CN117263401A - Equipment and method for treating high ammonia nitrogen pond culture wastewater by utilizing photosynthetic bacteria - Google Patents

Abstract

The invention discloses a device for treating high ammonia nitrogen pond culture wastewater by utilizing photosynthetic bacteria, which comprises a photosynthetic bacteria liquid throwing floating platform assembly of a culture pond, wherein a water spraying pipe assembly for moving a floating platform is arranged at the rear end of the photosynthetic bacteria liquid throwing floating platform assembly of the culture pond and is used as a driving water spraying structure for driving the photosynthetic bacteria liquid throwing floating platform assembly of the culture pond to float and advance in the culture pond, an obstacle abutting arm assembly forms an action arm structure for abutting and reversing the photosynthetic bacteria liquid throwing floating platform assembly of the culture pond on the obstacle at the front end of the photosynthetic bacteria liquid throwing floating platform assembly of the culture pond, and a photosynthetic bacteria liquid mixing assembly forms a cylindrical structure for mixing and diluting the photosynthetic bacteria liquid and river water on the photosynthetic bacteria liquid throwing floating platform assembly of the culture pond.

Description

Equipment and method for treating high ammonia nitrogen pond culture wastewater by utilizing photosynthetic bacteria

Technical Field

The invention belongs to the technical field of pond culture wastewater treatment, and particularly relates to equipment and a method for treating high ammonia nitrogen pond culture wastewater by utilizing photosynthetic bacteria.

Background

In aquaculture, the photosynthetic bacteria can degrade nitrite, sulfide and other toxic substances in water, and realize the functions of serving as bait, purifying water quality, preventing diseases, serving as feed additives and the like. The photosynthetic bacteria has strong adaptability, can endure high-concentration organic wastewater, has certain tolerance and decomposition capacity on phenol, cyanogen and other toxic substances, and has stronger decomposition and conversion capacity. Its many characteristics make it have huge application value in pollution-free aquaculture.

The prior art has the following problems: the photosynthetic bacteria have the function of degrading toxic substances such as nitrite and sulfide in water in the culture pond, and can serve as bait, during actual use, the photosynthetic bacteria bacterial liquid is diluted and then thrown into the culture pond, degradation of toxic substances in water and the like are realized through metabolism of the photosynthetic bacteria, so that the treatment of the pond culture wastewater is realized, but when the photosynthetic bacteria bacterial liquid is thrown, if the culture pond with a small area is better, even points can be thrown, but when the culture pond with a large area is thrown, the culture pond with a large area is difficult to throw, the distribution hysteresis of the photosynthetic bacteria bacterial liquid is difficult to appear in certain areas of the culture pond if the culture pond only flows by fluid, and if other modes such as manpower or ships are used, the treatment cost of the culture wastewater is increased, so that the problem needs to be solved urgently.

Disclosure of Invention

To solve the problems set forth in the background art. The invention provides a device and a method for treating high ammonia nitrogen pond culture wastewater by utilizing photosynthetic bacteria, which have the characteristic of being convenient for throwing photosynthetic bacteria bacterial liquid.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an utilize photosynthetic bacteria to handle high ammonia nitrogen pond aquaculture waste water equipment, includes that the photosynthetic bacteria bacterial liquid of breed pond throws the floating platform subassembly, the fixed floating platform that is provided with in floating platform photosynthetic bacteria bacterial liquid throwing floating platform subassembly rear end, and the middle-end and the front end at breed pond photosynthetic bacteria bacterial liquid throwing floating platform subassembly top are provided with switching-over respectively and stir arm subassembly and barrier conflict arm subassembly, floating platform removes the water spray pipe subassembly both sides and all is provided with photosynthetic bacteria bacterial liquid mixing element, floating platform removes the water spray pipe subassembly and throws the floating platform subassembly rear end as the drive water spray structure that drives the floating platform subassembly and float the progress in the breed pond photosynthetic bacteria bacterial liquid, barrier conflict arm subassembly is in the action arm structure that the breed pond photosynthetic bacteria bacterial liquid is thrown out the floating platform subassembly front end and is contradicted to the barrier, switching-over arm subassembly sets up between floating platform removal arm subassembly and barrier conflict arm subassembly, and stir arm subassembly and form the photosynthetic bacteria liquid mixing structure when the photosynthetic bacteria liquid of the automatic river basin photosynthetic bacteria bacterial liquid is thrown out to the floating platform subassembly on the breed pond photosynthetic bacteria liquid of breed pond and the floating platform subassembly, and the mixed structure of photosynthetic bacteria bacterial liquid is formed on the floating platform subassembly is thrown out to the floating platform photosynthetic bacteria liquid of the barrier photosynthetic bacteria in the floating platform subassembly.

In the preferred scheme of the equipment for treating high ammonia nitrogen pond culture wastewater by utilizing photosynthetic bacteria, the photosynthetic bacteria liquid throwing floating platform assembly of the culture pond comprises a culture water treatment throwing floating platform, a through seat groove is formed in the front end of the culture water treatment throwing floating platform, a seat groove transverse platform is arranged in the through seat groove, sliding hole grooves are formed in the seat groove transverse platform, photosynthetic bacteria liquid containing cylinders are fixedly arranged at the tops of two sides of the front end of the culture water treatment throwing floating platform, sealing covers are arranged at the tops of the photosynthetic bacteria liquid containing cylinders, a communicating pipe is arranged between the water pump and the photosynthetic bacteria liquid containing cylinders, a one-way valve is arranged on the communicating pipe, a pump outlet is formed in the inner side of the water pump, a bottom water suction pipe is fixedly arranged at the bottom of the water pump, and back supporting plates are arranged at the tops of two sides of the middle end of the culture water treatment throwing platform;

the floating platform movable water spray pipe assembly comprises a water spray fixed seat table and a reversing ball head, wherein a bacteria liquid accommodating pipe is fixedly arranged at the front end of the water spray fixed seat table, seat ball grooves and reversing grooves are respectively formed in the water spray fixed seat table and the rear end of the water spray fixed seat table, liquid inlet side holes are formed in two sides of the bacteria liquid accommodating pipe, a ball head top shaft rod is fixedly arranged at the top of the reversing ball head, a photosynthetic bacteria liquid spraying pipe is fixedly arranged at the rear end of the reversing ball head, a poking arm is fixedly arranged at the top of the ball head top shaft rod, poking guide sliding grooves are formed in the poking arm, ball head liquid grooves are formed in the reversing ball head, the ball head liquid grooves are communicated with the photosynthetic bacteria liquid spraying pipes, and two groups of photosynthetic bacteria liquid mixing assemblies are arranged at two sides of the floating platform movable water spray pipe assembly;

the reversing toggle arm assembly comprises a reversing toggle arm shaft sliding table and a reversing toggle arm sliding table, an elliptical guide rail sliding groove is formed in the outer wall of the reversing toggle arm shaft sliding table, tooth-moving gears are fixedly arranged at two ends of the reversing toggle arm shaft sliding table through shaft rods of the shaft sliding table, and guide rail convex sliding heads and sliding seat toggle rods are fixedly arranged on the inner wall and the outer wall of the reversing toggle arm sliding table respectively;

the obstacle conflict arm assembly comprises an obstacle conflict arm sliding rod, one end and the top of the obstacle conflict arm sliding rod are respectively fixedly provided with a contact supporting wheel and an L-shaped top rack rod, the front end of the obstacle conflict arm sliding rod is sleeved with a reset spring, the far end of the L-shaped top rack rod is fixedly provided with a U-shaped top rack rod, and the end of the U-shaped top rack rod is fixedly provided with a tooth moving toothed plate.

In an optimized scheme of the device for treating high ammonia nitrogen pond culture wastewater by utilizing photosynthetic bacteria, an axle sliding table shaft rod is rotationally connected with the top of a back supporting plate through a bearing seat, a reversing toggle arm sliding seat is sleeved outside a reversing toggle arm shaft sliding table, a reversing toggle arm sliding seat moves left and right in a reciprocating mode outside the reversing toggle arm shaft sliding table, a guide rail convex sliding head is inserted in an oval guide rail sliding groove, and a sliding seat toggle rod is inserted in a toggle guide sliding groove.

In the preferred scheme of the equipment for treating the high ammonia nitrogen pond culture wastewater by utilizing photosynthetic bacteria, the ball head top shaft rod is rotationally connected with the top of the water spraying fixed seat table through the bearing seat, the reversing ball head rotates in the seat ball groove, the photosynthetic bacteria bacterial liquid spraying pipe swings left and right in the reversing groove, and a stirring structure taking the ball head top shaft rod as the axis is formed between the stirring arm and the photosynthetic bacteria bacterial liquid spraying pipe.

In a preferred scheme of the device for treating high ammonia nitrogen pond culture wastewater by utilizing photosynthetic bacteria, the obstacle abutting arm sliding rod penetrates through the sliding hole groove on the seat groove transverse platform to slide, the reset spring and the L-shaped top frame rod are respectively positioned at the front end and the rear end of the seat groove transverse platform, two ends of the reset spring respectively abut against the abutting wheel and the seat groove transverse platform, and the abutting wheel naturally abuts forwards through the pushing of the reset spring.

In the preferred scheme of the equipment for treating the high ammonia nitrogen pond culture wastewater by utilizing photosynthetic bacteria, the tooth moving toothed plates at the two sides of the top of the L-shaped top frame rod are meshed with the two tooth moving toothed plates at the two sides of the reversing toggle arm shaft sliding table, the barrier is pushed backwards by the force of the barrier abutting arm assembly, and a structure for driving the reversing toggle arm shaft sliding table to rotate is formed between the tooth moving toothed plates and the tooth moving toothed wheels.

In the preferred scheme of the equipment for treating the high ammonia nitrogen pond culture wastewater by utilizing photosynthetic bacteria, the photosynthetic bacteria bacterial liquid mixing component comprises a photosynthetic bacteria bacterial liquid mixing cylinder, two ends of the photosynthetic bacteria bacterial liquid mixing cylinder are respectively fixedly provided with a mixing cylinder liquid outlet pipe and a mixing cylinder liquid inlet pipe, and the inside rotation of photosynthetic bacteria fungus liquid mixing drum is provided with a plurality of puddlers, the puddler top is fixed to be provided with two belt pulleys, photosynthetic bacteria fungus liquid mixing drum top is fixed to be provided with driving motor through the mixing drum ejector pin, two around being equipped with conveyer belt between the belt pulley.

In an optimization scheme of a device for treating high ammonia nitrogen pond culture wastewater by utilizing photosynthetic bacteria, the bottom of a photosynthetic bacteria liquid mixing cylinder is fixedly arranged on a fixed seat block, a bottom water suction pipe at the bottom of a water suction pump penetrates through a platform body of a culture water treatment throwing floating platform and is deeply inserted into water of a culture pond, a liquid inlet pipe of the mixing cylinder is communicated with a water outlet of a pump on the water suction pump, and a liquid outlet pipe of the mixing cylinder is communicated with a liquid inlet side hole on the side surface of a bacteria liquid containing pipe.

Firstly, pouring photosynthetic bacteria liquid into a photosynthetic bacteria liquid containing cylinder, pumping bacterial liquid and pond water in the photosynthetic bacteria liquid containing cylinder into a photosynthetic bacteria liquid mixing assembly through a communicating pipe and a bottom water suction pipe, mixing a stirring rod in the photosynthetic bacteria liquid mixing assembly, sending diluted high-pressure bacterial liquid into a photosynthetic bacteria liquid spraying pipe through a bacterial liquid containing pipe and a reversing ball head, and discharging and spraying the high-pressure bacterial liquid into a culture pond through the photosynthetic bacteria liquid spraying pipe;

secondly, high-pressure water sprayed in the culture pond by the photosynthetic bacteria liquid spraying pipe is equivalent to a forward thrust of throwing the floating platform assembly on the photosynthetic bacteria liquid in the culture pond due to the factor of the reaction force, so that the photosynthetic bacteria liquid is sprayed in a linear movement manner in the culture pond;

thirdly, an obstacle abutting arm assembly is arranged at the front end of the photosynthetic bacteria liquid throwing floating platform assembly of the culture pond, when the edge or an obstacle of the culture pond is touched, the obstacle abutting arm assembly moves backwards on the photosynthetic bacteria liquid throwing floating platform assembly of the culture pond, at the moment, a reversing stirring arm shaft sliding table on the reversing stirring arm assembly is driven to rotate in a unidirectional mode by a rear end structure of the obstacle abutting arm assembly, a sliding seat stirring rod on a sliding seat of the reversing stirring arm is driven to slide in a reciprocating left-right mode by unidirectional rotation of the reversing stirring arm sliding table, and at the moment, the sliding seat stirring rod on the reversing stirring arm assembly forms a reciprocating stirring structure for a floating platform moving water spraying pipe assembly;

fourth, dial movable arm subassembly through the switching-over and dial reciprocating about the spray pipe subassembly to the floating platform, this device is when touching the breed pond edge or barrier, and the last photosynthetic bacteria fungus liquid blowout pipe of floating platform movable spray pipe subassembly forms the reciprocating type high pressure and sprays the structure about, and the switching-over about through photosynthetic bacteria fungus liquid blowout pipe for the breed pond photosynthetic bacteria fungus liquid is thrown the reaction impetus switching-over that the floating platform subassembly received, thereby realizes that the automatic redirecting when the breed pond photosynthetic bacteria fungus liquid is thrown the floating platform subassembly and is touched breed pond edge or barrier realizes the automatic switching-over of spraying the route in the breed pond.

Compared with the prior art, the invention has the beneficial effects that: when the invention is practically used, the floating platform assembly is used as a movable floating platform structure for throwing the bacteria liquid in the culture pond, the high-pressure water sprayed by the rear end of the floating platform movable water spraying pipe assembly is used as the driving force for the movement of the floating platform movable water spraying pipe assembly in the culture pond through the reaction force, at the moment, the spraying structure is a linear track, when encountering obstacles in the edge of the culture pond or the pond, the spraying structure adopts a swinging structure, the reversing stirring arm assembly and the floating platform movable water spraying pipe assembly are in linkage fit, so that the automatic swinging reversing of the high-pressure water spraying of the floating platform movable water spraying pipe assembly is realized, namely the moving track of the floating platform assembly is changed, when the water treatment of the culture pond is realized, the bacteria liquid spraying continuity is realized, the function of automatic reversing when encountering obstacles in the edge of the culture pond is ensured, the device moves and sprays in the culture pond to the maximum extent, the uniformity of the bacteria liquid spraying is ensured, and at the same time, the invention adopts a swinging structure, if the single reversing structure is used for preventing the bacteria liquid from being mixed and being sprayed in the water pump through the reversing barrel when the water pump is inserted in the reversing assembly, and the mixed bacteria liquid can be diluted when the mixed bacteria is sprayed in the reversing barrel is prevented from being moved in the water pump through the reversing assembly, the invention does not need to additionally increase a water supply tank and the like to reduce the weight, and the invention has the practical working principle that a water suction pump pumps bacterial liquid and pond water in a photosynthetic bacteria bacterial liquid containing cylinder into a photosynthetic bacteria bacterial liquid mixing assembly through a communicating pipe and a bottom water suction pipe, the diluted high-pressure bacterial liquid is sent into a photosynthetic bacteria bacterial liquid spraying pipe through a bacterial liquid containing pipe and a reversing ball head through the mixing of a stirring rod in the photosynthetic bacteria bacterial liquid mixing assembly, the high-pressure bacterial liquid is discharged through the photosynthetic bacteria bacterial liquid spraying pipe and sprayed in the culture pond, the high-pressure water sprayed by the photosynthetic bacteria bacterial liquid spraying pipe in the culture pond is equivalent to the advancing thrust of a photosynthetic bacteria bacterial liquid spraying floating table assembly in the culture pond due to the factor of a reaction force, the linear movement type spraying of the photosynthetic bacteria bacterial liquid in the culture pond is realized, the invention is in a linear spraying treatment mode, when touching the edge of the culture pond or an obstacle, the obstacle abutting arm assembly moves backwards on the photosynthetic bacteria liquid throwing floating platform assembly of the culture pond, the tooth moving toothed plate moves backwards, the rotation of the reversing poking arm shaft sliding table is realized through the meshing of the tooth moving toothed plate and the tooth moving gear, the reversing poking arm sliding seat drives the sliding seat poking rod to reciprocate left and right on the photosynthetic bacteria liquid throwing floating platform assembly of the culture pond through the matching of the guide rail convex sliding head and the elliptical guide rail sliding groove because the guide rail convex sliding head is inserted in the elliptical guide rail sliding groove, the reversing ball head rotates in the billiard ball groove at the moment, the photosynthetic bacteria liquid spraying pipe swings left and right in the reversing groove, a poking structure taking a ball head top shaft lever as an axle center is formed between the poking arm and the photosynthetic bacteria liquid spraying pipe, when the device encounters an obstacle, the photosynthetic bacteria liquid spraying pipe swings left and right in the water spraying direction, the device enters an automatic reversing mode of throwing the photosynthetic bacteria liquid, and when the device gets rid of front resistance, namely after reversing is successful, the device reenters a linear spraying treatment mode, so that the whole photosynthetic bacteria liquid throwing treatment work of the culture pond is realized.

Drawings

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

FIG. 2 is a perspective view of another view of the present invention;

FIG. 3 is an exploded view of the present invention;

FIG. 4 is a perspective view of a photosynthetic bacteria liquid throwing floating platform assembly of the culture pond;

FIG. 5 is a perspective view of a floating platform mobile spray pipe assembly, reversing toggle arm assembly and obstacle impacting arm assembly of the present invention;

FIG. 6 is a perspective view of a floating platform mobile sprinkler head assembly of the present invention;

FIG. 7 is a cross-sectional view of a floating platform mobile sprinkler head assembly of the present invention;

FIG. 8 is an exploded view of the reversing actuator arm assembly of the present invention;

FIG. 9 is a perspective view of an obstacle impacting arm assembly of the present invention;

FIG. 10 is a cross-sectional view of a photosynthetic bacteria liquid mixing assembly of the present invention;

in the figure: 100. throwing the photosynthetic bacteria bacterial liquid of the culture pond into the floating platform assembly; 101. the floating platform is thrown in the cultivation water treatment; 102. a through seat groove; 103. a sliding hole groove; 104. a seat groove transverse table; 105. a bottom suction pipe; 106. a back support plate; 107. a fixed seat block; 108. a pump outlet; 109. a water pump; 110. a communicating pipe; 111. a one-way valve; 112. sealing cover; 113. a photosynthetic bacteria liquid containing cylinder; 200. the floating platform moves the spray pipe assembly; 201. a water spraying fixing seat; 202. a billiard ball groove; 203. a reversing groove; 204. a photosynthetic bacteria bacterial liquid ejection pipe; 205. reversing ball head; 206. a ball head top shaft lever; 207. ball head liquid passing groove; 208. a pulling arm; 209. toggle the guiding chute; 210. a bacterial liquid containing tube; 211. a liquid inlet side hole; 300. a reversing toggle arm assembly; 301. reversing toggle arm shaft sliding table; 302. a reversing toggle arm sliding seat; 303. a slide holder toggle rod; 304. a guide rail convex sliding head; 305. an elliptical guide rail chute; 306. an axle sliding table shaft lever; 307. a toothed gear; 400. the obstacle interferes with the arm assembly; 401. the obstacle props against the arm sliding rod; 402. a return spring; 403. a contact wheel; 404. l-shaped top rack rod; 405. u-shaped top rack rod; 406. a toothed plate; 500. a photosynthetic bacteria bacterial liquid mixing component; 501. a photosynthetic bacteria bacterial liquid mixing drum; 502. a stirring rod; 503. a mixing drum liquid inlet pipe; 504. a mixing drum liquid outlet pipe; 505. a mixing drum ejector rod; 506. a driving motor; 507. a conveyor belt; 508. a belt pulley.

Detailed Description

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

Referring to fig. 1-10, the invention provides a device and a method for treating high ammonia nitrogen pond culture wastewater by using photosynthetic bacteria, wherein the device comprises a floating platform assembly 100 for throwing photosynthetic bacteria liquid in a culture pond, a floating platform movable spray pipe assembly 200 is fixedly arranged at the rear end of the floating platform assembly 100 for throwing photosynthetic bacteria liquid in the culture pond, a reversing moving arm assembly 300 and an obstacle abutting arm assembly 400 are respectively arranged at the middle end and the front end of the top of the floating platform assembly 100 for throwing photosynthetic bacteria liquid in the culture pond, photosynthetic bacteria liquid mixing assemblies 500 are arranged at two sides of the floating platform movable spray pipe assembly 200, the floating platform movable spray pipe assembly 200 is used for driving the floating platform assembly 100 to float and advance in the culture pond, the obstacle abutting arm assembly 400 is formed at the front end of the floating platform assembly 100 for throwing photosynthetic bacteria liquid in the culture pond, the reversing moving arm assembly 300 is arranged between the floating platform movable spray pipe assembly 200 and the obstacle abutting arm assembly 200, and the reversing moving arm assembly 300 is formed when the photosynthetic bacteria liquid is mixed with the photosynthetic bacteria liquid, and the floating platform assembly 100 is sprayed on the reversing arm assembly 100 for throwing photosynthetic bacteria liquid, and the photosynthetic bacteria liquid mixing assemblies are formed.

In a preferred embodiment, referring to fig. 4, a photosynthetic bacteria liquid throwing floating platform assembly 100 of a culture pond comprises a culture water treatment throwing floating platform 101, a through seat groove 102 is formed in the front end of the culture water treatment throwing floating platform 101, a seat groove transverse platform 104 is arranged in the through seat groove 102, sliding hole grooves 103 are formed in the seat groove transverse platform 104, photosynthetic bacteria liquid containing cylinders 113 are fixedly arranged at the tops of two sides of the front end of the culture water treatment throwing floating platform 101, sealing covers 112 are arranged at the tops of the photosynthetic bacteria liquid containing cylinders 113, a water suction pump 109 and a fixed seat block 107 are arranged at the tops of two sides of the rear end of the culture water treatment throwing floating platform 101, a communicating pipe 110 is arranged between the water suction pump 109 and the photosynthetic bacteria liquid containing cylinders 113, a one-way valve 111 is arranged on the communicating pipe 110, a water outlet 108 is formed in the inner side of the water suction pump 109, a bottom water suction pipe 105 is fixedly arranged at the bottom of the water suction pump 109, and back supporting plates 106 are arranged at the tops of two sides of the middle end of the culture water treatment throwing platform 101.

In this embodiment, the bottom water suction pipe 105 at the bottom of the water suction pump 109 penetrates the body of the floating platform 101 for the aquaculture water treatment and is inserted deep into the aquaculture pond water body, thereby facilitating the subsequent water pumping treatment.

Next, referring to fig. 10 again, the photosynthetic bacteria bacterial liquid mixing assembly 500 includes a photosynthetic bacteria bacterial liquid mixing drum 501, mixing drum liquid outlet pipes 504 and mixing drum liquid inlet pipes 503 are fixedly arranged at two ends of the photosynthetic bacteria bacterial liquid mixing drum 501 respectively, a plurality of stirring rods 502 are rotatably arranged inside the photosynthetic bacteria bacterial liquid mixing drum 501, two belt pulleys 508 are fixedly arranged at the top of the stirring rods 502, a driving motor 506 is fixedly arranged at the top of the photosynthetic bacteria bacterial liquid mixing drum 501 through a mixing drum ejector rod 505, and a conveying belt 507 is wound between the two belt pulleys 508.

The bottom of the photosynthetic bacteria liquid mixing cylinder 501 is fixedly arranged on the fixed seat block 107, the liquid inlet pipe 503 of the mixing cylinder is communicated with the water outlet 108 of the water pump 109, the water pump 109 pumps the bacteria liquid and pond water in the photosynthetic bacteria liquid containing cylinder 113 into the photosynthetic bacteria liquid mixing assembly 500 through the communicating pipe 110 and the bottom water suction pipe 105, and the mixing of the stirring rod 502 in the photosynthetic bacteria liquid mixing assembly 500 is performed.

Still further, referring to fig. 6 and 7, the floating platform moving spray pipe assembly 200 includes a water spraying fixed seat 201 and a reversing ball 205, a bacteria liquid accommodating pipe 210 is fixedly disposed at the front end of the water spraying fixed seat 201, a seat ball groove 202 and a reversing groove 203 are respectively disposed at the inner and rear ends of the water spraying fixed seat 201, liquid inlet side holes 211 are disposed at both sides of the bacteria liquid accommodating pipe 210, a ball top shaft 206 is fixedly disposed at the top of the reversing ball 205, a photosynthetic bacteria liquid spraying pipe 204 is fixedly disposed at the rear end of the reversing ball 205, a poking arm 208 is fixedly disposed at the top of the ball top shaft 206, a poking guiding chute 209 is disposed on the poking arm 208, a ball liquid through groove 207 is disposed inside the reversing ball 205, the ball liquid through groove 207 is communicated with the photosynthetic bacteria liquid spraying pipe 204, and two groups of photosynthetic bacteria liquid mixing assemblies 500 are disposed at both sides of the floating platform moving spray pipe assembly 200.

The ball head top shaft lever 206 is rotatably connected with the top of the water spraying fixed seat 201 through a bearing seat, the reversing ball head 205 rotates in the seat ball groove 202, the photosynthetic bacteria bacterial liquid spraying pipe 204 swings left and right in the reversing groove 203, and a stirring structure taking the ball head top shaft lever 206 as an axle center is formed between the stirring arm 208 and the photosynthetic bacteria bacterial liquid spraying pipe 204.

In this embodiment, the cooperation of the poking arm 208 and the photosynthetic bacteria liquid discharge pipe 204 realizes the follow-up poking type spraying reversing action.

In a preferred embodiment, referring to fig. 8, the reversing poking arm assembly 300 includes a reversing poking arm shaft sliding table 301 and a reversing poking arm sliding table 302, an elliptical guide rail sliding groove 305 is formed on the outer wall of the reversing poking arm shaft sliding table 301, tooth-moving gears 307 are fixedly arranged at two ends of the reversing poking arm shaft sliding table 301 through an axle sliding table shaft lever 306, and guide rail protruding sliding heads 304 and sliding seat poking rods 303 are fixedly arranged on the inner wall and the outer wall of the reversing poking arm sliding table 302 respectively.

In this embodiment, the shaft rod 306 of the shaft sliding table is rotatably connected to the top of the back supporting plate 106 through a bearing seat, the reversing toggle arm sliding seat 302 is sleeved outside the reversing toggle arm shaft sliding table 301, the reversing toggle arm sliding seat 302 reciprocates left and right outside the reversing toggle arm shaft sliding table 301, the guide rail convex sliding head 304 is inserted in the elliptical guide rail sliding groove 305, and the sliding seat toggle rod 303 is inserted in the toggle guide sliding groove 209.

Next, referring to fig. 9 and 4 again, the obstacle-abutting arm assembly 400 includes an obstacle-abutting arm sliding rod 401, an abutting wheel 403 and an L-shaped top rack rod 404 are respectively and fixedly disposed at one end and the top of the obstacle-abutting arm sliding rod 401, a return spring 402 is sleeved at the front end of the obstacle-abutting arm sliding rod 401, a U-shaped top rack rod 405 is fixedly disposed at the distal end of the L-shaped top rack rod 404, and a toothed rack 406 is fixedly disposed at the end of the U-shaped top rack rod 405.

The above-mentioned barrier conflict arm slide bar 401 runs through the slip through the slide hole groove 103 on the seat groove cross platform 104 and slides, and reset spring 402 and L type roof-rack pole 404 are located the front end and the rear end of seat groove cross platform 104 respectively, and the both ends of reset spring 402 are contradicted respectively on conflict wheel 403 and seat groove cross platform 104, and through the top of reset spring 402, conflict wheel 403 is contradicted forward naturally.

Referring to fig. 1, 9 and 8, the toothed rack 406 on the two sides of the top of the l-shaped top rack bar 404 is engaged with the two toothed gears 307 on the two sides of the reversing toggle arm shaft sliding table 301, and is pushed backward by the force of the obstacle abutting arm assembly 400, so that a structure for driving the reversing toggle arm shaft sliding table 301 to rotate is formed between the toothed rack 406 and the toothed gears 307.

In this embodiment, through the cooperation between the tooth moving toothed plate 406 and the tooth moving gear 307, the reversing toggle arm shaft sliding table 301 is realized to rotate unidirectionally, and the reversing toggle arm shaft sliding table 301 rotates unidirectionally to drive the sliding seat toggle rod 303 on the reversing toggle arm sliding seat 302 to slide reciprocally and leftwards, so that the sliding seat toggle rod 303 on the reversing toggle arm assembly 300 forms a reciprocating toggle structure for the floating platform moving water spraying pipe assembly 200.

In another embodiment of the present invention, a chute may be disposed on the outer wall of the reversing poking arm sliding seat 302, a guiding convex sliding block corresponding to the chute may be disposed on the aquaculture water treatment throwing floating platform 101, and the left-right linear sliding of the reversing poking arm sliding seat 302 may be ensured by the limiting arrangement of the chute and the convex sliding block.

In another embodiment of the present invention, a sliding groove may be disposed on the outer wall of the barrier-against-arm sliding rod 401, a guiding convex sliding block corresponding to the sliding groove may be disposed on the inner wall of the through seat groove 102, and the linear sliding of the barrier-against-arm assembly 400 may be ensured by the limiting arrangement of the sliding groove and the convex sliding block.

In another embodiment of the present invention, the extraction of the bacterial liquid from the photosynthetic bacteria liquid containing cylinder 113 and the extraction of the dilution water from the bottom suction pipe 105 can be controlled by two pumps with different flow rates, so that the ratio of the dilution water to the bacterial liquid pumped into the photosynthetic bacteria liquid mixing assembly 500 can be controlled.

In another embodiment of the invention, universal wheels can be arranged around the floating platform 101 for the aquaculture water treatment, so that the automatic reversing action is convenient when the aquaculture water treatment hits an obstacle.

In another embodiment of the invention, a battery pack or solar panel can be provided on the aquaculture water treatment slinging platform 101 to provide power for the pump and motor.

In another embodiment of the invention, the culture water treatment throwing floating platform 101 can be arranged into a round structure, and a circle of universal rollers can be arranged at the edge of the round structure, so that smoothness in reversing of a spray track of the culture pond is ensured.

The working principle of the invention is as follows: when the invention is practically used, the floating platform assembly 100 is used as a movable floating platform structure when the invention is used for throwing the bacteria liquid, the high-pressure water sprayed by the rear end of the floating platform movable water spray pipe assembly 200 is used as the driving force of the movement of the floating platform movable water spray pipe assembly 200 in the culture pond through the reaction force, at the moment, the spraying structure is a linear track, when encountering the edge of the culture pond or the obstacle in the pond, the spraying structure can move in the culture pond to ensure the uniformity of the spraying of the photosynthetic bacteria liquid through the linkage cooperation among the obstacle abutting arm assembly 400, the reversing movable arm assembly 300 and the floating platform movable water spray pipe assembly 200, and the automatic swinging reversing of the floating platform movable water spray pipe assembly 200 for spraying the high-pressure water is realized, namely the driving force of the floating platform assembly 100 is changed for throwing the photosynthetic bacteria liquid in the culture pond, so that when the water treatment of the culture pond is realized, the function of automatic reversing when encountering the edge of the culture pond or the obstacle in the pond is ensured, the spraying of the invention can move in the culture pond to the greatest extent, at the moment, the uniformity of the spraying of the photosynthetic bacteria liquid in the culture pond is ensured, meanwhile, the reversing structure adopts the reversing structure can be adopted, and if the reversing structure is adopted in order to prevent the mixed bacteria liquid from being mixed in the water flowing in the culture pond from being mixed bacteria liquid flowing in the reversing pipe assembly 500, and the mixing bacteria flowing in the mixing device is realized, and if the reversing bacteria flowing in the mixing bacteria flowing in the water flowing device is realized through the reversing device through the mixing device when the mixing bacteria pump 500 when the reversing structure is realized, the bottom suction pipe 105 at the bottom of the suction pump 109 is inserted into the culture pond to dilute the photosynthetic bacteria liquid by the water in the culture pond, so that the invention does not need to additionally increase a water supply tank and the like, and the weight is reduced, the practical working principle of the invention is that the suction pump 109 pumps the liquid inside the photosynthetic bacteria liquid containing cylinder 113 and pond water into the photosynthetic bacteria liquid mixing assembly 500 through the communicating pipe 110 and the bottom suction pipe 105, the diluted high-pressure bacteria liquid is sent into the photosynthetic bacteria liquid spraying pipe 204 through the bacteria liquid containing pipe 210 and the reversing ball 205 through the mixing rod 502 in the photosynthetic bacteria liquid mixing assembly 500, the high-pressure bacteria liquid is discharged through the photosynthetic bacteria liquid spraying pipe 204 and sprayed into the culture pond, and at the moment, the high-pressure water sprayed by the photosynthetic bacteria liquid spraying pipe 204 in the culture pond is discharged due to the reaction force, the invention is in a linear spraying treatment mode when the edge of the culture pond or an obstacle is touched, the obstacle abutting arm assembly 400 moves backwards on the culture pond photosynthetic bacteria bacterial liquid throwing floating table assembly 100, the tooth moving toothed plate 406 moves backwards, the rotation of the reversing toggle arm shaft sliding table 301 is realized through the meshing with the tooth moving gear 307, the rotation of the reversing toggle arm shaft sliding rod 303 is realized by the fact that the guide rail convex sliding head 304 is inserted into the elliptical guide rail sliding groove 305, the sliding seat 302 drives the sliding seat shifting rod 303 to reciprocate leftwards and rightwards on the culture pond photosynthetic bacteria bacterial liquid throwing floating table assembly 100 through the cooperation of the guide rail convex sliding head 304 and the elliptical guide rail sliding groove 305, the sliding seat shifting rod 303 is inserted into the shifting guide sliding groove 209, the reversing ball 205 rotates in the billiard slot 202, the photosynthetic bacteria bacterial liquid spraying pipe 204 swings left and right in the reversing slot 203, a stirring structure taking a ball head top shaft lever 206 as an axle center is formed between the stirring arm 208 and the photosynthetic bacteria bacterial liquid spraying pipe 204, and the stirring arm 208 is stirred left and right through the sliding seat stirring rod 303, so that when the device encounters an obstacle, the photosynthetic bacteria bacterial liquid spraying pipe 204 swings left and right in the water spraying direction, the device enters an automatic reversing mode of photosynthetic bacteria bacterial liquid spraying, and when the front resistance is eliminated, namely, after reversing is successful, the device reenters a linear spraying mode, thereby realizing the whole photosynthetic bacteria bacterial liquid spraying treatment work of the culture pond.

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

Claims (9)

1. The utility model provides an utilize photosynthetic bacteria to handle high ammonia nitrogen pond culture wastewater equipment, includes that the photosynthetic bacteria fungus liquid of breed aquatics pond throws floating platform subassembly (100), its characterized in that: the floating platform is characterized in that a floating platform movable spray pipe assembly (200) is fixedly arranged at the rear end of the floating platform assembly (100), a reversing stirring arm assembly (300) and an obstacle abutting arm assembly (400) are respectively arranged at the middle end and the front end of the top of the floating platform assembly (100), both sides of the floating platform movable spray pipe assembly (200) are respectively provided with a photosynthetic bacteria bacterial liquid mixing assembly (500), the floating platform movable spray pipe assembly (200) is used as a driving spray structure for driving the floating platform movable spray pipe assembly (100) to float in the culture pond, the obstacle abutting arm assembly (400) forms an action arm structure for reversing when the floating platform movable spray pipe assembly (200) and the obstacle abutting arm assembly (400) stir the photosynthetic bacteria bacterial liquid in the culture pond, and when the reversing arm assembly (300) contacts with the photosynthetic bacteria bacterial liquid, the floating platform movable spray pipe assembly (100) floats in the culture pond, the photosynthetic bacteria liquid mixing assembly (500) forms a cylindrical structure for mixing and diluting photosynthetic bacteria liquid and river water on the floating platform assembly (100) for throwing the photosynthetic bacteria liquid in the culture pond.

2. The apparatus for treating high ammonia nitrogen pond culture wastewater by photosynthetic bacteria according to claim 1, wherein: the photosynthetic bacteria liquid throwing floating platform assembly (100) of the culture pond comprises a culture water treatment throwing floating platform (101), a through seat groove (102) is formed in the front end of the culture water treatment throwing floating platform (101), a seat groove transverse platform (104) is arranged in the through seat groove (102), a sliding hole groove (103) is formed in the seat groove transverse platform (104), photosynthetic bacteria liquid containing barrels (113) are fixedly arranged at the tops of two sides of the front end of the culture water treatment throwing floating platform (101), sealing covers (112) are arranged at the tops of the photosynthetic bacteria liquid containing barrels (113), water suction pumps (109) and fixed seat blocks (107) are arranged at the tops of two sides of the rear end of the culture water treatment throwing floating platform (101), communicating pipes (110) are arranged between the water suction pumps (109) and the photosynthetic bacteria liquid containing barrels (113), one-way valves (111) are arranged on the communicating pipes (110), water suction ports (108) are fixedly arranged at the tops of the two sides of the water suction pumps (109), and sealing covers (112) are fixedly arranged at the bottoms of the water suction pumps (109), and the tops of the two sides of the culture water treatment throwing pipes (106) are respectively provided with floating ends;

the floating platform mobile spray pipe assembly (200) comprises a water spray fixed seat table (201) and a reversing ball head (205), wherein a bacteria liquid containing pipe (210) is fixedly arranged at the front end of the water spray fixed seat table (201), seat billiard grooves (202) and reversing grooves (203) are respectively formed in the water spray fixed seat table (201) and at the rear end of the water spray fixed seat table, liquid inlet side holes (211) are formed in two sides of the bacteria liquid containing pipe (210), a ball head top shaft lever (206) is fixedly arranged at the top of the reversing ball head (205), a photosynthetic bacteria liquid spraying pipe (204) is fixedly arranged at the rear end of the reversing ball head (205), a poking arm (208) is fixedly arranged at the top of the ball head top shaft lever (206), a poking guide chute (209) is formed in the poking arm (208), ball head liquid through grooves (207) are formed in the reversing ball head (205), the ball head liquid through grooves (207) and the photosynthetic bacteria liquid spraying pipe (204) are communicated, and two groups of photosynthetic bacteria liquid mixing assemblies (500) are arranged at two sides of the floating platform mobile spray pipe assembly (200);

the reversing toggle arm assembly (300) comprises a reversing toggle arm shaft sliding table (301) and a reversing toggle arm sliding seat (302), an elliptical guide rail sliding groove (305) is formed in the outer wall of the reversing toggle arm shaft sliding table (301), tooth-shaped gears (307) are fixedly arranged at two ends of the reversing toggle arm shaft sliding table (301) through an shaft sliding table shaft lever (306), and guide rail convex sliding heads (304) and sliding seat toggle rods (303) are fixedly arranged on the inner wall and the outer wall of the reversing toggle arm sliding seat (302) respectively;

obstacle conflict arm subassembly (400) include obstacle conflict arm slide bar (401), obstacle conflict arm slide bar (401) one end and top are fixed respectively to be provided with and support touch wheel (403) and L roof-rack pole (404), and obstacle conflict arm slide bar (401) front end cover is equipped with reset spring (402), L roof-rack pole (404) distal end is fixed to be provided with U type roof-rack pole (405), U type roof-rack pole (405) tip fixed tooth moves pinion rack (406).

3. The apparatus for treating high ammonia nitrogen pond culture wastewater by photosynthetic bacteria according to claim 2, wherein: the shaft sliding table shaft lever (306) is rotationally connected with the top of the back supporting plate (106) through a bearing seat, the reversing poking arm sliding seat (302) is sleeved outside the reversing poking arm shaft sliding seat (301), the reversing poking arm sliding seat (302) moves left and right in a reciprocating mode outside the reversing poking arm shaft sliding seat (301), the guide rail protruding sliding head (304) is inserted into the oval guide rail sliding groove (305), and the sliding seat poking rod (303) is inserted into the poking guide sliding groove (209).

4. The apparatus for treating high ammonia nitrogen pond culture wastewater by photosynthetic bacteria according to claim 2, wherein: the ball head top shaft rod (206) is rotationally connected with the top of the water spraying fixed seat table (201) through a bearing seat, the reversing ball head (205) rotates in the seat ball groove (202), the photosynthetic bacteria bacterial liquid spraying pipe (204) swings left and right in the reversing groove (203), and a stirring structure taking the ball head top shaft rod (206) as an axle center is formed between the stirring arm (208) and the photosynthetic bacteria bacterial liquid spraying pipe (204).

5. The apparatus for treating high ammonia nitrogen pond culture wastewater by photosynthetic bacteria according to claim 2, wherein: the obstacle conflict arm slide bar (401) runs through the slip on seat groove cross platform (104) through slide hole groove (103), reset spring (402) and L type roof-rack pole (404) are located the front end and the rear end of seat groove cross platform (104) respectively, the both ends of reset spring (402) are contradicted respectively on conflict wheel (403) and seat groove cross platform (104), through the top of reset spring (402), conflict wheel (403) are contradicted forward naturally.

6. The apparatus for treating high ammonia nitrogen pond culture wastewater by photosynthetic bacteria according to claim 2, wherein: the gear moving toothed plates (406) on two sides of the top of the L-shaped top frame rod (404) are meshed with the two gear moving gears (307) on two sides of the reversing toggle arm shaft sliding table (301), the barrier abutting arm assembly (400) is forced to push backwards, and a structure for driving the reversing toggle arm shaft sliding table (301) to rotate is formed between the gear moving toothed plates (406) and the gear moving gears (307).

7. The apparatus for treating high ammonia nitrogen pond culture wastewater by photosynthetic bacteria according to claim 2, wherein: photosynthetic bacteria fungus liquid mixing arrangement (500) are including photosynthetic bacteria fungus liquid mixing drum (501), photosynthetic bacteria fungus liquid mixing drum (501) both ends are fixed respectively to be provided with mixing drum drain pipe (504) and mixing drum feed liquor pipe (503), and inside rotation of photosynthetic bacteria fungus liquid mixing drum (501) is provided with a plurality of puddlers (502), puddler (502) top is fixed to be provided with two belt pulleys (508), photosynthetic bacteria fungus liquid mixing drum (501) top is through mixing drum ejector pin (505) fixed driving motor (506) that is provided with, two around being equipped with conveyer belt (507) between belt pulley (508).

8. The apparatus for treating high ammonia nitrogen pond culture wastewater by photosynthetic bacteria of claim 7, wherein: the photosynthetic bacteria bacterial liquid mixing drum (501) bottom is fixedly arranged on the fixed seat block (107), a bottom water suction pipe (105) at the bottom of the water suction pump (109) penetrates through a platform body of the culture water treatment throwing floating platform (101) and is deeply inserted into the water body of the culture pond, a mixing drum liquid inlet pipe (503) is communicated with a water outlet (108) of a pump (108) on the water suction pump (109), and a mixing drum liquid outlet pipe (504) is communicated with a liquid inlet side hole (211) on the side surface of the bacterial liquid containing pipe (210).

9. A method for treating high ammonia nitrogen pond culture wastewater equipment by photosynthetic bacteria, which comprises the following steps: firstly, photosynthetic bacteria liquid is filled into a photosynthetic bacteria liquid containing cylinder (113), at the moment, a water suction pump (109) pumps bacterial liquid and pond water in the photosynthetic bacteria liquid containing cylinder (113) into a photosynthetic bacteria liquid mixing assembly (500) through a communicating pipe (110) and a bottom water suction pipe (105), diluted high-pressure bacterial liquid is sent into a photosynthetic bacteria liquid spraying pipe (204) through a bacterial liquid containing pipe (210) and a reversing ball head (205) through mixing of a stirring rod (502) in the photosynthetic bacteria liquid mixing assembly (500), and the high-pressure bacterial liquid is discharged through the photosynthetic bacteria liquid spraying pipe (204) and is sprayed into a culture pond;

secondly, high-pressure water sprayed in the culture pond by the photosynthetic bacteria liquid spraying pipe (204) is equivalent to a forward thrust of throwing the floating platform assembly (100) on the photosynthetic bacteria liquid in the culture pond due to the factor of the reaction force, so that the photosynthetic bacteria liquid is sprayed in a linear movement mode in the culture pond;

thirdly, the front end of the culture pond photosynthetic bacteria liquid throwing floating platform assembly (100) is provided with an obstacle abutting arm assembly (400), when the edge of the culture pond or an obstacle is touched, the obstacle abutting arm assembly (400) moves backwards on the culture pond photosynthetic bacteria liquid throwing floating platform assembly (100), at the moment, the rear end structure of the obstacle abutting arm assembly (400) drives the reversing stirring arm shaft sliding table (301) on the reversing stirring arm assembly (300) to rotate unidirectionally, the reversing stirring arm shaft sliding table (301) rotates unidirectionally to drive the sliding seat stirring rod (303) on the reversing stirring arm sliding seat (302) to slide left and right in a reciprocating manner, and at the moment, the sliding seat stirring rod (303) on the reversing stirring arm assembly (300) forms a reciprocating stirring structure for the floating platform moving water spraying pipe assembly (200);

fourth, dial movable arm subassembly (300) through the switching-over and stir reciprocating about floating platform removal spray pipe subassembly (200), this device is when touching culture pond edge or barrier, and photosynthetic bacteria fungus liquid spray tube (204) on the movable spray pipe subassembly of floating platform (200) form reciprocating type high pressure and spray the structure about, commutate about through photosynthetic bacteria fungus liquid spray tube (204) for the reaction impetus switching-over that culture pond photosynthetic bacteria fungus liquid shed floating platform subassembly (100) received, thereby realize that culture pond photosynthetic bacteria fungus liquid shed automatic redirecting when floating platform subassembly (100) touched culture pond edge or barrier, realize spraying the automatic switching-over of route in the culture pond.