CN106862124B

CN106862124B - Aluminum plate seal-coating dust removal device

Info

Publication number: CN106862124B
Application number: CN201710247531.4A
Authority: CN
Inventors: 沈华加
Original assignee: Huayuan Packaging Xianning Co ltd
Current assignee: Huayuan Packaging Xianning Co ltd
Priority date: 2017-04-17
Filing date: 2017-04-17
Publication date: 2023-03-21
Anticipated expiration: 2037-04-17
Also published as: CN106862124A

Abstract

The invention provides an aluminum plate printing and coating dust removal device, and belongs to the technical field of aluminum plate dust removal. It has solved the not good technical problem of waiting of current dust collector dust removal effect. This dust collector is scribbled in seal includes a frame, the fixed driving motor that is provided with in the frame, the both sides of frame are fixed respectively and are provided with a mounting box one and mounting box two, the fixed belt pulley that is provided with on driving motor's the output shaft, it is connected with a transmission shaft to rotate between mounting box one and the mounting box two, the both ends of transmission shaft are provided with belt pulley two and belt pulley three respectively, still be provided with output gear on the transmission shaft, be provided with pivot one and pivot two between mounting box one and the mounting box two, be provided with gear one and gear two on pivot one and the pivot two respectively, still be provided with in the frame and carry out the dust removal subassembly that removes dust to the aluminum plate that sends the area. The invention has the advantages of good dust removal effect and the like.

Description

Aluminum plate seal-coating dust removal device

Technical Field

The invention belongs to the technical field of aluminum plate dust removal, relates to a printing and coating dust removal device, and particularly relates to an aluminum plate printing and coating dust removal device.

Background

Metal packaging is becoming popular as one of green and environment-friendly packaging methods, and the quality of coating and printing directly determines the quality and the service life of a product in the production process of a metal packaging product.

During the printing and surface coating operations of the metal aluminum sheet, the aluminum sheet may generate and adsorb some impurities or furnace dust, directly affecting the quality and appearance of the product. In order to solve the problem, guarantee printing aluminum plate's quality and aesthetic property, do not basically have the firm to remove dust effectively to aluminum plate in process of production in the trade now, what have the installation also only uses simple two sticky rollers to glue the product glutinous, or fixed a brush cleans when waiting for aluminum plate to pass through, impurity such as stove ash is all failed thoroughly to clear away and collect by this two kinds of modes, and cause secondary pollution next product easily, still need to use manual alcohol to clean the mode simultaneously and assist, the method is long consuming time, the inefficiency, the production down time has also been increased, it is difficult to guarantee the validity of dust removal operation again.

Disclosure of Invention

The invention aims to provide a dust removal device for printing and coating of an aluminum plate, aiming at solving the technical problem of how to improve the dust removal effect of the aluminum plate in the printing process.

The purpose of the invention can be realized by the following technical scheme: a dust removal device for printing and coating aluminum plates is characterized by comprising a rack, wherein a driving motor is fixedly arranged on the rack, a first mounting box and a second mounting box are fixedly arranged on two sides of the rack respectively, a first belt pulley is fixedly arranged on an output shaft of the driving motor, a transmission shaft is rotatably connected between the first mounting box and the second mounting box, two ends of the transmission shaft are respectively provided with a second belt pulley and a third belt pulley, an output gear is further arranged on the transmission shaft, a first rotating shaft and a second rotating shaft are arranged between the first mounting box and the second mounting box, a first gear and a second gear are respectively arranged on the first rotating shaft and the second rotating shaft, a third gear, a fourth gear and a fifth gear are rotatably arranged on the first mounting box, the first gear is simultaneously meshed with the output gear, the second gear and the third gear, the second gear is simultaneously meshed with the first gear, the fourth gear and the fifth gear, the third gear is meshed with the fourth gear, the output gear is meshed with the fifth gear, a third rotating shaft, a fourth rotating shaft, a fifth rotating shaft, a sixth rotating shaft, a seventh rotating shaft, an eighth rotating shaft and a ninth rotating shaft which are parallel to the transmission shaft are further arranged on the rack, a fourth belt pulley is fixedly arranged on the third rotating shaft, the first belt pulley and the third belt pulley are connected through a belt, the second belt pulley and the fourth belt pulley are connected through a belt, a first dust removing roller is sleeved on the transmission shaft and the seventh rotating shaft, a second dust removing roller is sleeved on the eighth rotating shaft and the ninth rotating shaft, a first conveying roller is sleeved on the third rotating shaft, a second conveying roller is sleeved on the fourth rotating shaft, the first conveying roller and the second conveying roller are connected through a conveying belt, a plurality of first tensioning wheels are sleeved on the fifth rotating shaft, and second tensioning wheels which correspond to the first tensioning wheels one by one are sleeved on the sixth rotating shaft, every all link to each other through a conveyer belt between take-up pulley one and the take-up pulley two that corresponds, it is provided with an intermediate gear to rotate in the frame, the fixed gear eight that is provided with still in the pivot four, the fixed gear nine that is provided with still in the pivot five, intermediate gear meshes simultaneously gear eight and gear nine, still be provided with in the frame and carry out the dust removal subassembly that removes dust to the aluminum plate that conveys.

The driving motor drives the belt pulley I and the belt pulley II to rotate, so that the dust removing roller I and the dust removing roller II rotate, and meanwhile, the conveying belt and the conveying belt are synchronously driven under the action of the intermediate wheel; put into aluminum plate from conveyer belt one end, on the steady conveyer belt that gets into, remove dust to it through the dust removal subassembly on the conveyer belt, if can not detach, also enable the dust pine of adhesion on aluminum plate and take off, then with the dust adhesion under the effect of dust removal cylinder one and dust removal cylinder two, realize the effect of dust removal.

In the aluminum plate printing and dust removing device, a rotating shaft A and a rotating shaft B are further arranged between the first mounting box and the second mounting box, a gear A capable of being meshed with the second gear is fixedly arranged on the rotating shaft A, a gear B capable of being meshed with the first gear is fixedly arranged on the rotating shaft B, a sliding groove A and a sliding groove B are formed in the first mounting box, the rotating shaft A is inserted in the sliding groove A, the rotating shaft B is inserted in the sliding groove B, an air cylinder A and an air cylinder B are further arranged on the first mounting box, cylinder bodies of the air cylinder A and the air cylinder B are fixedly connected with the first mounting box, a push rod of the air cylinder A is fixedly connected with the rotating shaft A, and a push rod of the air cylinder B is fixedly connected with the rotating shaft B; the rotating shaft A and the rotating shaft B are respectively sleeved with a pressing roller A and a pressing roller B, and the pressing roller A and the pressing roller B are wrapped with dust removal paper rings.

When dust on the first dust removal roller and the second dust removal roller is more, drive actuating cylinder A and cylinder B, make pivot A and pivot B respectively in spout A and spout B opposite direction motion, thereby make gear A and the meshing of gear two, gear B and the meshing of gear one, and make pressure cylinder A and pressure cylinder B hug closely first dust removal roller and second dust removal roller, thereby change the dust on first dust removal roller and the second dust removal roller and glue on the dust removal paper circle, can realize the dust removal of exempting from tearing open through rolling over the dust removal paper circle, greatly reduced the human cost of dust removal, the dust removal effect also strengthens greatly.

In the above aluminum plate printing and coating dust removal device, the dust removal assembly comprises a first mounting plate and a second mounting plate which are fixedly arranged on two sides of the rack respectively, and a plurality of plasma generators and a plurality of dust collectors are fixedly connected between the first mounting plate and the second mounting plate; the utility model discloses a dust collector, including mounting panel I, mounting panel II, plasma generator, pivot D, dust catcher, mounting panel I and mounting panel II, spout C has all been seted up on mounting panel I and the mounting panel II, plasma generator is through a pivot C fixed connection, pivot C's both ends are inserted respectively and are established in the spout C, pivot C's both ends all are provided with the threaded connection head, and threaded connection has lock nut, spout D has all been seted up on mounting panel I and the mounting panel II, the dust catcher is through a pivot D fixed connection, pivot D's both ends are inserted respectively and are established in the spout D, pivot D's both ends all are provided with the threaded connection head, and threaded connection has lock nut.

In the structure, the distance between the plasma generator and the dust collector and the conveyor belt can be adjusted through the displacement effect of the chute C and the chute D, so that the dust removal effect is optimized; the plasma generator plays the effect such as destaticizing to aluminum plate, and the dust catcher is then cleared up dust, debris on the aluminum plate.

In the above aluminum plate printing, coating and dust removing device, the conveyor belt is of a mesh structure, and the two plasma generators are respectively arranged at the upper side and the lower side of the conveyor belt; the two dust collectors are respectively arranged at the upper side and the lower side of the conveying belt. The reticular conveyor belt structure can enable the plasma generator and the dust collector to simultaneously remove dust on two sides of the aluminum plate, and greatly improves the dust removal effect.

In the above aluminum plate printing and coating dust removal device, the rack is provided with a plurality of connecting rods in the plane where the fifth rotating shaft and the sixth rotating shaft are located, and each connecting rod is provided with pillow blocks corresponding to the conveying belts one to one. The pillow block has the effects of improving the stability of the conveying belt, preventing the aluminum plate from changing in position and the like in the aluminum plate indentation conveying belt II and improving the reliability of the whole dust removal device.

In foretell aluminum plate seal scribbles dust collector, still be provided with a plurality of installation pieces in the frame, it is equipped with a ejector pin to insert on the installation piece, the ejector pin is the L type, the one end swing joint of ejector pin is on above-mentioned installation piece, the other end of ejector pin is located the conveyer belt top and with the conveyer belt is parallel, set up a screw hole on the installation piece, threaded hole female connection have can with the ejector pin is fixed the locking screw on the installation piece. Through the position of adjusting the ejector pin, can make the ejector pin can play the guide effect to aluminum plate.

In the above-mentioned dust collector is scribbled in aluminum plate seal, still be provided with in the frame with gear six of gear three meshing, it has the auxiliary frame of L type to articulate in the frame, be provided with on the auxiliary frame with pivot E and pivot F that the transmission shaft is parallel, the cover is equipped with gear E on the pivot E, the cover is equipped with a plurality of take-up pulley E on the pivot E, the cover is equipped with on the pivot F with take-up pulley E one-to-one's take-up pulley F, every take-up pulley E links to each other through an auxiliary belt with the take-up pulley F that corresponds, when the auxiliary frame rotates to auxiliary belt and is parallel with the conveyer belt, gear E can with gear six meshing.

The partial structure can selectively extend out a structure for guiding and supporting the aluminum plate and is used for grafting mechanical parts corresponding to other procedures.

In foretell aluminum plate seal scribbles dust collector, this dust collector still including set up cylinder E and cylinder F in frame both sides respectively, cylinder E and cylinder F's cylinder body all with the frame is articulated, cylinder E and cylinder F's push rod all with the auxiliary frame is articulated. The rotation of the auxiliary frame is realized by the air cylinder E and the air cylinder F.

In foretell aluminum plate seal scribbles dust collector, still be provided with electric cabinet and bin in the frame, be provided with the air pump in the bin, the air pump pass through the trachea with the dust catcher links to each other. Besides the air pump, the storage box can collect dust adsorbed by the dust collector; and the electric control box is used for uniformly controlling all the electric appliances in the device.

In the above aluminum plate printing and coating dust removal device, the outer peripheral surfaces of the first dust removal roller and the second dust removal roller are wrapped with the adhesive layers made of rubber materials. The adhesive layer has a primary adhesive effect on dust and then is stuck to the dust removal paper ring.

Compared with the prior art, the invention has the following advantages:

1. the driving motor drives the first belt pulley and the second belt pulley to rotate, so that the first dust removing roller and the second dust removing roller rotate, and meanwhile, the conveying belt and the conveying belt are synchronously driven under the action of the middle wheel; put into aluminum plate from conveyer belt one end, on the steady conveyer belt that gets into, remove dust to it through the dust removal subassembly on the conveyer belt, if can not detach, also enable the dust pine of adhesion on aluminum plate and take off, then with the dust adhesion under the effect of dust removal cylinder one and dust removal cylinder two, realize the effect of dust removal.

2. When dust on the first dust removal roller and the second dust removal roller is more, drive actuating cylinder A and cylinder B, make pivot A and pivot B respectively in spout A and spout B opposite direction motion, thereby make gear A and the meshing of gear two, gear B and the meshing of gear one, and make pressure cylinder A and pressure cylinder B hug closely first dust removal roller and second dust removal roller, thereby change the dust on first dust removal roller and the second dust removal roller and glue on the dust removal paper circle, can realize the dust removal of exempting from tearing open through rolling over the dust removal paper circle, greatly reduced the human cost of dust removal, the dust removal effect also strengthens greatly.

Drawings

Fig. 1 is a schematic perspective view of a dust removing device of the present invention.

FIG. 2 is a schematic view of the transmission structure of the dust removing device of the present invention.

Fig. 3 is a schematic perspective view of fig. 1 rotated by 180 °.

Fig. 4 is a schematic perspective view of fig. 3 rotated by 90 °.

FIG. 5 is a schematic plan view of the dust removing device of the present invention.

In the figure, 11, a frame; 12. a drive motor; 13. mounting a first box; 14. mounting a second box; 15. a plasma generator; 16. a vacuum cleaner; 21. a first belt pulley; 22. a second belt pulley; 23. a third belt pulley; 24. a belt pulley IV; 25. a drive shaft; 26. an output gear; 27. a first rotating shaft; 28. a second rotating shaft; 29. a first gear; 31. a second gear; 32. a third gear; 33. a fourth gear; 34. a fifth gear; 35. a rotating shaft III; 36. a rotating shaft IV; 37. a fifth rotating shaft; 38. a sixth rotating shaft; 39. a rotating shaft seven; 51. a rotating shaft eight; 52. a ninth rotating shaft; 53. a first dust removal roller; 54. a second dust removal roller; 55. a first conveying roller; 56. a second conveying roller; 57. a conveyor belt; 58. a first tensioning wheel; 59. a second tensioning wheel; 61. a conveyor belt; 62. an intermediate gear; 63. eighth gear; 64. a ninth gear; 65. a dust removal assembly; 66. a rotating shaft A; 67. a rotating shaft B; 68. a gear A; 69. a gear B; 71. a chute A; 72. a chute B; 75. a cylinder A; 76. a cylinder B; 77. a pressing roller A; 78. a pressing roller B; 81. a first mounting plate; 82. a second mounting plate; 83. a chute C; 85. a chute D; 87. a connecting rod; 88. a pillow block; 89. mounting blocks; 91. a top rod; 92. a sixth gear; 93. an auxiliary frame; 94. a rotating shaft E; 95. a rotating shaft F; 96. a gear E; 97. a tension wheel E; 98. a tension wheel F; 99. an auxiliary belt; 101. a cylinder E; 102. a cylinder F; 103. an electric cabinet; 104. a storage box.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the accompanying drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1, 2 and 3, the aluminum plate printing and dust removing device comprises a frame 11, a driving motor 12 is fixedly arranged on the frame 11, a first mounting box 13 and a second mounting box 14 are respectively and fixedly arranged on two sides of the frame 11, a first belt pulley 21 is fixedly arranged on an output shaft of the driving motor 12, a transmission shaft 25 is rotatably connected between the first mounting box 13 and the second mounting box 14, a second belt pulley 22 and a third belt pulley 23 are respectively arranged at two ends of the transmission shaft 25, an output gear 26 is further arranged on the transmission shaft 25, a first rotating shaft 27 and a second rotating shaft 28 are arranged between the first mounting box 13 and the second mounting box 14, a first gear 29 and a second gear 31 are respectively arranged on the first rotating shaft 27 and the second rotating shaft 28, a third gear 32, a fourth gear 33 and a fifth gear 34 are rotatably arranged on the first mounting box 13, the first gear 29 is simultaneously engaged with the output gear 26, the second gear 31 and the third gear 32, the second gear 31 is simultaneously engaged with the first gear 29, the fourth gear 33 and the fifth gear 34, the third gear 32 is simultaneously engaged with the fifth gear 33, the fifth gear 26, the output gear 35, a third rotating shaft 35 is simultaneously engaged with the fifth belt pulley 35, a conveying belt pulley 37, a conveying belt pulley 35 and a seventh roller 35 are respectively arranged on the four rollers 35, a conveying belt pulley 52 is connected with a conveying belt pulley 52, a conveying belt pulley 52 and a seven belt pulley 52 are respectively arranged on the four belt pulley 52, a four belt pulley 52 are respectively arranged on the four belt pulley 35, a four belt pulley 52 is sleeved on a four belt pulley 52 and a four pulley 52, the six rotating shafts 38 are sleeved with two tensioning wheels 59 which correspond to the first tensioning wheels 58 one by one, each tensioning wheel 58 is connected with the corresponding tensioning wheel two 59 through a conveying belt 61, the machine frame 11 is provided with an intermediate gear 62 in a rotating mode, the four rotating shafts 36 are further fixedly provided with eight gears 63, the five rotating shafts 37 are further fixedly provided with nine gears 64, the intermediate gear 62 is meshed with the eight gears 63 and the nine gears 64 simultaneously, and the machine frame 11 is further provided with a dust removal assembly 65 which can remove dust of the aluminum plates on the conveying belts 57.

The driving motor 12 drives the first belt pulley 21 and the second belt pulley 22 to rotate, so that the first dust removing roller 53 and the second dust removing roller 54 rotate, and meanwhile, the conveying belt 57 and the conveying belt 61 are synchronously driven under the action of the intermediate wheel; the aluminum plate is placed into the conveying belt 61 from one end and stably enters the conveying belt 57, the conveying belt 57 is dedusted through the dedusting component 65, if the aluminum plate cannot be removed, dust adhered to the aluminum plate can be loosened, and then the dust is adhered under the action of the first dedusting roller 53 and the second dedusting roller 54, so that the dedusting effect is achieved.

A rotating shaft A66 and a rotating shaft B67 are further arranged between the first mounting box 13 and the second mounting box 14, a gear A68 capable of being meshed with the second gear 31 is fixedly arranged on the rotating shaft A66, a gear B69 capable of being meshed with the first gear 29 is fixedly arranged on the rotating shaft B67, a sliding groove A71 and a sliding groove B72 are formed in the first mounting box 13, the rotating shaft A66 is inserted in the sliding groove A71, the rotating shaft B67 is inserted in the sliding groove B72, an air cylinder A75 and an air cylinder B76 are further arranged on the first mounting box 13, cylinder bodies of the air cylinder A75 and the air cylinder B76 are fixedly connected with the first mounting box 13, a push rod of the air cylinder A75 is fixedly connected with the rotating shaft A66, and a push rod of the air cylinder B76 is fixedly connected with the rotating shaft B67; a pressing roller A77 and a pressing roller B78 are respectively sleeved on the rotating shaft A66 and the rotating shaft B67, and dust removing paper rings are wrapped on the pressing roller A77 and the pressing roller B78; when the dust on the first dust removing roller 53 and the second dust removing roller 54 is more, the air cylinder A75 and the air cylinder B76 are driven, the rotating shaft A66 and the rotating shaft B67 respectively move in the opposite directions in the sliding groove A71 and the sliding groove B72, so that the gear A68 is meshed with the gear B31, the gear B69 is meshed with the gear I29, and the pressing roller A77 and the pressing roller B78 are tightly attached to the first dust removing roller 53 and the second dust removing roller 54, so that the dust on the first dust removing roller 53 and the second dust removing roller 54 is stuck on a dust removing paper ring, the dust removal without disassembly can be realized by replacing the dust removing paper ring, the labor cost of dust removal is greatly reduced, and the dust removal effect is greatly enhanced.

As shown in fig. 2 and 4, the dust removing assembly 65 includes a first mounting plate 81 and a second mounting plate 82 respectively fixedly disposed at two sides of the frame 11, and a plurality of plasma generators 15 and a plurality of dust collectors 16 are fixedly connected between the first mounting plate 81 and the second mounting plate 82; all seted up spout C83 on mounting panel one 81 and the mounting panel two 82, plasma generator 15 is through a pivot C fixed connection, pivot C's both ends are inserted respectively and are established in spout C83, pivot C's both ends all are provided with the threaded connection head, and threaded connection has lock nut, spout D85 has all been seted up on mounting panel one 81 and the mounting panel two 82, dust catcher 16 is through a pivot D fixed connection, pivot D's both ends are inserted respectively and are established in spout D85, pivot D's both ends all are provided with the threaded connection head, and threaded connection has lock nut.

In the structure, the distance between the plasma generator 15 and the dust collector 16 and the conveyor belt 57 can be adjusted through the displacement effect of the chute C83 and the chute D85, so that the dust removal effect is optimized; the plasma generator 15 plays the effect of destaticizing to the aluminum plate etc. then dust catcher 16 is cleared up dust, debris on the aluminum plate.

As shown in fig. 1 and 5, the conveyor belt 57 has a mesh structure, and two plasma generators 15 are provided and respectively disposed at upper and lower sides of the conveyor belt 57; the two vacuum cleaners 16 are respectively disposed at upper and lower sides of the conveyor belt 57. The reticular conveyor belt 57 structure can enable the plasma generator 15 and the dust collector 16 to simultaneously remove dust on two sides of the aluminum plate, and greatly improves the dust removal effect.

As shown in fig. 2, the rack 11 is provided with a plurality of connecting rods 87 located in the plane of the fifth rotating shaft 37 and the sixth rotating shaft 38, and each connecting rod 87 is provided with pillow blocks 88 corresponding to the conveyor belts 61 one by one; the pillow blocks 88 are used for improving the stability of the conveying belt 61, preventing the aluminum plate from being deformed due to the fact that the aluminum plate is pressed into the conveying belt 61, and improving the reliability of the whole dust removal device; the rack 11 is also provided with a plurality of mounting blocks 89, a mandril 91 is inserted into the mounting blocks 89, the mandril 91 is L-shaped, one end of the mandril 91 is movably connected to the mounting blocks 89, the other end of the mandril 91 is positioned above the conveyer belt 61 and is parallel to the conveyer belt 61, the mounting blocks 89 are provided with a threaded hole, and the threaded hole is internally connected with a locking screw rod capable of fixing the mandril 91 on the mounting blocks 89; through adjusting the position of ejector pin 91, can make ejector pin 91 play the guide effect to aluminum plate.

A gear six 92 meshed with the gear three 32 is further arranged on the rack 11, an L-shaped auxiliary frame 93 is hinged to the rack 11, a rotating shaft E94 and a rotating shaft F95 which are parallel to the transmission shaft 25 are arranged on the auxiliary frame 93, a gear E96 is sleeved on the rotating shaft E94, a plurality of tensioning wheels E97 are sleeved on the rotating shaft E94, tensioning wheels F98 which are in one-to-one correspondence to the tensioning wheels E97 are sleeved on the rotating shaft F95, each tensioning wheel E97 is connected with the corresponding tensioning wheel F98 through an auxiliary belt 99, and when the auxiliary frame 93 rotates until the auxiliary belts 99 are parallel to the conveying belt 61, the gear E96 can be meshed with the gear six 92; and rotating the auxiliary frame 93 to enable the gear E96 to be meshed with the gear six 92, enabling the auxiliary belt 99 to be in a transmission state, bearing the aluminum plate coming out from the space between the first dust removing roller 53 and the second dust removing roller 54, and entering a next operation link.

The dust removal device further comprises an air cylinder E101 and an air cylinder F102 which are respectively arranged on two sides of the rack 11, the cylinder bodies of the air cylinder E101 and the air cylinder F102 are hinged with the rack 11, and push rods of the air cylinder E101 and the air cylinder F102 are hinged with the auxiliary frame 93. The rotation of the auxiliary frame 93 is realized by the cylinder E101 and the cylinder F102; an electric cabinet 103 and a storage box 104 are further arranged on the frame 11, and an air pump is arranged in the storage box 104 and connected with the dust collector 16 through an air pipe. The storage tank 104 collects dust adsorbed by the vacuum cleaner 16, in addition to the air pump; the electric control box 103 controls all the electric appliances in the device in a unified way; the outer peripheral surfaces of the first dust removing roller 53 and the second dust removing roller 54 are wrapped with rubber adhesion layers; the adhesive layer has a primary adhesive effect on dust and then is stuck to the dust removal paper ring.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments, or alternatives may be employed, by those skilled in the art, without departing from the spirit or ambit of the invention as defined in the appended claims.

Claims

1. The utility model provides an aluminum plate seal-coating dust collector, its characterized in that, this device includes a frame (11), fixedly on frame (11) be provided with a driving motor (12), the both sides of frame (11) are fixed respectively and are provided with a mounting box (13) and mounting box two (14), fixedly on the output shaft of driving motor (12) be provided with belt pulley (21), it is connected with transmission shaft (25) to rotate between mounting box one (13) and mounting box two (14), the both ends of transmission shaft (25) are provided with belt pulley two (22) and belt pulley three (23) respectively, still be provided with output gear (26) on transmission shaft (25), be provided with pivot one (27) and pivot two (28) between mounting box one (13) and mounting box two (14), be provided with gear one (29) and gear two (31) respectively on pivot one (27) and the pivot two (28), rotate on mounting box one (13) and be provided with gear three (32), gear four (33) and gear five (34), gear one (29) with gear (32) and gear (31) mesh simultaneously, gear (31) and five gear (31) mesh, the transmission device is characterized in that a third gear (32) is meshed with a fourth gear (33), an output gear (26) is meshed with a fifth gear (34), a third rotating shaft (35), a fourth rotating shaft (36), a fifth rotating shaft (37), a sixth rotating shaft (38), a seventh rotating shaft (39), an eighth rotating shaft (51) and a ninth rotating shaft (52) which are parallel to the transmission shaft (25) are further arranged on the rack (11), a fourth belt pulley (24) is fixedly arranged on the third rotating shaft (35), a first belt pulley (21) and a third belt pulley (23) are connected through a belt, a second belt pulley (22) is connected with the fourth belt pulley (24) through a belt, a first dedusting roller (53) is sleeved on the transmission shaft (25) and the seventh rotating shaft (39), a second dedusting roller (54) is sleeved on the eighth rotating shaft (51) and the ninth rotating shaft (52), a first conveying roller (55) is sleeved on the third rotating shaft (35), a second conveying roller (56) is sleeved on the fourth rotating shaft (36), a second conveying roller (56) is sleeved on the transmission shaft, a first conveying roller (55) and a second conveying roller (56) are connected through a first conveying belt (57), and a plurality of tensioning wheels (58) are sleeved on a corresponding tensioning wheel (58), each tensioning wheel I (58) is connected with the corresponding tensioning wheel II (59) through a conveying belt (61), a middle gear (62) is arranged on the rack (11) in a rotating mode, a gear eight (63) is further fixedly arranged on the rotating shaft IV (36), a gear nine (64) is further fixedly arranged on the rotating shaft V (37), the middle gear (62) is meshed with the gear eight (63) and the gear nine (64) at the same time, and a dust removal assembly (65) capable of removing dust of an aluminum plate on the conveying belt (57) is further arranged on the rack (11);

the automatic transmission device is characterized in that a gear six (92) meshed with the gear three (32) is further arranged on the rack (11), an L-shaped auxiliary frame (93) is hinged to the rack (11), a rotating shaft E (94) and a rotating shaft F (95) which are parallel to the transmission shaft (25) are arranged on the auxiliary frame (93), a gear E (96) is sleeved on the rotating shaft E (94), a plurality of tensioning wheels E (97) are sleeved on the rotating shaft E (94), tensioning wheels F (98) which correspond to the tensioning wheels E (97) one by one are sleeved on the rotating shaft F (95), each tensioning wheel E (97) is connected with the corresponding tensioning wheel F (98) through an auxiliary belt (99), and when the auxiliary frame (93) rotates to the position where the auxiliary belt (99) is parallel to the conveying belt (61), the gear E (96) can be meshed with the gear six (92).

2. The aluminum plate printing, coating and dust removing device according to claim 1, wherein a rotating shaft A (66) and a rotating shaft B (67) are further arranged between the first mounting box (13) and the second mounting box (14), a gear A (68) capable of being meshed with the second gear (31) is fixedly arranged on the rotating shaft A (66), a gear B (69) capable of being meshed with the first gear (29) is fixedly arranged on the rotating shaft B (67), a sliding groove A (71) and a sliding groove B (72) are formed in the first mounting box (13), the rotating shaft A (66) is inserted in the sliding groove A (71), the rotating shaft B (67) is inserted in the sliding groove B (72), an air cylinder A (75) and an air cylinder B (76) are further arranged on the first mounting box (13), cylinder bodies of the air cylinder A (75) and the air cylinder B (76) are fixedly connected with the first mounting box (13), a push rod of the air cylinder A (75) is fixedly connected with the rotating shaft A (66), and a push rod B (76) is fixedly connected with the rotating shaft B (67); and the rotating shaft A (66) and the rotating shaft B (67) are respectively sleeved with a pressing roller A (77) and a pressing roller B (78), and the pressing roller A (77) and the pressing roller B (78) are wrapped with dust removal paper rings.

3. The aluminum plate printing, coating and dust removing device is characterized in that the dust removing assembly (65) comprises a first mounting plate (81) and a second mounting plate (82) which are fixedly arranged on two sides of the rack (11), and a plurality of plasma generators (15) and a plurality of dust collectors (16) are fixedly connected between the first mounting plate (81) and the second mounting plate (82); all seted up spout C (83) on mounting panel one (81) and mounting panel two (82), plasma generator (15) are through a pivot C fixed connection, pivot C's both ends are inserted respectively and are established in spout C (83), pivot C's both ends all are provided with the threaded connection head, and threaded connection has lock nut, spout D (85) have all been seted up on mounting panel one (81) and mounting panel two (82), dust catcher (16) are through a pivot D fixed connection, pivot D's both ends are inserted respectively and are established in spout D (85), pivot D's both ends all are provided with the threaded connection head, and threaded connection has lock nut.

4. The aluminum plate printing and dust removing device according to claim 3, wherein a plurality of connecting rods (87) in the plane of the rotating shaft five (37) and the rotating shaft six (38) are arranged on the rack (11), and pillow blocks (88) corresponding to the conveying belts (61) one by one are arranged on each connecting rod (87).

5. The aluminum plate printing, coating and dust removing device according to claim 4, wherein the rack (11) is further provided with a plurality of mounting blocks (89), a push rod (91) is inserted into each mounting block (89), each push rod (91) is L-shaped, one end of each push rod (91) is movably connected to the corresponding mounting block (89), the other end of each push rod (91) is positioned above the corresponding conveying belt (61) and is parallel to the corresponding conveying belt (61), each mounting block (89) is provided with a threaded hole, and each threaded hole is internally connected with a locking screw capable of fixing the corresponding push rod (91) on the corresponding mounting block (89).

6. The aluminum plate printing and dust removing device according to claim 5, further comprising an air cylinder E (101) and an air cylinder F (102) respectively arranged on two sides of the frame (11), wherein the cylinder bodies of the air cylinder E (101) and the air cylinder F (102) are hinged with the frame (11), and the push rods of the air cylinder E (101) and the air cylinder F (102) are hinged with the auxiliary frame (93).

7. The aluminum plate printing and dust removing device according to claim 6, wherein the frame (11) is further provided with an electric control box (103) and a storage box (104), the storage box (104) is internally provided with an air pump, and the air pump is connected with the dust collector (16) through an air pipe.

8. The aluminum plate printing and dust removing device according to claim 7, wherein the outer peripheral surfaces of the first dust removing roller (53) and the second dust removing roller (54) are wrapped with an adhesive layer made of rubber.