CN218485830U - Novel nano antibacterial mildew-proof interior wall coating production structure - Google Patents
Novel nano antibacterial mildew-proof interior wall coating production structure Download PDFInfo
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- CN218485830U CN218485830U CN202221563338.4U CN202221563338U CN218485830U CN 218485830 U CN218485830 U CN 218485830U CN 202221563338 U CN202221563338 U CN 202221563338U CN 218485830 U CN218485830 U CN 218485830U
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- interior wall
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Abstract
The utility model relates to a nanometer antibiotic mould proof coating production facility technical field specifically is a novel nanometer antibiotic mould proof interior wall coating production structure. The device comprises a mixing cylinder, a polishing concave table, a driving motor and a polishing boss; the polishing concave table is connected with the guide rod in a sliding manner, and the polishing boss is arranged on the stirring shaft and abuts against the polishing concave table; the connecting column is arranged on the polishing boss and is in sliding connection with the polishing concave table, and the rectangular connecting block is arranged on a rotating shaft of the driving motor and is in sliding connection with the connecting column; the fixed disk is arranged on the mixing drum, and the threaded rod is rotationally arranged on the fixed disk, is in threaded connection with the polishing concave station and is provided with a bevel gear B; the bevel gear A is arranged on the rotating shaft A and is in meshed transmission connection with the bevel gear B; the rotating shaft B is rotatably arranged on the mixing drum and is provided with a power gear; the transmission gear is arranged on the rotating shaft A and is in transmission connection with the power gear through a transmission chain. The utility model discloses misce bene when the antibiotic mould proof coating of production nanometer improves the corrosion resisting property of coating.
Description
Technical Field
The utility model relates to a nanometer antibiotic mould proof coating production facility technical field specifically is a novel nanometer antibiotic mould proof interior wall coating production structure.
Background
With the development of modern economy and the continuous improvement of the living standard of people, the sanitary requirements of people on living and working environments are also rapidly improved. Therefore, in recent years, the paint industry is developing towards environmental protection, non-toxicity, health and hygiene. Particularly, with the rapid development of nanotechnology, the comprehensive performance of the coating is greatly improved. A large number of experimental results show that if the nano antibacterial mildew preventive can be well dispersed in the coating, the antibacterial and mildew-proof effects can be greatly improved.
At present, the nano antibacterial mildew preventive cannot be well mixed uniformly during the production of the coating, so that the nano antibacterial mildew preventive cannot be fully dispersed in the coating, and the corrosion resistance of the coating is influenced.
SUMMERY OF THE UTILITY MODEL
The utility model discloses an aim at the problem that exists among the background art, the production time misce bene of antibiotic mould proof coating of nanometer is proposed, the neotype antibiotic mould proof interior wall coating production structure of nanometer that the corrosion resistance of coating is good.
The technical scheme of the utility model: a novel nanometer antibacterial mildew-proof interior wall coating production structure comprises a mixing cylinder, a fixing block, a polishing concave table, a driving motor, a rectangular connecting block, a connecting column, a polishing boss and a stirring shaft;
the fixed block is arranged on the mixing drum, and a guide rod is arranged on the fixed block; the polishing concave table is connected with the guide rod in a sliding manner, and a feed hole is formed in the polishing concave table; the stirring shaft is rotationally arranged on the mixing cylinder, and a stirring rod is arranged on the stirring shaft; the polishing boss is arranged on the stirring shaft and abuts against the polishing concave table; the connecting column is arranged on the polishing boss and is in sliding connection with the polishing concave table, the driving motor is arranged on the mixing cylinder, the rectangular connecting block is arranged on a rotating shaft of the driving motor and is in sliding connection with the connecting column, and the mixing cylinder is provided with a polishing clearance adjusting assembly for adjusting a clearance between the polishing concave table and the polishing boss; the polishing clearance adjusting assembly comprises a fixed disc, a rotating shaft A, a bevel gear A, a threaded rod, a transmission gear, a rotating shaft B and a transmission chain; the fixed disc is arranged on the mixing drum, the threaded rod is rotationally arranged on the fixed disc and is in threaded connection with the polishing concave table, and a bevel gear B is arranged on the threaded rod; the rotating shaft A is rotatably arranged on the mixing cylinder and extends to the periphery of the mixing cylinder, and the bevel gear A is arranged on the rotating shaft A and is in meshed transmission connection with the bevel gear B; the rotating shaft B is rotatably arranged on the mixing drum and is provided with a power gear; the transmission gear is arranged on the rotating shaft A and is in transmission connection with the power gear through a transmission chain.
Preferably, the number of the rotating shafts A is two, the rotating shafts A are symmetrically arranged on two sides of the rotating shaft B, and two groups of bevel gears A are arranged on each group of rotating shafts A.
Preferably, the device also comprises a feed hopper which is arranged on the mixing drum and is connected with the fixed disc in a sliding way.
Preferably, the fixed disc is provided with a through hole, and the diameter of the through hole is larger than that of the connecting column.
Preferably, a rocking handle is arranged on the rotating shaft B.
Preferably, the stirring scraper bar is further included; the stirring scraping rod is arranged on the stirring shaft and is attached to the inner wall of the mixing cylinder.
Preferably, a discharge port is formed in the mixing cylinder and is positioned between the stirring scraping rod and the fixing block.
Preferably, the feed aperture is funnel-shaped.
Compared with the prior art, the utility model discloses following profitable technological effect has:
1. the distance between the polishing concave table and the polishing boss is adjusted through the polishing clearance adjusting assembly, and then the driving motor is started and raw materials to be ground are added; the rectangular connecting block drives the polishing boss to grind the material through the connecting column; after the ground powdery material enters the mixing cylinder, the stirring shaft is driven by the grinding boss to rotate and is matched with a plurality of groups of stirring rods to mix the material and the coating; after stirring, leading out the coating through a discharge hole; when the nanometer antibacterial and mildewproof coating is produced, the nanometer antibacterial and mildewproof agent is uniformly mixed, so that the nanometer antibacterial and mildewproof agent is fully dispersed in the coating, and the corrosion resistance of the coating is improved; meanwhile, stirring can be carried out while grinding, so that the energy consumption is reduced, and the energy is saved;
2. prevent that the raw materials from attaching to on the mixing drum inner wall, influencing the degree of consistency that the stirring was mixed.
Drawings
Fig. 1 is a schematic structural diagram of an embodiment of the present invention;
FIG. 2 is a top view of the connection of the sanding gap adjustment assembly with the stationary platen;
FIG. 3 is a schematic top view of a grinding table.
Reference numerals are as follows: 1. a mixing drum; 2. a fixed block; 3. a guide rod; 4. polishing the concave table; 5. a feed port; 6. a polishing gap adjusting assembly; 7. a feed hopper; 8. a drive motor; 9. a rectangular connecting block; 10. connecting columns; 11. polishing the boss; 12. a stirring shaft; 13. a stirring rod; 14. a stirring scraper bar; 15. a discharge port; 16. fixing the disc; 17. a rotating shaft A; 18. a bevel gear A; 19. a threaded rod; 20. a bevel gear B; 21. a transmission gear; 22. a power gear; 23. a rotating shaft B; 24. a drive chain; 25. a rocking handle.
Detailed Description
Example one
The utility model provides a novel nanometer antibiotic mould proof interior wall coating production structure, including mixing drum 1, fixed block 2, polishing concave station 4, driving motor 8, rectangle connecting block 9, spliced pole 10, polishing boss 11 and (mixing) shaft 12;
as shown in fig. 1-3, a fixed block 2 is arranged on a mixing drum 1, and a guide rod 3 is arranged on the fixed block 2; the polishing concave table 4 is connected with the guide rod 3 in a sliding manner, and a feeding hole 5 is formed in the polishing concave table 4; the stirring shaft 12 is rotationally arranged on the mixing drum 1, and the stirring shaft 12 is provided with a stirring rod 13; the polishing boss 11 is arranged on the stirring shaft 12 and abuts against the polishing concave table 4; the connecting column 10 is arranged on the polishing boss 11 and is in sliding connection with the polishing concave table 4, the driving motor 8 is arranged on the mixing drum 1, the rectangular connecting block 9 is arranged on a rotating shaft of the driving motor 8 and is in sliding connection with the connecting column 10, and the mixing drum 1 is provided with a polishing clearance adjusting assembly 6 for adjusting a clearance between the polishing concave table 4 and the polishing boss 11; the grinding gap adjusting assembly 6 comprises a fixed disc 16, a rotating shaft A17, a bevel gear A18, a threaded rod 19, a transmission gear 21, a rotating shaft B23 and a transmission chain 24; the fixed disk 16 is arranged on the mixing drum 1, the threaded rod 19 is rotatably arranged on the fixed disk 16 and is in threaded connection with the polishing concave table 4, and a bevel gear B20 is arranged on the threaded rod 19; the rotating shaft A17 is rotatably arranged on the mixing drum 1 and extends to the periphery of the mixing drum 1, and the bevel gear A18 is arranged on the rotating shaft A17 and is in meshed transmission connection with the bevel gear B20; the rotating shaft B23 is rotatably arranged on the mixing drum 1, and the rotating shaft B23 is provided with a power gear 22; the transmission gear 21 is arranged on the rotating shaft A17 and is in transmission connection with the power gear 22 through a transmission chain 24; the number of the rotating shafts A17 is two, the two rotating shafts are symmetrically arranged on two sides of the rotating shaft B23, and two groups of bevel gears A18 are arranged on each group of rotating shafts A17; the feed hopper 7 is arranged on the mixing cylinder 1 and is in sliding connection with the fixed disc 16; the fixed disc 16 is provided with a through hole, and the diameter of the through hole is larger than that of the connecting column 10; a rocking handle 25 is arranged on the rotating shaft B23, so that the rotation is convenient; the feeding hole 5 is funnel-shaped; the mixing cylinder 1 is provided with a discharge port 15.
In the embodiment, during production, the distance between the polishing concave table 4 and the polishing convex table 11 is adjusted by the polishing clearance adjusting assembly 6, then the driving motor 8 is started, and meanwhile, raw materials to be ground are added through the feed hopper 7; raw materials enter between the polishing concave table 4 and the polishing boss 11 through the feeding hole 5, and the rectangular connecting block 9 drives the polishing boss 11 to polish the materials through the connecting column 10; after the ground powdery material enters the mixing cylinder 1, the stirring shaft 12 is driven by the grinding boss 11 to rotate and is matched with a plurality of groups of stirring rods 13 to mix the material and the coating; after stirring, the coating is led out through a discharge hole 15; when the grinding clearance adjusting assembly 6 is operated, the rocking handle 25 rotates the rotating shaft B23 to drive the power gear 22 to rotate, the transmission gear 21 and the rotating shaft A17 are driven to rotate under the action of the transmission chain 24, the bevel gear A18 arranged on the rotating shaft A17 drives the bevel gear B20 to rotate, at the moment, the threaded rod 19 rotatably arranged on the fixed disc 16 rotates and pulls the grinding concave table 4 to move upwards along the arrangement direction of the guide rod 3, and therefore the clearance between the grinding concave table 4 and the grinding convex table 11 is adjusted; when the nano antibacterial and mildewproof coating is produced, the nano antibacterial and mildewproof agent is uniformly mixed, so that the nano antibacterial and mildewproof agent is fully dispersed in the coating, and the corrosion resistance of the coating is improved; meanwhile, the grinding and stirring can be carried out simultaneously, so that the energy consumption is reduced, and the energy is saved.
Example two
The utility model provides a novel nanometer antibiotic mould proof interior wall coating production structure, including mixing drum 1, fixed block 2, polishing concave station 4, driving motor 8, rectangular connecting block 9, spliced pole 10, polishing boss 11 and (mixing) shaft 12;
as shown in fig. 1-3, a fixed block 2 is arranged on a mixing drum 1, and a guide rod 3 is arranged on the fixed block 2; the polishing concave table 4 is connected with the guide rod 3 in a sliding manner, and a feed hole 5 is formed in the polishing concave table 4; the stirring shaft 12 is rotationally arranged on the mixing cylinder 1, and the stirring shaft 12 is provided with a stirring rod 13; the polishing boss 11 is arranged on the stirring shaft 12 and abuts against the polishing concave table 4; the connecting column 10 is arranged on the polishing boss 11 and is in sliding connection with the polishing concave table 4, the driving motor 8 is arranged on the mixing drum 1, the rectangular connecting block 9 is arranged on a rotating shaft of the driving motor 8 and is in sliding connection with the connecting column 10, and the mixing drum 1 is provided with a polishing clearance adjusting assembly 6 for adjusting a clearance between the polishing concave table 4 and the polishing boss 11; the grinding gap adjusting assembly 6 comprises a fixed disc 16, a rotating shaft A17, a bevel gear A18, a threaded rod 19, a transmission gear 21, a rotating shaft B23 and a transmission chain 24; the fixed disk 16 is arranged on the mixing drum 1, the threaded rod 19 is rotatably arranged on the fixed disk 16 and is in threaded connection with the polishing concave table 4, and a bevel gear B20 is arranged on the threaded rod 19; the rotating shaft A17 is rotatably arranged on the mixing drum 1 and extends to the periphery of the mixing drum 1, and the bevel gear A18 is arranged on the rotating shaft A17 and is in meshed transmission connection with the bevel gear B20; the rotating shaft B23 is rotatably arranged on the mixing drum 1, and the power gear 22 is arranged on the rotating shaft B23; the transmission gear 21 is arranged on the rotating shaft A17 and is in transmission connection with the power gear 22 through a transmission chain 24; the number of the rotating shafts A17 is two, the two rotating shafts are symmetrically arranged on two sides of the rotating shaft B23, and two groups of bevel gears A18 are arranged on each group of rotating shafts A17; the feed hopper 7 is arranged on the mixing cylinder 1 and is in sliding connection with the fixed disc 16; the fixed disc 16 is provided with a through hole, and the diameter of the through hole is larger than that of the connecting column 10; a rocking handle 25 is arranged on the rotating shaft B23, so that the rotation is convenient; the feeding hole 5 is funnel-shaped; a discharge port 15 is arranged on the mixing cylinder 1;
compared with the first embodiment, as shown in fig. 1, the present embodiment further includes a stirring rod 14; the stirring scraper bar 14 is arranged on the stirring shaft 12 and is attached to the inner wall of the mixing cylinder 1.
In this embodiment, prevent that the raw materials from attaching to mixing bowl 1 inner wall, influencing the homogeneity that the stirring was mixed.
The embodiments of the present invention have been described in detail with reference to the drawings, but the present invention is not limited thereto, and various changes can be made without departing from the gist of the present invention within the knowledge of those skilled in the art.
Claims (8)
1. A novel nano antibacterial mildew-proof interior wall coating production structure is characterized by comprising a mixing cylinder (1), a fixing block (2), a polishing concave table (4), a driving motor (8), a rectangular connecting block (9), a connecting column (10), a polishing boss (11) and a stirring shaft (12);
the fixed block (2) is arranged on the mixing drum (1), and a guide rod (3) is arranged on the fixed block (2); the polishing concave table (4) is connected with the guide rod (3) in a sliding manner, and a feeding hole (5) is formed in the polishing concave table (4); the stirring shaft (12) is rotationally arranged on the mixing cylinder (1), and a stirring rod (13) is arranged on the stirring shaft (12); the polishing boss (11) is arranged on the stirring shaft (12) and is propped against the polishing concave table (4); the connecting column (10) is arranged on the polishing boss (11) and is in sliding connection with the polishing concave table (4), the driving motor (8) is arranged on the mixing cylinder (1), the rectangular connecting block (9) is arranged on a rotating shaft of the driving motor (8) and is in sliding connection with the connecting column (10), and the mixing cylinder (1) is provided with a polishing clearance adjusting component (6) for adjusting the clearance between the polishing concave table (4) and the polishing boss (11); the grinding clearance adjusting assembly (6) comprises a fixed disc (16), a rotating shaft A (17), a bevel gear A (18), a threaded rod (19), a transmission gear (21), a rotating shaft B (23) and a transmission chain (24); the fixed disc (16) is arranged on the mixing drum (1), the threaded rod (19) is rotatably arranged on the fixed disc (16) and is in threaded connection with the polishing concave table (4), and a bevel gear B (20) is arranged on the threaded rod (19); the rotating shaft A (17) is rotatably arranged on the mixing cylinder (1) and extends to the periphery of the mixing cylinder (1), and the bevel gear A (18) is arranged on the rotating shaft A (17) and is in meshing transmission connection with the bevel gear B (20); the rotating shaft B (23) is rotatably arranged on the mixing drum (1), and a power gear (22) is arranged on the rotating shaft B (23); the transmission gear (21) is arranged on the rotating shaft A (17) and is in transmission connection with the power gear (22) through a transmission chain (24).
2. The novel nano antibacterial and mildewproof interior wall paint production structure as claimed in claim 1, wherein the number of the rotating shafts A (17) is two and the rotating shafts A (17) are symmetrically arranged on two sides of the rotating shaft B (23), and two groups of bevel gears A (18) are arranged on each group of the rotating shafts A (17).
3. The novel nano antibacterial and mildewproof production structure of the interior wall coating of claim 1, further comprising a feed hopper (7) arranged on the mixing cylinder (1) and connected with the fixed disc (16) in a sliding way.
4. The novel nano antibacterial and mildewproof production structure of the interior wall paint as claimed in claim 1, wherein the fixed disc (16) is provided with through holes, and the diameter of the through holes is larger than that of the connecting columns (10).
5. The novel nano antibacterial and mildewproof interior wall paint production structure as claimed in claim 1, wherein a rocking handle (25) is arranged on the rotating shaft B (23).
6. The novel nano antibacterial and mildewproof production structure of the interior wall paint as claimed in claim 1, further comprising a stirring scraping rod (14); the stirring scraping rod (14) is arranged on the stirring shaft (12) and is adhered to the inner wall of the mixing cylinder (1).
7. The novel nano antibacterial and mildewproof production structure of the interior wall coating of claim 6, wherein the mixing cylinder (1) is provided with a discharge port (15), and the discharge port (15) is positioned between the stirring scraping rod (14) and the fixed block (2).
8. The novel nano antibacterial and mildewproof production structure of the interior wall paint as claimed in claim 1, wherein the feeding holes (5) are funnel-shaped.
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CN202221563338.4U CN218485830U (en) | 2022-06-21 | 2022-06-21 | Novel nano antibacterial mildew-proof interior wall coating production structure |
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CN202221563338.4U CN218485830U (en) | 2022-06-21 | 2022-06-21 | Novel nano antibacterial mildew-proof interior wall coating production structure |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN116688924A (en) * | 2023-07-12 | 2023-09-05 | 江苏润普食品科技股份有限公司 | Sodium propionate production heating and dissolving device and application method thereof |
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2022
- 2022-06-21 CN CN202221563338.4U patent/CN218485830U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN116688924A (en) * | 2023-07-12 | 2023-09-05 | 江苏润普食品科技股份有限公司 | Sodium propionate production heating and dissolving device and application method thereof |
CN116688924B (en) * | 2023-07-12 | 2024-02-02 | 江苏润普食品科技股份有限公司 | Sodium propionate production heating and dissolving device and application method thereof |
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