeth of ninth gear is twice of the number of teeth of eighth gear, rotate on the charging tray be provided with the corresponding butt joint groove of cutting blade. Can can further drive through the rotation of cutting disc cutting blade's rotation to can utilize cutting blade can cut the aquatic weeds and smash, and the number of teeth of ninth gear is the twice of the number of teeth of eighth gear, thereby can further make the rotational speed of cutting disc is faster than the rotational speed of rotation pay-off dish, thus can further make cutting blade carries out normal cutting to aquatic weeds.

Furthermore, a rotating groove corresponding to the conveying cavity is formed in the cutting conveyor, the rotating fluted disc rotates in the rotating groove, two supporting sliding grooves are formed in two sides of the rotating groove respectively, two supporting rotating rings which rotate in the supporting sliding grooves are arranged on two sides of the rotating fluted disc respectively, a first bevel gear is further arranged on the driving rod, a rotating fourth rotating shaft is arranged in the cutting conveyor, a second bevel gear which is correspondingly meshed and connected with the first bevel gear is arranged at one end of the fourth rotating shaft, a fourth bevel gear is arranged at the other end of the fourth rotating shaft, and the rotating fluted disc is correspondingly meshed and connected with the fourth bevel gear. The first bevel gear and the second bevel gear can be correspondingly meshed and connected, so that the driving rod can further drive the fourth rotating shaft to rotate, and the fourth bevel gear and the rotating fluted disc can be correspondingly meshed and connected, so that the rotating fluted disc can be further driven to rotate.

Furthermore, a circle of corresponding fixed blocks are arranged on the cutting rotary disc, a fifth rotating shaft is respectively arranged on the fixed blocks, the cutting pressure plates respectively rotate on the fifth rotating shaft, a first spring for elastically pressing the cutting pressure plates is respectively arranged on the cutting rotary disc, a circle of cutting knife corresponding to the cutting pressure plates is arranged on the cutting rotary disc, a pair of connecting pressure plates are respectively and correspondingly connected on the cutting pressure plates, the cutting pressure plates are respectively and correspondingly connected with the connecting pressure plates through a third spring, cutting pressure grooves corresponding to the cutting knife are respectively arranged on the connecting pressure plates, a connecting pressing strip correspondingly connected with the cutting pressure grooves is respectively and correspondingly connected on two sides of each cutting pressure groove, a second spring connected on the connecting pressure plate is respectively arranged on two sides of each cutting pressure groove, the second springs respectively elastically press the connecting pressing strips, and the butt-joint pressing strips on the two sides are correspondingly pressed and connected with the cutting knife, and the pressing sliding strips correspond to the two conveying discs. Can pass through first spring is right the cutting pressure disk carries out corresponding bullet and presses, thereby can further messenger the cutting pressure disk is in the open-ended state, thereby can further utilization the cutting pressure disk cuts the pasture and presses absolutely to the aquatic, and can pass through the second spring is right the butt joint compresses tightly the strip and carries out corresponding bullet and press, can be further play the effect of buffering at the in-process of cutting the pasture and water, the effect of the cutting of improvement to the pasture and water that can further be.

Furthermore, two sides of the cutting conveyor are respectively and correspondingly connected with a row of corresponding support rods, the rubber inflator is provided with two support rods which are respectively and correspondingly connected with the two support rods, the rubber inflator is respectively and correspondingly connected with a sliding disc, the rubber inflator is respectively and correspondingly connected with a first air pipe correspondingly communicated with the air cavity, the cutting conveyor is internally provided with a second air pipe correspondingly communicated with the two first air pipes, the cutting conveyor is also internally provided with a third air pipe correspondingly communicated with the second air pipe, the third air pipe is correspondingly communicated with the sealing control cavity, the cutting conveyor is also respectively provided with a fourth air pipe correspondingly communicated with the sealing control cavity and an air exhaust hole, the fifth air pipe is correspondingly communicated with the fourth air pipe, and the control sliding block is internally provided with a connecting air pipe in a U shape, the two ends of the connecting air pipe are respectively communicated with the fourth air pipe, the third air pipe and the exhaust holes correspondingly, a fourth spring for tensioning the control sliding block is further arranged in the sealed control cavity, a pull rope is further connected onto the control sliding block, a sealed sliding hole corresponding to the pull rope is formed in the cutting conveyor, the pull rope slides in the sealed sliding hole, a sealed rubber disc is further arranged on the pull rope, the sealed rubber disc is correspondingly connected onto the cutting conveyor, and the end part of the pull rope is correspondingly connected onto the ship body. The air cavities can be further controlled to be inflated and exhausted by sliding of the control sliding blocks, so that the cutting conveyor can be further controlled to ascend and descend in the lake water, and the aquatic weeds at the bottom of the lake can be further cut.

Furthermore, a first sliding hole is formed in the ship body, the driving rod slides in the first sliding hole, a fourth rotating cavity communicated with the first sliding hole correspondingly is formed in the ship body, a rotating driving turntable is arranged in the fourth rotating cavity, a sliding opening is formed in the driving turntable, the sliding opening and the driving rod are respectively arranged in a square shape, a motor-driven third bevel gear is arranged in the ship body, and the third bevel gear is correspondingly meshed with the driving turntable. Can pass through the rotation of motor can further drive the rotation of drive carousel to can pass through the rotation of drive carousel can further drive the rotation of actuating lever, thereby can pass through the rotation of actuating lever can further drive the grabbing of cutting carousel to can cut pasture and water.

Further, an air compressor correspondingly communicated with the fifth air pipe is arranged in the cabin, a filter barrel correspondingly communicated with the pumping pipe is further arranged in the cabin, and drain holes are fully distributed in the filter barrel. Compressed air can be generated through the air compressor, so that the air cavity can be further inflated, the rubber air cylinder can be further inflated, the cutting conveyor can be further driven to ascend in lake water, and aquatic weeds can be collected and treated through the filter vat, so that the utilization value of the aquatic weeds is further improved.

Compared with the prior art, the invention has the beneficial effects that: the cutting conveyor can further extend into lake water through the driving rod arranged on the ship body, the cutting conveyor is provided with the rotating cutting rotary disc, so that the cutting rotary disc can further drive the cutting pressure disc to rotate through the rotation of the cutting rotary disc, the aquatic weeds can be further extruded by the cutting pressure disc in the rotating process, the aquatic weeds can be cut by the cutting pressure disc in the sliding process on the pressing slide bar, the aquatic weeds at the bottom of the lake can be further cut, the defect that the traditional aquatic weed cutting machine cannot cut the aquatic weeds at deep water is avoided, the life danger of a tourist who is out of water due to the winding of the aquatic weeds is further prevented, the self-rescue capability of the tourist is further ensured, and the aquatic weeds can be further conveyed through the rotation of the conveying disc, can can be through cutting the aquatic weeds can be cut and smash in the rotation of cutting blade to can be through the pump tube can be further will cut the aquatic weeds after smashing and carry the cabin in, and can pass through the inflation and the exhaust of the rubber inflator that the cutting conveyer bottom set up, can further make the cutting conveyer can go up and down in the lake water, thereby can cut the aquatic weeds of lake bottom, thereby avoided the tourist to fall the danger that the aquatic weeds that causes twines and cause at the foot in the lake water, thereby further guaranteed tourist's safety.

Drawings

The invention is further described below with reference to the accompanying drawings.

Fig. 1 is a schematic structural diagram of a ship body and a cutting conveyor according to an embodiment of the invention.

Fig. 2 is a schematic view of the overall structure of the cutting conveyor according to the embodiment of the invention.

Fig. 3 is a side view of the overall structure of the cutting conveyor according to the embodiment of the invention.

Fig. 4 is a schematic view of the overall structure of the cutting turntable according to the embodiment of the invention.

Fig. 5 is a side view of the overall structure of the cutting turntable and the pressing slider according to the embodiment of the invention.

FIG. 6 is a side view showing the overall structure of a transfer tray according to an embodiment of the present invention.

FIG. 7 is a top view of the overall structure of a transfer tray according to an embodiment of the present invention.

Fig. 8 is a schematic view of the overall structure of the cutting tray and the rotary feeding tray according to the embodiment of the present invention.

FIG. 9 is a top view of the cutting plate and the rotary feed plate according to the embodiment of the present invention.

FIG. 10 is a side view of an embodiment of a rotatable toothed disc.

Fig. 11 is a side view of the overall structure of the driving turntable according to the embodiment of the invention.

Fig. 12 is a schematic view of the overall structure of the filter vat according to the embodiment of the invention.

FIG. 13 is a schematic view of the overall structure of a delivery tube according to an embodiment of the present invention.

In the figure: 1 ship body, 2 cabin, 3 driving rod, 4 cutting conveyor, 5 conveying pipe, 6 spiral disc, 7 sliding disc, 8 supporting rod, 9 driving turntable, 10 first sliding hole, 11 first rotating cavity, 12 second rotating cavity, 13 third rotating cavity, 14 first gear, 15 second gear, 16 third gear, 17 fourth gear, 18 fifth gear, 19 sixth gear, 20 first rotating shaft, 21 second rotating shaft, 22 third rotating shaft, 23 cutting turntable, 24 conveying disc, 25 cutting disc, 26 water discharging hole, 27 first bevel gear, 28 second bevel gear, 29 fourth rotating shaft, 30 cutting groove, 31 fixed block, 32 fifth rotating shaft, 33 cutting pressing disc, 34 first spring, 35 pressing sliding bar, 36 cutting knife, 37 cutting pressing groove, 38 butt pressing bar, 39 second spring, 40 butt pressing bar, 41 third spring, 42 fourth rotating cavity, 43 seventh gear, 44 sixth rotating shaft, 45 grass holding frame, Cutting opening 46, eighth rotating shaft 47, rotating feed tray 48, cutting blade 49, butt joint groove 50, pushing nose 51, eighth gear 52, ninth gear 53, conveying cavity 54, rubber air cylinder 55, air cavity 56, first air pipe 57, second air pipe 58, sealing control cavity 59, control slide block 60, third air pipe 61, air exhaust hole 62, fourth air pipe 63, connecting air pipe 64, fourth spring 65, pull rope 66, suction pipe 67, fifth air pipe 68, motor 69, third bevel gear 70, sliding opening 71, fourth rotating cavity 72, fourth bevel gear 73, rotating groove 74, rotating toothed disc 75, supporting rotating ring 76, supporting sliding groove 77, sealing sliding hole 78, sealing rubber disc 79, air compressor 80 and filter barrel 81.

Detailed Description

As shown in fig. 1 to 13, an automatic cutting conveyor for deep water plants for environmental water treatment comprises a ship body 1, a cabin 2 is arranged on the ship body 1, the automatic cutting conveyor also comprises a cutting conveyor 4, a sliding driving rod 3 is arranged on the ship body 1, the driving rod 3 rotates in the cutting conveyor 4, a cutting groove 30 is arranged on the cutting conveyor 4, a rotating cutting turntable 23 is arranged in the cutting groove 30, a circle of cutting platen 33 which correspondingly swings is arranged on the cutting turntable 23, a pressing slide bar 35 corresponding to the cutting platen 33 is arranged in the cutting groove 30, and the pressing slide bar 35 presses the cutting platen 33. A rotating driving rod 3 is arranged on the ship body 1, the driving rod 3 can slide at the bottom of the ship body 1 and can further extend into a lake to continue to rotate, a cutting conveyor 4 sliding in the lake is further arranged at the bottom of the ship body 1, the driving rod 3 can rotate in the cutting conveyor 4, a cutting groove 30 is arranged on the cutting conveyor 4, a rotating cutting turntable 23 is arranged in the cutting groove 30, a circle of cutting pressing plates 33 swinging correspondingly are arranged on the cutting turntable 23, the cutting pressing plates 33 are respectively arranged in a semicircular shape, a pressing sliding strip 35 is further arranged in the cutting groove 30, the pressing sliding strip 35 is arranged in a semicircular shape, and the cutting pressing plates 33 can slide on the pressing sliding strip 35, the pressing slide bar 35 can further press the cutting platen 33, the cutting conveyor 4 can be further driven to move up and down in the lake in the process that the driving rod 3 slides in the lake, so that the aquatic weeds can be further cut by the rotation of the cutting turntable 23, the cutting platen 33 can swing on the cutting turntable 23, so that the aquatic weeds can be further pressed by the cutting turntable 23, and the cutting platen 33 can be further pressed on the pressing slide bar 35 in the process that the cutting turntable 23 continues to rotate, so that the cutting platen 33 can be further pressed by the pressing slide bar 35, so that the aquatic weeds can be cut off, the purpose of cutting the aquatic weeds in deep water can be achieved, and the problem that the aquatic weeds in deep water cannot be cut by a traditional large-scale cutting machine is avoided, thereby further avoided pasture and water winding to fall into the lake in the foot of visitor in the miss to further assurance visitor's ability of saving oneself, thereby guaranteed visitor's life safety.

Two conveying discs 24 which are clamped and rotated correspondingly are further arranged in the cutting groove 30, and the two conveying discs 24 correspond to the cutting rotary disc 23. Two conveying discs 24 which are correspondingly clamped and rotated are arranged in the cutting groove 30, so that after the aquatic weeds are cut by the cutting turntable 23, the aquatic weeds can be further clamped and conveyed by the rotation of the two conveying discs 24, and further treatment can be carried out on the aquatic weeds.

The cutting conveyor 4 is also internally provided with a cutting opening 46 correspondingly communicated with the cutting groove 30, a cutting disc 25 and a rotary feeding disc 48 which are correspondingly clamped and rotated are arranged in the cutting opening 46, a row of corresponding cutting blades 49 are arranged on the cutting disc 25, and a pushing raised head 51 is fully distributed on the rotary feeding disc 48. A cutting opening 46 is arranged in the cutting conveyor 4, the cutting opening 46 can correspondingly communicate with the cutting groove 30, a cutting disc 25 and a rotary feed disc 48 which are correspondingly clamped and rotated are arranged in the cutting opening 46, so that after the aquatic weeds can be further conveyed by the conveying disc 24, a row of corresponding cutting blades 49 are arranged on the cutting disc 25, the cutting blades 49 can be further driven by the cutting disc 25 to rotate, the aquatic weeds can be further cut and crushed by the cutting blades 49, the aquatic weeds can be further processed, the aquatic weeds can be further conveyed by the rotary feed disc 48 after the aquatic weeds are cut and crushed by the cutting blades 49, the rotary feed tray 48 is fully provided with a pushing raised head 51, so that the rotation of the rotary feed tray 48 can further drive the pushing raised head 51 to rotate, the cut aquatic weeds can be further pushed and conveyed by the pushing raised head 51, and the aquatic weeds can be further processed.

The cutting conveyor 4 is further provided with a conveying cavity 54 correspondingly communicated with the cutting opening 46, a rotating toothed disc 75 is arranged at the bottom of the conveying cavity 54, and a spiral disc 6 rotating in the conveying cavity 54 is arranged on the rotating toothed disc 75. A conveying cavity 54 is further arranged in the cutting conveyor 4, the conveying cavity 54 is correspondingly communicated with the cutting opening 46, so that aquatic weeds can be further conveyed into the conveying cavity 54 through the cutting disc 25 and the rotary feeding disc 48, so that the aquatic weeds can be further processed through the conveying cavity 54, a rotary fluted disc 75 is arranged at the bottom of the conveying cavity 54, a spiral disc 6 is arranged on the rotary fluted disc 75, so that the spiral disc 6 can be further driven to rotate through the rotation of the rotary fluted disc 75, the spiral disc 6 can rotate in the conveying cavity 54, so that water can be further driven to generate water flow through the rotation of the spiral disc 6, the spiral disc 6 is formed by spiral blades, so that the cut aquatic weeds can slide in the conveying cavity 54 by the water flow, thereby preventing the aquatic weeds from falling from the delivery chamber 54 into the lake to cause pollution and further ensuring the quality of water in the lake.

The bottom of the cutting conveyor 4 is provided with a rubber air cylinder 55, an air cavity 56 is arranged in the rubber air cylinder 55, a sealing control cavity 59 correspondingly communicated with the air cavity 56 is further arranged in the cutting conveyor 4, the ship body 1 is further connected with a conveying pipe 5, a fifth air pipe 68 correspondingly communicated with the sealing control cavity 59 is arranged in the conveying pipe 5, a sliding control sliding block 60 is arranged in the sealing control cavity 59, and the control sliding block 60 controls air inlet and exhaust of the air cavity 56. A rubber air cylinder 55 is arranged at the bottom of the cutting conveyor 4, an air cavity 56 is arranged in the rubber air cylinder 55, a sealing control cavity 59 is also arranged in the cutting conveyor 4, the sealing control cavity 59 is correspondingly communicated with the air cavity 56, a conveying pipe 5 is connected to the ship body 1, a fifth air pipe 68 is arranged in the conveying pipe 5 and can be correspondingly communicated with the sealing control cavity 59 through the fifth air pipe 68, so that the sealing control cavity 59 can be supplied with air through the fifth air pipe 68, a sliding control sliding block 60 is also arranged in the sealing control cavity 59, so that the air intake and exhaust of the air cavity 56 can be further controlled through the sliding of the control sliding block 60, and the rubber air cylinder 55 can be further expanded after the air cavity 56 is inflated, therefore, the cutting conveyor 4 can be further driven to float on the water surface, the cutting conveyor 4 can be lifted to the water surface after the aquatic weeds are cut, the cutting is completed, the cutting conveyor 4 can be further driven to sink to the lake bottom under the action of gravity through the exhaust of the air cavity 56, the aquatic weeds at the lake bottom can be further cut, and the purpose of cutting the aquatic weeds at the lake bottom can be further completed.

A material pumping pipe 67 correspondingly communicated with the conveying cavity 54 is further arranged in the conveying pipe 5, the driving rod 3 drives the cutting turntable 23 to rotate, the driving rod 3 drives the two conveying discs 24 to rotate, the driving rod 3 drives the cutting disc 25 and the rotary feeding disc 48 to correspondingly rotate, and the driving rod 3 synchronously drives the rotary fluted disc 75 to rotate. A pumping pipe 67 is arranged in the conveying pipe 5, the pumping pipe 67 is a through pipe, the pumping pipe 67 is correspondingly communicated with the conveying cavity 54, so that the cut aquatic weeds in the conveying cavity 54 can be further discharged and conveyed through the pumping pipe 67, further processing can be performed, the cutting turntable 23 can be further driven to rotate through the rotation of the driving rod 3, the aquatic weeds can be cut through the cutting turntable 23, the driving rod 3 can simultaneously drive the conveying disc 24 to rotate, the cut aquatic weeds can be further clamped and conveyed through the rotation of the conveying disc 24, the rotating toothed disc 75 can be synchronously driven to rotate through the driving rod 3, and the rotating toothed disc 6 can be further driven to rotate through the rotating toothed disc 75, therefore, water flow can be generated through the rotation of the spiral disc 6, cut aquatic weeds can be further conveyed, the aquatic weeds are prevented from falling into lake water to cause pollution, the cutting disc 25 and the rotary feed disc 48 can be further driven through the rotation of the driving rod 3, the aquatic weeds can be further cut and conveyed through the rotation of the cutting disc 25 and the rotary feed disc 48, the aquatic weeds can be further processed after being crushed, the pollution of the lake water caused by a traditional aquatic weed harvesting machine is prevented, and the quality of the lake water is further guaranteed.

As shown in fig. 3, a first rotating cavity 11 is formed in the cutting conveyor 4, a first gear 14 which rotates in the first rotating cavity 11 is arranged on the driving rod 3, a first rotating shaft 20 which rotates in the cutting groove 30 is formed in the cutting conveyor 4, the cutting turntable 23 is connected to one end of the first rotating shaft 20, and a fourth gear 17 which is correspondingly engaged with the first gear 14 is connected to the other end of the first rotating shaft 20. A first rotary cavity 11 is arranged in the cutting conveyor 4, a first gear 14 is arranged on the driving rod 3, the first gear 14 can rotate in the first rotary cavity 11, a first rotating shaft 20 is arranged in the cutting conveyor 4, the cutting rotary disc 23 is connected with one end of the first rotating shaft 20, the other end of the first rotating shaft 20 is provided with a fourth gear 17 correspondingly engaged with the first gear 14, so that the rotation of the driving rod 3 can further drive the rotation of the first gear 14, so as to further drive the first rotating shaft 20 to synchronously rotate, so that the cutting turntable 23 can be synchronously driven to rotate by the rotation of the first rotating shaft 20, so that the waterweeds can be further cut by the rotation of the cutting turntable 23.

As shown in fig. 2, 6 and 7, a second rotating cavity 12 is provided in the cutting conveyor 4, a second gear 15 rotating in the second rotating cavity 12 is provided on the driving rod 3, a second rotating shaft 21 rotating in the cutting groove 30 is provided in the cutting conveyor 4, a fifth gear 18 correspondingly engaged with the second gear 15 is provided at one end of the second rotating shaft 21, a fourth rotating cavity 42 is further provided in the cutting conveyor 4, the second rotating shaft 21 rotates in the fourth rotating cavity 42, a sixth rotating shaft 44 rotating in the fourth rotating cavity 42 is further provided in the cutting conveyor 4, a seventh gear 43 correspondingly engaged with the second rotating shaft 21 is provided at one end of the sixth rotating shaft 44, and the two conveying discs 24 are correspondingly connected to the second rotating shaft 21 and the sixth rotating shaft 44, the conveying disc 24 is provided with a grass raking frame 45, and the grass raking frame 45 is arranged in a semicircular shape.

A second rotating cavity 12 is arranged in the cutting conveyor 4, a second gear 15 is arranged on the driving rod 3, the second gear 15 can rotate in the second rotating cavity 12, a rotating second rotating shaft 21 is further arranged in the cutting conveyor 4, a fifth gear 18 correspondingly meshed with the second gear 15 is arranged at one end of the second rotating shaft 21, so that the second gear 15 can be further driven to rotate through the rotation of the driving rod 3, the second gear 15 can be correspondingly meshed with the fifth gear 18 through the second gear 15, so that the second rotating shaft 21 can be further driven to rotate, a fourth rotating cavity 42 is further arranged in the cutting conveyor 4, the second rotating shaft 21 can rotate in the fourth rotating cavity 42, and a rotating sixth rotating shaft 44 is further arranged in the cutting conveyor 4, the sixth rotating shaft 44 can rotate in the fourth rotating cavity 42, the second rotating shaft 21 and the sixth rotating shaft 44 are respectively provided with a seventh gear 43, the two seventh gears 43 can be correspondingly meshed and connected, so that the sixth rotating shaft 44 can be further driven to rotate through the rotation of the second rotating shaft 21, the two conveying trays 24 can be further driven to rotate in a corresponding clamping mode, the conveying trays 24 are provided with a grass raking frame 45, and the grass raking frame 45 is arranged in a semicircular mode, so that water plants can be further raked through the grass raking frame 45, and the conveying effect of the water plants can be further improved.

As shown in fig. 2, 8 and 9, a third rotary chamber 13 is provided in the cutting conveyor 4, the driving rod 3 is provided with a third gear 16 rotating in the third rotating chamber 13, a third rotating shaft 22 and an eighth rotating shaft 47 which rotate in the cutting opening 46 are arranged in the cutting conveyor 4, a sixth gear 19 which is correspondingly meshed and connected with the third gear 16 is arranged on the third rotating shaft 22, the third rotating shaft 22 and the eighth rotating shaft 47 are respectively provided with an eighth gear 52 and a ninth gear 53 which are correspondingly engaged and connected, the cutting disc 25 and the rotary feed disc 48 are respectively and correspondingly connected to the third rotating shaft 22 and the eighth rotating shaft 47, the number of teeth of the ninth gear 53 is twice that of the eighth gear 52, and the rotary feed tray 48 is provided with a butt joint groove 50 corresponding to the cutting blade 49. A third rotating cavity 13 is arranged in the cutting conveyor 4, a third gear 16 is arranged on the driving rod 3, the third gear 16 can rotate in the third rotating cavity 13, a third rotating shaft 22 and an eighth rotating shaft 47 which rotate are arranged in the cutting conveyor 4, a sixth gear 19 is arranged on the third rotating shaft 22, the third rotating shaft 22 and the eighth rotating shaft 47 can rotate in the cutting opening 46, an eighth gear 52 and a ninth gear 53 which are correspondingly engaged and connected are respectively arranged on the third rotating shaft 22 and the eighth rotating shaft 47, so that the third gear 16 can be further driven to rotate through the rotation of the driving rod 3, the third rotating shaft 22 can be further driven to rotate, the cutting disc 25 and the rotary feeding disc 48 are respectively arranged on the third rotating shaft 22 and the eighth rotating shaft 47, so that the cutting disc 25 can be further driven to rotate by the rotation of the third rotating shaft 22, the third rotating shaft 22 and the eighth rotating shaft 47 are respectively provided with an eighth gear 52 and a ninth gear 53 which are correspondingly engaged and connected, so that the cutting disc 25 and the rotary feed tray 48 can be further driven to correspondingly clamp and rotate, the cutting blade 49 can be further driven to rotate by the rotation of the cutting disc 25, so that the aquatic weeds can be cut, the cutting blades 49 are arranged side by side and correspondingly connected to the cutting disc 25 in a sheet shape, the number of teeth of the ninth gear 53 is twice as large as that of the eighth gear 52, so that the rotating speed of the cutting disc 25 can be further doubled as that of the rotary feed tray 48, and the cutting blade 49 can be further used for normally cutting and crushing the aquatic weeds, therefore, the rotating speed of the cutting blade 49 can be faster than that of the rotary feed tray 48, and the butt joint groove 50 is formed in the rotary feed tray 48, so that the cutting blade 49 can rotate in the butt joint groove 50, and the cutting effect of the cutting blade 49 on aquatic weeds can be further improved.

As shown in fig. 3 and 10, a rotating groove 74 corresponding to the conveying cavity 54 is provided in the cutting conveyor 4, the rotating toothed disc 75 rotates in the rotating groove 74, a supporting sliding groove 77 is provided on each of two sides of the rotating groove 74, a supporting rotating ring 76 that rotates in the supporting sliding groove 77 is provided on each of two sides of the rotating toothed disc 75, a first bevel gear 27 is further provided on the driving rod 3, a rotating fourth rotating shaft 29 is provided in the cutting conveyor 4, one end of the fourth rotating shaft 29 is provided with a second bevel gear 28 that is correspondingly engaged with the first bevel gear 27, the other end of the fourth rotating shaft 29 is provided with a fourth bevel gear 73, and the rotating toothed disc 75 is correspondingly engaged with the fourth bevel gear 73. A rotating groove 74 is arranged in the cutting conveyor 4, the rotating groove 74 is communicated with the conveying cavity 54 correspondingly, the rotating fluted disc 75 can rotate in the rotating groove 74, the rotating groove 74 is arranged in a circular ring shape, two sides of the rotating groove 74 are respectively provided with a supporting chute 77, the supporting chutes 77 are respectively arranged in a circular ring shape, two sides of the rotating fluted disc 75 are respectively provided with a supporting swivel 76, the supporting swivel 76 is arranged in a circular ring shape, the supporting swivel 76 can rotate in the supporting chutes 77, so that the rotating fluted disc 75 can be supported by the supporting swivel 76, normal rotation of the rotating fluted disc 75 can be further ensured, the driving rod 3 is provided with a first bevel gear 27, the cutting conveyor 4 is provided with a rotating fourth rotating shaft 29, one end of the fourth rotating shaft 29 is provided with a second bevel gear 28, the first bevel gear 27 is correspondingly engaged with the second bevel gear 28, so that the rotation of the fourth rotating shaft 29 can be further driven by the rotation of the driving rod 3, the fourth bevel gear 73 is arranged at the other end of the fourth rotating shaft 29, so that the rotation of the fourth bevel gear 73 can be further driven, the fourth bevel gear 73 can be correspondingly engaged with the rotating fluted disc 75, so that the rotation of the rotating fluted disc 75 can be further driven by the rotation of the driving rod 3, the rotation of the rotating fluted disc 75 can be further used for driving the rotation of the spiral disc 6, so that the rotation of the spiral disc 6 can be used for generating water pressure, the water pressure can be used for further conveying the aquatic weeds, and the cut aquatic weeds are prevented from flowing into the lake to cause pollution.

As shown in fig. 4 and 5, a circle of corresponding fixed blocks 31 is disposed on the cutting rotary disk 23, a fifth rotating shaft 32 is disposed on each fixed block 31, the cutting press disks 33 respectively rotate on the fifth rotating shafts 32, a first spring 34 for biasing the cutting press disks 33 is disposed on each cutting rotary disk 23, a circle of cutting knives 36 corresponding to the cutting press disks 33 is disposed on each cutting rotary disk 23, a pair of joint press disks 40 are correspondingly connected to the cutting press disks 33, the cutting press disks 33 and the joint press disks 40 are correspondingly connected through a third spring 41, cutting press grooves 37 corresponding to the cutting knives 36 are disposed on the joint press disks 40, a pair of joint press bars 38 correspondingly connected to the cutting press grooves 37 are correspondingly connected to both sides, a second spring 39 connected to the joint press disks is disposed on both sides of the cutting press grooves 37, the second springs 39 respectively press the butt-joint pressing strips 38, the butt-joint pressing strips 38 on the two sides are correspondingly pressed and connected with the cutting knife 36, and the pressing sliding strips 35 are corresponding to the two conveying discs 25. A circle of corresponding fixed blocks 31 are arranged on the cutting rotary disc 23, the number of the fixed blocks 31 can be set according to the design requirement, the fixed blocks 31 can be uniformly arranged on the cutting rotary disc 23, a fifth rotating shaft 32 is respectively arranged on the fixed blocks 31, the cutting press discs 33 are respectively arranged in an arc shape, the cutting press discs 33 can respectively rotate on the fifth rotating shafts 32, a circle of first springs 34 corresponding to the cutting press discs 33 are arranged on the cutting rotary disc 23, the first springs 34 can respectively press the cutting press discs 33, so that the cutting press discs 33 can be further pressed by the pressing force of the first springs 34, the cutting press discs 33 can be further in an open state, and the cutting rotary disc 23 can be driven to rotate by the cutting press discs 33 in the rotating process, thereby can be further hug into water grass cutting pressure disk 33 is open-ended intraorally, thereby can pass through cutting pressure disk 33 is in compress tightly gliding in-process on the draw runner 35 and can further utilize it is right to compress tightly draw runner 35 cutting pressure disk 33 compresses tightly, thus can further utilize cutting pressure disk 33 cuts off water grass still correspond respectively on the cutting pressure disk 33 and be connected with a pair of pressure disk 40, it is the arc setting to dock pressure disk 40 cutting pressure disk 33 with carry out corresponding connection through a row of third spring 41 respectively between the pressure disk 40, be provided with the round on the cutting carousel 23 with cutting pressure disk 33 corresponding cutting knife 36, thereby can utilize cutting pressure disk 33 further compress tightly water grass on cutting knife 36 can further cut water grass, thereby can in cutting pressure disk 33 compresses tightly the in-process on cutting carousel 23 can pass through the third spring 41, a cutting pressure groove 37 corresponding to the cutting knife 36 is respectively arranged on the butt joint pressure plate 40, the cutting pressure groove 37 is arranged in a concave shape, a pair of butt joint pressure strips 38 are respectively arranged on two sides of the cutting pressure groove 37, the butt joint pressure strips 38 are respectively arranged in an arc shape, a row of second springs 39 connected to the butt joint pressure plate 40 are respectively arranged on two sides of the cutting pressure groove 37, so that the butt joint pressure strips 38 can be respectively pressed by the second springs 39, the cutting knife 36 can be further pressed between the butt joint pressure strips 38 on two sides, and the cutting effect of the cutting knife 36 on the aquatic weeds can be further improved, therefore, the cutting turntable 23 can drive the cutting pressure plate 33 to rotate in the rotating process, aquatic weeds can be cut in the process of pressing the cutting pressure plate 33 by using the pressing slide bar 35, when the cutting turntable 23 continues to rotate, the aquatic weeds can be further driven to be cut off to continue to rotate, and after the end part of the pressing slide bar 35 is rotated, the cutting pressure plate 33 can be automatically opened by the elastic pressure of the first spring 34, so that the aquatic weeds can be further clamped and conveyed by further using the clamping rotation of the conveying plate 25.

As shown in fig. 1 and fig. 2, a row of corresponding support rods 8 are correspondingly connected to two sides of the cutting conveyor 4, two rubber cylinders 55 are correspondingly connected to the two support rods 8, a sliding plate 7 is correspondingly connected to each rubber cylinder 55, a first air pipe 57 correspondingly connected to the air chamber 56 is correspondingly connected to each rubber cylinder 55, a second air pipe 58 correspondingly connected to the two first air pipes 57 is arranged in the cutting conveyor 4, a third air pipe 61 correspondingly connected to the second air pipe 58 is further arranged in the cutting conveyor 4, the third air pipe 61 is correspondingly connected to the sealing control chamber 59, a fourth air pipe 63 and an air discharge hole 62 correspondingly connected to the sealing control chamber 59 are further arranged in the cutting conveyor 4, and the fifth air pipe 68 is correspondingly connected to the fourth air pipe 63, be provided with a connection trachea 64 that is the U type setting in the control sliding block 60, the both ends of connecting trachea 64 respectively with fourth trachea 63 with third trachea 61 and the corresponding intercommunication of exhaust hole 62, still be provided with one in the sealed control chamber 59 taut the fourth spring 65 of control sliding block 60, still be connected with a stay cord 66 on the control sliding block 60, be provided with in the cutting conveyer 4 one with the corresponding sealed slide opening 78 of stay cord 66, stay cord 66 is in slide in the sealed slide opening 78, just stay cord 66 still is provided with a sealed rubber disk 79, sealed rubber disk 79 corresponds to be connected on the cutting conveyer 4, the corresponding connection of tip of stay cord 66 is in on the hull 1. A row of corresponding support rods 8 are correspondingly connected to two sides of the cutting conveyor 4, the support rods 8 are respectively arranged at the bottom of the cutting conveyor 4, two rubber air cylinders 55 are arranged, the two rubber air cylinders 55 are respectively and correspondingly connected to the support rods 8 side by side, a sliding disc 7 is correspondingly connected to each rubber air cylinder 55, the sliding disc 7 is a flat plate, a first air pipe 57 is correspondingly connected to each rubber air cylinder 55, the first air pipes 57 are respectively and correspondingly communicated with the air cavities 56, a second air pipe 58 is arranged in the cutting conveyor 4, the two first air pipes 57 can be respectively and correspondingly communicated with the second air pipe 58, a third air pipe 61 is also arranged in the cutting conveyor 4, and the third air pipe 61 is correspondingly communicated with the sealed control cavity 59, a fourth air pipe 63 and an air exhaust hole 62 are respectively arranged in the cutting conveyor 4, the fourth air pipe 63 and the air exhaust hole 62 can be respectively and correspondingly communicated with the sealed control cavity 59, the fifth air pipe 68 is correspondingly communicated with the fourth air pipe 63, so that the fourth air pipe 63 can be further supplied with air through the fifth air pipe 68, the control sliding block 60 can slide in the sealed control cavity 59, a connecting air pipe 64 is arranged in the control sliding block 60, the connecting air pipe 64 is arranged in a U shape, so that the connecting air pipe 64 can be further communicated with the fourth air pipe 63, the third air pipe 61 and the air exhaust hole 62 respectively in the sliding process of the control sliding block 60, and after the fourth air pipe 63 is correspondingly communicated with the third air pipe 61, the air chamber 56 can be further supplied with air through the fifth air pipe 68, so that the rubber air cylinder 55 can be further expanded, so that buoyancy can be generated, the cutting conveyor 4 can be driven to float on the water surface, after the connection air pipe 64 is correspondingly communicated with the third air pipe 61 and the air exhaust hole 62 through two ends, the air in the air chamber 56 can be further exhausted through the air exhaust hole 62, so that the cutting conveyor 4 can be further sunk to the bottom of the lake under the action of gravity, so that the aquatic weed at the bottom of the lake can be cut, the aquatic weed at the deep water can be cut, the control slide block 60 can be further tensioned through the tensioning force of the fourth spring 65, so that the air exhaust hole 62 and the third air pipe 61 can be further communicated, so that the cutting conveyor 4 can be further immersed in the lake bottom, thereby ensuring that the cutting conveyor 4 can normally work in the lake bottom, the control slide block 60 is further connected with a pull rope 66, the cutting conveyor 4 is provided with a sealing slide hole 78, the pull rope 66 can slide in the sealing slide hole 78, thereby the control slide block 60 can be further driven to slide by the pull rope 66, the pull rope 66 is connected with a sealing rubber disc 79, the sealing rubber disc 79 is a disc made of rubber, the sealing rubber disc 79 is correspondingly connected with the cutting conveyor 4, thereby the sealing slide hole 78 can be sealed by the sealing rubber disc 79, thereby preventing water from flowing into the sealing control cavity 59 through the sealing slide hole 78, and the control slide block 60 can be further driven to slide by the sliding of the pull rope 66, the corresponding connection of the pull rope 66 is on the hull 1, so that the pull rope 66 can be further conveniently used for controlling the lifting of the cutting conveyor 4 in the lake, and the sliding disc 7 can slide at the bottom of the lake, so that the cutting conveyor 4 can be further ensured to normally slide at the bottom of the lake in the sliding process of the hull 1, and the normal cutting of the waterweeds can be further ensured.

As shown in fig. 1 and 11, a first sliding hole 10 is provided in the hull 1, the driving rod 3 slides in the first sliding hole 10, a fourth rotating cavity 72 correspondingly communicated with the first sliding hole 10 is provided in the hull 1, a rotating driving turntable 9 is provided in the fourth rotating cavity 72, a sliding opening 71 is provided on the driving turntable 9, the sliding opening 71 and the driving rod 3 are respectively provided in a square shape, a third bevel gear 70 driven by a motor 69 is provided in the hull 1, and the third bevel gear 70 is correspondingly engaged with the driving turntable 9. The utility model provides a cutting conveyor 4's action, be provided with a motor 69 driven third bevel gear 70 in the hull 1, thereby can utilize third bevel gear 70 further drive the rotation of drive carousel 9, be provided with a first slide opening 10 in the hull 1, the actuating lever 3 can slide in first slide opening 10, still be provided with a fourth commentaries on classics chamber 72 in the hull 1, be provided with a pivoted drive carousel 9 in the fourth commentaries on classics chamber 72, the central point of drive carousel 9 puts and is provided with a slip mouth 71, the actuating lever 3 can slide in slip mouth 71, and slip mouth 71 with the actuating lever 3 is square setting, thereby can pass through the rotation of drive carousel 9 can further drive the rotation of actuating lever 3, thereby can further drive the action of cutting conveyor 4, be provided with a motor 69 driven third bevel gear 70 in the hull 1, thereby can utilize the further drive of third bevel gear 70 the rotation of drive carousel 9.

As shown in fig. 1 and 12, an air compressor 80 is disposed in the cabin 2 and is in communication with the fifth air pipe 68, a filtering barrel 81 is disposed in the cabin 2 and is in communication with the pumping pipe 67, and the filtering barrel 81 is covered with the drainage holes 26. Compressed air can be generated through the air compressor 80, so that the air chamber 56 can be further supplied with air, the rubber air cylinder 55 can be expanded to drive the cutting conveyor 4 to generate buoyancy, aquatic weeds pumped out through the discharge pipe 67 can be further discharged into the filter barrel 81, so that the aquatic weeds can be further collected after water is filtered by the filter barrel 81, further treatment can be performed, a water suction pump is further arranged in the cabin 2, so that the pumping pipe 67 can be correspondingly connected through the water suction pump, and further pumping of a mixture of the aquatic weeds and the water can be performed.

The above-mentioned embodiments are only for convenience of description, and are not intended to limit the present invention in any way, and those skilled in the art will understand that the technical features of the present invention can be modified or changed by other equivalent embodiments without departing from the scope of the present invention.

Claims (2)

1. The utility model provides an environment water treatment deep water pasture and water automatic cutout conveyer, includes a hull, be equipped with a cabin on the hull, its characterized in that: the ship body is provided with a driving rod which slides, the driving rod rotates in the cutting conveyor, a cutting groove is formed in the cutting conveyor, a rotating cutting turntable is arranged in the cutting groove, a circle of cutting pressing disc which correspondingly swings is arranged on the cutting turntable, a pressing sliding strip which corresponds to the cutting pressing disc is arranged in the cutting groove, and the pressing sliding strip presses the cutting pressing disc;

two conveying discs which are correspondingly clamped and rotated are arranged in the cutting groove, and the two conveying discs correspond to the cutting rotary disc;

the cutting conveyor is also internally provided with a cutting opening correspondingly communicated with the cutting groove, a cutting disc and a rotary feeding disc which are correspondingly clamped and rotated are arranged in the cutting opening, a row of corresponding cutting blades are arranged on the cutting disc, and pushing raised heads are fully distributed on the rotary feeding disc;

a conveying cavity correspondingly communicated with the cutting opening is further formed in the cutting conveyor, a rotating fluted disc is arranged at the bottom of the conveying cavity, and a spiral disc rotating in the conveying cavity is arranged on the rotating fluted disc;

the bottom of the cutting conveyor is provided with a rubber air cylinder, an air cavity is arranged in the rubber air cylinder, a sealing control cavity correspondingly communicated with the air cavity is also arranged in the cutting conveyor, the ship body is also connected with a conveying pipe, a fifth air pipe correspondingly communicated with the sealing control cavity is arranged in the conveying pipe, a sliding control sliding block is arranged in the sealing control cavity, and the control sliding block controls air inlet and exhaust of the air cavity;

a material pumping pipe correspondingly communicated with the conveying cavity is further arranged in the conveying pipe, the driving rod drives the cutting rotary discs to rotate, the driving rod drives the two conveying discs to rotate, the driving rod drives the cutting discs and the rotary feeding discs to correspondingly rotate, and the driving rod synchronously drives the rotary fluted discs to rotate;

a first rotating cavity is formed in the cutting conveyor, a first gear rotating in the first rotating cavity is arranged on the driving rod, a first rotating shaft rotating in the cutting groove is arranged in the cutting conveyor, the cutting turntable is connected to one end of the first rotating shaft, and the other end of the first rotating shaft is connected with a fourth gear correspondingly meshed with the first gear;

a second rotating cavity is arranged in the cutting conveyor, a second gear rotating in the second rotating cavity is arranged on the driving rod, a second rotating shaft which rotates in the cutting groove is arranged in the cutting conveyor, a fifth gear which is correspondingly meshed and connected with the second gear is arranged at one end of the second rotating shaft, a fourth rotating cavity is also arranged in the cutting conveyor, the second rotating shaft rotates in the fourth rotating cavity, a sixth rotating shaft which rotates in the fourth rotating cavity is further arranged in the cutting conveyor, a seventh gear which is correspondingly meshed and connected with the second rotating shaft is arranged at one end of the sixth rotating shaft and the second rotating shaft respectively, the two conveying discs are correspondingly connected to the second rotating shaft and the sixth rotating shaft respectively, a rake frame is arranged on each conveying disc, and the rake frame is arranged in a semicircular shape;

be provided with a third in the cutting conveyer and change the chamber, be provided with one on the actuating lever the third changes intracavity pivoted third gear, set up one in the cutting conveyer and be in the third pivot and an eighth pivot of cutting port internal rotation, be provided with in the third pivot one with the sixth gear that the corresponding meshing of third gear is connected, the third pivot with be provided with an eighth gear and a ninth gear that corresponding meshing is connected respectively in the eighth pivot, the cutting disc with it connects to rotate the charging tray corresponding respectively the third pivot with in the eighth pivot, the number of teeth of ninth gear is the twice of eighth gear tooth number, rotate be provided with on the charging tray with the corresponding butt joint groove of cutting blade.

2. The automatic cutting conveyor for the environmental water treatment deep water plants as claimed in claim 1, characterized in that: the cutting conveyor is internally provided with a rotating groove corresponding to the conveying cavity, the rotating fluted disc rotates in the rotating groove, two sides of the rotating groove are respectively provided with a supporting sliding groove, two sides of the rotating fluted disc are respectively provided with a supporting rotating ring which rotates in the supporting sliding grooves, the driving rod is further provided with a first bevel gear, a rotating fourth rotating shaft is arranged in the cutting conveyor, one end of the fourth rotating shaft is provided with a second bevel gear which is correspondingly meshed and connected with the first bevel gear, the other end of the fourth rotating shaft is provided with a fourth bevel gear, and the rotating fluted disc is correspondingly meshed and connected with the fourth bevel gear.

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