CN114030284B - Full-automatic linkage production line for printed package and linkage production method thereof - Google Patents

Abstract

The invention relates to the technical field of full-automatic linkage production lines, in particular to a full-automatic linkage production line for printing and packaging and a linkage production method thereof. According to the invention, the material to be printed is flattened between the transmission placing belt and the first conveying roller, when impurities are adhered on the transmission placing belt, the transmission placing belt rotates to the bottom, and after the impurities on the surface of the transmission placing belt are swept down through the cooperation of the cleaning rod and the scraping plate, the impurities are scraped off for the second time through the scraping plate.

Description

Full-automatic linkage production line for printed package and linkage production method thereof

Technical Field

The invention relates to the technical field of full-automatic linkage production lines, in particular to a full-automatic linkage production line for printing packages and a linkage production method thereof.

Background

The package printing is printing with various package materials as carriers, and decorative patterns, patterns or characters are printed on the package, so that the product is more attractive or more explanatory, and the effect of transmitting information and increasing sales is achieved. Including printing of packaging cartons, packaging bottles, packaging cans and the like. Packaging printing has a great specific gravity in both the printing industry and the packaging industry, and is an indispensable ring in packaging engineering. There are printing methods such as relief printing, lithography, intaglio printing, screen printing, orifice printing, and the like. The main elements of printing are paper, ink, color, etc. The packaging printing needs to take economic, environmental protection and other problems into consideration, and meanwhile, the information to be printed needs to be completely and well expressed, and a production line usually exists when the packaging is printed, and the full-automatic treatment is carried out from feeding to discharging.

However, the existing full-automatic linkage production line for printing and packaging has the defects that the structure is not perfect and certain defects exist:

the conveying device is easy to drive the surface of the packaging material to be stained with impurities in the conveying process, if the packaging material is not subjected to impurity removal before being printed, the quality and the precision of printing can be affected during printing, the printing quality is low, certain limitation is achieved, and the impurities are easy to float due to the influence of external factors during collection, so that certain influence is caused on the environment.

The printed packaging material cannot stand up Ma Gantou, if the printed packaging material is directly conveyed, the printed pattern is contaminated with impurities, so that the overall aesthetic degree is affected, the printed pattern is easily contacted and collided with an external object during discharging and conveying, and certain defects are caused in the printed pattern.

Disclosure of Invention

The invention aims to provide a full-automatic linkage production line for printed packages and a linkage production method thereof.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

a full-automatic linkage production line for printing and packaging and a linkage production method thereof are disclosed, which comprises a base, a mounting rack, a first connecting shaft, a first conveying roller, a first conveying belt, a second connecting shaft, a second conveying roller, a transmission placing belt, a collecting bottom plate, a friction plate, a first connecting sleeve, a second connecting sleeve, a fixed shaft, a connecting block, a sliding chute, a supporting frame, a connecting rod, a cleaning rod, a scraping plate, a printing device body, a discharge port, an extension plate, a supporting column, an extension block, a mounting plate, a covered rolling film, a collecting roller, an extension frame, a motor, a first belt pulley, an auxiliary plate, a reciprocating screw rod, a sleeve, a rack, a gear, a guide rod, a fan, an extension shaft and a second belt pulley.

Preferably, a sliding groove is formed in one side of the collecting bottom plate, a sliding block is fixedly connected to the inner wall of the sliding groove, a connecting block is fixedly connected to one end of the sliding block, a fixing shaft is fixedly connected to one end of the connecting block, a first connecting sleeve is sleeved at one end of one second conveying roller, a second connecting sleeve is sleeved at the end of the first connecting sleeve, and the second connecting sleeve is in transmission connection with the outer wall of the fixing shaft through the first connecting sleeve.

Preferably, two sides of the collecting bottom plate are symmetrically provided with two supporting frames, wherein the tops of the adjacent ends of the two supporting frames are rotationally connected with a cleaning rod, the tops of the adjacent ends of the other two supporting frames are fixedly connected with connecting rods, and the adjacent ends of the two connecting rods are fixedly connected with scraping plates.

Preferably, one side of the base is fixedly provided with a printing device body, the middle part of the printing device body is provided with a discharge hole, the inner wall of the discharge hole is fixedly connected with an extension plate, one side of the printing device body is symmetrically provided with two support columns, one ends of two sides of the extension plate are fixedly connected with extension blocks, and one non-adjacent ends of the two extension blocks are fixedly connected with one side of the corresponding support column.

Preferably, a cover coiled film is arranged between the two support columns, the two ends of the two cover coiled films are clamped and connected with mounting plates, and the non-adjacent ends of the two mounting plates are rotationally connected with the tops of the adjacent support columns.

Preferably, the top symmetry of printing device body one side is connected with two extension frames, and the one end cover of two extension frames is equipped with collects the rod, and one side fixed mounting of printing device body has the motor, and one end of collecting the rod runs through one of them extension frame, and the one end of collecting the rod is connected through the first belt pulley transmission that sets up with the output of motor.

Preferably, both sides on the top end of the printing device body are fixedly provided with auxiliary plates, one end adjacent to the two auxiliary plates is rotationally connected with a reciprocating screw rod, the other end of one auxiliary plate is rotationally connected with an extension shaft, one end of the extension shaft penetrates through the inner wall of the auxiliary plate and is fixedly connected with one end of the reciprocating screw rod, and the outer wall of the extension shaft is in transmission connection with the output end of the motor through a second belt pulley.

Preferably, the outer wall cover of reciprocating screw rod is equipped with the sleeve, and telescopic one side fixedly connected with rack, and the top of printing device body rotates and is connected with the gear, and the outer wall of gear is connected with one side meshing of rack, and the top fixed mounting of gear has the guide bar, and the one end fixedly connected with fan of guide bar.

The utility model provides a full-automatic linkage production line linkage production method of printing package, including the transmission place the area, the transmission place the area transmission and contact with clean pole, clean pole realization is swept impurity effect that drops, the transmission place the area transmission again with the scraper blade contact, the one end of scraper blade is with the impurity scraping of adhesion on the transmission place the area realization clean effect, one of them second conveying roller rotates and drives second adapter sleeve and fixed axle rotation respectively, the connecting block takes place to slide about under the drive of fixed axle, collect the bottom plate and follow the slip and produce friction on the friction plate and realize increasing frictional force and reach adsorption efficiency.

Preferably, the motor rotates and drives the collection rod through first belt pulley to rotate and realize driving the cover to roll up the membrane and rotate to printing material tectorial membrane, and the motor rotates and drives extension axle and reciprocating screw through the transmission of second belt pulley and rotate, and reciprocating screw rotates and drives the sleeve and control the removal, and rack back and forth swing drives gear engagement back and forth rotation, and the guide bar atress back and forth swing realizes the effect of multi-angle air-drying.

The invention has at least the following beneficial effects:

according to the invention, the material to be printed is flattened between the transmission placing belt and the first conveying roller, when impurities are adhered on the transmission placing belt, the transmission placing belt rotates to the bottom, the impurities on the surface of the transmission placing belt are swept down through the cooperation of the cleaning rod and the scraping plate, and then the scraping plate is used for scraping the impurities for the second time, so that the surface of the transmission placing belt is cleaned while the transmission placing belt is conveyed, the service efficiency of the device is improved, when the second conveying roller rotates, the connecting block is driven to reciprocate left and right through the cooperation of the second connecting sleeve, the fixed shaft and the connecting block, the collecting bottom plate is driven to reciprocate left and right, the collecting bottom plate rubs with the top of the friction plate when moving back and forth, a certain friction force is generated, static electricity is generated due to the friction force, the static electricity has a certain adsorption capacity, small-size dust falling onto the friction plate can be adsorbed, and the pollution to the environment caused by the fact that the dropped dust volume is excessively light is prevented.

According to the invention, the motor and the first belt pulley are matched to drive the collecting roller to rotate, the collecting roller is driven to rotate at the same time, so that the film coating of the printed material discharged after printing can be realized, the impurity is not polluted again in the subsequent conveying process, the quality of the printed material is improved to a certain extent, the secondary reworking condition is avoided, when the printed material is discharged through the discharge hole, the motor and the second belt pulley are matched to drive the reciprocating screw to rotate, the reciprocating screw rotates to drive the sleeve and the rack to swing, and the reciprocating screw is meshed with the gear to drive the gear to rotate to drive the guide rod and the fan to swing, thereby realizing the effect of quick air drying of the printed material, improving the practicability of the device to a certain extent and realizing the full automation of the device.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic illustration of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

FIG. 3 is a schematic view of the structure of the second conveyor roller, the drive belt and the first connecting sleeve;

FIG. 4 is a schematic view of a collection floor, friction plate, cleaning bar, and squeegee;

FIG. 5 is an enlarged view of a portion of FIG. 4 at A;

FIG. 6 is a schematic view of the structure of the printing device body and the cover roll;

fig. 7 is a schematic diagram of the structure of the reciprocating screw and the guide rod.

In the figure: 1. a base; 2. a mounting frame; 3. a first connecting shaft; 4. a first conveying roller; 5. a first conveyor belt; 6. a second connecting shaft; 7. a second conveying roller; 8. a drive belt; 9. a collection floor; 10. a friction plate; 11. a first connection sleeve; 12. a second connecting sleeve; 13. a fixed shaft; 14. a connecting block; 15. a slide block; 16. a chute; 17. a support frame; 18. a connecting rod; 19. a cleaning lever; 20. a scraper; 21. a printing device body; 22. a discharge port; 23. an extension plate; 24. a support column; 25. an extension block; 26. a mounting plate; 27. covering a coiled film; 28. collecting sticks; 29. an extension rack; 30. a motor; 31. a first pulley; 32. an auxiliary plate; 33. a reciprocating screw rod; 34. a sleeve; 35. a rack; 36. a gear; 37. a guide rod; 38. a fan; 39. an extension shaft; 40. a second pulley.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Referring to fig. 1-7, the invention provides a full-automatic linkage production line for printed packages and a linkage production method thereof, which comprises the following steps:

example 1

As shown in figures 1-4, the full-automatic linkage production line of the printing package and the linkage production method thereof comprise a base 1, a mounting frame 2, a first connecting shaft 3, a first conveying roller 4, a first conveying belt 5, a second connecting shaft 6, a second conveying roller 7, a transmission placing belt 8, a collecting bottom plate 9, a friction plate 10, a first connecting sleeve 11, a second connecting sleeve 12, a fixed shaft 13, a connecting block 14, a sliding block 15, a sliding chute 16, a supporting frame 17, a connecting rod 18, a cleaning rod 19, a scraping plate 20, a printing device body 21, a discharge hole 22, an extension plate 23, a supporting column 24, an extension block 25, a mounting disc 26, a covering rolling film 27, a collecting roller 28, an extension frame 29, a motor 30, a first belt pulley 31, an auxiliary plate 32, a reciprocating screw 33, a sleeve 34, a rack 35, a gear 36, a guide rod 37, a fan 38, an extension shaft 39 and a second belt pulley 40, four corners of the top end of the base 1 are fixedly provided with the mounting frame 2, two transverse plates are fixedly connected to one side, adjacent to the two mounting frames 2, of the two transverse plates, a plurality of first conveying rollers 4 are arranged between the two transverse plates, a plurality of second conveying rollers 7 are arranged between the other two transverse plates, two ends of each adjacent group of first conveying rollers 4 are fixedly connected with first connecting shafts 3, one ends of each plurality of first connecting shafts 3 are rotationally connected with the two transverse plates, two ends of each adjacent group of first conveying rollers 4 are rotationally connected with the other two transverse plates, outer walls of each adjacent group of first connecting shafts 3 are in transmission connection through a set first conveying belt 5, outer walls of each plurality of second conveying rollers 7 are in transmission connection through a set transmission placing belt 8, friction plates 10 are fixedly connected to the middle parts of the top ends of the base 1, collecting bottom plates 9 are slidingly connected to the tops of the friction plates 10, sliding grooves 16 are formed in one side of each collecting bottom plate 9, the inner wall of the chute 16 is fixedly connected with a slide block 15, one end of the slide block 15 is fixedly connected with a connecting block 14, one end of the connecting block 14 is fixedly connected with a fixed shaft 13, one end of one second conveying roller 7 is sleeved with a first connecting sleeve 11, the end part of the first connecting sleeve 11 is sleeved with a second connecting sleeve 12, the second connecting sleeve 12 is in transmission connection with the outer wall of the fixed shaft 13 through the arranged first connecting sleeve 11, a material to be printed is firstly leveled between a transmission placing belt 8 and the first conveying roller 4, when impurities are adhered on the transmission placing belt 8, the transmission placing belt 8 rotates to the bottom, after the impurities on the surface of the transmission placing belt 8 are swept down through the cooperation of a cleaning rod 19 and a scraping plate 20, the impurities are scraped off secondarily through the scraping plate 20, so that the surface of the transmission placing belt 8 is cleaned while the transmission placing belt 8 is conveyed is realized, and the use efficiency of the device is improved, when the second conveying roller 7 rotates, the connecting block 14 is driven to reciprocate left and right through the cooperation of the second connecting sleeve 12, the fixed shaft 13 and the connecting block 14, so that the collecting bottom plate 9 is driven to reciprocate left and right, the collecting bottom plate 9 rubs with the top of the friction plate 10 when moving back and forth, a certain friction force is generated, static electricity is generated due to the friction force, the static electricity has a certain adsorption capacity, small-volume dust falling onto the friction plate 10 can be adsorbed, the phenomenon that the falling dust is excessively light in volume and floats to cause environmental pollution is avoided, the chute 16 and the connecting block 14 are driven to reciprocate left and right through the transmission of the second conveying roller 7 is realized, the collecting bottom plate 9 is driven to reciprocate left and right through the second conveying roller 7, two supporting frames 17 are symmetrically arranged on two sides of the collecting bottom plate 9, the top of two adjacent one ends of support frame 17 rotates and is connected with cleaning rod 19, the equal fixedly connected with connecting rod 18 in top of two other adjacent one ends of support frame 17, the adjacent one end fixedly connected with scraper blade 20 of two connecting rods 18, the stability of scraper blade 20 has been increased in the setting of connecting rod 18, guaranteed scraper blade 20 and kept steady when the atress, the availability factor of scraper blade 20 has been improved to a certain extent, including the transmission is placed area 8, the transmission of transmission is placed area 8 and is contacted with cleaning rod 19, the effect that drops is swept to the cleaning rod 19 is realized, the transmission is placed area 8 transmission again and is contacted with scraper blade 20, the one end of scraper blade 20 is with the impurity scraping of adhesion on the transmission is placed area 8 and is realized cleaning effect, one of them second transport running roller 7 rotates and drives second adapter sleeve 12 and fixed axle 13 rotation respectively, connecting block 14 takes place the side-to-side under the drive of fixed axle 13, collection bottom plate 9 follows the slip and produces friction on friction plate 10 and realizes increasing frictional force and reaches the adsorption effect.

Example 2

On the basis of the first embodiment, as shown in fig. 5-7, a printing device body 21 is fixedly installed on one side of a base 1, a discharge hole 22 is formed in the middle of the printing device body 21, an extension plate 23 is fixedly connected to the inner wall of the discharge hole 22, two support columns 24 are symmetrically arranged on one side of the printing device body 21, extension blocks 25 are fixedly connected to one ends of two sides of the extension plate 23, non-adjacent ends of the two extension blocks 25 are fixedly connected with one side of the corresponding support column 24, a collecting roller 28 is driven to rotate by the cooperation of a motor 30 and a first belt pulley 31, the collecting roller 28 is driven to rotate while a covering film 27 is driven to rotate, the printing material discharged after printing can be coated, the quality of the printing material is guaranteed not to be polluted again in the subsequent conveying process, the condition of secondary reworking is avoided to a certain extent, when the printed material is discharged through the discharge hole 22, the motor 30 and the second belt pulley 40 cooperate to drive the reciprocating screw 33 to rotate, the reciprocating screw 33 rotates to drive the sleeve 34 and the rack 35 to swing, thereby being meshed with the gear 36 when passing through the gear 36, driving the gear 36 to rotate, driving the guide rod 37 and the fan 38 to swing, thereby realizing the effect of quick air drying of printed materials, improving the practicability of the device to a certain extent, realizing the full automation of the device, arranging the cover rolling film 27 between the two support columns 24, connecting the two ends of the two cover rolling films 27 with the mounting plates 26 in a clamping way, connecting the non-adjacent ends of the two mounting plates 26 with the tops of the adjacent support columns 24 in a rotating way, arranging the cover rolling film 27 to perform the effect of covering the printed parts of the discharged materials, symmetrically connecting the two extension frames 29 at the top of one side of the printing device body 21, one end of each of the two extension frames 29 is sleeved with a collection rod 28, a motor 30 is fixedly arranged at one side of the printing device body 21, one end of each collection rod 28 penetrates through one of the extension frames 29, one end of each collection rod 28 is in transmission connection with the output end of each motor 30 through a first belt pulley 31, the collection rods 28 and the extension shafts 39 can be simultaneously driven to rotate through the cooperation of the first belt pulleys 31 and the second belt pulleys 40 by the arrangement of the motors 30, the number of the motors 30 is saved, the guide rods 37 can be driven to operate in the film coating process through the cooperation of a mechanical structure to perform air drying treatment at the same time, auxiliary plates 32 are fixedly arranged at two sides of the top end of the printing device body 21, one end, adjacent to each auxiliary plate 32, is rotatably connected with a reciprocating screw rod 33, the other end of each auxiliary plate 32 is rotatably connected with the extension shaft 39, one end of an extension shaft 39 penetrates through the inner wall of the auxiliary plate 32 and is fixedly connected with one end of a reciprocating screw rod 33, the outer wall of the extension shaft 39 is in transmission connection with the output end of a motor 30 through a second belt pulley 40, a sleeve 34 is sleeved on the outer wall of the reciprocating screw rod 33, a rack 35 is fixedly connected to one side of the sleeve 34, a gear 36 is rotatably connected to the top end of the printing device body 21, the outer wall of the gear 36 is meshed with one side of the rack 35, a guide rod 37 is fixedly arranged at the top end of the gear 36, a fan 38 is fixedly connected to one end of the guide rod 37, the motor 30 rotates to drive a collecting rod 28 to rotate through the first belt pulley 31 to drive a covering film 27 to rotate to cover a printing material film, the motor 30 rotates to drive the extension shaft 39 and the reciprocating screw rod 33 to rotate through the transmission of the second belt pulley 40, the reciprocating screw rod 33 rotates to drive the sleeve 34 to move left and right, the rack 35 swings back and forth to drive the gear 36 to be meshed, the guide rod 37 is forced to swing back and forth to realize the effect of multi-angle air drying.

Working principle: when in use, firstly, materials to be printed are placed between the first conveying roller 4 and the transmission placing belt 8, the materials are leveled through a transmission driving device of the first conveying roller 4 and the transmission placing belt 8, when impurities are adhered on the transmission placing belt 8, the transmission placing belt 8 rotates to the bottom, firstly, a cleaning rod 19 is used for brushing the impurities out through bristles on the surface of the cleaning rod 19, then the surface of the transmission placing belt 8 is scraped through a scraper 20, so that the cleaning of the surface of the transmission placing belt 8 is realized while the transmission placing belt 8 is conveyed, when the second conveying roller 7 rotates, the first connecting sleeve 11 is driven to rotate in cooperation with the second connecting sleeve 12 to drive the fixed shaft 13 to rotate, and the connecting block 14 is driven to reciprocate left and right, thereby driving the collecting bottom plate 9 to reciprocate left and right, the collecting bottom plate 9 rubs with the top of the friction plate 10 when moving back and forth, small-volume dust falling onto the friction plate 10 can be adsorbed, floating of dust is prevented, printing treatment is carried out when the material passes through the printing device body 21, then the printing device body 21 is discharged on the extension plate 23, the motor 30 is started to control the switch, the motor 30 operates to drive the extension shaft 39 to rotate through the second belt pulley 40, thereby driving the reciprocating screw 33 to rotate, the reciprocating screw 33 rotates to drive the sleeve 34 to move back and forth, the rack 35 is meshed with the gear 36 while moving, the gear 36 and the guide rod 37 are driven to move left and right, thereby realizing the effect of air drying the just discharged material by the back and forth swinging of the guide rod 37, meanwhile, the motor 30 is matched with the first belt pulley 31 to drive the collecting rod 28 to rotate, the cover roll film 27 is driven to rotate to roll the cover roll film 27 on the collecting roller 28 for collecting, when the printed material passes through the cover roll film 27 and contacts with the cover roll film 27, the thin film on the cover roll film 27 is adhered to the printed material, the printed part is protected, and the full automation of the device is realized.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made therein without departing from the spirit and scope of the invention, which is defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (3)

1. The full-automatic linkage production line for the printing package comprises a base (1), a mounting frame (2), a first connecting shaft (3), a first conveying roller (4), a first conveying belt (5), a second connecting shaft (6), a second conveying roller (7), a transmission placing belt (8), a collecting bottom plate (9), a friction plate (10), a first connecting sleeve (11), a second connecting sleeve (12), a fixed shaft (13), a connecting block (14), a sliding block (15), a sliding groove (16), a supporting frame (17), a connecting rod (18), a cleaning rod (19), a scraping plate (20), a printing device body (21), a discharging hole (22), an extension plate (23), a supporting column (24), an extension block (25), a mounting disc (26), a covering rolling film (27), a collecting roller (28), an extension frame (29), a motor (30), a first belt pulley (31), an auxiliary plate (32), a reciprocating screw rod (33), a sleeve (34), a rack (35), a gear (36), a guide rod (37), a fan (38), an extension shaft (39) and a second belt pulley (40), and is characterized in that four corners (2) of the base (1) are fixedly mounted, two adjacent transverse plates are fixedly connected to one side of each adjacent mounting frame (2), a plurality of first conveying rollers (4) are arranged between the two transverse plates, a plurality of second conveying rollers (7) are arranged between the other two transverse plates, two ends of each adjacent group of first conveying rollers (4) are fixedly connected with first connecting shafts (3), one ends of each first connecting shaft (3) are rotatably connected with two transverse plates, two ends of each other group of first conveying rollers (4) are rotatably connected with the other two transverse plates, the outer walls of each adjacent group of first conveying rollers (3) are in transmission connection through a first transmission belt (5), the outer walls of each second conveying roller (7) are in transmission connection through a transmission placing belt (8), the middle parts of the top ends of the bases (1) are fixedly connected with friction plates (10), the tops of the friction plates (10) are slidably connected with collecting bottom plates (9), and the tops of the collecting bottom plates (9) are movable to and are subjected to static electricity generation;

a sliding groove (16) is formed in one side of the collecting bottom plate (9), a sliding block (15) is fixedly connected to the inner wall of the sliding groove (16), a connecting block (14) is fixedly connected to one end of the sliding block (15), a fixed shaft (13) is fixedly connected to one end of the connecting block (14), a first connecting sleeve (11) is sleeved at one end of one second conveying roller (7), a second connecting sleeve (12) is arranged on one side of the end part of the first connecting sleeve (11), and the second connecting sleeve (12) is in transmission connection with the outer wall of the fixed shaft (13) through the arranged first connecting sleeve (11);

two supporting frames (17) are symmetrically arranged on two sides of the collecting bottom plate (9), the tops of two adjacent ends of the supporting frames (17) are rotatably connected with cleaning rods (19), the tops of other two adjacent ends of the supporting frames (17) are fixedly connected with connecting rods (18), and one adjacent end of each connecting rod (18) is fixedly connected with a scraping plate (20);

one side of the base (1) is fixedly provided with a printing device body (21), the middle part of the printing device body (21) is provided with a discharge hole (22), the inner wall of the discharge hole (22) is fixedly connected with an extension plate (23), one side of the printing device body (21) is symmetrically provided with two support columns (24), one ends of two sides of the extension plate (23) are fixedly connected with extension blocks (25), and one non-adjacent ends of the two extension blocks (25) are fixedly connected with one side of the corresponding support column (24);

a cover coiled film (27) is arranged between the two support columns (24), two ends of the two cover coiled films (27) are respectively connected with a mounting disc (26) in a clamping manner, and one non-adjacent ends of the two mounting discs (26) are respectively connected with the tops of the adjacent support columns (24) in a rotating manner;

two extension frames (29) are symmetrically connected to the top of one side of the printing device body (21), one end of each extension frame (29) is sleeved with a collection rod (28), a motor (30) is fixedly arranged on one side of the printing device body (21), one end of each collection rod (28) penetrates through one extension frame (29), and one end of each collection rod (28) is in transmission connection with the output end of each motor (30) through a first belt pulley (31);

the printing device comprises a printing device body (21), wherein auxiliary plates (32) are fixedly arranged on two sides of the top end of the printing device body (21), one end, adjacent to each auxiliary plate (32), of each auxiliary plate is rotatably connected with a reciprocating screw rod (33), the other end of one auxiliary plate (32) is rotatably connected with an extension shaft (39), one end of each extension shaft (39) penetrates through the inner wall of each auxiliary plate (32) and is fixedly connected with one end of each reciprocating screw rod (33), and the outer wall of each extension shaft (39) is in transmission connection with the output end of a motor (30) through a second belt pulley (40);

the outer wall cover of reciprocating screw (33) is equipped with sleeve (34), one side fixedly connected with rack (35) of sleeve (34), the top rotation of printing device body (21) is connected with gear (36), the outer wall of gear (36) is connected with one side meshing of rack (35), the top fixed mounting of gear (36) has guide bar (37), one end fixedly connected with fan (38) of guide bar (37).

2. The linkage production method of the full-automatic linkage production line of the printing package according to claim 1, wherein the transmission placing belt (8) is in transmission contact with the cleaning rod (19), the cleaning rod (19) achieves the effect of sweeping and dropping impurities, the transmission placing belt (8) is in transmission contact with the scraping plate (20) again, one end of the scraping plate (20) scrapes the impurities adhered on the transmission placing belt (8) to achieve the cleaning effect, one second conveying roller (7) rotates to drive the second connecting sleeve (12) and the fixed shaft (13) to rotate respectively, the connecting block (14) slides left and right under the drive of the fixed shaft (13), and the collecting bottom plate (9) slides on the friction plate (10) in a follow mode to generate friction to achieve the effect of increasing friction force to achieve the adsorption effect.

3. The linkage production method of the full-automatic linkage production line for the printed packages according to claim 2, wherein the motor (30) rotates to drive the collecting roller (28) to rotate through the first belt pulley (31) so as to drive the covering film (27) to rotate to cover the printed materials, the motor (30) rotates to drive the extension shaft (39) and the reciprocating screw (33) to rotate through the transmission of the second belt pulley (40), the reciprocating screw (33) rotates to drive the sleeve (34) to move left and right, the rack (35) swings back and forth to drive the gear (36) to rotate back and forth after meshing, and the guide rod (37) swings back and forth under the force so as to realize the effect of multi-angle air drying.