CN111068531B - High-shear mixing and emulsifying device for processing paint and coating and working method thereof - Google Patents

Abstract

The invention discloses a high-shear mixing emulsification device for processing paint and coating and a working method thereof, wherein the device comprises a plurality of stirring motors, the stirring motors are fixedly arranged on a workbench, a first emulsification tank body is constructed in the central position of the workbench, a second emulsification tank body is fixedly arranged on one side of the first emulsification tank body, the first emulsification tank body and the second emulsification tank body can be fixed in a workbench body through welding, and mixing mechanisms are arranged in the first emulsification tank body and the second emulsification tank body; according to the high-shear emulsifying device, the mixing mechanism steel rib umbrella hoop, the first steel rib frame arm, the second steel rib frame arm, the rubbing rod, the inward stirring paddle and the blowout prevention cap structure enable the mixing mechanism steel rib umbrella hoop, the rubbing rod, the inward stirring paddle and the blowout prevention cap structure to be subjected to strong filling stirring shearing action instantly, the secondary paint coating can be subjected to secondary rotary fluid centrifugal motion through the comprehensive remixing structure, the reaction efficiency and the quality guarantee effect of the secondary paint coating are accelerated through the increase of the effect of the designed hot drying lamp, and the viscosity, the humidity and the temperature control of the secondary paint coating can be improved to a certain extent.

Description

High-shear mixing and emulsifying device for processing paint and coating and working method thereof

Technical Field

The invention belongs to the technical field of emulsification processes of paint coatings, and particularly relates to a high-shear mixing emulsification device for paint coating processing and a working method thereof.

Background

As is well known, the production process of the coating is to stir various raw materials together, the production process of the coating is usually sealed, and the production process is not easy to cause pollution again; whether the coating is environment-friendly and safe and how the performance of the coating is, mainly lie in the selection of raw materials and the processing of the raw materials, and generally, five raw materials exist in common forms, including water: the dispersion medium of the emulsion paint is a carrier for dissolving pigments, fillers and the like, and the water-based paint takes water as a solvent, so that the emulsion paint is low in cost, environment-friendly and non-toxic; the core of the latex paint plays a role of binding powder, so that the latex paint can be continuously formed into a film and provide basic performance of the latex paint, and common emulsions comprise styrene-acrylic emulsion, vinyl acetate-acrylic emulsion, EVA (ethylene vinyl acetate), pure acrylic emulsion and the like. The grade and the performance of the paint are mainly determined by film-forming substances, emulsion impurities can generate free monomer pollutants and benzene series pollutants, and the pigment: the pigment is a micro-powder colored substance, can be uniformly suspended in water, endows a coating film with color and covering power, improves the decorative property of the coating, is a main source of heavy metal pollution of the coating, and can avoid heavy metal pollution by selecting high-quality pigment, wherein the titanium dioxide belongs to white pigment; the filler and the pigment play a role of a skeleton in a coating film, the mechanical strength of the coating film is enhanced, the light resistance and the weather resistance are improved, the physical and chemical properties of the coating are improved, and the cost of the coating is reduced.

In the prior art, the shearing emulsification efficiency is low, the process precision and the material waste are severe, the crushing process flow is only one link in the whole forming process of the paint coating finished product, and the crushing process flow is independently implemented, so that the defects of improving the previous process and improving the repair rate, the qualification rate and the reprocessing treatment in the subsequent process flow cannot be overcome, the existing processing equipment is still updated slowly, various products are different, the quality rate of the finished product cannot be guaranteed, and the directions of the viscosity, the humidity and the like of the finished product cannot be mastered in the existing equipment.

Disclosure of Invention

The invention aims to provide a high-shear mixing and emulsifying device for processing paint and coating and a working method thereof, wherein a steel rib umbrella hoop, a first steel rib frame arm, a second steel rib frame arm, a scraping rod, an inward-oriented stirring paddle, a blowout prevention cap, an outward-oriented stirring paddle A, an outward-oriented stirring paddle B and an outward-oriented stirring paddle C structure in the mixing mechanism enable the mixing mechanism to be subjected to strong filling, stirring and shearing actions instantly, complex and violent fluid motion drives particles to collide with each other, and the particles collide with the scraping rod, the inward-oriented stirring paddle, the outward-oriented stirring paddle A, the outward-oriented stirring paddle B and the outward-oriented stirring paddle C structure, so that a huge hydraulic shearing action is formed, meanwhile, the secondary paint and coating can be subjected to secondary rotary fluid centrifugal motion through the comprehensive remixing structure, and the reaction efficiency and quality guarantee effect of the paint and coating are accelerated through the increase of the designed thermal drying lamp, the viscosity, humidity and temperature control of the product can be improved to a certain extent; the adopted integrated composite structure can obtain larger promotion space in the aspects of qualification rate and product quality, and a heat drying lamp device is newly added in the composite structure, so that materials can be effectively emulsified, dispersed and crushed and the shearing efficiency can be improved through the whole heat drying composite structure, and the emulsification effect of a paint coating finished product is achieved; the paint is supplemented with heat projection amount again through the whole heat drying combined structure, and the whole device is operated integrally and cannot be influenced, and when the temperature is stable, the viscosity of the paint is controlled; the high-shear mixing emulsifying device has the advantages of unique cylinder structure, high mixing efficiency, no dead angle, manufacturing by adopting stainless steel materials, polishing treatment of the inner wall and the outer wall, beautiful appearance, uniform mixing and wide application range, and can be matched with a forced stirrer according to the requirements of users so as to be suitable for mixing fine particles, blocks and materials containing certain moisture.

Therefore, the invention provides a first technical scheme that:

the invention relates to a high-shear mixing emulsification device for processing paint and coating, which comprises a plurality of stirring motors, wherein the stirring motors are fixedly arranged on a workbench, a first emulsification tank body is arranged at the central position of the workbench, a second emulsification tank body is fixedly arranged on one side of the first emulsification tank body, the first emulsification tank body and the second emulsification tank body can be fixed in the workbench body through welding, the first emulsification tank body and the second emulsification tank body are embedded in the workbench, the top of the first emulsification tank body is rotatably sleeved with a first rotating arm, the top of the first rotating arm is fixedly connected with the stirring motors, the top of the second emulsification tank body is rotatably sleeved with a second rotating arm, the top of the second rotating arm is fixedly connected with the stirring motors, and the inner parts of the first emulsification tank body and the second emulsification tank body are provided with a material mixing mechanism, the circumferential direction of first swinging boom or second swinging boom is fixed with the reinforcing bar umbrella hoop, first steel skeleton frame arm and second steel skeleton frame arm are connected to the outer tip part of reinforcing bar umbrella hoop, and first steel skeleton frame arm and second steel skeleton frame arm become 180 degrees symmetrical placement about first swinging boom or second swinging boom, the outside of first steel skeleton frame arm and second steel skeleton frame arm all is provided with cuts and scratches the stick, cut and scrape the stick and all divide and be provided with two from top to bottom, and two cut and rub the stick and all become 180 degrees symmetrical placement about first swinging boom or second swinging boom, the inboard of first steel skeleton frame arm and second steel skeleton frame arm all is provided with interior orientation stirring rake, and is located the lower extreme that prevents the spray cap and with first swinging boom or second swinging boom fixedly connected with outward orientation stirring rake A, outward orientation stirring rake B and outward orientation stirring rake C, outward orientation stirring rake A, outward orientation stirring rake B and outward orientation stirring rake C are in the outside of first swinging boom or second swinging boom sets up fixed fixation in proper order downwards set up the outside of first swinging boom or second swinging boom The top of the first emulsifying tank body is connected with a first feeding port, the bottom of the first emulsifying tank body is connected with a first discharging port, the first discharging port is conveyed to a comprehensive re-mixing structure through a pipeline, the top of the second emulsifying tank body is connected with a second feeding port, the bottom of the second emulsifying tank body is connected with a second discharging port, the second discharging port is conveyed to the comprehensive re-mixing structure through a pipeline, the comprehensive re-mixing structure comprises a coating mixing chamber, the top of the coating mixing chamber is communicated with a high-speed shearing chamber, the top of the high-speed shearing chamber is provided with a high-speed rotating motor, the top of the high-speed rotating motor is provided with a gas backflow filter screen, the outer side of the high-speed shearing chamber is connected with a heat drying lamp through a pipeline, the top of the heat drying lamp is fixedly hung at the lower end of an upper top plate, and the heat drying lamp comprises a lamp shade, the body of lamp shade is opened and chisels the one end that has hot-blast mouthful and connect at its pipeline, the heat pipe of roasting is installed to the bottom of lamp shade, it is connected with manual lifter to go up the roof, manual lifter's outside is fixed in the workstation body to run through in the workstation, it has the lifting belt all to run through with manual lifter's inside to go up the roof, the one end in lifting belt is fixed hot drying lamp's top, on the other end then was fixed in positioning bearing's the bearing surface, end department and fix the bottom at manual lifter, and whole lifting belt simultaneous transmission is connected on positioning bearing, positioning bearing A and the positioning bearing B, simultaneously positioning bearing B passes through on the rotatory roller connects positioning bearing.

As a further scheme of the present invention, the mixing mechanism specifically includes a gear bearing in gear sleeve connection with the first rotating arm or the second rotating arm, an emulsification neck is integrally formed at the top of the first emulsification tank or the second emulsification tank, a gear groove is formed in the emulsification neck, the gear groove is engaged with gear teeth of the gear bearing, the first rotating arm or the second rotating arm passes through the gear bearing and is fixed on the emulsification neck, and the first rotating arm or the second rotating arm rotates through the gear bearing, the emulsification neck is connected with a blowout prevention cap, and the blowout prevention cap is integrally fixed in the first emulsification tank or the second emulsification tank.

As a further scheme of the invention, an emergency lighthouse is fixed on the workbench, emergency lighting equipment is installed at the top of the emergency lighthouse, the emergency lighting equipment has a power-off short-time continuous cruising function, a safety steel frame is fixedly welded to the other side corresponding to the emergency lighthouse, a climbing ladder is arranged on the inner side of the safety steel frame, one end of the climbing ladder is fixed to the workbench body, and the other end of the climbing ladder is fixed to the ground.

As a further scheme of the present invention, the workbench is configured at the top end portions of a plurality of groups of support columns, the peripheries of the support columns present auxiliary support columns which are upwardly divergent, the upper end portions of the auxiliary support columns are fixedly welded at the bottom of the workbench, the lower end portions of the auxiliary support columns are fixedly welded at the annular outer side surfaces of the support columns, and safety guardrails are respectively installed and fixed at the peripheral edges of the workbench.

As a further scheme of the invention, the lower end of the coating mixing chamber is connected with a collection processing box, the top of the workbench is fixed with a motor fixing seat, and the motor fixing seats are respectively and fixedly connected with the stirring motors.

As a further scheme of the invention, one side of the second emulsification tank body is provided with a control box.

Thirdly, the invention provides a second technical scheme:

a working method of a high-shear mixing emulsifying device for processing paint coatings specifically comprises the following steps:

the method comprises the following steps: firstly, selecting an environment position for installing the high-shear mixing and emulsifying device for processing the paint and coating, selecting a site according to the heights of the workbench, the safety steel frame and the climbing ladder, and determining the space and site requirements for operation; secondly, the material mixing mechanism and the comprehensive material re-mixing structure are installed and fixed on the workbench, and a paint mixing chamber and a collecting and processing box are installed in the vertical downward direction of the comprehensive material re-mixing structure to complete smooth connection of a material passing pipeline; finally, connecting the coating mixing chamber with the material conveying pipelines of the first emulsifying tank body and the second emulsifying tank body through the first feed opening and the second feed opening respectively to complete pipeline conveying connection work in the whole process;

step two: conveying the paint to be processed to a workbench manually, completing corresponding impurity removal work before the operation, meanwhile, temporarily collecting finished products after the paint coating processing by a collection processing box, and completing final storage work, wherein after the manual links of the head part and the tail part are completed, the rest links are directly implemented by an integrated high-shear mixing emulsification device for processing, and in the process, technicians only need to operate through a control box to complete the flow of the processing technology;

step three: firstly, after the processed paint vehicle enters the mixing mechanism through the first feeding port and the second feeding port, the whole mixing mechanism can further work, and the mixing mechanism is combined into a complete driving mechanism through a stirring motor, a first rotating arm and a second rotating arm which are connected with the mixing mechanism in a structural relationship, so that the normal work of the mixing mechanism is realized; secondly, through the mixing mechanism, the steel rib umbrella hoop, the first steel rib arm, the second steel rib arm, the rubbing rod, the inward stirring paddle, the blowout prevention cap, the outward stirring paddle A, the outward stirring paddle B and the outward stirring paddle C in the mixing mechanism enable the mixing mechanism to be instantly subjected to the action of strong filling stirring shearing force, so that the violent fluid motion is achieved, and paint vehicles are driven to mutually collide; finally, in the processing of the liquid paint vehicle, the rubbing rod, the inward-facing stirring paddle, the outward-facing stirring paddle A, the outward-facing stirring paddle B and the outward-facing stirring paddle C are also impacted to form huge hydraulic shearing force action;

step four: firstly, after the processing and mixing of the material mixing mechanism are finished, the material mixing mechanism is controlled through a control box, and the control comprises start-stop control, rotating speed control and blanking or feeding control; secondly, after the processing technology of the mixing mechanism is finished, the rotating speed or the start-stop command of the control box is operated, the blanking is controlled by controlling the control box to carry out blanking or manually opening and closing a start-stop valve, the next process link is switched, and then, in the processing of the comprehensive remixing structure, by matching with a heat drying lamp and a structure of manual lifting rod combined control connected with the heat drying lamp, a brand new auxiliary heating process is added again in the normal processing process of the comprehensive remixing structure, and finally, the secondary paint coating is subjected to a secondary rotary fluid centrifugal motion through the comprehensive remixing structure, the reaction efficiency and the quality guarantee effect of the paint are accelerated by increasing the designed function of the heat drying lamp, and meanwhile, the heat projection amount of the paint can be supplemented again through the whole heat drying combined structure;

step five: regulating and controlling the starting and stopping, the rotating speed and the feeding and discharging control process of the comprehensive remixing structure through the control box;

step six: and when the centrifugal movement task of the rotating fluid of the comprehensive re-mixing structure in the secondary processing process is finished, the final finished coating is obtained and stored through the collection processing box.

In addition, the concrete links also include the following:

a. treating the original pigment: the method comprises the steps of crushing and drying, wherein in the drying process, fine pigment particles can be coagulated, so that the particle size of the fine pigment particles is many times larger than that of original particles, and the fine pigment particles cannot be directly used for coloring, and partial paint vehicle mixing is carried out before pre-dispersion treatment and pigment mixing emulsification are carried out to prepare the mixing color paste belonging to a semi-finished product of pigment color paste;

b. specific pre-dispersion: manually conveying the pigment to a workbench through a climbing ladder to mix partial paint materials so as to prepare a blending color paste belonging to a semi-finished product of pigment color paste, and simultaneously facilitating subsequent grinding;

c. grinding and dispersing: fully dispersing the pre-dispersed mixing color paste by grinding dispersion equipment to obtain pigment color paste;

d. paint mixing: stabilizing and reprocessing the grinding paint slurry in the specific production process of the paint coating, wherein the steps comprise adjusting color, solid content, viscosity and filling materials, so as to obtain a product of the required liquid coating;

e. purifying and packaging: the materials are collected into a collection processing box through mechanization, and then the next working procedure and further packaging and conveying processing are carried out.

The paint mixing process in the paint mixing process link also comprises paint mixing in the production process of two paints and paint mixing in the use process of the paints.

The pigment, the base material and the solvent are proportionally ground into color paste according to a conventional proper amount, so that the color paste has the optimal grinding efficiency; and after dispersing and grinding, the rest components are complemented according to the formula of the colored paint, and then dispersing and mixing are carried out, and the batching and weighing are strict and accurate.

And removing various impurities and large particles through filtering equipment or manual selection, and packaging to obtain the finished coating.

The invention has the beneficial effects that:

1. the high shear emulsifying device of the invention uses the mixing mechanism, and the steel rib umbrella hoop, the first steel frame arm, the second steel frame arm, the rubbing rod, the inward stirring paddle, the blowout prevention cap, the outward stirring paddle A, the outward stirring paddle B and the outward stirring paddle C in the mixing mechanism make the mixing mechanism instantly receive the strong filling stirring shearing action, the complex and violent fluid motion drives the particles to mutually collide, and the particles collide with the scraping rod, the inward stirring paddle, the outward stirring paddle A, the outward stirring paddle B and the outward stirring paddle C, thereby forming the huge hydraulic shearing action, meanwhile, the secondary paint can be rotated again for fluid centrifugal motion by synthesizing the remixing structure, moreover, the reaction efficiency and quality guarantee effect of the high shear emulsifying device are accelerated by increasing the designed function of the hot drying lamp, the paint can be replenished with hot projection quantity again by the whole hot drying combination structure, and in the middle of the integral operation of the whole device, the influence can not be caused, when the temperature is stable, the viscosity of the paint can be controlled, and the viscosity, the humidity and the temperature control can be improved to a certain extent.

2. The invention adopts an integrated composite structure which can obtain larger promotion space in the aspects of qualification rate and product quality, and a heat drying lamp device is newly added in the composite structure, so that materials can be effectively emulsified, dispersed and crushed and the shearing efficiency can be improved through the whole heat drying composite structure, and the emulsification effect of paint coating finished products is achieved.

3. The high-shear mixing emulsifying device has the advantages of unique cylinder structure, high mixing efficiency, no dead angle, manufacturing by adopting stainless steel materials, polishing treatment of the inner wall and the outer wall, beautiful appearance, uniform mixing and wide application range, and can be matched with a forced stirrer according to the requirements of users so as to be suitable for mixing fine particles, blocks and materials containing certain moisture.

Drawings

The invention is described in further detail below with reference to the figures and specific embodiments.

FIG. 1 is a schematic diagram of the overall configuration of a high shear mixing emulsifier apparatus according to the present invention;

FIG. 2 is an enlarged schematic structural view of a mixing mechanism of the present invention;

FIG. 3 is a schematic view of the principle of the force applied between the mixing mechanism and the driving part of the present invention;

FIG. 4 is a schematic structural view of the operation principle of a heat drying lamp in a comprehensive remixing structure according to the present invention;

FIG. 5 is an elevational view of the stand alone configuration of the mixing mechanism of the present invention;

FIG. 6 is a schematic view of another improved composite structure of the heat drying lamp in the process of the present invention.

In the figure: 1. a stirring motor; 2. a work table; 3. a first emulsification tank; 4. a second emulsification tank; 5. a first rotating arm; 6. a second rotating arm; 7. a material mixing mechanism; 8. a steel rib umbrella hoop; 9. a first steel frame arm; 10. a second steel frame arm; 11. scraping and rubbing the rod; 12. an inward-facing stirring paddle; 13. a blowout preventer cap; 14. the outer side of the stirring paddle A faces to the stirring paddle A; 15. the outer side of the stirring paddle B faces the stirring paddle B; 16. the outer side of the stirring paddle C faces the stirring paddle C; 17. a first feeding port; 18. a first feed opening; 19. a comprehensive remixing structure; 20. a second feeding port; 21. a second feed opening; 22. a paint mixing chamber; 23. a high-speed shearing bin; 24. rotating the motor at a high speed; 25. a gas backflow filter screen; 26. a heat drying lamp; 27. an upper top plate; 28. a lamp shade; 29. a hot air port; 30. a roasting heat pipe; 31. a manual lifting rod; 32. positioning the bearing; 33. an emulsifying neck; 34. a gear groove; 35. an emergency beacon; 36. a safety steel frame; 37. climbing a ladder; 38. a support pillar; 39. an auxiliary support column; 40. a safety barrier; 41. a collection treatment box; 42. a control box; 43. a motor fixing seat; 44. lifting the belt; 45. positioning a bearing A; 46. a position bearing B; 47. the roller is rotated.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, a high shear mixing emulsification device for paint coating processing comprises a plurality of stirring motors 1, wherein the plurality of stirring motors 1 are fixedly arranged on a workbench 2, a first emulsification tank 3 is arranged at the center of the workbench 2, a second emulsification tank 4 is fixedly arranged at one side of the first emulsification tank 3, the first emulsification tank 3 and the second emulsification tank 4 can be fixed in the body of the workbench 2 by welding, the first emulsification tank 3 and the second emulsification tank 4 are both embedded in the workbench 2, a first rotating arm 5 is rotatably sleeved at the top of the first emulsification tank 3, the stirring motor 1 is fixedly connected at the top of the first rotating arm 5, a second rotating arm 6 is rotatably sleeved at the top of the second emulsification tank 4, the stirring motor 1 is fixedly connected at the top of the second rotating arm 6, and a mixing mechanism 7 is arranged inside the first emulsification tank 3 and the second emulsification tank 4, a steel rib umbrella hoop 8 is fixed in the circumferential direction of the first rotating arm 5 or the second rotating arm 6, the outer end portion of the steel rib umbrella hoop 8 is connected with a first steel rib frame arm 9 and a second steel rib frame arm 10, the first steel rib frame arm 9 and the second steel rib frame arm 10 are symmetrically placed at 180 degrees with respect to the first rotating arm 5 or the second rotating arm 6, the outer sides of the first steel rib frame arm 9 and the second steel rib frame arm 10 are respectively provided with a scraping and rubbing rod 11, the scraping and rubbing rods 11 are respectively and vertically arranged at two equal intervals, the two scraping and rubbing rods 11 are symmetrically placed at 180 degrees with respect to the first rotating arm 5 or the second rotating arm 6, the inner sides of the first steel rib frame arm 9 and the second steel rib frame arm 10 are respectively provided with an inward-facing stirring paddle 12, the outward-facing stirring paddle A14, an outward-facing stirring paddle B15 and an outward-facing stirring paddle C16 are fixedly connected with the first rotating arm 5 or the second rotating arm 6 and are positioned at the lower end of the blowout prevention cap 13, and the outward-facing stirring paddle A14, An outward stirring paddle B15 and an outward stirring paddle C16 are sequentially and fixedly arranged downwards on the outer side of the first rotating arm 5 or the second rotating arm 6, the top of the first emulsifying tank body 3 is connected with a first feeding port 17, the bottom of the first emulsifying tank body 3 is connected with a first discharging port 18, the first discharging port 18 is conveyed to a comprehensive re-mixing structure 19 through a pipeline, the top of the second emulsifying tank body 4 is connected with a second feeding port 20, the bottom of the second emulsifying tank body 4 is connected with a second discharging port 21, the second discharging port 21 is conveyed to the comprehensive re-mixing structure 19 through a pipeline, the comprehensive re-mixing structure 19 comprises a paint mixing chamber 22, the top of the paint mixing chamber 22 is communicated with a high-speed shearing chamber 23, the top of the high-speed shearing chamber 23 is provided with a high-speed rotating motor 24, the top of the high-speed rotating motor 24 is provided with a gas backflow filter screen 25, the outer side of the high-speed shearing chamber 23 is connected with a heat drying lamp 26 through a pipeline, the top of the heat drying lamp 26 is fixedly hung at the lower end of the upper top plate 27, the heat drying lamp 26 comprises a lampshade 28, the body of the lampshade 28 is provided with a hot air port 29 and connected with one end of a pipeline, the bottom end of the lampshade 28 is provided with a heat roasting pipe 30, the upper top plate 27 is connected with a manual lifting rod 31, the outside of the manual lifting rod 31 is fixed on the body of the workbench 2 and penetrates through the workbench 2, a lifting belt 44 penetrates through the insides of the upper top plate 27 and the manual lifting rod 31, one end of the lifting belt 44 is fixed at the top of the heat drying lamp 26, the other end of the lifting belt is fixed on a bearing surface of a positioning bearing 32, the end of the lifting rod is fixed at the bottom of the manual lifting rod 31, the whole lifting belt 44 is simultaneously in transmission connection with the positioning bearing 32, the positioning bearing A45 and the positioning bearing B46, and the positioning bearing B46 is connected with the positioning bearing 32 through a rotating roller 47.

The mixing mechanism 7 specifically comprises a gear bearing in gear sleeve connection with the first rotating arm 5 or the second rotating arm 6, an emulsifying neck 33 is integrally formed at the top of the first emulsifying tank body 3 or the second emulsifying tank body 4, a gear groove 34 is formed in the emulsifying neck 33 in an internal process, the gear groove 34 is matched with gear teeth of the gear bearing, the first rotating arm 5 or the second rotating arm 6 penetrates through the gear bearing and is fixed on the emulsifying neck 33, meanwhile, the first rotating arm 5 or the second rotating arm 6 rotates through the gear bearing, the emulsifying neck 33 is connected with a blowout prevention cap 13, the blowout prevention cap 13 is integrally fixed in the first emulsifying tank body 3 or the second emulsifying tank body 4, and the blowout prevention cap 13 plays a role in protecting material slag or liquid splashed due to high-speed rotation in a specific process.

Be fixed with emergency beacon 35 on workstation 2, emergency lighting equipment is installed at emergency beacon 35's top, and this emergency lighting equipment has the outage short time and lasts the continuation of journey function, opposite side welded fastening who corresponds with emergency beacon 35 has safe steelframe 36, and the inboard of safe steelframe 36 is provided with climbing ladder 37, climbing ladder 37's one end is fixed in workstation 2 body, climbing ladder 37's the other end is fixed in ground, be used for the material loading to use, and prevent the high-rise risk that drops that the proruption outage and lead to emergency beacon 35, and simultaneously, emergency lighting equipment that emergency beacon 35 adopted and have the lighting equipment who lasts the continuation of journey function can adopt the lamps and lanterns of any small-size and easily equipment.

The workbench 2 is constructed at the top end parts of a plurality of groups of supporting columns 38, the periphery of each supporting column 38 is provided with an auxiliary supporting column 39 which is upwards diverged, the upper end part of each auxiliary supporting column 39 is fixedly welded at the bottom of the workbench 2, the lower end part of each auxiliary supporting column 39 is fixedly welded at the annular outer side surface of each supporting column 38, and the peripheral edges of the workbench 2 are respectively provided with and fixed with a safety guardrail 40 to ensure the safety in operation.

The lower extreme of coating mixing chamber 22 is connected with collects and handles case 41, and the top of workstation 2 is fixed with motor fixing base 43, and motor fixing base 43 respectively with a plurality of agitator motor 1 fixed connection for the operation of cooperation whole device.

One side of the second emulsification tank body 4 is provided with a control box 42, the control box 42 belongs to a control platform operating mechanism and a specific circuit connecting mechanism, and the control box 42 is connected with all the manual lifting rods 31, the stirring motor 1, the mixing mechanism 7, the high-speed rotating motor 24, the hot drying lamp 26, the emergency beacon 35 and the like related to control in the technical scheme, such as starting, stopping, rotating speed, material conveying up and down control and the like.

A working method of a high-shear mixing emulsifying device for processing paint coatings specifically comprises the following steps:

the method comprises the following steps: firstly, selecting an environment position for installing the high-shear mixing and emulsifying device for processing the paint and coating, selecting a site according to the heights of the workbench 2, the safety steel frame 36 and the climbing ladder 37, and determining the space and site requirements for operation; secondly, the mixing mechanism 7 and the comprehensive re-mixing structure 19 are installed and fixed on the workbench 2, and the coating mixing chamber 22 and the collecting and processing box 41 are installed in the vertical downward direction of the comprehensive re-mixing structure 19 to complete the smooth connection of the material passing pipelines; finally, connecting the coating mixing chamber 22 with the material conveying pipelines of the first emulsifying tank body 3 and the second emulsifying tank body 4 through the first feed opening 18 and the second feed opening 21 respectively to complete the pipeline conveying connection work in the whole process;

step two: the paint to be processed is manually conveyed to the workbench 2, corresponding impurity removal work is completed before the paint is manually conveyed to the workbench, meanwhile, finished products after paint coating processing are temporarily collected by the collection processing box 41, final storage work is completed, after the manual links of the head part and the tail part are completed, the rest links are directly processed by the integrated high-shear mixing and emulsifying device, and in the process, technicians only need to operate the device through the control box 42 to complete the process of the processing technology;

step three: firstly, after the processed paint material enters the mixing mechanism 7 through the first feeding port 17 and the second feeding port 20, the whole mixing mechanism 7 can further work, and the mixing mechanism 7 is combined into a complete driving mechanism together through the stirring motor 1, the first rotating arm 5 and the second rotating arm 6 which are connected with the mixing mechanism in a structural relationship, so that the mixing mechanism 7 can normally work; secondly, through the mixing mechanism 7, and the steel rib umbrella hoop 8, the first steel frame arm 9, the second steel frame arm 10, the rubbing rod 11, the inward-facing stirring paddle 12, the blowout prevention cap 13, the outward-facing stirring paddle A14, the outward-facing stirring paddle B15 and the outward-facing stirring paddle C16 in the mixing mechanism 7, the mixing mechanism 7 is instantaneously subjected to the action of strong filling stirring shearing force, so that the violent fluid movement is achieved, and paint vehicles are driven to mutually collide; finally, in the processing of the liquid paint, a huge hydraulic shearing force action is formed by the impact of the structures of the rubbing rod 11, the inner-direction stirring paddle 12, the outer-direction stirring paddle A14, the outer-direction stirring paddle B15 and the outer-direction stirring paddle C16;

step four: firstly, after the processing and mixing are completed through the mixing mechanism 7, the mixing mechanism 7 is controlled through the control box 42, and the control comprises start-stop control, rotating speed control and blanking or feeding control; secondly, after the processing process of the mixing mechanism 7 is completed, the rotating speed or start-stop command of the control box 42 is operated, the control box 42 is controlled to perform blanking or manually switch a start-stop valve to control blanking, the next process link is switched, then, in the processing process of the comprehensive remixing structure 19, a brand-new auxiliary heat input process is added again in the normal processing process of the comprehensive remixing structure 19 by matching with the heat drying lamp 26 and a manually-operated lifting rod 31 connected with the heat drying lamp 26 in a combined control structure, finally, the comprehensive remixing structure 19 is used for performing secondary rotary fluid centrifugal motion on the secondary paint, the reaction efficiency and the quality guarantee effect are accelerated by increasing the effect of the designed heat drying lamp 26, and meanwhile, the paint can be supplemented with heat projection quantity again through the whole heat drying combined structure;

step five: the control box 42 regulates and controls the starting, stopping, rotating speed and feeding and discharging control processes of the comprehensive remixing structure 19;

step six: after the centrifugal movement of the rotating fluid of the compound mixing structure 19 is completed in the secondary processing, the final finished coating is obtained and stored in the collection and treatment tank 41.

In addition, the concrete links also include the following:

a. treating the original pigment: the method comprises the steps of crushing and drying, wherein in the drying process, fine pigment particles can be coagulated, so that the particle size of the fine pigment particles is many times larger than that of original particles, and the fine pigment particles cannot be directly used for coloring, and partial paint vehicle mixing is carried out before pre-dispersion treatment and pigment mixing emulsification are carried out to prepare the mixing color paste belonging to a semi-finished product of pigment color paste;

b. pre-dispersing: the pigment is manually conveyed to the workbench 2 through the climbing ladder 37 to be mixed with partial paint, so as to prepare the mixing color paste belonging to the semi-finished product of the pigment color paste, and the subsequent grinding is facilitated;

c. grinding and dispersing: fully dispersing the pre-dispersed mixing color paste by grinding dispersion equipment to obtain pigment color paste;

d. paint mixing: stabilizing and reprocessing the grinding paint slurry in the specific production process of the paint coating, wherein the steps comprise adjusting color, solid content, viscosity and filling materials, so as to obtain a product of the required liquid coating;

e. purifying and packaging: the collected materials are collected into a collection processing box 41 through mechanization, and then the next process procedure and further packaging and conveying processing are carried out.

The paint mixing process in the paint mixing process link also comprises paint mixing in the production process of the two paints and paint mixing in the use process of the paints.

Wherein, the pigment, the base material and the solvent are proportionally ground into color paste according to a normal proper amount, so that the color paste has the best grinding efficiency; and after dispersion and grinding, the rest components are complemented according to the formula of the colored paint, and then dispersion and mixing are carried out, and the ingredient weighing is strict and accurate (the error is reduced to the maximum extent). Removing various impurities and large particles by conventional filtering equipment or manual selection, and packaging to obtain the finished paint.

Specifically, the device is an integrated assembly structure, before assembly and use, addresses are selected according to the requirement of the environment space of the device, and the device is used for better exerting the purposes of installation and fixation, the device needs to be large in space and belongs to an operation mode with a certain height away from the ground, necessary design is strictly carried out according to security protection structures such as a safety guardrail 40, a safety steel frame 36 and a climbing ladder 37 recorded in the technical scheme, paint to be processed is conveyed to a workbench 2 manually, corresponding impurity removal work is completed before the space is removed, the integrated high-shear mixed emulsification device is directly used for carrying out a system implementation processing process after the manual link of the head part and the tail part is completed, and in the process, technicians only need to operate through a control box 42, and then the processing process can be completed.

Firstly, the raw materials are filled into the first emulsifying tank body 3 and the second emulsifying tank body 4 through the first feeding port 17 and the second feeding port 20, wherein the two modes are adopted:

when the raw material amount is less or the requirement on the finished coating amount is low, any feeding port can be used for filling, namely any emulsifying tank can be used for carrying out the process of the implementation process.

Secondly, when the raw material component is more or the demand of the coating finished product quantity is high, the raw material component and the coating finished product quantity are simultaneously filled into the first emulsifying tank body 3 and the second emulsifying tank body 4 respectively according to specific requirements.

It is worth noting that the two modes can obtain the final paint coating product with high quality, and the quantity is large and does not influence the quality of the final product, just because the implementation process of the whole device process is not influenced.

Secondly, the whole mixing mechanism 7 can work further, the mixing mechanism 7 can be combined into a complete driving mechanism and a force transmission mechanism through a series of connecting mechanisms such as the stirring motor 1, the first rotating arm 5 and the second rotating arm 6 which are connected with the mixing mechanism 7 in a structural relationship, so that the mixing mechanism 7 can work normally, the steel rib umbrella hoop 8, the first steel rib arm 9, the second steel rib arm 10, the scraping rod 11, the inward-facing stirring paddle 12, the blowout preventer cap 13, the outward-facing stirring paddle A14, the outward-facing stirring paddle B15 and the outward-facing stirring paddle C16 in the mixing mechanism 7 can be subjected to strong filling stirring shearing action instantly through the steel rib umbrella hoop 8, the first steel rib arm 9, the second steel rib arm 10, the scraping rod 11, the complex and violent fluid motion drives particles to collide with each other, and the particles and the scraping rod 11, the inward-facing stirring paddle 12, the outward-facing stirring paddle A14, the outward-facing stirring paddle B15 and the outward-facing stirring paddle C16 are collided with the structural body, thereby creating a large hydrodynamic shear.

Secondly, the first feed opening 18 is controlled by the control box 42 again, the second feed opening 21 is shifted to the next process link after the processing process of the material mixing mechanism 7 is completed, namely, the processing and processing of the comprehensive re-mixing structure 19 are realized, the combined control structure of the heat drying lamp 26, the manual lifting rod 31 and the like which are structurally connected with the heat drying lamp 26 is matched in the system processing, the brand-new auxiliary heat throwing process is increased in the normal processing process of the comprehensive re-mixing structure 19, the comprehensive re-mixing structure 19 can carry out re-rotation fluid centrifugal motion on the secondary paint, the reaction efficiency and the quality guarantee effect are accelerated by increasing the function of the designed heat drying lamp, the heat throwing amount of the paint can be supplemented again by the whole heat drying combined structure, and the influence cannot be caused in the integral operation of the whole device, when the temperature is stable, the viscosity of the paint can be controlled, and the viscosity, the humidity and the temperature control can be improved to a certain extent.

Thirdly, the high-speed rotating motor 24 and the like connected with the power structure of the comprehensive re-mixing structure 19 also belong to the operation process of the conventional technology, and are regulated and controlled by the control box 42, and the manual control, the signal control or the electrical control of the high-speed rotating motor all belong to one direction of the implementation of the technical scheme, but can be implemented by technical personnel in the technical field.

Finally, after the secondary processing step is completed, the final product is obtained and stored in the collection and processing box 41. Referring to fig. 6, another composite structure that can be improved in the implementation of the heat drying lamp of the present invention is shown, which has the function and purpose of improving efficiency. The installation of the part of the structure can be increased according to specific requirements.

In addition, in the technical scheme, the proportioning is finished twice, and the grinding color paste is firstly proportioned according to a certain pigment/base material/solvent ratio so as to ensure that the grinding efficiency is optimal; secondly, after dispersion and grinding, the rest components are complemented according to the formula of the colored paint, and then dispersion and mixing are carried out; the batching strives to weigh and needs to keep accurate, guarantees its later stage and implements the emulsification effect in the compounding process.

Meanwhile, firstly, the color of the paint is required to be uniform, and if the pigment is not uniformly dispersed in the paint, the color depth of the paint film is different, so that the visual aesthetic feeling is influenced; secondly, pigments are solids, generally of higher specific gravity than paints, and if not uniformly mixed and dispersed in paints, will precipitate and agglomerate during storage; thirdly, when the paint is coated into a film, the thickness of the film can be generally less than 20 μm, if the pigment aggregates are too large, the paint film is rough and uneven without being dispersed to a proper size, which affects the gloss, and therefore, the uniform dispersion of the pigment is very important.

In the technical scheme, the auxiliary agents can improve the performance of the coating and can cause certain pollution, so that most of the auxiliary agents need to perform certain cleaning work after completion.

The high-shear mixing emulsifying device has the advantages of unique cylinder structure, high mixing efficiency, no dead angle, manufacturing by adopting stainless steel materials, polishing treatment of the inner wall and the outer wall, beautiful appearance, uniform mixing and wide application range, and can be matched with a forced stirrer according to the requirements of users so as to be suitable for mixing fine particles, blocks and materials containing certain moisture.

The foregoing is merely exemplary and illustrative of the present invention and various modifications, additions and substitutions may be made by those skilled in the art to the specific embodiments described without departing from the scope of the invention as defined in the following claims.

Claims (1)

1. The high-shear mixing and emulsifying device for processing paint and coating comprises a plurality of stirring motors (1) and is characterized in that the stirring motors (1) are fixedly arranged on a workbench (2), a first emulsifying tank body (3) is arranged at the central position of the workbench (2), a second emulsifying tank body (4) is fixedly arranged at one side of the first emulsifying tank body (3), the first emulsifying tank body (3) and the second emulsifying tank body (4) are fixedly welded on the workbench (2), the first emulsifying tank body (3) and the second emulsifying tank body (4) are both embedded in the workbench (2), a first rotating arm (5) is rotatably sleeved at the top of the first emulsifying tank body (3), the stirring motors (1) are fixedly connected at the top of the first rotating arm (5), a second rotating arm (6) is rotatably sleeved at the top of the second emulsifying tank body (4), the stirring motor (1) is fixedly connected to the top of the second rotating arm (6), the mixing mechanisms (7) are arranged inside the first emulsifying tank body (3) and the second emulsifying tank body (4), a steel rib umbrella hoop (8) is fixed in the circumferential direction of the first rotating arm (5) and the second rotating arm (6), the outer end portion of the steel rib umbrella hoop (8) is connected with a first steel rib frame arm (9) and a second steel rib frame arm (10), the first steel rib frame arm (9) and the second steel rib frame arm (10) are symmetrically placed in 180 degrees relative to the first rotating arm (5) or the second rotating arm (6), the rubbing rods (11) are arranged on the outer sides of the first steel rib frame arm (9) and the second steel rib frame arm (10), the rubbing rods (11) are equally divided into two parts, and the rubbing rods (11) are symmetrically placed in 180 degrees relative to the first rotating arm (5) or the second rotating arm (6), the inner sides of the first steel frame arm (9) and the second steel frame arm (10) are respectively provided with an inward-facing stirring paddle (12), the inward-facing stirring paddle (12) is positioned at the lower end of the blowout prevention cap (13), and the first rotating arm (5) is fixedly provided with an outward-facing stirring paddle A (14), an outward-facing stirring paddle B (15) and an outward-facing stirring paddle C (16); an outward-facing stirring paddle A (14), an outward-facing stirring paddle B (15) and an outward-facing stirring paddle C (16) are fixed on the second rotating arm (6); the outward-facing stirring paddle A (14), the outward-facing stirring paddle B (15) and the outward-facing stirring paddle C (16) are vertically and downwards fixed on the outer side of the first rotating arm (5); the outward-facing stirring paddle A (14), the outward-facing stirring paddle B (15) and the outward-facing stirring paddle C (16) are vertically and downwards fixed on the outer side of the second rotating arm (6); the top of the first emulsifying tank body (3) is connected with a first feeding port (17), the bottom of the first emulsifying tank body (3) is connected with a first feeding port (18), the first feeding port (18) is conveyed to a comprehensive remixing structure (19) through a pipeline, the top of the second emulsifying tank body (4) is connected with a second feeding port (20), the bottom of the second emulsifying tank body (4) is connected with a second feeding port (21), the second feeding port (21) is conveyed to the comprehensive remixing structure (19) through a pipeline, the comprehensive remixing structure (19) comprises a coating mixing chamber (22), the top of the coating mixing chamber (22) is in through connection with a high-speed shearing chamber (23), the top of the high-speed shearing chamber (23) is provided with a high-speed rotating motor (24), the top of the high-speed rotating motor (24) is provided with a gas backflow filter screen (25), the high-speed shearing bin (23) is connected with a heat drying lamp (26) through a pipeline, the heat drying lamp (26) is fixed at the lower end of an upper top plate (27), the heat drying lamp (26) comprises a lampshade (28), a body of the lampshade (28) is provided with a hot air port (29), a heat roasting pipe (30) is installed at the bottom end of the lampshade (28), the upper top plate (27) is connected with a manual lifting rod (31), the outside of the manual lifting rod (31) is fixed on the workbench (2), the manual lifting rod (31) penetrates through the workbench (2), belts (44) penetrate through the insides of the upper top plate (27) and the manual lifting rod (31), one end of each lifting belt (44) is fixed at the top of the heat drying lamp (26), and the other end of each lifting belt is fixed on a positioning bearing (32); the lifting belt (44) is in transmission connection with a positioning bearing (32), a positioning bearing A (45) and a positioning bearing B (46), and the positioning bearing B (46) is connected with the positioning bearing (32) through a rotating roller (47);

the mixing mechanism (7) comprises a gear bearing in gear sleeve joint with the first rotating arm (5) or the second rotating arm (6), the tops of the first emulsification tank body (3) and the second emulsification tank body (4) are integrally formed with emulsification necks (33), a gear groove (34) is arranged in the emulsifying neck (33), the gear groove (34) is meshed with gear teeth of a gear bearing, the first rotating arm (5) and the second rotating arm (6) both penetrate through a gear bearing and are fixed on an emulsifying neck (33), the first rotating arm (5) and the second rotating arm (6) both rotate through a gear bearing, the emulsification neck (33) is connected with a blowout prevention cap (13), the blowout prevention cap (13) is integrally fixed inside the first emulsification tank body (3), the blowout prevention cap (13) is integrally fixed inside the second emulsification tank body (4);

an emergency lighthouse (35) is fixed on the workbench (2), emergency lighting equipment is installed at the top of the emergency lighthouse (35), a safety steel frame (36) is fixedly welded to the other corresponding side of the emergency lighthouse (35), a climbing ladder (37) is arranged on the inner side of the safety steel frame (36), one end of the climbing ladder (37) is fixed on the workbench (2), and the other end of the climbing ladder (37) is fixed on the ground;

the workbench (2) is arranged at the top end parts of a plurality of groups of supporting columns (38), auxiliary supporting columns (39) are arranged around the supporting columns (38), the upper end parts of the auxiliary supporting columns (39) are fixedly welded at the bottom of the workbench (2), the lower ends of the auxiliary supporting columns (39) are fixedly welded on the annular outer side surface of the supporting columns (38), and safety guardrails (40) are fixedly arranged at the peripheral edges of the workbench (2);

the lower end of the coating mixing chamber (22) is connected with a collecting and processing box (41), a motor fixing seat (43) is fixed at the top of the workbench (2), and the motor fixing seat (43) is fixedly connected with the stirring motors (1) respectively;

and a control box (42) is arranged on one side of the second emulsification tank body (4).

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