CN214190342U - Bundling color printing film packaging machine - Google Patents

Abstract

The utility model relates to a various seal membrane packagine machine tied in a bundle, its innovation point lies in: comprises a frame mechanism, a discharging and feeding mechanism, a rotary station mechanism, a film feeding mechanism, a heating and necking mechanism and a discharging mechanism; the film feeding mechanism, the rotary station mechanism and the film feeding mechanism are arranged on the rack mechanism, the rotary station mechanism is located between the film feeding mechanism and the film feeding mechanism, the heating closing-up mechanism is arranged on the film feeding mechanism and close to the rotary station mechanism, and the discharging mechanism is arranged on the rack mechanism and located on one side of the rotary station mechanism. The utility model discloses not only can be automatic, quick packing tied in a bundle, use manpower sparingly moreover and improve packing efficiency.

Description

Bundling color printing film packaging machine

Technical Field

The utility model relates to a packagine machine, concretely relates to packagine machine that can be used to color printing membrane packing tied in a bundle.

Background

The existing packaging method for bundling the roll-shaped materials (such as adhesive tapes) is to package a plurality of single packaged materials into a bundle, generally 10, the bundling packaging method for the roll-shaped materials in the traditional technology is manual packaging, in order to overcome the packaging mode with low production efficiency, a vertical packaging machine is adopted in the prior art for rapid bundling packaging, but the packaging machine with the structure is only suitable for packaging transparent packaging films for the materials, and cannot meet the requirement for upgrading the color printing film packaging of products, namely, because the existing equipment uses the color printing films for packaging, color printing on the color printing films can be folded and unsmooth, the packaging appearance has sealing knife marks, and the phenomenon of cracking and the attractiveness are easily caused in the product transportation process.

SUMMERY OF THE UTILITY MODEL

The utility model aims at: the utility model provides a not only can be automatic, the packing tied in a bundle fast, can be suitable for transparent film or color printing membrane packing moreover, and the packing outward appearance can not have the seal sword mark and can not take place the fold again and improve packing efficiency's color printing membrane packagine machine tied in a bundle.

In order to achieve the above purpose, the technical scheme of the utility model is that: the utility model provides a color printing film packagine machine tied in a bundle which innovation point lies in: comprises a frame mechanism, a discharging and feeding mechanism, a rotary station mechanism, a film feeding mechanism, a heating and necking mechanism and a discharging mechanism;

the film feeding mechanism, the rotary station mechanism and the film feeding mechanism are arranged on the rack mechanism, the rotary station mechanism is located between the film feeding mechanism and the film feeding mechanism, the heating closing-up mechanism is arranged on the film feeding mechanism and close to the rotary station mechanism, and the discharging mechanism is arranged on the rack mechanism and located on one side of the rotary station mechanism.

In the technical scheme, the discharging and feeding mechanism comprises a material pushing cylinder, a feeding barrel, a material blocking cylinder mounting plate, an upper material blocking plate and a side material blocking plate, wherein the material pushing cylinder and the feeding barrel are both mounted on a frame mechanism, and the material pushing cylinder is positioned at the outer side of the feeding barrel, the rotary station mechanism comprises a station disc, and the station disc is provided with a feeding station along the circumferential direction, the station is provided with a corresponding material barrel, the feeding barrel is arranged between the material pushing cylinder and the material barrel, the material blocking cylinder mounting plate is arranged on the frame mechanism and is positioned above the feeding barrel, the material blocking cylinder is fixed on the material blocking cylinder mounting plate, and the material blocking cylinder mounting plate is provided with sliding rods which are in sliding fit with the material blocking cylinder at two sides of the material blocking cylinder respectively, the ejector rod of the material blocking cylinder and the end part of the sliding rod are detachably connected with the upper material blocking plate, and the upper material blocking plate is detachably connected with the side material blocking plate.

In the technical scheme, the rotary station mechanism comprises a station disc, a rotary main shaft, a first servo motor, a material barrel, a material clamping cylinder and a material bundling film end positioning and adjusting mechanism, the stand mechanism is provided with a first vertical plate and a second vertical plate which are separately arranged, the first servo motor is arranged on the outer side of the first vertical plate, the rotating main shaft is rotationally connected with the first vertical plate and the second vertical plate, and a motor shaft of the first servo motor is in transmission connection with the rotating main shaft, the station disc is sleeved on the rotating main shaft and is positioned on the inner side of the first vertical plate, the station disc is evenly provided with a feeding station, a film feeding station, a bundling film one end closing station and a discharging station along the circumferential direction, each station is provided with a material barrel, and material clamping cylinders are respectively arranged on two sides of the material barrel, and a material bundling film end positioning and adjusting mechanism is arranged on the rack mechanism and positioned on the outer side of the film conveying station of the station disc.

In the above technical solution, the material bundling film end positioning adjustment mechanism includes a second servo motor, a sliding plate, a positioning shaft, a positioning cylinder push plate, a sliding flange, an inner container, a first transmission screw rod and a positioning guide shaft, the frame mechanism has a first wall plate and a second wall plate, the second servo motor is arranged on the frame mechanism, one end of the first transmission screw rod is rotatably connected with the first wall plate, a motor shaft of the second servo motor is connected with the other end of the first transmission screw rod in a transmission manner, the sliding plate is arranged between the first wall plate and the second wall plate and is arranged on the first transmission screw rod, the positioning cylinder is arranged on the second wall plate, a push rod of the positioning cylinder is fixedly connected with the positioning cylinder push plate, the sliding flange is fixedly connected with the first vertical plate, the inner container is arranged in the material barrel and is fixed inside the material barrel, the positioning guide shaft is fixedly connected with the positioning air cylinder push plate, penetrates through the sliding flange and is inserted into the inner container, one end of the positioning shaft is fixedly connected with the sliding plate, and the other end of the positioning shaft penetrates through the positioning air cylinder push plate and the positioning guide shaft and is inserted into the material barrel.

In the above technical scheme, send membrane mechanism to include third servo motor, second transmission lead screw, send membrane layer board, layer board promotion cylinder, send membrane center post, blade disc frame, blade disc subassembly, press mold cylinder and carriage, send membrane layer board and frame mechanism sliding fit, and send both ends on the membrane layer board to be equipped with blade disc frame respectively and support the back plate, blade disc subassembly establishes in the blade disc frame, layer board promotion cylinder establishes on frame mechanism's linear guide, and the ejector pin of layer board promotion cylinder with send the tip fixed connection of membrane layer board, third servo motor installs in the outside that supports the back plate, and third servo motor's motor shaft is connected with the transmission of second transmission lead screw, the carriage is installed on second transmission lead screw and is located between blade disc frame and the support back plate, the press mold cylinder is installed in the upper end of carriage, send the membrane center post to establish in blade disc frame and carriage, and a film moving shaft is arranged at the end part of the film feeding central column and close to the rotary station mechanism.

In the technical scheme, the cutter head assembly comprises a film cutting servo motor, a driving wheel, a driven wheel and a cutter head, the film cutting servo motor is installed on the cutter head frame, the driving wheel is arranged on a motor shaft of the film cutting servo motor, the driven wheel is connected to the cutter head frame in a rotating mode, the driving wheel is connected with the driven wheel in a transmission mode through a synchronous belt, and the cutter head is installed on the driven wheel.

In the technical scheme, the film guide frame is further arranged on the outer side of the supporting rear plate of the film feeding supporting plate.

In the technical scheme, the heating closing-up mechanism comprises a material closing-up positioning cylinder, a fixed support plate, a first air gun fixing flange and a first closing-up heating air gun, a first vertical plate and a second vertical plate which are separately arranged are arranged on the rack mechanism, the rotary station mechanism comprises a station disc arranged on the inner side of the first vertical plate, a bundling film one-end closing-up station is arranged on the station disc along the circumferential direction of the station disc, corresponding material barrels are arranged on the station disc, the material closing-up positioning cylinder is installed on the first vertical plate and located on the outer side of the material barrel on the bundling film one-end closing-up station of the station disc, the fixed support plate is fixed on the second vertical plate, the first air gun fixing flange is installed on the fixed support plate, and the first closing-up heating air gun is fixed on the first air gun fixing flange.

In the technical scheme, the unloading mechanism comprises an unloading pushing cylinder, a second closed-up heating air gun, a second air gun fixing flange, an unloading groove plate, a wind shield and a wind shield driving cylinder, the rotary station mechanism comprises a station disc arranged on the inner side of a first vertical plate, unloading stations are arranged on the station disc along the circumferential direction of the station disc, corresponding material barrels are arranged on the stations, the first vertical plate is arranged on the frame mechanism, the unloading pushing cylinder is arranged on the first vertical plate and positioned on the outer side of the material barrels on the unloading stations of the station disc, the unloading groove plate is arranged at the outlet of the unloading stations of the station disc on one side of the frame mechanism, the second air gun fixing flange and the wind shield driving cylinder are arranged on the frame mechanism, the second closed-up heating air gun is fixed on the second air gun fixing flange and positioned between the material barrels and the wind shield driving cylinder on the unloading stations of the station disc, and a wind shield is arranged on the ejector rod of the wind shielding driving cylinder.

The utility model discloses the positive effect who has is: after the cluster color printing film packaging machine is adopted, the utility model comprises a frame mechanism, a discharging and feeding mechanism, a rotary station mechanism, a film feeding mechanism, a heating closing mechanism and a discharging mechanism;

the discharging and feeding mechanism, the rotary station mechanism and the film feeding mechanism are all arranged on the rack mechanism, the rotary station mechanism is positioned between the discharging and feeding mechanism and the film feeding mechanism, the heating closing-up mechanism is arranged on the film feeding mechanism and close to the rotary station mechanism, and the discharging mechanism is arranged on the rack mechanism and positioned on one side of the rotary station mechanism;

when in use, the film feeding mechanism transfers the color printing film to the material barrel of the rotary station mechanism through the film feeding central column and sleeves the color printing film on the periphery of the inner container of the material barrel of the rotary station mechanism, then the packaging film in the material barrel is rotated to a discharging and feeding station through the rotation of the rotating station, the packaged material is transferred into the material barrel by a discharging and feeding mechanism and is simultaneously conveyed into the packaging film through the inner container of the material barrel, then the rotary station mechanism rotates the material after the film covering process to a necking station at one end of the bundling film for outputting, and the heating necking mechanism firstly necks up one end of the color printing film at the periphery of the material, and then the rotary station mechanism rotates to an unloading station, the unloading mechanism pushes and unloads the materials and closes the other end of the color printing film at the periphery of the materials, and the bundling package of the rolled materials (such as adhesive tapes) is completed. Meanwhile, the discharging and feeding mechanism supplies materials to the feeding station of the rotary station mechanism for material supplement, so that the film feeding, color printing film one end closing and discharging in the next period are facilitated.

Compared with the prior art, the utility model, can not only be suitable for the packing tied in a bundle of transparent film and various seal membrane, but also the outward packing still can not appear the fold, and the packing is very level and smooth, simultaneously, the utility model discloses not only can be automatic, quick packing tied in a bundle, packing efficiency has also obtained the improvement greatly moreover.

Drawings

FIG. 1 is a schematic structural view of an embodiment of the present invention;

FIG. 2 is a schematic view of the discharge and feed mechanism of FIG. 1;

FIG. 3 is a schematic left side view of FIG. 2;

FIG. 4 is a schematic structural view of the rotary station mechanism of FIG. 1;

FIG. 5 is a schematic right-side view of FIG. 4;

FIG. 6 is a schematic structural view of the end positioning and adjusting mechanism of the material bundling film of the present invention;

fig. 7 is a schematic structural view of the film feeding mechanism of the present invention;

FIG. 8 is a schematic top view of FIG. 7;

fig. 9 is a schematic structural view of the cutter head assembly of the present invention;

fig. 10 is a schematic structural view of the heating and necking mechanism of the present invention;

fig. 11 is a schematic structural view of the discharging mechanism of the present invention;

fig. 12 is a left side schematic view of fig. 11.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and examples, but is not limited thereto.

As shown in fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, a cluster color printing film packaging machine comprises a rack mechanism 1, a discharging and feeding mechanism 2, a rotary station mechanism 3, a film feeding mechanism 4, a heating and necking mechanism 5 and a discharging mechanism 6;

arrange material feeding mechanism 2, rotatory station mechanism 3 and send membrane mechanism 4 and all establish on rack device 1, rotatory station mechanism 3 is located and arranges between material feeding mechanism 2 and the membrane mechanism 4 of sending, heating binding off mechanism 5 is established on sending membrane mechanism 4 and is close to rotatory station mechanism 3, discharge mechanism 6 is established on rack device 1 and is located one side of rotatory station mechanism 3.

As shown in fig. 2 and 3, in order to form automatic feeding and realize automatic packaging, the material discharging and feeding mechanism 2 comprises a material pushing cylinder 21, a feeding barrel 22, a material stopping cylinder 23, a material stopping cylinder mounting plate 24, an upper material stopping plate 25 and a side material stopping plate 26, wherein the material pushing cylinder 21 and the feeding barrel 22 are both mounted on the frame mechanism 1, the material pushing cylinder 21 is located at the outer side of the feeding barrel 22, the rotary station mechanism 3 comprises a station disc 31, the station disc 31 is provided with a material feeding station along the circumferential direction thereof, the station is provided with a corresponding material barrel 34, the feeding barrel 22 is arranged between the material pushing cylinder 21 and the material barrel 34, the material stopping cylinder mounting plate 24 is arranged on the frame mechanism 1 and located above the feeding barrel 22, the material stopping cylinder 23 is fixed on the material stopping cylinder mounting plate 24, and two sides of the material stopping cylinder mounting plate 24 and located on the material stopping cylinder 23 are respectively provided with a sliding rod 27 in sliding fit therewith, the end parts of the ejector rods and the sliding rods 27 of the material blocking cylinder 23 are detachably connected with the upper material blocking plate 25, and the upper material blocking plate 25 is detachably connected with the side material blocking plate 26. The specific process is as follows: multiple rolls of materials are fed into the feeding barrel 22, the ejector rods of the material blocking cylinders 23 move downwards, the upper material blocking plates 25 and the side material blocking plates 26 are hooped on the peripheries of the multiple rolls of materials, then the ejector rods of the material blocking cylinders 23 move upwards, and meanwhile, the ejector rods of the material pushing cylinders 21 push the multiple rolls of materials to enter the material barrels 34 of the feeding stations of the station disc 31, so that material feeding is completed.

As shown in fig. 4, 5, and 6, in order to improve the packaging efficiency and realize multi-station synchronous action, the rotary station mechanism 3 includes a station disc 31, a rotary spindle 32, a first servo motor 33, a material barrel 34, a material clamping cylinder 35, and a material bundling film end positioning adjustment mechanism 30, the frame mechanism 1 is provided with a first vertical plate 11 and a second vertical plate 12 which are separately arranged, the first servo motor 33 is installed at the outer side of the first vertical plate 11, the rotary spindle 32 is rotatably connected with the first vertical plate 11 and the second vertical plate 12, a motor shaft of the first servo motor 33 is in transmission connection with the rotary spindle 32, the station disc 31 is sleeved on the rotary spindle 32 and located at the inner side of the first vertical plate 11, the station disc 31 is uniformly provided with a material loading station, a film feeding station, a bundling film one-end closing station, and a material unloading station along the circumferential direction thereof, each station is provided with a material barrel 34, two sides of the material barrel 34 are respectively provided with a material clamping cylinder 35, and a material bundling film end positioning and adjusting mechanism 30 is arranged on the frame mechanism 1 and on the outer side of the film feeding station of the station disc 31. The specific working process is as follows: the film feeding mechanism 4 feeds a film to the periphery of an inner container of a material barrel 34 on a film feeding station of the station disc 31, ejector rods of material clamping cylinders 35 on two sides of the material barrel 34 are abutted to a packaging film on the periphery of the material, the material bundling film end positioning and adjusting mechanism 30 clamps the packaging film on the periphery of the end of the material and pushes a central guide post away from the material barrel, the packaging film is kept in the barrel, the film feeding mechanism 4 is convenient to cut the film, and after the film cutting is completed, a motor shaft of the first servo motor 33 drives a rotating main shaft 32 to rotate, so that the station disc 31 also rotates along with the rotating main shaft, namely the material barrel on each station of the station disc 31 sequentially enters the position of the next station.

As shown in fig. 6, in order to complete film cutting, a packaging film on the periphery of one end of a material is positioned and clamped in advance, the material bundling film end positioning and adjusting mechanism 30 includes a second servo motor 301, a sliding plate 302, a positioning shaft 303, a positioning cylinder 304, a positioning cylinder push plate 305, a sliding flange 306, an inner container 307, a first transmission screw rod 308 and a positioning guide shaft 309, the rack mechanism 1 has a first wall plate 13 and a second wall plate 14, the second servo motor 301 is disposed on the rack mechanism 1, one end of the first transmission screw rod 308 is rotatably connected with the first wall plate 13, a motor shaft of the second servo motor 301 is connected with the other end of the first transmission screw rod 308 in a transmission manner, the sliding plate 302 is disposed between the first wall plate 13 and the second wall plate 14, the sliding plate 302 is mounted on the first transmission screw rod 308, the positioning cylinder 304 is mounted on the second wall plate 14, and a push rod of the positioning cylinder 304 is fixedly connected with the positioning cylinder push plate 305, the sliding flange 306 is fixedly connected with the first vertical plate 11, the inner container 307 is arranged in the material barrel 34 and fixed inside the material barrel 34, the positioning guide shaft 309 is fixedly connected with the positioning cylinder push plate 305, penetrates through the sliding flange 306 and is inserted into the inner container 307, one end of the positioning shaft 303 is fixedly connected with the sliding plate 302, and the other end of the positioning shaft passes through the positioning cylinder push plate 305 and the positioning guide shaft 309 and is inserted into the material barrel 34. The specific working process is as follows: the motor shaft of the second servo motor 301 drives the first transmission screw rod 308 to transmit, so that the sliding plate 302 moves towards the direction of the station disc 31, the ejector rod of the positioning cylinder 304 drives the positioning cylinder push plate 305 to move, the material in the material barrel 34 is located in the inner container 307, the peripheral film is located in a gap between the inner container 307 and the material barrel 34, and the material clamping cylinder 35 compresses the packaging film to position and clamp the packaging film, so that the film feeding mechanism can conveniently cut the film.

As shown in fig. 7, 8 and 9, in order to facilitate film feeding and cutting, the film feeding mechanism 4 includes a third servo motor 41, a second transmission screw rod 42, a film feeding supporting plate 43, a supporting plate pushing cylinder 44, a film feeding central column 45, a cutter frame 46, a cutter assembly 47, a film pressing cylinder 48 and a sliding frame 49, the film feeding supporting plate 43 is in sliding fit with the frame mechanism 1, and two ends of the film feeding supporting plate 43 are respectively provided with the cutter frame 46 and a supporting rear plate 431, the cutter assembly 47 is arranged on the cutter frame 46, the supporting plate pushing cylinder 44 is arranged on a linear guide rail of the frame mechanism 1, an ejector rod of the supporting plate pushing cylinder 44 is fixedly connected with the end of the film feeding supporting plate 43, the third servo motor 41 is arranged on the outer side of the supporting rear plate 431, a motor shaft of the third servo motor 41 is in transmission connection with the second transmission screw rod 42, the sliding frame 49 is arranged on the second transmission screw rod 42 and is positioned between the cutter frame 46 and the supporting, film pressing cylinder 48 is installed at the upper end of carriage 49, send membrane center post 45 to establish on cutter head frame 46 and carriage 49, and send the tip of membrane center post 45 and be close to rotatory station mechanism 3 department and be equipped with and move membrane axle 451. The specific working process is as follows: third servo motor 41 drive second transmission lead screw 42 transmission makes carriage 49 removes to station dish 31 direction, drives simultaneously and send membrane center post 45 and packaging film to remove together, at this moment, the ejector pin downstream of press mold cylinder 48 pushes down the membrane and takes place to remove, move membrane axle 451 and continuously move forward and get into the inner chamber of the material bucket 34 of the membrane station that sends of station dish 31, the packaging film of single unit is cut to the cutter head subassembly 47 on the cutter head frame 46.

As shown in fig. 9, in order to facilitate rapid cutting of the packaging film, the cutter disc assembly 47 includes a film cutting servo motor 471, a driving wheel 472, a driven wheel 473 and a cutter disc, the film cutting servo motor 471 is installed on the cutter disc frame 46, a driving wheel 472 is arranged on a motor shaft of the film cutting servo motor 471, the driven wheel 473 is rotatably connected to the cutter disc frame 46, the driving wheel 472 is in transmission connection with the driven wheel 473 through a synchronous belt, and the cutter disc 473 is installed on the driven wheel 473. The specific working process is as follows: a motor shaft of the film cutting servo motor 471 drives the driving wheel 472 to rotate, the driven wheel 473 is driven to rotate through the synchronous belt, and the cutter disc of the driven wheel 473 performs unit cutting on the packaging film.

As shown in fig. 7, a film guide rack 432 is further provided on the outer side of the supporting back plate 431 of the film feeding pallet 43 for guiding the feeding of the packaging film.

As shown in fig. 10, in order to facilitate the closing of the packaging film, the heating closing mechanism 5 includes a material closing positioning cylinder 51, a fixed support plate 52, a first air gun fixing flange 53 and a first closing heating air gun, the frame mechanism 1 is provided with a first vertical plate 11 and a second vertical plate 12 which are separately arranged, the rotary station mechanism 3 comprises a station disc 31 arranged on the inner side of the first vertical plate 11, the station disc 31 is provided with a bundling film one end closing station along the circumferential direction, the stations are provided with corresponding material barrels 34, the material closing-in positioning cylinder 51 is arranged on the first vertical plate 11 and positioned at the outer side of the material barrel 34 on the station where one end of the bundling film of the station disc 31 closes in, the fixed support plate 52 is fixed on the second vertical plate 12, the first air gun fixing flange 53 is installed on the fixed support plate 52, and the first closing-up heating air gun is fixed on the first air gun fixing flange 53. The specific working process is as follows: when the station disc 31 rotates to the bundling film one end closing-up station, the first closing-up heating air gun heats and closes up one end (right opening) of the packaging film in the material barrel 34.

As shown in fig. 11 and 12, in order to facilitate discharging and heat and close up the other end of the packaging film, the discharging mechanism 6 includes a discharging pushing cylinder 61, a second closing-up heating air gun 62, a second air gun fixing flange 63, a discharging chute plate 64, a wind shield 65 and a wind shield driving cylinder 66, the rotary station mechanism 3 includes a station plate 31 disposed inside a first vertical plate 11, the station plate 31 is disposed with discharging stations along the circumferential direction thereof, the stations are all provided with corresponding material barrels 34, the rack mechanism 1 is provided with the first vertical plate 11, the discharging pushing cylinder 61 is disposed on the first vertical plate 11 and located outside the material barrels 34 on the discharging stations of the station plate 31, the discharging chute plate 64 is disposed at an outlet of the discharging station of the station plate 31 at one side of the rack mechanism 1, the second air gun fixing flange 63 and the wind shield driving cylinder 66 are both mounted on the rack mechanism 1, the second closing-in heating air gun 62 is fixed on a second air gun fixing flange 63 and is positioned between the material barrel 34 and the wind shielding driving air cylinder 66 on the unloading station of the station disc 31, and a wind shielding plate 65 is arranged on a top rod of the wind shielding driving air cylinder 66. The specific working process is as follows: treat that the material accomplishes one end binding off process after, station dish 31 rotates, makes the material get into the station of unloading, the ejector pin of the propelling movement cylinder 61 of unloading promotes on the material gets into the frid 64 of unloading in the material bucket 34, second heating binding off heats the air gun 62 and heats binding off to the other end (left mouth) of packaging film, simultaneously, keep out the wind and drive the ejector pin of cylinder 66 and drive deep bead 65 removal, can guarantee that the packaging film can not have wind at the binding off in-process.

The utility model discloses a working process is:

step one, film feeding: the third servo motor 41 drives the second transmission screw rod 42 to transmit, so that the sliding frame 49 moves towards the station disc 31, and simultaneously drives the film feeding central column 45 and the packaging film to move together, at the moment, the mandril of the film pressing cylinder 48 moves downwards to press the film to move, the film moving shaft 451 continuously moves forwards to enter the inner cavity of the material barrel 34 of the film feeding station of the station disc 31,

step two, locking the membrane: the material in the material barrel 34 is arranged at the periphery of the inner container 307, the peripheral film is arranged in the gap between the inner container 307 and the material barrel 34, the material clamping cylinder 35 penetrates through the material barrel 34 to press and lock one end of the packaging film at the periphery of the inner container 307,

step three, disengaging the central column 45: the motor shaft of the second servo motor 301 drives the first transmission screw rod 308 to transmit, so that one end of the positioning shaft 303 passes through the positioning cylinder push plate 305 and the positioning guide shaft 309, is inserted into the material barrel 34, and abuts against the central guide post 45, at this time, the second servo motor 301 and the third servo motor 41 synchronously run at the same speed, the central post 45 is withdrawn from the material barrel 34,

fourthly, cutting the film: the cutter head assembly 47 on the cutter head frame 46 cuts the packaging film of a single unit, that is, the motor shaft of the film cutting servo motor 471 drives the driving wheel 472 to rotate and drives the driven wheel 473 to rotate through the synchronous belt, the cutter head of the driven wheel 473 cuts the packaging film of a unit, after the film cutting is finished, the motor shaft of the first servo motor 33 drives the rotating main shaft 32 to rotate, so that the station disc 31 also rotates along with the rotating main shaft, that is, the material barrel on each station of the station disc 31 sequentially enters the position of the next station,

fifthly, feeding: multiple rolls of materials are fed into the feeding barrel 22, the ejector rods of the material blocking cylinders 23 move downwards, the upper material blocking plates 25 and the side material blocking plates 26 are hooped on the peripheries of the multiple rolls of materials, meanwhile, the ejector rods of the material pushing cylinders 21 push the multiple rolls of materials to enter the material barrels 34 of the feeding stations of the station disc 31 through the material barrel inner containers 307, and the materials are pushed to the inner sides of packaging films, so that material feeding is completed.

Sixthly, closing: when the station disc 31 rotates to a binding film one end closing station, the first closing-in heating air gun heats and closes one end (right opening) of the packaging film in the material barrel 34,

step seven, unloading: treat that the material accomplishes one end binding off process after, station dish 31 rotates, makes the material get into the station of unloading, the ejector pin of the propelling movement cylinder 61 of unloading promotes on the material gets into the frid 64 of unloading in the material bucket 34, second heating binding off heats the air gun 62 and heats binding off to the other end (left mouth) of packaging film, simultaneously, keep out the wind and drive the ejector pin of cylinder 66 and drive deep bead 65 removal, can guarantee that the packaging film can not have wind at the binding off in-process.

Compared with the prior art, the utility model, can not only be suitable for the packing tied in a bundle of transparent film and various seal membrane, but also the outward packing still can not appear the fold, and the packing is very level and smooth, simultaneously, the utility model discloses not only can be automatic, quick packing tied in a bundle, packing efficiency has also obtained the improvement greatly moreover.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (9)

1. The utility model provides a color printing film packagine machine tied in a bundle which characterized in that: comprises a frame mechanism (1), a discharging and feeding mechanism (2), a rotary station mechanism (3), a film feeding mechanism (4), a heating and closing mechanism (5) and a discharging mechanism (6);

arrange material feeding mechanism (2), rotatory station mechanism (3) and send membrane mechanism (4) and all establish on frame mechanism (1), rotatory station mechanism (3) are located and arrange material feeding mechanism (2) and send between membrane mechanism (4), heating close-up mechanism (5) are established and are close to rotatory station mechanism (3) on sending membrane mechanism (4), discharge mechanism (6) are established on frame mechanism (1) and are located one side of rotatory station mechanism (3).

2. The bundle color printing film packaging machine according to claim 1, characterized in that: arrange material feeding mechanism (2) including pushing away material cylinder (21), feed cylinder (22), material stopping cylinder (23), material stopping cylinder mounting panel (24), go up fender board (25) and side fender board (26), push away material cylinder (21) and feed cylinder (22) and all install on frame work (1), and push away the outside that material cylinder (21) is located feed cylinder (22), rotatory station mechanism (3) is including station dish (31), and station dish (31) have arranged the material loading station along its circumferencial direction, is equipped with corresponding material bucket (34) on this station, feed cylinder (22) are established and are being pushed away between material cylinder (21) and material bucket (34), material stopping cylinder mounting panel (24) are established on frame work (1) and are located the top of feed cylinder (22), material stopping cylinder (23) are fixed on material stopping cylinder mounting panel (24), and the both sides that are located material stopping cylinder (23) on material cylinder mounting panel (24) are equipped with rather than the slip distribution respectively The material stopping device comprises a combined sliding rod (27), an ejector rod of the material stopping cylinder (23) and the end part of the sliding rod (27) are detachably connected with an upper material stopping plate (25) at the same time, and the upper material stopping plate (25) is detachably connected with a side material stopping plate (26).

3. The bundle color printing film packaging machine according to claim 1, characterized in that: the rotary station mechanism (3) comprises a station disc (31), a rotary main shaft (32), a first servo motor (33), a material barrel (34), a material clamping cylinder (35) and a material bundling film end positioning and adjusting mechanism (30), a first vertical plate (11) and a second vertical plate (12) which are separately arranged are arranged on the rack mechanism (1), the first servo motor (33) is installed on the outer side of the first vertical plate (11), the rotary main shaft (32) is rotatably connected with the first vertical plate (11) and the second vertical plate (12), a motor shaft of the first servo motor (33) is in transmission connection with the rotary main shaft (32), the station disc (31) is sleeved on the rotary main shaft (32) and positioned on the inner side of the first vertical plate (11), and the station disc (31) is uniformly provided with a feeding station, a film feeding station, a bundling film one end closing station and an unloading station along the circumferential direction of the station disc (31), each station is provided with a material barrel (34), two sides of each material barrel (34) are respectively provided with a material clamping cylinder (35), and the outer side of the film conveying station of the station disc (31) on the frame mechanism (1) is provided with a material bundling film end positioning and adjusting mechanism (30).

4. The bundle color printing film packaging machine according to claim 3, characterized in that: the end positioning and adjusting mechanism (30) of the material bundling film comprises a second servo motor (301), a sliding plate (302), a positioning shaft (303), a positioning cylinder (304), a positioning cylinder push plate (305), a sliding flange (306), an inner container (307), a first transmission screw rod (308) and a positioning guide shaft (309), the rack mechanism (1) is provided with a first wall plate (13) and a second wall plate (14), the second servo motor (301) is arranged on the rack mechanism (1), one end of the first transmission screw rod (308) is rotatably connected with the first wall plate (13), a motor shaft of the second servo motor (301) is in transmission connection with the other end of the first transmission screw rod (308), the sliding plate (302) is arranged between the first wall plate (13) and the second wall plate (14), the sliding plate (302) is arranged on the first transmission screw rod (308), and the positioning cylinder (304) is arranged on the second wall plate (14), and the ejector rod of the positioning cylinder (304) is fixedly connected with the positioning cylinder push plate (305), the sliding flange (306) is fixedly connected with the first vertical plate (11), the inner container (307) is arranged in the material barrel (34) and fixed in the material barrel (34), the positioning guide shaft (309) is fixedly connected with the positioning cylinder push plate (305) and penetrates through the sliding flange (306) and is inserted into the inner container (307), one end of the positioning shaft (303) is fixedly connected with the sliding plate (302), and the other end of the positioning shaft penetrates through the positioning cylinder push plate (305) and the positioning guide shaft (309) and is inserted into the material barrel (34).

5. The bundle color printing film packaging machine according to claim 1, characterized in that: send membrane mechanism (4) to include third servo motor (41), second transmission lead screw (42), send membrane layer board (43), layer board push cylinder (44), send membrane center post (45), blade disc frame (46), cutter head assembly (47), press mold cylinder (48) and carriage (49), send membrane layer board (43) and frame mechanism (1) sliding fit, and send both ends on membrane layer board (43) to be equipped with blade disc frame (46) and support back plate (431) respectively, cutter head assembly (47) are established on blade disc frame (46), layer board push cylinder (44) are established on the linear guide of frame mechanism (1), and the ejector pin of layer board push cylinder (44) and the tip fixed connection who sends membrane layer board (43), third servo motor (41) are installed in the outside of supporting back plate (431), the motor shaft and the transmission of second transmission lead screw (42) of third servo motor (41) are connected, carriage (49) are installed on second transmission lead screw (42) and are located cutter head frame (46) and support between back plate (431), press mold cylinder (48) are installed in the upper end of carriage (49), send membrane center post (45) to establish on cutter head frame (46) and carriage (49), and send the tip of membrane center post (45) and be close to rotatory station mechanism (3) department and be equipped with and move membrane axle (451).

6. The bundle color printing film packaging machine according to claim 5, characterized in that: cutter disc subassembly (47) are including cutting membrane servo motor (471), action wheel (472), from driving wheel (473) and blade disc, cut membrane servo motor (471) and install on blade disc frame (46), and cut and be equipped with action wheel (472) on the motor shaft of membrane servo motor (471), rotate from driving wheel (473) and connect on blade disc frame (46), action wheel (472) are connected with driving wheel (473) transmission through the hold-in range, the blade disc is installed on following driving wheel (473).

7. The bundle color printing film packaging machine according to claim 5, characterized in that: and a film guide frame (432) is also arranged on the outer side of the supporting back plate (431) of the film feeding supporting plate (43).

8. The bundle color printing film packaging machine according to claim 1, characterized in that: the heating closing-in mechanism (5) comprises a material closing-in positioning cylinder (51), a fixing support plate (52), a first air gun fixing flange (53) and a first closing-in heating air gun, a first vertical plate (11) and a second vertical plate (12) which are separately arranged are arranged on the rack mechanism (1), the rotary station mechanism (3) comprises a station disc (31) arranged on the inner side of the first vertical plate (11), the station disc (31) is provided with a bundling film one-end closing-in station along the circumferential direction, the stations are respectively provided with corresponding material barrels (34), the material closing-in positioning cylinder (51) is arranged on the first vertical plate (11) and positioned on the outer side of the material barrel (34) on the bundling film one-end closing-in station of the station disc (31), the fixing support plate (52) is fixed on the second vertical plate (12), the first air gun fixing flange (53) is arranged on the fixing support plate (52), the first closing-in heating air gun is fixed on a first air gun fixing flange (53).

9. The bundle color printing film packaging machine according to claim 1, characterized in that: the unloading mechanism (6) comprises an unloading pushing cylinder (61), a second closing-up heating air gun (62), a second air gun fixing flange (63), an unloading groove plate (64), a wind shield (65) and a wind shield driving cylinder (66), the rotary station mechanism (3) comprises a station disc (31) arranged on the inner side of a first vertical plate (11), the station disc (31) is provided with unloading stations along the circumferential direction, the stations are provided with corresponding material barrels (34), the rack mechanism (1) is provided with the first vertical plate (11), the unloading pushing cylinder (61) is arranged on the first vertical plate (11) and positioned on the outer side of the material barrels (34) on the unloading stations of the station disc (31), the unloading groove plate (64) is arranged at the outlet of the unloading station on one side of the rack mechanism (1) and positioned on the station disc (31), the second air gun fixing flange (63) and the wind shield driving cylinder (66) are both arranged on the rack mechanism (1), and the second closing-in heating air gun (62) is fixed on a second air gun fixing flange (63) and is positioned between the material barrel (34) on the unloading station of the station disc (31) and the wind shielding driving air cylinder (66), and a wind shield (65) is arranged on a top rod of the wind shielding driving air cylinder (66).

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