CN115316373A - Blue algae treatment equipment utilizing water area tide - Google Patents

Abstract

The invention relates to the field of ecological management, in particular to blue algae management equipment utilizing water area tides. The technical problem is as follows: when a large amount of blue-green algae occurs, more blue-green algae can be accumulated at one position, the oxygen deficiency phenomenon is easy to occur in a water body, and the blue-green algae at the lower layer can not be effectively killed by spraying the algicide, so that more time for treating the blue-green algae is needed to be consumed. The technical scheme is as follows: a blue algae treatment device utilizing water area tide comprises a chemical box, an algae removal system and the like; the chemical box is connected with an algae removal system for spraying chemicals to a water area. According to the invention, water is filled into the chemical tank by utilizing the tide effect, the chemical in the chemical tank is dissolved, and then the chemical is sprayed to the surface of the water body through the spray head, so that the electric leakage of the equipment after water is fed is effectively avoided, the equipment can be cooled, the accumulated blue algae can be scattered, the water body is aerated, and the effect similar to the tide effect is manufactured, so that the coverage area of the aeration to the water body and the chemical spraying is increased.

Description

Blue algae treatment equipment utilizing water area tide

Technical Field

The invention relates to the field of ecological management, in particular to blue algae management equipment utilizing water area tides.

Background

With the rapid development of economy and the rapid increase of population, the eutrophication degree of a plurality of water areas is increased, so that the cyanobacterial bloom erupts normally, the cyanobacterial bloom erupts, the definition of the water body is influenced, the oxygen concentration in the water is reduced, and the growth of aquatic animals and plants is influenced.

However, when a large amount of blue-green algae occurs, the oxygen demand of aquatic animals and plants cannot be met, when the blue-green algae is treated by using the algicide, the phenomenon of oxygen deficiency is more likely to occur in the water body, and when tide acts in the water area, the blue-green algae in the water area is more accumulated at one position, and by spraying the algicide, the blue-green algae at the lower layer cannot be effectively killed, so that more time for treating the blue-green algae is required.

Disclosure of Invention

The invention provides blue algae treatment equipment utilizing water tide, aiming at overcoming the defects that when a large amount of blue algae occurs, more blue algae are accumulated at one position, the phenomenon of oxygen deficiency is easy to occur in a water body, and the blue algae at the lower layer cannot be effectively killed by spraying an algicide, so that more time for treating the blue algae is consumed.

The technical scheme is as follows: a blue algae treatment device utilizing water area tide comprises a chemical tank and a floating piece; the lower part of the outer surface of the chemical box is connected with a floating piece in four directions; the floating piece is used for floating the chemical tank in a tidal water area; the device also comprises a first conduit, a spray head, a micro pump, a suction filter head, a partition plate, an algae removal system and a treatment system; the left part and the right part of the medicament box are respectively fixedly connected with a first conduit; the upper parts of the two first guide pipes are respectively communicated with a spray head; the two spray heads are respectively provided with a micro pump; the lower parts of the two first guide pipes are respectively connected with a suction filtration head for filtering the medicament; two clapboards are fixedly connected to the inner surface of the chemical box, and through grooves are formed in the lower parts of the two clapboards and used for communicating the space in the chemical box; the two clapboards divide the interior of the medicament box into three parts; the chemical box is connected with an algae removal system for spraying chemicals to a water area; the lower surface of the chemical box is connected with a treatment system for increasing oxygen in a water area; under the cooperation of the algae removal system and the spray head, the agent is sprayed to the surface of the water area, and simultaneously, the algae removal system is matched with the treatment system to pump water out of the water surface and increase the oxygen content of the water.

More preferably, the front middle part and the rear middle part of the medicament box are respectively provided with a plurality of water permeable grooves in an array mode, and the front part of the upper surface and the rear part of the upper surface of the medicament box are respectively provided with a through groove for putting medicaments.

More preferably, the algae removal system comprises a power unit, a waterproof heat dissipation unit and a material distribution unit; the medicament box is connected with a power unit; the power unit is connected with a waterproof heat dissipation unit; the top in the chemical box is connected with a material distribution unit for spraying the chemical to a water area; the back sides of the two partition plates are connected with the material distributing unit.

More preferably, the waterproof heat dissipation unit comprises a waterproof cover, a fixing buckle, a heat dissipation pipe and a U-shaped pipe; the power unit is connected with a waterproof cover; the left side and the right side of the waterproof cover are respectively fixedly connected with four fixing buckles; two fixing buckles are fixedly connected to the upper surface of the waterproof cover; the front three fixing buckles and the rear three fixing buckles are respectively and commonly provided with a radiating tube, the two radiating tubes are in an inverted U shape, and the left lower part and the right lower part of the two radiating tubes are respectively provided with a plurality of ventilating grooves for allowing air to enter; two U-shaped pipes are arranged between the two radiating pipes, and the middle parts of the opposite sides of the two U-shaped pipes are respectively provided with a plurality of through grooves which are provided with inclined upward parts and used for discharging hot air in the waterproof cover into the two radiating pipes; the front part and the rear part of the two U-shaped pipes are respectively communicated with a radiating pipe.

More preferably, the treatment system comprises an aeration unit and a shaking unit; the lower part of the aeration unit is connected with a shaking unit; the aeration unit comprises a sleeve, a sealing plate, a filter pipe, a second power assembly, a bracket, a second guide pipe and a first branch pipe; the lower surface of the chemical box is fixedly connected with a sleeve, and a plurality of water permeable grooves are arranged on the lower part of the outer surface of the sleeve in an annular array mode and are used for allowing water in a water area to enter the sleeve so as to reduce the center of gravity of the sleeve; the lower part of the sleeve is connected with the shaking unit; a sealing plate is fixedly connected to the lower part of the inner surface of the sleeve; the middle part of the sealing plate is connected with the power unit; two filter tubes are fixedly connected to the upper surface of the sealing plate; a second power assembly is respectively arranged on the two filter pipes; two brackets are fixedly connected to the upper part of the outer surface of the sleeve; the back sides of the two brackets are fixedly connected with a second conduit respectively; the lower parts of the two second guide pipes are respectively connected with a second power assembly; the upper parts of the two second guide pipes are respectively fixedly connected with a first branch pipe.

More preferably, the two first branch pipes are respectively provided with a plurality of through holes for spraying the water in the first branch pipes into a plurality of strands to increase the oxygen content in the water.

More preferably, the rocking unit comprises a protection piece, a circular plate, a telescopic piece, a cross rod, a second electric actuator, a connecting plate, a rotary disc, a deflector rod, a support rod, an elastic piece, a connecting rope, a counterweight piece and a support plate; the lower end of the sleeve is fixedly connected with a protection piece, and the protection piece is hemispherical and is used for reducing the resistance of the protection piece in water; a circular plate is fixedly connected to the lower part of the inner surface of the sleeve; the middle part of the circular plate is rotationally connected with a telescopic piece; a cross rod is fixedly connected to the inner surface of the sleeve; the cross bar is positioned above the circular plate; the middle part of the cross rod is rotationally connected with the fixed part of the telescopic piece; two second electric actuators are arranged on the upper surface of the circular plate; the upper ends of the telescopic parts of the two second electric actuators are fixedly connected with a connecting plate; the middle part of the connecting plate is rotationally connected with the telescopic part of the telescopic piece; the telescopic part of the telescopic piece is positioned below the hexagonal groove of the transmission rod and is hexagonal prism-shaped; the outer surface of the telescopic piece is rotationally connected with a rotary table; the turntable is positioned between the circular plate and the cross rod; a deflector rod is fixedly connected to the outer edge of the lower surface of the turntable; two supporting rods are fixedly connected to the upper surface of the circular plate; the two supporting rods are respectively connected with an elastic piece; the back sides of the two elastic pieces are fixedly connected with a connecting rope respectively; a support plate is fixedly connected to the front part of the inner surface of the protection part and the rear part of the inner surface of the protection part respectively; the lower parts of the two connecting ropes penetrate through the circular plate and the support plate and are fixedly connected with a counterweight together; the weight member is located below the circular plate.

More preferably, the device also comprises an anti-blocking unit; the front part and the rear part of the medicament box are both connected with anti-blocking units; the anti-blocking unit comprises a bin door, a handle and a filter frame; two through grooves on the upper surface of the medicament box are respectively connected with a bin gate in a sliding way; two bin doors are respectively provided with a handle; the opposite sides of the two bin doors are respectively connected with a filter frame in a sliding way, and the right parts of the two filter frames are respectively provided with a through groove for pulling the filter frames rightwards; the water passing grooves at the front part and the rear part of the medicament box are positioned between the two filtering frames.

More preferably, the device also comprises a stirring unit; the front part and the rear part of the two first branch pipes are connected with stirring units; the stirring unit comprises a second branch pipe, a second cross paddle and a water guide pipe; the front part and the rear part of each of the two first branch pipes are respectively and rotatably connected with a second branch pipe, and the first branch pipes are communicated with the second branch pipes; a second cross-shaped paddle is fixedly connected to the outer surface of each second branch pipe; a plurality of water guide pipes are fixedly connected to the outer surface of each second branch pipe; each water guide pipe is communicated with the second branch pipe, and the axis of each water guide pipe deviates from the straight line where the diameter of the second branch pipe is located.

More preferably, the water guide pipe on the left second branch pipe and the water guide pipe on the right second branch pipe are symmetrically arranged, so that the force generated by the movement of the left second cross-shaped paddle in the water body and the force generated by the movement of the right second cross-shaped paddle in the water body are mutually offset.

The invention has the following advantages: the invention carries algicide and water antidote to float on the water through the chemical tank and the floating part, utilizes the tide action to fill water into the chemical tank, dissolves the chemical in the chemical tank, then sprays the chemical to the surface of the water through the spray head to kill the blue algae on the water area, simultaneously under the coordination of the radiating pipe and the U-shaped pipe, effectively avoids electric leakage after the equipment enters water, can cool the equipment, can spray a water column through the first branch pipe to impact the blue algae floating on the water surface, scatter the accumulated blue algae, aerate the water, increase oxygen in the water covered by the blue algae, and control the equipment to swing through the position deviation of the weight part, thereby producing the effect similar to the tide effect and increasing the coverage area of aeration and chemical spraying on the water.

Drawings

FIG. 1 is a schematic perspective view of the blue algae treatment apparatus using the tide of the water area according to the present invention;

FIG. 2 is a sectional view of the blue algae treatment apparatus using the tide of the water area of the present invention;

FIG. 3 is a schematic view of a partial perspective structure of the blue algae treatment apparatus using the tide of the water area of the present invention;

FIG. 4 is a schematic view of a partial three-dimensional structure of a power unit of the blue algae treatment equipment using water area tides according to the present invention;

FIG. 5 is a schematic view of the combined structure of the blue algae treatment equipment using the tide of the water area of the invention;

FIG. 6 is a sectional view of an aeration unit of the blue algae treatment apparatus using water tide according to the present invention;

FIG. 7 is a sectional view of a shaking unit of the blue algae treatment apparatus using the tide of the water area according to the present invention;

FIG. 8 is an enlarged view of area A of the blue algae treatment apparatus using the tide of the water area of the present invention;

FIG. 9 is a schematic view of the three-dimensional structure of the anti-blocking unit of the blue algae treatment equipment using the tide in the water area of the present invention;

FIG. 10 is a schematic perspective view of the agitating unit of the blue algae treatment apparatus using the tide of the water area according to the present invention.

Part names and serial numbers in the figure: 1-medicament tank, 2-floating member, 3-first conduit, 4-nozzle, 5-micropump, 6-suction filter head, 7-partition plate, 101-mounting plate, 102-first power assembly, 103-transmission rod, 201-waterproof cover, 202-fixing buckle, 203-heat pipe, 204-U-shaped pipe, 301-first electric actuator, 302-connecting plate, 303-baffle, 304-first cross paddle, 401-sleeve pipe, 402-sealing plate, 403-filter pipe, 404-second power assembly, 405-bracket, 406-second conduit, 407-first branch pipe, 501-protective member, 502-circular plate, 503-telescopic member, 504-cross bar, 505-second electric actuator, 506-connecting plate, 507-dial, 508-deflector rod, 509-strut, 5010-elastic member, 5011-connecting rope, 5012-strut member, 5013-strut plate, 601-bin gate, 602-handle, 603-filter frame, 701-second branch pipe, 702-cross-second branch pipe, 702-feather paddle pipe, 703.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Examples

A blue algae treatment device utilizing water area tide is shown in figure 1-2 and comprises a chemical box 1 and a floating piece 2; the lower part of the outer surface of the chemical box 1 is respectively connected with a floating part 2 in four directions; the floating member 2 is used for floating the chemical tank 1 in a tidal water area;

the device also comprises a first conduit 3, a spray head 4, a micro pump 5, a suction filtration head 6, a clapboard 7, an algae removal system and a treatment system; the left part and the right part of the chemical box 1 are respectively welded with a first conduit 3; the upper parts of the two first guide pipes 3 are respectively communicated with a spray head 4; the two nozzles 4 are respectively provided with a micro pump 5; the lower parts of the two first guide pipes 3 are respectively connected with a suction filter head 6; two clapboards 7 are welded on the inner surface of the chemical box 1, and through grooves are formed in the lower parts of the two clapboards 7 and used for communicating the space in the chemical box 1; the two clapboards 7 divide the interior of the medicament box 1 into three parts; the chemical box 1 is connected with an algae removal system; the lower surface of the chemical box 1 is connected with a treatment system; under the cooperation of the algae killing system and the spray head 4, the agent is sprayed to the surface of the water area, and simultaneously, the algae killing system is matched with the treatment system to pump water out of the water surface and increase the oxygen content of the water.

The middle part of the front side and the middle part of the rear side of the chemical box 1 are respectively provided with a plurality of water permeable grooves in an array mode, and the front part of the upper surface and the rear part of the upper surface of the chemical box 1 are respectively provided with a through groove for putting in chemicals.

The floating piece 2 is a floating sleeve.

Before using the blue algae treatment equipment utilizing the tide of the water area, the blue algae treatment equipment is called as the blue algae treatment equipment for short, firstly, an operator puts algicide and a water body antidote into the front space and the rear space of a chemical tank 1 respectively, then, the operator switches on a power supply and checks the waterproofness of the connection part of an electric wire to ensure the electricity safety, then, the blue algae treatment equipment is put into the water area needing blue algae treatment, and is connected with a fixed anchor point under the water area through an anchor rope to prevent the blue algae treatment equipment from being taken away by the tide, the blue algae treatment equipment floats on water through four floating pieces 2, when the blue algae treatment equipment shakes under the tide action in the water area and the chemical tank 1 inclines due to the water, the water enters the chemical tank 1 from a water permeable groove, the algicide and the water antidote in the chemical tank 1 are dissolved in water entering the chemical tank 1, when the water surface height entering the chemical tank 1 is about to reach the position of the water permeable tank, the algicide system guides the algicide solution into the middle of the chemical tank 1, then two micro pumps 5 are started, under the cooperation of the first conduit 3 and the suction filter head 6, the algicide solution in the chemical tank 1 is sprayed to the surface of the water through two spray heads 4, after the algicide takes effect, the water antidote is guided into the middle of the chemical tank 1, similarly, the water mixed with the water antidote is sprayed into the water, the water is detoxified, after a large amount of blue algae occurs, a large amount of blue algae are accumulated, the effect of the algicide sprayed on the surface is reduced, at the moment, the treatment system pumps water from the water to the water surface, the blue algae are dispersed, and aerates the water to increase the oxygen amount in the water.

According to the figures 1 and 3-5, the algae removal system comprises a power unit, a waterproof heat dissipation unit and a material distribution unit; the medicament box 1 is connected with a power unit; the power unit is connected with a waterproof heat dissipation unit; the top in the chemical box 1 is connected with a material distributing unit; the opposite sides of the two partition plates 7 are connected with the material distributing unit.

According to fig. 1 and fig. 3-4, the waterproof heat dissipation unit comprises a waterproof cover 201, a fixing buckle 202, a heat dissipation pipe 203 and a U-shaped pipe 204; the power unit is connected with a waterproof cover 201; four fixing buckles 202 are connected to the left side and the right side of the waterproof cover 201 through bolts; the upper surface of the waterproof cover 201 is connected with two fixing buckles 202 through bolts; the three fixing buckles 202 in the front and the three fixing buckles 202 in the rear are respectively and commonly provided with a radiating pipe 203, the two radiating pipes 203 are in an inverted U shape, and the left lower part and the right lower part of the two radiating pipes 203 are respectively provided with a plurality of ventilation grooves for allowing air to enter; two U-shaped pipes 204 are arranged between the two radiating pipes 203, and the middle parts of the two U-shaped pipes 204 at the opposite sides are respectively provided with a plurality of through grooves which are provided with oblique upward directions and used for discharging hot air in the waterproof cover 201 into the two radiating pipes 203; the two U-shaped pipes 204 are communicated with one radiating pipe 203 at the front and rear thereof, respectively.

According to fig. 1 and 5, the material separating unit comprises a first electric actuator 301, a connecting plate 302, a baffle plate 303 and a first cross-shaped paddle 304; two first electric actuators 301 are arranged at the top of the inner surface of the medicament box 1; the two telescopic parts of the first electric actuator 301 are respectively fixedly connected with a connecting plate 302; the lower surfaces of the two connecting plates 302 are connected with a baffle 303 through bolts of mounting buckles; the opposite sides of the two baffles 303 are respectively connected with a partition plate 7 in a sliding way; the two baffles 303 are larger than the through grooves on the partition plates 7 and are used for plugging the through grooves of the two partition plates 7; the power unit is connected with a first cross-shaped paddle 304; the first cross-paddle 304 is located between the two baffles 7.

The first electric actuator 301 is an electric push rod.

According to fig. 1 and 4, the power unit comprises a mounting plate 101, a first power assembly 102 and a transmission rod 103; the upper surface of the chemical box 1 is connected with a mounting plate 101 through bolts; the upper surface of the mounting plate 101 is welded with the waterproof cover 201; a first power assembly 102 is arranged on the upper surface of the mounting plate 101; the output shaft of the first power assembly 102 is fixedly connected with a transmission rod 103; the outer surface of the transmission rod 103 is rotationally connected with the medicament box 1; the outer surface of the transmission rod 103 is welded with the first cross-shaped paddle 304; the lower part of the transmission rod 103 is provided with a hexagonal groove.

The first power assembly 102 is a servo motor.

And (3) algae removal stage: when the blue algae treatment equipment floats on a water body and fills water into the blue algae treatment equipment under the action of tide for dissolving an algicide and a water antidote which are put into the blue algae treatment equipment, then, a first electric actuator 301 is started, the first electric actuator 301 contracts to drive a connecting plate 302 to drive a baffle 303 to move upwards, the baffle 303 exposes out of a through groove for blocking a partition 7, a solution in which the algicide is dissolved in a reagent box 1 is filled into the middle of the reagent box 1, the first electric actuator 301 is closed, at the moment, a first power assembly 102 is started, an output shaft of the first power assembly 102 drives a transmission rod 103 to drive a first cross paddle 304 to rotate, the first cross paddle 304 stirs a solvent in the reagent box 1 for fully dissolving the algicide in the water, then, a micro pump 5 is started, the solvent in the reagent box 1 is sprayed into the water body through two spray nozzles 4 under the matching of a first conduit 3 and a suction head 6, after the solution of the algicide is sprayed, the first electric actuator 301 is started to synchronously drive the baffle 303 to move downwards, the baffle 303, the first electric actuator to close the baffle 303, the electric actuator, the first electric actuator to stop the floating of the baffle 301 and stop the water body 7, and stop the water body 301, and stop the water body, and stop the floating water body, and the water body 1, and the water body 301, and the water body 1, and the water body 301, and the water body.

And (3) tidal heat dissipation stage: in the operation process of the first power assembly 102, the first power assembly 102 generates heat, the temperature in the waterproof cover 201 rises, but because the blue algae treatment equipment floats on the water area, under the action of tide, the blue algae treatment equipment can swing, the first power assembly 102 needs to be subjected to waterproof treatment, the problem of electric leakage caused by water entering the first power assembly 102 is avoided, at the moment, the blue algae treatment equipment is in a shaking process, air enters from the ventilating grooves at the lower parts of one sides of the two radiating pipes 203 and flows along the two radiating pipes 203, and then is discharged from the ventilating grooves at the other sides of the two radiating pipes 203, when the air flows in the two radiating pipes 203, according to hydromechanics, when the air flows in the radiating pipes 203 serving as main pipes, the flow speed of the air in the U-shaped pipes 204 serving as branch pipes is slow, the pressure is low, the air in the U-shaped pipes 204 is pumped into the radiating pipes 203, the hot air in the waterproof cover 201 can enter the two radiating pipes 203 through the U-shaped pipes 204 and is discharged along with the air in the radiating pipes 203, the water in the waterproof cover 201 is reduced, meanwhile, when the blue algae treatment equipment swings to the water enters the U-shaped radiating pipes 203, and then the water is prevented from being poured into the U-shaped radiating pipes 204, and water-shaped pipes 204, and the blue algae treatment equipment can evaporate water filled in the U-shaped pipes 203, and then passes through the U-shaped radiating pipes 204, and then the U-shaped pipes 203, and the water filling structure, and the water filling pipe 102, and the water filling structure.

According to fig. 1 and fig. 6-8, the abatement system comprises an aeration unit and a shaking unit; the lower part of the aeration unit is connected with a shaking unit; the aeration unit comprises a sleeve 401, a sealing plate 402, a filter pipe 403, a second power assembly 404, a bracket 405, a second conduit 406 and a first branch pipe 407; the lower surface of the chemical box 1 is welded with a sleeve 401, and a plurality of water permeable grooves are formed in an annular array on the lower part of the outer surface of the sleeve 401 and used for water in a water area to enter the sleeve 401 so as to lower the center of gravity of the sleeve 401; the lower part of the sleeve 401 is connected with a shaking unit; a sealing plate 402 is welded at the lower part of the inner surface of the sleeve 401; the middle part of the sealing plate 402 is connected with the power unit; the upper surface of the sealing plate 402 is bolted with two filter tubes 403; two filter pipes 403 are respectively provided with a second power assembly 404; the upper part of the outer surface of the sleeve 401 is connected with two brackets 405 through bolts; a second conduit 406 is fixedly connected to the opposite sides of the two brackets 405; the lower parts of the two second guide pipes 406 are respectively connected with a second power assembly 404; a first branch pipe 407 is fixed to each of the upper portions of the two second pipes 406.

The second power assembly 404 is a submersible pump.

The two first branch pipes 407 are respectively provided with a plurality of through holes for spraying the moisture in the first branch pipes 407 into a plurality of strands to increase the oxygen content in the water.

According to fig. 1, 7 and 8, the shaking unit comprises a guard 501, a circular plate 502, a telescopic member 503, a cross bar 504, a second electric actuator 505, an engaging plate 506, a rotating disc 507, a lever 508, a supporting rod 509, an elastic member 5010, a connecting string 5011, a weight member 5012 and a supporting plate 5013; the protection piece 501 is welded at the lower end of the sleeve 401, and the protection piece 501 is hemispherical and used for reducing the resistance of the protection piece 501 in water; a circular plate 502 is welded at the lower part of the inner surface of the sleeve 401; the middle part of the circular plate 502 is rotatably connected with a telescopic part 503; a cross rod 504 is welded on the inner surface of the sleeve 401; the cross bar 504 is positioned above the circular plate 502; the middle part of the cross rod 504 is rotatably connected with the fixed part of the telescopic part 503; two second electric actuators 505 are arranged on the upper surface of the circular plate 502; the upper ends of the telescopic parts of the two second electric actuators 505 are fixedly connected with a connecting plate 506; the middle part of the connecting plate 506 is rotationally connected with the telescopic part of the telescopic part 503; the telescopic part of the telescopic member 503 is positioned below the hexagonal groove of the transmission rod 103, and the telescopic part of the telescopic member 503 is hexagonal prism-shaped; the outer surface of the telescopic part 503 is rotationally connected with a turntable 507; the turntable 507 is positioned between the circular plate 502 and the cross bar 504; a deflector rod 508 is welded on the outer edge of the lower surface of the turntable 507; the upper surface of the circular plate 502 is welded with two support rods 509; two struts 509 each have an elastic member 5010 attached thereto; the back sides of the two elastic pieces 5010 are fixedly connected with a connecting rope 5011 respectively; a support plate 5013 is welded at the front part of the inner surface and the rear part of the inner surface of the protection part 501 respectively; the lower parts of the two connecting ropes 5011 penetrate through the circular plate 502 and the support plate 5013 and are fixedly connected with a counterweight 5012; the weight 5012 is located below the circular plate 502.

The telescoping piece 503 is a telescoping rod.

The second electric actuator 505 is an electric push rod.

The counterweight 5012 is a counterweight sphere.

A treatment stage: when a large amount of blue algae occurs, the blue algae starts to be accumulated in a large amount under the action of tide, the algicide is only sprayed on the surface of the blue algae, the effect is reduced, when the blue algae treatment equipment is thrown into water, water enters the sleeve 401 from the water permeable tank at the lower part of the sleeve 401, at the moment, two second power assemblies 404 are started, the water entering the sleeve 401 is sucked in by the two second power assemblies 404 through the filter pipes 403, then the water is respectively led into one first branch pipe 407 through the second guide pipes 406, then the water is sprayed out through a plurality of through holes on the two first branch pipes 407, the sprayed water impacts the blue algae floating on the water surface to disperse the accumulated blue algae, meanwhile, the blue algae treatment equipment swings under the action of the tide, the range impacted by water columns sprayed out through the two first branch pipes 407 is wider, and the treatment of more blue algae is convenient to be matched with the algicide, when the tide action is not strong every day, the blue algae treatment equipment is floated by an additional auxiliary mode, at the moment, two second electric actuators 505 are started, the two second electric actuators 505 extend to drive a connecting plate 506 to drive a telescopic part of a telescopic part 503 to move upwards, when the telescopic part of the telescopic part 503 is embedded into a hexagonal groove at the lower part of a transmission rod 103, the two second electric actuators 505 are closed, then the transmission rod 103 rotates to drive the telescopic part 503 to drive a rotary disc 507 to rotate, the rotary disc 507 drives a poking rod 508 to rotate, the poking rod 508 pokes one connecting rope 5011, the connecting rope 5011 pulls a counterweight 5012 to deviate to one side, then the rotary disc 507 drives the poking rod 508 to rotate, when the other connecting rope 5011 is poked, the other connecting rope 5011 pulls the counterweight 5012 to deviate to the other side, at the moment, along with the rotation of the rotary disc 507, the deflector rod 508 continuously alternately stirs two connecting ropes 5011, and the counterweight 5012 continuously shifts in a reciprocating manner, so that the center of gravity of the blue algae treatment equipment is shifted, and the blue algae treatment equipment can shake and swing along with the shift of the center of gravity of the blue algae treatment equipment and can continue to work when the tide action is not obvious.

As shown in fig. 1 and 9, the device further comprises an anti-blocking unit; the front part and the rear part of the medicament box 1 are both connected with anti-blocking units; the anti-blocking unit comprises a bin door 601, a handle 602 and a filter frame 603; two through grooves on the upper surface of the medicament box 1 are respectively connected with a bin gate 601 in a sliding way; two bin doors 601 are respectively provided with a handle 602; the opposite back sides of the two bin doors 601 are respectively connected with a filter frame 603 in a sliding way, and the right parts of the two filter frames 603 are respectively provided with a through groove for pulling the filter frames 603 rightwards; the water passing grooves at the front and rear of the chemical tank 1 are located between the two filter frames 603.

And (3) a filtering stage: when this blue alga treatment facility pours water into chemical tank 1 through the mode of swaying, there is floated blue alga on the surface of water this moment, in order to avoid the blue alga in the surface of water to enter into chemical tank 1, insert two filter frames 603 respectively in a door 601, operating personnel drops into chemical tank 1 back with algicide and water antidote, operating personnel passes through two handles 602, with two door 601 toward the direction motion that is close to each other, make two door 601 respectively with the dog-house shutoff on a chemical tank 1 upper portion, avoid the water to get into from chemical tank 1 upper portion, water can only get into chemical tank 1 from the trough of permeating water on chemical tank 1 again after filter frame 603 this moment, the blue alga in the water is blocked by filter frame 603, only need regularly take filter frame 603 out, clean up the surface, can continue to use.

As shown in fig. 1 and 10, a stirring unit is further included; the front and rear parts of the two first branch pipes 407 are connected with stirring units; the stirring unit comprises a second branch pipe 701, a second cross-shaped paddle 702 and a water guide pipe 703; two first branch pipes 407 are rotatably connected with a second branch pipe 701 at the front and the rear respectively, and the first branch pipes 407 are communicated with the second branch pipes 701; a second cross paddle 702 is welded on the outer surface of each second branch pipe 701; a plurality of water guide pipes 703 are welded on the outer surface of each second branch pipe 701; each water guide pipe 703 is communicated with the second branch pipe 701, and the axis of the water guide pipe 703 is deviated from the straight line where the diameter of the second branch pipe 701 is located.

The water conduit 703 on the left second branch pipe 701 and the water conduit 703 on the right second branch pipe 701 are symmetrically arranged, so that the force generated by the movement of the left second cross-shaped paddle 702 in the water body and the force generated by the movement of the right second cross-shaped paddle 702 in the water body are mutually offset.

An aeration auxiliary stage: when water is sprayed out of the two first branch pipes 407, the water on the two first branch pipes 407 flows into the four second branch pipes 701, the water entering the second branch pipes 701 is discharged through the plurality of water guide pipes 703, at this time, as the axis of the water guide pipe 703 deviates from the straight line where the diameter of the second branch pipe 701 is located, by means of the reaction force of the water discharged from the water guide pipe 703, the second branch pipe 701 starts to rotate, the second branch pipe 701 drives the second cross-shaped paddle 702 to rotate, the second cross-shaped paddle 702 stirs in the water body to lift the water in the air, the contact surface between the water and the air is increased, and the dissolving amount of oxygen in the water is increased.

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 modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (10)

1. A blue algae treatment device utilizing water area tide comprises a chemical box (1) and a floating piece (2); the lower part of the outer surface of the chemical box (1) is connected with a floating piece (2) in four directions; the floating piece (2) is used for floating the chemical tank (1) in a tidal water area; the method is characterized in that: the device also comprises a first conduit (3), a spray head (4), a micro pump (5), a suction filtration head (6), a partition plate (7), an algae removal system and a treatment system; the left part and the right part of the medicament box (1) are respectively fixedly connected with a first conduit (3); the upper parts of the two first guide pipes (3) are respectively communicated with a spray head (4); the two nozzles (4) are respectively provided with a micro pump (5); the lower parts of the two first conduits (3) are respectively connected with a suction filtration head (6) for filtering the medicament; two clapboards (7) are fixedly connected to the inner surface of the chemical box (1), and through grooves are formed in the lower parts of the two clapboards (7) and used for communicating the space in the chemical box (1); the two clapboards (7) divide the interior of the medicament box (1) into three parts; the chemical box (1) is connected with an algae removal system for spraying chemicals to a water area; the lower surface of the chemical box (1) is connected with a treatment system for increasing oxygen in a water area; under the cooperation of the algae removal system and the spray head (4), the agent is sprayed to the surface of the water area, and simultaneously, the algae removal system is matched with the treatment system to pump water out of the water surface and increase the oxygen content of the water.

2. The cyanobacteria treatment equipment by using the tide of the water area as claimed in claim 1, which is characterized in that: the middle part of the front side and the middle part of the rear side of the chemical box (1) are respectively provided with a plurality of water permeable grooves in an array mode, and the front part of the upper surface and the rear part of the upper surface of the chemical box (1) are respectively provided with a through groove for putting in chemicals.

3. The cyanobacteria treatment equipment by using the tide of the water area as claimed in claim 1, which is characterized in that: the algae removal system comprises a power unit, a waterproof heat dissipation unit and a material distribution unit; the chemical box (1) is connected with a power unit; the power unit is connected with a waterproof heat dissipation unit; the inner top of the chemical box (1) is connected with a material distribution unit for spraying chemicals to a water area; the opposite sides of the two clapboards (7) are connected with the material distributing unit.

4. The cyanobacteria treatment equipment by using the tide of the water area as claimed in claim 3, which is characterized in that: the waterproof heat dissipation unit comprises a waterproof cover (201), a fixing buckle (202), a heat dissipation pipe (203) and a U-shaped pipe (204); the power unit is connected with a waterproof cover (201); four fixing buckles (202) are fixedly connected to the left side and the right side of the waterproof cover (201) respectively; two fixing buckles (202) are fixedly connected to the upper surface of the waterproof cover (201); the three fixing buckles (202) at the front and the three fixing buckles (202) at the rear are respectively and commonly provided with a radiating pipe (203), the two radiating pipes (203) are in an inverted U shape, and the left lower part and the right lower part of the two radiating pipes (203) are respectively provided with a plurality of ventilation grooves for allowing air to enter; two U-shaped pipes (204) are arranged between the two radiating pipes (203), and the middle parts of the opposite sides of the two U-shaped pipes (204) are respectively provided with a plurality of through grooves which are provided with inclined upward openings and used for discharging hot air in the waterproof cover (201) into the two radiating pipes (203); the front and rear portions of the two U-shaped pipes (204) are communicated with one radiating pipe (203) respectively.

5. The cyanobacteria treatment equipment by using the tide of the water area as claimed in claim 1, which is characterized in that: the treatment system comprises an aeration unit and a shaking unit; the lower part of the aeration unit is connected with a shaking unit; the aeration unit comprises a sleeve (401), a sealing plate (402), a filter pipe (403), a second power assembly (404), a bracket (405), a second conduit (406) and a first branch pipe (407); a sleeve (401) is fixedly connected to the lower surface of the medicament box (1), a plurality of water permeable grooves are annularly arrayed on the lower portion of the outer surface of the sleeve (401) and used for allowing water in water to enter the sleeve (401) and lowering the center of gravity of the sleeve (401); the lower part of the sleeve (401) is connected with a shaking unit; a sealing plate (402) is fixedly connected to the lower part of the inner surface of the sleeve (401); the middle part of the sealing plate (402) is connected with the power unit; two filter tubes (403) are fixedly connected to the upper surface of the sealing plate (402); a second power assembly (404) is respectively arranged on the two filter pipes (403); two brackets (405) are fixedly connected to the upper part of the outer surface of the sleeve (401); a second conduit (406) is fixedly connected to the opposite sides of the two brackets (405); the lower parts of the two second guide pipes (406) are respectively connected with a second power assembly (404); a first branch pipe (407) is fixedly connected to the upper parts of the two second guide pipes (406).

6. The cyanobacteria treatment equipment by using the tide of the water area as claimed in claim 5, which is characterized in that: the two first branch pipes (407) are respectively provided with a plurality of through holes for spraying out the moisture in the first branch pipes (407) into a plurality of strands and increasing the oxygen content in the water.

7. The cyanobacteria treatment equipment by using the tide of the water area as claimed in claim 5, which is characterized in that: the shaking unit comprises a protection piece (501), a circular plate (502), a telescopic piece (503), a cross bar (504), a second electric actuator (505), a connecting plate (506), a rotary disc (507), a deflector rod (508), a support rod (509), an elastic piece (5010), a connecting rope (5011), a counterweight piece (5012) and a support plate (5013); a protection piece (501) is fixedly connected to the lower end of the sleeve (401), and the protection piece (501) is hemispherical and used for reducing the resistance of the protection piece (501) in water; a circular plate (502) is fixedly connected to the lower part of the inner surface of the sleeve (401); the middle part of the circular plate (502) is rotationally connected with a telescopic piece (503); a cross rod (504) is fixedly connected to the inner surface of the sleeve (401); the cross bar (504) is positioned above the circular plate (502); the middle part of the cross rod (504) is rotationally connected with the fixed part of the telescopic piece (503); two second electric actuators (505) are arranged on the upper surface of the circular plate (502); the upper ends of the telescopic parts of the two second electric actuators (505) are fixedly connected with a connecting plate (506); the middle part of the connecting plate (506) is rotationally connected with the telescopic part of the telescopic piece (503); the telescopic part of the telescopic piece (503) is positioned below the hexagonal groove of the transmission rod (103), and the telescopic part of the telescopic piece (503) is hexagonal prism-shaped; the outer surface of the telescopic piece (503) is rotationally connected with a turntable (507); the rotary disc (507) is positioned between the circular plate (502) and the cross bar (504); a deflector rod (508) is fixedly connected to the outer edge of the lower surface of the turntable (507); two supporting rods (509) are fixedly connected to the upper surface of the circular plate (502); the two supporting rods (509) are respectively connected with an elastic piece (5010); the back sides of the two elastic pieces (5010) are fixedly connected with a connecting rope (5011) respectively; a support plate (5013) is fixedly connected to the front part and the rear part of the inner surface of the protection part (501); the lower parts of the two connecting ropes (5011) penetrate through the circular plate (502) and the support plate (5013) and are fixedly connected with a counterweight (5012) together; the weight member (5012) is located below the circular plate (502).

8. The cyanobacteria treatment equipment by using the tide of the water area as claimed in claim 7, wherein: also comprises an anti-blocking unit; the front part and the rear part of the medicament box (1) are connected with anti-blocking units; the anti-blocking unit comprises a bin door (601), a handle (602) and a filter frame (603); two through grooves on the upper surface of the chemical box (1) are respectively connected with a bin gate (601) in a sliding way; two bin doors (601) are respectively provided with a handle (602); the opposite back sides of the two bin doors (601) are respectively connected with a filter frame (603) in a sliding way, and the right parts of the two filter frames (603) are respectively provided with a through groove for pulling the filter frames (603) rightwards; the water passing grooves at the front part and the rear part of the medicament box (1) are positioned between the two filter frames (603).

9. The cyanobacteria treatment equipment by using the tide of the water area as claimed in claim 8, which is characterized in that: the device also comprises a stirring unit; the front part and the rear part of the two first branch pipes (407) are connected with stirring units; the stirring unit comprises a second branch pipe (701), a second cross-shaped paddle (702) and a water guide pipe (703); a second branch pipe (701) is rotatably connected to the front part and the rear part of each of the two first branch pipes (407), and the first branch pipes (407) are communicated with the second branch pipes (701); the outer surface of each second branch pipe (701) is fixedly connected with a second cross paddle (702); a plurality of water guide pipes (703) are fixedly connected to the outer surface of each second branch pipe (701); each water guide pipe (703) is communicated with the second branch pipe (701), and the axis of each water guide pipe (703) deviates from the straight line of the diameter of the second branch pipe (701).

10. The cyanobacteria treatment equipment by using the tide of the water area as claimed in claim 9, wherein: the water guide pipe (703) on the left second branch pipe (701) and the water guide pipe (703) on the right second branch pipe (701) are symmetrically arranged, and the force generated by the movement of the left second cross-shaped paddle (702) in the water body and the force generated by the movement of the right second cross-shaped paddle (702) in the water body are mutually offset.

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