CN109775918A - Sewage-treatment plant - Google Patents
Sewage-treatment plant Download PDFInfo
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- CN109775918A CN109775918A CN201910268165.XA CN201910268165A CN109775918A CN 109775918 A CN109775918 A CN 109775918A CN 201910268165 A CN201910268165 A CN 201910268165A CN 109775918 A CN109775918 A CN 109775918A
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Abstract
The invention discloses sewage-treatment plants, its structure includes control cabinet, feed hopper, support leg, body, partition, thermovent, the bottom end of control cabinet and the top of body are mutually welded, the bottom end of feed hopper and the top of body are mutually welded, support leg is set to the bottom end of body, and the two is integrated, partition is set on body, and the two is mutually welded, the present invention passes through the part-structure to improve equipment, make it when charging, the flashboard of feeding mechanism can be driven to carry out impact to the dross in charging by driving mechanism to pulverize, keep its circulation more preferable, prevent dross accumulation from resulting in blockage, influence the normal operation of equipment, flow velocity is slowed down by the two-way pipeline in precipitating mechanism simultaneously, the part metals in sludge are adsorbed by metal adsorption component thereon, slow down the settling velocity of sludge with this, it prevents containing a large amount of The sludge settling of metal is too fast, it is made to bring excessive moisture into, extremely inconvenient when dehydration.
Description
Technical field
The present invention relates to field of sewage treatment, particularly with regard to a kind of sewage-treatment plant.
Background technique
Steel plant's apparatus for treating sewage is one kind of sewage-treatment plant, is handled specifically for the sewage in steel plant,
Dehydration separation carried out to its sludge, but existing equipment carry out using when, due to tenor in the sewage of steel plant
Higher, settling velocity is very fast, and mixes with sludge with certain viscosity, cause its when being dehydrated still
There is the moisture lock of part to be not readily separated among sludge, influence the normal operation of equipment, while existing equipment is feeding
When, often cause it when freight volume is larger entrainment of many biggish drosses, easily manufacture dross heap in sewage
The blocking of forming apparatus internal pipeline.
Summary of the invention
In view of the deficiencies of the prior art, the present invention is to realize by the following technical solutions: sewage-treatment plant, knot
Structure includes control cabinet, feed hopper, support leg, body, partition, thermovent, and the bottom end of the control cabinet is mutually welded with the top of body
It connects, the bottom end of the feed hopper is mutually welded with the top of body, and the support leg is set to the bottom end of body, and the two is integrated
Change structure, the partition is set on body, and the two is mutually welded, and the thermovent is located at the top of partition, the thermovent
On body, and the two is integrated, and the body includes discharging mechanism, precipitating mechanism, feeding mechanism, driving machine
Structure, shell, the discharging mechanism is set to the left end of precipitating mechanism, and the two is mutually welded, and the precipitating mechanism is set to charger
The left end of structure, and the two is mutually welded, and the bottom end of the precipitating mechanism and the bottom end of shell are mutually welded, and the discharging mechanism is located at
The left of feeding mechanism.
As advanced optimizing for the technical program, the discharging mechanism includes that connecting tube, filtered water tank, flow speed stability go out
Mouthful, delivery pipe, the right end lower part split-phase of the left end of the connecting tube and filtered water tank welds, the right end of the flow speed stability outlet with
The left end of delivery pipe is mutually welded, and the top of the delivery pipe is mutually welded with the bottom end of filtered water tank, and the delivery pipe is located at connecting tube
Left.
As advanced optimizing for the technical program, flow speed stability outlet include stream chamber, protecting crust, limit spring,
Limiting block supporting block, limiting block shaft, limiting block, the stream chamber is set on protecting crust, and the two is integrated, described
The top of limit spring and the bottom end of limiting block supporting block are mutually welded, the upper and lower ends with protecting crust of the limiting block supporting block
It mutually welds, the limiting block shaft is set to, in limiting block supporting block, and the two is integrated, the limiting block and limit
The connection of block shaft hinge is flowed, the limiting block is located at the middle part of protecting crust.
As advanced optimizing for the technical program, the precipitating mechanism includes circulation absorption pipeline, precipitates component, described
Circulation absorption pipeline is set to the top of precipitating component, and the two is integrated, and the circulation absorption pipeline includes import
Slide plate, stream chamber, metal adsorption component, anti-corrosion protection shell, the import slide plate are set to the right end of anti-corrosion protection shell, and two
Person mutually welds, and the stream chamber is set on anti-corrosion protection shell, and the two is integrated, and the metal adsorption component is set to
Flow the middle part of chamber, the metal adsorption component and anti-corrosion protection shell, middle and upper part mutually weld.
As advanced optimizing for the technical program, the category absorbent module includes being tightly connected shell, positive conducting block, magnetic conduction
Plate, magnet plunger, winding, energization guide block, the inside left end for being tightly connected shell is equipped with positive conducting block, and the two is mutually welded,
The magnetic conductive board insertion is mounted on the upper and lower ends for being tightly connected shell, and the two is mutually welded, and the magnet plunger is located at sealing and connects
The middle part of body contact, the winding are fitted around on magnet plunger, and the left end of the energization guide block is mutually welded with the right end of magnet plunger.
As advanced optimizing for the technical program, the precipitating component includes sedimentation basin, filter block, bottom strainer valve
Block, filter block connecting rod, filtering rod link block, the filter block is set in filter block connecting rod, and the two is mutually welded, described
The left end of filter block connecting rod and the right end of filtering rod link block mutually weld, and the filtering rod link block is located at bottom filtering valve block
Surface, bottom filtering valve block is set to the bottom end of sedimentation basin, and the two is integrated, the bottom strainer valve
Block is located at the underface of filter block connecting rod.
As advanced optimizing for the technical program, the feeding mechanism includes chip resistant protective shell, fixed valve block, fixation
Flashboard, mobile flashboard link block, sealing ring, moves up and down bar at import link block, and the top of the fixed valve block and chip resistant are protected
The bottom end of protective case is mutually welded, and the top of the fixed flashboard and the bottom end of fixed valve block are mutually welded, and the import link block is set to
The right end of chip resistant protective shell, and the two is integrated, the bottom end of the mobile flashboard link block and moves up and down bar
Top mutually weld, the sealing ring is fitted around on moving up and down bar, and the two be flexibly connected, the fixed valve block position
In the surface of mobile flashboard link block, and the two activity is touched, and the fixed flashboard is being located at mobile flashboard link block just
Top, and the two activity is touched, and the bottom end for moving up and down bar and the top of driving mechanism are mutually welded.
As advanced optimizing for the technical program, the driving mechanism includes motor support block, motor, motor rotation group
Block, movable plate rotate shifting block, movable plate, buffer spring, and the top of the motor support block is mutually welded with the bottom end of motor, described
Motor rotates the middle part that shifting block is set to motor, and the two is flexibly connected, and the movable plate rotation shifting block is set to motor rotation and dials
Block, and the two is integrated, and the bottom end of the movable plate is flexibly connected with the top of movable plate rotation shifting block, described slow
The bottom end for rushing spring and the top of movable plate are mutually welded, and the top of the movable plate is mutually welded with the bottom end for moving up and down bar.
Beneficial effect
Sewage-treatment plant of the present invention controls body by control cabinet and is run when carrying out using equipment, by
Feed hopper feeds, and when sewage is come on feeding mechanism, drives motor rotation to dial by the motor in driving mechanism
Block is rotated, and matches movable plate rotation shifting block thereon with movable plate, to drive the mobile lock moved up and down on bar
Plate link block carries out upper and lower reciprocating motion, matches mobile flashboard with fixed flashboard, thus to the dross in circulation sewage
It is pulverized, it is more smooth when transport to make it, while when being transported to sedimentation basin, by precipitating mechanism
Stream chamber carries out circulation deceleration on double channel, while the absorption magnet plunger on metal adsorption component is led by energization guide block
Electricity adsorbs its magnet plunger to the metal in sludge, is adhered to it on magnetic conductive board, to reduce the metal in sewage
Substance keeps its settling velocity in sedimentation basin slack-off, and last sewage is cleared up via filtered water tank, then is come by delivery pipe
On the stream chamber of discharging mechanism, current limliting is carried out via the limiting block ridden, is finally carried out the sewage discharge handled well out next
The processing of step.
For the prior art, the present invention passes through the part-structure to improve equipment, makes it when charging, Neng Goutong
The flashboard of mechanism of overdriving drive feeding mechanism carries out impact to the dross in charging and pulverizes, and keeps its circulation more preferable, prevents from floating
Slag muck product results in blockage, and the normal operation of equipment is influenced, while slowing down flow velocity by the two-way pipeline in precipitating mechanism, by thereon
Metal adsorption component the part metals in sludge are adsorbed, slow down the settling velocity of sludge with this, prevent containing big
The sludge settling for measuring metal is too fast, it is made to bring excessive moisture into, extremely inconvenient when dehydration.
Detailed description of the invention
Upon reading the detailed description of non-limiting embodiments with reference to the following drawings, other feature of the invention,
Objects and advantages will become more apparent upon:
Fig. 1 is the structural schematic diagram of sewage-treatment plant of the present invention.
Fig. 2 is the cross section detailed construction schematic diagram before body of the present invention operation.
Fig. 3 is the postrun cross section detailed construction schematic diagram of body of the present invention.
Cross section detailed construction schematic diagram when Fig. 4 is flow speed stability of the present invention outlet operation.
Cross section detailed construction schematic diagram when Fig. 5 is the mechanism operation of present invention precipitating.
Cross section detailed construction schematic diagram when Fig. 6 is metal adsorption assembly operating of the present invention.
Fig. 7 is cross section detailed construction schematic diagram when feeding mechanism of the present invention is run
In figure: control cabinet -1, support leg -3, body -4, partition -5, thermovent -6, discharging mechanism -41, sinks at feed hopper -2
Shallow lake mechanism -42, feeding mechanism -43, driving mechanism -44, shell -45, connecting tube -411, filtered water tank -412, flow speed stability outlet -
413, delivery pipe -414, stream chamber -4131, protecting crust -4132, limit spring -4133, limiting block supporting block -4134, limiting block turn
Axis -4135, limiting block -4136, circulation absorption pipeline -421, precipitating component -422, import slide plate -4211, stream chamber -4212, gold
Belong to absorbent module -4213, anti-corrosion protection shell -4214, be tightly connected shell -42131, positive conducting block -42132, magnetic conductive board -
42133, magnet plunger -42134, winding -421351, energization guide block -42136, sedimentation basin -4221, filter block -4222, bottom mistake
Trap valve block -4223, filter block connecting rod -4224, filtering rod link block -4225, chip resistant protective shell -431, fixed valve block -
432, fixed flashboard -433, import link block -434, mobile flashboard link block -435, sealing ring -436, move up and down bar -437,
Motor support block -441, motor -442, motor rotation shifting block -443, movable plate rotate shifting block -444, movable plate -445, buffering elastic
Spring -446.
Specific embodiment
To be easy to understand the technical means, the creative features, the aims and the efficiencies achieved by the present invention, below with reference to
Specific embodiment and Detailed description of the invention, the preferred embodiment that the present invention is further explained.
Embodiment
Fig. 1-Fig. 7 is please referred to, the present invention provides sewage-treatment plant, and structure includes control cabinet 1, feed hopper 2, support leg
3, body 4, partition 5, thermovent 6, the bottom end of the control cabinet 1 are mutually welded with the top of body 4, the bottom end of the feed hopper 2
It is mutually welded with the top of body 4, the support leg 3 is set to the bottom end of body 4, and the two is integrated, the partition 5
On body 4, and the two is mutually welded, and the thermovent 6 is located at the top of partition 5, and the thermovent 6 is set on body 4,
And the two is integrated, and the body 4 includes discharging mechanism 41, precipitating mechanism 42, feeding mechanism 43, driving mechanism
44, shell 45, the discharging mechanism 41 is set to the left end of precipitating mechanism 42, and the two is mutually welded, and the precipitating mechanism 42 is set
In the left end of feeding mechanism 43, and the two is mutually welded, and the bottom end of the precipitating mechanism 42 and the bottom end of shell 45 are mutually welded, institute
The left that discharging mechanism 41 is located at feeding mechanism 43 is stated, the discharging mechanism 41 is steady including connecting tube 411, filtered water tank 412, flow velocity
Mouth 413, delivery pipe 414 are made, the left end of the connecting tube 411 and the right end lower part split-phase of filtered water tank 412 are welded, the flow velocity
The right end of stabilization of export 413 and the left end of delivery pipe 414 are mutually welded, the top of the delivery pipe 414 and the bottom end of filtered water tank 412
It mutually welds, the delivery pipe 414 is located at the left of connecting tube 411, and the flow speed stability outlet 413 includes stream chamber 4131, protection
Shell 4132, limit spring 4133, limiting block supporting block 4134, limiting block shaft 4135, limiting block 4136, the stream chamber 4131 are set
In on protecting crust 4132, and the two is integrated, the top of the limit spring 4133 and limiting block supporting block 4134
Bottom end mutually weld, the limiting block supporting block 4134 is mutually welded with the upper and lower ends of protecting crust 4132, and the limiting block turns
Axis 4135 is set to, in limiting block supporting block 4134, and the two is integrated, the limiting block 4136 and limiting block shaft
The connection of 4135 hinges, the limiting block 4136 are located at the middle part of protecting crust 4132, and the precipitating mechanism 42 includes circulation adsorption tube
Road 421, precipitating component 422, the circulation absorption pipeline 421 is set to the top of precipitating component 422, and the two is integration knot
Structure, the circulation absorption pipeline 421 include import slide plate 4211, stream chamber 4212, metal adsorption component 4213, anti-corrosion protection shell
4214, the import slide plate 4211 is set to the right end of anti-corrosion protection shell 4214, and the two is mutually welded, and the stream chamber 4212 is set
In on anti-corrosion protection shell 4214, and the two is integrated, and the metal adsorption component 4213 is set to stream chamber 4212
Middle part, the metal adsorption component 4213 and anti-corrosion protection shell 4214, middle and upper part mutually weld, the category absorbent module 4213
Including being tightly connected shell 42131, positive conducting block 42132, magnetic conductive board 42133, magnet plunger 42134, winding 421351, energization guide block
42136, the inside left end for being tightly connected shell 42131 is equipped with positive conducting block 42132, and the two is mutually welded, the magnetic conduction
Plate 42133 is embedded in the upper and lower ends for being mounted on and being tightly connected shell 42131, and the two is mutually welded, and the magnet plunger 42134 is located at
It is tightly connected the middle part of shell 42131, the winding 421351 is fitted around on magnet plunger 42134, the energization guide block 42136
Left end and the right end of magnet plunger 42134 mutually weld, the precipitating component 422 includes sedimentation basin 4221, filter block 4222, bottom
Valve block 4223, filter block connecting rod 4224, filtering rod link block 4225 are filtered, the filter block 4222 is set to filter block connecting rod
On 4224, and the two is mutually welded, and the left end of the filter block connecting rod 4224 is mutually welded with the right end of filtering rod link block 4225
It connects, the filtering rod link block 4225 is located at the surface of bottom filtering valve block 4223, and the bottom filtering valve block 4223 is set to
The bottom end of sedimentation basin 4221, and the two is integrated, and the bottom filtering valve block 4223 is located at filter block connecting rod
4224 underface, the feeding mechanism 43 include chip resistant protective shell 431, fixed valve block 432, fixed flashboard 433, import company
Connect block 434, mobile flashboard link block 435, sealing ring 436, move up and down bar 437, the top of the fixed valve block 432 with it is breakage-proof
The bottom end for splitting protective shell 431 is mutually welded, and the bottom end of the top of the fixed flashboard 433 and fixed valve block 432 is mutually welded, it is described into
Mouth link block 434 is set to the right end of chip resistant protective shell 431, and the two is integrated, the mobile flashboard link block
435 bottom end is mutually welded with the top for moving up and down bar 437, and the sealing ring 436 is fitted around on moving up and down bar 437,
And the two is flexibly connected, and the fixed valve block 432 is located at the surface of mobile flashboard link block 435, and the two activity is touched
It touches, the fixed flashboard 433 is located at the surface of mobile flashboard link block 435, and the two activity is touched, described to move up and down
The bottom end of bar 437 and the top of driving mechanism 44 are mutually welded, the driving mechanism 44 include motor support block 441, motor 442,
Motor rotates shifting block 443, movable plate rotates shifting block 444, movable plate 445, buffer spring 446, the top of the motor support block 441
It holds and is mutually welded with the bottom end of motor 442, the motor rotation shifting block 443 is set to the middle part of motor 442, and the two activity connects
It connects, the movable plate rotation shifting block 444 is set to motor and rotates shifting block 443, and the two is integrated, the movable plate
445 bottom end is flexibly connected with the top of movable plate rotation shifting block 444, bottom end and the movable plate 445 of the buffer spring 446
Top is mutually welded, and the top of the movable plate 445 is mutually welded with the bottom end for moving up and down bar 437.
The principle of the present invention: when carrying out using equipment, body 4 is controlled by control cabinet 1 and is run, by feeding
Bucket 2 feeds, and when sewage is come on feeding mechanism 43, drives motor to turn by the motor 442 in driving mechanism 44
Dynamic shifting block 443 is rotated, and is matched movable plate rotation shifting block 444 thereon with movable plate 445, is moved up and down to drive
Mobile flashboard link block 435 on bar 437 carries out upper and lower reciprocating motion, matches mobile flashboard with fixed flashboard 433, from
And the dross in circulation sewage is pulverized, keep it more smooth when transport, while being transported to sedimentation basin
When, circulation deceleration is carried out on double channel by the stream chamber 412 in precipitating mechanism 42, while on metal adsorption component 4213
Conduction of the absorption magnet plunger 42134 by energization guide block 42136, inhale its magnet plunger 42134 to the metal in sludge
It is attached, it is adhered to it on magnetic conductive board 42133, to reduce the metallics in sewage, keeps it heavy in sedimentation basin 4221
Shallow lake slows, and last sewage is cleared up via filtered water tank 412, then the stream chamber of discharging mechanism 41 is come by delivery pipe 414
On 4131, current limliting is carried out via the limiting block 4136 ridden, finally the sewage discharge handled well is come out and carries out adding for next step
Work.
Problems solved by the invention be existing equipment carry out using when, due to tenor in the sewage of steel plant
Higher, settling velocity is very fast, and mixes with sludge with certain viscosity, cause its when being dehydrated still
There is the moisture lock of part to be not readily separated among sludge, influence the normal operation of equipment, while existing equipment is feeding
When, often cause it when freight volume is larger entrainment of many biggish drosses, easily manufacture dross heap in sewage
The blocking of forming apparatus internal pipeline, the present invention are combined with each other by above-mentioned component, and the present invention passes through the part-structure to improve equipment,
Make it when charging, the flashboard of feeding mechanism can be driven to carry out impact stone roller to the dross in charging by driving mechanism
It is broken, keep its circulation more preferable, prevent dross accumulation from resulting in blockage, influences the normal operation of equipment, while by precipitating mechanism
Two-way pipeline slow down flow velocity, by metal adsorption component thereon the part metals in sludge are adsorbed, are slowed down with this
The settling velocity of sludge prevents the sludge settling containing a large amount of metals too fast, it is made to bring excessive moisture into, when dehydration
It is extremely inconvenient.
The basic principles, main features and advantages of the present invention have been shown and described above, the technology of the industry
Personnel are it should be appreciated that the present invention is not limited to the above embodiments, and the above embodiments and description only describe this
The principle of invention can not only be realized in other specific forms under the premise of not departing from spirit of that invention or essential characteristic
The present invention will also have various changes and improvements, these changes and improvements both fall within scope of the claimed invention, therefore this hair
Bright claimed range is defined by appended claims and its equivalent, rather than above description limits.
In addition, it should be understood that although this specification is described in terms of embodiments, but not each embodiment is only wrapped
Containing an independent technical solution, this description of the specification is merely for the sake of clarity, and those skilled in the art should
It considers the specification as a whole, the technical solutions in the various embodiments may also be suitably combined, forms those skilled in the art
The other embodiments being understood that.
Claims (8)
1. sewage-treatment plant, structure includes control cabinet (1), feed hopper (2), support leg (3), body (4), partition (5), dissipates
Hot mouth (6), the bottom end of the control cabinet (1) and the top of body (4) are mutually welded, the bottom end and body (4) of the feed hopper (2)
Top mutually weld, the support leg (3) is set to the bottom end of body (4), and the two is integrated, the partition (5)
On body (4), and the two is mutually welded, and the thermovent (6) is located at the top of partition (5), and the thermovent (6) is set to
On body (4), and the two is integrated, it is characterised in that:
The body (4) includes discharging mechanism (41), precipitating mechanism (42), feeding mechanism (43), driving mechanism (44), shell
(45), the discharging mechanism (41) is set to the left end of precipitating mechanism (42), and the two is mutually welded, and the precipitating mechanism (42) sets
In the left end of feeding mechanism (43), and the two is mutually welded, the bottom end of precipitating mechanism (42) and the bottom end phase of shell (45)
Welding, the discharging mechanism (41) are located at the left of feeding mechanism (43).
2. sewage-treatment plant according to claim 1, it is characterised in that: the discharging mechanism (41) includes connecting tube
(411), filtered water tank (412), flow speed stability export (413), delivery pipe (414), the left end of the connecting tube (411) and filtered water tank
(412) right end lower part split-phase welding, the right end of the flow speed stability outlet (413) and the left end of delivery pipe (414) are mutually welded,
The top of the delivery pipe (414) and the bottom end of filtered water tank (412) are mutually welded, and the delivery pipe (414) is located at connecting tube (411)
Left.
3. sewage-treatment plant according to claim 2, it is characterised in that: the flow speed stability outlet (413) includes stream
Chamber (4131), protecting crust (4132), limit spring (4133), limiting block supporting block (4134), limiting block shaft (4135), current limliting
Block (4136), the stream chamber (4131) is set on protecting crust (4132), and the two is integrated, the limit spring
(4133) top and the bottom end of limiting block supporting block (4134) are mutually welded, the limiting block supporting block (4134) and protecting crust
(4132) upper and lower ends are mutually welded, and the limiting block shaft (4135) is set to, in limiting block supporting block (4134), and the two
It is integrated, the limiting block (4136) connect with limiting block shaft (4135) hinge, and the limiting block (4136) is located at
The middle part of protecting crust (4132).
4. sewage-treatment plant according to claim 1, it is characterised in that: the precipitating mechanism (42) includes circulation absorption
Pipeline (421), precipitating component (422), circulation absorption pipeline (421) are set to the top of precipitating component (422), and the two
It is integrated, circulation absorption pipeline (421) includes import slide plate (4211), stream chamber (4212), metal adsorption component
(4213), anti-corrosion protection shell (4214), the import slide plate (4211) are set to the right end of anti-corrosion protection shell (4214), and
The two is mutually welded, and the stream chamber (4212) is set on anti-corrosion protection shell (4214), and the two is integrated, the gold
Belong to the middle part that absorbent module (4213) are set to stream chamber (4212), the metal adsorption component (4213) and anti-corrosion protection shell
(4214), it mutually welds middle and upper part.
5. sewage-treatment plant according to claim 4, it is characterised in that: the category absorbent module (4213) includes sealing
Connection shell (42131), magnetic conductive board (42133), magnet plunger (42134), winding (421351), is powered and leads at positive conducting block (42132)
Block (42136), the inside left end for being tightly connected shell (42131) is equipped with positive conducting block (42132), and the two is mutually welded,
Magnetic conductive board (42133) insertion is mounted on the upper and lower ends for being tightly connected shell (42131), and the two is mutually welded, the electricity
Magnetic bar (42134) is located at the middle part for being tightly connected shell (42131), and the winding (421351) is fitted around in magnet plunger
(42134) on, the left end of the energization guide block (42136) and the right end of magnet plunger (42134) are mutually welded.
6. sewage-treatment plant according to claim 4, it is characterised in that: the precipitating component (422) includes sedimentation basin
(4221), filter block (4222), bottom filtering valve block (4223), filter block connecting rod (4224), filtering rod link block (4225),
The filter block (4222) is set on filter block connecting rod (4224), and the two is mutually welded, the filter block connecting rod
(4224) left end and the right end of filtering rod link block (4225) mutually weld, and the filtering rod link block (4225) is located at bottom mistake
The surface of trap valve block (4223), bottom filtering valve block (4223) is set to the bottom end of sedimentation basin (4221), and the two is
Integral structure, bottom filtering valve block (4223) are located at the underface of filter block connecting rod (4224).
7. sewage-treatment plant according to claim 1, it is characterised in that: the feeding mechanism (43) includes that chip resistant is protected
Protective case (431), fixed flashboard (433), import link block (434), moves flashboard link block (435), is close at fixation valve block (432)
Seal ring (436) moves up and down bar (437), the top of the fixed valve block (432) and the bottom end phase of chip resistant protective shell (431)
Welding, the top of the fixed flashboard (433) and the bottom end of fixed valve block (432) are mutually welded, and the import link block (434) sets
Right end in chip resistant protective shell (431), and the two is integrated, the bottom end of the mobile flashboard link block (435)
It is mutually welded with the top for moving up and down bar (437), the sealing ring (436) is fitted around on moving up and down bar (437), and
The two is flexibly connected, and the fixed valve block (432) is located at the surface of mobile flashboard link block (435), and the two activity is touched
It touches, the fixed flashboard (433) is located at the surface for moving flashboard link block (435), and the two activity is touched, described upper and lower
The bottom end of mobile bar (437) and the top of driving mechanism (44) are mutually welded.
8. sewage-treatment plant according to claim 1 or claim 7, it is characterised in that: the driving mechanism (44) includes motor
Supporting block (441), motor (442), motor rotation shifting block (443), movable plate rotation shifting block (444), movable plate (445), buffering
Spring (446), the top of the motor support block (441) and the bottom end of motor (442) are mutually welded, and the motor rotates shifting block
(443) it is set to the middle part of motor (442), and the two is flexibly connected, movable plate rotation shifting block (444) rotates set on motor
Shifting block (443), and the two is integrated, the top of the bottom end of the movable plate (445) and movable plate rotation shifting block (444)
End is flexibly connected, and the bottom end of the buffer spring (446) and the top of movable plate (445) are mutually welded, the movable plate (445)
It is mutually welded with the bottom end for moving up and down bar (437) on top.
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CN201910268165.XA CN109775918A (en) | 2019-04-03 | 2019-04-03 | Sewage-treatment plant |
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CN201910268165.XA CN109775918A (en) | 2019-04-03 | 2019-04-03 | Sewage-treatment plant |
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Application publication date: 20190521 |