CN113213635A - High-efficient formula water pollution collection processing apparatus that floats - Google Patents

Abstract

The invention discloses a high-efficiency floating type water pollution collecting and treating device, which comprises a water pollution treatment ship and is characterized in that: the water pollution treatment ship comprises a duck collecting house, wherein one side of the duck collecting house is provided with a branch box, two ends of the duck collecting house are respectively connected to two ends of the branch box through pipelines, a partition plate is arranged inside the branch box, male Ferulon and female Ferulon are respectively coated on two sides of the partition plate, a duck distributing chamber is arranged inside the water pollution treatment ship, two sides of the duck distributing chamber are respectively provided with a plurality of cavities, the outer side of the duck distributing chamber is provided with a slide rail, a plurality of moving chambers are arranged above the slide rail, the bottom end of the water pollution treatment ship is provided with a driving shaft, one end of the driving shaft is provided with a spiral page, the outer side of the driving shaft is provided with a baffle, and the baffle is spiral.

Description

High-efficient formula water pollution collection processing apparatus that floats

Technical Field

The invention relates to the technical field of water pollution collection and treatment, in particular to a high-efficiency floating type water pollution collection and treatment device.

Background

Eutrophication (from eutrophos, greek vocabulary, "well-nourished"),^[1]or over-nourishment, which means excessive mineral and nutrient substances in the water body, resulting in excessive growth of algae.^[2]This phenomenon may lead to oxygen deficit in the water body. The increase of the content of nutrient substances can cause the phenomena of algal bloom or the massive increase of phytoplankton and algae in water, the harm of large-area duckweed and algae is very serious, the duckweed and algae not only shield sunlight to enable the water to be turbid, but also enable a large amount of organic matters to generate chemical reaction to enable toxic bacteria to be increased and oxygen to be reduced, fish and shrimp cannot survive, and the ecological environment of a river channel is seriously damaged.

The existing water pollution collecting and treating devices mostly depend on manual duckweed salvaging or algae cutting, and have poor practicability; meanwhile, the existing water pollution collecting and treating device is difficult to recycle the water pollution caused by the eutrophication of water bodies such as the algae and the duckweed after the water pollution is treated, and the growth of the duckweed and the algae cannot be effectively organized. Therefore, it is necessary to design a high-efficiency floating water pollution collecting and treating device which can collect and remove duckweed and algae and recycle the water pollutants.

Disclosure of Invention

The invention aims to provide an efficient floating type water pollution collecting and treating device to solve the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides a high-efficient formula water pollution collection processing apparatus that floats, includes water pollution treatment ship, its characterized in that: the water pollution treatment ship is including album duck house, one side of collection duck house is provided with the branch case, the both ends of collection duck house are respectively through the both ends of tube coupling at the branch case, the inside of branch case is provided with the baffle, male ferulo and female ferulo have been paintd respectively to the both sides of baffle, the inside of water pollution treatment ship is provided with branch duck room, a plurality of cavitys have been seted up respectively to the both sides of dividing the duck room, the outside of dividing the duck room is provided with the slide rail, the top of slide rail sets up a plurality of removal rooms that have.

According to the technical scheme, a driving shaft is arranged at the bottom end of the water pollution treatment ship, a spiral blade is arranged at one end of the driving shaft, a baffle is arranged on the outer side of the driving shaft, the baffle is spiral, a plurality of driving gears are uniformly and bearing-connected to one end of the baffle, which is far away from the driving shaft, two sides of one end of the driving gears, which is positioned in the baffle, are all meshed and connected with driven gears, the driven gears penetrate through the baffle, the teeth of the driven gears are triangular, the driven gears are connected with the baffle bearings, a plurality of cleaning channels are arranged on the outer side of the driving shaft, an algae removal rod is slidably connected in the cleaning channels, a driving block is arranged in the driving shaft and is slidably connected with the driving shaft, one end of the algae removal rod is slidably connected with the driving block, and a reset spring is arranged on the outer side of the algae removal rod, the other end of the algae removal rod is provided with a loosening block, and the other end of the loosening block is provided with a loosening plate.

According to the technical scheme, the bottom of the water pollution treatment ship is provided with a conical water inlet cylinder, one end of the conical water inlet cylinder is provided with a one-way valve, the other end of the conical water inlet cylinder is connected with a algae collecting bag through a pipeline, sliding blocks are arranged on two sides of the algae collecting bag, the sliding blocks are in sliding connection with the water pollution treatment ship, a water wheel is connected to the outer wall of the conical water inlet cylinder through a bearing, an inner bearing of a driving shaft is connected with a main shaft, the driving block is connected with the main shaft in a meshed mode, a pull rope is wound on the outer side of the water wheel, and the other end of the pull rope is wound on the outer side of the main shaft.

According to the technical scheme, the loosening block is divided into two parts, an annular compression bag is arranged between the two parts, one part of the loosening block is slidably connected with a puncture needle, the puncture needle penetrates through the annular compression bag and is fixed with the other part of the loosening block, the puncture needle is conical, a plurality of first connecting rods are slidably connected to the outer side of the puncture needle, the first connecting rods are arc-shaped, a plurality of arc-shaped slideways are arranged inside the loosening plate, the first connecting rods are slidably connected with the arc-shaped slideways, and a plurality of arc-shaped blades are arranged at the other end of the first connecting rods.

According to the technical scheme, one side of the cleaning channel is connected with a grinding box through a pipeline, a screen is connected to the lower part inside the grinding box in a sliding manner, the inside of the crushing box is positioned above the screen mesh and is connected with a tripod through a bearing, the top ends of three corners of the tripod are provided with adjusting rods, the adjusting rod is in a two-section sleeve joint type, the other end of the adjusting rod is provided with a crushing knife, a pushing bag is arranged between two adjacent angles of the tripod, the interior of the grinding knife is provided with an adjusting bag, the bottom end of the grinding box is connected with the adjusting bag through a pipeline, one end of the adjusting bag close to the tripod is provided with a one-way pressure valve, the other end of the one-way pressure valve is connected with the two adjacent pushing bags through a pipeline, the central bearing of the tripod is connected with a long rod, the long rod is connected with the screen rope, and the long rod is connected with one end of the adjusting rod far away from the tripod through a rope.

According to the technical scheme, one side of branch case is provided with the closed tube, the equal sliding connection of lower extreme has the iron outer loop on the outside of closed tube, the equal bearing in both ends of closed tube is connected with a plurality of closing plates, and is a plurality of the outside of closing plate all is provided with the second connecting rod, the other end and the iron outer loop bearing of second connecting rod are connected, the second connecting rod is provided with first spring towards one side of closed tube, the inside sliding connection of closed tube has circular magnetic path, the outside of closed tube is connected with the cavity of branch duck room one side through pipeline and removal room respectively, sliding connection has the slide in the cavity of branch duck room both sides, the inside sliding connection that the below of slide is located branch duck room has C type flexible rod, the other end of C type flexible rod is provided with the page door.

According to the technical scheme, the inside flexplate that is provided with of removal room, the inside top both sides of removal room are provided with two sliding sleeves respectively, two the inside sliding connection of sliding sleeve has the lug, the bottom of lug is provided with the second spring, the other end of second spring is provided with the gasbag, the outside of lug is provided with T type piece, the outside of sliding sleeve is provided with the conducting block, T type piece and conducting block are all electrified, the one end of T type piece is connected with the inside bottom rope of removal room, the one end of collection algae bag has the pump machine through the tube coupling, the pump machine is connected with T type piece and conducting block electricity, the other end of pump machine cup joints through the outside of pipeline with removal room, the collection algae bag both sides the slider is connected with the cavity through the pipeline respectively.

According to the technical scheme, the inside of moving the room is provided with the go-between, the inside bearing that moves the room is connected with the rotary rod, sliding connection has a plurality of little magnetic sheets on the rotary rod, be provided with the massager on the little magnetic sheet, the outside of rotary rod is provided with big magnetic sheet, the inner wall both sides of go-between all are provided with the third spring, the one end of third spring is provided with blocks the bag, block bag and rotary rod sliding connection, the gasbag with block a bag pipe connection.

According to the technical scheme, a suction machine is arranged on the outer side of the moving chamber, one end of the suction machine is connected with the crushing box through a pipeline, a material guide pipe is sleeved at the other end of the suction machine, and the other end of the material guide pipe penetrates through the moving chamber and is located on one side of the small magnetic plate.

According to the technical scheme, a waterproof layer is coated on the outer side of the puncture needle.

Compared with the prior art, the invention has the following beneficial effects: in the invention, the raw materials are mixed,

by arranging the driving shaft, the spiral page, the duck collecting shed and other components, when the water pollution treatment boat moves forwards in a river with eutrophication water body, the algae can be collected by utilizing the rotation of the spiral page and the driving shaft, meanwhile, the algae can be prevented from winding on the spiral page to influence the advancing of the boat body when being collected, when the algae winding influences the operation, the algae is cut off, the cut length of the algae can be adjusted and cut according to the current growth condition of the algae in the river, the cut algae can be used for feeding fishes and shrimps in the river, meanwhile, the oxygen can be supplemented to the water by utilizing the cut algae, duckweeds collected in the water are fed to ducks in the duck collecting shed, meanwhile, the dead fishes and shrimps in the river are collected, crushed and fed to the male ducks, the physical strength of the male ducks is ensured to be sufficient when the male ducks are crossed, the female fertility rate is improved, the growth of duck herds is promoted, the duckweeds in the water are caught by the ducks to control the quantity of the duckweeds in the water, and (4) removing water pollution.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic view of the overall front perspective of the present invention;

FIG. 2 is a schematic top cross-sectional view of the present invention in its entirety;

FIG. 3 is a schematic sectional view of the inside of the moving chamber according to the present invention;

FIG. 4 is a perspective view of a portion of the drive shaft and its surrounding components of the present invention;

FIG. 5 is a schematic front sectional view of the interior of the grinding box of the present invention;

in the figure: 1. a duck distributing chamber; 2. a slide rail; 3. a mobile chamber; 4. a conical water inlet cylinder; 5. a slider; 6. a drive shaft; 7. a loosening plate; 8. a loosening block; 9. puncturing needle; 10. an annular compression pocket; 11. a main shaft; 13. a drive block; 14. removing algae rods; 15. a grinding box; 16. screening a screen; 17. a tripod; 18. pushing the capsule; 19. a crushing knife; 20. collecting duck shed; 21. separating boxes; 22. a communicating pipe; 23. a closing plate; 24. a connecting ring; 25. a bump; 26. a sliding sleeve; 27. a flexible board; 28. rotating the rod; 29. a barrier bladder.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides the following technical solutions: the utility model provides a high-efficient formula water pollution collection processing apparatus that floats, includes water pollution treatment ship, its characterized in that: the water pollution treatment ship comprises a duck collecting house 20, a branch box 21 is arranged on one side of the duck collecting house 20, two ends of the duck collecting house 20 are respectively connected to two ends of the branch box 21 through pipelines, a partition plate is arranged inside the branch box 21, male Ferulon and female Ferulon are respectively smeared on two sides of the partition plate, a duck distributing chamber 1 is arranged inside the water pollution treatment ship, a plurality of cavities are respectively formed in two sides of the duck distributing chamber 1, a slide rail 2 is arranged on the outer side of the duck distributing chamber 1, and a plurality of moving chambers 3 are arranged above the slide rail 2; the duck in the river with water eutrophication is driven into the duck collecting shed, because male ferolome and female ferolome are respectively smeared on two sides of the inner partition plate of the sub-box, the mixed duck in the duck collecting shed can be attracted by the special ferolome, the male duck enters one side smeared with the female ferolome through a pipeline, the female duck enters one side smeared with the male ferolome through a pipeline, and the male duck and the female duck are distinguished to facilitate subsequent operation.

The bottom end of the water pollution treatment ship is provided with a driving shaft 6, one end of the driving shaft 6 is provided with a spiral blade, the outer side of the driving shaft 6 is provided with a baffle plate, the baffle plate is spiral, one end of the baffle plate, far away from the driving shaft 6, is uniformly and bearing-connected with a plurality of driving gears, two sides of one end, located inside the baffle plate, of the driving gears are all meshed and connected with driven gears, the driven gears penetrate through the baffle plate, the gear teeth of the driven gears are triangular, the driven gears are connected with the baffle plate bearings, the outer side of the driving shaft 6 is provided with a plurality of cleaning channels, the insides of the cleaning channels are slidably connected with algae removing rods 14, the inside of the driving shaft 6 is provided with a driving block 13, the driving block 13 is slidably connected with the driving shaft 6, one end of each algae removing rod 14 is slidably connected with the driving block 13, the outer side of each algae removing rod 14 is provided with a reset spring, the other end of each algae removing rod 14 is provided with a loosening block 8, and the other end of each loosening block 8 is provided with a loosening plate 7; when the water pollution treatment ship is in water, the driving shaft is rotated, the driving shaft drives the spiral page to rotate to generate thrust to push the ship body to move forwards in the water, if the ship body moves to a river section with more algae, the algae is contacted with the spiral page and then wound around the spiral page, after the algae is wound on the spiral page, the algae moves along the spiral baffle on the surface of the driving shaft and is wound outside the driving shaft to avoid being clamped at the end of the spiral page to stop rotating, when the driving shaft rotates, one end of the algae removing rod in the cleaning channel at the outer side of the driving shaft is continuously connected with the surface of the driving block in a sliding way, as shown in figure 4, when one end of the algae removing rod slides and moves to the protrusion of the driving block, the driven block is ejected out in the cleaning channel to slide and move outwards to push the loose block arranged at the other end of the algae removing rod and the loose plate to move out of the driving shaft to push the algae wound outside of the driving shaft to be loose, avoid the algae closely to laminate and influence rotatoryly in the drive shaft outside, when the drive shaft drives outside heliciform baffle and rotates in aqueous, the driving gear in the baffle outside is rotated by rivers thrust, drive two driven gear with it meshing and rotate, driven gear runs through the baffle and rotates, the teeth of a cogwheel that its outside is the triumph form is followed the rotation and is produced thrust to the algae that is in transmission between the heliciform baffle, supplementary algae transmits on the spiral plate, this step has realized twining the collection to the algae, constantly relax it when the algae winding is in the drive shaft outside, avoid algae inseparable winding to obstruct rotatoryly in the drive shaft outside, the rotatory thrust that utilizes the teeth of a cogwheel to be the driven gear of triumph form on the baffle promotes the algae and transmits fast between the baffle, supplementary algae moves ahead, improve the transmission efficiency of algae, avoid blockking up.

The bottom end of the water pollution treatment ship is provided with a conical water inlet barrel 4, one end of the conical water inlet barrel 4 is provided with a one-way valve, the other end of the conical water inlet barrel 4 is connected with an algae collecting bag through a pipeline, two sides of the algae collecting bag are provided with sliding blocks 5, the sliding blocks 5 are in sliding connection with the water pollution treatment ship, the outer wall of the conical water inlet barrel 4 is in bearing connection with a water wheel, an inner bearing of a driving shaft 6 is connected with a main shaft 11, a driving block 13 is in meshing connection with the main shaft 11, the outer side of the water wheel is wound with a pull rope, and the other end of the pull rope is wound on the outer side of the main shaft 11; the water duckweed and river water enter through the one-way valve at one end of the conical water inlet cylinder and enter into the algae collecting bag through the pipeline, the algae collecting bag is stressed to be expanded to push the two sliding blocks to slide on the ship body, when the duckweed and river water pass through the conical water inlet cylinder to circulate in the conical water inlet cylinder, the water wheel connected with the bearing of the conical water inlet cylinder is driven to rotate, the water wheel rotates to pull the pull rope wound outside the water wheel to gather, the pull rope drives the main shaft at the other end to rotate to loosen, the main shaft is meshed with the driving block to be connected with the driving shaft in a sliding way, the driving block displaces along the main shaft, if the algae outside the ship body is too much and the distance between the baffles is constant, the broken algae wound outside the driving shaft is less, the algae cannot pass through the one-way valve to enter and are blocked outside the conical water inlet cylinder, the duckweed and the water amount passing through the one-way valve at one end of the conical water inlet cylinder are less at the moment, if the number of the rotation turns of the water wheel is less, the displacement distance of the driving block on the main shaft is shorter, and the steps show that a small amount of algae removing rods and the loosening plates are pushed out to loosen the algae on the outer side, if the amount of the algae on the outer side of the ship body is less, more algae are wound on the outer side of the driving shaft, the blocking degree of a small amount of algae on the conical water inlet cylinder is less, the number of turns of the water wheel is more, the displacement distance of the driving block on the main shaft is longer, this step has realized that when the algae is more to the hull outside, the winding is less at the drive epaxial algae, stretches out a small amount of lax board and relaxes it, avoids stretching out too much except that the loss that the algae pole caused except that the algae pole improves life, when the algae is less to the hull outside, the winding is more at the drive epaxial algae, stretches out the lax board that a large amount is lax it, avoids not coming into position to lax a large amount of algae to lead to its closely laminating to hinder rotatoryly outside the drive shaft.

The loosening block 8 is divided into two parts, an annular compression bag 10 is arranged between the two parts of loosening blocks 8, a puncture needle 9 is slidably connected inside one part of loosening blocks 8, the puncture needle 9 penetrates through the annular compression bag 10 to be fixed with the other part of loosening blocks 8, the puncture needle 9 is conical, a plurality of first connecting rods are slidably connected to the outer side of the puncture needle 9, the plurality of first connecting rods are arc-shaped, a plurality of arc-shaped slideways are arranged inside the loosening plate 7 and are slidably connected with the arc-shaped slideways, and a plurality of arc-shaped blades are arranged at the other ends of the first connecting rods; the steps can be realized by linking with the steps, when the algae is tightly attached to the outer side of the driving shaft to cause winding and blocking to block the rotation of the driving shaft spiral page, utilize the pjncture needle to stretch out to carry out the puncture to the algae and cut off, stretch out the arc blade in the board outside of relaxing simultaneously and cut open the puncture needle puncture to split but the incomplete algae of fracture cuts the end, guarantee to cut off completely, avoid the algae to cut off the unable separation of back at the puncture needle through, utilize the supplementary cutting of arc cutter to guarantee cutting efficiency simultaneously, cut into a plurality of segments with the algae and transfer into aquatic confession fish shrimp and eat, carry out the oxygenating to the aquatic simultaneously.

One side of the cleaning channel is connected with a grinding box 15 through a pipeline, a screen 16 is connected below the inside of the grinding box 15 in a sliding mode, a tripod 17 is connected to the inside of the grinding box 15, which is positioned above the screen 16, through a bearing, the top ends of three corners of the tripod 17 are provided with adjusting rods, the adjusting rods are in a two-section sleeved mode, grinding knives 19 are arranged at the other ends of the adjusting rods, pushing bags 18 are arranged between two adjacent corners of the tripod 17, adjusting bags are arranged inside the grinding knives 19, the bottom end of the grinding box 15 is connected with the adjusting bags through a pipeline, one end, close to the tripod 17, of each adjusting bag is provided with a one-way pressure valve, the other end of each one-way pressure valve is connected with the two adjacent pushing bags 18 through a pipeline, a central bearing of the tripod 17 is connected with a long rod, the long rod is connected with a rope of the screen 16, and the long rod is connected with a rope at one end, far away from the tripod 17, of the adjusting rods; it can be known from the above steps that when the algae removing rod extends out to loosen algae outside the driving shaft, part of water and fish and shrimp dead due to oxygen deficiency in the water pass through the gap between the algae removing rod and the cleaning channel to enter into the crushing box through the pipeline, fall above the screen, remain above the screen with dead fish and shrimp, the river water passes through the screen to fall below the screen, the screened river water enters into the crushing channel through the pipeline, if more river water and less fish and shrimp enter into the device at the same time, more river water enters into the adjusting bag in the crushing knife, the angle of the blade of the adjusting bag opening the crushing knife is increased, the pressure of a small amount of fish and shrimp on the screen is smaller, the displacement of the screen is shorter, the long rod is driven by the rope to rotate for a few turns, the rope connected with one end of the adjusting rod at the outer side of the long rod is less loose, the tripod and the long rod are rotated at the same time, the small amount of fish and shrimp are crushed, if less water enters into the crushing box at the, the river entering the adjusting bag in the crushing knife is less, the adjusting bag is opened, the angle change of the crushing knife is small, the knife edge is sharp, the pressure of a large amount of fishes and shrimps on the screen is large, the screen moves more, the long rod is pulled by the rope to rotate more circles, the long rod and the connecting rope at one end of the adjusting rod are loosened more, then the tripod and the long rod are rotated to crush a small amount of fishes and shrimps, the step realizes that when more fish and less shrimp enter the grinding box, the grinding knife is more blunt and has less extension length along with the rotation of the tripod, and avoids unnecessary power waste and load formation caused by excessive extension of the grinding knife when grinding a small amount of fish and shrimp, when the water that gets into and pulverize the incasement is few fish and shrimp when many, pulverize the sword sharper, it is more to stretch out length along with the tripod is rotatory, cuts completely and pulverizes to a large amount of fish and shrimp, avoids cutting and pulverizes incompletely to lead to the unable food of duck that collects in above-mentioned step.

A communicating pipe 22 is arranged on one side of the branch box 21, the upper end and the lower end of the outer side of the communicating pipe 22 are both connected with an iron outer ring in a sliding manner, a plurality of closing plates 23 are connected to both ends of the communicating pipe 22 through bearings, second connecting rods are arranged on the outer sides of the closing plates 23, the other ends of the second connecting rods are connected with the iron outer ring bearings, a first spring is arranged on one side, facing the communicating pipe 22, of each second connecting rod, a circular magnetic block is connected to the inside of the communicating pipe 22 in a sliding manner, the outer sides of the communicating pipe 22 are connected with a cavity on one side of the duck separating chamber 1 through pipelines and the moving chamber 3, sliding plates are connected to the cavities on both sides of the duck separating chamber 1 in a sliding manner, a C-shaped flexible rod is connected to the inside of the duck separating chamber 1 below each sliding plate in a sliding manner, and a flap is arranged at the other end of the C-shaped flexible rod; the steps are that the drakes and the female ducks on the upper side and the lower side in the branch box respectively enter the upper half communicating pipe through the pipeline, after entering the branch box, the drakes and the female ducks are in contact with the circular magnetic block to push the circular magnetic block to slide and move in the communicating pipe, the circular magnetic block drives the outer side iron ring to access the displacement, the outer iron ring drives the second connecting rod connected with the outer bearing to displace to drive the closing plate to rotate and close on the outer side of the communicating pipe, only one drake and female duck can enter the communicating pipe at each time, the drakes entering the communicating pipe enter the moving chamber through the pipeline for standby, the female ducks entering the communicating pipe enter the leftmost cavity of the branch duck chamber through the pipeline, when the female ducks stand on the sliding plate after entering the cavity, the sliding plate slides and moves downwards in the cavity under the gravity of the female ducks to push the C-shaped plate to slide in the interior of the branch duck chamber, and pushes the shutter at the other end of the C-shaped plate to move upwards to seal the inlet port of the cavity, the step realizes that the drakes and the ducks are classified one by one, ensures that only one drake is processed at a time, and simultaneously avoids the influence of two or more drakes or drakes in the same cavity or a mobile room on the subsequent steps.

A flexible plate 27 is arranged inside the moving chamber 3, two sliding sleeves 26 are respectively arranged on two sides above the inside of the moving chamber 3, a convex block 25 is connected inside the two sliding sleeves 26 in a sliding manner, a second spring is arranged at the bottom end of the convex block 25, an air bag is arranged at the other end of the second spring, a T-shaped block is arranged on the outer side of the convex block 25, a conductive block is arranged on the outer side of each sliding sleeve 26, the T-shaped block and the conductive block are both electrified, one end of the T-shaped block is connected with an inner bottom end rope of the moving chamber 3, one end of the algae collecting bag is connected with a pump through a pipeline, the pump is electrically connected with the T-shaped block and the conductive block, the other end of the pump is sleeved with the outer side of the moving chamber 3 through a pipeline, and the sliding blocks 5 on two sides of the algae collecting bag are respectively connected with the cavity through pipelines; when the drakes enter the moving chamber and stand on the flexible plate, the flexible plate extrudes the lower convex block, the convex block is forced to move downwards in the sliding sleeve to slide and compress the second spring, the two convex blocks are arranged to adapt to two sides of the body of the drakes so as to adapt to the drakes with long and short feet caused by gene mutation in the drakes, when the drakes are more active in the moving chamber, the flexible plate pushes the convex block to slide for a longer distance in the sliding sleeve, the T-shaped block is contacted with the conductive block, the circuit is connected at the moment, the pump is started to suck duckweed in the algae collecting bag, the duckweed enters the moving chamber to be eaten by the drakes, the convex block and the flexible plate are driven by the compression of the second spring to be deflected, the drakes with long and short feet caused by the gene mutation are adapted, the stability of the drakes in the moving chamber is ensured, and simultaneously, the more the active drakes are more energy consumption is, the duckweed is independently eaten to ensure physical strength, when the mobile room moves to the cavity outside, the drakes enter the cavity and mate with the ducks, after mating is finished, the drakes enter the mobile room again to continue moving to mate with the next cavity, a plurality of cavities and the mobile room are arranged in cooperation with the steps, each drake can mate with the ducks, the fertility rate of the ducks is improved, more ducklings can be grown, duck groups are enlarged, and duckweeds in rivers are removed

A connecting ring 24 is arranged in the moving chamber 3, a rotating rod 28 is connected to an inner bearing of the moving chamber 3, a plurality of small magnetic plates are connected to the rotating rod 28 in a sliding manner, a massager is arranged on each small magnetic plate, a large magnetic plate is arranged on the outer side of the rotating rod 28, third springs are arranged on two sides of the inner wall of the connecting ring 24, a blocking bag 29 is arranged at one end of each third spring, the blocking bag 29 is connected with the rotating rod 28 in a sliding manner, and the air bags are connected with the blocking bag 29 through pipelines; according to the steps, after the drakes and the female ducks mate, the drakes return to the moving chamber again, if the drakes are still active, the drakes are proved to be full of physical strength, the second spring is continuously extruded when the drakes move in the moving chamber, the air bags below the drakes are extruded through the second spring, the air in the air bags is extruded to enter the blocking bags, at the moment, more air enters the blocking bags, the blocking bags are expanded greatly, the contact area between the blocking bags and the rotating rods is larger, at the moment, the rotating rods are rotated, the resistance to the rotating rods is larger, the rotating rods are rotated at a smaller angle, the small magnetic plates are adsorbed through opposite attraction of magnetic substances, a small amount of massagers are provided for massaging and relaxing the drakes, if the drakes are active at the moment, the body strength is proved to be not sufficient, the extrusion degree of the second spring to the air bags is smaller, the blocking bags are expanded less, the rotating rods are blocked, the large magnetic plate offset angle is larger, adsorb more little magnetic sheet, carry out diversified massage to the drake that the body force is not enough, relax it, carry out physical power and resume, guarantee that it can last to mate with follow-up female duck.

A suction machine is arranged on the outer side of the moving chamber 3, one end of the suction machine is connected with the crushing box 15 through a pipeline, the other end of the suction machine is sleeved with a material guide pipe, and the other end of the material guide pipe penetrates through the moving chamber 3 and is positioned on one side of the small magnetic plate; according to the steps, the suction machine is started at the moment, if a small amount of small magnetic blocks are adsorbed at the moment, the small magnetic blocks are not attached to the material guide pipe any more, the material guide pipe is conducted, the suction machine guides the crushed fishes and shrimps in the steps into the moving chamber through the pipeline to supply the ducks, if a large amount of small magnetic blocks are adsorbed at the moment, the material guide pipe supplies the large amount of crushed fishes and shrimps into the moving chamber, the step realizes that the physical strength of the ducks after mating is judged according to the active condition of the ducks, the meat foods such as the fishes and the shrimps are supplied to the ducks, the recovery of the meat foods is assisted, the supply amount for the physical consumption is small, and the supply amount for the physical consumption is large.

A waterproof layer is coated on the outer side of the puncture needle 9; the waterproof layer is used for preventing the puncture needle from being soaked in water for a long time to cause rust to influence use.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a high-efficient formula water pollution collection processing apparatus that floats, includes water pollution treatment ship, its characterized in that: the water pollution treatment ship is including collection duck house (20), one side of collection duck house (20) is provided with branch case (21), the both ends of collection duck house (20) are respectively through the both ends of tube coupling at branch case (21), the inside of branch case (21) is provided with the baffle, male ferulo and female ferulo have been paintd respectively to the both sides of baffle, the inside of water pollution treatment ship is provided with branch duck room (1), a plurality of cavitys have been seted up respectively to the both sides of branch duck room (1), the outside of branch duck room (1) is provided with slide rail (2), the top of slide rail (2) sets up a plurality of and has removes room (3).

2. The efficient floating type water pollution collecting and treating device according to claim 1, wherein: the bottom of water pollution treatment ship is provided with drive shaft (6), the one end of drive shaft (6) is provided with the spiral page, the outside of drive shaft (6) is provided with the baffle, the baffle is the heliciform, the even bearing in one end that drive shaft (6) were kept away from to the baffle is connected with a plurality of driving gears, a plurality of the driving gear is located the inside one end both sides of baffle and all meshes and is connected with driven gear, driven gear runs through the baffle, driven gear's the teeth of a cogwheel are the triangle-shaped, driven gear is connected with the baffle bearing, a plurality of clearance way have been seted up in the outside of drive shaft (6), a plurality of the inside sliding connection of clearance way has except that algae pole (14), the inside of drive shaft (6) is provided with drive block (13), drive block (13) and drive shaft (6) sliding connection, the one end and the drive block (13) sliding connection of algae pole (14) of removing, the outer side of the algae removing rod (14) is provided with a return spring, the other end of the algae removing rod (14) is provided with a loosening block (8), and the other end of the loosening block (8) is provided with a loosening plate (7).

3. The efficient floating type water pollution collecting and treating device according to claim 2, wherein: the bottom of water pollution treatment ship is provided with a toper section of thick bamboo (4) of intaking, the one end of a toper section of thick bamboo (4) of intaking is provided with the check valve, the other end of a toper section of thick bamboo (4) has an album algae bag through the tube coupling, the both sides of album algae bag are provided with slider (5), slider (5) and water pollution treatment ship sliding connection, the bearing is connected with water wheels on the outer wall of a toper section of thick bamboo (4) of intaking, the inner bearing of drive shaft (6) is connected with main shaft (11), driving block (13) are connected with main shaft (11) meshing, the outside winding of water wheels has the stay cord, the other end winding of stay cord is in the outside of main shaft (11).

4. The efficient floating type water pollution collecting and treating device according to claim 3, wherein: the utility model discloses a novel relaxation piece, including lax piece (8), lax piece (8) divide into two parts, two parts be provided with annular compression bag (10), partly between lax piece (8) the inside sliding connection of lax piece (8) has pjncture needle (9), it is fixed with lax piece (8) of another part that pjncture needle (9) run through annular compression bag (10), pjncture needle (9) are the toper, the outside sliding connection of pjncture needle (9) has a plurality of head rods, and is a plurality of the head rod is the arc, a plurality of arc slides have been seted up to the inside of lax board (7), head rod and arc slide sliding connection, the other end of head rod is provided with a plurality of arc blades.

5. The efficient floating type water pollution collecting and processing device as claimed in claim 4, wherein: one side of the cleaning channel is connected with a grinding box (15) through a pipeline, a screen (16) is connected below the inside of the grinding box (15) in a sliding manner, a tripod (17) is connected to the inside of the grinding box (15) through a bearing above the screen (16), adjusting rods are arranged at the top ends of three corners of the tripod (17), the adjusting rods are in a two-section sleeved type, grinding knives (19) are arranged at the other ends of the adjusting rods, a pushing bag (18) is arranged between two adjacent corners of the tripod (17), an adjusting bag is arranged inside the grinding knives (19), the bottom end of the grinding box (15) is connected with the adjusting bag through a pipeline, a one-way pressure valve is arranged at one end of the adjusting bag close to the tripod (17), the other end of the one-way pressure valve is connected with the two adjacent pushing bags (18) through a pipeline, and a long rod is connected with a central bearing of the tripod (17), the long rod is connected with the screen (16) through a rope, and the long rod is connected with one end, far away from the tripod (17), of the adjusting rod through a rope.

6. The efficient floating type water pollution collecting and treating device according to claim 5, wherein: one side of the branch box (21) is provided with a communicating pipe (22), the upper end and the lower end of the outer side of the communicating pipe (22) are both connected with an iron outer ring in a sliding way, both ends of the communicating pipe (22) are in bearing connection with a plurality of closing plates (23), the outer sides of the closing plates (23) are provided with second connecting rods, the other end of the second connecting rod is connected with the iron outer ring bearing, one side of the second connecting rod facing the communicating pipe (22) is provided with a first spring, the inside of the communicating pipe (22) is connected with a circular magnetic block in a sliding way, the outer side of the communicating pipe (22) is respectively connected with a cavity at one side of the duck separating chamber (1) and the moving chamber (3) through pipelines, divide the interior sliding connection of duck room (1) both sides to have the slide, the below of slide is located the inside sliding connection who divides duck room (1) and is connected with C type flexible rod, the other end of C type flexible rod is provided with the page door.

7. The efficient floating type water pollution collecting and treating device according to claim 6, wherein: a flexible plate (27) is arranged in the moving chamber (3), two sliding sleeves (26) are respectively arranged at two sides above the inside of the moving chamber (3), a lug (25) is connected in the two sliding sleeves (26) in a sliding manner, the bottom end of the convex block (25) is provided with a second spring, the other end of the second spring is provided with an air bag, a T-shaped block is arranged on the outer side of the bump (25), a conductive block is arranged on the outer side of the sliding sleeve (26), the T-shaped block and the conductive block are electrified, one end of the T-shaped block is connected with the inner bottom end rope of the moving chamber (3), one end of the algae collecting bag is connected with a pump machine through a pipeline, the pump machine is electrically connected with the T-shaped block and the conductive block, the other end of the pump is sleeved with the outer side of the moving chamber (3) through a pipeline, and the sliding blocks (5) on the two sides of the algae collecting bag are connected with the cavity through pipelines respectively.

8. The efficient floating type water pollution collecting and treating device according to claim 7, wherein: the inside of moving room (3) is provided with go-between (24), the inner bearing that moves room (3) is connected with rotary rod (28), sliding connection has a plurality of little magnetic sheets on rotary rod (28), be provided with the massager on the little magnetic sheet, the outside of rotary rod (28) is provided with big magnetic sheet, the inner wall both sides of go-between (24) all are provided with the third spring, the one end of third spring is provided with blocks bag (29), block bag (29) and rotary rod (28) sliding connection, the gasbag with block bag (29) tube coupling.

9. The efficient floating type water pollution collecting and processing device as claimed in claim 8, wherein: a suction machine is arranged on the outer side of the moving chamber (3), one end of the suction machine is connected with the crushing box (15) through a pipeline, a material guide pipe is sleeved at the other end of the suction machine, and the other end of the material guide pipe penetrates through the moving chamber (3) and is located on one side of the small magnetic plate.

10. The efficient floating type water pollution collecting and treating device according to claim 9, wherein: and a waterproof layer is coated on the outer side of the puncture needle (9).

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