CN109893889A - A kind of algae collection device for coupling except algae - Google Patents
A kind of algae collection device for coupling except algae Download PDFInfo
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- CN109893889A CN109893889A CN201910255217.XA CN201910255217A CN109893889A CN 109893889 A CN109893889 A CN 109893889A CN 201910255217 A CN201910255217 A CN 201910255217A CN 109893889 A CN109893889 A CN 109893889A
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Abstract
The present invention relates to water treatment fields, it in particular is a kind of for coupling the algae collection device for removing algae, including cyanobacteria separator, cyanobacteria liquid isocon, drive separator, liquid recovery tube and cyanobacteria squeeze recovery controller, the cyanobacteria liquid isocon is fixedly connected on the right end of cyanobacteria separator, the inside of cyanobacteria liquid isocon connection cyanobacteria separator, driving separator is fixedly connected on the upper end of cyanobacteria separator, the lower end of driving separator is slidably connected in cyanobacteria separator, liquid recovery tube is fixedly connected on the lower end of cyanobacteria separator, liquid recovery tube is connected to cyanobacteria separator interior;Beneficial effects of the present invention are that can carry out the separation of solid and liquid of high-efficiency layered to cyanobacteria liquid automatically, ensure solid-liquid separation efficiency, realize and solid cyanobacteria is carried out the unified recycling of batch automatically, and then realize the protection to water environment.
Description
Technical field
The present invention relates to water treatment fields, are in particular a kind of for coupling the algae collection device for removing algae.
Background technique
Patent No. CN201520621970.3 discloses a kind of cyanobacteria interception collection device, it is characterized in that it includes first
Road blocking apparatus, second collection device, blue algae collecting pond, floatation equipment and dehydration equipment, first of blocking apparatus include
More columns side by side, are equipped with intercept net on column, and second collection device includes floating installation and algae-sucking pump, described floating
Dynamic device is made of multiple " V " types foaming column combination, canvas is enclosed on foaming column, a part of canvas hangs down by gravity to be in
In lake water, cyanobacteria flow direction side is met equipped with algae-sucking pump at " V " the type tip of the foaming column, the outlet of the algae-sucking pump connects
It is connected to the import of above-mentioned blue algae collecting pond, the outlet of blue algae collecting pond is sequentially connected to floatation equipment, dehydration equipment.The utility model energy
The artificial intensity for salvaging cyanobacteria is reduced, is improved work efficiency.But the device can not carry out disengaging recycling to cyanobacteria automatically, wave
Take manpower salvaging, it is time-consuming and laborious.
Summary of the invention
The object of the present invention is to provide a kind of for coupling the algae collection device for removing algae, and its advantages are can be automatic
The separation of solid and liquid of high-efficiency layered is carried out to cyanobacteria liquid, ensures solid-liquid separation efficiency, and realization is automatically criticized solid cyanobacteria
Unified recycling is measured, and then realizes the protection to water environment.
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 for coupling the algae collection device for removing algae, including cyanobacteria separator, cyanobacteria
Liquid isocon, driving separator, liquid recovery tube and cyanobacteria squeeze recovery controller, and the cyanobacteria liquid isocon is fixedly connected
In the right end of cyanobacteria separator, cyanobacteria liquid isocon is connected to the inside of cyanobacteria separator, and driving separator is fixedly connected on cyanobacteria
The upper end of separator drives the lower end of separator to be slidably connected in cyanobacteria separator, and liquid recovery tube is fixedly connected on cyanobacteria
The lower end of separator, liquid recovery tube are connected to cyanobacteria separator interior, and the left and right ends that cyanobacteria squeezes recovery controller are solid respectively
Surely the left and right ends of cyanobacteria separator are connected to, the left and right ends that cyanobacteria squeezes recovery controller are connected to the interior of cyanobacteria separator
Portion, the rear end thereof that cyanobacteria squeezes recovery controller are connected on cyanobacteria separator.
As further optimization of the invention, the cyanobacteria separator includes collecting separation framework, bottom plate, upper left
End cap, upper right end cap, center sliding spacing frame, driven rack gear sliding slot, active rack gear sliding slot, influent stream pipe fixation hole, in influent stream pipe
Fixation hole, six rectangular slots, six solid-liquid separation plates, inside groove and liquid outflow port are held, the left and right of separation framework is collected
Both ends are respectively fixedly connected with anchoring bolt fixed plate, collect separation framework and are fixedly connected on bottom plate, upper left end cap and upper right
End cap is respectively fixedly connected in the left and right sides for collecting separation framework upper end, and the rear and front end of center sliding spacing frame is fixed respectively
It is connected to the center for collecting separation framework inner wall rear and front end, driven rack gear sliding slot and active rack gear sliding slot are arranged at upper right side
It covers, the right end for collecting separation framework is arranged in influent stream pipe fixation hole, and influent stream pipe middle-end fixation hole or so is through centrally disposed
On sliding spacing frame, wherein three uniform left and right in six rectangular slots, which are run through, is arranged in the right end that collection separates framework, and six
The other three in a rectangular slot or so, which runs through, is arranged in the left end that collection separates framework, in six solid-liquid separation plates wherein
Three are fixedly connected on the right end of center sliding spacing frame from top to bottom, and the other three in six solid-liquid separation plates is from top to bottom
It is fixedly connected on the left end of center sliding spacing frame, inside groove is arranged on bottom plate, and liquid outflow port runs through setting up and down
In the middle-end of bottom plate.
As further optimization of the invention, the cyanobacteria liquid isocon includes main pipeline and shunt conduit, supervisor
Road is fixedly connected on influent stream pipe fixation hole and influent stream pipe middle-end fixation hole, and left half inside separation framework is collected in main pipeline connection
Portion, shunt conduit are fixedly connected on the lower end of main pipeline, and shunt conduit is connected to main pipeline, and separation framework is collected in shunt conduit connection
Internal right side.
As further optimization of the invention, the driving separator includes motor fixing seat, servo motor, driving
Connecting rod, drive rod, drive block, driver slot, main drive rack, main driving gear, driven drive gear, shaft, rear fixed plate,
Front shoe and from drive rack, motor fixing seat is fixedly connected on upper right side and covers, and it is solid that servo motor is fixedly connected on motor
In reservation, one end of drive connection bar is fixedly connected on the output shaft of servo motor, and the other end of drive connection bar is fixed to be connected
Drive rod is connect, drive rod is slidably connected in driver slot, and through being arranged on drive block before and after driver slot, the lower end of drive block is solid
Surely it is connected to the right end of main drive rack, main drive rack is slidably connected in active rack gear sliding slot, the lower end of main driving gear
Be meshed transmission with main drive rack, and main driving gear and driven drive gear are fixedly connected in shaft, the both ends of shaft
It is rotatably connected in rear fixed plate and front shoe, rear fixed plate and front shoe are fixedly connected with and cover in upper right side, driven
It drives the lower end of gear to be meshed transmission with from drive rack, is slidably connected in driven rack gear sliding slot from drive rack.
As further optimization of the invention, the driving separator further includes centre-drive plate, two slide bars, two
A left spring, two right springs, three fixed links, six driving stripper plates and six brushes, are fixed from the left end of drive rack
It is connected to the center of centre-drive plate upper end, in the centrally disposed sliding spacing frame of centre-drive plate, two slide bars are fixed to be connected
The inner wall in center sliding spacing frame is connect, centre-drive plate is slidably connected on two slide bars, two left springs and two right bullets
Spring is socketed on two slide bars, two left springs be arranged at centre-drive plate and center sliding spacing frame inner wall left end it
Between, two right springs are arranged between centre-drive plate and center sliding spacing frame inner wall right end, the middle-end of three fixed links
It is uniformly fixedly connected on centre-drive plate from top to bottom, the both ends of fixed link are respectively fixedly connected with a driving stripper plate, drive
The lower end of dynamic stripper plate is fixedly connected with brush by screw, and lower end and the solid-liquid separation plate of brush fit.
As optimization of the invention further, it includes manual rotating bar, manually that the cyanobacteria, which squeezes recovery controller,
Drive gear, left rack gear, right rack gear, left support block, right support block, left-handed opening plate, right switchboard, three left plates, three right sides
Plate, two cyanobacteria recycling frames, six extruding slope blocks and two cyanobacteria recovery ports, the front end of manual rotating bar are rotatably connected on
The rear end of separation framework is collected, manual actuation gear is fixedly connected in manual rotating bar, moves the upper and lower ends point of driving gear
Be not meshed with left rack gear and right rack gear transmission, and left support block and right support block are fixedly connected with after collecting separation framework
End, left rack gear and right rack gear are slidably connected at respectively in left support block and right support block, and left-handed opening plate and right switchboard are solid respectively
Surely it is connected on left rack gear and right rack gear, three left plates are uniformly fixedly connected on left-handed opening plate, and three right plates are uniformly solid
Surely it is connected on right switchboard, two cyanobacteria recycling frames are respectively fixedly connected in the left and right ends for collecting separation framework, left side
Cyanobacteria recycles three rectangular slots in frame connection left side, and the cyanobacteria recycling frame on right side is connected to three rectangular slots on right side, wherein
Three squeeze slope block and are uniformly fixedly connected in the cyanobacteria recycling frame in left side, and the other three squeezes slope block and is uniformly fixedly connected on the right side
In the cyanobacteria recycling frame of side, three left plates are slidably connected in the cyanobacteria recycling frame in left side, and three right plates are slidably connected at
In the cyanobacteria recycling frame on right side, two cyanobacteria recovery ports are separately positioned on the downside of two cyanobacteria recycling back end of frame.
As further optimization of the invention, multiple perforative point of filter circles up and down are provided on the solid-liquid separation plate
The diameter in hole, multiple perforative point of filter circular holes up and down that six solid-liquid separation plates are arranged from top to bottom is sequentially reduced.
As further optimization of the invention, the inclined direction of the lower half of the extruding slope block is from outer to introversive
Lower inclination, the upper half inclined direction of extruding slope block are from preceding to interior rear lower inclination.
As optimization of the invention further, three left plates and three right plates respectively with six extruding slopes
Block fits.
As further optimization of the invention, the liquid outflow port is connected to liquid recovery tube.
Using technical solution provided by the invention, compared with prior art, have the advantages that as algae separator, indigo plant
Algae solution isocon, driving separator, liquid recovery tube and cyanobacteria, which squeeze recovery controller, to carry out height to cyanobacteria liquid automatically
The separation of solid and liquid of layering is imitated, ensures solid-liquid separation efficiency, realizes and solid cyanobacteria is subjected to the unified recycling of batch automatically, in turn
Realize the protection to water environment.
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 separator of the invention;
Fig. 4 is the structural schematic diagram two of cyanobacteria separator of the invention;
Fig. 5 is the structural schematic diagram three of cyanobacteria separator of the invention;
Fig. 6 is the structural schematic diagram four of cyanobacteria separator of the invention;
Fig. 7 is the structural schematic diagram of driving separator of the invention;
Fig. 8 is the structural schematic diagram one that cyanobacteria of the invention squeezes recovery controller;
Fig. 9 is the structural schematic diagram two that cyanobacteria of the invention squeezes recovery controller.
In figure: cyanobacteria separator 1;Collect separation framework 1-1;Bottom plate 1-2;Upper left end cap 1-3;Upper right end cap 1-4;In
The heart slides spacing frame 1-5;Driven rack gear sliding slot 1-6;Active rack gear sliding slot 1-7;Influent stream pipe fixation hole 1-8;Influent stream pipe middle-end is solid
Determine hole 1-9;Rectangular slot 1-10;Solid-liquid separation plate 1-11;Inside groove 1-12;Liquid outflow port 1-13;Cyanobacteria liquid isocon
2;Main pipeline 2-1;Shunt conduit 2-2;Drive separator 3;Motor fixing seat 3-1;Servo motor 3-2;Drive connection bar 3-3;
Drive rod 3-4;Drive block 3-5;Driver slot 3-6;Main drive rack 3-7;Main driving gear 3-8;Driven drive gear 3-9;Turn
Axis 3-10;Rear fixed plate 3-11;Front shoe 3-12;From drive rack 3-13;Centre-drive plate 3-14;Two slide bar 3-15;
Left spring 3-16;Right spring 3-17;Fixed link 3-18;Drive stripper plate 3-19;Brush 3-20;Liquid recovery tube 4;Cyanobacteria squeezes
Recovery controller 5;Manual rotating bar 5-1;Manual actuation gear 5-2;Left rack gear 5-3;Right rack gear 5-4;Left support block 5-5;It is right
Supporting block 5-6;Left-handed opening plate 5-7;Right switchboard 5-8;Left plate 5-9;Right plate 5-10;A cyanobacteria recycles frame 5-11;It squeezes
Slope block 5-12;Cyanobacteria recovery port 5-13.
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:
It is a kind of for coupling the algae collection device for removing algae, including cyanobacteria separator 1, cyanobacteria liquid as shown in FIG. 1 to FIG. 9
Isocon 2, driving separator 3, liquid recovery tube 4 and cyanobacteria squeeze recovery controller 5, and the cyanobacteria liquid isocon 2 is fixed
It is connected to the right end of cyanobacteria separator 1, cyanobacteria liquid isocon 2 is connected to the inside of cyanobacteria separator 1, and driving separator 3 is fixed to be connected
It connects in the upper end of cyanobacteria separator 1, the lower end of separator 3 is driven to be slidably connected in cyanobacteria separator 1, liquid recovery tube 4 is solid
Surely it is connected to the lower end of cyanobacteria separator 1, liquid recovery tube 4 is connected to inside cyanobacteria separator 1, and cyanobacteria squeezes recovery controller 5
Left and right ends be respectively fixedly connected in the left and right ends of cyanobacteria separator 1, the left and right ends that cyanobacteria squeezes recovery controller 5 are equal
It is connected to the inside of cyanobacteria separator 1, the rear end thereof that cyanobacteria squeezes recovery controller 5 is connected on cyanobacteria separator 1.It will pass through
The cyanobacteria liquid of drainage pump recycling flows into cyanobacteria separator 1 by cyanobacteria liquid isocon 2, realizes in cyanobacteria separator 1 solid
Liquid separation, while to prevent solid cyanobacteria from resulting in blockage while pushing away solid cyanobacteria by driving separator 3 convenient for recycling
Dynamic squeeze to cyanobacteria squeezes in recovery controller 5, squeezes recovery controller 5 by control cyanobacteria and unifies back solid cyanobacteria
It receives, the liquid isolated realizes the solid-liquid point that high-efficiency layered is carried out to cyanobacteria liquid by sinking down into the outflow of liquid recovery tube 4
From guarantee solid-liquid separation efficiency is realized and solid cyanobacteria is carried out the unified recycling of batch automatically, and then realizes to water environment
Protection.
Specific embodiment 2:
As shown in FIG. 1 to FIG. 9, present embodiment is described further embodiment one, and the cyanobacteria separator 1 wraps
Include collection separation framework 1-1, bottom plate 1-2, upper left end cap 1-3, upper right end cap 1-4, center sliding spacing frame 1-5, driven tooth
Sliding slot 1-6, active rack gear sliding slot 1-7, influent stream pipe fixation hole 1-8, influent stream pipe middle-end fixation hole 1-9, six rectangular slot 1-
10, six solid-liquid separation plate 1-11, inside groove 1-12 and liquid outflow port 1-13 collect the left and right ends of separation framework 1-1
Be respectively fixedly connected with anchoring bolt fixed plate, collect separation framework 1-1 and be fixedly connected on bottom plate 1-2, upper left end cap 1-3 and
Upper right end cap 1-4 is respectively fixedly connected in the left and right sides for collecting the separation upper end framework 1-1, before spacing frame 1-5 is slided at center
Both ends are respectively fixedly connected in the center for collecting separation framework 1-1 inner wall rear and front end, driven rack gear sliding slot 1-6 and driving tooth afterwards
Sliding slot 1-7 is arranged on upper right end cap 1-4, and the right end for collecting separation framework 1-1 is arranged in influent stream pipe fixation hole 1-8, into
Flow tube middle-end fixation hole 1-9 or so on the centrally disposed sliding spacing frame 1-5, in six rectangular slot 1-10 wherein three
The right end for being arranged in and collecting separation framework 1-1 is run through in a uniform left and right, and the other three or so in six rectangular slot 1-10 is passed through
Wear the left end set collecting separation framework 1-1, in six solid-liquid separation plate 1-11 wherein three be fixedly connected from top to bottom
In the other three in the right end of center sliding spacing frame 1-5, six solid-liquid separation plate 1-11 is fixedly connected on from top to bottom
The heart slides the left end of spacing frame 1-5, and inside groove 1-12 is arranged on bottom plate 1-2, and liquid outflow port 1-13 or more, which runs through, to be set
Set the middle-end in bottom plate 1-2.Cyanobacteria liquid is diverted into collection separation framework 1-1 by cyanobacteria liquid isocon 2, successively passes through six
Diameter particle cyanobacteria of different sizes is successively separated by a solid-liquid separation plate 1-11, and liquid is made to pass through six separation of solid and liquid
Circular hole on plate 1-11, and then realize the separation of solid and liquid to cyanobacteria also.
Specific embodiment 3:
As shown in FIG. 1 to FIG. 9, present embodiment is described further embodiment two, the cyanobacteria liquid isocon 2
Including main pipeline 2-1 and shunt conduit 2-2, main pipeline 2-1 is fixedly connected on influent stream pipe fixation hole 1-8 and influent stream pipe middle-end is fixed
On the 1-9 of hole, the left side inside separation framework 1-1 is collected in main pipeline 2-1 connection, and shunt conduit 2-2 is fixedly connected on main pipeline
The lower end of 2-1, shunt conduit 2-2 are connected to main pipeline 2-1, and right half inside separation framework 1-1 is collected in shunt conduit 2-2 connection
Portion.Main pipeline 2-1 receives the cyanobacteria liquid recycled from drainage pump, and cyanobacteria liquid is made successively to pass through main pipeline 2-1 and shunt conduit
2-2 is flowed into collection separation framework 1-1.
Specific embodiment 4:
As shown in FIG. 1 to FIG. 9, present embodiment is described further embodiment three, and the driving separator 3 wraps
Include motor fixing seat 3-1, servo motor 3-2, drive connection bar 3-3, drive rod 3-4, drive block 3-5, driver slot 3-6, main drive
Carry-over bar 3-7, main driving gear 3-8, driven drive gear 3-9, shaft 3-10, rear fixed plate 3-11, front shoe 3-12 and
From drive rack 3-13, motor fixing seat 3-1 is fixedly connected on upper right end cap 1-4, and servo motor 3-2 is fixedly connected on motor
On fixing seat 3-1, one end of drive connection bar 3-3 is fixedly connected on the output shaft of servo motor 3-2, drive connection bar 3-3
The other end be fixedly connected with drive rod 3-4, drive rod 3-4 is slidably connected in driver slot 3-6, through setting before and after driver slot 3-6
It sets on drive block 3-5, the lower end of drive block 3-5 is fixedly connected on the right end of main drive rack 3-7, and main drive rack 3-7 is sliding
Dynamic to be connected in active rack gear sliding slot 1-7, the lower end of main driving gear 3-8 is meshed transmission with main drive rack 3-7, main driving
Gear 3-8 and driven drive gear 3-9 are fixedly connected on shaft 3-10, and the both ends of shaft 3-10 are fixed after being rotatably connected on
In plate 3-11 and front shoe 3-12, rear fixed plate 3-11 and front shoe 3-12 are fixedly connected on upper right end cap 1-4, from
The lower end of dynamic driving gear 3-9 is meshed transmission with from drive rack 3-13, is slidably connected at driven tooth from drive rack 3-13
In sliding slot 1-6.Servo motor 3-2 connects electricity, drives drive connection bar 3-3 rotation, and then drive drive rod 3-4 in driver slot 3-
Sliding in 6, and then drive block 3-5 or so shift reciprocately is driven, slide main drive rack 3-7 in active rack gear sliding slot 1-7,
And then main driving gear 3-8 is driven to drive shaft 3-10 left and right reciprocating rotary on rear fixed plate 3-11 and front shoe 3-12
Turn, driven drive gear 3-9 is made to drive from drive rack 3-13 the left and right shift reciprocately in driven rack gear sliding slot 1-6.
Specific embodiment 5:
As shown in FIG. 1 to FIG. 9, present embodiment is described further embodiment four, and the driving separator 3 is also
Including centre-drive plate 3-14, two slide bar 3-15, two left spring 3-16, two right spring 3-17, three fixed link 3-18,
Six driving stripper plate 3-19 and six brush 3-20 are fixedly connected on centre-drive plate 3-14 from the left end of drive rack 3-13
The center of upper end, in the centrally disposed sliding spacing frame 1-5 of centre-drive plate 3-14, two slide bar 3-15 are fixedly connected in
The heart slides the inner wall of spacing frame 1-5, and centre-drive plate 3-14 is slidably connected on two slide bar 3-15, two left spring 3-16 and
Two right spring 3-17 are socketed on two slide bar 3-15, and two left spring 3-16 are arranged at centre-drive plate 3-14 in
The heart slides between spacing frame 1-5 inner wall left end, and two right spring 3-17 are arranged at centre-drive plate 3-14 and center sliding point
Between bulkhead 1-5 inner wall right end, the middle-end of three fixed link 3-18 is uniformly fixedly connected on centre-drive plate 3-14 from top to bottom
On, the both ends of fixed link 3-18 are respectively fixedly connected with a driving stripper plate 3-19, and the lower end of driving stripper plate 3-19 passes through spiral shell
Nail is fixedly connected with brush 3-20, and lower end and the solid-liquid separation plate 1-11 of brush 3-20 fits.Left and right shift reciprocately from driving
Rack gear 3-13 drives centre-drive plate 3-14 left and right shift reciprocately on two slide bar 3-15, during the motion by two
The damping, buffering of left spring 3-16 and two right spring 3-17, and then three fixed link 3-18 or so shift reciprocately is driven, in turn
Drive six driving stripper plate 3-19 and six brush 3-20 shift reciprocately on six solid-liquid separation plate 1-11.
Specific embodiment 6:
As shown in FIG. 1 to FIG. 9, present embodiment is described further embodiment five, and the cyanobacteria squeezes recycling
Controller 5 includes manual rotating bar 5-1, manual actuation gear 5-2, left rack gear 5-3, right rack gear 5-4, left support block 5-5, right branch
Bracer 5-6, left-handed opening plate 5-7, right switchboard 5-8, three left plate 5-9, three right plate 5-10, two cyanobacterias recycle frame 5-
11, six extruding slope block 5-12 and two cyanobacteria recovery port 5-13, the front end of manual rotating bar 5-1 are rotatably connected on collection separation
The rear end of framework 1-1, manual actuation gear 5-2 are fixedly connected on manual rotating bar 5-1, move up and down the two of driving gear 5-2
The transmission that is meshed respectively with left rack gear 5-3 and right rack gear 5-4 is held, left support block 5-5 and right support block 5-6 are fixedly connected with and are receiving
The rear end of collection separation framework 1-1, left rack gear 5-3 and right rack gear 5-4 are slidably connected at left support block 5-5 and right support block 5- respectively
In 6, left-handed opening plate 5-7 and right switchboard 5-8 are respectively fixedly connected on left rack gear 5-3 and right rack gear 5-4, three left plate 5-
9 are uniformly fixedly connected on left-handed opening plate 5-7, and three right plate 5-10 are uniformly fixedly connected on right switchboard 5-8, two indigo plants
Algae recycling frame 5-11 is respectively fixedly connected in the left and right ends for collecting separation framework 1-1, the cyanobacteria recycling frame 5-11 connection in left side
Three rectangular slot 1-10 in left side, three rectangular slot 1-10 on the cyanobacteria recycling frame 5-11 connection right side on right side, wherein three
A extruding slope block 5-12 is uniformly fixedly connected in the cyanobacteria recycling frame 5-11 in left side, and it is uniformly solid that the other three squeezes slope block 5-12
Surely it being connected in the cyanobacteria recycling frame 5-11 on right side, three left plate 5-9 are slidably connected in the cyanobacteria recycling frame 5-11 in left side,
Three right plate 5-10 are slidably connected in the cyanobacteria recycling frame 5-11 on right side, and two cyanobacteria recovery port 5-13 are separately positioned on two
The downside of a cyanobacteria recycling rear end frame 5-11.The six driving stripper plate 3-19 and six brush 3-20 of left and right shift reciprocately are by six
The cyanobacteria solid-state separated on a solid-liquid separation plate 1-11 is advanced into two cyanobacteria recycling frame 5-11, and so on both prevents solid-state
Cyanobacteria is also realized in the blocking of six solid-liquid separation plate 1-11 and is unified recycling;Rotary manual rotating bar 5-1 counterclockwise, makes
Manual actuation gear 5-2 rotates counterclockwise, and then makes left rack gear 5-3 to the left, and right rack gear 5-4 is displaced to the right, and then makes left support
Block 5-5, left-handed opening plate 5-7 and three left plate 5-9 are to left dislocation, right support block 5-6, right switchboard 5-8 and three right plates
5-10 is displaced to the right, and then two cyanobacteria recycling frame 5-11 is made to be connected to two cyanobacteria recovery port 5-13, is squeezed and is promoted
Solid-state cyanobacteria flows into two cyanobacteria recovery port 5-13 by six extruding slope block 5-12 and is recycled;Rotate clockwise manual rotation
Bar 5-1 makes solid-state cyanobacteria continue to store, and after reaching a certain amount of, continues rotation counterclockwise, realizes recycling and so on.
Specific embodiment 7:
As shown in FIG. 1 to FIG. 9, present embodiment is described further embodiment six, the solid-liquid separation plate 1-
It is provided with multiple perforative point of filter circular holes up and down on 11, what six solid-liquid separation plate 1-11 were arranged from top to bottom multiple upper and lower runs through
Point filter circular hole diameter be sequentially reduced.Diameter particle cyanobacteria of different sizes is successively separated by realization, ensures separation matter
Amount.
Specific embodiment 8:
As shown in FIG. 1 to FIG. 9, present embodiment is described further embodiment seven, the extruding slope block 5-12
The inclined direction of lower half be to be tilted down from outer to interior, the upper half inclined direction for squeezing slope block 5-12 is from preceding to after interior
Lower inclination.The inclined direction for squeezing the lower half of slope block 5-12 is to tilt down six from outer to interior convenient for six brush 3-20
The cyanobacteria solid-state separated on solid-liquid separation plate 1-11 is advanced into two cyanobacteria recycling frame 5-11, squeezes the upper half of slope block 5-12
Inclined direction is to be flowed from preceding to interior rear lower inclination convenient for the solid-state cyanobacteria for being squeezed and promoting by six extruding slope block 5-12
Enter two cyanobacteria recovery port 5-13 to be recycled.
Specific embodiment 9:
As shown in FIG. 1 to FIG. 9, present embodiment is described further embodiment eight, the left plate 5-9 of described three
It fits respectively with six extruding slope block 5-12 with three right plate 5-10.Convenient for pushing recycling more thorough solid cyanobacteria
Blocking is placed at bottom.
Specific embodiment 10:
As shown in FIG. 1 to FIG. 9, present embodiment is described further embodiment nine, the liquid outflow port 1-
13 connection liquid recovery tubes 4.Make to be recycled by isolated liquid by liquid outflow port 1-13 and liquid recovery tube 4.
The operation principle of the present invention is that: main pipeline 2-1 receives the cyanobacteria liquid recycled from drainage pump, makes cyanobacteria liquid successively
It is flowed into collection separation framework 1-1 by main pipeline 2-1 and shunt conduit 2-2;By main pipeline 2-1 and shunt conduit 2-
2 are diverted into the cyanobacteria liquid collected in separation framework 1-1, successively that diameter particle is big successively by six solid-liquid separation plate 1-11
Small different cyanobacteria is separated, and makes liquid by the circular hole on six solid-liquid separation plate 1-11, and then realizes to cyanobacteria also
It is separated by solid-liquid separation;Servo motor 3-2 connects electricity, drives drive connection bar 3-3 rotation, and then drive drive rod 3-4 in driver slot 3-6
Sliding, and then drive block 3-5 or so shift reciprocately is driven, slide main drive rack 3-7 in active rack gear sliding slot 1-7, into
And main driving gear 3-8 is driven to drive shaft 3-10 left and right reciprocating rotary on rear fixed plate 3-11 and front shoe 3-12,
Driven drive gear 3-9 is set to drive from drive rack 3-13 the left and right shift reciprocately in driven rack gear sliding slot 1-6;Left and right is reciprocal
The slave drive rack 3-13 of displacement drives centre-drive plate 3-14 left and right shift reciprocately on two slide bar 3-15, is being moved through
Damping, buffering in journey by two left spring 3-16 and two right spring 3-17, and then three fixed link 3-18 of drive or so are past
Complex displacement, and then six driving stripper plate 3-19 and six brush 3-20 are drive on six solid-liquid separation plate 1-11 toward reset
It moves;After the completion of separation or solid-state cyanobacteria is enough, and rotary manual rotating bar 5-1 counterclockwise keeps manual actuation gear 5-2 inverse
Hour hands rotation, and then make left rack gear 5-3 to the left, right rack gear 5-4 is displaced to the right, and then makes left support block 5-5, left-handed opening plate 5-7
It is displaced to the right with three left plate 5-9 to left dislocation, right support block 5-6, right switchboard 5-8 and three right plate 5-10, in turn
Two cyanobacteria recycling frame 5-11 are made to be connected to two cyanobacteria recovery port 5-13, the solid-state cyanobacteria for being squeezed and promoting squeezes by six
Pressure slope block 5-12 flows into two cyanobacteria recovery port 5-13 and is recycled;Rotate clockwise manual rotating bar 5-1 make solid-state cyanobacteria after
Continuous storage continues rotation counterclockwise, realizes recycling and so on after reaching a certain amount of;And then realization can be automatically to cyanobacteria
Liquid carries out the separation of solid and liquid of high-efficiency layered, ensures solid-liquid separation efficiency, realizes automatically that solid cyanobacteria progress batch is unified
Recycling, and then realize protection to water environment.
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 for coupling the algae collection device for removing algae, including cyanobacteria separator (1), cyanobacteria liquid isocon (2), driving point
Recovery controller (5) are squeezed from device (3), liquid recovery tube (4) and cyanobacteria, it is characterised in that: the cyanobacteria liquid isocon (2)
It is fixedly connected on the right end of cyanobacteria separator (1), cyanobacteria liquid isocon (2) is connected to the inside of cyanobacteria separator (1), driving separation
Device (3) is fixedly connected on the upper end of cyanobacteria separator (1), and the lower end of driving separator (3) is slidably connected at cyanobacteria separator (1)
Interior, liquid recovery tube (4) is fixedly connected on the lower end of cyanobacteria separator (1), and liquid recovery tube (4) is connected to cyanobacteria separator (1)
Inside, the left and right ends that cyanobacteria squeezes recovery controller (5) are respectively fixedly connected in the left and right ends of cyanobacteria separator (1), blue
The left and right ends that algae squeezes recovery controller (5) are connected to the inside of cyanobacteria separator (1), and cyanobacteria squeezes recovery controller (5)
Rear end thereof be connected on cyanobacteria separator (1).
2. according to claim 1 a kind of for coupling the algae collection device for removing algae, it is characterised in that: the cyanobacteria
Separator (1) is sliding including collection separation framework (1-1), bottom plate (1-2), upper left end cap (1-3), upper right end cap (1-4), center
Dynamic spacing frame (1-5), driven rack gear sliding slot (1-6), active rack gear sliding slot (1-7), influent stream pipe fixation hole (1-8), in influent stream pipe
Hold fixation hole (1-9), six rectangular slots (1-10), six solid-liquid separation plates (1-11), inside groove (1-12) and liquid flow
Portal (1-13), and the left and right ends for collecting separation framework (1-1) are respectively fixedly connected with anchoring bolt fixed plate, collects separation framework
(1-1) is fixedly connected on bottom plate (1-2), and upper left end cap (1-3) and upper right end cap (1-4) are respectively fixedly connected in collection point
The left and right sides from the upper end framework (1-1), the rear and front end of center sliding spacing frame (1-5), which is respectively fixedly connected with, is collecting separation
The center of framework (1-1) inner wall rear and front end, driven rack gear sliding slot (1-6) and active rack gear sliding slot (1-7) are arranged at upper right
On end cap (1-4), influent stream pipe fixation hole (1-8) setting is in the right end for collecting separation framework (1-1), influent stream pipe middle-end fixation hole
A wherein three uniform left side of the left and right (1-9) on centrally disposed sliding spacing frame (1-5), in six rectangular slots (1-10)
Right the other three through setting in the right end for collecting separation framework (1-1), six rectangular slots (1-10) or so, which runs through, to be set
Set in the left end for collecting separation framework (1-1), in six solid-liquid separation plates (1-11) wherein three be fixedly connected from top to bottom
The other three in the right end of center sliding spacing frame (1-5), six solid-liquid separation plates (1-11) is fixedly connected from top to bottom
In the left end of center sliding spacing frame (1-5), inside groove (1-12) is arranged on bottom plate (1-2), liquid outflow port (1-
13) up and down through the middle-end being arranged in bottom plate (1-2).
3. according to claim 2 a kind of for coupling the algae collection device for removing algae, it is characterised in that: the cyanobacteria
Liquid isocon (2) includes main pipeline (2-1) and shunt conduit (2-2), and main pipeline (2-1) is fixedly connected on influent stream pipe fixation hole
On (1-8) and influent stream pipe middle-end fixation hole (1-9), the internal left side of separation framework (1-1) is collected in main pipeline (2-1) connection,
Shunt conduit (2-2) is fixedly connected on the lower end of main pipeline (2-1), and shunt conduit (2-2) is connected to main pipeline (2-1), isocon
The internal right side of separation framework (1-1) is collected in road (2-2) connection.
4. according to claim 3 a kind of for coupling the algae collection device for removing algae, it is characterised in that: the driving
Separator (3) includes motor fixing seat (3-1), servo motor (3-2), drive connection bar (3-3), drive rod (3-4), drive block
(3-5), driver slot (3-6), main drive rack (3-7), main driving gear (3-8), driven drive gear (3-9), shaft (3-
10), rear fixed plate (3-11), front shoe (3-12) and from drive rack (3-13), motor fixing seat (3-1) is fixedly connected on
On upper right end cap (1-4), servo motor (3-2) is fixedly connected on motor fixing seat (3-1), and the one of drive connection bar (3-3)
End is fixedly connected on the output shaft of servo motor (3-2), and the other end of drive connection bar (3-3) is fixedly connected with drive rod (3-
4), drive rod (3-4) is slidably connected in driver slot (3-6), before and after driver slot (3-6) through setting on drive block (3-5),
The lower end of drive block (3-5) is fixedly connected on the right end of main drive rack (3-7), and main drive rack (3-7) is slidably connected at master
In carry-over bar sliding slot (1-7), the lower end of main driving gear (3-8) is meshed transmission with main drive rack (3-7), main driving gear
(3-8) and driven drive gear (3-9) are fixedly connected on shaft (3-10), after the both ends of shaft (3-10) are rotatably connected on
In fixed plate (3-11) and front shoe (3-12), rear fixed plate (3-11) and front shoe (3-12) are fixedly connected in upper right
On end cap (1-4), the lower end of driven drive gear (3-9) is meshed transmission with from drive rack (3-13), from drive rack (3-
13) it is slidably connected in driven rack gear sliding slot (1-6).
5. according to claim 4 a kind of for coupling the algae collection device for removing algae, it is characterised in that: the driving
Separator (3) further includes centre-drive plate (3-14), two slide bars (3-15), two left springs (3-16), two right spring (3-
17), three fixed links (3-18), six driving stripper plates (3-19) and six brushes (3-20), from drive rack (3-13)
Left end is fixedly connected on the center of the upper end centre-drive plate (3-14), the centrally disposed sliding spacing frame of centre-drive plate (3-14)
In (1-5), two slide bars (3-15) are fixedly connected with the inner wall in center sliding spacing frame (1-5), centre-drive plate (3-14)
It is slidably connected on two slide bars (3-15), two left springs (3-16) and two right springs (3-17) are socketed in two slide bars
On (3-15), two left springs (3-16) are arranged at centre-drive plate (3-14) and center sliding spacing frame (1-5) inner wall is left
Between end, two right springs (3-17) are arranged at centre-drive plate (3-14) and center sliding spacing frame (1-5) inner wall right end
Between, the middle-end of three fixed links (3-18) is uniformly fixedly connected on from top to bottom on centre-drive plate (3-14), fixed link (3-
18) both ends are respectively fixedly connected with a driving stripper plate (3-19), and the lower end of driving stripper plate (3-19) is fixed by screw
It connects brush (3-20), lower end and the solid-liquid separation plate (1-11) of brush (3-20) fit.
6. according to claim 5 a kind of for coupling the algae collection device for removing algae, it is characterised in that: the cyanobacteria
Squeezing recovery controller (5) includes manual rotating bar (5-1), manual actuation gear (5-2), left rack gear (5-3), right rack gear (5-
4), left support block (5-5), right support block (5-6), left-handed opening plate (5-7), right switchboard (5-8), three left plates (5-9), three
A right plate (5-10), two cyanobacteria recycling frame (5-11), six extruding slope blocks (5-12) and two cyanobacteria recovery port (5-
13), the front end of manual rotating bar (5-1) is rotatably connected on the rear end for collecting separation framework (1-1), manual actuation gear (5-2)
Be fixedly connected on manual rotating bar (5-1), move driving gear (5-2) upper and lower ends respectively with left rack gear (5-3) and right tooth
Item (5-4) is meshed transmission, and left support block (5-5) and right support block (5-6), which are fixedly connected with, is collecting separation framework (1-1)
Rear end, left rack gear (5-3) and right rack gear (5-4) are slidably connected at respectively in left support block (5-5) and right support block (5-6), left
Switchboard (5-7) and right switchboard (5-8) are respectively fixedly connected on left rack gear (5-3) and right rack gear (5-4), three left plates
(5-9) is uniformly fixedly connected on left-handed opening plate (5-7), and three right plates (5-10) are uniformly fixedly connected on right switchboard (5-
8) on, two cyanobacteria recycling frame (5-11) are respectively fixedly connected in the left and right ends for collecting separation framework (1-1), the cyanobacteria in left side
Three rectangular slots (1-10) in frame (5-11) connection left side are recycled, cyanobacteria recycling frame (5-11) on right side is connected to three of right side
Rectangular slot (1-10), wherein three squeeze slope block (5-12) and are uniformly fixedly connected in cyanobacteria recycling frame (5-11) in left side,
The other three squeezes slope block (5-12) and is uniformly fixedly connected in cyanobacteria recycling frame (5-11) on right side, three left plates (5-9)
It is slidably connected in cyanobacteria recycling frame (5-11) in left side, three right plates (5-10) are slidably connected at the cyanobacteria recycling frame on right side
In (5-11), two cyanobacteria recovery ports (5-13) are separately positioned on the downside of two cyanobacteria recycling rear ends frame (5-11).
7. according to claim 6 a kind of for coupling the algae collection device for removing algae, it is characterised in that: the solid-liquid
Multiple perforative point of filter circular holes up and down are provided on separating plate (1-11), what six solid-liquid separation plates (1-11) were arranged from top to bottom
The diameter of multiple perforative point of filter circular holes up and down is sequentially reduced.
8. according to claim 7 a kind of for coupling the algae collection device for removing algae, it is characterised in that: the extruding
The inclined direction of the lower half of slope block (5-12) is to tilt down from outer to interior, squeezes the upper half inclined direction of slope block (5-12)
For from preceding to interior rear lower inclination.
9. according to claim 8 a kind of for coupling the algae collection device for removing algae, it is characterised in that: described three
Left plate (5-9) and three right plates (5-10) fit with six extruding slope blocks (5-12) respectively.
10. according to claim 9 a kind of for coupling the algae collection device for removing algae, it is characterised in that: the liquid
Body tap hole (1-13) is connected to liquid recovery tube (4).
Priority Applications (1)
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CN201910255217.XA CN109893889A (en) | 2019-04-01 | 2019-04-01 | A kind of algae collection device for coupling except algae |
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Application Number | Priority Date | Filing Date | Title |
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CN201910255217.XA CN109893889A (en) | 2019-04-01 | 2019-04-01 | A kind of algae collection device for coupling except algae |
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CN109893889A true CN109893889A (en) | 2019-06-18 |
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CN201910255217.XA Pending CN109893889A (en) | 2019-04-01 | 2019-04-01 | A kind of algae collection device for coupling except algae |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN110152366A (en) * | 2019-06-26 | 2019-08-23 | 江苏和吉环保科技有限公司 | Solid-liquid separation device |
CN117535112A (en) * | 2023-10-23 | 2024-02-09 | 江苏金山环保科技有限公司 | Solar low-temperature evaporation device for blue algae recycling treatment and use method |
CN117535112B (en) * | 2023-10-23 | 2024-05-10 | 江苏金山环保科技有限公司 | Solar low-temperature evaporation device for blue algae recycling treatment and use method |
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EP1222950A1 (en) * | 2001-01-16 | 2002-07-17 | Ludwig Kaminski | Apparatus for the separation of liquids issued from milling or cutting processes |
CN106731078A (en) * | 2016-12-26 | 2017-05-31 | 佘小玲 | A kind of filter |
CN107233759A (en) * | 2016-03-28 | 2017-10-10 | 朱蓓 | Many size penalty thing first separation equipment in fluid |
CN108057268A (en) * | 2017-12-21 | 2018-05-22 | 安徽恒宇环保设备制造股份有限公司 | A kind of processing unit of algae scum silica frost |
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Publication number | Priority date | Publication date | Assignee | Title |
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EP1222950A1 (en) * | 2001-01-16 | 2002-07-17 | Ludwig Kaminski | Apparatus for the separation of liquids issued from milling or cutting processes |
CN107233759A (en) * | 2016-03-28 | 2017-10-10 | 朱蓓 | Many size penalty thing first separation equipment in fluid |
CN106731078A (en) * | 2016-12-26 | 2017-05-31 | 佘小玲 | A kind of filter |
CN108057268A (en) * | 2017-12-21 | 2018-05-22 | 安徽恒宇环保设备制造股份有限公司 | A kind of processing unit of algae scum silica frost |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN110152366A (en) * | 2019-06-26 | 2019-08-23 | 江苏和吉环保科技有限公司 | Solid-liquid separation device |
CN117535112A (en) * | 2023-10-23 | 2024-02-09 | 江苏金山环保科技有限公司 | Solar low-temperature evaporation device for blue algae recycling treatment and use method |
CN117535112B (en) * | 2023-10-23 | 2024-05-10 | 江苏金山环保科技有限公司 | Solar low-temperature evaporation device for blue algae recycling treatment and use method |
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