CN110327689A - A kind of sewage treatment squeezing sludge components mechanism and its working method - Google Patents
A kind of sewage treatment squeezing sludge components mechanism and its working method Download PDFInfo
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- CN110327689A CN110327689A CN201910741939.6A CN201910741939A CN110327689A CN 110327689 A CN110327689 A CN 110327689A CN 201910741939 A CN201910741939 A CN 201910741939A CN 110327689 A CN110327689 A CN 110327689A
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- fixedly connected
- motor
- sludge
- mud
- support plate
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D36/00—Filter circuits or combinations of filters with other separating devices
- B01D36/02—Combinations of filters of different kinds
Abstract
The invention discloses a kind of sewage treatment squeezing sludge components mechanism and its working methods, it can solve in traditional wastewater processing equipment, good primary filtration is lacked to sludge, it avoids large granular impurity from being mixed in sludge and enters next procedure, and by designing sludge pipe on press cylinder, and mud discharging mouth is designed in sludge pipe, and pass through spring supporting piston, after reaching certain value by the elastic force of spring, sludge discharge work can be carried out automatically after reaching certain pressure, continuous spoil disposal task can be achieved, work efficiency is high, and sludge transhipment is convenient and efficient.Including pedestal, the upper end of the pedestal is fixedly connected with support plate, axis hole is offered in the support plate, motor shaft is rotatably connected in the axis hole, the left end of the support plate is fixedly connected with first motor, the right end of the motor shaft of the first motor is fixedly connected with auger, is rotatably connected to sealing shroud on the outside of the auger.
Description
Technical field
The present invention relates to a kind of sewage treatments to squeeze sludge components mechanism, and in particular to a kind of sewage treatment squeezing sludge group
Part mechanism and its working method.
Background technique
The key subjects of today's society when sewage treatment.Since water resource is increasingly deficient, sewage treatment is recycled
It is the effective ways for alleviating resource anxiety.The type of sewage is also classified into diversified, and therefore, the processing method of sewage is also a variety of
Multiplicity.
Such as some mud and sewages, these sewage are main, and you extract water from sludge, it needs to separate sludge and water,
It is general using the method squeezed by hydraulic pressure filter out come.But some equipment lacks primary filtration measure, causes some bulky grains miscellaneous
Matter enters next procedure, may damage to equipment.And current squeezing mode mostly uses oil cylinder to squeeze, after squeezing is primary
It just needs to carry out discharging, leads to that process is tedious, working efficiency is low.And discharging is placed on catch tray or splendid attire tool, no
Conveniently it is transported through.
Summary of the invention
The purpose of the present invention is to provide a kind of sewage treatment squeezing sludge components mechanism and its working methods, can solve
In traditional wastewater processing equipment, good primary filtration is lacked to sludge, avoids large granular impurity from being mixed in sludge and enters lower road
Process, and mud discharging mouth is designed by designing sludge pipe on press cylinder, and in sludge pipe, and by spring supporting piston, lead to
After crossing the elastic force arrival certain value of spring, sludge discharge work can be carried out automatically after reaching certain pressure, it can be achieved that continuous spoil disposal is appointed
Business, work efficiency is high, and sludge transhipment is convenient and efficient.
The purpose of the present invention can be achieved through the following technical solutions:
A kind of sewage treatment squeezing sludge components mechanism, including pedestal, the upper end of the pedestal are fixedly connected with support plate,
Axis hole is offered in the support plate, motor shaft is rotatably connected in the axis hole, and the left end of the support plate is fixedly connected with
First motor, the right end of the motor shaft of the first motor are fixedly connected with auger, are rotatably connected on the outside of the auger close
Big envelope;
The upper end of the pedestal is fixedly connected with support column, and the upper end of the support column is fixedly connected with feeder, described
Feeder is fixedly connected with sealing shroud, and the upper end of the feeder is fixedly connected with feed inlet, is slidably connected in the feed inlet
There is vibration to struggle against, the outer surface of the vibration bucket is fixedly connected with connecting plate, and the outer surface of the vibration bucket is fixedly connected with guiding
Plate, the upper end of the feeder are fixedly connected with guide rod, and the upper end of the guide rod is connected through a screw thread restraining position ring block, the guide rod
It is connect with guide plate slides, slidably connects filter in the vibration bucket, the upper end of the support plate is fixedly connected with second
Motor, the shaft end of second motor are fixedly connected with cam, the lower end in contact of the cam and connecting plate;
The right end of the feeder has been connected through a screw thread connection cover, and the right end of the connection cover is fixedly connected with squeezing
Cylinder, the right end of the press cylinder are fixedly connected with sludge pipe, and the bottom of the sludge pipe offers mud discharging mouth, the sludge pipe
Right end has been connected through a screw thread end cap, and slide bar is slidably connected in the end cap, and spring is socketed on the outside of the slide bar, described
The left end of slide bar has been connected through a screw thread piston, and the piston is slidably connected with sludge pipe, and the right end of the slide bar is fixedly connected
There is anti-decylization, the lower end of the press cylinder has been connected through a screw thread bottom cover, and support plate, the bottom are slidably connected in the bottom cover
The lower end of lid has been connected through a screw thread connector, and the lower end of the connector is fixedly connected with drainpipe, receipts are placed in the pedestal
Header, the lower end of the collecting box are fixedly connected with turning rolls, and idler wheel, the right end of the collecting box are hinged in the turning rolls
It is fixedly connected with support base, slidably connects positioning pin in the support base.
Preferably, guide groove is offered in the pedestal, slidably connects turning rolls in the guide groove.
Preferably, the upper end of the pedestal offers locating slot, is plugged with positioning pin in the locating slot.
Preferably, pilot hole is offered in the guide plate, the pilot hole is slidably connected with guide rod.
Preferably, the filter is porous engraved structure, and is made of stainless steel material, the upper end of the filter
It is fixedly connected with connecting rod.
Preferably, through slot is offered in the end cap, slidably connects slide bar in the through slot.
Preferably, the support plate is porous engraved structure, and the upper end of the support plate is fixedly connected with filter core, the filter
The inner wall of core and press cylinder is slidably connected.
A kind of working method of sewage treatment squeezing sludge components mechanism, specific steps include:
Step 1: first by the plug of first motor and the second motor respectively with external socket grafting so that first motor and
The work of second motor, when first motor work, the motor shaft of first motor drives auger rotation, when the second motor works, the
Two motors band moving cam rotates;
Step 2: and then mud is passed through into pipeline to bucket is shaken, since the second motor band moving cam rotates, cam is done
When periodic rotary, proximally and distally there is displacement difference, so that cam can generate vibration to connecting plate, so that vibration bucket
Generate vibration so that vibration bucket can move back and forth up and down, under the action of guide rod and stop collar, can prevent guide plate with
Guide rod slips, to prevent vibration bucket from slipping out of feed inlet, when vibration bucket vibration, filter and connecting rod can be driven to shake,
Filter can carry out primary filtration to mud, and large granular impurity is avoided to enter next procedure;
Step 3: after mud is filtered by the filter of vibration bucket, can be entered in feeder by feed inlet, due to auger
Rotation, auger push to the right mud, so that mud enters in press cylinder by connection cover, since auger is constantly defeated to mud
It send, so that mud accumulates more in press cylinder, so that mud is constantly compressed, the moisture in mud is squeezed out, water can pass through
Filter core, support plate and bottom cover flow into connector and drainpipe discharge.
Step 4: as the mud pressure in press cylinder constantly increases, mud has thrust to piston, so that piston
Slide bar is pushed to move right, piston compressed spring, when piston slips over mud discharging mouth, the sludge after being squeezed can be automatically drained out,
Fall into collecting box.
Step 5: after sludge after collecting box collects full squeezing, can move up positioning pin, positioning pin along pin hole to
Upper movement, and positioning pin leaves the locating slot on pedestal, then collecting box can be released to transhipment out of guide groove, it is convenient fast
It is prompt.
Beneficial effects of the present invention: this programme on feed inlet by adding vibration bucket, and the installation filtering in vibration struggles against
Piece shakes and is respectively fixedly connected with connecting plate and guide plate on the outside of bucket, and the bottom contact of connecting plate is motor-driven convex by second
Wheel, guide plate and guide rod cooperate, by the rotation of the second motor driven cam so that connecting plate shakes, so that vibration bucket shake
It is dynamic, so that filter carries out primary filtration to feed sludge, large granular impurity is avoided to enter next procedure;
It by driving auger to realize the conveying of material in first motor, and is constantly pressurizeed to sludge, water is squeezed out, and
And mud discharging mouth is designed by designing sludge pipe on press cylinder, and in sludge pipe, and by spring supporting piston, pass through spring
Sludge discharge work can be carried out automatically after elastic force reaches certain value, after reaching certain pressure, it can be achieved that continuous spoil disposal task, work effect
Rate is high;
Sludge is collected by designing moveable collecting box in pedestal, support base, support base are designed in the surface of collecting box
Inside be slidably connected positioning pin, is positioned by the cooperation of positioning pin and the locating slot on pedestal to collecting box, after collecting full,
Positioning pin is moved up, positioning pin leaves locating slot, can push collecting box, transports convenient and efficient.
Detailed description of the invention
In order to facilitate the understanding of those skilled in the art, the present invention will be further described below with reference to the drawings.
Fig. 1 is overall structure of the present invention;
Fig. 2 is the portion the A schematic enlarged-scale view of Fig. 1 of the present invention;
Fig. 3 is the portion the B schematic enlarged-scale view of Fig. 1 of the present invention;
Fig. 4 is the portion the C schematic enlarged-scale view of Fig. 1 of the present invention;
Fig. 5 is the local structure top view of Fig. 1 of the present invention;
Fig. 6 is the vibration bucket top view of Fig. 1 of the present invention;
Fig. 7 is the collecting box right view of Fig. 1 of the present invention;
Fig. 8 is the bottom cover top view of Fig. 1 of the present invention.
In figure: 1 pedestal, 2 guide grooves, 3 locating slots, 4 support plates, 5 axis holes, 6 first motors, 7 motor shafts, 8 augers, 9 close
Big envelope, 10 support columns, 11 feeders, 12 feed inlets, 13 vibration buckets, 14 connecting plates, 15 guide plates, 16 pilot holes, 17 guide rods, 18
Stop collar, 19 filters, 20 connecting rods, 21 second motors, 22 cams, 23 press cylinders, 24 sludge pipes, 25 mud discharging mouths, 26 end caps, 27
Through slot, 28 slide bars, 29 springs, 30 pistons, 31 anti-decylizations, 32 bottom covers, 33 support plates, 34 filter cores, 35 connectors, 36 drainpipes, 37
Collecting box, 38 turning rolls, 39 idler wheels, 40 support bases, 41 pin holes, 42 positioning pins, 43 connection covers.
Specific embodiment
Technical solution of the present invention is clearly and completely described below in conjunction with embodiment, it is clear that described reality
Applying example is only a part of the embodiment of the present invention, instead of all the embodiments.Based on the embodiments of the present invention, this field is general
Logical technical staff all other embodiment obtained without creative efforts belongs to what the present invention protected
Range.
It please refers to shown in Fig. 1-8, a kind of sewage treatment squeezing sludge components mechanism, including pedestal 1, the upper end of pedestal 1 are solid
Surely it is connected with support plate 4, axis hole 5 is offered in support plate 4, motor shaft 7 is rotatably connected in axis hole 5, axis hole 5 is designed as electricity
Arbor 7 provides rotation space, and the left end of support plate 4 is fixedly connected with first motor 6, the plug of first motor 6 with patch outside
Seat grafting, the right end of the motor shaft 7 of first motor 6 are fixedly connected with auger 8, and the outside of auger 8 is rotatably connected to sealing shroud 9;
The upper end of pedestal 1 is fixedly connected with support column 10, and the upper end of support column 10 is fixedly connected with feeder 11, feeder
11 are fixedly connected with sealing shroud 9, and the upper end of feeder 11 is fixedly connected with feed inlet 11, and vibration is slidably connected in feed inlet 11
Bucket 13, the outer surface of vibration bucket 13 are fixedly connected with connecting plate 14, and the outer surface of vibration bucket 13 is fixedly connected with guide plate 15, send
The upper end of barrel 11 is fixedly connected with guide rod 17, and the upper end of guide rod 17 is connected through a screw thread restraining position ring block 18, guide rod 17 and guiding
Plate 15 is slidably connected, and slidably connects filter 19 in vibration bucket 13, and the upper end of support plate 4 is fixedly connected with the second motor 21,
The shaft end of second motor 21 is fixedly connected with cam 22, the lower end in contact of cam 22 and connecting plate 14;
The right end of feeder 11 has been connected through a screw thread connection cover 43, and the right end of connection cover 43 is fixedly connected with press cylinder
23, the right end of press cylinder 23 is fixedly connected with sludge pipe 24, and the bottom of sludge pipe 24 offers mud discharging mouth 25, the right side of sludge pipe 24
End has been connected through a screw thread end cap 26, slide bar 28 is slidably connected in end cap 26, the outside of slide bar 28 is socketed with spring 29, slide bar
28 left end has been connected through a screw thread piston 30, and piston 30 is slidably connected with sludge pipe 24, and the right end of slide bar 28 is fixedly connected with
Anti-decylization 31, the lower end of press cylinder 23 have been connected through a screw thread bottom cover 32, and support plate 33, bottom cover 32 are slidably connected in bottom cover 32
Lower end be connected through a screw thread connector 35, the lower end of connector 35 is fixedly connected with drainpipe 36, is placed with collecting box in pedestal 1
37, the lower end of collecting box 37 is fixedly connected with turning rolls 38, and idler wheel 39 is hinged in turning rolls 38, and the right end of collecting box 37 is fixed
It is connected with support base 40, positioning pin 42 is slidably connected in support base 40.
Guide groove 2 is offered in pedestal 1, turning rolls 38 is slidably connected in guide groove 2, and the design square plate of guide groove 2 is received
The bottom of header 37 moves into guide groove 2, and convenient to limit to collecting box 37, the upper end of pedestal 1 offers locating slot 3, fixed
It is plugged with positioning pin 42 in the slot 3 of position, by the cooperation of locating slot 3 and positioning pin 42, collecting box 37 can be positioned, so that
Collecting box 37 is placed exactly in the lower section of mud discharging mouth 25, can be collected to the sludge after squeezing, guiding is offered in guide plate 15
Hole 16, pilot hole 16 are slidably connected with guide rod 17, by the cooperation of pilot hole 16 and guide rod 17, can lead to guide plate 15
To be oriented to vibration bucket 13, filter 19 is porous engraved structure, and is made of stainless steel material, filter
19 upper end is fixedly connected with connecting rod 20, and the porous engraved structure of filter 19 can be filtered large granular impurity, connecting rod 20
Design facilitate and take out filter 19, through slot 27 is offered in end cap 26, slide bar 28, through slot 27 are slidably connected in through slot 27
The slide bar 28 that is designed as provide installation space, support plate 33 is porous engraved structure, what support plate 33 can be press-filtered out
Water passes through, and the upper end of support plate 33 is fixedly connected with filter core 34, and filter core 34 and the inner wall of press cylinder 23 are slidably connected, and filter core 34 can
Sludge is filtered, water penetration can only be made to come out.
A kind of working method of sewage treatment squeezing sludge components mechanism, specific steps include:
Step 1: first by the plug of first motor 6 and the second motor 21 respectively with external socket grafting so that first motor
6 and second motor 21 work, when first motor 6 works, the motor shaft 7 of first motor 6 drives auger 8 to rotate, the second motor
When 21 work, the second motor 21 is rotated with moving cam 22;
Step 2: and then by mud by pipeline to vibration bucket 13, since the second motor 21 is rotated with moving cam 22,
When cam 22 does periodic rotary, proximally and distally there is displacement difference, so that cam 22 can generate vibration to connecting plate 14, from
And vibration bucket 13 is made to generate vibration, vibration bucket 13 is moved back and forth up and down, in guide rod 17 and stop collar 18
Under effect, it can prevent guide plate 15 and guide rod 17 from slipping, to prevent vibration bucket 13 from slipping out of feed inlet 12, when vibration bucket 13
When vibration, filter 19 and connecting rod 20 can be driven to shake, filter 19 can carry out primary filtration to mud, avoid large granular impurity
Into next procedure;
Step 3: after mud is filtered by the filter 19 of vibration bucket 13, can be entered in feeder 11 by feed inlet 12,
Since auger 8 rotates, auger 8 pushes to the right mud, so that mud enters in press cylinder 23 by connection cover 43, due to auger
8 pairs of mud constantly convey, so that mud accumulates more in press cylinder 23, so that mud is constantly compressed, by the water in mud
Divide and squeeze out, water can flow into connector 35 through filtration core 34, support plate 33 and bottom cover 32 and drainpipe 36 is discharged.
Step 4: as the mud pressure in press cylinder 23 constantly increases, mud has thrust to piston 30, so that
Piston 30 pushes slide bar 28 to move right, 30 compressed spring 29 of piston, the dirt when piston 30 slips over mud discharging mouth 25, after being squeezed
Mud can be automatically drained out, and fall into collecting box 37.
Step 5: after sludge after collecting box 37 collects full squeezing, positioning pin 42,42 edge of positioning pin can be moved up
Pin hole 41 moves up, and positioning pin 42 leaves the locating slot 3 on pedestal 1, then can push away collecting box 37 out of guide groove 2
It transports out, it is convenient and efficient.
The invention has the benefit that this programme shakes bucket 13 by adding on feed inlet 12, and in vibration bucket 13
Filter 19 is installed, the outside of vibration bucket 13 is respectively fixedly connected with connecting plate 14 and guide plate 15, the bottom contact of connecting plate 14
The cam 22 driven by the second motor 21, guide plate 15 and guide rod 17 cooperate, and the rotation of cam 22 is driven by the second motor 21
So that connecting plate 14 shakes, so that 13 vibration of vibration bucket, so that filter 19 carries out primary filtration to feed sludge,
Large granular impurity is avoided to enter next procedure;
It by driving auger 8 to realize the conveying of material in first motor 6, and is constantly pressurizeed to sludge, water is squeezed out,
And mud discharging mouth 25 is designed by designing sludge pipe 24 on press cylinder 23, and in sludge pipe 24, and live by the support of spring 29
Plug 30 can carry out sludge discharge work automatically after reaching certain value by the elastic force of spring 29, after reaching certain pressure, it can be achieved that even
Continuous spoil disposal task, work efficiency is high;
Sludge is collected by designing moveable collecting box 37 in pedestal 1, support base 40 is designed on the surface of collecting box 37,
Be slidably connected positioning pin 42 in support base 40, is carried out by the cooperation of the locating slot 3 on positioning pin 42 and pedestal 1 to collecting box 37
Positioning moves up positioning pin 42 after collecting full, and positioning pin 42 leaves locating slot 3, can push collecting box 37, transports
It is convenient and efficient.
Present invention disclosed above preferred embodiment is only intended to help to illustrate the present invention.There is no detailed for preferred embodiment
All details are described, are not limited the invention to the specific embodiments described.Obviously, according to the content of this specification,
It can make many modifications and variations.These embodiments are chosen and specifically described to this specification, is in order to better explain the present invention
Principle and practical application, so that skilled artisan be enable to better understand and utilize the present invention.The present invention is only
It is limited by claims and its full scope and equivalent.
Claims (8)
1. sludge components mechanism, including pedestal (1) are squeezed in a kind of sewage treatment, it is characterised in that: the upper end of the pedestal (1) is solid
Surely it is connected with support plate (4), is offered axis hole (5) in the support plate (4), be rotatably connected to motor shaft in the axis hole (5)
(7), the left end of the support plate (4) is fixedly connected with first motor (6), the right end of the motor shaft (7) of the first motor (6)
It is fixedly connected with auger (8), is rotatably connected to sealing shroud (9) on the outside of the auger (8);
The upper end of the pedestal (1) is fixedly connected with support column (10), and the upper end of the support column (10) is fixedly connected with feeding
Cylinder (11), the feeder (11) are fixedly connected with sealing shroud (9), and the upper end of the feeder (11) is fixedly connected with feed inlet
(11), vibration bucket (13) is slidably connected in the feed inlet (11), the outer surface of the vibration bucket (13) is fixedly connected with company
The outer surface of fishplate bar (14), the vibration bucket (13) is fixedly connected with guide plate (15), and the upper end of the feeder (11) is fixed
It is connected with guide rod (17), the upper end of the guide rod (17) is connected through a screw thread restraining position ring block (18), the guide rod (17) and guiding
Plate (15) is slidably connected, and slidably connects filter (19) in the vibration bucket (13), and the upper end of the support plate (4) is fixed to be connected
Be connected to the second motor (21), the shaft end of second motor (21) is fixedly connected with cam (22), the cam (22) with
The lower end in contact of connecting plate (14);
The right end of the feeder (11) has been connected through a screw thread connection cover (43), and the right end of the connection cover (43) is fixedly connected
Have press cylinder (23), the right end of the press cylinder (23) is fixedly connected with sludge pipe (24), and the bottom of the sludge pipe (24) is opened
Equipped with mud discharging mouth (25), the right end of the sludge pipe (24) has been connected through a screw thread end cap (26), sliding in the end cap (26)
It is connected with slide bar (28), is socketed with spring (29) on the outside of the slide bar (28), the left end of the slide bar (28) is connected by screw thread
It is connected to piston (30), the piston (30) is slidably connected with sludge pipe (24), and the right end of the slide bar (28) is fixedly connected with anti-
The lower end of decylization (31), the press cylinder (23) has been connected through a screw thread bottom cover (32), is slidably connected in the bottom cover (32)
The lower end of support plate (33), the bottom cover (32) has been connected through a screw thread connector (35), and the lower end of the connector (35) is fixed to be connected
It is connected to drainpipe (36), is placed with collecting box (37) in the pedestal (1), the lower end of the collecting box (37) is fixedly connected with rolling
Wheel carrier (38), the turning rolls (38) is interior to be hinged with idler wheel (39), and the right end of the collecting box (37) is fixedly connected with support base
(40), positioning pin (42) are slidably connected in the support base (40).
2. sludge components mechanism is squeezed in a kind of sewage treatment according to claim 1, which is characterized in that the pedestal (1)
It inside offers guide groove (2), slidably connects turning rolls (38) in the guide groove (2).
3. sludge components mechanism is squeezed in a kind of sewage treatment according to claim 1, which is characterized in that the pedestal (1)
Upper end offer locating slot (3), is plugged with positioning pin (42) in the locating slot (3).
4. sludge components mechanism is squeezed in a kind of sewage treatment according to claim 1, which is characterized in that the guide plate
(15) it is offered pilot hole (16) in, the pilot hole (16) is slidably connected with guide rod (17).
5. sludge components mechanism is squeezed in a kind of sewage treatment according to claim 1, which is characterized in that the filter
(19) it is porous engraved structure, and is made of stainless steel material, the upper end of the filter (19) is fixedly connected with connecting rod
(20)。
6. sludge components mechanism is squeezed in a kind of sewage treatment according to claim 1, which is characterized in that the end cap (26)
It inside offers through slot (27), slidably connects slide bar (28) in the through slot (27).
7. sludge components mechanism is squeezed in a kind of sewage treatment according to claim 1, which is characterized in that the support plate
It (33) is porous engraved structure, the upper end of the support plate (33) is fixedly connected with filter core (34), the filter core (34) and squeezing
The inner wall of cylinder (23) is slidably connected.
8. a kind of working method of sewage treatment squeezing sludge components mechanism, which is characterized in that specific steps include:
Step 1: first by the plug of first motor (6) and the second motor (21) respectively with external socket grafting so that first motor
(6) it works with the second motor (21), when first motor (6) work, the motor shaft (7) of first motor (6) drives auger (8) to turn
Dynamic, when the second motor (21) works, the second motor (21) band moving cam (22) is rotated;
Step 2: and then mud is passed through into pipeline to bucket (13) is shaken, since the second motor (21) band moving cam (22) turns
It is dynamic, when cam (22) does periodic rotary, proximally and distally there is displacement difference, so that cam (22) can produce connecting plate (14)
Raw vibration, so that vibration bucket (13) generates vibration, so that vibration bucket (13) can move back and forth up and down, in guide rod
(17) and under the action of stop collar (18), can prevent guide plate (15) and guide rod (17) from slipping, thus prevent vibration bucket (13) from
It is slipped in feed inlet (12), when vibration bucket (13) vibration, filter (19) and connecting rod (20) can be driven to shake, filter (19)
Primary filtration can be carried out to mud, large granular impurity is avoided to enter next procedure;
Step 3: after mud is filtered by the filter (19) of vibration bucket (13), feeder can be entered by feed inlet (12)
(11) in, since auger (8) rotate, auger (8) pushes to the right mud, so that mud enters press cylinder by connection cover (43)
(23) in, since auger (8) constantly conveys mud, so that mud accumulation in press cylinder (23) is more, so that mud is continuous
Compressed, by mud moisture squeeze out, water can through filtration core (34), support plate (33) and bottom cover (32) inflow connector (35) and
Drainpipe (36) discharge.
Step 4: as the mud pressure in press cylinder (23) constantly increases, mud has thrust to piston (30), so that
Piston (30) pushes slide bar (28) to move right, piston (30) compressed spring (29), when piston (30) slips over mud discharging mouth (25),
Sludge after being squeezed can be automatically drained out, and fall into collecting box (37).
Step 5: it after sludge after collecting box (37) collect full squeezing, can move up positioning pin (42), positioning pin (42)
It is moved up along pin hole (41), and positioning pin (42) leaves the locating slot (3) on pedestal (1), it then can be by collecting box (37)
Transhipment is released in from guide groove (2), it is convenient and efficient.
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN111974035A (en) * | 2020-07-22 | 2020-11-24 | 首固环保科技(上海)有限公司 | Sludge flocculation and precipitation device applied to sewage treatment equipment |
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Application publication date: 20191015 |