CN115139637A - Multi-level continuous bundle printer and continuous printing process - Google Patents

Abstract

The invention relates to a multi-level continuous bundle-forming printing machine and a continuous printing process, which relate to the technical field of printing processing of the printing machine and comprise a supporting plate, a workbench, a conveyor arranged at the upper end of the workbench, a printing machine fixed on the left side of the upper end of the workbench, and a supporting frame fixed on the supporting plate, wherein a winding platform used for fixing and positioning a film coating roller is arranged on the side wall of the printing machine; the invention can carry out integrated operation on printing, film covering and cutting of the paper bag, thereby greatly reducing the complicated steps in the independent operation and simultaneously reducing the loss of raw materials.

Description

Multi-level continuous bundle printer and continuous printing process

Technical Field

The application relates to the technical field of printing processing of a printing machine, in particular to a multi-layer continuous bundling printing machine and a continuous printing process.

Background

The printing machine is a machine for printing characters and images, and modern printing machines generally comprise mechanisms such as plate loading, inking, stamping, paper conveying (including folding) and the like, and can print on different types of materials, such as surfaces of wood boards, glass, crystals, metal plates, floor tiles, paper, stone or plastics, and paper bags are most widely used.

The surfaces of the existing hand-held paper bags are often printed with large-brand logos or various patterns, and the logos or the patterns are printed on the surfaces of the paper bags by a printer in the process of manufacturing the paper bags.

The manufacturing steps are mainly as follows: the production method comprises the steps of firstly producing a paper board which is in a rolling state through raw materials, then releasing and rolling the rolled paper board, printing characters and images on the surface of the paper board at equal intervals through a printer in the process, then cutting the printed paper board to divide the printed paper board into a plurality of small paper boards, then carrying out hot printing and film covering on the small cut paper boards, folding the small cut paper boards after the film covering is finished, and finally making a paper bag.

In current printing machine, for chinese patent with publication No. CN216359851U, disclose a polymer container bag printing machine, relate to the relevant field of printing machine, for solving present can not fix a position the installation to the raw materials, the printing position of printing machine must not be adjusted to different container bags, can not be quick after the printing is accomplished air-dry the problem of guaranteeing the printing effect. The utility model provides a polymer container bag printing machine, which comprises a fixing frame, one side fixedly connected with mounting panel of mount, one side threaded connection of mounting panel has the bolt, the surface of bolt rotates and is connected with the cylinder, one side fixedly connected with backup pad of mounting panel, the last fixed surface of backup pad installs first motor, the output fixedly connected with pivot of first motor, the opposite side fixedly connected with workstation of mount, the sliding tray has been seted up to the upper surface of workstation, the inside sliding connection of sliding tray has the movable plate, the upper surface of movable plate is seted up flutedly, the inner wall fixedly connected with telescopic link of recess.

The above-mentioned printing machine can fix a position the installation and can carry out quick air-drying to the raw materials, but it still has some problems:

1. when printing the container bag, the printing of container bag, the tectorial membrane of container bag and the cutting of container bag all are separately and independently carry out the operation, therefore can make the very loaded down with trivial details of step of operation to can lead to a large amount of materials to appear extravagant condition in multiple operating procedure.

2. When printing the cardboard, need cut the cardboard after printing and tectorial membrane, and current device can only cut by ration, can't change the size of cutting as required, therefore its suitability is relatively poor, and when carrying out the tectorial membrane to the cardboard, film on the cardboard is heated and is made the cardboard crooked to the one end of tectorial membrane after the cooling, does not take place to stereotype it for a long time and can make it take place to stereotype to it, and consequently follow-up needs carry out secondary treatment to it comparatively loaded down with trivial details.

Disclosure of Invention

In order to enable the paper bag to be capable of performing integrated operation of printing, film covering and cutting in the manufacturing process, the application provides a multi-layer continuous bundling printing machine and a continuous printing process.

In a first aspect, the application provides a multi-level continuous bundle-forming printing machine and a continuous printing process, which adopt the following technical scheme:

the utility model provides a continuous bundle of printing machine of multilevel, includes conveyer, the fixed printing machine in workstation upper end left side and the fixed support frame in backup pad, workstation, the workstation upper end setting, be provided with the coiling platform that is used for fixing and fix a position the tectorial membrane cylinder on the lateral wall of printing machine, just be located on the support frame and install the container bag directly over workstation upper end middle part and cut the platform, still include on the support frame and be located coiling platform and container bag and cut the clearance platform between the platform.

The container bag cuts platform includes fixed mounting's telescopic cylinder on the support frame, and telescopic cylinder's output slides and runs through the support frame and is provided with the hot stamping board through dismantling the module fast, and the upper end of support frame and the rear side that is located telescopic cylinder are fixed with electric putter, and electric putter's output is down and be connected with the horizontal plate that slides and set up on the support frame, and the lower extreme of horizontal plate is provided with cuts the module.

Preferably, the horizontal rack of symmetry around two of winding platform fixed mounting on including the printing machine lateral wall, it has the round hole to distribute on same water flat line on two horizontal racks, slidable mounting has the fixed column that is used for fixed tectorial membrane cylinder in the round hole, the fixed plate is installed to the front side of fixed column, be connected with the reset spring who is used for reseing between the inboard of fixed plate and the horizontal rack, and the reset spring cover is established on the fixed column, the position installation that the workstation upper end is close to the printing machine is used for carrying out the orientation module to the tectorial membrane cylinder, be provided with guide module on the workstation.

Preferably, the positioning module comprises a printing machine side wall and two connecting plates which are fixed and symmetrical front and back below the horizontal placement frame, positioning columns are jointly arranged on the opposite sides of the two connecting plates, a V-shaped rod which is used for carrying out position adjustment on the film coating roller and symmetrical front and back is connected to the positioning columns in a sliding mode, the upper end of the V-shaped rod is abutted to the side wall of the film coating roller, the lower end of the V-shaped rod is connected with an arc-shaped plate abutted to the side wall of a paper board, a positioning spring is connected between the outer side wall of the V-shaped rod and the inner side wall of the connecting plates, and the positioning spring is sleeved on the positioning columns.

Preferably, the cutting module comprises a sliding hole which is formed in the horizontal plate and corresponds to the position of a telescopic cylinder, two telescopic blocks which are symmetrical front and back are fixedly connected to the left side and the right side of the upper end of the horizontal plate, one end of each telescopic block, which is far away from the horizontal plate, is fixedly provided with a vertical rod, a matrix structure is formed between the vertical rods, two layers of sliding frames are arranged on the vertical rods and are used for adjusting the distance between the vertical rods on the left side and the right side, each layer of sliding frame comprises four rectangular blocks which are of the matrix structure, the rectangular blocks which are located at the upper end of the vertical rods slide on the vertical rods up and down, the rectangular blocks which are located at the lower ends of the vertical rods are fixedly connected with the vertical rods, four rectangular blocks in the vertical direction on the front side and the back side are hinged with a scissor fork assembly in a hinged mode, a locking threaded connection mode is used for penetrating through the rectangular blocks on one side of the upper end of the vertical rods, a cutting knife is fixed on the rectangular block on the left side of the lower ends of the vertical rods, a paperboard stopper is fixed on the rectangular block, the paperboard stopper is of a telescopic structure, and a pallet is arranged on the right side of the workbench.

Preferably, dismantle the module fast and include fixed quick detach board on the telescopic cylinder output, be provided with the joint board on the corresponding quick detach board in the upper end of hot-stamping board, be equipped with two bilateral symmetry's draw-in grooves on the quick detach board, there is the set-square through joint spring coupling in the draw-in groove, corresponds the set-square on the joint board and offers the dismantlement groove.

Preferably, the cleaning platform comprises a triangular cleaning and collecting block fixedly mounted on the workbench, the horizontal end and the inclined end of the triangular cleaning and collecting block are connected with two rotating shafts in a rotating mode through supports, a driving motor is connected to the rotating shaft of one side through a motor base, a cleaning belt is wound on the two rotating shafts, and a cleaning brush capable of being washed and reused is arranged on the surface of the cleaning belt.

Preferably, the triangle clearance is collected the piece and is hollow structure, and the triangle clearance is collected the position that the piece corresponds the clearance area and is equipped with movable groove, and movable inslot fixed mounting has the clearance spring beam, is fixed with on the clearance spring beam and strikes off the board, strikes off the board and contradicts with the cleaning brush, and the inside of triangle clearance is collected the piece 80 and is equipped with the dust catcher that can carry out the collection to the dust granule that strikes off the board clearance.

Preferably, the guide module comprises two pressing springs which are arranged at the upper end of the workbench and are symmetrical front and back, the upper ends of the two pressing springs are jointly fixed with an execution block, the opposite sides of the two execution blocks are jointly and rotatably provided with pressing columns, the left sides of the execution blocks are jointly hinged with a 21274-shaped frame, the lower end of the 21274-shaped frame is connected with the workbench through a pressing spring, 21274is connected with the left side of the lower end of the shaped frame in a rotating mode, a bidirectional threaded rod is fixedly arranged at the upper end of the workbench and is positioned at the right side of the pressing columns through a support, the side wall of the bidirectional threaded rod is connected with a synchronous motor, the synchronous motor is fixed on the side wall of the support, two front and back symmetrical special-shaped guide plates are arranged on the bidirectional threaded rod in a threaded connection mode, the lower ends of the two special-shaped guide plates abut against the workbench, a plurality of telescopic columns are sequentially and rotatably arranged at the opposite sides of the two special-shaped guide plates from left to right in a rotating mode, the outer sides of the telescopic columns comprise rubber layers, the height between the telescopic columns and the workbench is gradually reduced from left to right, guide shifting sheets are arranged at equal intervals through horizontal sliding rods at the right sides of the upper end of the workbench, and the lower ends of the guide shifting sheets are provided with guide shifting wheels.

Preferably, the pile up neatly platform is placed at the turn-over arc cooling plate on workstation right side including contradicting, be fixed with the pile up neatly support in the backup pad, it has two pile up neatly axles to rotate on the pile up neatly support, the epaxial cover of pile up neatly is equipped with the turn-over belt that is used for realizing the cardboard turn-over, the crooked part in turn-over belt middle part carries out the bearing through the auxiliary shaft, the epaxial pile up neatly motor that is connected with of pile up neatly of one side, the pile up neatly motor passes through the motor cabinet to be fixed on the pile up neatly support, the equidistant setting of turn-over belt is used for carrying out radiating coating to the cardboard, one side that the workstation was kept away from to the turn-over belt sets up the support bracket that is used for bearing the cardboard, the support bracket sets up in the backup pad.

In a second aspect, the invention also discloses a multi-level continuous bundle printing process, which comprises the following specific steps:

s1, printing a paperboard: firstly, placing a paper board which is pre-selected and manufactured in a printing machine, printing patterns at equal intervals on the paper board through the printing machine, and after the patterns on the paper board are printed, quickly shaping and air-drying, sending the paper board out from a discharge port of the printing machine;

s2, guiding and positioning: the paper board is guided by the guide module to move from left to right, and films needing to be coated on the paper board are aligned and positioned while the paper board is guided;

s3, cleaning operation: after the paper board and the film are aligned, the paper board and the film are overlapped, and the opposite sides of the paper board and the film are cleaned through a cleaning platform in the overlapping process;

s4, hot printing and cutting: after the paper board and the film are overlapped, extruding and laminating the paper board and the film, and then cutting the laminated paper board at equal intervals;

s5, paperboard collection: the cut paperboards are uniformly cooled, turned over, stacked and collected, and the situation that the paperboards are scattered to damage the operation environment is avoided.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the invention adopts an integrated device to carry out flow line operation on printing, film coating and cutting in the paper bag manufacturing process, reduces raw material waste caused by independently carrying out each operation in the manufacturing process of the paper bag, and further improves the processing efficiency.

2. According to the invention, the position of the cutting knife can be adjusted through the cutting module, so that the equipment can cut paper boards with different lengths at equal intervals, and the applicability of the equipment is greatly improved.

3. According to the invention, the paperboard coated with the film after being heated can be effectively cooled through the stacking platform, meanwhile, the paperboard is turned over by one hundred eighty degrees through the matching of the turnover arc-shaped cooling plate and the turnover belt, and the paperboard coated with the film is ensured to be stacked with one side facing downwards, so that the paperboard is prevented from being bent.

4. The invention can clean the film and the paperboard through the cleaning platform, ensure the cleanness of the mutual contact surfaces of the film and the paperboard and avoid the pollution of printed patterns.

Drawings

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

Fig. 2 is a partial structural schematic view of the winding platform.

Fig. 3 is a first view structure diagram of the guiding module.

Fig. 4 is a second perspective structure diagram of the guiding module.

Fig. 5 is a partial structure schematic diagram of a paper bag cutting platform.

Fig. 6 is an exploded view of the quick release module.

Fig. 7 is a partial schematic view of the pallet platform.

FIG. 8 is a schematic diagram of a main structure of the cleaning platform.

Fig. 9 is an exploded view of the cleaning platform.

Fig. 10 is a flow chart of a multi-level continuous printing process.

Description of reference numerals: 1. a support plate; 2. a work table; 3. a conveyor; 4. a printing press; 5. a support frame; 6. a winding platform; 7. a paper bag cutting platform; 8. cleaning the platform; 70. a telescopic cylinder; 71. hot-stamping a plate; 72. rapidly disassembling the module; 73. an electric push rod; 74. a horizontal plate; 75. a cutting module; 60. horizontally placing a rack; 61. fixing a column; 62. a fixing plate; 63. a return spring; 64. a positioning module; 65. a guide module; 66. a film coating roller; 641. a connecting plate; 642. a positioning column; 643. a V-shaped rod; 644. an arc-shaped plate; 645. a positioning spring; 750. a telescopic block; 751. a vertical rod; 752. a returning block; 753. a scissor assembly; 754. locking the threaded rod; 755. cutting a knife; 756. a cardboard stop; 76. a stacking platform; 720. a quick release plate; 721. a clamping and connecting plate; 722. clamping a spring; 723. a set square; 724. disassembling the spring; 725. disassembling the plate; 80. cleaning a collection block by using a triangle; 81. a rotating shaft; 82. a drive motor; 83. cleaning the belt; 84. cleaning a brush; 800. cleaning the spring rod; 801. scraping the plate; 802. a vacuum cleaner; 650. a pressing spring; 651. an execution block; 652. pressing the column; 653. a bidirectional threaded rod; 654. a special-shaped guide plate; 655. a telescopic column; 656. a horizontal sliding bar; 657. a guide shifting piece; 658. a guide rubber wheel; 659. a synchronous motor; 660. \ 21274; 661. pressing down the spring; 662. a lower pressing roller; 760. turning over the arc-shaped cooling plate; 761. a stacking support; 762. a stacking shaft; 763. turning over the belt; 764. a palletizing motor; 765. a support bracket; 766. an auxiliary shaft.

Detailed Description

The present application is described in further detail below with reference to figures 1-10.

The embodiment of the application discloses multilayer level becomes bundle printing machine and continuous printing technology in succession, the embodiment of the application can realize carrying out the tectorial membrane to the cardboard after the printing of printing machine is accomplished and cut the integration operation, can reach the efficiency of effectual improvement operation, reduce the tectorial membrane operation again and cut the step that the operation caused when separately and repeat, then make repeat the operation cause the waste of raw and other materials, simultaneously this embodiment of the application can be at the in-process that cuts the length that adjusts the cutting, cut as required to carry out the fixed length, then improve the suitability of product.

The first embodiment is as follows:

referring to fig. 1, which is a schematic view of the complete structure of the present embodiment, a multi-level continuous bundle-forming printing machine includes a supporting plate 1, a workbench 2, a conveyor 3 disposed at the upper end of the workbench 2, a printing machine 4 fixed at the left side of the upper end of the workbench 2, and a supporting frame 5 fixed on the supporting plate 1; the conveyor 3 is arranged on the working table 2 through a groove formed in the upper end of the working table 2, the conveyor 3 is a known device for conveying products, and the conveyor 3 is mainly used for driving the paper boards to move from left to right in the embodiment.

It should be noted that the printing machine 4 is a known apparatus, and is mainly used for printing on a paper board or other materials, after the printing machine 4 performs printing on the paper board at equal intervals, some patterns appear on the surface of the paper board, in order to prevent the patterns from being worn during use, and in order to improve the color vividness of the patterns, a transparent film is often required to be coated on the surface of the patterns.

A winding platform 6 for fixing and positioning the film covering roller 66 is arranged on the side wall of the printing machine 4, and the winding platform 6 is a platform for fixing the film covering roller 66; install container bag cutting platform 7 on support frame 5 and directly over being located 2 upper ends middle parts of workstation, container bag cutting platform 7 is used for carrying out equidistant cutting to the cardboard after the tectorial membrane is accomplished, makes its cardboard of cutting apart into a plurality of fritters from a monoblock cardboard to be used for subsequent folding, make it become the container bag.

Still include on the support frame 5 and be located winding platform 6 and container bag and cut clearance platform 8 between the platform 7, clearance platform 8 is the cardboard and the film of treating the tectorial membrane and carries out the platform of clearing up, avoids cardboard and film when the tectorial membrane, appears a large amount of dusts and influence the integrity and the aesthetic property of pattern between the two.

As shown in fig. 1 and fig. 2, when the film covering roller 66 is taken and placed, the bolts and nuts are usually required to be unloaded, in order to ensure that the film covering roller 66 with the film can be taken and placed quickly; based on this, the embodiment provides the winding platform 6, which includes two front and back symmetrical horizontal placing racks 60 fixedly installed on the side wall of the printer 4, and circular holes are distributed on the two horizontal placing racks 60 on the same horizontal line; the film covering roller 66 can be placed by the horizontal placing rack 60, the stability of the film covering roller 66 is guaranteed, the middle of the film covering roller 66 is of a hollow structure, and the film covering roller 66 can be sleeved on the fixing column 61.

A fixing column 61 for fixing the film covering roller 66 is arranged in the round hole in a sliding mode, a fixing plate 62 is arranged on the front side of the fixing column 61, a return spring 63 for resetting is connected between the inner side of the fixing plate 62 and the horizontal placing frame 60, and the return spring 63 is sleeved on the fixing column 61; in an initial state, the fixing column 61 is always inserted into the circular holes of the two horizontal placement racks 60 through the right elastic force of the return spring 63, when the film covering roller 66 with a thin film needs to be placed, firstly, an operator pulls the fixing plate 62 and the fixing column 61, so that the fixing column 61 is separated from the circular hole of the horizontal placement rack 60 on the rear side of the printing machine 4, enough space is reserved for installing the film covering roller 66, then, the film covering roller 66 is sleeved on the fixing column 61, the fixing column 61 is re-inserted into the circular hole in the horizontal placement rack 60 on the rear side of the printing machine 4, and the film covering roller 66 is fixed between the two horizontal placement racks 60 at the moment.

The upper end of the workbench 2 is provided with a positioning module 64 used for positioning the film coating roller 66 at a position close to the printing machine 4, the positioning module 64 is used for positioning the film coating roller 66 which can move back and forth on the fixed column 61, so that the two ends of the film and the paperboard can be aligned, the workbench 2 is provided with a guide module 65, and the guide module 65 can guide the film and the paperboard and can move from left to right along the surface of the workbench 2.

After the film laminating roller 66 is placed on the fixing column 61, the film on the film laminating roller 66 is not aligned with the paperboard from the discharge port of the printing machine 4, and the positioning module 64 can position and align the film laminating roller; specifically, the positioning module 64 includes two front-back symmetrical connecting plates 641 fixed on the side wall of the printing machine 4 and located below the horizontal placement frame 60, positioning columns 642 are jointly arranged on the opposite sides of the two connecting plates 641, two front-back symmetrical V-shaped rods 643 used for adjusting the position of the laminating roller 66 are slidably connected onto the positioning columns 642, the upper ends of the V-shaped rods 643 are in contact with the side wall of the laminating roller 66, and the lower ends of the V-shaped rods 643 are connected with arc-shaped plates 644 in contact with the side wall of the paper board; the curved plate 644 has an outwardly expanding curved structure near the discharge opening of the printing press 4, and is mainly characterized in that the positioning and guiding of the paper boards are facilitated.

A positioning spring 645 is connected between the outer side wall of the V-shaped rod 643 and the inner side wall of the connecting plate 641, the positioning spring 645 is sleeved on the positioning column 642, and the positioning spring 645 is used for exerting an inward force on the V-shaped rod 643, so that the two V-shaped rods 643 limit the laminating roller 66 inwards, and the rotation of the laminating roller 66 is not influenced.

Specifically, in the process of installing the laminating roller 66, the arc-shaped plates 644 fixed to the lower ends of the V-shaped rods 643 abut against the front and rear side walls of the paper board, at this time, the distance between the two symmetrical V-shaped rods 643 is the position where the laminating roller 66 needs to be placed, in the process of placing the laminating roller 66 on the fixing column 61, the upper ends of the two V-shaped rods 643 abut against the front and rear sides of the laminating roller 66, at this time, the two V-shaped rods 643 clamp the laminating roller 66 and the paper board through the elastic force of the positioning spring 645, the stability between the two V-shaped rods 643 is ensured, and then the alignment of the film on the laminating roller 66 and the paper board is ensured.

Referring to fig. 3 and 4, in order to achieve the overlapping of the film and the paperboard; specifically, the guide module 65 comprises two pressing springs 650 which are arranged at the upper end of the workbench 2 and are symmetrical front and back, an execution block 651 is jointly fixed at the upper ends of the two pressing springs 650, pressing columns 652 are jointly and rotatably arranged on the opposite sides of the two execution blocks 651, and the left sides of the execution blocks 651 are jointly hinged with a rectangular frame 660 and a rectangular frame 21274, the lower end of the rectangular frame 660 is connected with the workbench 2 through a lower pressing spring 661, the rectangular frame 21274is connected with a lower pressing roller 662 in a rotating mode at the left side of the lower end of the rectangular frame 660; after the film laminating roller 66 is aligned with the paperboard, the film on the film laminating roller 66 is pulled to pass through the pressing column 652, the film is adsorbed on the surface of the paperboard through the pressing column 652, then the paperboard is driven to move from left to right through the known conveyor 3 on the workbench 2 until the film is adsorbed on the upper end of the paperboard, and the v-shaped frame 660 and the lower pressing roller 662 press down the film, so that the movable area in the middle of the v-shaped frame 660 can be cleaned through the cleaning platform 8, the film can be enabled to abut against the cleaning platform 8, and the neatness of the film is improved.

A bidirectional threaded rod 653 is fixedly arranged at the upper end of the workbench 2 and positioned on the right side of the pressing column 652 through a bracket, the side wall of the bidirectional threaded rod 653 is connected with a synchronous motor 659, the synchronous motor 659 is fixed on the side wall of the bracket, two front-back symmetrical special-shaped guide plates 654 are arranged on the bidirectional threaded rod 653 in a threaded connection mode, the lower ends of the two special-shaped guide plates 654 are abutted against the workbench 2, and a plurality of telescopic columns 655 are sequentially arranged on the opposite sides of the two special-shaped guide plates 654 from left to right in a rotating mode; after the film is adsorbed at the upper end of the paperboard, the paperboard acts on the paperboard and the film through the telescopic column 655 and the rubber layer arranged on the surface of the telescopic column in the process of moving rightwards, so that the paperboard and the film are firstly pressed, the bidirectional threaded rod 653 is used for driving the two special-shaped guide plates 654 to synchronously and relatively move, the special-shaped guide plates 654 are ensured to guide the paperboard, and the position of the paperboard in the moving process is prevented from deviating.

The outer side of the telescopic column 655 comprises a rubber layer, and the height between the telescopic column 655 and the workbench 2 is gradually reduced from left to right; the effect on rubber layer is to contact the film to play the guard action to the film, avoid it to take place to break, highly reduce gradually between flexible post 655 and the workstation 2 is in order to guarantee can combining step by step between film and the cardboard, and the power of exerting different through the simulation makes film and cardboard can be stained with each other and closes, and it is fixed to be convenient for follow-up carry out the secondary hot stamping to it.

Specifically, the synchronous motor 659 is started at first, the synchronous motor 659 drives the two special-shaped guide plates 654 to move relatively at the same time until the special-shaped guide plates 654 abut against the middle paperboard, but the movement of the paperboard is not affected, and then the paperboard and the film on the upper end of the paperboard are extruded by the telescopic columns 655 in the moving process, so that the film and the paperboard are fixed for the first time, and the separation of the film and the paperboard in the conveying process is avoided.

Referring to fig. 5, in order to realize the equidistant cutting of the paperboard, the present embodiment proposes a paper bag cutting platform 7; specifically, container bag cuts platform 7 includes fixed mounting's telescopic cylinder 70 on the support frame 5, and telescopic cylinder 70's output slides and runs through support frame 5 and is provided with hot seal board 71 through quick dismantlement module 72, and hot seal board 71's effect is extrudeed cardboard and film through certain temperature for the film can be more stable adsorb on the surface of cardboard, avoids the film to break away from the cardboard.

The upper end of support frame 5 just is located telescopic cylinder 70's rear side and is fixed with electric putter 73, and electric putter 73's output is down and be connected with the horizontal plate 74 that slides and set up on support frame 5, and the lower extreme of horizontal plate 74 is provided with cutting module 75.

Specifically, at first start telescopic cylinder 70, telescopic cylinder 70's output stretches out downwards, and telescopic cylinder 70's output drives hot stamping plate 71 and supports downwards and lean on the upper end at cardboard and film afterwards, and hot stamping plate 71 carries out the hot stamping to cardboard and film this moment and handles this moment, and after fixing between the two, electric putter 73 starts, and electric putter 73 drives and cuts module 75 downstream to cut the cardboard through cutting module 75.

Referring to fig. 6, the quick disassembling module 72 includes a quick disassembling plate 720 fixed on the output end of the telescopic cylinder 70, a clamping plate 721 is arranged on the quick disassembling plate 720 corresponding to the upper end of the hot stamping plate 71, two clamping slots are arranged on the quick disassembling plate 720 and are symmetrical left and right, a triangular plate 723 is connected in each clamping slot through a clamping spring 722, and a disassembling slot is arranged on the clamping plate 721 corresponding to the triangular plate 723; when the hot stamping plate 71 needs to be replaced by a new hot stamping plate 71, the clamping groove in the hot stamping plate 71 is separated from the quick disassembling plate 720, so that the hot stamping plate 71 can be quickly replaced, and when the hot stamping plate 71 needs to be replaced by a new hot stamping plate 71, the clamping groove in the hot stamping plate 71 is contacted with the quick disassembling plate 720 and is fixedly connected through friction force.

Specifically, the set square 723 is pressed to retract the set square 723 to the clamping groove in the quick release plate 720, at this time, the set square 723 is separated from the dismounting groove in the clamping plate 721, the hot stamping plate 71 can be taken out, and when a new hot stamping plate 71 is replaced, the quick release plate 720 is aligned to the clamping plate 721, so that the set square is reinserted into the dismounting groove in the clamping plate 721.

Referring back to fig. 5, the cutting module 75 includes two layers of sliding frames formed on the vertical bars 751 for adjusting the distance between the vertical bars 751 at the left and right sides, each layer of sliding frame including four rectangular-shaped blocks 752 in a matrix configuration; the four loop blocks 752 at the upper end of the vertical bar 751 are slidable up and down, and the four loop blocks 7 at the lower end of the vertical bar 751 are fixed to the vertical bar 751.

The return block 752 at the upper end of the vertical rod 751 slides up and down on the vertical rod 751, the return block 752 at the lower end of the vertical rod 751 is fixedly connected with the vertical rod 751, the four return blocks 752 at the front and rear sides in the vertical direction are hinged with the scissors assembly 753, and the return block 752 at one side of the upper end of the vertical rod 751 is penetrated with the locking threaded rod 754 in a threaded connection manner; when the cutting knife 755 needs to adjust the position, firstly, an operator slides the clip block 752 at the upper end of the vertical rod 751, the clip block 752 moves upwards, and the cutting length is gradually reduced; the return block 752 moves downwards, and the cutting length is gradually increased; after the position of the cutting knife 755 is adjusted as required, the locking screw rod 754 is rotated to apply pressure to the outer side wall of the vertical bar 751 through the locking screw rod 754, so that the return block 752 is fixed in position.

A cutting knife 755 is fixed on the clockwork 752 positioned at the left side of the lower end of the vertical rod 751, a paper board stopper 756 is fixed on the clockwork 752 positioned at the right side of the lower end of the vertical rod 751, and the paper board stopper 756 is of a telescopic structure; in an initial state, the cutting knife 755 is located above the paper board and has a certain distance, but the paper board stopper 756 is just abutted against the floor through a telescopic structure of the paper board stopper 756, at this time, the paper board stopper 756 can form a barrier to limit the moved paper board, when the paper board is firstly abutted against the left side wall of the paper board stopper 756 in the moving process, then the hot printing plate 71 moves downwards and carries out hot printing treatment on the limited paper board, then the electric push rod 73 drives the cutting knife 755 to move downwards, the paper board stopper 756 is always abutted against the workbench 2 in the downward moving process, and the paper board stopper 756 begins to shrink through the telescopic property of the paper board stopper, after the paper board is cut by the cutting knife 755, the electric push rod 73 drives the cutting knife 755 to move upwards until the paper board stopper 756 is synchronously lifted up to be in a suspended state, and the conveyor 3 drives the cut paper board to convey rightwards.

As shown in fig. 7, the paperboard and the film are gradually heated under the pressing of the hot printing plate 71, when the paperboard and the film are fixed together, the film on the paperboard is bent after being heated and cooled, and at the moment, the paperboard is synchronously bent towards the surface covered with the film, at the moment, the paperboard is cooled by the stacking platform 76, and is shaped while being cooled, specifically, the stacking platform 76 includes a turning arc-shaped cooling plate 760 which is placed on the right side of the workbench 2 in an abutting manner; the function of the turned-over curved cooling plate 760 is to cool the heated board and film.

Be fixed with pile up neatly support 761 in backup pad 1, it has two pile up neatly axles 762 to rotate on the pile up neatly support 761, the cover is equipped with turn-over belt 763 that is used for realizing the cardboard turn-over on the pile up neatly axle 762, the crooked part in turn-over belt 763 middle part is supported through auxiliary shaft 766, be connected with pile up neatly motor 764 on the pile up neatly axle 762 of one side, pile up neatly motor 764 is fixed on pile up neatly support 761 through the motor cabinet, equidistant setting is used for carrying out radiating coating to the cardboard on turn-over belt 763, one side that workstation 2 was kept away from to turn-over belt 763 sets up the support bracket 765 that is used for bearing the cardboard, support bracket 765 sets up in backup pad 1.

Specifically, after the paperboard and the film are fixed together, the paperboard is continuously conveyed rightwards through the conveyor 3, then the laminated paperboard enters a gap between the turning-over belt 763 and the turning-over arc-shaped cooling plate 760, at the moment, the turning-over belt 763 is driven to rotate through the palletizing motor 764, the laminated paperboard moves rightwards along the turning-over arc-shaped cooling plate 760 in the rotating process of the laminated paperboard, meanwhile, the coated paperboard is cooled through the coating on the turning-over belt 763 in cooperation with the turning-over arc-shaped cooling plate 760, meanwhile, the laminated paperboard is in a flat state through extrusion between the two, then the laminated paperboard flies to the upper end of the bearing bracket 765 through the inertia of the movement of the turning-over belt 763, at the moment, the laminated surface of the paperboard faces downwards and is placed on the bearing bracket 765, and a large number of laminated paperboards are accumulated on the bearing bracket 765 along with the cutting, and are collected uniformly.

In the second embodiment, on the basis of the first embodiment, in order to further ensure that the effect of laminating the paperboard is improved, the cleaning platform 8 is provided in the present embodiment, the neatness of the paperboard and the film is ensured by cleaning the opposite sides of the film and the paperboard, and poor fixation between the film and the paperboard due to bubbles generated by impurities and the like is avoided.

Referring to fig. 8 and 9, the cleaning platform 8 includes a triangular cleaning collector block 80 fixedly mounted on the table 2, and when the laminating roller 66 is placed, the film slides from the upper inclined surface of the triangular cleaning collector block 80, and the paper sheet slides from the horizontal end of the bottom of the triangular cleaning collector block 80.

The horizontal end and the inclined end of the triangular cleaning collection block 80 are both rotatably connected with two rotating shafts 81 through a support, the rotating shaft 81 at one side is connected with a driving motor 82 through a motor base, cleaning belts 83 are wound on the two rotating shafts 81, and cleaning brushes 84 which can be washed by water and reused are arranged on the surfaces of the cleaning belts 83; after film and cardboard all supported on the clearance area 83 on triangle clearance collection piece 80, driving motor 82 starts, and driving motor 82 drives clearance area 83 and rotates, and clearance area 83 clears up the dust on cardboard and the film through the clearance brush 84 on its surface at the pivoted in-process to the realization is cleared up cardboard and film, guarantees the clean and tidy nature that cardboard and film are close to one side each other.

Specifically, the film is pressed downwards through the v-shaped frame 660 on the guide module 65 and the lower pressing roller 662, so that when the film passes through the inclined end of the triangular cleaning collection block 80, the film can be tightly abutted against the triangular cleaning collection block 80, the cleaning efficiency of the inner side of the subsequent film is improved, the film can be cleaned by the cleaning brush 84, and the film cannot be damaged due to pulling caused by viscosity.

Referring to fig. 8 and 9, the triangular cleaning and collecting block 80 is a hollow structure, a movable groove is formed in the position, corresponding to the cleaning belt 83, of the triangular cleaning and collecting block 80, a cleaning spring rod 800 is fixedly installed in the movable groove, a scraping plate 801 is fixed on the cleaning spring rod 800, the scraping plate 801 abuts against the cleaning brush 84, and a dust collector 802 capable of collecting dust particles cleaned by the scraping plate 801 is arranged inside the triangular cleaning and collecting block 80; after the dust is cleaned by the cleaning brush 84 on the cleaning belt 83, the cleaning belt 83 continues to rotate, but the part of the cleaning belt 83 for cleaning the dust rotates into the movable groove of the triangular cleaning collection block 80, the scraping plate 801 in the movable groove scrapes the dust on the surface of the cleaning belt 83 at the moment, some relatively large-particle dust and some dust which easily fall are produced, and then the dust is sucked away and uniformly collected by the dust collector 802, and after the cleaning brush 84 adsorbs more dust and loses the adhesiveness thereof, the cleaning brush 84 can be detached for water washing and then reused, and the cleaning brush 84 can be replaced by a new cleaning brush 84.

Referring to fig. 10, in addition, the embodiment also discloses a multi-level continuous bundle printing process, which includes the following specific steps:

s1, printing a paperboard: at first place the cardboard that preselection preparation was accomplished in printing machine 4, carry out equidistant pattern printing to the cardboard through printing machine 4, treat that the pattern on the cardboard is printed and after the air-dry of quick design, the cardboard is seen off from printing machine 4's discharge gate.

S2, guiding and positioning: firstly, an operator pulls the fixing plate 62 and the fixing column 61 to enable the film covering roller 66 to be sleeved on the fixing column 61, and inserts the fixing column 61 into a circular hole in the horizontal placing rack 60 at the rear side of the printing machine 4, at the moment, the film covering roller 66 is fixed between the two horizontal placing racks 60, the two ends of the film covering roller 66 are clamped through the V-shaped rod 643 to achieve positioning of the film covering roller 66, then, a film on the film covering roller 66 is enabled to be aligned with a paperboard, the synchronous motor 659 drives the two special-shaped guide plates 654 to move relatively at the same time until the special-shaped guide plates 654 collide with the paperboard, and then, the paperboard extrudes the paperboard and the film at the upper end of the paperboard through the telescopic columns 655 in the moving process, so that the film is firstly contacted with the paperboard and fixed.

S3, cleaning operation: after the paper board and the film are aligned, the paper board and the film are overlapped, the driving motor 82 is started in the overlapping process, the driving motor 82 drives the cleaning belt 83 to rotate, and the cleaning belt 83 cleans dust on the paper board and the film through the cleaning brush 84 on the surface of the cleaning belt 83 in the rotating process, so that the paper board and the film are cleaned.

S4, hot stamping and cutting: after cardboard and membrane overlap, at first start telescopic cylinder 70, telescopic cylinder 70's output stretches out downwards, and telescopic cylinder 70's output drives hot stamp plate 71 and supports downwards and lean on the upper end at cardboard and film afterwards, and hot stamp plate 71 carries out the hot stamp processing to cardboard and film this moment, and after fixing between the two, electric putter 73 starts, and electric putter 73 drives and cuts module 75 downstream to cut the cardboard through cutting module 75.

S5, collecting paper boards: after the paperboard is cut, the paperboard enters a gap between the turnover belt 763 and the turnover arc-shaped cooling plate 760, the turnover belt 763 is driven to rotate through the palletizing motor 764, the paperboard after film coating moves rightwards along the turnover arc-shaped cooling plate 760 in the rotating process, meanwhile, the coated paperboard is cooled through the coating on the turnover belt 763 in cooperation with the turnover arc-shaped cooling plate 760, the paperboard is in a flat state through extrusion between the paperboard and the turnover arc-shaped cooling plate, then the coated paperboard flies to the upper end of the bearing bracket 765 through the inertia of the movement of the turnover belt 763, at the moment, the coated paperboard faces downwards and is placed on the bearing bracket 765, and a large number of coated paperboards are accumulated on the bearing bracket 765 along with the cutting and are collected uniformly.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims (10)

1. The utility model provides a multilayer level becomes bundle printing machine (4) in succession, includes conveyer (3), workstation (2) upper end setting, workstation (2) upper end left side fixed printing machine (4) and backup pad (1) go up fixed support frame (5), its characterized in that: the film laminating machine is characterized in that a winding platform (6) used for fixing and positioning the film laminating roller (66) is arranged on the side wall of the printing machine (4), a paper bag cutting platform (7) is installed on the support frame (5) and is positioned right above the middle part of the upper end of the workbench (2), and the film laminating machine also comprises a cleaning platform (8) which is arranged on the support frame (5) and is positioned between the winding platform (6) and the paper bag cutting platform (7);

the paper bag cutting platform (7) comprises a support frame (5) and is fixedly mounted with a telescopic cylinder (70), the output end of the telescopic cylinder (70) slides to penetrate through the support frame (5) and is provided with a hot stamping plate (71) through a quick disassembling module (72), the upper end of the support frame (5) and the rear side of the telescopic cylinder (70) are fixed with an electric push rod (73), the output end of the electric push rod (73) faces downwards and is connected with a horizontal plate (74) which is arranged on the support frame (5) in a sliding mode, and the lower end of the horizontal plate (74) is provided with a cutting module (75).

2. A multi-level continuous bale press (4) as claimed in claim 1, wherein: coiling platform (6) including horizontal rack (60) of two front and back symmetries of fixed mounting on printing machine (4) lateral wall, it has the round hole to distribute on same water flat line on two horizontal rack (60), slidable mounting has fixed column (61) that are used for fixed tectorial membrane cylinder (66) in the round hole, fixed plate (62) are installed to the front side of fixed column (61), be connected with reset spring (63) that are used for reseing between the inboard of fixed plate (62) and horizontal rack (60), and reset spring (63) cover is established on fixed column (61), workstation (2) upper end is close to the position installation of printing machine (4) and is used for carrying out positioning module (64) to tectorial membrane cylinder (66), be provided with guide module (65) on workstation (2).

3. A multi-level continuous bale press (4) as claimed in claim 2, wherein: the positioning module (64) comprises a side wall of the printing machine (4) and two connecting plates (641) which are symmetrical front and back and are fixed below the horizontal placement frame (60), positioning columns (642) are jointly arranged on opposite sides of the two connecting plates (641), two V-shaped rods (643) which are symmetrical front and back and are used for adjusting the position of the film covering roller (66) are connected onto the positioning columns (642) in a sliding mode, the upper ends of the V-shaped rods (643) are abutted to the side wall of the film covering roller (66), an arc-shaped plate (644) abutted to the side wall of a paperboard is connected to the lower ends of the V-shaped rods (643), a positioning spring (645) is connected between the outer side wall of each V-shaped rod (643) and the inner side wall of the connecting plate (641), and the positioning spring (645) is sleeved on the positioning columns (642).

4. A multi-level continuous bale press (4) as claimed in claim 1, wherein: the utility model discloses a cutting module (75) includes the slip hole that the position of corresponding telescopic cylinder (70) was seted up on horizontal plate (74), the equal fixedly connected with two telescopic block (750) of symmetry around the left and right sides of horizontal plate (74) upper end, telescopic block (750) keep away from the equal fixed mounting vertical rod (751) of one end of horizontal plate (74), be the matrix structure between vertical rod (751), set up two-layer sliding frame on vertical rod (751) and be used for adjusting the distance between left and right sides vertical rod (751), every layer of sliding frame includes four time shape piece (752) that are the matrix structure, it slides on vertical rod (751) from top to bottom to be located time shape piece (752) of vertical rod (751) upper end, be located time shape piece (752) of vertical rod (751) lower extreme and vertical rod (751) fixed connection, be located through articulated mode on four time shape piece (752) on the vertical direction of front and back both sides and back shape piece (753) and articulate each other with scissors subassembly (753), it runs through the mode of locking threaded connection to be located vertical rod (752) on the time shape piece (752) one side to be located the vertical rod (752) of the vertical rod (751), the left side to be located the fixed knife (756) of the vertical rod (756) and to be located the limit platform (756) and to be equipped with the limit piece (756) and to be located the limit piece (756) and to be equipped with the limit structure (756) and to be located the telescopic block (756) on the vertical rod (751).

5. A multi-level continuous bale press (4) as claimed in claim 1, wherein: quick detach module (72) are provided with joint board (721) including fixed quick detach board (720) on telescopic cylinder (70) output, on the upper end of hot seal board (71) corresponds quick detach board (720), are equipped with two bilateral symmetry's draw-in grooves on quick detach board (720), are connected with set-square (723) through joint spring (722) in the draw-in groove, correspond set-square (723) on joint board (721) and set up the dismantlement groove.

6. A multi-level continuous bale press (4) as claimed in claim 1, wherein: the cleaning platform (8) comprises a workbench (2) fixedly mounted triangle cleaning and collecting block (80), the horizontal end and the inclined end of the triangle cleaning and collecting block (80) are connected with two rotating shafts (81) in a rotating mode through supports, a driving motor (82) is connected to the rotating shaft (81) on one side through a motor base, a cleaning belt (83) is wound on the two rotating shafts (81), and the surface of the cleaning belt (83) is provided with a cleaning brush (84) which can be washed by water and reused.

7. A multi-level continuous bale press (4) as claimed in claim 6, wherein: the triangle clearance is collected piece (80) and is hollow structure, and the position that triangle clearance was collected piece (80) and was corresponded clearance area (83) is equipped with movable groove, and movable inslot fixed mounting has clearance spring beam (800), is fixed with on clearance spring beam (800) and scrapes board (801), scrapes board (801) and cleaning brush (84) inconsistent, and the inside of triangle clearance collection piece (80) is equipped with dust catcher (802) that can carry out the collection to the dust granule that scrapes board (801) clearance and get off.

8. A multi-level continuous bale press (4) as claimed in claim 2, wherein: the guide module (65) comprises two pressing springs (650) which are arranged at the upper end of the workbench (2) and are symmetrical front and back, an execution block (651) is jointly fixed at the upper ends of the two pressing springs (650), pressing columns (652) are jointly and rotatably arranged on the opposite sides of the two execution blocks (651), the left sides of the execution blocks (651) are jointly hinged to a v-21274bracket (660) and a v-21274, the lower ends of the v-21274s are connected with the workbench (2) through lower pressing springs (661), the left side of the lower ends of the v-21274is rotatably connected with a lower pressing roller (662), a bidirectional threaded rod (653) is fixedly arranged at the upper end of the workbench (2) and positioned at the right side of the pressing columns (652) through a bracket, and the side wall of the bidirectional threaded rod (653) is connected with a synchronous motor (659), the synchronous motor (659) is fixed on the side wall of the bracket, the bidirectional threaded rod (653) is provided with two front and back symmetrical special-shaped guide plates (654) in a threaded connection mode, the lower ends of the two special-shaped guide plates (654) are butted on the worktable (2), the opposite sides of the two special-shaped guide plates (654) are sequentially and rotatably provided with a plurality of telescopic columns (655) from left to right, the outer sides of the telescopic columns (655) comprise rubber layers, the heights of the telescopic columns (655) and the worktable (2) are gradually reduced from left to right, the right side of the upper end of the worktable (2) is provided with guide shifting pieces (657) at equal intervals through horizontal sliding rods (656), the lower end of the guide shifting sheet (657) is provided with a guide rubber wheel (658) in a rotating way.

9. A multi-level continuous bale press (4) as claimed in claim 4, wherein: pile up neatly platform (76) are including contradicting and placing turn-over arc cooling plate (760) on workstation (2) right side, be fixed with pile up neatly support (761) on backup pad (1), it has two pile up neatly axle (762) to rotate on pile up neatly support (761), the cover is equipped with turn-over belt (763) that is used for realizing the cardboard turn-over on the pile up neatly axle (762), the crooked part in turn-over belt (763) middle part is passed through auxiliary shaft (766) and is carried out the bearing, be connected with pile up neatly motor (764) on pile up neatly axle (762) of one side, pile up neatly motor (764) is fixed on pile up neatly support (761) through the motor cabinet, equidistant setting is used for carrying out radiating coating to the cardboard on turn-over belt (763), one side that workstation (2) were kept away from in turn-over belt (763) sets up support bracket (765) that is used for bearing the cardboard, support bracket (765) sets up on backup pad (1).

10. A multi-level continuous bale printing process comprising a multi-level continuous bale press (4) as claimed in any one of claims 1-9, characterized in that: the printing process comprises the following steps:

s1, printing a paperboard: firstly, placing a paper board which is pre-selected and manufactured into a printing machine (4), printing patterns at equal intervals on the paper board through the printing machine (4), and after the patterns on the paper board are printed, quickly shaped and dried, sending the paper board out from a discharge hole of the printing machine (4);

s2, guiding and positioning: the paper board is guided by a guide module (65) to move from left to right, and films needing to be coated on the paper board are aligned and positioned while the paper board is guided;

s3, cleaning operation: after the cardboard and the film are aligned, the cardboard and the film start to be overlapped, and opposite sides of the cardboard and the film are cleaned by a cleaning platform (8) in the overlapping process;

s4, hot printing and cutting: after the paper board and the film are overlapped, extruding and laminating the paper board and the film, and then cutting the laminated paper board at equal intervals;

s5, collecting paper boards: the cut paperboards are uniformly cooled, turned over, stacked and collected, and the situation that the paperboards are scattered to damage the operation environment is avoided.

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