CN119034573A - Novel environment-friendly coating processing uniformity device and application method thereof - Google Patents

Abstract

The present invention discloses a novel uniform device for processing environmentally friendly coatings and a method for using the same, which includes a mixing barrel, wherein a stirring mechanism for mixing solid/liquid raw materials of environmentally friendly coatings is arranged inside the mixing barrel, and a barrel cover is installed on the top of the mixing barrel, and the barrel cover is provided with a dispersing mechanism for vibrating and dispersing the solid/liquid raw materials of environmentally friendly coatings at a certain frequency in the Y-axis direction, and a grinding and mixing mechanism for grinding and preliminarily mixing the solid raw materials of environmentally friendly coatings, and the grinding and mixing mechanism is located at the rear end of the dispersing mechanism. The present invention can effectively make the solid/liquid raw materials of environmentally friendly coatings contact with liquids in a dispersed state, which not only avoids the phenomenon of agglomeration of the solid raw materials of environmentally friendly coatings at the moment of contact with liquids, but also effectively makes the environmentally friendly coatings evenly mixed, improves the effect of evenly mixing the environmentally friendly coatings, and ensures the quality of the environmentally friendly coatings.

Description

Novel environment-friendly coating processing uniformity device and application method thereof

Technical Field

The invention belongs to the technical field of environment-friendly paint processing, and particularly relates to a novel uniform device for environment-friendly paint processing and a use method thereof.

Background

When the environment-friendly paint is produced and processed, solid/liquid raw materials of the environment-friendly paint are required to be uniformly mixed, but at present, when the existing environment-friendly paint uniformly mixing equipment is in actual use, the solid raw materials of the environment-friendly paint can generate certain caking due to the factors of environmental air humidity, if the caking solid raw materials of the environment-friendly paint can influence the mixing efficiency of the environment-friendly paint and the quality of the environment-friendly paint when the solid raw materials of the environment-friendly paint are directly mixed, and at present, workers generally pour the solid raw materials of the environment-friendly paint into the mixing equipment directly, so that the phenomenon that the solid raw materials of the environment-friendly paint are agglomerated when the solid raw materials of the environment-friendly paint are contacted with liquid is easily caused, the mixing efficiency of the environment-friendly paint and the quality of the environment-friendly paint are further influenced, and therefore, the novel environment-friendly paint uniformly mixing device for processing and the application method thereof are designed.

Disclosure of Invention

Aiming at the defects or shortcomings of the environment-friendly coating homogenizing device and the using method thereof, the invention aims to provide a novel environment-friendly coating homogenizing device and the using method thereof, which can effectively enable solid/liquid raw materials of the environment-friendly coating to be in contact with liquid in a dispersed state, can effectively enable the environment-friendly coating to be uniformly mixed and improve the effect of uniformly mixing the environment-friendly coating.

In order to achieve the aim of the invention, the invention adopts the following technical scheme:

The invention provides a novel uniform device for processing environment-friendly paint, which comprises a mixing barrel, wherein a stirring mechanism for mixing solid/liquid raw materials of the environment-friendly paint is arranged in the mixing barrel, a barrel cover is arranged at the top end of the mixing barrel, a dispersing mechanism for vibrating and dispersing the solid/liquid raw materials of the environment-friendly paint at a certain frequency in the Y-axis direction and a grinding and mixing mechanism for grinding and primarily mixing the solid raw materials of the environment-friendly paint are arranged on the barrel cover, and the grinding and mixing mechanism is positioned at the rear end of the dispersing mechanism.

Preferably, the dispersing mechanism is provided with an arc-shaped dispersing disc, the arc-shaped dispersing disc is positioned in the mixing drum, connecting rods are respectively arranged at the front end and the rear end of two sides of the upper surface of the arc-shaped dispersing disc, the top ends of the connecting rods sequentially penetrate through holes in the surface of the drum cover and through holes in the surface of the vibrating plate and are connected with the fastening plates, the outer wall of the connecting rods is in clearance connection with the hole wall of the through holes in the drum cover and the hole wall of the through holes in the vibrating plate, and the vibrating plate is positioned above the drum cover.

Preferably, the outer wall on connecting rod top is provided with the external screw thread, and the screw hole has been seted up on the surface of binding plate, be threaded engagement connection between the external screw thread on the connecting rod outer wall and the screw hole on the binding plate, the outer wall outside cover of connecting rod is equipped with the spring, and the spring is located between binding plate and the vibrating plate and between vibrating plate and the bung, vibrating motor is all installed to the upper surface both sides of vibrating plate.

Preferably, the rabbling mechanism is formed by first gear motor, first pivot and first puddler combination, first gear motor installs on the top of mounting bracket, and the mounting bracket is installed in the upper surface central point of bung, and the top of mounting bracket runs through the rectangle slotted hole on the vibrating plate surface central point, the output shaft on the first gear motor runs through the surface of mounting bracket and is connected with first pivot through the shaft coupling, the top of first pivot runs through the bearing on the surface central point and extends to in the mixing drum, and first puddler is installed to the below of first pivot outer wall, and first puddler is located the mixing drum.

Preferably, the grinding mixing mechanism is provided with a grinding shell, the grinding shell is arranged at the top end of the mixing shell, the inside of the grinding shell is communicated with the inside of the mixing shell, an inverted circular table-shaped grinding roller is arranged in the grinding shell, a third rotating shaft is arranged at the center of the bottom end of the inverted circular table-shaped grinding roller, a second stirring rod is arranged on the outer wall of the third rotating shaft, the third rotating shaft and the second stirring rod are both positioned in the inside of the mixing shell, and a solid coating raw material feeding pipe is arranged on one side of the top of the mixing shell.

Preferably, the bottom of hybrid shell passes through the bracing piece and is connected with the rear end of bung upper surface, install the second pivot on the top central point of the grinding roller of inverted round platform form, the top of second pivot runs through the bearing on grinding shell top central point and extends to outside and be connected with driven pulley, driven pulley passes through drive belt and drive pulley connection, and the drive pulley is installed on the output shaft on the second gear motor, and the top at the mount pad is installed to the second gear motor, and the mount pad is installed in one side of bung upper surface rear end.

Preferably, the surface of bung is provided with discharging pipe, second inlet tube, liquid coating raw materials filling tube and first inlet tube, and discharging pipe, second inlet tube, liquid coating raw materials filling tube and first inlet tube are clockwise cyclic annular array and distribute, and discharging pipe, second inlet tube, liquid coating raw materials filling tube and first inlet tube all are located the outside of vibrating plate, the top of discharging pipe sets up the central point in the mixed shell bottom, discharging pipe, second inlet tube, liquid coating raw materials filling tube and first inlet tube all run through the surface of bung and extend to the top of circular-arc dispersion plate, all be provided with the valve body on discharging pipe, second inlet tube, liquid coating raw materials filling tube and the first inlet tube.

Preferably, a second annular protruding block is arranged below the outer wall of the barrel cover, a first annular protruding block is arranged above the outer wall of the mixing barrel, the first annular protruding block is fixedly connected with the second annular protruding block through a fastening bolt, a discharging pipe is arranged at the center of the bottom of the mixing barrel, and a valve body is arranged on the discharging pipe.

The invention also provides a using method of the novel uniform device for processing the environment-friendly paint, which comprises the following steps:

S1, adding a certain amount of water into a mixing barrel, adding a plurality of environment-friendly coating solid raw materials into a grinding and mixing mechanism by a worker, grinding the plurality of environment-friendly coating solid raw materials by the grinding and mixing mechanism, and primarily mixing the plurality of environment-friendly coating solid raw materials after grinding by the grinding and mixing mechanism;

S2, after all the solid raw materials of the various environment-friendly coatings are ground and primarily mixed, a worker starts a stirring mechanism and a dispersing mechanism and closes the grinding and mixing mechanism, the worker discharges the primarily mixed solid raw materials of the various environment-friendly coatings in the grinding and mixing mechanism and falls onto the dispersing mechanism, the worker adds the liquid raw materials of the various environment-friendly coatings into a mixing barrel, the liquid raw materials of the various environment-friendly coatings fall onto the dispersing mechanism, the dispersing mechanism starts to vibrate at a certain frequency in the Y-axis direction, the dispersing mechanism vibrates at a certain frequency to enable the solid raw materials of the various environment-friendly coatings or the liquid raw materials of the various environment-friendly coatings to be dispersed on the dispersing mechanism and fall into the mixing barrel to contact with water in a dispersed state, and the stirring mechanism stirs and mixes substances in the mixing barrel;

S3, when the solid raw materials of the various environment-friendly coatings or the liquid raw materials of the various environment-friendly coatings are added into the mixing barrel, a worker adds a certain amount of water into the mixing barrel again, in the process, the added water can wash the solid raw materials of the various environment-friendly coatings or the liquid raw materials of the various environment-friendly coatings on the dispersing mechanism and fall into the mixing barrel, and when the environment-friendly coatings are uniformly mixed, the worker discharges the environment-friendly coatings uniformly mixed in the mixing barrel.

Compared with the prior art, the above technical scheme has the following beneficial effects:

1. According to the invention, through the cooperation arrangement of the structures such as the grinding and mixing mechanism, the grinding and mixing mechanism can grind various environment-friendly paint solid raw materials so as to avoid the conditions of reduced environment-friendly paint mixing efficiency and reduced environment-friendly paint quality caused by directly adding and mixing the agglomerated environment-friendly paint solid raw materials into the mixing barrel, the effect and efficiency of uniform mixing of the environment-friendly paint are improved, the ground various environment-friendly paint solid raw materials are primarily mixed, and when the primarily mixed various environment-friendly paint solid raw materials are discharged into the mixing barrel for mixing, the effect and efficiency of uniform mixing of the environment-friendly paint are further improved.

2. According to the invention, through the cooperation arrangement of structures such as the dispersing mechanism, when various environment-friendly coating solid raw materials or environment-friendly coating liquid raw materials which are mixed in a preliminary way fall onto the dispersing mechanism, the dispersing mechanism vibrates in the Y-axis direction at a certain frequency to enable the various environment-friendly coating solid raw materials or environment-friendly coating liquid raw materials on the dispersing mechanism to fall into the mixing barrel in a dispersed state for mixing, so that the phenomenon that the environment-friendly coating solid raw materials and liquid are in contact with each other instantly and are agglomerated is avoided, and the effect and efficiency of uniform mixing of the environment-friendly coating are further improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention.

Fig. 1 is a schematic perspective view of the whole structure of the present invention.

Fig. 2 is a cross-sectional view of fig. 1 in accordance with the present invention.

Fig. 3 is a schematic perspective view of the barrel cover of the present invention.

Fig. 4 is a schematic perspective view of a barrel cover according to the present invention.

FIG. 5 is a schematic perspective view of the barrel cover removing mounting base, the grinding and mixing mechanism and the stirring mechanism of the invention,

FIG. 6 is a cross-sectional view of FIG. 5 in accordance with the present invention;

FIG. 7 is a schematic perspective view of the stirring mechanism of the present invention.

Fig. 8 is a schematic perspective view of the grinding and mixing mechanism of the present invention.

Fig. 9 is a cross-sectional view of fig. 8 in accordance with the present invention.

Fig. 10 is a schematic perspective view of a mixing drum according to the present invention.

Fig. 11 is a schematic perspective view of a mixing drum according to the present invention.

Fig. 12 is a schematic view of a partially enlarged structure at a in fig. 4 according to the present invention.

In the figure:

100. a mixing drum; 101, a first annular lug, 102, a discharge pipe;

200. a barrel cover; 201, a first water inlet pipe, 202, a liquid coating raw material feeding pipe, 203, a second annular convex block, 204, a mounting rack, 205 and a second water inlet pipe;

300. dispersing mechanism 301, fastening plate 302, spring 303, vibration motor 304, vibration plate 305, connecting rod 306, circular arc dispersing disc;

400. A stirring mechanism; 401, a first gear motor, 402, a first rotating shaft, 403, a first stirring rod;

500. Grinding and mixing mechanism, grinding shell, 5011 solid paint raw material feeding pipe, 502 mixing shell, 5021 discharging pipe, 503, driven pulley, 504, driving belt, 505, driving pulley, 506, second gear motor, 507, inverted circular truncated cone grinding roller, 5071, second rotating shaft, 5072, third rotating shaft, 5073, second stirring rod;

600. and (5) a mounting seat.

Detailed Description

The invention will be further described with reference to the drawings and examples.

It should be noted that the following detailed description is exemplary and is intended to provide further explanation of the invention. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of exemplary embodiments according to the present invention. As used herein, the singular is also intended to include the plural unless the context clearly indicates otherwise, and furthermore, it is to be understood that the terms "comprises" and/or "comprising" when used in this specification are taken to specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof.

As shown in fig. 1 to 12, a novel uniformity device for processing an environment-friendly paint comprises a mixing drum 100, wherein a stirring mechanism 400 for mixing solid/liquid raw materials of the environment-friendly paint is arranged in the mixing drum 100, a drum cover 200 is arranged at the top end of the mixing drum 100, a dispersing mechanism 300 for vibrating and dispersing the solid/liquid raw materials of the environment-friendly paint at a certain frequency in the Y-axis direction and a grinding and mixing mechanism 500 for grinding and primarily mixing the solid raw materials of the environment-friendly paint are arranged on the drum cover 200, and the grinding and mixing mechanism 500 is positioned at the rear end of the dispersing mechanism 300.

The dispersing mechanism 300 is provided with an arc-shaped dispersing disc 306, the arc-shaped dispersing disc 306 is positioned in the mixing barrel 100, the arc-shaped dispersing disc 306 in a vibrating state can disperse various environment-friendly coating solid raw materials or various environment-friendly coating liquid raw materials on the arc-shaped dispersing disc 306 and fall into the mixing barrel 100 to be contacted with water in a dispersing state, connecting rods 305 are respectively arranged at the front end and the rear end of the two sides of the upper surface of the arc-shaped dispersing disc 306, the top ends of the connecting rods 305 sequentially penetrate through holes on the surface of the barrel cover 200 and through holes on the surface of the vibrating plate 304 and are connected with the fastening plate 301, the outer wall of the connecting rods 305 is in clearance connection with the hole wall of the through holes on the barrel cover 200 and the hole wall of the through holes on the vibrating plate 304, and the vibrating plate 304 is positioned above the barrel cover 200, and the outer wall of the connecting rods 305 and the hole wall of the through holes on the barrel cover 200 are in clearance connection, so that the vibration of the arc-shaped dispersing disc 306 in the Y-axis direction can play a role in limiting and guiding, and the stability of vibration of the arc-shaped dispersing disc 306 in the Y-axis direction is enhanced.

The outer wall at the top end of the connecting rod 305 is provided with external threads, the surface of the fastening plate 301 is provided with threaded holes, the external threads on the outer wall of the connecting rod 305 are in threaded engagement connection with the threaded holes on the fastening plate 301, and as the external threads on the outer wall of the connecting rod 305 are in threaded engagement connection with the threaded holes on the fastening plate 301, a worker can disassemble and replace the spring 302 and the circular-arc-shaped dispersion disc 306, and can disassemble and clean the circular-arc-shaped dispersion disc 306, the spring 302 is sleeved outside the outer wall of the connecting rod 305, the spring 302 is positioned between the fastening plate 301 and the vibration plate 304 and between the vibration plate 304 and the barrel cover 200, the vibration motors 303 are arranged on two sides of the upper surface of the vibration plate 304, the vibration motors 303 are started to drive the vibration plate 304 to vibrate up and down in the Y-axis direction, and the circular-arc-shaped dispersion disc 306 vibrates up and down in the Y-axis direction through the connecting rod 305 when the vibration plate 304 vibrates up and down in the Y-axis direction.

The stirring mechanism 400 is formed by combining a first gear motor 401, a first rotating shaft 402 and a first stirring rod 403, the first gear motor 401 is installed at the top end of the installation frame 204, the installation frame 204 is installed at the center position of the upper surface of the barrel cover 200, the top end of the installation frame 204 penetrates through a rectangular slot hole in the center position of the surface of the vibration plate 304, an output shaft on the first gear motor 401 penetrates through the surface of the installation frame 204 and is connected with the first rotating shaft 402 through a coupler, the top end of the first rotating shaft 402 penetrates through a bearing in the center position of the surface and extends into the mixing barrel 100, the first stirring rod 403 is installed below the outer wall of the first rotating shaft 402, the first stirring rod 403 is located in the mixing barrel 100, the first gear motor 401 is started to drive the first rotating shaft 402 and the first stirring rod 403 to rotate, and substances in the mixing barrel 100 can be stirred and mixed when the first stirring rod 403 rotates.

The grinding mixing mechanism 500 is provided with the grinding shell 501, the grinding shell 501 sets up on the top of mixing shell 502, and be linked together between the inside of grinding shell 501 and the inside of mixing shell 502, because of being linked together between the inside of grinding shell 501 and the inside of mixing shell 502, thereby the environmental protection coating solid raw materials after grinding in the grinding shell 501 can fall into mixing shell 502, the inside of grinding shell 501 is provided with the grinding cavity of the internal wall of grinding shell 501, form the grinding cavity between the outer wall of grinding shell 507 and the inner wall of grinding shell 501 of the grinding cavity of the grinding, make environmental protection coating solid raw materials grind in the grinding cavity, the bottom central point of grinding shell 507 puts and installs the third pivot 5072, install the second puddler 5073 on the outer wall of third pivot 5072, and third pivot 5072 and second puddler 5073 all are located the inside of mixing shell 502, the environmental protection coating solid raw materials after the multiple grinding in the mixing shell 502 can carry out preliminary mixing, when the multiple environmental protection coating solid raw materials of preliminary mixing discharges to mixing bucket 100, the even mixing effect of environmental protection coating and the environmental protection coating solid raw materials have been improved, the bottom end center position of grinding shell 507 is installed, the feed pipe 5011 is added with the raw materials of the environmental protection coating solid raw materials is filled into the mixing shell 501, the raw materials is filled into the environmental protection coating solid raw materials through the feed pipe 5011.

The bottom of hybrid housing 502 is connected with the rear end of bung 200 upper surface through the bracing piece, install second pivot 5071 on the top central point of the grinding roller of the form of inverted platform 507 put, the top of second pivot 5071 runs through the bearing on the top central point of grinding housing 501 and extends to outside and be connected with driven pulley 503, driven pulley 503 passes through drive belt 504 and is connected with driving pulley 505, the output shaft on second gear motor 506 is installed to driving pulley 505, the top at mount pad 600 is installed to second gear motor 506, and mount pad 600 installs one side at bung 200 upper surface rear end, the start-up of second gear motor 506 can drive driving pulley 505 and rotate, driving pulley 505 rotates and can drive driven pulley 503 through drive belt 504 and rotate, driven pulley 503 rotates and can drive second pivot 5071 and rotate, second pivot 5071 rotates and can drive the form of inverted platform grinding roller 507 and rotate, form of inverted platform grinding roller 507 rotates and can drive third pivot 5072 and second puddler 5073 and rotate, when the outer wall that the form of inverted platform falls into the grinding roller 507 and the inner wall of grinding housing 507, the form of inverted platform solid coating material, the environmental protection roller rotates and the environmental protection form of the form of inverted platform grinding roller can drive pulley 505 and rotate, the solid coating material of the environmental protection roller is mixed with the environmental protection effect that the solid coating material of the environmental protection and the environmental protection coating material that the environmental protection and the environmental protection quality of the form of paint material of the form of mixed roller is improved and the environmental protection coating material and the environmental protection quality of the environmental protection coating is reduced and mix the quality of the environmental protection coating material is avoided and mix the environmental protection.

The surface of bung 200 is provided with discharging pipe 5021, second inlet tube 205, liquid coating raw materials filling tube 202 and first inlet tube 201, discharging pipe 5021, second inlet tube 205, liquid coating raw materials filling tube 202 and first inlet tube 201 are clockwise cyclic annular array distribution, and discharging pipe 5021, second inlet tube 205, liquid coating raw materials filling tube 202 and first inlet tube 201 all are located the outside of vibrating plate 304, discharging pipe 5021 mainly will mix the multiple environmental protection coating solid raw materials after the completion in the shell 502 and discharge to circular-arc dispersion plate 306 top relative central point, second inlet tube 205 and first inlet tube 201 mainly add water to mixing drum 100 in, the setting of liquid coating raw materials filling tube 202, during staff to adding environmental protection coating liquid raw materials in the liquid coating raw materials filling tube 202, liquid coating raw materials filling tube 202 can be with environmental protection coating liquid raw materials discharge to circular-arc dispersion plate 306 top relative central point, the top of discharging pipe 5021, second inlet tube 205, liquid coating raw materials filling tube 202 and first inlet tube 201 all run through 200 and the surface of drum 306 and extend to the top of circular-arc dispersion plate 306, the setting up of the valve body 201, the setting up of liquid coating raw materials filling tube 201.

The outer wall below of bung 200 is provided with second annular lug 203, and the outer wall top of mixing drum 100 is provided with first annular lug 101, through fastening bolt fixed connection between first annular lug 101 and the second annular lug 203, because of through fastening bolt fixed connection between first annular lug 101 and the second annular lug 203, the staff can dismantle bung 200 from mixing drum 100 to the staff can clear up inner wall or other inner structure of mixing drum 100, and mixing drum 100's bottom central point puts and is provided with row material pipe 102, and row material pipe 102 can discharge the material in the mixing drum 100 outside, and is provided with the valve body on the row material pipe 102.

When a worker uniformly mixes the environmental-friendly paint, the first water inlet pipe 201 and the second water inlet pipe 205 are connected with an external tap water conveying pipe, the worker starts the invention, after the worker opens the valve bodies on the first water inlet pipe 201 and the second water inlet pipe 205 and adds a certain amount of water into the mixing barrel 100 through the first water inlet pipe 201 and the second water inlet pipe 205, the worker adds various environmental-friendly paint solid raw materials into the solid paint raw material feeding pipe 5011, the solid paint raw material feeding pipe 5011 falls into the grinding shell 501 firstly, the second reducing motor 506 is started to drive the driving pulley 505 to rotate, the driving pulley 505 rotates to drive the driven pulley 503 to rotate through the driving belt 504, the driven pulley 503 rotates to drive the second rotating shaft 5071 to rotate, the second rotating shaft 5071 rotates to drive the inverted-cone-shaped grinding roller 507, the inverted circular table-shaped grinding roller 507 rotates to drive the third rotating shaft 5072 and the second stirring rod 5073 to rotate, when the environment-friendly coating solid raw materials fall between the outer wall of the inverted circular table-shaped grinding roller 507 and the inner wall of the grinding shell 501, the rotating inverted circular table-shaped grinding roller 507 grinds the environment-friendly coating solid raw materials, and the agglomerated environment-friendly coating solid raw materials can be ground and dispersed, so that the situation that the mixing efficiency of the environment-friendly coating is reduced and the quality of the environment-friendly coating is reduced due to the fact that the agglomerated environment-friendly coating solid raw materials are directly added into the mixing barrel 100 is avoided, the effect and the efficiency of uniform mixing of the environment-friendly coating are improved, the ground environment-friendly coating solid raw materials fall into the mixing shell 502, at the moment, the second stirring rod 5073 performs preliminary mixing on the environment-friendly coating solid raw materials, and when the environment-friendly coating solid raw materials subjected to preliminary mixing are discharged into the mixing barrel 100 for mixing, further improving the effect and efficiency of uniform mixing of the environmental-friendly paint, when the solid raw materials of the environmental-friendly paint are completely ground and primarily mixed, a worker starts the first gear motor 401 and the vibration motor 303, closes the second gear motor 506, opens the discharging pipe 5021 and the valve body of the upper liquid raw material feeding pipe 202, the primarily mixed solid raw materials of the environmental-friendly paint are discharged through the discharging pipe 5021 and fall onto the circular-arc-shaped dispersing disc 306 on the dispersing mechanism 300, the worker adds the liquid raw materials of the environmental-friendly paint into the liquid raw material feeding pipe 202, the liquid raw materials of the environmental-friendly paint are discharged through the liquid raw material feeding pipe 202 and fall onto the circular-arc-shaped dispersing disc 306 on the dispersing mechanism 300, the vibration motor 303 on the dispersing mechanism 300 is started to drive the circular-arc-shaped dispersing disc 306 to vibrate at a certain frequency in the Y-axis direction, the circular-arc-shaped dispersion disc 306 vibrates at a certain frequency, so that various environment-friendly paint solid raw materials or various environment-friendly paint liquid raw materials are dispersed on the circular-arc-shaped dispersion disc 306 due to vibration and fall into the mixing drum 100 to be contacted with water in a dispersed state, the first speed reducing motor 401 drives the first stirring rod 403 on the outer wall of the first rotating shaft 402 to stir and mix substances in the mixing drum 100, the phenomenon that the environment-friendly paint solid raw materials are in contact with the liquid is avoided, the phenomenon of agglomeration is generated at the moment, the effect and the efficiency of uniform mixing of the environment-friendly paint are further improved, when various environment-friendly paint solid raw materials or various environment-friendly paint liquid raw materials are added into the mixing drum 100, a certain amount of water is added into the mixing drum 100 through the first water inlet pipe 201 and the second water inlet pipe 205 again by workers, the water discharged by the first water inlet pipe 201 and the second water inlet pipe 205 can wash out various environment-friendly paint solid raw materials or various environment-friendly paint liquid raw materials on the circular-arc-shaped dispersing disc 306 and fall into the mixing bucket 100, so that the situation that a large amount of various environment-friendly paint solid raw materials or various environment-friendly paint liquid raw materials remain on the circular-arc-shaped dispersing disc 306 is avoided, after the environment-friendly paint is uniformly mixed, a worker opens a valve body on the discharge pipe 102, and the uniformly mixed environment-friendly paint is discharged to the outside from the discharge pipe 102.

Embodiment two:

The application method of the novel uniform device for processing the environment-friendly paint comprises the following steps:

S1, adding a certain amount of water into a mixing barrel 100, adding various environment-friendly paint solid raw materials into a grinding and mixing mechanism 500 by a worker, grinding the various environment-friendly paint solid raw materials by the grinding and mixing mechanism 500, and primarily mixing the ground various environment-friendly paint solid raw materials by the grinding and mixing mechanism 500;

s2, after all the various environment-friendly paint solid raw materials are ground and primarily mixed, a worker starts the stirring mechanism 400 and the dispersing mechanism 300 and closes the grinding and mixing mechanism 500, the worker discharges the various environment-friendly paint solid raw materials primarily mixed in the grinding and mixing mechanism 500 and falls onto the dispersing mechanism 300, the worker adds various environment-friendly paint liquid raw materials into the mixing barrel 100, the various environment-friendly paint liquid raw materials fall onto the dispersing mechanism 300, the dispersing mechanism 300 is started to vibrate at a certain frequency in the Y-axis direction, the dispersing mechanism 300 vibrates at a certain frequency, and the various environment-friendly paint solid raw materials or the various environment-friendly paint liquid raw materials are dispersed on the dispersing mechanism 300 due to vibration and fall into the mixing barrel 100 in a dispersed state to be contacted with water, and the stirring mechanism 400 stirs and mixes substances in the mixing barrel 100;

S3, when the solid raw materials of the plurality of environmental protection coatings or the liquid raw materials of the plurality of environmental protection coatings are added into the mixing barrel 100, a worker adds a certain amount of water into the mixing barrel 100 again, in the process, the added water can wash the solid raw materials of the plurality of environmental protection coatings or the liquid raw materials of the plurality of environmental protection coatings on the dispersing mechanism 300 and fall into the mixing barrel 100, and when the uniform mixing of the environmental protection coatings is completed, the worker discharges the environmental protection coatings which are uniformly mixed in the mixing barrel 100.

The above description is only of the preferred embodiments of the present invention and is not intended to limit the present invention, but various modifications and variations can be made to the present invention by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. A novel even device for processing environment-friendly paint comprises a mixing barrel (100), and is characterized in that a stirring mechanism (400) for mixing solid/liquid raw materials of the environment-friendly paint is arranged in the mixing barrel (100), a barrel cover (200) is arranged at the top end of the mixing barrel (100), a dispersing mechanism (300) for vibrating and dispersing solid/liquid raw materials of the environment-friendly paint at a certain frequency in the Y-axis direction and a grinding and mixing mechanism (500) for grinding and primarily mixing the solid raw materials of the environment-friendly paint are arranged on the barrel cover (200), and the grinding and mixing mechanism (500) is positioned at the rear end of the dispersing mechanism (300).

2. The novel environment-friendly coating processing uniformity device according to claim 1, wherein the dispersing mechanism (300) is provided with an arc-shaped dispersing disc (306), the arc-shaped dispersing disc (306) is positioned in the mixing drum (100), connecting rods (305) are respectively arranged at the front end and the rear end of the two sides of the upper surface of the arc-shaped dispersing disc (306), the top ends of the connecting rods (305) sequentially penetrate through holes on the surface of the drum cover (200) and through holes on the surface of the vibrating plate (304) and are connected with the fastening plate (301), the outer wall of the connecting rods (305) is in clearance connection with the hole wall of the through holes on the drum cover (200) and the hole wall of the through holes on the vibrating plate (304), and the vibrating plate (304) is positioned above the drum cover (200).

3. The novel environment-friendly coating processing uniform device according to claim 2, wherein external threads are arranged on the outer wall of the top end of the connecting rod (305), threaded holes are formed in the surface of the fastening plate (301), the external threads on the outer wall of the connecting rod (305) are in threaded engagement with the threaded holes on the fastening plate (301), springs (302) are sleeved on the outer side of the outer wall of the connecting rod (305), the springs (302) are located between the fastening plate (301) and the vibration plate (304) and between the vibration plate (304) and the barrel cover (200), and vibration motors (303) are installed on two sides of the upper surface of the vibration plate (304).

4. The novel environment-friendly coating processing uniformity device according to claim 1, wherein the stirring mechanism (400) is formed by combining a first gear motor (401), a first rotating shaft (402) and a first stirring rod (403), the first gear motor (401) is installed at the top end of the installation frame (204), the installation frame (204) is installed at the center position of the upper surface of the barrel cover (200), the top end of the installation frame (204) penetrates through a rectangular slot hole in the center position of the surface of the vibration plate (304), an output shaft on the first gear motor (401) penetrates through the surface of the installation frame (204) and is connected with the first rotating shaft (402) through a coupler, the top end of the first rotating shaft (402) penetrates through a bearing in the center position of the surface and extends into the mixing barrel (100), the first stirring rod (403) is installed below the outer wall of the first rotating shaft (402), and the first stirring rod (403) is located in the mixing barrel (100).

5. The novel environment-friendly coating processing uniformity device according to claim 1, wherein the grinding mixing mechanism (500) is provided with a grinding shell (501), the grinding shell (501) is arranged at the top end of the mixing shell (502), the inside of the grinding shell (501) is communicated with the inside of the mixing shell (502), an inverted circular truncated cone-shaped grinding roller (507) is arranged in the inside of the grinding shell (501), a third rotating shaft (5072) is arranged at the center of the bottom end of the inverted circular truncated cone-shaped grinding roller (507), a second stirring rod (5073) is arranged on the outer wall of the third rotating shaft (5072), the third rotating shaft (5072) and the second stirring rod (5073) are both positioned in the inside of the mixing shell (502), and a solid coating raw material feeding pipe (5011) is arranged on one side of the top of the mixing shell (502).

6. The novel environment-friendly coating processing uniformity device according to claim 5, wherein the bottom end of the mixing shell (502) is connected with the rear end of the upper surface of the barrel cover (200) through a supporting rod, a second rotating shaft (5071) is arranged at the center position of the top end of the inverted-cone-shaped grinding roller (507), the top end of the second rotating shaft (5071) penetrates through a bearing at the center position of the top end of the grinding shell (501) and extends to the outside to be connected with the driven pulley (503), the driven pulley (503) is connected with the driving pulley (505) through a driving belt (504), the driving pulley (505) is arranged on an output shaft of the second reducing motor (506), the second reducing motor (506) is arranged at the top end of the mounting seat (600), and the mounting seat (600) is arranged on one side of the rear end of the upper surface of the barrel cover (200).

7. The novel environment-friendly coating processing uniform device according to claim 1, wherein the surface of the barrel cover (200) is provided with a discharging pipe (5021), a second water inlet pipe (205), a liquid coating raw material feeding pipe (202) and a first water inlet pipe (201), the discharging pipe (5021), the second water inlet pipe (205), the liquid coating raw material feeding pipe (202) and the first water inlet pipe (201) are distributed in a clockwise annular array, the discharging pipe (5021), the second water inlet pipe (205), the liquid coating raw material feeding pipe (202) and the first water inlet pipe (201) are all located on the outer side of the vibrating plate (304), the top end of the discharging pipe (5021) is arranged at the central position of the bottom end of the mixing shell (502), and the discharging pipe (5021), the second water inlet pipe (205), the liquid coating raw material feeding pipe (202) and the first water inlet pipe (201) are all penetrated through the surface of the barrel cover (200) and extend to the upper part of the circular-arc-shaped dispersing disc (306), and the discharging pipe (5021), the second water inlet pipe (205), the liquid coating raw material feeding pipe (202) and the first water inlet pipe (201) are all provided with a valve body.

8. The novel environment-friendly coating processing uniformity device according to claim 1, wherein a second annular projection (203) is arranged below the outer wall of the barrel cover (200), a first annular projection (101) is arranged above the outer wall of the mixing barrel (100), the first annular projection (101) and the second annular projection (203) are fixedly connected through a fastening bolt, a discharge pipe (102) is arranged at the center of the bottom of the mixing barrel (100), and a valve body is arranged on the discharge pipe (102).

9. The application method of the novel environment-friendly coating processing uniform device is characterized by comprising the following steps:

S1, adding a certain amount of water into a mixing barrel (100), adding a plurality of environment-friendly coating solid raw materials into a grinding and mixing mechanism (500) by a worker, grinding the plurality of environment-friendly coating solid raw materials by the grinding and mixing mechanism (500), and primarily mixing the plurality of ground environment-friendly coating solid raw materials by the grinding and mixing mechanism (500);

S2, after all the various environment-friendly coating solid raw materials are ground and primarily mixed, a worker starts a stirring mechanism (400) and a dispersing mechanism (300) and closes a grinding mixing mechanism (500), the worker discharges the various environment-friendly coating solid raw materials primarily mixed in the grinding mixing mechanism (500) and falls onto the dispersing mechanism (300), the worker adds various environment-friendly coating liquid raw materials into a mixing drum (100), the various environment-friendly coating liquid raw materials fall onto the dispersing mechanism (300), the dispersing mechanism (300) starts to vibrate at a certain frequency in the Y-axis direction, the dispersing mechanism (300) vibrates at a certain frequency to enable the various environment-friendly coating solid raw materials or the various environment-friendly coating liquid raw materials to be dispersed on the dispersing mechanism (300) and fall into the mixing drum (100) in a dispersed state to be contacted with water, and the stirring mechanism (400) stirs and mixes substances in the mixing drum (100);

S3, when the solid raw materials of the various environment-friendly coatings or the liquid raw materials of the various environment-friendly coatings are added into the mixing barrel (100), a worker adds a certain amount of water into the mixing barrel (100) again, in the process, the added water can wash the solid raw materials of the various environment-friendly coatings or the liquid raw materials of the various environment-friendly coatings on the dispersing mechanism (300) and fall into the mixing barrel (100), and after the uniform mixing of the environment-friendly coatings is completed, the worker discharges the environment-friendly coatings uniformly mixed in the mixing barrel (100).