CN109956600A - A kind of cyanobacteria coupling processing device - Google Patents

Abstract

The present invention relates to the old fields of water process, it in particular is a kind of cyanobacteria coupling processing device, go out stream retaining device, ultrasonic wave cyanobacteria grinder, driving cyanobacteria including cyanobacteria process cartridge, suspension pneumatic tyre, influent stream control valve, solar panels, two and squeezes ejector and charging accumulator, the inner wall of the suspension pneumatic tyre is fixedly connected on the outer wall of cyanobacteria process cartridge, and influent stream control valve is by being threadedly engaged the left side for being connected to cyanobacteria process cartridge upper end；Beneficial effects of the present invention are that can launch in the pond with cyanobacteria, pass through solar energy stored energy, and then it is not necessarily to waste of manpower and concern, automatically cyanobacteria and water are separated, inactivated by ultrasonic wave of the ultrasonic wave to cyanobacteria recursive nature, automatically water and cyanobacteria are absorbed simultaneously, inactivation is discharged, it realizes inactivating to cyanobacteria for automatic frequent, pollution of the cyanobacteria to pond is effectively reduced, while energy saving, construction cost is low, and cost performance is high.

Description

A kind of cyanobacteria coupling processing device

Technical field

The present invention relates to the old fields of water process, are in particular a kind of cyanobacteria coupling processing devices.

Background technique

Patent No. CN201610858924.4, which discloses a kind of pressurization of static mixing type deep-well, to be strengthened except cyanobacteria water process Equipment, including agent set further include dosing mixed organization and high pressure washing mechanism；Wherein: in the dosing mixed organization Drug tube head end pass through agent set the closed top of interior well and stretch to the top in interior well close to the position of water inlet pipe It sets, static mixer is installed in the interior well below the head end of drug tube.Adding of agent, high efficiency static are mixed and deep-well is pressurized Etc. multiple functions organically combine, realize well the different agents in water factory's different quality it is single or combination throw Add, the combination of high efficiency static mixing and deep-well supercharging technology, not mechanical function superposition, the invention device is great Water factory's cyanobacteria water treatment efficiency is improved, operational administrative complexity is reduced, reduces occupied area and construction investment.But this sets Standby to take up a large area, construction cost is high, low to the cost performance of the water treatment efficiency of cyanobacteria.

Summary of the invention

The object of the present invention is to provide a kind of cyanobacteria coupling processing device, its advantages are that can launch to have cyanobacteria Pond in, by solar energy stored energy, and then be not necessarily to waste of manpower and concern, automatically cyanobacteria and water separated, passed through Ultrasonic wave inactivates the ultrasonic wave of cyanobacteria recursive nature, while automatically absorbing water and cyanobacteria, inactivation discharge, realizes automatic frequency Numerous inactivates cyanobacteria, pollution of the cyanobacteria to pond is effectively reduced, while energy saving, and construction cost is low, and cost performance is high.

The purpose of the present invention is achieved through the following technical solutions:

The object of the present invention is to provide a kind of cyanobacteria coupling processing devices, including cyanobacteria process cartridge, suspension pneumatic tyre, influent stream control Valve processed, solar panels, two go out stream retaining device, ultrasonic wave cyanobacteria grinder, driving cyanobacteria and squeeze ejector and charging electric power storages Pond, the inner wall of the suspension pneumatic tyre are fixedly connected on the outer wall of cyanobacteria process cartridge, and influent stream control valve is by being threadedly engaged connection In the left side of cyanobacteria process cartridge upper end, solar panels are fixedly connected on the upper end of cyanobacteria process cartridge, and solar panels are connected by electric wire Charging accumulator is connect, charging accumulator connects ultrasonic wave cyanobacteria grinder by electric wire and driving cyanobacteria squeezes ejector, charging Battery is fixedly connected on the upper end of cyanobacteria process cartridge, and driving cyanobacteria squeezes ejector and is fixedly connected in cyanobacteria process cartridge, and two A retaining device of stream out is respectively fixedly connected under the left and right ends of driving cyanobacteria extruding ejector, ultrasonic wave cyanobacteria grinder End is fixedly connected on driving cyanobacteria and squeezes in ejector, and the upper end of ultrasonic wave cyanobacteria grinder is fixedly connected on cyanobacteria process cartridge Upper end.

As further optimization of the invention, the cyanobacteria process cartridge includes cylinder, pneumatic tyre fixing groove, two upper branch Plate, valve plate sliding slot, two threaded holes, upper end cover, water bar, two sliding grooves, cyanobacteria outlet pipe fixation hole and water outlet pipe are fixed Hole, pneumatic tyre fixing groove are arranged in the outer wall of cylinder, and the fixed plate of suspension pneumatic tyre inner wall is connected to pneumatic tyre and fixes by being threadedly engaged In slot, two upper supporting plates are respectively fixedly connected in the rear and front end of cylinder body outer wall, and the upside of cylinder left end is arranged in valve plate sliding slot, Two threaded holes are arranged at the left side of cylinder upper end, and two threaded holes are separately positioned on the front and rear sides of valve plate sliding slot, upper end Lid is fixedly connected on the upside of cylinder inboard wall, and water bar is fixedly connected on upper end cover upper end, and two sliding grooves are separately positioned on The left and right ends of water bar inner wall, charging accumulator are fixedly connected on upper end cover, are arranged in water bar, cyanobacteria outlet pipe Fixation hole and water outlet pipe fixation hole are separately positioned on the left and right sides of the lower end of cylinder.

As further optimization of the invention, it includes motor fixing seat, low volt that the driving cyanobacteria, which squeezes ejector, Servo motor is drivingly connected plate, drive rod, drives sliding panel, driver slot, cyanobacteria extrusion bar, cyanobacteria stripper plate, cyanobacteria extruding close Seal, branch's connecting plate, liquid pressure ram, liquid stripper plate, liquid squeeze sealing ring, cyanobacteria extrusion cylinder, branch bar sliding mouth, Cyanobacteria enters slot, cyanobacteria discharge pipe, liquid discharge tube and two ultrasound wave vibrating bar fixation holes, motor fixing seat and is fixedly connected on On upper end cover, low volt servo motor is fixedly connected in motor fixing seat, and the one end for being drivingly connected plate is fixedly connected with low volt servo The output shaft of motor, the other end for being drivingly connected plate are fixedly connected with drive rod, and drive rod is slidably connected in driver slot, driver slot Front and back on driving sliding panel, drives the both ends of sliding panel to be slidably connected in two sliding grooves through setting, drives sliding panel The center of lower end is fixedly connected with cyanobacteria and squeezes out bar, and the lower end that cyanobacteria squeezes out bar is fixedly connected on the center of cyanobacteria stripper plate, cyanobacteria It squeezing sealing ring and is socketed in cyanobacteria stripper plate outer wall, one end of branch's connecting plate is fixedly connected on the right end that cyanobacteria squeezes out bar, point The other end of branch connecting plate is fixedly connected with liquid pressure ram, and the lower end of liquid pressure ram is fixedly connected with liquid stripper plate, and liquid squeezes Pressure seal ring is socketed in the outer wall of liquid stripper plate, and cyanobacteria stripper plate and cyanobacteria squeeze sealing ring clearance fit in cyanobacteria extrusion cylinder Interior, the right end of cyanobacteria extrusion cylinder is arranged in branch bar sliding mouth, and branch's connecting plate is slidably connected in branch bar sliding mouth, cyanobacteria Drum outer wall is squeezed in cyanobacteria into slot setting, cyanobacteria enters slot connection cyanobacteria extrusion cylinder inner wall, and the lower end of cyanobacteria extrusion cylinder is fixed It is connected to and in communication with cyanobacteria discharge pipe, the left end of cyanobacteria discharge pipe is fixedly connected in cyanobacteria outlet pipe fixation hole, liquid discharge tube Right end is fixedly connected in water outlet pipe fixation hole, and liquid stripper plate and liquid squeeze sealing ring clearance fit in liquid discharge tube Interior, two ultrasound wave vibrating bar fixation holes are uniformly arranged on the lower end of cyanobacteria extrusion cylinder.

As further optimization of the invention, the ultrasonic wave cyanobacteria grinder includes supersonic generator, waterproof Conduit and two ultrasound wave vibrating bars, supersonic generator are fixedly connected on upper end cover, and supersonic generator passes through electric wire Charging accumulator is connected, supersonic generator connects two ultrasound wave vibrating bars by electric wire, and electric wire is arranged in water proof wire pipe Interior, water proof wire pipe is fixedly connected on cylinder, and two ultrasound wave vibrating bars are arranged at the lower end of cyanobacteria extrusion cylinder inner wall, and two A ultrasound wave vibrating bar is respectively fixedly connected in two ultrasound wave vibrating bar fixation holes.

As further optimization of the invention, the influent stream control valve includes slide valve, valve body connecting plate and two A adjusting bolt, slide valve are slidably connected in valve plate sliding slot, and the upper end of slide valve is fixedly connected with valve body connecting plate, and two It adjusts bolt to be connected on valve body connecting plate by being threadedly engaged, two adjusting bolts are connected to two screw threads by being threadedly engaged In hole.

As further optimization of the invention, described goes out there are two stream retaining device settings, flows retaining device packet out Fixed block, two connections convex block, bull stick and outlet dampers are included, two connection convex blocks are fixedly connected on fixed block, and bull stick is solid Surely it is connected between two connection convex blocks, the upper end of outlet damper is rotatably connected on bull stick；Two fixed blocks are fixed respectively to be connected Connect on cyanobacteria discharge pipe and liquid discharge tube, two outlet dampers respectively with the outlet of cyanobacteria discharge pipe and liquid discharge tube Outlet fits.

As further optimization of the invention, a kind of cyanobacteria coupling processing device further includes flow distribution plate, solid-liquid Separating plate and liquid drain frame, flow distribution plate, solid-liquid separation plate and liquid drain frame are fixedly connected with from top to bottom to be squeezed in cyanobacteria The outer wall of cylinder, flow distribution plate, solid-liquid separation plate and liquid drain frame are fixedly connected with the inner wall in cylinder.

As further optimization of the invention, multiple shunting flutings perforative up and down are provided on the flow distribution plate, The right end of flow distribution plate is provided with shunting opening.

As further optimization of the invention, the solid-liquid separation plate includes separating plate, multiple sorting holes and separation Opening, the inner and outer wall of separating plate is respectively fixedly connected on cyanobacteria extrusion cylinder and cylinder, and the upper surface of separating plate is by outside extremely It inside tilts down, multiple perforative sorting holes up and down is provided on separating plate, the right end of separating plate is provided with separation opening.

As optimization of the invention further, the liquid drain frame includes framework and through-hole, the inner wall of framework and Outer wall is respectively fixedly connected on cyanobacteria extrusion cylinder and cylinder, and through-hole runs through the right end that framework is arranged in, liquid discharge tube up and down It is fixedly connected on the lower end of framework, through-hole is connected to liquid discharge tube.

Using technical solution provided by the invention, compared with prior art, have the advantages that for cyanobacteria process cartridge, Suspension pneumatic tyre, influent stream control valve, solar panels, two stream retaining device, ultrasonic wave cyanobacteria grinder driving cyanobacteria squeeze row out It can launch in the pond with cyanobacteria, pass through except device, charging accumulator, flow distribution plate, solid-liquid separation plate and liquid drain frame Solar energy stored energy, and then it is not necessarily to waste of manpower and concern, automatically cyanobacteria and water are separated, by ultrasonic wave to cyclicity The ultrasonic wave of matter inactivates, while automatically absorbing water and cyanobacteria, inactivation discharge, realizes going out to cyanobacteria for automatic frequent It is living, pollution of the cyanobacteria to pond is effectively reduced, while energy saving, construction cost is low, and cost performance is high.

Detailed description of the invention

Fig. 1 is whole structural schematic diagram one of the invention；

Fig. 2 is whole structural schematic diagram two of the invention；

Fig. 3 is the structural schematic diagram one of cyanobacteria process cartridge of the invention；

Fig. 4 is the structural schematic diagram two of cyanobacteria process cartridge of the invention；

Fig. 5 is the structural schematic diagram of influent stream control valve of the invention；

Fig. 6 is the structural schematic diagram for going out stream retaining device of the invention；

Fig. 7 is the structural schematic diagram one of part of the invention；

Fig. 8 is the structural schematic diagram one that driving cyanobacteria of the invention squeezes ejector；

Fig. 9 is the structural schematic diagram two that driving cyanobacteria of the invention squeezes ejector；

Figure 10 is the structural schematic diagram three that driving cyanobacteria of the invention squeezes ejector；

Figure 11 is the structural schematic diagram of flow distribution plate of the invention；

Figure 12 is the structural schematic diagram of solid-liquid separation plate of the invention；

Figure 13 is the structural schematic diagram one of liquid drain frame of the invention；

Figure 14 is the structural schematic diagram two of liquid drain frame of the invention.

In figure: cyanobacteria process cartridge 1；Cylinder 1-1；Pneumatic tyre fixing groove 1-2；Two upper supporting plate 1-3；Valve plate sliding slot 1-4；Screw thread Hole 1-5；Upper end cover 1-6；Water bar 1-7；Sliding groove 1-8；Cyanobacteria outlet pipe fixation hole 1-9；Water outlet pipe fixation hole 1-10；It suspends Pneumatic tyre 2；Influent stream control valve 3；Slide valve 3-1；Valve body connecting plate 3-2；Adjust bolt 3-3；Solar panels 4；Stream baffle dress out Set 5；Fixed block 5-1；Connect convex block 5-2；Bull stick 5-3；Outlet damper 5-4；Ultrasonic wave cyanobacteria grinder 6；Supersonic generator 6-1；Water proof wire pipe 6-2；Ultrasound wave vibrating bar 6-3；Cyanobacteria is driven to squeeze ejector 7；Motor fixing seat 7-1；Low volt servo Motor 7-2；It is drivingly connected plate 7-3；Drive rod 7-4；Drive sliding panel 7-5；Driver slot 7-6；Cyanobacteria squeezes out bar 7-7；Cyanobacteria squeezes Pressing plate 7-8；Cyanobacteria squeezes sealing ring 7-9；Branch connecting plate 7-10；Liquid pressure ram 7-11；Liquid stripper plate 7-12；Liquid squeezes Pressure seal ring 7-13；Cyanobacteria extrusion cylinder 7-14；Branch bar slides mouth 7-15；Cyanobacteria enters slot 7-16；Cyanobacteria discharge pipe 7-17；Liquid Body discharge pipe 7-18；Ultrasound wave vibrating bar fixation hole 7-19；Charging accumulator 8；Flow distribution plate 9；Shunt fluting 9-1；Shunt opening 9-2；Solid-liquid separation plate 10；Separating plate 10-1；Sorting hole 10-2；Separation opening 10-3；Liquid drain frame 11；Framework 11-1；It is logical Hole 11-2.

Specific embodiment

The present invention is described in further detail below in conjunction with the accompanying drawings.

Being fixedly connected described in the present apparatus can refer to and be fixed by the modes such as weld, be screwed, described Rotation connection can be referred to by drying bearing on axis, and spring catch ring recess or between centers baffle are provided on axis or axis hole, is led to It crosses and circlip is stuck in spring catch ring recess or between centers baffle realizes the axial restraint of bearing, by the opposite sliding of bearing, Realize rotation；In conjunction with different use environments, different connection types is used.

Specific embodiment 1:

As shown in Fig. 1~Figure 14, a kind of cyanobacteria coupling processing device, including cyanobacteria process cartridge 1, suspension pneumatic tyre 2, influent stream control Valve 3 processed, solar panels 4, two go out stream retaining device 5, ultrasonic wave cyanobacteria grinder 6, driving cyanobacteria and squeeze ejector 7 and charging The inner wall of battery 8, the suspension pneumatic tyre 2 is fixedly connected on the outer wall of cyanobacteria process cartridge 1, and influent stream control valve 3 passes through screw thread It is cooperatively connected in the left side of 1 upper end of cyanobacteria process cartridge, solar panels 4 are fixedly connected on the upper end of cyanobacteria process cartridge 1, solar panels 4 connect charging accumulator 8 by electric wire, and charging accumulator 8 connects ultrasonic wave cyanobacteria grinder 6 by electric wire and driving cyanobacteria squeezes Ejector 7 is pressed, charging accumulator 8 is fixedly connected on the upper end of cyanobacteria process cartridge 1, and driving cyanobacteria squeezes ejector 7 and is fixedly connected In cyanobacteria process cartridge 1, two go out stream retaining device 5 and are respectively fixedly connected in the left and right ends of driving cyanobacteria extruding ejector 7, The lower end of ultrasonic wave cyanobacteria grinder 6 be fixedly connected on driving cyanobacteria squeeze ejector 7 in, ultrasonic wave cyanobacteria grinder 6 it is upper End is fixedly connected on the upper end of cyanobacteria process cartridge 1.Device is put into the pond with cyanobacteria floating, device passes through suspension pneumatic tyre 2 swim in pond, and the water flow and cyanobacteria entered in cyanobacteria process cartridge 1 by 3 Duis of influent stream control valve controls, and pass through solar energy Plate 4 charges to charging accumulator 8, and then driving cyanobacteria is driven to squeeze ejector 7 and ultrasonic wave cyanobacteria grinder 6 to cyanobacteria Cyanobacteria in process cartridge 1 carries out the ultrasonic wave inactivation of recursive nature.The material of cyanobacteria process cartridge 1 can be acrylic, convenient for subtracting The with light packs weight set.When the charge volume of solar panels 4 is unable to satisfy the use of charging accumulator 8, charging electric power storage can be replaced manually Pond 8 and the charging received, to meet the prolonged work of device.

Specific embodiment 2:

As shown in Fig. 1~Figure 14, present embodiment is described further embodiment one, the cyanobacteria process cartridge 1 Including cylinder 1-1, pneumatic tyre fixing groove 1-2, two upper supporting plate 1-3, valve plate sliding slot 1-4, two threaded hole 1-5, upper end cover 1-6, Water bar 1-7, two sliding groove 1-8, cyanobacteria outlet pipe fixation hole 1-9 and water outlet pipe fixation hole 1-10, pneumatic tyre fixing groove 1-2 are set The outer wall in cylinder 1-1 is set, the fixed plate of 2 inner wall of suspension pneumatic tyre is connected in pneumatic tyre fixing groove 1-2 by being threadedly engaged, and two Upper supporting plate 1-3 is respectively fixedly connected in the rear and front end of cylinder 1-1 outer wall, and the upper of the left end cylinder 1-1 is arranged in valve plate sliding slot 1-4 Side, two threaded hole 1-5 are arranged at the left side of the upper end cylinder 1-1, and two threaded hole 1-5 are separately positioned on valve plate sliding slot 1-4 Front and rear sides, upper end cover 1-6 is fixedly connected on the upside of cylinder 1-1 inner wall, and water bar 1-7 is fixedly connected on upper end cover 1- 6 upper ends, two sliding groove 1-8 are separately positioned on the left and right ends of water bar 1-7 inner wall, and charging accumulator 8 is fixedly connected on On upper end cover 1-6, it is arranged in water bar 1-7, cyanobacteria outlet pipe fixation hole 1-9 and water outlet pipe fixation hole 1-10 are separately positioned on The left and right sides of the lower end of cylinder 1-1.It is provided with fixed plate on suspension pneumatic tyre 2, convenient for the fixation of suspension pneumatic tyre 2, and then makes to fill Setting can be floated in pond.

Specific embodiment 3:

As shown in Fig. 1~Figure 14, present embodiment is described further embodiment two, and the driving cyanobacteria squeezes Ejector 7 includes motor fixing seat 7-1, low volt servo motor 7-2, is drivingly connected plate 7-3, drive rod 7-4, driving sliding panel 7- 5, driver slot 7-6, cyanobacteria squeeze out bar 7-7, cyanobacteria stripper plate 7-8, cyanobacteria and squeeze sealing ring 7-9, branch connecting plate 7-10, liquid Pressure ram 7-11, liquid stripper plate 7-12, liquid squeeze sealing ring 7-13, cyanobacteria extrusion cylinder 7-14, branch bar sliding mouth 7-15, Cyanobacteria enters slot 7-16, cyanobacteria discharge pipe 7-17, liquid discharge tube 7-18 and two ultrasound wave vibrating bar fixation hole 7-19, motor Fixing seat 7-1 is fixedly connected on upper end cover 1-6, and low volt servo motor 7-2 is fixedly connected on motor fixing seat 7-1, driving One end of connecting plate 7-3 is fixedly connected with the output shaft of low volt servo motor 7-2, and the other end for being drivingly connected plate 7-3 is fixedly connected Drive rod 7-4, drive rod 7-4 are slidably connected in driver slot 7-6, through setting in driving sliding panel 7-5 before and after driver slot 7-6 On, the both ends of driving sliding panel 7-5 are slidably connected in two sliding groove 1-8, and the center of the driving lower end sliding panel 7-5 is fixed to be connected It connects cyanobacteria and squeezes out bar 7-7, the lower end that cyanobacteria squeezes out bar 7-7 is fixedly connected on the center of cyanobacteria stripper plate 7-8, and cyanobacteria squeezes sealing Circle 7-9 is socketed in cyanobacteria stripper plate 7-8 outer wall, and one end of branch connecting plate 7-10 is fixedly connected on the right side that cyanobacteria squeezes out bar 7-7 End, the other end of branch connecting plate 7-10 are fixedly connected with liquid pressure ram 7-11, and the lower end of liquid pressure ram 7-11 is fixedly connected Liquid stripper plate 7-12, liquid squeeze the outer wall that sealing ring 7-13 is socketed in liquid stripper plate 7-12, cyanobacteria stripper plate 7-8 and indigo plant Algae squeezes sealing ring 7-9 clearance fit in cyanobacteria extrusion cylinder 7-14, and branch bar is slided mouth 7-15 and is arranged in cyanobacteria extrusion cylinder 7- 14 right end, branch connecting plate 7-10 are slidably connected in branch bar sliding mouth 7-15, and cyanobacteria enters slot 7-16 and is arranged in cyanobacteria Extrusion cylinder 7-14 outer wall, cyanobacteria enter slot 7-16 connection cyanobacteria extrusion cylinder 7-14 inner wall, and the lower end of cyanobacteria extrusion cylinder 7-14 is fixed It is connected to and in communication with cyanobacteria discharge pipe 7-17, the left end of cyanobacteria discharge pipe 7-17 is fixedly connected in cyanobacteria outlet pipe fixation hole 1-9, liquid The right end of body discharge pipe 7-18 is fixedly connected in water outlet pipe fixation hole 1-10, and liquid stripper plate 7-12 and liquid squeeze sealing ring For 7-13 clearance fit in liquid discharge tube 7-18, two ultrasound wave vibrating bar fixation hole 7-19 are uniformly arranged on cyanobacteria extrusion cylinder The lower end of 7-14.Low volt servo motor 7-2 is carried out by charging accumulator 8 to connect electricity, low volt servo motor 7-2 drives driving to connect Fishplate bar 7-3 rotation, and then drive drive rod 7-4 to slide in driver slot 7-6, and then make to drive the up and down reciprocatingly position sliding panel 7-5 Move, so drive cyanobacteria to squeeze out bar 7-7, cyanobacteria stripper plate 7-8 and cyanobacteria squeeze sealing ring 7-9 in cyanobacteria extrusion cylinder 7-14 on Lower shift reciprocately, while driving liquid pressure ram 7-11, liquid stripper plate 7-12 and liquid to squeeze by branch's connecting plate 7-10 Sealing ring 7-13 is up and down reciprocatingly displaced in liquid discharge tube 7-18, and then realizes that will need to carry out super refreshing wave respectively inactivates Cyanobacteria and the discharge of isolated liquid, realize the ultrasonic wave inactivation of reciprocation cycle.

Specific embodiment 4:

As shown in Fig. 1~Figure 14, present embodiment is described further embodiment three, the ultrasonic wave blue algae powder Millstone 6 includes supersonic generator 6-1, water proof wire pipe 6-2 and two ultrasound wave vibrating bar 6-3, supersonic generator 6-1 solid Surely it is connected on upper end cover 1-6, supersonic generator 6-1 connects charging accumulator 8 by electric wire, and supersonic generator 6-1 is logical It crosses electric wire and connects two ultrasound wave vibrating bar 6-3, electric wire is arranged in water proof wire pipe 6-2, and water proof wire pipe 6-2 is fixedly connected On cylinder 1-1, two ultrasound wave vibrating bar 6-3 are arranged at the lower end of cyanobacteria extrusion cylinder 7-14 inner wall, two ultrasonic wave vibrations Dynamic stick 6-3 is respectively fixedly connected in two ultrasound wave vibrating bar fixation hole 7-19.Ultrasonic wave is occurred by charging accumulator 8 Device 6-1 carries out connecing electricity, and then makes two ultrasound wave vibrating bar 6-3 respectively in two ultrasound wave vibrating bar fixation hole 7-19 to indigo plant The cyanobacteria isolated in algae extrusion cylinder 7-14 carries out ultrasonic wave inactivation, and then reduces the pollution of cyanobacteria.

Specific embodiment 5:

As shown in Fig. 1~Figure 14, present embodiment is described further embodiment four, the influent stream control valve 3 Valve plate sliding slot is slidably connected at including slide valve 3-1, valve body connecting plate 3-2 and two adjustings bolt 3-3, slide valve 3-1 In 1-4, the upper end of slide valve 3-1 is fixedly connected with valve body connecting plate 3-2, and two adjusting bolt 3-3 are by being threadedly engaged connection On valve body connecting plate 3-2, two adjusting bolt 3-3 are connected in two threaded hole 1-5 by being threadedly engaged.By adjusting two It is a to adjust bolt 3-3 and then adjust position of the slide valve 3-1 in valve plate sliding slot 1-4, and then realize to entering in cylinder 1-1 Blue algae water control.

Specific embodiment 6:

As shown in Fig. 1~Figure 14, present embodiment is described further embodiment five, and described goes out stream retaining device There are two 5 settings, flows retaining device 5 out and includes fixed block 5-1, two connection convex block 5-2, bull stick 5-3 and outlet damper 5-4, Two connection convex block 5-2 are fixedly connected on fixed block 5-1, and bull stick 5-3 is fixedly connected between two connection convex block 5-2, The upper end of outlet damper 5-4 is rotatably connected on bull stick 5-3；Two fixed block 5-1 are respectively fixedly connected in cyanobacteria discharge pipe 7- On 17 and liquid discharge tube 7-18, two outlet damper 5-4 respectively with the outlet of cyanobacteria discharge pipe 7-17 and liquid discharge tube 7- 18 outlet fits.When thering is cyanobacteria or liquid to be squeezed outlet and liquid discharge tube 7-18 by algae discharge pipe 7-17 Outlet discharge, outlet damper 5-4 is jacked up, and the cyanobacteria by ultrasonic wave inactivation or the liquid isolated are discharged into pond, when Extruding force becomes smaller, and outlet damper 5-4 is continued the outlet of algae discharge pipe 7-17 and liquid discharge tube 7-18 by gravity factor Mouthful stopped, prevents aqueous reflux in pond into device.

Specific embodiment 7:

As shown in Fig. 1~Figure 14, present embodiment is described further embodiment six, a kind of cyanobacteria coupling Processing unit further includes flow distribution plate 9, solid-liquid separation plate 10 and liquid drain frame 11, and flow distribution plate 9, solid-liquid separation plate 10 and liquid draw Stream frame 11 is fixedly connected with the outer wall in cyanobacteria extrusion cylinder 7-14, flow distribution plate 9, solid-liquid separation plate 10 and liquid drain from top to bottom Frame 11 is fixedly connected with the inner wall in cylinder 1-1.

Specific embodiment 8:

As shown in Fig. 1~Figure 14, present embodiment is described further embodiment seven, sets on the flow distribution plate 9 Multiple shunting fluting 9-1 perforative up and down are equipped with, the right end of flow distribution plate 9 is provided with shunting opening 9-2.Fluting 9-1 is shunted to avoid Cyanobacteria liquid buildup flows into cyanobacteria liquid uniformly in solid-liquid separation plate 10 and is separated by solid-liquid separation；Shunt opening 9-2 just Extruding discharge is carried out to the liquid isolated in device.

Specific embodiment 9:

As shown in Fig. 1~Figure 14, present embodiment is described further embodiment eight, the solid-liquid separation plate 10 Including separating plate 10-1, multiple sorting hole 10-2 and separation opening 10-3, the inner and outer wall of separating plate 10-1 is fixed respectively to be connected It connects on cyanobacteria extrusion cylinder 7-14 and cylinder 1-1, the upper surface of separating plate 10-1 tilts down from outside to inside, on separating plate 10-1 Multiple perforative sorting hole 10-2 up and down are provided with, the right end of separating plate 10-1 is provided with separation opening 10-3.Cyanobacteria also by Fluting 9-1 is shunted uniformly to flow on separating plate 10-1, liquid is drained in frame 11 by multiple sorting hole 10-2 influents, and by Isolated cyanobacteria solid-state is then entered slot 7-16 by cyanobacteria by gravity and flows into cyanobacteria extrusion cylinder 7-14, is squeezed by cyanobacteria Pressing plate 7-8 and cyanobacteria squeeze the extruding of sealing ring 7-9 and the ultrasonic wave inactivation of two ultrasound wave vibrating bar 6-3.

Specific embodiment 10:

As shown in Fig. 1~Figure 14, present embodiment is described further embodiment nine, the liquid drain frame 11 Including framework 11-1 and through-hole 11-2, the inner and outer wall of framework 11-1 is respectively fixedly connected in cyanobacteria extrusion cylinder 7-14 and cylinder On 1-1, through-hole 11-2 or more runs through the right end that framework 11-1 is arranged in, and liquid discharge tube 7-18 is fixedly connected on framework 11-1's Lower end, through-hole 11-2 are connected to liquid discharge tube 7-18.Through-hole is flowed by framework 11-1 by the liquid of multiple sorting hole 10-2 11-2 and liquid discharge tube 7-18, the liquid stripper plate 7-12 and liquid being up and down reciprocatingly displaced squeeze squeezing for sealing ring 7-13 Pressure discharges into pond by going out stream retaining device 5.

The operation principle of the present invention is that: device is put into the pond with cyanobacteria floating, device is floated by suspension pneumatic tyre 2 It floats in pond, by adjusting position of the bolt 3-3 adjusting slide valve 3-1 in valve plate sliding slot 1-4 by adjusting two, And then realize to the control of the blue algae water entered in cylinder 1-1, it is charged, is passed through to charging accumulator 8 by solar panels 4 Charging accumulator 8 carries out low volt servo motor 7-2 to connect electricity, and low volt servo motor 7-2, which drives, is drivingly connected plate 7-3 rotation, into And drive rod 7-4 is driven to slide in driver slot 7-6, and then make that sliding panel 7-5 is driven up and down reciprocatingly to be displaced, and then drive cyanobacteria It squeezes out bar 7-7, cyanobacteria stripper plate 7-8 and cyanobacteria extruding sealing ring 7-9 is up and down reciprocatingly displaced in cyanobacteria extrusion cylinder 7-14, simultaneously Liquid pressure ram 7-11, liquid stripper plate 7-12 and liquid is driven to squeeze sealing ring 7-13 in liquid by branch connecting plate 7-10 It is up and down reciprocatingly displaced in discharge pipe 7-18, supersonic generator 6-1 is carried out by charging accumulator 8 to connect electricity, and then make Two ultrasound wave vibrating bar 6-3 in cyanobacteria extrusion cylinder 7-14 respectively in two ultrasound wave vibrating bar fixation hole 7-19 to isolating Cyanobacteria carry out ultrasonic wave inactivation, and then reduce cyanobacteria pollution；Cyanobacteria liquid is flowed on flow distribution plate 9 by valve plate sliding slot 1-4, Cyanobacteria liquid buildup is avoided by shunting fluting 9-1, flows into cyanobacteria liquid uniformly on separating plate 10-1, liquid passes through more A sorting hole 10-2 is flowed into framework 11-1, and is then entered slot 7- by cyanobacteria by gravity by isolated cyanobacteria solid-state 16 flow into cyanobacteria extrusion cylinder 7-14, by the cyanobacteria stripper plate 7-8 moved back and forth and cyanobacteria squeeze the extruding of sealing ring 7-9 with And the ultrasonic wave inactivation of two ultrasound wave vibrating bar 6-3, cyanobacteria stripper plate 7-8 and cyanobacteria squeeze sealing ring 7-9 will accumulate by The cyanobacteria of the ultrasonic wave inactivation of two ultrasound wave vibrating bar 6-3 squeezes into cyanobacteria discharge pipe 7-17, by by outlet damper 5-4 It jacks up, will be discharged into pond by the cyanobacteria of ultrasonic wave inactivation；Framework 11-1 is passed through by the liquid of multiple sorting hole 10-2 simultaneously Through-hole 11-2 and liquid discharge tube 7-18 is flowed into, the liquid stripper plate 7-12 and liquid being up and down reciprocatingly displaced squeeze sealing ring The liquid isolated is discharged into pond by jacking up outlet damper 5-4 for the extruding of 7-13；And so on, it can launch In pond with cyanobacteria, by solar energy stored energy, and then it is not necessarily to waste of manpower and concern, automatically by cyanobacteria and moisture From, it is inactivated by ultrasonic wave of the ultrasonic wave to cyanobacteria recursive nature, while automatically absorbing water and cyanobacteria, inactivation discharge, it is real Inactivating to cyanobacteria for existing automatic frequent, is effectively reduced pollution of the cyanobacteria to pond, while energy saving, and construction cost is low, Cost performance is high.

Above description is not limitation of the present invention, and the present invention is also not limited to the example above, the art it is common The variations, modifications, additions or substitutions that technical staff is made within the essential scope of the present invention also belong to protection model of the invention It encloses.

Claims (10)

1. a kind of cyanobacteria coupling processing device, including cyanobacteria process cartridge (1), suspension pneumatic tyre (2), influent stream control valve (3), solar energy Plate (4), two stream retaining device (5), ultrasonic wave cyanobacteria grinder (6), driving cyanobacteria squeeze ejector (7) and charging electric power storage out Pond (8), it is characterised in that: the inner wall of the suspension pneumatic tyre (2) is fixedly connected on the outer wall of cyanobacteria process cartridge (1), influent stream control By being threadedly engaged the left side for being connected to cyanobacteria process cartridge (1) upper end, solar panels (4) are fixedly connected at cyanobacteria valve (3) processed The upper end of cylinder (1) is managed, solar panels (4) connect charging accumulator (8) by electric wire, and charging accumulator (8) is connected by electric wire Ultrasonic wave cyanobacteria grinder (6) and driving cyanobacteria squeeze ejector (7), and charging accumulator (8) is fixedly connected on cyanobacteria process cartridge (1) upper end, driving cyanobacteria squeeze ejector (7) and are fixedly connected in cyanobacteria process cartridge (1), and two go out stream retaining device (5) It is respectively fixedly connected with and squeezes the left and right ends of ejector (7) in driving cyanobacteria, the lower end of ultrasonic wave cyanobacteria grinder (6) is fixed to be connected It connects and is squeezed in ejector (7) in driving cyanobacteria, the upper end of ultrasonic wave cyanobacteria grinder (6) is fixedly connected on cyanobacteria process cartridge (1) Upper end.

2. a kind of cyanobacteria coupling processing device according to claim 1, it is characterised in that: the cyanobacteria process cartridge (1) Including cylinder (1-1), pneumatic tyre fixing groove (1-2), two upper supporting plates (1-3), valve plate sliding slot (1-4), two threaded holes (1-5), Upper end cover (1-6), water bar (1-7), two sliding grooves (1-8), cyanobacteria outlet pipe fixation hole (1-9) and water outlet pipe fixation hole The outer wall in cylinder (1-1) is arranged in (1-10), pneumatic tyre fixing groove (1-2), and the fixed plate of suspension pneumatic tyre (2) inner wall is matched by screw thread Conjunction is connected in pneumatic tyre fixing groove (1-2), and two upper supporting plates (1-3) are respectively fixedly connected with two before and after cylinder (1-1) outer wall End, valve plate sliding slot (1-4) are arranged in the upside of the left end cylinder (1-1), and two threaded holes (1-5) are arranged on cylinder (1-1) The left side at end, two threaded holes (1-5) are separately positioned on the front and rear sides of valve plate sliding slot (1-4), and upper end cover (1-6) is fixedly connected In the upside of cylinder (1-1) inner wall, water bar (1-7) is fixedly connected on the upper end upper end cover (1-6), two sliding grooves (1-8) The left and right ends of water bar (1-7) inner wall are separately positioned on, charging accumulator (8) is fixedly connected on upper end cover (1-6), fills Electrical storage cell (8) setting is in water bar (1-7), and cyanobacteria outlet pipe fixation hole (1-9) and water outlet pipe fixation hole (1-10) are respectively The left and right sides in the lower end of cylinder (1-1) is set.

3. a kind of cyanobacteria coupling processing device according to claim 2, it is characterised in that: the driving cyanobacteria squeezes row Except device (7) includes motor fixing seat (7-1), low volt servo motor (7-2), is drivingly connected plate (7-3), drive rod (7-4), driving Sliding panel (7-5), driver slot (7-6), cyanobacteria squeeze out bar (7-7), cyanobacteria stripper plate (7-8), cyanobacteria squeeze sealing ring (7-9), Branch's connecting plate (7-10), liquid pressure ram (7-11), liquid stripper plate (7-12), liquid squeeze sealing ring (7-13), cyanobacteria Extrusion cylinder (7-14), branch bar sliding mouth (7-15), cyanobacteria enter slot (7-16), cyanobacteria discharge pipe (7-17), liquid discharge tube (7-18) and two ultrasound wave vibrating bar fixation holes (7-19), motor fixing seat (7-1) are fixedly connected on upper end cover (1-6), Low volt servo motor (7-2) is fixedly connected on motor fixing seat (7-1), and one end of drive connection plate (7-3) is fixedly connected low The output shaft of servo motor (7-2) is lied prostrate, the other end for being drivingly connected plate (7-3) is fixedly connected with drive rod (7-4), drive rod (7- 4) it is slidably connected in driver slot (7-6), before and after driver slot (7-6) through setting in driving sliding panel (7-5), driving sliding The both ends of plate (7-5) are slidably connected in two sliding grooves (1-8), and the center of driving lower end sliding panel (7-5) is fixedly connected with indigo plant Algae squeezes out bar (7-7), and the lower end that cyanobacteria squeezes out bar (7-7) is fixedly connected on the center of cyanobacteria stripper plate (7-8), and cyanobacteria squeezes close Seal (7-9) is socketed in cyanobacteria stripper plate (7-8) outer wall, and one end of branch's connecting plate (7-10) is fixedly connected on cyanobacteria and squeezes out bar The right end of (7-7), the other end of branch's connecting plate (7-10) are fixedly connected liquid pressure ram (7-11), liquid pressure ram (7-11) Lower end be fixedly connected liquid stripper plate (7-12), liquid squeezes sealing ring (7-13) and is socketed in the outer of liquid stripper plate (7-12) Wall, cyanobacteria stripper plate (7-8) and cyanobacteria squeeze sealing ring (7-9) clearance fit in cyanobacteria extrusion cylinder (7-14), and branch bar is sliding Open one's mouth (7-15) setting cyanobacteria extrusion cylinder (7-14) right end, branch's connecting plate (7-10) be slidably connected at branch bar sliding mouth In (7-15), cyanobacteria enters slot (7-16) and is arranged in cyanobacteria extrusion cylinder (7-14) outer wall, and cyanobacteria enters slot (7-16) connection cyanobacteria Extrusion cylinder (7-14) inner wall, the lower end of cyanobacteria extrusion cylinder (7-14) are fixedly connected and are connected to cyanobacteria discharge pipe (7-17), cyanobacteria row The left end of outlet pipe (7-17) is fixedly connected in cyanobacteria outlet pipe fixation hole (1-9), and the right end of liquid discharge tube (7-18) is fixed to be connected It connects in water outlet pipe fixation hole (1-10), liquid stripper plate (7-12) and liquid squeeze sealing ring (7-13) clearance fit in liquid In discharge pipe (7-18), two ultrasound wave vibrating bar fixation holes (7-19) are uniformly arranged on the lower end of cyanobacteria extrusion cylinder (7-14).

4. a kind of cyanobacteria coupling processing device according to claim 3, it is characterised in that: the ultrasonic wave cyanobacteria crushes Device (6) includes supersonic generator (6-1), water proof wire pipe (6-2) and two ultrasound wave vibrating bars (6-3), and ultrasonic wave occurs Device (6-1) is fixedly connected on upper end cover (1-6), and supersonic generator (6-1) connects charging accumulator (8) by electric wire, is surpassed Sonic generator (6-1) connects two ultrasound wave vibrating bars (6-3) by electric wire, and electric wire setting is interior in water proof wire pipe (6-2), Water proof wire pipe (6-2) is fixedly connected on cylinder (1-1), and two ultrasound wave vibrating bars (6-3) are arranged at cyanobacteria extrusion cylinder The lower end of (7-14) inner wall, two ultrasound wave vibrating bars (6-3) are respectively fixedly connected in two ultrasound wave vibrating bar fixation hole (7- 19) in.

5. a kind of cyanobacteria coupling processing device according to claim 4, it is characterised in that: the influent stream control valve (3) It is slidably connected at including slide valve (3-1), valve body connecting plate (3-2) and two adjusting bolts (3-3), slide valve (3-1) In valve plate sliding slot (1-4), the upper end of slide valve (3-1) is fixedly connected valve body connecting plate (3-2), two adjusting bolts (3-3) It is connected on valve body connecting plate (3-2) by being threadedly engaged, two adjusting bolts (3-3) are connected to two spiral shells by being threadedly engaged In pit (1-5).

6. a kind of cyanobacteria coupling processing device according to claim 5, it is characterised in that: described goes out stream retaining device (5) there are two setting, retaining device (5) are flowed out and includes fixed block (5-1), two connection convex blocks (5-2), bull stick (5-3) and goes out Mouth baffle (5-4), two connection convex blocks (5-2) are fixedly connected on fixed block (5-1), and bull stick (5-3) is fixedly connected on two Between a connection convex block (5-2), the upper end of outlet damper (5-4) is rotatably connected on bull stick (5-3)；Two fixed blocks (5-1) Be respectively fixedly connected on cyanobacteria discharge pipe (7-17) and liquid discharge tube (7-18), two outlet dampers (5-4) respectively with indigo plant The outlet of algae discharge pipe (7-17) and the outlet of liquid discharge tube (7-18) fit.

7. a kind of cyanobacteria coupling processing device according to claim 6, it is characterised in that: at a kind of cyanobacteria coupling Managing device further includes flow distribution plate (9), solid-liquid separation plate (10) and liquid drain frame (11), flow distribution plate (9), solid-liquid separation plate (10) It is fixedly connected with the outer wall in cyanobacteria extrusion cylinder (7-14) from top to bottom with liquid drain frame (11), flow distribution plate (9) is separated by solid-liquid separation Plate (10) and liquid drain frame (11) are fixedly connected with the inner wall in cylinder (1-1).

8. a kind of cyanobacteria coupling processing device according to claim 7, it is characterised in that: set on the flow distribution plate (9) Multiple shunting flutings (9-1) perforative up and down are equipped with, the right end of flow distribution plate (9) is provided with shunting opening (9-2).

9. a kind of cyanobacteria coupling processing device according to claim 8, it is characterised in that: the solid-liquid separation plate (10) Including separating plate (10-1), multiple sorting holes (10-2) and separation opening (10-3), the inner and outer wall point of separating plate (10-1) It is not fixedly connected on cyanobacteria extrusion cylinder (7-14) and cylinder (1-1), the upper surface of separating plate (10-1) dips down from outside to inside Tiltedly, multiple perforative sorting holes (10-2), the right ends of separating plate (10-1) up and down are provided on separating plate (10-1) to be provided with point Leave mouth (10-3).

10. a kind of cyanobacteria coupling processing device according to claim 9, it is characterised in that: the liquid drain frame It (11) include framework (11-1) and through-hole (11-2), the inner and outer wall of framework (11-1) is respectively fixedly connected in cyanobacteria extrusion cylinder On (7-14) and cylinder (1-1), through-hole (11-2) is up and down through the right end being arranged in framework (11-1), liquid discharge tube (7-18) It is fixedly connected on the lower end of framework (11-1), through-hole (11-2) is connected to liquid discharge tube (7-18).