CN109395648B - A kind of preparation process of water paint, device and its formula - Google Patents
A kind of preparation process of water paint, device and its formula Download PDFInfo
- Publication number
- CN109395648B CN109395648B CN201811119344.9A CN201811119344A CN109395648B CN 109395648 B CN109395648 B CN 109395648B CN 201811119344 A CN201811119344 A CN 201811119344A CN 109395648 B CN109395648 B CN 109395648B
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- Prior art keywords
- dispersion
- slurries
- gas
- chamber
- water paint
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01F—MIXING, e.g. DISSOLVING, EMULSIFYING OR DISPERSING
- B01F33/00—Other mixers; Mixing plants; Combinations of mixers
- B01F33/50—Movable or transportable mixing devices or plants
- B01F33/501—Movable mixing devices, i.e. readily shifted or displaced from one place to another, e.g. portable during use
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01F—MIXING, e.g. DISSOLVING, EMULSIFYING OR DISPERSING
- B01F27/00—Mixers with rotary stirring devices in fixed receptacles; Kneaders
- B01F27/80—Mixers with rotary stirring devices in fixed receptacles; Kneaders with stirrers rotating about a substantially vertical axis
- B01F27/90—Mixers with rotary stirring devices in fixed receptacles; Kneaders with stirrers rotating about a substantially vertical axis with paddles or arms
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01F—MIXING, e.g. DISSOLVING, EMULSIFYING OR DISPERSING
- B01F33/00—Other mixers; Mixing plants; Combinations of mixers
- B01F33/80—Mixing plants; Combinations of mixers
- B01F33/82—Combinations of dissimilar mixers
- B01F33/821—Combinations of dissimilar mixers with consecutive receptacles
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01F—MIXING, e.g. DISSOLVING, EMULSIFYING OR DISPERSING
- B01F35/00—Accessories for mixers; Auxiliary operations or auxiliary devices; Parts or details of general application
- B01F35/75—Discharge mechanisms
- B01F35/754—Discharge mechanisms characterised by the means for discharging the components from the mixer
- B01F35/75425—Discharge mechanisms characterised by the means for discharging the components from the mixer using pistons or plungers
- B01F35/754251—Discharge mechanisms characterised by the means for discharging the components from the mixer using pistons or plungers reciprocating in the mixing receptacle
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- C—CHEMISTRY; METALLURGY
- C09—DYES; PAINTS; POLISHES; NATURAL RESINS; ADHESIVES; COMPOSITIONS NOT OTHERWISE PROVIDED FOR; APPLICATIONS OF MATERIALS NOT OTHERWISE PROVIDED FOR
- C09D—COATING COMPOSITIONS, e.g. PAINTS, VARNISHES OR LACQUERS; FILLING PASTES; CHEMICAL PAINT OR INK REMOVERS; INKS; CORRECTING FLUIDS; WOODSTAINS; PASTES OR SOLIDS FOR COLOURING OR PRINTING; USE OF MATERIALS THEREFOR
- C09D161/00—Coating compositions based on condensation polymers of aldehydes or ketones; Coating compositions based on derivatives of such polymers
- C09D161/20—Condensation polymers of aldehydes or ketones with only compounds containing hydrogen attached to nitrogen
- C09D161/32—Modified amine-aldehyde condensates
-
- C—CHEMISTRY; METALLURGY
- C09—DYES; PAINTS; POLISHES; NATURAL RESINS; ADHESIVES; COMPOSITIONS NOT OTHERWISE PROVIDED FOR; APPLICATIONS OF MATERIALS NOT OTHERWISE PROVIDED FOR
- C09D—COATING COMPOSITIONS, e.g. PAINTS, VARNISHES OR LACQUERS; FILLING PASTES; CHEMICAL PAINT OR INK REMOVERS; INKS; CORRECTING FLUIDS; WOODSTAINS; PASTES OR SOLIDS FOR COLOURING OR PRINTING; USE OF MATERIALS THEREFOR
- C09D7/00—Features of coating compositions, not provided for in group C09D5/00; Processes for incorporating ingredients in coating compositions
- C09D7/40—Additives
- C09D7/60—Additives non-macromolecular
- C09D7/61—Additives non-macromolecular inorganic
-
- C—CHEMISTRY; METALLURGY
- C09—DYES; PAINTS; POLISHES; NATURAL RESINS; ADHESIVES; COMPOSITIONS NOT OTHERWISE PROVIDED FOR; APPLICATIONS OF MATERIALS NOT OTHERWISE PROVIDED FOR
- C09D—COATING COMPOSITIONS, e.g. PAINTS, VARNISHES OR LACQUERS; FILLING PASTES; CHEMICAL PAINT OR INK REMOVERS; INKS; CORRECTING FLUIDS; WOODSTAINS; PASTES OR SOLIDS FOR COLOURING OR PRINTING; USE OF MATERIALS THEREFOR
- C09D7/00—Features of coating compositions, not provided for in group C09D5/00; Processes for incorporating ingredients in coating compositions
- C09D7/40—Additives
- C09D7/65—Additives macromolecular
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01F—MIXING, e.g. DISSOLVING, EMULSIFYING OR DISPERSING
- B01F2101/00—Mixing characterised by the nature of the mixed materials or by the application field
- B01F2101/30—Mixing paints or paint ingredients, e.g. pigments, dyes, colours, lacquers or enamel
-
- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08K—Use of inorganic or non-macromolecular organic substances as compounding ingredients
- C08K3/00—Use of inorganic substances as compounding ingredients
- C08K3/18—Oxygen-containing compounds, e.g. metal carbonyls
- C08K3/20—Oxides; Hydroxides
- C08K3/22—Oxides; Hydroxides of metals
- C08K2003/2296—Oxides; Hydroxides of metals of zinc
-
- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08K—Use of inorganic or non-macromolecular organic substances as compounding ingredients
- C08K3/00—Use of inorganic substances as compounding ingredients
- C08K3/18—Oxygen-containing compounds, e.g. metal carbonyls
- C08K3/24—Acids; Salts thereof
- C08K3/26—Carbonates; Bicarbonates
- C08K2003/265—Calcium, strontium or barium carbonate
Abstract
The invention discloses a kind of process unit of water paint, including water paint dispersion tube and feeds intake and premix tank body;Described feed intake premixes that tank body is concentric above the water paint dispersion tube, and it is described feed intake premix tank base tubulose discharge head it is corresponding right above the charging conical hopper of the water paint dispersion tube;Structure of the invention is simple, premixing process and dispersing technology share a motor, reduce cost, carry out dispersing technology can also be synchronized in pre-compounding process simultaneously, save the integrated artistic time, the slurries in water paint dispersion tube are completed, by the dispersion mixing paste body fluid shear agitation of multiple bubble jet flow, to ultimately form the water paint of uniform exquisiteness in an above-mentioned flow circuit simultaneously.
Description
Technical field
The invention belongs to water paint field more particularly to a kind of preparation processes of water paint, device and its formula.
Background technique
Water paint is harmless, free from environmental pollution, paint film is plentiful, it is sparkling and crystal-clear it is bright, flexibility is good and has water-fast, resistance to
Mill, ageing-resistant, color inhibition, fast drying, it is easy to use the features such as, gradually replace the status of oil paint, however water paint
Dispersing technology in producing process is most important, and often dispersion effect is bad for existing dispersing apparatus, and final products are not thin enough
It is greasy.
Summary of the invention
Goal of the invention: in order to overcome the deficiencies in the prior art, the present invention provides more refinement after a kind of dispersing technology
Greasy uniformly a kind of preparation process of water paint, device and its formula.
Technical solution: to achieve the above object, a kind of process unit of water paint of the invention, including water paint point
It dissipates cylinder and feeds intake and premix tank body;It is described to feed intake that premix tank body concentric above the water paint dispersion tube, and described feed intake
The tubulose discharge head for premixing tank base is corresponding right above the charging conical hopper of the water paint dispersion tube.
Further, described feed intake premixes the tank body columnar tank structure tapered for lower end, and described feed intake premixes tank body
Inside is to premix the chamber that feeds intake;The side of the water paint dispersion tube is additionally provided with lifting support seat;On the lifting support seat
It is fixedly installed with hydraulic lift, the end of the lifting push rod of the hydraulic lift is connected with lifting column, the liter
Drop the upper end of the column is connected with the first cantilever beam, and the lateral end of first cantilever beam is fixedly connected with described feed intake and premixes tank body
External wall body;Slanting reinforcing rib is additionally provided between the lifting column and the first cantilever beam, the middle part of the reinforcing rib is also
It is connected with the second lateral cantilever, the end of second cantilever is fixedly connected with described feed intake and premixes the external wall body of tank body;Institute
Stating hydraulic lift can drive described feed intake to premix tank body upper and lower displacement;Second is also vertically provided on the lifting support seat
Column, second column top are additionally provided with third cantilever, are fixedly installed with agitating shaft on the downside of the end of the third cantilever
Motor, the agitating shaft motor coaxle heart premixes right above tank body in described feed intake, concentric in the premixing tank body that feeds intake to set
It is equipped with premix agitating shaft, agitating shaft motor driven connects the premix agitating shaft, on the axial wall of the premix agitating shaft circumferentially
Array is evenly equipped with several premix stirring rods;The upper end of the premix agitating shaft, which is horizontally arranged with, scrapes wall bar cantilevers, described to scrape wall bar
Vertically fixed suspension is provided with and scrapes wall bar cantilevered distal end, it is described scrape wall bar and protrude into the premix feed intake in chamber, and described scrape wall bar
The cavity wall clearance fit that feeds intake is premixed with described;The lower end concentric integrated setting of the premix agitating shaft has tip upward
Taper is blocked up plug, and taper plug activity of blocking up blocks tapping channel in the discharge head;Described feed intake premixes tank body with liquid
It presses lifting device to bottom offset, tapping channel can be made to be moved to downwards and be detached from the taper and block up plug.
Further, the taper, which is blocked up, fills in that lower end is concentric to be connected with blanking sharf, the axis of the blanking sharf
Wall, which spirals, is provided with blanking packing auger blade;Tapping channel, which is moved to downwards, to be detached from the taper and blocks up when filling in, blanking packing auger blade
It is located just in the tapping channel.
Further, the plant bottom case including horizontal circle plate-like, the water paint dispersion tube integrated coaxial heart is in institute
It states on plant bottom case, it is also concentric in the cylinder of the water paint dispersion tube to be provided with packing auger blade transfer drum, the auger leaf
The lower end integration of piece transfer drum connects the plant bottom case upper surface, and packing auger blade transfer drum upper end is connected to the charging
Conical hopper, concentric rotation is provided with packing auger blade axis, the strand in the agitation Transfer pipe of the packing auger blade transfer drum
Blanking sharf described in the imperial concentric synchronized links in sharf upper end, the outer wall integration of the packing auger blade axis helically with shape
It spirals and is provided with auger transmission blade;Circumferentially array is evenly equipped with several slurries on the lower end wall body of the packing auger blade transfer drum
Extrusion cavities;
There are three rolling bearings for equidistant socket respectively from top to bottom for the drum outer wall of the packing auger blade transfer drum, from top to bottom
Three rolling bearings bearing outer ring respectively it is concentric be socketed with dispersion wheel, middle dispersion wheel and lower dispersion take turns;
In the cylinder of the water paint dispersion tube, the upper dispersion wheel upside is the first dispersion chamber, the upper dispersion wheel
The second dispersion chamber is formed between the middle dispersion wheel, third is formed between the middle dispersion wheel and lower dispersion wheel and disperses chamber, institute
It states and forms the 4th dispersion chamber between lower dispersion wheel and the plant bottom case upper surface;Wherein each slurries extrusion cavities are located at described
In 4th dispersion chamber;Circumferentially array is evenly distributed with hollow out and is provided with the packing auger blade transfer drum on the wall body in the first dispersion chamber
Several serum recycle entrance holes.
Further, the upper dispersion wheel, middle dispersion wheel and lower dispersion wheel are made of upper the ring disk, lower the ring disk and sleeve;
The cylinder inner wall of the sleeve and corresponding rolling bearing outer ring are interference fitted, the concentric one in sleeve upper end
Change the ring inner ring for connecting the upper the ring disk, the concentric integration in sleeve lower end connects the lower ring-disc inner collar, the upper ring
Bubble jet flow is formed between disk and the lower the ring disk disperses ring cavity;Wherein, the gas in upper dispersion wheel, middle dispersion wheel and lower dispersion wheel
Bubble spray dispersion ring cavity is respectively first bubble spray dispersion ring cavity, the second bubble jet flow dispersion ring cavity and third bubble jet flow point
Dissipate ring cavity;Between the slurries that the outer rim of each lower the ring disk forms annular between the water paint dispersion tube inner wall pass through
Gap;The outer rim of each upper the ring disk with the concentric sliding contact of water paint dispersion tube inner wall;And it is described it is each it is described on
Circumferentially array is evenly equipped with several slurries extrusion disk hole to the disk of the ring disk;First bubble spray dispersion ring cavity, the second bubble jet flow
Jetting flow blade is distributed at circumference array in the inside of dispersion ring cavity and third bubble jet flow dispersion ring cavity, and each described penetrates
The root of stream driving blade is fixedly connected with corresponding sleeve outer wall;The lower surface of each lower the ring disk is vertically installed with several
Rectangular-shaped agitation blades, each agitation blades are along the lower the ring disk circumferentially array distribution;
It further include first group of air injection pipe, second group of air injection pipe and third group air injection pipe;First group of air injection pipe, second group
Air injection pipe and third group air injection pipe are made of the horizontal hard gas-guide tube of several circumferentially array distributions, and first group of gas injection
It manages, the outlet side of each gas-guide tube of second group of air injection pipe and third group air injection pipe extends transversely into the water paint dispersion barrel
Internal portion, and first group of air injection pipe, second group of air injection pipe are connected to the integration of each gas-guide tube outlet side of third group air injection pipe
It is connected with gas injection bend pipe, the end of each gas injection bend pipe is provided with gas spout;
The gas injection bend pipe of each air guide pipe end of first group of air injection pipe protrudes into first bubble spray dispersion ring cavity,
And each gas spout respectively corresponds the jetting flow blade in first bubble spray dispersion ring cavity;The gas that each gas spout sprays
Drive the jetting flow vane clockwise rotation in first bubble spray dispersion ring cavity;
The gas injection bend pipe of each air guide pipe end of second group of air injection pipe protrudes into the second bubble jet flow dispersion ring cavity;
And each gas spout respectively corresponds several jetting flow blades in the second bubble jet flow dispersion ring cavity;What each gas spout sprayed
Gas drives the jetting flow blade in the second bubble jet flow dispersion ring cavity to rotate counterclockwise;
The gas injection bend pipe of each air guide pipe end of third group air injection pipe protrudes into third bubble jet flow dispersion ring cavity;
And each gas spout respectively corresponds several jetting flow blades in third bubble jet flow dispersion ring cavity;What each gas spout sprayed
Gas drives several jetting flow vane clockwises rotation in third bubble jet flow dispersion ring cavity.
Further, further include gas distribution annular cabinet, be annular splitter cavity, institute in the gas distribution donought body
State that gas distribution annular cabinet is concentric to be disposed around on the outside of water paint dispersion tube upper end;And the gas distribution donought
Body lower end is hung with several isocons, and along the gas distribution donought body axis, circumferentially array divides each isocon
Cloth, and each isocon upper end is connected to the annular splitter cavity, further includes gas supply pipe, the gas supply pipe goes out
Gas end is connected to the gas distribution annular cabinet;Each air guide of first group of air injection pipe, second group of air injection pipe and third group air injection pipe
The inlet end of pipe is respectively protruding into each isocon, and first group of air injection pipe, second group of air injection pipe and third group air injection pipe
Being provided in each gas-guide tube prevents liquid from flowing backward to the check valve in isocon.
Further, the water paint preparation process of water paint Preparation equipment:
Water and each configuration raw material are gradually thrown to premix to feed intake in chamber, then starting stirring spindle motor, and then driven pre-
Mixed agitating shaft is synchronous with each premix stirring rod to be stirred, and then is premixed water and each configuration raw material in the chamber that feeds intake and tentatively mixed, and
Scraping wall bar makes to be not easy to adhere to sediment on the wall body for premixing the chamber that feeds intake;Wait premix feed intake it is intracavitary be mixed to form preliminary slurries after open
Hydrodynamic pressure lifting device, and drive to feed intake and premix tank body with hydraulic lift to bottom offset, tapping channel can be made to bottom offset
It blocks up plug to the taper is detached from, blanking packing auger blade is also just into tapping channel at this time, and then the blanking packing auger blade
Agitation promote tapping channel discharging;From feed intake premix tank body discharge head blanking preliminary mixed serum gradually blanking to charging
In conical hopper, the operating status of stirring spindle motor is then maintained, and then packing auger blade axis and auger is driven to transmit blade synchronization
Rotation, in the case where auger transmission blade stirs downwards squeezing action, slurries to be dispersed enter in agitation Transfer pipe to be passed by auger
It send the continuous preliminary agitation dispersion of blade and gradually squeezes downwards and promote;The slurries advanced downwardly in agitation Transfer pipe finally lead to
It crosses several slurries extrusion cavities to squeeze out into the 4th dispersion chamber, be accumulated then as the slurries in the 4th dispersion chamber, the 4th dispersion chamber
In slurries by it is lower dispersion wheel position at slurries by gap enter third bubble jet flow dispersion ring cavity, with third gas
The slurries accumulation in spray dispersion ring cavity is steeped, if the slurries in third bubble jet flow dispersion ring cavity pass through the dry pulp on lower dispersion wheel
Liquid squeezes out disk hole and squeezes out into third dispersion chamber, and then by this rule, slurries sequentially enter the second bubble jet flow dispersion ring cavity, the
Two dispersion chambers, first bubble spray dispersion ring cavity, first disperse in chamber, are totally submerged respectively to the slurries liquid level in the first dispersion chamber
After a several serum recycle entrance holes, hydraulic lift driving, which feeds intake, to be premixed tank body and shifts up, and tapping channel can be made upward
It is moved to be blocked up by taper and fills in blocking, and then stop the blanking into charging conical hopper;Then it can feed intake chamber from newly to premix
In abort and proportion liquid, carry out new premixing process, the premix agitating shaft, packing auger blade axis and blanking sharf share one
Motor;The lasting stirring of packing auger blade axis and auger transmission blade is continued at the same time;Transfer pipe is stirred at this time
In slurries auger transmission blade continue downwards gradually squeeze promote, and if then first dispersion chamber in slurries continue through dry pulp
Liquid circulation entrance hole is supplemented to the upper end of agitation Transfer pipe, and if the slurries that stir the lower end of Transfer pipe continue through dry pulp
Liquid extrusion cavities squeeze out to the 4th dispersion chamber in, the 4th dispersion chamber in slurries its auger transmission blade it is continuous push under successively
By third bubble jet flow dispersion ring cavity, third dispersion chamber, the second bubble jet flow dispersion ring cavity, the second dispersion chamber, first bubble
Spray dispersion ring cavity finally comes back to the first dispersion chamber, and the slurries in the first dispersion chamber can continue through several slurries and follow
Ring entrance hole is supplemented to agitation Transfer pipe;Lasting flowing is formd by the slurries in the entire water paint dispersion tube of this rule
Recurrent state;
Under above-mentioned flow circuit state, gas supply pipe continuously supplies pressure accumulation air to annular splitter cavity, and then makes
Form Air pressure accumulation in each isocon, and then the gas that sprays of each gas-guide tube end gas spout of first group of air injection pipe makes the
The bubble jet flow rotated clockwise, and the bubble in first bubble spray dispersion ring cavity are formed in one bubble jet flow dispersion ring cavity
Jet stream can also collide its internal several jetting flow blade repeatedly, and then make the painting slurry in first bubble spray dispersion ring cavity
Liquid is fully dispersed, and then forms finer and smoother slurries;Several jet streams in first bubble spray dispersion ring cavity drive at the same time
Movable vane piece is driven dispersion wheel continuously to rotate clockwise by the clockwise collision effect of bubble jet flow, so on disperse
The slurries that several agitation blades on wheel drive the second dispersion intracavitary form clockwise eddy flow, while agitating also centering point
The slurries for dissipating wheel squeeze out the effect for carrying out continuous shear stress of the extrusion slurries in disk hole;Similarly and then second group of air injection pipe is respectively led
The gas that tracheae end gas spout sprays makes to form the bubble jet flow rotated counterclockwise in the second bubble jet flow dispersion ring cavity, and
The continuous rotation counterclockwise of dispersion wheel in drive, and then several agitation blades on middle dispersion wheel drive third to disperse intracavitary slurries
Form eddy flow counterclockwise;The gas that each gas-guide tube end gas spout of third group air injection pipe sprays makes third bubble jet flow point
Dissipate in ring cavity and form the bubble jet flow rotated counterclockwise, and lower dispersion wheel is driven continuously to rotate clockwise, so under disperse on wheel
Several agitation blades drive the 4th intracavitary slurries of dispersion to form clockwise eddy flow;Slurries in water paint dispersion tube are complete
At in an above-mentioned flow circuit, by the dispersion mixing paste body fluid shear agitation of multiple bubble jet flow, fine and smooth slurry is ultimately formed
Liquid then after the completion of above-mentioned dispersing technology, the slurries in water paint dispersion tube is imported into defoaming container, then to defoaming
Defoaming agent is launched in container and mixes defoaming, ultimately forms the water paint of uniform exquisiteness.
Further, the proportion that the intracavitary preliminary slurries being mixed to form that feed intake are calculated by weight is premixed are as follows:
The utility model has the advantages that structure of the invention is simple, premixing process and dispersing technology share a motor, reduce cost, together
When pre-compounding process in can also synchronize carry out dispersing technology, save the integrated artistic time, while the slurry in water paint dispersion tube
Liquid is completed, by the dispersion mixing paste body fluid shear agitation of multiple bubble jet flow, to ultimately form uniform in an above-mentioned flow circuit
Fine and smooth water paint.
Detailed description of the invention
Attached drawing 1 is overall structure of the present invention;
Attached drawing 2 is whole first cut-away diagram of the present invention;
Attached drawing 3 is whole second cut-away diagram of the present invention;
Attached drawing 4 is partly cut-away's structural schematic diagram that taper is blocked up when filling in blocking tapping channel;
Attached drawing 5 is that tapping channel is shifted up to being detached from the taper and blocked up partly cut-away's schematic diagram that plug makes;
Attached drawing 6 just cuts open schematic diagram for water paint dispersion tube;
Attached drawing 7 is a or c of attached drawing 6 to cross-sectional view (a is consistent to cross-sectional view with c);
Attached drawing 8 is the b of attached drawing 6 to cross-sectional view;
Attached drawing 9 is dispersion the first posture structural schematic diagram of wheel;
Attached drawing 10 is dispersion the second posture structural schematic diagram of wheel;
Attached drawing 11 is that dispersion wheel splits structural schematic diagram.
Specific embodiment
The present invention will be further explained with reference to the accompanying drawing.
A kind of process unit of water paint as shown in attached drawing 1 to 11, including water paint dispersion tube 20 and feed intake it is pre-
Mixed tank body 60;It is described to feed intake that premix tank body 60 concentric above the water paint dispersion tube 20, and the premixing tank that feeds intake
The tubulose discharge head 61 of 60 bottom of body is corresponding right above the charging conical hopper 19 of the water paint dispersion tube 20.
It is described to feed intake that premix tank body 60 be the tapered columnar tank structure in lower end, it is described feed intake to premix inside tank body 60 be
Premix the chamber 76 that feeds intake;The side of the water paint dispersion tube 20 is additionally provided with lifting support seat 72;The lifting support seat 72
On be fixedly installed with hydraulic lift 73, the end of the lifting push rod 71 of the hydraulic lift 73 is connected with lifting column
69,69 upper end of lifting column is connected with the first cantilever beam 66, and the lateral end of first cantilever beam is fixedly connected described
It feeds intake and premixes the external wall body of tank body 60;Slanting reinforcing rib is additionally provided between the lifting column 69 and the first cantilever beam 66
67, the middle part of the reinforcing rib 67 is also connected with the second lateral cantilever 68, and the end of second cantilever 68 is fixedly connected with institute
It states to feed intake and premixes the external wall body of tank body 60;The hydraulic lift 73 can drive described feed intake to premix bottom on tank body 60
It moves;The second column 70 is also vertically provided on the lifting support seat 72, it is outstanding that 70 top of the second column is additionally provided with third
Arm 63, is fixedly installed with stirring spindle motor 62 on the downside of the end of the third cantilever 63, the stirring spindle motor 62 it is concentric in
Described feed intake premixes right above tank body 60, it is described feed intake to premix concentric in tank body 60 be provided with premix agitating shaft 74, agitating shaft
Motor 62 is drivingly connected the premix agitating shaft 74, if circumferentially array is evenly equipped with intervention on the axial wall of the premix agitating shaft 74
Mixed stirring rod 75;The upper end of the premix agitating shaft 74, which is horizontally arranged with, scrapes wall bar cantilevers 64, described to scrape 64 end of wall bar cantilevers
The vertical fixed suspension in end, which is provided with, scrapes wall bar 65, it is described scrape wall bar 65 and protrude into the premix feed intake in chamber 76, and described scrape wall bar
65 premix the 76 inner wall clearance fit of chamber that feeds intake with described;The concentric integrated setting in lower end of the premix agitating shaft 74 has point
End taper upward is blocked up plug 77, and the taper 77 activity of plug of blocking up blocks tapping channels 79 in the discharge heads 61;It is described
It feeds intake and premixes tank body 60 with hydraulic lift 73 to bottom offset, tapping channel 79 can be made to be moved to downwards and be detached from the taper
It blocks up plug 77.
The taper is blocked up, and 77 lower ends are concentric is connected with blanking sharf 36.1, the axis of the blanking sharf 36.1 for plug
Wall, which spirals, is provided with blanking packing auger blade 78;Tapping channel 79 be moved to downwards be detached from the taper block up plug 77 when, blanking twists
Imperial blade 78 is located just in the tapping channel 79.
Plant bottom case 4 including horizontal circle plate-like, the 20 integrated coaxial heart of water paint dispersion tube is in the equipment
It is also concentric in the cylinder of the water paint dispersion tube 20 to be provided with packing auger blade transfer drum 24, the packing auger blade on pedestal 4
The lower end integration of transfer drum 24 connects 4 upper surface of plant bottom case, described in 24 upper end of the packing auger blade transfer drum connection
Conical hopper 19 is fed, concentric rotation is provided with packing auger blade in the agitation Transfer pipe 9 of the packing auger blade transfer drum 24
Axis 36, blanking sharf 36.1 described in the concentric synchronized links in 36 upper end of packing auger blade axis, the packing auger blade axis 36
Outer wall integration helically with shape spiral be provided with auger transmission blade 8;On the lower end wall body of the packing auger blade transfer drum 24
Circumferentially array is evenly equipped with several slurries extrusion cavities 2;
Equidistant socket is there are three rolling bearing 21 respectively from top to bottom for the drum outer wall of the packing auger blade transfer drum 24, from upper
The bearing outer ring of three rolling bearings 21 under is concentric respectively to be socketed with upper dispersion wheel 33, middle dispersion take turns 34 and under
Dispersion wheel 35;
In the cylinder of the water paint dispersion tube 20,33 upside of upper dispersion wheel is the first dispersion chamber 15, it is described on
The second dispersion chamber 10 is formed between dispersion wheel 33 and the middle dispersion wheel 34, between the middle dispersion wheel 34 and lower dispersion wheel 35
It forms third and disperses chamber 5, form the 4th dispersion chamber 3 between the lower dispersion wheel 35 and 4 upper surface of the plant bottom case;Wherein
Each slurries extrusion cavities 2 are located in the 4th dispersion chamber 3;The packing auger blade transfer drum 24 is in the first dispersion chamber 15
Circumferentially array is evenly distributed with hollow out and is provided with several serum recycle entrance holes 17 on wall body.
The upper dispersion wheel 33, middle dispersion wheel 34 and lower dispersion wheel 35 are by 30 structure of upper the ring disk 32, lower the ring disk 37 and sleeve
At;
The cylinder inner wall of the sleeve 30 and corresponding 21 outer ring of rolling bearing are interference fitted, and 30 upper end of sleeve is coaxial
Heart integration connects the ring inner ring of the upper the ring disk 32, and the concentric integration in 30 lower end of sleeve connects in the lower the ring disk 37
Circle forms bubble jet flow and disperses ring cavity 23 between the upper the ring disk 32 and the lower the ring disk 37;Wherein, upper dispersion wheel 33, in point
The bubble jet flow dispersion ring cavity 23 dissipated in wheel 34 and lower dispersion wheel 35 is respectively first bubble spray dispersion ring cavity 23.1, the second gas
It steeps spray dispersion ring cavity 23.2 and third bubble jet flow disperses ring cavity 23.3;The outer rim of each lower the ring disk 37 with it is described aqueous
The slurries that annular is formed between 20 inner wall of coating dispersion tube pass through gap 22;The outer rim of each upper the ring disk 32 with it is described aqueous
The concentric sliding contact of 20 inner wall of coating dispersion tube;And the disk of each upper the ring disk 32 circumferentially array be evenly equipped with it is several
Slurries squeeze out disk hole 28;First bubble spray dispersion ring cavity 23.1, the second bubble jet flow dispersion ring cavity 23.2 and third bubble are penetrated
Jetting flow blade 31 is distributed at circumference array in the inside that flow point dissipates ring cavity 23.3, and each jetting flow blade 31
Root is fixedly connected with corresponding 30 outer wall of sleeve;The lower surface of each lower the ring disk 37 is vertically installed with several rectangular-shaped
Agitation blades 1, each agitation blades 1 are along the lower the ring disk 37 circumferentially array distribution;
It further include first group of air injection pipe, 11, second groups of air injection pipes 7 and third group air injection pipe 6;First group of air injection pipe 11,
Second group of air injection pipe 7 and third group air injection pipe 6 are made of the horizontal hard gas-guide tube of several circumferentially array distributions, and first
The outlet side of each gas-guide tube of group 11, second groups of air injection pipes 7 of air injection pipe and third group air injection pipe 6 extends transversely into the aqueous painting
Expect inside 20 wall body of dispersion tube, and each gas-guide tube of first group of air injection pipe, 11, second groups of air injection pipes 7 and third group air injection pipe 6 goes out
The integration of gas end is connected with gas injection bend pipe 29, and the end of each gas injection bend pipe 29 is provided with gas spout
290;
The gas injection bend pipe 29 of each air guide pipe end of first group of air injection pipe 11 protrudes into first bubble spray dispersion ring
In chamber 23.1, and each gas spout 290 respectively corresponds the jetting flow blade 31 in first bubble spray dispersion ring cavity 23.1;
The gas that each gas spout 290 sprays drives the jetting flow blade 31 in first bubble spray dispersion ring cavity 23.1 to revolve clockwise
Turn;
The gas injection bend pipe 29 of each air guide pipe end of second group of air injection pipe 7 protrudes into the second bubble jet flow dispersion ring cavity
In 23.2;And each gas spout 290 respectively corresponds several jetting flow blades in the second bubble jet flow dispersion ring cavity 23.2
31;The gas that each gas spout 290 sprays drives 31 inverse time of jetting flow blade in the second bubble jet flow dispersion ring cavity 23.2
Needle rotation;
The gas injection bend pipe 29 of each air guide pipe end of third group air injection pipe 6 protrudes into third bubble jet flow dispersion ring cavity
In 23.3;And each gas spout 290 respectively corresponds several jetting flow blades 31 in third bubble jet flow dispersion ring cavity 23.3;
The gas that each gas spout 290 sprays drives several jetting flow blades 31 in third bubble jet flow dispersion ring cavity 23.3 suitable
Hour hands rotation.
Further include gas distribution annular cabinet 16, is annular splitter cavity 14 in the gas distribution annular cabinet 16, it is described
Gas distribution annular cabinet 16 is concentric to be disposed around on the outside of 20 upper end of water paint dispersion tube;And the gas distribution annular
16 lower end of cabinet is hung with several isocons 12, and each isocon 12 is in along 16 axis of gas distribution annular cabinet
Circumference array distribution, and each 12 upper end of the isocon is connected to the annular splitter cavity 14, further includes gas supply pipe 13, institute
The outlet side for stating gas supply pipe 13 is connected to the gas distribution annular cabinet 16;First group of air injection pipe, 11, second groups of air injection pipes 7
It is respectively protruding into each isocon 12 with the inlet end of each gas-guide tube of third group air injection pipe 6, and first group of air injection pipe 11,
The list for preventing liquid from flowing backward in isocon 12 is provided in each gas-guide tube of second group of air injection pipe 7 and third group air injection pipe 6
To valve.
The technique, process and technological progress of this programme arrange as follows:
Water and each configuration raw material are gradually thrown to premix to feed intake in chamber 76, then starting stirring spindle motor 62, and then driven
Dynamic premix agitating shaft 74 is synchronous with each premix stirring rod 75 to be stirred, and then is premixed water and each configuration raw material in the chamber 76 that feeds intake and carried out
Preliminary mixing, and scraping wall bar 65 makes to be not easy to adhere to sediment on the wall body for premixing the chamber 76 that feeds intake;It is mixed wait premix in the chamber 76 that feeds intake
It is formed and starts hydraulic lift 73 after preliminary slurries, and driven to feed intake and premix tank body 60 with hydraulic lift 73 to bottom
Move, tapping channel 79 can be made to shift up to being detached from the taper and blocked up plug 77, at this time blanking packing auger blade 78 also just into
In tapping channel 79, and then the agitation of the blanking packing auger blade 78 promotes the discharging of tapping channel 79;Tank body 60 is premixed from feeding intake
Gradually then blanking maintains stirring spindle motor 62 into charging conical hopper 19 to the preliminary mixed serum of 61 blanking of discharge head
Operating status, and then packing auger blade axis 36 and auger is driven to transmit 8 synchronous rotary of blade, it is stirred downwards in auger transmission blade 8
Under squeezing action, the continuous preliminary agitation that slurries to be dispersed enter in agitation Transfer pipe 9 by auger transmission blade 8 disperses simultaneously
It gradually squeezes downwards and promotes;The slurries that advance downwardly are squeezed out eventually by several slurries extrusion cavities 2 to the in agitation Transfer pipe 9
It in four dispersion chambers 3, is accumulated then as the slurries in the 4th dispersion chamber 3, the slurries in the 4th dispersion chamber 3 pass through lower dispersion wheel 35
Slurries at position enter third bubble jet flow by gap 22 and disperse ring cavity 23.3, as third bubble jet flow disperses ring cavity
Slurries accumulation in 23.3, third bubble jet flow disperse the slurries in ring cavity 23.3 and are squeezed by several slurries on lower dispersion wheel 35
Disk hole 28 is squeezed out into third dispersion chamber 5 out, and then by this rule, slurries sequentially enter the second bubble jet flow dispersion ring cavity
23.2, the second dispersion chamber 10, first bubble spray dispersion ring cavity 23.1, first disperse in chamber 15, in the first dispersion chamber 15
After slurries liquid level is totally submerged each several serum recycle entrance holes 17, hydraulic lift 73 driving feed intake premix tank body 60 to
Upper displacement can be such that tapping channel 79 shifts up to being blocked up by taper and fill in 77 blockings, and then stop into charging conical hopper 19
Blanking;Then it can abort from the chamber 76 that newly feeds intake to premix and proportion liquid, carry out new premixing process, the premix agitating shaft
74, packing auger blade axis 36 and blanking sharf 36.1 share a motor;Packing auger blade axis 36 is continued at the same time and is twisted
The lasting stirring of dragon transmission blade 8;At this time stir Transfer pipe 9 in slurries auger transmission blade 8 continue downwards by
Step, which squeezes, to be promoted, and then slurries continue through several serum recycle entrance holes 17 to be supplemented to agitation transmission logical in the first dispersion chamber 15
The upper end in road 9, and the slurries for stirring the lower end of Transfer pipe 9 continue through several slurries extrusion cavities 2 and squeeze out to the 4th dispersion chamber
In 3, the slurries in the 4th dispersion chamber 3 successively disperse by third bubble jet flow under the continuous promotion of its auger transmission blade 8
Ring cavity 23.3, third dispersion chamber 5, the second bubble jet flow dispersion ring cavity 23.2, second disperse chamber 10, first bubble spray dispersion ring
Chamber 23.1 finally comes back to the first dispersion chamber 15, and the slurries in the first dispersion chamber 15 can continue through several slurries and follow
Ring entrance hole 17 is supplemented to agitation Transfer pipe 9;It forms and continues by the slurries in the entire water paint dispersion tube 20 of this rule
Flow circuit state;
Under above-mentioned flow circuit state, gas supply pipe 13 continuously supplies pressure accumulation air to annular splitter cavity 14, into
And make to form Air pressure accumulation in each isocon 12, and then each gas-guide tube end gas spout 290 spray of first group of air injection pipe 11
Gas out makes to form the bubble jet flow rotated clockwise, and first bubble jet stream in first bubble spray dispersion ring cavity 23.1
Bubble jet flow in dispersion ring cavity 23.1 can also collide its internal several jetting flow blade 31 repeatedly, and then make first bubble
Coating slurries in spray dispersion ring cavity 23.1 are fully dispersed, and then form finer and smoother slurries;First bubble at the same time
Several jetting flow blades 31 in spray dispersion ring cavity 23.1 are driven by the clockwise collision effect of bubble jet flow
Dispersion wheel 33 continuously rotates clockwise, so on several agitation blades 1 for dispersing on wheel 33 drive the second slurry dispersed in chamber 10
Liquid forms clockwise eddy flow, while agitating also centering dispersion wheel 34 slurries squeeze out disk hole 28 on extrusion slurries into
The effect of row continuous shear stress;Similarly and then the gas that sprays of each gas-guide tube end gas spout 290 of second group of air injection pipe 7 makes the
The bubble jet flow rotated counterclockwise is formed in two bubble jet flows dispersion ring cavity 23.2, and dispersion wheel 34 continuously revolves counterclockwise in drive
Turn, and then several agitation blades 1 on middle dispersion wheel 34 drive the slurries in third dispersion chamber 5 to form eddy flow counterclockwise;The
The gas that each gas-guide tube end gas spout 290 of three groups of air injection pipes 6 sprays makes shape in third bubble jet flow dispersion ring cavity 23.3
At the bubble jet flow rotated counterclockwise, and lower dispersion wheel 35 is driven continuously to rotate clockwise, and then disperse down several on wheel 35
Agitation blades 1 drive the slurries in the 4th dispersion chamber 3 to form clockwise eddy flow;Slurries in water paint dispersion tube 20 are completed
In one above-mentioned flow circuit, by the dispersion mixing paste body fluid shear agitation of multiple bubble jet flow, fine and smooth slurries are ultimately formed,
Then after the completion of above-mentioned dispersing technology, the slurries in water paint dispersion tube 20 are imported into defoaming container, then to defoaming
Defoaming agent is launched in container and mixes defoaming, ultimately forms the water paint of uniform exquisiteness.
Above-mentioned premix feeds intake the proportion that the preliminary slurries being mixed to form in chamber 76 are calculated by weight are as follows:
The above is only a preferred embodiment of the present invention, it should be pointed out that: for the ordinary skill people of the art
For member, various improvements and modifications may be made without departing from the principle of the present invention, these improvements and modifications are also answered
It is considered as protection scope of the present invention.
Claims (7)
1. a kind of process unit of water paint, it is characterised in that: including water paint dispersion tube (20) and feed intake and premix tank body
(60);It is described to feed intake that premix tank body (60) concentric above the water paint dispersion tube (20), and the premixing tank that feeds intake
The corresponding charging conical hopper (19) in the water paint dispersion tube (20) of the tubulose discharge head (61) of body (60) bottom just on
Side;
It is described to feed intake that premix tank body (60) be the tapered columnar tank structure in lower end, it is described feed intake to premix inside tank body (60) be
Premix feeds intake chamber (76);The side of the water paint dispersion tube (20) is additionally provided with lifting support seat (72);The lifting branch
It is fixedly installed on stand (72) hydraulic lift (73), the end of the lifting push rod (71) of the hydraulic lift (73)
It is connected with lifting column (69), lifting column (69) upper end is connected with the first cantilever beam (66), first cantilever beam
Lateral end is fixedly connected with described feed intake and premixes the external wall body of tank body (60);The lifting column (69) and the first cantilever beam
(66) it is additionally provided between slanting reinforcing rib (67), is also connected with the second lateral cantilever in the middle part of the reinforcing rib (67)
(68), the end of second cantilever (68) is fixedly connected with described feed intake and premixes the external wall body of tank body (60);The hydraulic liter
Falling unit (73) can drive described feed intake to premix tank body (60) upper and lower displacement;It is also vertically provided on the lifting support seat (72)
Second column (70), the second column (70) top are additionally provided with third cantilever (63), the end of the third cantilever (63)
Downside is fixedly installed with stirring spindle motor (62), and the stirring spindle motor (62) is concentric to premix tank body (60) just in described feed intake
Top, it is described feed intake premix in tank body (60) it is concentric be provided with premix agitating shaft (74), stirring spindle motor (62) be drivingly connected
The premix agitating shaft (74), it is described premix agitating shaft (74) axial wall on circumferentially array be evenly equipped with several premix stirring rods
(75 );The upper end of premix agitating shaft (74), which is horizontally arranged with, scrapes wall bar cantilevers (64), described to scrape wall bar cantilevers (64) end
Vertical fixed suspension, which is provided with, scrapes wall bar (65), it is described scrape wall bar (65) and protrude into the premix feed intake in chamber (76), and described scrape
Wall bar (65) premixes chamber (76) the inner wall clearance fit that feeds intake with described;The concentric integration in lower end of premix agitating shaft (74)
It is provided with the taper of tip upward to block up plug (77), the taper is blocked up, and plug (77) is movable to block going out in the discharge head (61)
Expect channel (79);Described feed intake premixes tank body (60) with hydraulic lift (73) to bottom offset, can make tapping channel (79) to
Bottom moves to the disengaging taper and blocks up plug (77).
2. a kind of process unit of water paint according to claim 1, it is characterised in that: the taper blocks up plug (77)
Lower end is concentric to be connected with blanking sharf (36.1), and the axial wall of the blanking sharf (36.1), which spirals, is provided with blanking auger
Blade (78);Tapping channel (79) be moved to downwards be detached from the taper block up plug (77) when, blanking packing auger blade (78) is just
In the tapping channel (79).
3. a kind of process unit of water paint according to claim 2, it is characterised in that: including setting for horizontal circle plate-like
Standby pedestal (4), water paint dispersion tube (20) the integrated coaxial heart is on the plant bottom case (4), the water paint
It is also concentric in the cylinder of dispersion tube (20) to be provided with packing auger blade transfer drum (24), the lower end of the packing auger blade transfer drum (24)
Integration connects plant bottom case (4) upper surface, and packing auger blade transfer drum (24) upper end is connected to the charging taper leakage
It struggles against (19), concentric rotation is provided with packing auger blade axis in the agitation Transfer pipe (9) of the packing auger blade transfer drum (24)
(36), blanking sharf (36.1) described in the concentric synchronized links in packing auger blade axis (36) upper end, the packing auger blade axis
(36) outer wall integration helically with shape spiral be provided with auger transmission blade (8);The packing auger blade transfer drum (24)
Circumferentially array is evenly equipped with several slurries extrusion cavities (2) on the wall body of lower end;
Equidistant socket is there are three rolling bearing (21) respectively from top to bottom for the drum outer wall of the packing auger blade transfer drum (24), from upper
The bearing outer ring of three rolling bearings (21) under is concentric respectively to be socketed with upper dispersion wheel (33), middle dispersion wheel (34)
(35) are taken turns with lower dispersion;
It is the first dispersion chamber (15) on the upside of the upper dispersion wheel (33) in the cylinder of the water paint dispersion tube (20), it is described
The second dispersion chamber (10), the middle dispersion wheel (34) and lower dispersion are formed between upper dispersion wheel (33) and the middle dispersion wheel (34)
It takes turns and forms third dispersion chamber (5) between (35), the lower dispersion, which is taken turns, forms the between (35) and the plant bottom case (4) upper surface
Four dispersions chamber (3);Wherein each slurries extrusion cavities (2) are located in the 4th dispersion chamber (3);The packing auger blade transfer drum
(24) circumferentially array is evenly distributed with hollow out and is provided with several serum recycle entrance holes (17) on the wall body in the first dispersion chamber (15).
4. a kind of process unit of water paint according to claim 3, it is characterised in that: the upper dispersion wheel (33),
Middle dispersion wheel (34) and lower dispersion wheel (35) are made of upper the ring disk (32), lower the ring disk (37) and sleeve (30);
The cylinder inner wall of the sleeve (30) and corresponding rolling bearing (21) outer ring are interference fitted, and sleeve (30) upper end is same
Axle center integration connects the ring inner ring of the upper the ring disk (32), and the concentric integration in sleeve (30) lower end connects the lower ring
Disk (37) inner ring forms bubble jet flow dispersion ring cavity (23) between the upper the ring disk (32) and the lower the ring disk (37);Wherein, on
Bubble jet flow dispersion ring cavity (23) in dispersion wheel (33), middle dispersion wheel (34) and lower dispersion wheel (35) is respectively that first bubble is penetrated
Flow point dissipates ring cavity (23.1), the second bubble jet flow dispersion ring cavity (23.2) and third bubble jet flow dispersion ring cavity (23.3);Each institute
The outer rim for stating lower the ring disk (37) forms annular slurries between water paint dispersion tube (20) inner wall and passes through gap
(22);The outer rim of each upper the ring disk (32) with the concentric sliding contact of water paint dispersion tube (20) inner wall;And institute
Stating the disk of each upper the ring disk (32), circumferentially array is evenly equipped with several slurries and squeezes out disk hole (28);First bubble spray dispersion
Ring cavity (23.1), the second bubble jet flow dispersion ring cavity (23.2) and third bubble jet flow disperse the equal Cheng Yuan in inside of ring cavity (23.3)
All array distributions have jetting flow blade (31), and the root of each jetting flow blade (31) be fixedly connected with it is corresponding
Sleeve (30) outer wall;The lower surface of each lower the ring disk (37) is vertically installed with several rectangular-shaped agitation blades (1), each described
Agitation blades (1) are along the lower the ring disk (37) circumferentially array distribution;
It further include first group of air injection pipe (11), second group of air injection pipe (7) and third group air injection pipe (6);First group of air injection pipe
(11), second group of air injection pipe (7) and third group air injection pipe (6) have the horizontal hard gas-guide tube group of several circumferentially array distributions
At, and the outlet side of each gas-guide tube of first group of air injection pipe (11), second group of air injection pipe (7) and third group air injection pipe (6) is horizontal
To protruding into inside water paint dispersion tube (20) wall body, and first group of air injection pipe (11), second group of air injection pipe (7) and third
The integration of each gas-guide tube outlet side of group air injection pipe (6) is connected with gas injection bend pipe (29), each gas injection
The end of bend pipe (29) is provided with gas spout (290);
The gas injection bend pipe (29) of each air guide pipe end of first group of air injection pipe (11) protrudes into first bubble spray dispersion ring
In chamber (23.1), and each gas spout (290) respectively corresponds the jetting flow leaf in first bubble spray dispersion ring cavity (23.1)
Piece (31);The gas that each gas spout (290) sprays drives the jetting flow leaf in first bubble spray dispersion ring cavity (23.1)
Piece (31) rotates clockwise;
The gas injection bend pipe (29) of each air guide pipe end of second group of air injection pipe (7) protrudes into the second bubble jet flow dispersion ring cavity
(23.2) in;And each gas spout (290) respectively corresponds several jetting flows in the second bubble jet flow dispersion ring cavity (23.2)
Blade (31);The gas that each gas spout (290) sprays drives the jetting flow in the second bubble jet flow dispersion ring cavity (23.2)
Blade (31) rotates counterclockwise;
The gas injection bend pipe (29) of each air guide pipe end of third group air injection pipe (6) protrudes into third bubble jet flow dispersion ring cavity
(23.3) in;And each gas spout (290) respectively corresponds several jetting flows in third bubble jet flow dispersion ring cavity (23.3)
Blade (31);The gas that each gas spout (290) sprays drives several jet streams in third bubble jet flow dispersion ring cavity (23.3)
Driving blade (31) rotates clockwise.
5. a kind of process unit of water paint according to claim 4, it is characterised in that: further include gas distribution annular
Cabinet (16), the gas distribution annular cabinet (16) are interior for annular splitter cavity (14), the gas distribution annular cabinet (16)
It is concentric to be disposed around on the outside of water paint dispersion tube (20) upper end;And the gas distribution annular cabinet (16) lower end is hung
Have several isocons (12), and along gas distribution annular cabinet (16) axis, circumferentially array divides each isocon (12)
Cloth, and each isocon (12) upper end is connected to the annular splitter cavity (14), further includes gas supply pipe (13), the gas
The outlet side of body supply pipe (13) is connected to the gas distribution annular cabinet (16);First group of air injection pipe (11), second group of gas injection
The inlet end of pipe (7) and each gas-guide tube of third group air injection pipe (6) is respectively protruding into each isocon (12), and first group of note
Being provided in each gas-guide tube of tracheae (11), second group of air injection pipe (7) and third group air injection pipe (6) prevents liquid from flowing backward to point
Check valve in flow tube (12).
6. a kind of water paint preparation process of the process unit of water paint according to claim 5, it is characterised in that:
Water and each configuration raw material are gradually thrown to premix to feed intake in chamber (76), then starting stirring spindle motor (62), and then driven
Dynamic premix agitating shaft (74) is synchronous with each premix stirring rod (75) to be stirred, and then premix feeds intake water and each configuration original in chamber (76)
Material is tentatively mixed, and scraping wall bar (65) makes to be not easy to adhere to sediment on the wall body for premixing chamber (76) that feed intake;It feeds intake wait premix
Start hydraulic lift (73) after being mixed to form preliminary slurries in chamber (76), and drives to feed intake and premix tank body (60) with hydraulic
Lifting device (73) can make tapping channel (79) be moved to the disengaging taper downwards and block up plug (77), this is at present to bottom offset
Packing auger blade (78) are expected also just into tapping channel (79), and then the agitation of the blanking packing auger blade (78) promotes discharging logical
The discharging in road (79);From feed intake premix tank body (60) discharge head (61) blanking preliminary mixed serum gradually blanking to feeding taper
In funnel (19), the operating status of stirring spindle motor (62) is then maintained, and then drives packing auger blade axis (36) and auger transmission
Blade (8) synchronous rotary, under auger transmission blade (8) downwards agitation squeezing action, it is logical that slurries to be dispersed enter agitation transmission
Continuous preliminary agitation dispersion and downward gradually squeeze in road (9) by auger transmission blade (8) promote;Stir Transfer pipe
(9) slurries advanced downwardly in are squeezed out eventually by several slurries extrusion cavities (2) into the 4th dispersion chamber (3), then as the
Slurries accumulation in four dispersions chamber (3), the 4th slurries dispersed in chamber (3) are passed through by the slurries at lower dispersion wheel (35) position
Gap (22) enters third bubble jet flow dispersion ring cavity (23.3), with the slurry in third bubble jet flow dispersion ring cavity (23.3)
Liquid accumulation, third bubble jet flow disperse the slurries in ring cavity (23.3) and squeeze out disk hole by several slurries on lower dispersion wheel (35)
(28) it squeezes out into third dispersion chamber (5), then by this rule, slurries sequentially enter the second bubble jet flow dispersion ring cavity
(23.2), the second dispersion chamber (10), first bubble spray dispersion ring cavity (23.1), first disperse in chamber (15), to the first dispersion
After slurries liquid level in chamber (15) is totally submerged each several serum recycle entrance holes (17), hydraulic lift (73) driving is thrown
Material premix tank body (60) shift up, can make tapping channel (79) shift up to by taper block up plug (77) blocking, Jin Erting
The only blanking into charging conical hopper (19);Then it can abort in chamber (76) and proportion liquid, carry out from newly feeding intake to premix
New premixing process, the premix agitating shaft (74), packing auger blade axis (36) and blanking sharf (36.1) share a motor;With
This continues to the lasting stirring of packing auger blade axis (36) and auger transmission blade (8) simultaneously;Transfer pipe is stirred at this time
(9) slurries in continue gradually to squeeze downwards in auger transmission blade (8) to be promoted, and then slurries are continuous in the first dispersion chamber (15)
It is supplemented to the upper end of agitation Transfer pipe (9) by several serum recycle entrance holes (17), and stirs the lower end of Transfer pipe (9)
Slurries continue through several slurries extrusion cavities (2) and squeeze out into the 4th dispersion chamber (3), the slurries in the 4th dispersion chamber (3) exist
Successively disperse chamber by third bubble jet flow dispersion ring cavity (23.3), third under the continuous promotion of its auger transmission blade (8)
(5), the second bubble jet flow dispersion ring cavity (23.2), the second dispersion chamber (10), first bubble spray dispersion ring cavity (23.1) are final
The first dispersion chamber (15) is come back to, and the slurries in the first dispersion chamber (15) can continue through several serum recycle entrance holes
(17) it is supplemented to agitation Transfer pipe (9);It is formd by the slurries in the entire water paint dispersion tube (20) of this rule lasting
Flow circuit state;
Under above-mentioned flow circuit state, gas supply pipe (13) continuously supplies pressure accumulation air to annular splitter cavity (14), into
And make to form Air pressure accumulation, and then each gas-guide tube end gas spout of first group of air injection pipe (11) in each isocon (12)
(290) gas sprayed makes to form the bubble jet flow rotated clockwise in first bubble spray dispersion ring cavity (23.1), and the
Bubble jet flow in one bubble jet flow dispersion ring cavity (23.1) can also collide its internal several jetting flow blade (31) repeatedly,
And then keep the coating slurries in first bubble spray dispersion ring cavity (23.1) fully dispersed, and then form finer and smoother slurries;
Several jetting flow blades (31) at the same time in first bubble spray dispersion ring cavity (23.1) are clockwise by bubble jet flow
Collision effect, and then drive on dispersion wheel (33) continuously rotate clockwise, and then on disperse wheel (33) on several agitation leaves
Piece (1) drives the slurries in the second dispersion chamber (10) to form clockwise eddy flow, and (34) are taken turns in also centering dispersion while agitating
Slurries squeeze out disk hole (28) on extrusion slurries progress continuous shear stress effect;Similarly and then second group of air injection pipe (7)
The gas that each gas-guide tube end gas spout (290) sprays makes to form rotation counterclockwise in the second bubble jet flow dispersion ring cavity (23.2)
The bubble jet flow turned, and dispersion wheel (34) continuously rotates counterclockwise in drive, and then several agitation leaves on middle dispersion wheel (34)
Piece (1) drives the slurries in third dispersion chamber (5) to form eddy flow counterclockwise;Each air guide pipe end of third group air injection pipe (6)
The gas that gas spout (290) sprays penetrates the bubble that formation rotates counterclockwise in third bubble jet flow dispersion ring cavity (23.3)
Stream, and lower dispersion wheel (35) is driven continuously to rotate clockwise, and then disperse to take turns several agitation blades (1) drive on (35) the down
Slurries in four dispersions chamber (3) form clockwise eddy flow;Slurries in water paint dispersion tube (20) complete an above-mentioned stream
In dynamic circulation, by the dispersion mixing paste body fluid shear agitation of multiple bubble jet flow, fine and smooth slurries are ultimately formed, then above-mentioned point
After the completion of day labor skill, the slurries in water paint dispersion tube (20) are imported into defoaming container, are then thrown into defoaming container
It puts defoaming agent and mixes defoaming, ultimately form the water paint of uniform exquisiteness.
7. a kind of water paint preparation process of the process unit of water paint according to claim 6, it is characterised in that:
The proportion for premixing the preliminary slurries being mixed to form in the chamber (76) that feeds intake and calculating by weight are as follows:
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CN105797617A (en) * | 2016-05-12 | 2016-07-27 | 金柯楠 | Coating dispersion equipment with dispersion protrusions |
CN107376758A (en) * | 2017-07-20 | 2017-11-24 | 盐城海之诺机械有限公司 | A kind of double tank mixing refining equipment of coating material production |
CN207287237U (en) * | 2017-08-01 | 2018-05-01 | 侯小芳 | A kind of efficient mixing arrangement of industrial type fluid industrial chemicals |
CN108355503A (en) * | 2018-03-23 | 2018-08-03 | 南通劲凌智能科技有限公司 | A kind of food emulsion shearing homogenizer and its technique |
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