CN108928962A

CN108928962A - A kind of equipment for manganese slag flocculation sedimentation

Info

Publication number: CN108928962A
Application number: CN201810813249.2A
Authority: CN
Inventors: 梁峙; 梁骁; 马捷; 韩宝平; 刘喜坤; 许旭; 张明胜; 陈兴祥; 董平
Original assignee: Xuzhou University of Technology
Current assignee: Xuzhou University of Technology
Priority date: 2018-07-23
Filing date: 2018-07-23
Publication date: 2018-12-04

Abstract

A kind of equipment for manganese slag flocculation sedimentation passes through piping connection between medicament mixing apparatus and Turbulent Flow processor top；The turbulent flow shell of Turbulent Flow processor is equipped with spoil disposal and drain line, and the aeration tube of spray pipe network, Turbulent Flow adsorbing mechanism and annular is successively arranged in inner cavity；Spray pipe network is connect by pipeline with external water pump；Turbulent Flow adsorbing mechanism surface is equipped with a large amount of through-holes, and inside is equipped with adsorption stuffing；Aeration tube top is equipped with solarization air cap, and is connected to the aeration pump being arranged on mobile gas transmission station；The inside of turbulent flow shell is successively arranged dispersal unit, current stabilization buffer cell, current stabilization concussion unit；Dispersal unit is made of two aluminium polychloride dispersion pipes；Current stabilization buffer cell is made of multiple macromolecule current stabilization sieves；Current stabilization shakes unit and shakes monomer composition by multiple current stabilizations, and the vibration device in current stabilization concussion monomer is made the reciprocating motion in transverse direction by driven by vibrating motors rectangular frame.The device can be conducive to quickly handle the sewage containing manganese slag.

Description

A kind of equipment for manganese slag flocculation sedimentation

Technical field

The invention belongs to technical field of sewage, and in particular to a kind of equipment for manganese slag flocculation sedimentation.

Background technique

Important component of the water as human living space provides good freshwater resources for the mankind.But with China's environmental pollution is on the rise, and water pollution problems is also increasingly severeer.Contain manganese slag and micro- life in the water body of some pollutions Object bacterium, the polluted-water containing manganese slag is toxic, can seriously threaten the health of people.

The processing method of the domestic polluted-water containing manganese slag generally uses physical method, biochemical method and chemical method at present. It is long, complicated for operation using these method flows, degradation time is long, takes up a large area.High concentration COD and ammonia nitrogen biochemical process are very It is not easy to handle.Medicament is also put into using chemical method, the ion after investment medicament in system increases, and often eliminates COD and ammonia The content of other substances in system is increased after nitrogen, sterilization.When the COD and ammonia nitrogen concentration that contain in system are very high, bacterium and algae The medicament expense that class is poor using biochemical method treatment effect when breeding quickly, spends is higher, is discharged into the influence in environment to environment It is huge.Therefore, structure is complicated, manufacturing cost is high for the existing processing unit to the polluted-water containing manganese slag, is unfavorable for containing There is the convenient processing of the polluted-water of manganese slag.

Summary of the invention

In view of the above existing problems in the prior art, the present invention provides a kind of equipment for manganese slag flocculation sedimentation, the dresses It is simple to set structure, manufacturing cost is low, can be conducive to the quick improvement to the polluted-water containing manganese slag, with stronger popularization Property.

To achieve the goals above, the present invention provides a kind of equipment for manganese slag flocculation sedimentation, including passes through bracket one The job platform vacantly installed, further includes medicament mixing apparatus, mobile gas transmission station and control system, and the one of the job platform Side has vacantly installed Turbulent Flow processor by bracket two, and the medicament mixing apparatus is located at job platform by the fixed branch of pedestal Lower part；

The medicament mixing apparatus includes medicament mixing shell, and the intracorporal middle part of the medicament mixed shell and lower part are solid respectively Surely cellular reactor and vapor injection line are provided with, the bottom of medicament mixing shell is fixedly connected with to be connected to its inner cavity Confection discharge pipe, the top of medicament mixing shell are fixedly connected with the medicament filling line being connected to its inner cavity and addition Agent charging line is further fixedly arranged on temperature sensor in medicament mixed shell body；The section of the cellular reactor is honeycomb Shape, and up and down, it is made of the standpipe of more honeycomb arrangements；The vapor injection line is annular in shape, upper surface The through-hole being connected to its inner cavity is provided with throughout ground, the steam supply pipe road for connecting vapor injection line is pierced by medicament mixing shell It is connect afterwards with external high steam pipeline；The outlet end of the confection discharge pipe passes through pressure pump and is fixedly connected on The liquid feeding end of the side addition pipeline on Turbulent Flow processor top is fixedly connected, and adding tube road is provided with solenoid valve A；It is described to add Pipeline, confection discharge pipe, medicament filling line, additive charging line and steam supply pipe road is added to be respectively arranged with Solenoid valve A, solenoid valve B, solenoid valve C, solenoid valve D and solenoid valve E；

The movable type gas transmission station is arranged in the lower part of Turbulent Flow processor, mobile gas transmission station include mobile loading plate, Two pairs of movable pulleys for being rotatably connected to mobile loading plate lower part, connect the aeration pump for being securely fitted in mobile loading plate top Connect gas flowmeter and air delivering pipeline at aeration pump gas outlet, the gas valve being arranged on air delivering pipeline；

The Turbulent Flow processor includes the turbulent flow shell of upper end opening, is fixedly connected on turbulent flow housing cavity middle and upper part Spray pipe network is fixedly connected on the Turbulent Flow adsorbing mechanism at middle part in turbulent flow housing cavity, is fixedly connected on turbulent flow housing cavity The aeration tube of middle and lower part, the temperature detector and liquidometer for being fixed at turbulent flow enclosure interior；

The spray pipe network is made of more interconnected spraying pipelines, and the lower part of every spraying pipeline is respectively connected with edge Multiple nozzles being connected to its inner cavity of its length direction distribution, the inlet pipe being fixedly connected with spray pipe network liquid feeding end is by rapids The upper end of stream shell is pierced by and connect with the water outlet of external water pump, and liquid inlet electromagnetic valve, the rapids are connected in inlet pipe Fluidised form adsorbing mechanism promotees reactor group at it is in cylinder that the Turbulent Flow, which promotees reactor, by several Turbulent Flows being distributed in display Shape hollow structure, surface irregularity is simultaneously equipped with the through-hole being largely connected to its inner cavity, internal that adsorption stuffing is housed, Surface is also covered with biomembrane, and in a ring, upper part is provided with the solarization air cap being connected to its inner cavity to the aeration tube；Air delivering pipeline Outlet side pass through input end with aeration tube after turbulent flow shell；

The lower part of the turbulent flow shell is precipitation section funnel-shaped, and the precipitation section includes precipitation section shell, and heavy Shallow lake portion enclosure interior is successively fixedly installed dispersal unit, current stabilization buffer cell, current stabilization concussion unit from top to bottom；The dispersion Unit two aluminium polychloride dispersion pipes in rectangular ring arranged side by side and is evenly connected at each gather in parallel by left and right Close multiple nozzles composition of aluminium chloride dispersion pipe lower part；The current stabilization buffer cell is steady by the multiple macromolecules being longitudinally stacked Flow sieve composition；The current stabilization concussion unit is by from left to right successively multiple current stabilizations of equidistant intervals arrangement shake monomer group At the current stabilization concussion monomer is by being fixedly connected on two vibration devices of precipitation section housing bottom and being fixedly connected on two vibrations The current stabilization wing plate composition of dynamic device upper end, the vertical section of the current stabilization wing plate are in the W type toppled over；The middle part of the precipitation section shell The drain line being connected to its inner cavity and mud line are respectively fixedly connected with lower end, on the mud line and drain line Be connected separately with mud valve and liquid valve, the liquid feeding end of mud line and drain line be located at precipitation section shell bottom and Middle part；Storage tank and middle storage tank water pump in the outside of precipitation section shell is provided with store polymeric aluminum chlorides solution in middle storage tank, The liquid feeding end of middle storage tank water pump is connected to by pipeline with the perforation of the bottom of middle storage tank inner cavity, and the outlet end of middle storage tank water pump leads to respectively Pipeline is crossed to be connected to the inner cavity of two aluminium polychloride dispersion pipes；

The vibration device includes rigid waterproof sealing shell, and the middle part of the waterproof sealing shell is solid at interval in the upper and lower Surely it is connected with a pair of of limit plate and is laterally slidably provided with square shape frame between a pair of of limit plate, the square shape frame The inboard of frame roof side rail and lower-edge beam has been oppositely disposed a pair of of rack gear, and square shape frame is internally provided with rotating wheel, rotation The circumferential direction of wheel is partially provided with continuous tooth, and rotating wheel is engaged by continuous tooth with the rack gear of top or lower part, and rotating wheel is fixed It is assemblied on the output shaft for being fixedly connected on the vibrating motor of waterproof sealing housing interior side-wall；In the side in the left side of square shape frame A pilot hole is respectively offered in the middle part of side bar and in the middle part of the side girders on right side, is laterally slidably equipped with two respectively in two pilot holes A mandril, the outer end and inner end of mandril have been respectively fixedly connected with external limited block and internal limited block, and in external limited block and Part between side girders is set with compressed spring；

Solenoid valve A, aeration pump, gas flowmeter, gas valve, temperature detector, liquidometer, water pump, liquid inlet electromagnetic valve, go out Slurry valve, liquid valve, temperature sensor, solenoid valve B, solenoid valve C, solenoid valve D, solenoid valve E, storage tank water pump, vibration in vibration device Dynamic motor is connect with control system.

In the technical scheme, medicament, additive are filled into medicament mixing from medicament injection pipe, additive filler pipe respectively In equipment, the sprayed high-temperature steam of steam injection pipe promotes medicament to react generation inorganic flocculating agent in cellular inside reactor, After from confection delivery pipe be discharged.By being provided with addition pipeline, mixing medicine in the side of Turbulent Flow processor The medicament mixing apparatus that agent delivery pipe communicates therewith can easily realize that inorganic flocculating agent is injected into Turbulent Flow processor, with It is quickly settled convenient for effectively facilitating the waste in sewage；Make Turbulent Flow processor top that spray pipe network is set, can be easy to implement The rapidly and uniformly injection of sewage, and the setting of more spraying pipelines and multiple nozzles can make to be conducive to that the quick of sewage is added Dispersion, so as to convenient for the inorganic flocculating agent of injection carry out it is good contact, so as to improve flocculating effect, and can be shortened wadding The solidifying time.The setting of aeration tube can evenly and rapidly be added convenient for fresh air, and can uniformly come into full contact with the liquid of whereabouts, So as to effectively kill the anaerobe detested in sewage, meanwhile, the air of entrance can also fill during contacting with water phase Divide four chlorinations in thawing water to face, and is discharged into air by the upper open end of turbulent flow shell.Turbulent flow in matrix is set Turbulent Flow absorber inside state processor, inside is equipped with adsorption stuffing, and surface is covered with biomembrane, so as to sewage In microorganism effectively adsorbed, adsorption stuffing can decompose microorganism adsorbed on biomembrane, thus into one Step improves the treatment effect of sewage.Temperature detector can and liquidometer can in Turbulent Flow processor temperature and liquid level into Row real-time detection, in order to effectively monitor the processing progress to sewage.When sewage falls into precipitation section shell, with middle storage tank water pump The aluminium polychloride sprayed for aluminium polychloride dispersion pipe just meets, and under the buffer function of macromolecule current stabilization sieve, falls Enter the lower part of precipitation section shell；Current stabilization wing plate carries out horizontal concussion under the drive of vibration device, meanwhile, vibration device itself The horizontal concussion that certain amplitude can occur, so as to accelerate flocculation reaction, when current stabilization wing plate, vibration device stop working, has Machine object flocculation sedimentation is simultaneously discharged from the sludge pipe of bottom, and clear water is discharged from the drain line at middle part；Vibrating motor passes through rotating wheel Two upper and lower rack gears are respectively driven, and then realize the bilateral reciprocation of rectangular frame, so that the external limit of mandril outer end Block hits waterproof sealing shell, and then realizes vibration.The apparatus structure is simple, and manufacturing cost is low, convenient operating maintenance, can be convenient Ground realization is handled using to the sewage containing manganese slag, with stronger generalization.

Further, it is cleaned for the ease of the inside to medicament mixing apparatus, the medicament mixing apparatus further includes solid Surely the washing pipeline of medicament mixing housing tip, the one end and washing water pump of washing pipeline in medicament mixing hull outside are connected to Water outlet connection, fixed connect in one end and the lotus spray-head that cellular reactor top is arranged in of medicament mixing enclosure interior It connects；Solenoid valve F is provided on the washing pipeline；Solenoid valve F is connect with control system.The lower part squit hole face of lotus spray-head Cellular reactor, when needing to clean, lotus spray-head spray high pressure water to cellular reactor carry out high-pressure wash.

As a preference, the water outlet of the drain line is connected to external collecting tank.

As a preference, the mesh aperture of the current stabilization sieve is 5mm~16mm；The quantity of current stabilization sieve is 10； The quantity of the current stabilization concussion monomer is 10, and the distance between adjacent current stabilization concussion monomer is 2cm~6cm；The same current stabilization It is distributed with shaking two vibration device front-rear directions among monomer, and at a distance of 10cm~60cm.

As a preference, the aeration pump quantity is two.

As a preference, the precipitation section shell is square cone structure；The spraying pipeline quantity is no less than 6.

As a preference, the job platform is made of stainless steel plate of the thickness between 1cm~1.5cm, in operation Platform periphery is provided with safety barrier, and the safety barrier height is connected on the job platform between 80cm~120cm Ladder.

Further, the longer current stabilization wing plate of good corrosion resistance, service life in order to obtain, the current stabilization wing plate is by weight Number is than composed of the following components:

341.0~566.2 parts of distilled water, 133.3~175.5 parts of 3- methyl undecanonitrile, 2- methoxyl group -5- methyl -4- Four 136.2~245.1 parts of chlorozincate (2:1) of [(4- methyl -2- nitrobenzophenone) azo] benzene diazonium (T-4), 3- methyl mercapto fourth 132.6~149.7 parts of acetoacetic ester, 135.2~192.9 parts of golden yellow leuco compound, 2,2'- [(1- methyl ethylidene) bis- [[2- (2- third Alkenyl) -4,1- phenylene] Oxymethylene] bisoxirane and hydrogen sealing end dimethyl silicone polymer polymer 138.4~ 199.1 parts, 140.9~195.2 parts of Pb nanoparticles, it polymerize [Oxy-1, the Asia 4- benzene (1- methyl ethylidene)-Isosorbide-5-Nitrae-Asia benzene oxygen Carbon-based (the dicarboxyl cyclobutane diyl) carbon-based imino group-Isosorbide-5-Nitrae-Asia benzene of base-Isosorbide-5-Nitrae-phenylene imino group] 133.5~175.9 parts, first 135.1~175.6 parts of polymer of aldehyde and binonylphenol, nonyl phenol and ethylene oxide, 135.6~158.1 parts of alkali formula cupric phosphate, 124.4~160.8 parts of 1, the 1'- di-2-ethylhexylphosphine oxide (isocyanato- benzene) of methyl ethyl ketoxime sealing end, 7- methyl-octanoic 123.2~ 166.8 parts, 132.6~177.2 parts of hexyl formate, 142.1~186.1 parts of polyurethane resin, mass concentration be 132mg/L~ 165.7~219.5 parts of the phosphoric acid cetyl ester sylvite of 399mg/L.

Further, the longer current stabilization wing plate of good corrosion resistance, service life in order to obtain, the production side of the current stabilization wing plate Method is as follows:

Step 1: in more kettle reactors, distilled water and 3- methyl undecanonitrile is added, starts the stirring in more kettle reactors Machine, setting speed are 134rpm~180rpm, start the seal steam heat exchanger in more kettle reactors, rise to temperature 149.0 DEG C~150.2 DEG C, 2- methoxyl group -5- methyl -4- [(4- methyl -2- nitrobenzophenone) azo] benzene diazonium (T-4) four is added Chlorozincate (2:1) stirs evenly, and carries out reaction 126.3~137.5 minutes, and 3- methylmercapto butyric acid ethyl ester is added, is passed through flow For 125.1m³/ min~166.7m³The fluorine gas of/min 126.3~137.5 minutes；It is added in more kettle reactors later golden yellow hidden Colour solid, the seal steam heat exchanger being again started up in more kettle reactors make temperature rise to 166.2 DEG C~199.1 DEG C, heat preservation 126.6~137.7 minutes, 2,2'- [(1- methyl ethylidene) bis- [[2- (2- acrylic) -4,1- phenylene] oxygen methylenes are added Base] bisoxirane and hydrogen sealing end dimethyl silicone polymer polymer, adjust solution in more kettle reactors pH value be 4.2 ~8.9, keep the temperature 126.2~366.2 minutes；

Step 2: separately taking Pb nanoparticles, by Pb nanoparticles power be 6.66KW~12.1KW under ultrasonication After 0.132~1.199 hour；Pb nanoparticles are added in another more kettle reactor, addition mass concentration is 136mg/L [Oxy-1, the Asia 4- benzene (1- methyl ethylidene) Asia -1,4- phenoxy group -1,4- phenylene imino group are carbon-based for the polymerization of~366mg/L (dicarboxyl cyclobutane diyl) carbon-based imino group-Isosorbide-5-Nitrae-Asia benzene] dispersion Pb nanoparticles, start the seal steam in more kettle reactors Heat exchanger makes solution temperature between 46 DEG C~86 DEG C, starts the blender in more kettle reactors, and with 4 × 10²Rpm~8 ×10²The speed of rpm stirs, and adjusts pH value between 4.4~8.8, and insulated and stirred 132~199 minutes；It is quiet to stop reaction later It sets 6.66 × 10~12.1 × 10 minutes, removes impurity；Formaldehyde and binonylphenol, nonyl phenol and ethylene oxide is added in suspension Polymer, adjust pH value between 1.4~2.8, formed sediment with distillation water elution, by centrifuge in revolving speed 4.732 ×10³Rpm~9.23 × 10³Solid content is obtained under rpm, 2.95 × 10²DEG C~3.419 × 10²It is dry at a temperature of DEG C, grinding 0.732 × 10 is crossed afterwards³~1.23 × 10³Mesh, it is spare；

Step 3: Pb nanoparticles after separately taking alkali formula cupric phosphate and step 2 to handle use ionising radiation spoke after mixing According to the energy of ionizing radiation is 123.2MeV~151.8MeV, dosage is 171.2kGy~211.8kGy, irradiation time is 135.2~160.8 minutes, obtain the alkali formula cupric phosphate and Pb nanoparticles mixture of character change；By alkali formula cupric phosphate and lead Nanoparticle mixture is placed in another more kettle reactors, starts the seal steam heat exchanger in more kettle reactors, setting temperature 134.6 DEG C~180.2 DEG C of degree starts the blender in more kettle reactors, and revolving speed is 126rpm~521rpm, and pH is adjusted to 4.1 Between~8.1, it is dehydrated 135.1~149.1 minutes, it is spare；

Step 4: it is dense to add to quality for the alkali formula cupric phosphate and Pb nanoparticles mixture that the character that step 3 is obtained changes In 1, the 1'- di-2-ethylhexylphosphine oxide (isocyanato- benzene) that the methyl ethyl ketoxime that degree is 136mg/L~366mg/L blocks, cocurrent adds to the 1st In more kettle reactors of step, flow acceleration is 271mL/min~999mL/min；Start more kettle reaction mechanical stirrers, setting speed For 140rpm~180rpm；Stirring 4~8 minutes；7- methyl-octanoic is added, the seal steam heat in more kettle reactors is started Exchanger is warming up to 170.7 DEG C~207.5 DEG C, and pH is adjusted between 4.7~8.5, and being passed through fluorine gas ventilatory capacity is 125.293m³/ Min~166.410m³/ min, heat preservation stand 160.0~190.2 minutes；More kettle reaction mechanical stirrers are again started up, revolving speed is 135rpm~180rpm is added hexyl formate, and pH is adjusted between 4.7~8.5, and heat preservation stands 159.3~199.5 points Clock；

Step 5: starting the blender in more kettle reactors, and setting speed is 132rpm~199rpm, starts more kettle reactions Seal steam heat exchanger in device sets temperature in more kettle reactors as 1.581 × 10²DEG C~2.462 × 10²DEG C, it is added Polyurethane resin reacts 126.2~137.1 minutes；Phosphoric acid cetyl ester sylvite is added later, starts in more kettle reactors Seal steam heat exchanger, sets temperature in more kettle reactors as 210.6 DEG C~266.7 DEG C, pH adjust to 4.2~8.2 it Between, pressure is 1.32MPa~1.33MPa, and the reaction time is 0.4~0.9 hour；Being depressurized to gauge pressure later is 0MPa, is cooled to 126.2 DEG C~137.1 DEG C discharge into molding press to get to current stabilization wing plate；

The partial size of the Pb nanoparticles is 140 μm~150 μm.

Detailed description of the invention

Fig. 1 is structural schematic diagram of the invention；

Fig. 2 is the structural schematic diagram of Turbulent Flow processor in the present invention；

Fig. 3 is the structural schematic diagram of Chinese medicine mixing apparatus of the present invention；

Fig. 4 is the structural schematic diagram of precipitation section in the present invention；

Fig. 5 is the structural schematic diagram of vibration device in the present invention；

Fig. 6 is the partial enlarged view in the portion A in Fig. 5；

Fig. 7 is the structural schematic diagram of mobile gas transmission station in the present invention；

Fig. 8 be in the present invention macromolecule current stabilization screen material corrosion resistant erosion degree with the curve graph for using time change.

In figure: 1, ladder, 2, job platform, 3, medicament mixing apparatus, 3-1, confection discharge pipe, 3-2, steam spray Penetrate pipeline, 3-3, cellular reactor, 3-4, additive charging line, 3-5, medicament filling line, 3-6, washing pipeline, 3-7, Temperature sensor, 3-8, pedestal, 3-9, medicament mixing shell, 3-10, steam supply pipe road, 4, addition pipeline, 5, at Turbulent Flow Device is managed, 5-1, liquid inlet electromagnetic valve, 5-2, spraying pipeline, 5-3, Turbulent Flow promote reactor, 5-4, precipitation section, 5-4-1, vibration dress It sets, 5-4-1-1, waterproof sealing shell, 5-4-1-2, limit plate, 5-4-1-3, square shape frame, 5-4-1-4, rack gear, 5-4-1- 5, rotating wheel, 5-4-1-6, continuous tooth, 5-4-1-7, vibrating motor, 5-4-1-8, mandril, 5-4-1-9, compressed spring, 5-4-1- 10, external limited block, 5-4-1-11, internal limited block, 5-4-2, current stabilization wing plate, 5-4-3, macromolecule current stabilization sieve, 5-4-4, Aluminium polychloride dispersion pipe, 5-4-5, precipitation section shell, 5-4-6, middle storage tank, 5-4-7, middle storage tank water pump, 5-5, liquid valve, 5- 6, temperature detector, 5-7, liquidometer, 5-8, aeration tube, 5-9, mud line, 5-10, drain line, 5-11, turbulent flow shell, 5-12, mud valve, 6, mobile gas transmission station, 6-1, movable pulley, 6-2, mobile loading plate, 6-3, aeration pump, 6-4, gas flow Meter, 6-5, gas valve, 6-6, air delivering pipeline, 7, control system.

Specific embodiment

The present invention will be further explained below with reference to the attached drawings.

As shown in Figures 1 to 7, a kind of equipment for manganese slag flocculation sedimentation, including the work vacantly installed by bracket one Industry platform 2 further includes that medicament mixing apparatus 3, mobile gas transmission station 6 and control system 7, the side of the job platform 2 pass through Bracket two has vacantly installed Turbulent Flow processor 5, and the medicament mixing apparatus 3 is located at job platform 2 by the fixed branch of pedestal 3-8 Lower part；

The medicament mixing apparatus 3 includes medicament mixing shell 3-9, and the middle part in the medicament mixing shell 3-9 is under Portion is fixedly installed cellular reactor 3-3 and vapor injection line 3-2 respectively, and the bottom of medicament mixing shell 3-9 is fixed to be connected It is connected to the confection discharge pipe 3-1 being connected to its inner cavity, the top of medicament mixing shell 3-9 is fixedly connected with and its inner cavity Temperature biography is further fixedly arranged in the medicament filling line 3-5 and additive charging line 3-4 of connection, medicament mixing shell 3-9 Sensor 3-7；The section of the cellular reactor 3-3 is honeycomb, and up and down, by the standpipe of more honeycomb arrangements Composition；The vapor injection line 3-2 is annular in shape, and upper surface is provided with the through-hole being connected to its inner cavity throughout ground, connection The steam supply pipe road 3-10 of vapor injection line 3-2 connects after being pierced by medicament mixing shell 3-9 with external high steam pipeline It connects；The steam of high temperature can be equably ejected to the cellular reactor 3-3 on top by the setting of vapor injection line 3-2, To promote the reaction of medicament；The outlet end of the confection discharge pipe 3-1 is by pressure pump and is fixedly connected on Turbulent Flow The liquid feeding end of the side addition pipeline 4 on 5 top of processor is fixedly connected, and is added and is provided with solenoid valve A on pipeline 4；The addition Pipeline 4, confection discharge pipe 3-1, medicament filling line 3-5, additive charging line 3-4 and steam supply pipe road 3-10 On be respectively arranged with solenoid valve A, solenoid valve B, solenoid valve C, solenoid valve D and solenoid valve E；Medicament, additive are infused from medicament respectively Enter pipe 3-5, medicament injection pipe 3-5 is filled into medicament mixing apparatus 3, the sprayed high-temperature steam promotion medicine of steam injection pipe 3-2 Agent in cellular reactor 3-3 internal-response, after be discharged from confection delivery pipe 3-1；

The lower part of Turbulent Flow processor 5 is arranged in the movable type gas transmission station 6, and mobile gas transmission station 6 includes mobile carrying Plate 6-2, two couples of movable pulley 6-1 for being rotatably connected to the lower part mobile loading plate 6-2, it is securely fitted in mobile loading plate 6-2 The aeration pump 6-3 on top, it is connected to gas flowmeter 6-4 and air delivering pipeline 6-6 at the gas outlet aeration pump 6-3, is arranged in gas transmission Gas valve 6-5 on pipeline 6-6；Brake gear can be set on movable pulley 6-1, be also provided with for driving its rotation Driving motor.

The Turbulent Flow processor 5 includes the turbulent flow shell 5-11 of upper end opening, is fixedly connected in turbulent flow shell 5-11 The spray pipe network of chamber middle and upper part is fixedly connected on the Turbulent Flow adsorbing mechanism at middle part in the inner cavity turbulent flow shell 5-11, is fixedly connected Aeration tube 5-8, the temperature detector 5-6 that is fixed inside turbulent flow shell 5-11 in the turbulent flow inner cavity shell 5-11 middle and lower part With liquidometer 5-7；

The spray pipe network is made of more interconnected spraying pipeline 5-2, and the lower part of every spraying pipeline 5-2 connects It is connected to multiple nozzles being connected to its inner cavity distributed along its length, the inlet tube being fixedly connected with spray pipe network liquid feeding end Road 5-13 is pierced by by the upper end of turbulent flow shell 5-11 and is connect with the water outlet of external water pump, is connected on inlet pipe 5-13 Liquid inlet electromagnetic valve 5-1, the Turbulent Flow adsorbing mechanism promote reactor 5-3 by several Turbulent Flows being distributed in display and form, The Turbulent Flow promotees the cylindrical hollow structure of reactor 5-3, and surface irregularity and being equipped with largely is connected to its inner cavity Through-hole, internal that adsorption stuffing is housed, surface is also covered with biomembrane, the aeration tube 5-8 in a ring, upper part setting There is the solarization air cap being connected to its inner cavity；Import of the outlet side of air delivering pipeline 6-6 after turbulent flow shell 5-11 with aeration tube 5-8 End；

The lower part of the turbulent flow shell 5-11 is that precipitation section 5-4, the precipitation section 5-4 funnel-shaped include precipitation section shell Body 5-4-5, and it is successively fixedly installed inside precipitation section shell 5-4-5 dispersal unit, current stabilization buffer cell, steady from top to bottom Stream concussion unit；Two aluminium polychloride dispersion pipe 5- in rectangular ring that the dispersal unit is arranged side by side in parallel by left and right 4-4 and the multiple nozzles composition for being evenly connected at each lower part aluminium polychloride dispersion pipe 5-4-4；The current stabilization buffer cell It is made of the multiple macromolecule current stabilization sieve 5-4-3 being longitudinally stacked；Current stabilization concussion unit is by from left to right successively etc. Multiple current stabilizations of distance interval arrangement shake monomer composition, and the current stabilization concussion monomer is by being fixedly connected on precipitation section shell 5-4- Two vibration device 5-4-1 of 5 bottom ends and the current stabilization wing plate 5-4-2 composition for being fixedly connected on two upper ends vibration device 5-4-1, The vertical section of the current stabilization wing plate 5-4-2 is in the W type toppled over；The middle part and lower end of the precipitation section shell 5-4-5 is fixed respectively It is connected on the drain line 5-10 being connected to its inner cavity and mud line 5-9, the mud line 5-9 and drain line 5-10 It is connected separately with mud valve 5-12 and liquid valve 5-5, the liquid feeding end of mud line 5-9 and drain line 5-10 are located at precipitating The bottom and middle part of portion shell 5-4-5, the liquid feeding end of drain line 5-10 be located at current stabilization buffer cell and current stabilization concussion unit it Between；It is stored up in storage tank 5-4-6 and middle storage tank water pump 5-4-7, middle storage tank 5-4-6 in the outside of precipitation section shell 5-4-5 is provided with There is polymeric aluminum chlorides solution, the liquid feeding end of middle storage tank water pump 5-4-7 is penetrated through by the bottom of pipeline and the inner cavity middle storage tank 5-4-6 Connection, the outlet end of middle storage tank water pump 5-4-7 passes through pipeline respectively and the inner cavity of two aluminium polychloride dispersion pipe 5-4-4 connects It is logical；The mesh aperture of the current stabilization sieve 5-4-3 is 5mm~16mm；The quantity of current stabilization sieve 5-4-3 is 10；The current stabilization The quantity for shaking monomer is 10, and the distance between adjacent current stabilization concussion monomer is 2cm~6cm；The same current stabilization shakes monomer Among two vibration device 5-4-1 front-rear directions be distributed, and at a distance of 10cm~60cm.Sewage is from precipitation section shell 5-4-5 Top enters, and meets with the aluminium polychloride dispersion pipe 5-4-4 aluminium polychloride sprayed, and in macromolecule current stabilization sieve 5-4-3 Buffer function under, fall into the lower part of precipitation section shell 5-4-5；At this time current stabilization wing plate 5-4-2 vibration device 5-4-1 band The dynamic lower horizontal concussion of progress, meanwhile, the horizontal concussion of certain amplitude can also occur for vibration device 5-4-1 itself, so as to accelerate Flocculation reaction, when current stabilization wing plate 5-4-2, vibration device 5-4-1 stop working, organic matter flocculation precipitating and the spoil disposal from bottom Pipe 5-9 discharge, clear water are discharged from the drain line 5-10 at middle part；

The vibration device 5-4-1 includes rigid waterproof sealing shell 5-4-1-1, the waterproof sealing shell 5-4-1- 1 middle part is fixedly connected with a pair of of limit plate 5-4-1-2 at interval in the upper and lower and laterally slides between a pair of of limit plate 5-4-1-2 It is provided with square shape frame 5-4-1-3 dynamicly, the square shape frame 5-4-1-3 roof side rail and the inboard of lower-edge beam relatively set It is equipped with a pair of of rack gear 5-4-1-4, square shape frame 5-4-1-3's is internally provided with rotating wheel 5-4-1-5, rotating wheel 5-4-1-5 It is circumferential be partially provided with continuous tooth 5-4-1-6, rotating wheel 5-4-1-5 passes through continuous tooth 5-4-1-6 and top or lower part Rack gear 5-4-1-4 engagement, rotating wheel 5-4-1-5, which is securely fitted in, is fixedly connected on waterproof sealing shell 5-4-1-1 inner sidewall On the output shaft of vibrating motor 5-4-1-7；In the middle part of the side girders in the left side of square shape frame 5-4-1-3 and the side girders on right side Middle part respectively offers a pilot hole, is laterally slidably worn respectively in two pilot holes there are two mandril 5-4-1-8, mandril 5-4- The outer end and inner end of 1-8 has been respectively fixedly connected with external limited block 5-4-1-10 and internal limited block 5-4-1-11, and in outside Part between limited block 5-4-1-10 and side girders is set with compressed spring 5-4-1-9；

Solenoid valve A, aeration pump 6-3, gas flowmeter 6-4, gas valve 6-5, temperature detector 5-6, liquidometer 5-7, water Pump, liquid inlet electromagnetic valve 5-1, mud valve 5-12, liquid valve 5-5, temperature sensor 3-7, solenoid valve B, solenoid valve C, solenoid valve D, Solenoid valve E, vibration device 5-4-1, middle storage tank water pump 5-4-7, vibrating motor 5-4-1-7 are connect with control system 7.

The medicament mixing apparatus 3 further includes the washing pipeline 3-6 for being fixedly connected on the top medicament mixing shell 3-9, is washed The one end of pipeline 3-6 outside medicament mixing shell 3-9 is washed to connect with the water outlet of washing water pump, in medicament mixing shell 3-9 Internal one end is fixedly connected with the lotus spray-head that the top cellular reactor 3-3 is arranged in；It is arranged on the washing pipeline 3-6 There is solenoid valve F；Solenoid valve F is connect with control system 7.

The temperature detector 5-6 is mounted on turbulent flow shell 5-11 inner sidewall, apart from the upper end turbulent flow shell 5-11 Distance is between 15cm~25cm；The liquidometer 5-7 is set on inner wall, and liquidometer 5-7 is apart from the bottom end turbulent flow shell 5-11 Distance between 40cm~60cm.

The water outlet of the drain line 5-10 is connected to external collecting tank.

The movable plate 6-2 is the galvanized sheet of rectangle.

The aeration pump 6-3 quantity is two.

The precipitation section shell 5-4-5 is square cone structure；The spraying pipeline 5-2 quantity is no less than 6.

The job platform 2 is made of stainless steel plate of the thickness between 1cm~1.5cm, is arranged on 2 periphery of job platform There is safety barrier, the safety barrier height is connected with ladder 1 on the job platform 2 between 80cm~120cm.

Further, the longer current stabilization wing plate 5-4-2 of good corrosion resistance, service life, the current stabilization wing plate 5- in order to obtain 4-2 is composed of the following components by ratio of weight and the number of copies:

Further, the longer current stabilization wing plate 5-4-2 of good corrosion resistance, service life, the current stabilization wing plate 5- in order to obtain 4-2 the production method is as follows:

Step 5: starting the blender in more kettle reactors, and setting speed is 132rpm~199rpm, starts more kettle reactions Seal steam heat exchanger in device sets temperature in more kettle reactors as 1.581 × 10²DEG C~2.462 × 10²DEG C, it is added Polyurethane resin reacts 126.2~137.1 minutes；Phosphoric acid cetyl ester sylvite is added later, starts in more kettle reactors Seal steam heat exchanger, sets temperature in more kettle reactors as 210.6 DEG C~266.7 DEG C, pH adjust to 4.2~8.2 it Between, pressure is 1.32MPa~1.33MPa, and the reaction time is 0.4~0.9 hour；Being depressurized to gauge pressure later is 0MPa, is cooled to 126.2 DEG C~137.1 DEG C discharge into molding press to get to current stabilization wing plate 5-4-2；

The partial size of the Pb nanoparticles is 140 μm~150 μm.

Following embodiment further illustrates the contents of the present invention, and as current stabilization wing plate 5-4-2, it is important set of the invention Part increases the service life of integral device due to its presence, it plays pass for the safety of integral device, even running Key effect.For this purpose, by it is following be embodiment, further verify current stabilization wing plate 5-4-2 of the present invention, the height shown In the physical characteristic of other related patents.

Embodiment 1

Current stabilization wing plate 5-4-2 of the present invention is prepared according to the following steps, and according to parts by weight:

Step 1: in more kettle reactors, 133.3 parts of 341.0 parts of distilled water and 3- methyl undecanonitrile is added, starts more kettles Blender in reactor, setting speed 134rpm start the seal steam heat exchanger in more kettle reactors, make temperature liter To 149.0 DEG C, 2- methoxyl group -5- methyl -4- [(4- methyl -2- nitrobenzophenone) azo] benzene diazonium (T-4) tetrachloro zincic acid is added 136.2 parts of salt (2:1) stirs evenly, and carries out reaction 126.3 minutes, and 132.6 parts of 3- methylmercapto butyric acid ethyl ester is added, is passed through flow For 125.1m³The fluorine gas of/min 126.3 minutes；135.2 parts of golden yellow leuco compound is added in more kettle reactors later, is again started up Seal steam heat exchanger in more kettle reactors makes temperature rise to 166.2 DEG C, keeps the temperature 126.6 minutes, and 2,2'- [(1- is added Methyl ethylidene) bis- [[2- (2- acrylic) -4,1- phenylene] Oxymethylene] bisoxiranes and hydrogen sealing end poly dimethyl 138.4 parts of the polymer of siloxanes, the pH value for adjusting solution in more kettle reactors is 4.2, keeps the temperature 126.2 minutes；

Step 2: separately taking 140.9 parts of Pb nanoparticles, by Pb nanoparticles power be 6.66KW under ultrasonication After 0.132 hour；Pb nanoparticles are added in another more kettle reactor, the polymerization that mass concentration is 136mg/L is added [Oxy-1, carbon-based (the dicarboxyl cyclobutane two of the Asia 4- benzene (the 1- methyl ethylidene) Asia -1,4- phenoxy group -1,4- phenylene imino group Base) carbon-based imino group-Isosorbide-5-Nitrae-Asia benzene] 133.5 parts of dispersion Pb nanoparticles, start the seal steam heat exchange in more kettle reactors Device makes solution temperature at 46 DEG C, starts the blender in more kettle reactors, and with 4 × 10²The speed of rpm stirs, and adjusts pH value 4.4, insulated and stirred 132 minutes；Stop reaction later and stand 6.66 × 10 minutes, removes impurity；Formaldehyde is added in suspension With 135.1 parts of polymer of binonylphenol, nonyl phenol and ethylene oxide, adjustment pH value forms sediment distillation washing 1.4 It is de-, by centrifuge in revolving speed 4.732 × 10³Solid content is obtained under rpm, 2.95 × 10²It is dry at a temperature of DEG C, mistake after grinding 0.732×10³Mesh, it is spare；

Step 3: Pb nanoparticles after separately taking alkali formula cupric phosphate 135.6 and step 2 to handle, after mixing using ionization spoke Irradiation is penetrated, the energy of ionizing radiation is 123.2MeV, dosage 171.2kGy, irradiation time are 135.2 minutes, obtaining property The alkali formula cupric phosphate and Pb nanoparticles mixture that shape changes；Alkali formula cupric phosphate and Pb nanoparticles mixture are placed in another more In kettle reactor, starts the seal steam heat exchanger in more kettle reactors, 134.6 DEG C of set temperature, start more kettle reactors In blender, revolving speed 126rpm, pH are adjusted to 4.1, are dehydrated 135.1 minutes, spare；

Step 4: it is dense to add to quality for the alkali formula cupric phosphate and Pb nanoparticles mixture that the character that step 3 is obtained changes In 124.4 parts of 1, the 1'- di-2-ethylhexylphosphine oxide (isocyanato- benzene) that the methyl ethyl ketoxime that degree is 136mg/L blocks, cocurrent adds to step 1 More kettle reactors in, flow acceleration 271mL/min；Start more kettle reaction mechanical stirrers, setting speed 140rpm；Stirring 4 minutes；123.2 parts of 7- methyl-octanoic are added, starts the seal steam heat exchanger in more kettle reactors, is warming up to 170.7 DEG C, pH is adjusted to 4.7, and being passed through fluorine gas ventilatory capacity is 125.293m³/ min, heat preservation stand 160.0 minutes；It is anti-to be again started up more kettles Mechanical stirrer is answered, revolving speed 135rpm is added 132.6 parts of hexyl formate, and pH is made to be adjusted to 4.7, and heat preservation stands 159.3 points Clock；

Step 5: starting the blender in more kettle reactors, and setting speed 132rpm starts the vapour in more kettle reactors Gland steam heat exchanger sets temperature in more kettle reactors as 1.581 × 10²DEG C, 142.1 parts of polyurethane resin are added, instead It answers 126.2 minutes；165.7 parts of the phosphoric acid cetyl ester sylvite that mass concentration is 132mg/L is added later, starts more kettle reactions Seal steam heat exchanger in device, sets temperature in more kettle reactors as 210.6 DEG C, and pH is adjusted to 4.2, and pressure is 1.32MPa, reaction time are 0.4 hour；Be depressurized to later gauge pressure be 0MPa, be cooled to 126.2 DEG C discharge into molding press to get To current stabilization wing plate 5-4-2；The partial size of the Pb nanoparticles is 140 μm.

Embodiment 2

Step 1: in more kettle reactors, 175.5 parts of 566.2 parts of distilled water and 3- methyl undecanonitrile is added, starts more kettles Blender in reactor, setting speed 180rpm start the seal steam heat exchanger in more kettle reactors, make temperature liter To 150.2 DEG C, 2- methoxyl group -5- methyl -4- [(4- methyl -2- nitrobenzophenone) azo] benzene diazonium (T-4) tetrachloro zincic acid is added 245.1 parts of salt (2:1) stirs evenly, and carries out reaction 137.5 minutes, and 149.7 parts of 3- methylmercapto butyric acid ethyl ester is added, is passed through flow For 166.7m³The fluorine gas of/min 137.5 minutes；192.9 parts of golden yellow leuco compound is added in more kettle reactors later, is again started up Seal steam heat exchanger in more kettle reactors makes temperature rise to 199.1 DEG C, keeps the temperature 137.7 minutes, and 2,2'- [(1- is added Methyl ethylidene) bis- [[2- (2- acrylic) -4,1- phenylene] Oxymethylene] bisoxiranes and hydrogen sealing end poly dimethyl 199.1 parts of the polymer of siloxanes, the pH value for adjusting solution in more kettle reactors is 8.9, keeps the temperature 366.2 minutes；

Step 2: separately taking 195.2 parts of Pb nanoparticles, by Pb nanoparticles power be 12.1KW under ultrasonication 1.199 after hour；Pb nanoparticles are added in another more kettle reactor, the polymerization that mass concentration is 366mg/L is added [Oxy-1, carbon-based (the dicarboxyl cyclobutane two of the Asia 4- benzene (the 1- methyl ethylidene) Asia -1,4- phenoxy group -1,4- phenylene imino group Base) carbon-based imino group-Isosorbide-5-Nitrae-Asia benzene] 175.9 parts of dispersion Pb nanoparticles, start the seal steam heat exchange in more kettle reactors Device makes solution temperature between 86 DEG C, starts the blender in more kettle reactors, and with 8 × 10²The speed of rpm stirs, adjustment PH value is 8.8, insulated and stirred 199 minutes；Stop reaction later and stand 12.1 × 10 minutes, removes impurity；Suspension is added 175.6 parts of polymer of formaldehyde and binonylphenol, nonyl phenol and ethylene oxide, adjustment pH value form sediment distillation 2.8 Water elution, by centrifuge in revolving speed 9.23 × 10³Solid content is obtained under rpm, 3.419 × 10²It is dry at a temperature of DEG C, grinding 1.23 × 10 are crossed afterwards³Mesh, it is spare；

Step 3: Pb nanoparticles after 158.1 parts of alkali formula cupric phosphate and step 2 processing are separately taken, after mixing using ionization Radiation, the energy of ionizing radiation is 151.8MeV, dosage 211.8kGy, irradiation time are 160.8 minutes, is obtained The alkali formula cupric phosphate and Pb nanoparticles mixture that character changes；Alkali formula cupric phosphate and Pb nanoparticles mixture are placed in another In more kettle reactors, starts the seal steam heat exchanger in more kettle reactors, 180.2 DEG C of set temperature, start more kettle reactions Blender in device, revolving speed 521rpm, pH are adjusted to 8.1, are dehydrated 149.1 minutes, spare；

Step 4: it is dense to add to quality for the alkali formula cupric phosphate and Pb nanoparticles mixture that the character that step 3 is obtained changes In 160.8 parts of 1, the 1'- di-2-ethylhexylphosphine oxide (isocyanato- benzene) that the methyl ethyl ketoxime that degree is 366mg/L blocks, cocurrent adds to step 1 More kettle reactors in, flow acceleration 999mL/min；Start more kettle reaction mechanical stirrers, setting speed 180rpm；Stirring 8 minutes；166.8 parts of 7- methyl-octanoic are added, starts the seal steam heat exchanger in more kettle reactors, is warming up to 207.5 DEG C, pH is adjusted to 8.5, and being passed through fluorine gas ventilatory capacity is 166.410m³/ min, heat preservation stand 190.2 minutes；It is anti-to be again started up more kettles Mechanical stirrer is answered, revolving speed 180rpm is added 177.2 parts of hexyl formate, and pH is made to be adjusted to 8.5, and heat preservation stands 199.5 points Clock；

Step 5: starting the blender in more kettle reactors, and setting speed 199rpm starts the vapour in more kettle reactors Gland steam heat exchanger sets temperature in more kettle reactors as 2.462 × 10²DEG C, 186.1 parts of polyurethane resin are added, instead It answers 137.1 minutes；219.5 parts of the phosphoric acid cetyl ester sylvite that mass concentration is 399mg/L is added later, starts more kettle reactions Seal steam heat exchanger in device, sets temperature in more kettle reactors as 266.7 DEG C, and pH is adjusted to 8.2, and pressure is 1.33MPa, reaction time are 0.9 hour；Be depressurized to later gauge pressure be 0MPa, be cooled to 137.1 DEG C discharge into molding press to get To current stabilization wing plate 5-4-2；The partial size of the Pb nanoparticles is 150 μm.

Embodiment 3

Step 1: in more kettle reactors, 133.9 parts of 341.9 parts of distilled water and 3- methyl undecanonitrile is added, starts more kettles Blender in reactor, setting speed 134rpm start the seal steam heat exchanger in more kettle reactors, make temperature liter To 149.9 DEG C, 2- methoxyl group -5- methyl -4- [(4- methyl -2- nitrobenzophenone) azo] benzene diazonium (T-4) tetrachloro zincic acid is added 136.9 parts of salt (2:1) stirs evenly, and carries out reaction 126.9 minutes, and 132.9 parts of 3- methylmercapto butyric acid ethyl ester is added, is passed through flow For 125.9m³The fluorine gas of/min 126.9 minutes；135.9 parts of golden yellow leuco compound is added in more kettle reactors later, is again started up Seal steam heat exchanger in more kettle reactors makes temperature rise to 166.9 DEG C, keeps the temperature 126.9 minutes, and 2,2'- [(1- is added Methyl ethylidene) bis- [[2- (2- acrylic) -4,1- phenylene] Oxymethylene] bisoxiranes and hydrogen sealing end poly dimethyl 138.9 parts of the polymer of siloxanes, the pH value for adjusting solution in more kettle reactors is 4.9, keeps the temperature 126.9 minutes；

Step 2: separately taking 140.9 parts of Pb nanoparticles, by Pb nanoparticles power be 6.669KW under ultrasonication After 0.1329 hour；Pb nanoparticles are added in another more kettle reactor, it is the poly- of 136.9mg/L that mass concentration, which is added, Close [Oxy-1, carbon-based (the dicarboxyl cyclobutane two of the Asia 4- benzene (the 1- methyl ethylidene) Asia -1,4- phenoxy group -1,4- phenylene imino group Base) carbon-based imino group-Isosorbide-5-Nitrae-Asia benzene] 133.9 parts of dispersion Pb nanoparticles, start the seal steam heat exchange in more kettle reactors Device makes solution temperature at 46.9 DEG C, starts the blender in more kettle reactors, and with 4.9 × 10²The speed of rpm stirs, adjustment PH value is 4.9, insulated and stirred 132.9 minutes；Stop reaction later and stand 6.66 × 10 minutes, removes impurity；By suspension plus Enter 135.9 parts of polymer of formaldehyde and binonylphenol, nonyl phenol and ethylene oxide, adjustment pH value forms sediment and steam 1.9 Distilled water elution, by centrifuge in revolving speed 4.732 × 10³Solid content is obtained under rpm, 2.95 × 10²It is dry at a temperature of DEG C, it grinds 0.732 × 10 is crossed after mill³Mesh, it is spare；

Step 3: Pb nanoparticles after separately taking alkali formula cupric phosphate 135.9 and step 2 to handle, after mixing using ionization spoke Irradiation is penetrated, the energy of ionizing radiation is 123.9MeV, dosage 171.9kGy, irradiation time are 135.9 minutes, obtaining property The alkali formula cupric phosphate and Pb nanoparticles mixture that shape changes；Alkali formula cupric phosphate and Pb nanoparticles mixture are placed in another more In kettle reactor, starts the seal steam heat exchanger in more kettle reactors, 134.9 DEG C of set temperature, start more kettle reactors In blender, revolving speed 126rpm, pH are adjusted to 4.9, are dehydrated 135.9 minutes, spare；

Step 4: it is dense to add to quality for the alkali formula cupric phosphate and Pb nanoparticles mixture that the character that step 3 is obtained changes In 124.9 parts of 1, the 1'- di-2-ethylhexylphosphine oxide (isocyanato- benzene) that the methyl ethyl ketoxime that degree is 136.9mg/L blocks, cocurrent adds to the 1st In more kettle reactors of step, flow acceleration 271.9mL/min；Start more kettle reaction mechanical stirrers, setting speed 140rpm； Stirring 4.9 minutes；123.9 parts of 7- methyl-octanoic are added, the seal steam heat exchanger in more kettle reactors is started, is heated up To 170.9 DEG C, pH is adjusted to 4.9, and being passed through fluorine gas ventilatory capacity is 125.9m³/ min, heat preservation stand 160.9 minutes；It is again started up More kettles react mechanical stirrer, and revolving speed 135rpm is added 132.9 parts of hexyl formate, and pH is made to be adjusted to 4.9, and heat preservation is stood 159.9 minute；

Step 5: starting the blender in more kettle reactors, and setting speed 132rpm starts the vapour in more kettle reactors Gland steam heat exchanger sets temperature in more kettle reactors as 1.581 × 10²DEG C, 142.9 parts of polyurethane resin are added, instead It answers 126.9 minutes；165.7 parts of the phosphoric acid cetyl ester sylvite that mass concentration is 132mg/L is added later, starts more kettle reactions Seal steam heat exchanger in device, sets temperature in more kettle reactors as 210.9 DEG C, and pH is adjusted to 4.9, and pressure is 1.32MPa, reaction time are 0.41 hour；Being depressurized to gauge pressure later is 0MPa, is cooled to 126.9 DEG C and discharges into molding press, i.e., Obtain current stabilization wing plate 5-4-2；The partial size of the Pb nanoparticles is 140 μm.

Reference examples

Reference examples are tested for the property test using the current stabilization wing plate of certain commercially available brand.

Embodiment 4

Examples 1 to 3 and reference examples current stabilization wing plate 5-4-2 obtained are tested for the property test, after test To the parameters such as compression strength enhancing rate, resistance to deformation strength enhancing rate, partition service life enhancing rate, impact resistance enhancing rate into Row analysis.Data analysis is as shown in table 1.

As seen from Table 1, current stabilization wing plate 5-4-2 of the present invention, obviously higher than existing skill in Specifications The product of art production.

In addition, as shown in figure 8, the production that Examples 1 to 3 in Specifications, is substantially produced better than the prior art Product.

Working method of one of the present invention for the equipment of manganese slag flocculation sedimentation, this method includes following step It is rapid:

Step 1: solenoid valve E, solenoid valve C and solenoid valve D are controlled by control system 7 and opened, steam supply pipe road is passed through 3-10 feeds steam, is separately added into medicament, additive by medicament injection pipe 3-5, medicament injection pipe 3-5, mixes into medicament Liquid in shell 3-9 accelerates reaction evenly into cellular reactor 3-3 under the action of steam, raw after reaction At inorganic flocculating agent pass through confection discharge pipe 3-1 be discharged；

Step 2 opens liquid inlet electromagnetic valve 5-1 by control system 7, will be fed containing the sewage of manganese slag using pressure pump, And being sprayed onto Turbulent Flow processor 5 by the even action of spraying pipeline 5-2 and nozzle, after 15min, then pass through control System 7 processed starts the aeration pump 6-3 on mobile gas transmission station 6, opens simultaneously the gas valve 6-5 on air delivering pipeline 6-6, passes through exposure Fresh air is fed Turbulent Flow processor 5 by tracheae 5-8, increases the oxygen content in Turbulent Flow processor 5, meanwhile, make entrance The water that air is poured under is adequately contacted, and is killed oxygen animalcule using oxygen, after 10min, passes through control system 7 The solenoid valve A on addition pipeline 4 is opened, adds inorganic flocculating agent into Turbulent Flow processor 5, is carried out with sewage adequately anti- It answers, when sewage is fallen into precipitation section shell 5-4-5, storage tank water pump 5-4-7 and vibrating motor 5-4-1- in the starting of control system 7 7, aluminium polychloride is fed to carry out degerming, deodorization and decoloration, vibrating motor to sewage by aluminium polychloride dispersion pipe 5-4-4 5-4-1-7 drives vibration device 5-4-1 vibration, and then drive current stabilization wing plate 5-4-2 generates the shake of certain amplitude in the horizontal direction Swing, the sewage of whereabouts under the double buffering effect of macromolecule current stabilization sieve 5-4-3 and current stabilization wing plate 5-4-2 with inorganic flocculating agent Adequately reaction, sediment fall into the lower part of precipitation section shell 5-4-5；Sedimentation after the reaction of setting time, after flocculation Object is discharged through mud line 5-9, and the clear water near current stabilization wing plate 5-4-2 enters collecting tank from drain line 5-10 discharge swallow；

Step 3: the microorganism on biomembrane on Turbulent Flow absorber 5-3 inhales the microorganism in the sewage of entrance Degradation is echoed, in the process, the temperature in temperature detector 5-6 real-time monitoring Turbulent Flow processor 5；When detecting temperature height When default value T, electric signal is fed back to control system 7 by temperature detector 5-6, and control system 7 controls coupled Alarm sound an alarm, to notify operator to take cooling measure；

Step 4: liquidometer 5-7 real-time monitoring Turbulent Flow promotees the liquid level of mixing liquid in reactor 5-3；As liquidometer 5-7 When detecting that clear water liquid level is higher than default value M, signal is fed back to control system 7 by liquidometer 5-7, and control system 7 is opened Liquid valve 5-5, by drain line 5-10, by treated, clear water is discharged in time；

Step 5: the conveying capacity of the gas flowmeter 6-4 real-time monitoring air on mobile gas transmission station 6；Work as gas flowmeter When 6-4 detects conveying capacity lower than default value P, feedback signal is sent to control system 7 by gas flowmeter 6-4, control System 7 improves aeration pump 6-3 revolving speed, while increasing gas valve 6-5 aperture, to guarantee the supply of gas.

Claims

1. a kind of equipment for manganese slag flocculation sedimentation, including the job platform (2) vacantly installed by bracket one, feature exists In further including medicament mixing apparatus (3), mobile gas transmission station (6) and control system (7), the side of the job platform (2) leads to It crosses bracket two vacantly to have installed Turbulent Flow processor (5), the medicament mixing apparatus (3) is located at by pedestal (3-8) fixed branch The lower part of job platform (2)；

The medicament mixing apparatus (3) includes medicament mixing shell (3-9), the middle part in the medicament mixing shell (3-9) and Lower part is fixedly installed cellular reactor (3-3) and vapor injection line (3-2), the bottom of medicament mixing shell (3-9) respectively Portion is fixedly connected with the confection discharge pipe (3-1) being connected to its inner cavity, and the top of medicament mixing shell (3-9) is fixed to be connected It is connected to the medicament filling line (3-5) and additive charging line (3-4) being connected to its inner cavity, medicament mixing shell (3-9) is interior It is further fixedly arranged on temperature sensor (3-7)；The section of the cellular reactor (3-3) is honeycomb, and up and down, It is made of the standpipe of more honeycomb arrangements；The vapor injection line (3-2) is annular in shape, and upper surface is provided with throughout ground The steam supply pipe road (3-10) of the through-hole being connected to its inner cavity, connection vapor injection line (3-2) is pierced by medicament mixing shell (3-9) is connect with external high steam pipeline afterwards；The outlet end of the confection discharge pipe (3-1) by pressure pump with The liquid feeding end for being fixedly connected on side addition pipeline (4) on Turbulent Flow processor (5) top is fixedly connected, in addition pipeline (4) It is provided with solenoid valve A；The addition pipeline (4), confection discharge pipe (3-1), medicament filling line (3-5), additive Solenoid valve A, solenoid valve B, solenoid valve C, solenoid valve D are respectively arranged on charging line (3-4) and steam supply pipe road (3-10) With solenoid valve E；

The movable type gas transmission station (6) is arranged in the lower part of Turbulent Flow processor (5), and mobile gas transmission station (6) includes that movement is held Support plate (6-2), two pairs of movable pulleys (6-1) for being rotatably connected to the lower part mobile loading plate (6-2) are securely fitted in mobile hold The aeration pump (6-3) on the top support plate (6-2) is connected to gas flowmeter (6-4) and air delivering pipeline at the gas outlet aeration pump (6-3) (6-6), the gas valve (6-5) being arranged on air delivering pipeline (6-6)；

The Turbulent Flow processor (5) includes the turbulent flow shell (5-11) of upper end opening, is fixedly connected on turbulent flow shell (5-11) The spray pipe network of inner cavity middle and upper part is fixedly connected on the Turbulent Flow adsorbing mechanism at middle part, fixation in the inner cavity turbulent flow shell (5-11) It is connected to the aeration tube (5-8) of the inner cavity middle and lower part turbulent flow shell (5-11), is fixed at the internal temperature of turbulent flow shell (5-11) Spend detector (5-6) and liquidometer (5-7)；

The spray pipe network is made of more interconnected spraying pipelines (5-2), and the lower part of every spraying pipeline (5-2) connects It is connected to multiple nozzles being connected to its inner cavity distributed along its length, the inlet tube being fixedly connected with spray pipe network liquid feeding end Road (5-13) is pierced by by the upper end of turbulent flow shell (5-11) and is connect with the water outlet of external water pump, in inlet pipe (5-13) It is connected with liquid inlet electromagnetic valve (5-1), the Turbulent Flow adsorbing mechanism promotees reactor by several Turbulent Flows being distributed in display (5-3) composition, the Turbulent Flow promote reactor (5-3) cylindrical hollow structure, and surface irregularity is simultaneously equipped with a large amount of The through-hole being connected to its inner cavity, internal that adsorption stuffing is housed, surface is also covered with biomembrane, and the aeration tube (5-8) is in Annular, upper part are provided with the solarization air cap being connected to its inner cavity；The outlet side of air delivering pipeline (6-6) passes through turbulent flow shell (5-11) Afterwards with the input end of aeration tube (5-8)；

The lower part of the turbulent flow shell (5-11) is precipitation section (5-4) funnel-shaped, and the precipitation section (5-4) includes precipitation section Shell (5-4-5), and successively it is fixedly installed dispersal unit, current stabilization buffering from top to bottom inside precipitation section shell (5-4-5) Unit, current stabilization shake unit；Two aluminium polychlorides in rectangular ring that the dispersal unit is arranged side by side in parallel by left and right Dispersion pipe (5-4-4) and the multiple nozzles composition for being evenly connected at each aluminium polychloride dispersion pipe (5-4-4) lower part；It is described Current stabilization buffer cell is made of the multiple macromolecule current stabilization sieves (5-4-3) being longitudinally stacked；Current stabilization concussion unit by From left to right successively multiple current stabilizations of equidistant intervals arrangement shake monomer composition, and the current stabilization concussion monomer is by being fixedly connected on Two vibration devices (5-4-1) of the bottom end precipitation section shell (5-4-5) and it is fixedly connected on two vibration device (5-4-1) upper ends Current stabilization wing plate (5-4-2) composition, the vertical section of the current stabilization wing plate (5-4-2) is in the W type toppled over；The precipitation section shell The middle part and lower end of (5-4-5) are respectively fixedly connected with the drain line (5-10) being connected to its inner cavity and mud line (5-9), Mud valve (5-12) and liquid valve (5-5), sludge pipe are connected separately in the mud line (5-9) and drain line (5-10) The liquid feeding end of road (5-9) and drain line (5-10) is located at the bottom and middle part of precipitation section shell (5-4-5)；In precipitation section The outside of shell (5-4-5) is provided with middle storage tank (5-4-6) and middle storage tank water pump (5-4-7), stores in middle storage tank (5-4-6) The liquid feeding end of polymeric aluminum chlorides solution, middle storage tank water pump (5-4-7) is penetrated through by the bottom of pipeline and the inner cavity middle storage tank (5-4-6) Connection, the outlet end of middle storage tank water pump (5-4-7) pass through the inner cavity of pipeline and two aluminium polychloride dispersion pipes (5-4-4) respectively Connection；

The vibration device (5-4-1) includes rigid waterproof sealing shell (5-4-1-1), the waterproof sealing shell (5-4- Middle part 1-1) is fixedly connected with a pair of of limit plate (5-4-1-2) and at interval in the upper and lower between a pair of of limit plate (5-4-1-2) It is laterally slidably provided with square shape frame (5-4-1-3), in square shape frame (5-4-1-3) roof side rail and lower-edge beam Side has been oppositely disposed a pair of of rack gear (5-4-1-4), and square shape frame (5-4-1-3) is internally provided with rotating wheel (5-4-1- 5), the circumferential of rotating wheel (5-4-1-5) is partially provided with continuous tooth (5-4-1-6), and rotating wheel (5-4-1-5) passes through continuous tooth (5-4-1-6) is engaged with the rack gear (5-4-1-4) of top or lower part, and rotating wheel (5-4-1-5), which is securely fitted in, to be fixedly connected on On the output shaft of the vibrating motor (5-4-1-7) of waterproof sealing shell (5-4-1-1) inner sidewall；In square shape frame (5-4-1- 3) pilot hole is respectively offered in the middle part of the side girders in left side and in the middle part of the side girders on right side, is distinguished in two pilot holes laterally sliding There are two wearing dynamicly mandril (5-4-1-8), the outer end and inner end of mandril (5-4-1-8) have been respectively fixedly connected with external limited block (5-4-1-10) and internal limited block (5-4-1-11), and the part set between external limited block (5-4-1-10) and side girders Equipped with compressed spring (5-4-1-9)；

Solenoid valve A, aeration pump (6-3), gas flowmeter (6-4), gas valve (6-5), temperature detector (5-6), liquidometer (5- 7), water pump, liquid inlet electromagnetic valve (5-1), mud valve (5-12), liquid valve (5-5), temperature sensor (3-7), solenoid valve B, electromagnetism Valve C, solenoid valve D, solenoid valve E, vibration device (5-4-1), middle storage tank water pump (5-4-7) and vibrating motor (5-4-1-7) with Control system (7) connection.

2. a kind of equipment for manganese slag flocculation sedimentation according to claim 1, which is characterized in that the medicament mixing is set Standby (3) further include the washing pipeline (3-6) for being fixedly connected on the top medicament mixing shell (3-9), and washing pipeline (3-6) is in medicament Mix the external one end shell (3-9) and the connection of the water outlet of washing water pump, in the internal one end of medicament mixing shell (3-9) and The lotus spray-head on the top cellular reactor (3-3) is arranged to be fixedly connected；Solenoid valve is provided on the washing pipeline (3-6) F；Solenoid valve F is connect with control system (7).

3. a kind of equipment for manganese slag flocculation sedimentation according to claim 1 or 2, which is characterized in that the drain pipe The water outlet on road (5-10) is connected to external collecting tank.

4. a kind of equipment for manganese slag flocculation sedimentation according to claim 3, which is characterized in that the current stabilization sieve The mesh aperture of (5-4-3) is 5mm~16mm；The quantity of current stabilization sieve (5-4-3) is 10；The number of the current stabilization concussion monomer Amount is 10, and the distance between adjacent current stabilization concussion monomer is 2cm~6cm；Two vibrations among the same current stabilization concussion monomer It is distributed to dynamic device (5-4-1) front-rear direction, and at a distance of 10cm~60cm.

5. a kind of equipment for manganese slag flocculation sedimentation according to claim 4, which is characterized in that the aeration pump (6- 3) quantity is two.

6. a kind of equipment for manganese slag flocculation sedimentation according to claim 5, which is characterized in that the precipitation section shell (5-4-5) is square cone structure；Spraying pipeline (5-2) quantity is no less than 6.

7. a kind of equipment for manganese slag flocculation sedimentation according to claim 6, which is characterized in that the job platform (2) stainless steel plate by thickness between 1cm~1.5cm is made, and job platform (2) periphery is provided with safety barrier, described Safety barrier height is connected with ladder (1) on the job platform (2) between 80cm~120cm.

8. a kind of equipment for manganese slag flocculation sedimentation according to claim 7, which is characterized in that the current stabilization wing plate (5-4-2) is composed of the following components by ratio of weight and the number of copies:

341.0~566.2 parts of distilled water, 133.3~175.5 parts of 3- methyl undecanonitrile, 2- methoxyl group -5- methyl -4- [(4- first Base -2- nitrobenzophenone) azo] four 136.2~245.1 parts of chlorozincate (2:1) of benzene diazonium (T-4), 3- methylmercapto butyric acid ethyl ester 132.6~149.7 parts, 135.2~192.9 parts of golden yellow leuco compound, 2,2'- [(1- methyl ethylidene) bis- [[2- (2- acrylic)- 4,1- phenylenes] Oxymethylene] 138.4~199.1 parts of polymer of dimethyl silicone polymer of bisoxirane and hydrogen sealing end, 140.9~195.2 parts of Pb nanoparticles, it polymerize [Oxy-1, the Asia 4- benzene (1- methyl ethylidene)-Isosorbide-5-Nitrae-Asia phenoxy group-Isosorbide-5-Nitrae-Asia Carbon-based (the dicarboxyl cyclobutane diyl) carbon-based imino group-Isosorbide-5-Nitrae-Asia benzene of phenylimino] 133.5~175.9 parts, formaldehyde and dinonyl 135.1~175.6 parts of the polymer of phenol, nonyl phenol and ethylene oxide, 135.6~158.1 parts of alkali formula cupric phosphate, methyl ethyl ketoxime envelope 124.4~160.8 parts of 1, the 1'- di-2-ethylhexylphosphine oxide (isocyanato- benzene) at end, 123.2~166.8 parts of 7- methyl-octanoic, formic acid 132.6~177.2 parts of own ester, 142.1~186.1 parts of polyurethane resin, mass concentration is the phosphoric acid of 132mg/L~399mg/L 165.7~219.5 parts of cetyl ester sylvite.

9. a kind of equipment for manganese slag flocculation sedimentation according to claim 8, which is characterized in that the current stabilization wing plate (5-4-2) the production method is as follows:

Step 1: in more kettle reactors, being added distilled water and 3- methyl undecanonitrile, start the blender in more kettle reactors, if Determine revolving speed be 134rpm~180rpm, start the seal steam heat exchanger in more kettle reactors, make temperature rise to 149.0 DEG C~ 150.2 DEG C, four chlorozincate of 2- methoxyl group -5- methyl -4- [(4- methyl -2- nitrobenzophenone) azo] benzene diazonium (T-4) is added (2:1) is stirred evenly, and carries out reaction 126.3~137.5 minutes, 3- methylmercapto butyric acid ethyl ester is added, being passed through flow is 125.1m³/ min~166.7m³The fluorine gas of/min 126.3~137.5 minutes；Golden yellow procrypsis is added in more kettle reactors later Body, the seal steam heat exchanger being again started up in more kettle reactors make temperature rise to 166.2 DEG C~199.1 DEG C, heat preservation 126.6~137.7 minutes, 2,2'- [(1- methyl ethylidene) bis- [[2- (2- acrylic) -4,1- phenylene] oxygen methylenes are added Base] bisoxirane and hydrogen sealing end dimethyl silicone polymer polymer, adjust solution in more kettle reactors pH value be 4.2 ~8.9, keep the temperature 126.2~366.2 minutes；

Step 2: separately taking Pb nanoparticles, by Pb nanoparticles power be 6.66KW~12.1KW under ultrasonication 0.132 After~1.199 hours；Pb nanoparticles are added in another more kettle reactor, addition mass concentration be 136mg/L~ [Oxy-1, the Asia 4- benzene (1- methyl ethylidene) Asia -1,4- phenoxy group -1,4- phenylene imino group are carbon-based for the polymerization of 366mg/L (dicarboxyl cyclobutane diyl) carbon-based imino group-Isosorbide-5-Nitrae-Asia benzene] dispersion Pb nanoparticles, start the seal steam in more kettle reactors Heat exchanger makes solution temperature between 46 DEG C~86 DEG C, starts the blender in more kettle reactors, and with 4 × 10²Rpm~8 ×10²The speed of rpm stirs, and adjusts pH value between 4.4~8.8, and insulated and stirred 132~199 minutes；It is quiet to stop reaction later It sets 6.66 × 10~12.1 × 10 minutes, removes impurity；Formaldehyde and binonylphenol, nonyl phenol and ethylene oxide is added in suspension Polymer, adjust pH value between 1.4~2.8, formed sediment with distillation water elution, by centrifuge in revolving speed 4.732 ×10³Rpm~9.23 × 10³Solid content is obtained under rpm, 2.95 × 10²DEG C~3.419 × 10²It is dry at a temperature of DEG C, grinding 0.732 × 10 is crossed afterwards³~1.23 × 10³Mesh, it is spare；

Step 3: Pb nanoparticles after separately taking alkali formula cupric phosphate and step 2 to handle use ionizing radiation, electricity after mixing Energy from radiation is 123.2MeV~151.8MeV, dosage is 171.2kGy~211.8kGy, irradiation time 135.2 ~160.8 minutes, obtain the alkali formula cupric phosphate and Pb nanoparticles mixture of character change；Alkali formula cupric phosphate and lead nanometer is micro- Grain mixture is placed in another more kettle reactors, starts the seal steam heat exchanger in more kettle reactors, set temperature 134.6 DEG C~180.2 DEG C, start the blender in more kettle reactors, revolving speed is 126rpm~521rpm, pH be adjusted to 4.1~8.1 it Between, it is dehydrated 135.1~149.1 minutes, it is spare；

Step 4: the alkali formula cupric phosphate and Pb nanoparticles mixture that the character that step 3 is obtained changes, adding to mass concentration is In 1, the 1'- di-2-ethylhexylphosphine oxide (isocyanato- benzene) of the methyl ethyl ketoxime sealing end of 136mg/L~366mg/L, cocurrent adds to step 1 In more kettle reactors, flow acceleration is 271mL/min~999mL/min；Start more kettle reaction mechanical stirrers, setting speed is 140rpm~180rpm；Stirring 4~8 minutes；7- methyl-octanoic is added, the seal steam heat started in more kettle reactors is handed over Parallel operation is warming up to 170.7 DEG C~207.5 DEG C, and pH is adjusted between 4.7~8.5, and being passed through fluorine gas ventilatory capacity is 125.293m³/ Min~166.410m³/ min, heat preservation stand 160.0~190.2 minutes；More kettle reaction mechanical stirrers are again started up, revolving speed is 135rpm~180rpm is added hexyl formate, and pH is adjusted between 4.7~8.5, and heat preservation stands 159.3~199.5 points Clock；

Step 5: starting the blender in more kettle reactors, and setting speed is 132rpm~199rpm, starts in more kettle reactors Seal steam heat exchanger, set temperature in more kettle reactors as 1.581 × 10²DEG C~2.462 × 10²DEG C, poly- ammonia is added Ester resin reacts 126.2~137.1 minutes；Phosphoric acid cetyl ester sylvite is added later, starts the packing in more kettle reactors Steam heat-exchanger sets the temperature in more kettle reactors as 210.6 DEG C~266.7 DEG C, and pH is adjusted between 4.2~8.2, pressure Power is 1.32MPa~1.33MPa, and the reaction time is 0.4~0.9 hour；Being depressurized to gauge pressure later is 0MPa, is cooled to 126.2 DEG C~137.1 DEG C discharge into molding press to get to current stabilization wing plate (5-4-2).

10. a kind of equipment for manganese slag flocculation sedimentation according to claim 9, which is characterized in that the lead nanometer is micro- The partial size of grain is 140 μm~150 μm.