CN113460401A - Integrated full-automatic E-shaped retest high-speed wet tissue packaging machine - Google Patents

Abstract

The invention relates to an integrated full-automatic E-shaped retest high-speed wet tissue packaging machine, which comprises a rack, a conveyor, a blanking module, a vertical sealing module, a transverse sealing and cutting module, a reel belt placing assembly and a belt feeding guide mechanism, and is characterized in that the blanking module comprises a plurality of groups of blanking devices which are sequentially distributed above the conveyor along the effective conveying direction; the blanking device comprises a raw material conveying roller, a caisson and a folding mechanism; the folding mechanism sequentially comprises a plurality of circuit board assemblies, a cutter assembly and a first folding assembly, wherein the frame is provided with tensioning adjusting assemblies distributed between the cutter assembly and the plurality of circuit board assemblies, and the frame is provided with a stacking mechanism, and the folding mechanism has the beneficial effects that: the utility model provides a full-automatic E type of integral type is retested at a high speed and is gone up the high-speed wet tissue packagine machine, promotes unloading speed, realizes high-speed packing, prevents that wet tissue from producing the fold, promotes the packing quality, and possesses the high accuracy performance of piling up.

Description

Integrated full-automatic E-shaped retest high-speed wet tissue packaging machine

Technical Field

The invention relates to the technical field of packaging equipment, in particular to an integrated full-automatic E-shaped retest high-speed wet tissue packaging machine.

Background

The packaging of a plurality of daily necessities or consumer goods, such as the wet tissues, is automatically processed by a packaging device. The use of heat-seal seals is a common practice in the packaging industry today, where the sealing of a package is accomplished by heating the packaging material (e.g. film) to a molten state at specific locations of the packaging material to bond them together. Generally, after the packaging material enters the packaging apparatus, a longitudinal sealing (longitudinal sealing) is performed by a longitudinal sealing device, and then a transverse sealing (transverse sealing) is performed by a transverse sealing and cutting device, and the packaging material is cut, thereby completing a packaging unit.

Meanwhile, according to the actual demands of people, the wet tissues are divided into a single-piece packaging type and a multi-piece packaging type, namely, when the wet tissues are sold, one piece of wet tissues is contained in a single packaging bag of the single-piece packaging type, and a plurality of pieces of wet tissues are contained in a single packaging bag of the multi-piece packaging type.

The conventional wet tissue packing machine has the following defects:

the wet tissue packaging machine is a single-piece packaging machine generally, namely, the wet tissue can be processed only in a single-piece mode, the processing speed is low, and the efficiency is low;

and (II) aiming at a blanking module in the packaging machine, the blanking module is mainly used for conveying wet tissue materials, soaking, folding, cutting and the like, and then when the materials enter a packaging process, a plurality of pieces of the materials are often stacked together and then conveyed to other modules of the packaging machine for next packaging. However, since the wet tissues are soft articles, the wet tissues are often difficult to be stacked smoothly and easy to wrinkle, the error rate in the stacking process is high, rework is needed, even if the wet tissues can be stacked, the speed is often slow, the working efficiency is not high, and a new and efficient wet tissue stacking device needs to be designed;

the main working principle of the transverse sealing and cutting module in the packaging machine is the traditional circular rotary motion, namely, the packaging film is packaged by utilizing the relative up-and-down meshing of the up-and-down high-temperature sealing cutters, the working mode is old and is instantaneous sealing, and when the packaging film needing transverse sealing is thick, the problems of reduced transverse sealing quality and poor sealing are caused; furthermore, the upper and lower hot pressing seal heads inevitably generate rigid impact in the mutual rotating contact process, the rigid impact can lead the upper and lower hot pressing seal heads to crack in the multiple rotating pressing process, and the service lives of the upper and lower hot pressing seal heads are short.

Disclosure of Invention

The technical problem to be solved by the present invention is to provide an integrated full-automatic E-type retry high-speed wet tissue packaging machine, which improves the feeding speed, realizes high-speed packaging, prevents the wet tissue from wrinkling, improves the packaging quality, and has high-precision stacking performance, in order to overcome the defects of the prior art.

In order to achieve the purpose, the invention provides the following technical scheme: full-automatic E type of integral type retest high-speed wet tissue packagine machine, include the frame and set up the conveyer in the frame, the conveyer has unloading module, erects to seal the module, violently seals the module of cutting off along effective direction of transportation in proper order, the tip that lies in setting up the unloading module in the frame is equipped with the reel area that distributes in the conveyer below and can carry the packaging film and lays the subassembly, the conveyer lies in to be equipped with between unloading module and the perpendicular closing means can lay the advancing area guiding mechanism of subassembly linkage with the reel area, its characterized in that: the blanking module comprises a plurality of groups of blanking devices which are sequentially distributed above the conveyor along the effective conveying direction.

By adopting the technical scheme, two or more groups of blanking devices are arranged, so that the blanking speed can be increased, and high-speed packaging can be realized; the blanking module (also a plurality of groups of blanking devices) is used for transporting, folding, cutting off and stacking wet tissues, the reel belt placing assembly is used for transporting a packaging film, the conveyor is mainly used for receiving the wet tissues from the blanking module and transporting the wet tissues along the effective transportation direction, then the folded and cut wet tissues are delivered to the packaging film through the belt feeding guide mechanism, then the wet tissues are sequentially delivered to the vertical sealing module for vertical sealing, the transverse sealing cutting module for transverse sealing and cutting off, and finally the wet tissues are packaged.

The integrated full-automatic E-shaped retest high-speed wet tissue packaging machine can be further set as follows: the blanking device comprises a raw material conveying roller and a sinking tank which are arranged on a rack, wherein a folding mechanism capable of conveying, folding and cutting off materials is arranged on one side of the sinking tank, which is far away from the raw material conveying roller;

the folding mechanism sequentially comprises a road counting plate component, a cutter component and a first folding component, wherein the road counting plate component is used for steering and transporting materials and assisting in folding, the cutter component is distributed along the effective material transporting direction and is positioned below the road counting plate component, and the first folding component is used for folding the edges and corners of the materials;

the machine frame is provided with tensioning adjusting components distributed between the cutter component and the multiple path board components, each tensioning adjusting component comprises a first paper feeding wheel shaft, a paper feeding wheel sliding block, a compression spring and a tensioning adjusting cylinder, and the machine frame is provided with tensioning adjusting grooves distributed between the multiple path board components and the cutter component;

the middle part of the first paper feeding wheel shaft is hinged to the paper feeding wheel sliding block, the paper feeding wheel sliding block is installed in the tensioning adjusting groove in a sliding fit mode, the tensioning adjusting cylinder is fixedly installed at the end part of the tensioning adjusting groove, the axis of the tensioning adjusting cylinder is parallel to the axis of the tensioning adjusting groove, the end part of the tensioning adjusting cylinder is linked with the paper feeding wheel sliding block, and the compression springs are distributed between the tensioning adjusting cylinder and the paper feeding wheel sliding block and are connected with the tensioning adjusting cylinder and the paper feeding wheel sliding block in an abutting mode at two ends of the compression springs.

By adopting the technical scheme, the tensioning adjusting assembly is arranged, so that the tensioning degree of the wet tissue raw material can be regulated and controlled in real time, the wet tissue is prevented from generating wrinkles, and the packaging quality is improved; the first paper feeding wheel shaft is hinged with the paper feeding wheel sliding block, so that the function of raw material transportation can be realized in the tensioning and adjusting process, and the clamping stagnation phenomenon is avoided; the paper feeding wheel sliding block can slide in a reciprocating mode in the tensioning adjusting groove according to actual conditions under the action of the air cylinder and the compression spring, so that different tensioning degrees can be self-adapted, and tensioning degree adjustment is completed.

The integrated full-automatic E-shaped retest high-speed wet tissue packaging machine can be further set as follows: the tensioning adjusting assembly further comprises a second paper feeding wheel shaft hinged to the rack, and the second paper feeding wheel shaft and the first paper feeding wheel shaft are distributed oppositely and are respectively arranged on two sides of the material.

By adopting the technical scheme, the second paper feeding wheel shaft opposite to the first paper feeding wheel shaft is arranged, on one hand, the first paper feeding wheel shaft is matched to facilitate tensioning adjustment and prevent deflection, and on the other hand, the paper feeding wheel shaft can also be additionally provided with an embossing effect to avoid deformation and further prevent wrinkles.

The integrated full-automatic E-shaped retest high-speed wet tissue packaging machine can be further set as follows: the stacking mechanism is arranged on the rack and distributed on one side, facing the effective transportation direction, of the edge folding assembly, the stacking mechanism comprises a direct-punching cam hinged to the rack, a connecting pull rod is hinged to the direct-punching cam, the end portion of the connecting pull rod is hinged to a sliding hard shaft, the end portion of the sliding hard shaft is fixedly connected with a wind control plate, the connecting pull rod is in sliding fit with a slide rail assembly, and the conveyor is located below the direct-punching cam and is provided with a storage bin assembly.

By adopting the technical scheme, the blanking device is promoted to carry out high-speed blanking on the wet tissue in a multi-piece packaging manner by arranging the stacking mechanism, so that the overall suitability is improved, and the storage bin assembly is further matched to realize high-precision stacking; after the wet tissue is cut off and folded, the wet tissue sequentially passes below the stacking mechanism under the action of inertia, the direct punching cam rotates and drives the sliding hard shaft to do reciprocating linear motion along the axis of the sliding rail assembly through the connecting pull rod, and then the raw materials are sequentially delivered in the direction of the storage bin assembly in a flapping mode, and when the raw materials are stacked to a specified number or height, the raw materials are delivered to the next process of the packaging machine through the storage bin assembly; the sliding rail assembly mainly plays a guiding role in the sliding hard shaft, so that the motion trail of the sliding hard shaft is kept consistent all the time, different raw materials are guaranteed to be pushed to the stacking position at the same position, the stacking effect is improved, the stacking is tidy, no deflection exists, and high-precision stacking is achieved.

The integrated full-automatic E-shaped retest high-speed wet tissue packaging machine can be further set as follows: the storage bin component comprises storage sliding plates distributed on the side portion of the conveyor and distributed along the vertical effective conveying direction, the storage sliding plates are linked with sliding plate pushing cylinders mounted on the rack, the side portion of the conveyor is fixedly connected with baffles distributed above the storage sliding plates, and the baffles and the storage sliding plates are distributed vertically relatively.

Adopt above-mentioned technical scheme, when piling up, the storage slide removes to the top of conveyer under the promotion of slide promotion cylinder, then can receive the wet paper towel that comes from the delivery of air control board, and the storage slide remains fixed position throughout this moment, and when piling up to specified quantity or thickness, slide promotion cylinder drives the top that the storage slide withdrawed from the conveyer, and wet paper towel just drops to the conveyer on the effect of baffle, after the storage slide withdraws from completely to the conveyer transports it to next station.

The integrated full-automatic E-shaped retest high-speed wet tissue packaging machine can be further set as follows: the cutter component comprises a first cutter, one end of the first cutter is fixedly installed on the rack, a second cutter is intermittently linked to one side, located on the cutting edge of the first cutter, the end portion of the second cutter is hinged to the rack, and the second cutter can rotate around the hinged portion of the second cutter.

By adopting the technical scheme, the first cutter is designed to be fixed, the second cutter rotates around the hinge of the second cutter to realize intermittent cutting, the cutting work is stable, the cutting length of the wet tissue is always consistent, and the product quality problem cannot occur; and the cutting length of the single wet tissue can be changed by changing the parameters such as the rotation speed of the second cutter, so that the adaptability is improved.

The integrated full-automatic E-shaped retest high-speed wet tissue packaging machine can be further set as follows: the transverse sealing cutting module comprises a transverse sealing upper knife arranged at the upper part of the rack and a transverse sealing lower knife distributed below the transverse sealing upper knife, the rack is also provided with a driving device which is simultaneously linked with the transverse sealing upper knife and the transverse sealing lower knife and can drive the transverse sealing upper knife and the transverse sealing lower knife to perform relative opening and closing movement, the driving device comprises a supporting point connecting plate, a transverse cutting lifting shaft distributed at the side part of the supporting point connecting plate and in sliding connection with the supporting point connecting plate, a first servo motor fixedly arranged at the middle part of the supporting point connecting plate and a cam plate fixedly connected with the end part of the first servo motor;

the transverse sealing upper knife is relatively and fixedly connected with the end part of the transverse cutting lifting shaft;

two ends of the transverse sealing lower knife are in sliding fit with the transverse cutting lifting shaft;

the two ends of the cam plate are respectively hinged with an upper cutter lifting draw arm and a lower cutter lifting draw arm, the lower cutter lifting draw arm is hinged and linked with the transverse sealing lower cutter, the end part of the transverse cutting lifting shaft, which is far away from the transverse sealing upper cutter, is relatively and fixedly connected with an upper cutter lifting connecting plate, and the upper cutter lifting draw arm is hinged with the upper cutter lifting connecting plate.

By adopting the technical scheme, the circular rotary motion of the transverse sealing upper knife and the transverse sealing lower knife in the prior art can be replaced, the transverse sealing upper knife and the transverse sealing lower knife are modified into the vertical opening and closing transverse sealing motion, the influence caused by rigid impact can be reduced, the generation of cracks is delayed, and the service lives of the transverse sealing upper knife and the transverse sealing lower knife are prolonged; compared with the prior art, the transverse sealing is finished by the transverse sealing movement of opening and closing up and down, the wall thickness of the transverse sealing of materials such as packaging bags, packaging films and the like is uniformly distributed, further, the transverse sealing can be carried out on the materials with different thicknesses, and the application range is wider; the supporting point connecting plate is mainly used for bearing parts such as a first servo motor and the like; furthermore, by utilizing the connection form that the upper cutter lifting pull arm and the lower cutter lifting pull arm are respectively hinged at the two ends of the first servo motor, the cam plate and the cam plate, the opening and closing movement of the upper cutter and the lower cutter of the transverse seal can be simultaneously driven by a single power source, so that the transverse seal cutting function is realized.

The integrated full-automatic E-shaped retest high-speed wet tissue packaging machine can be further set as follows: the driving device further comprises a transverse moving arm-drawing mechanism which is arranged on the rack and can be in intermittent abutting connection with the lower cutter lifting arm-drawing, the transverse moving arm-drawing mechanism comprises a transverse linkage seat with two ends fixedly mounted on a supporting point connecting plate, a through hole for the lower cutter lifting arm-drawing to movably pass through is formed between the transverse linkage seat and the supporting point connecting plate, the transverse moving arm-drawing is hinged to the side portion of the transverse linkage seat far away from the supporting point connecting plate, a front-back moving cam hinged to the rack is linked with the transverse moving arm-drawing, and a second servo motor is linked with the front-back moving cam.

Adopt above-mentioned technical scheme, set up "lateral shifting arm-drag mechanism", the purpose is at the violently seal in-process, when treating that the cross-cut sword lift arm promotes the cross-cut lower knife until with violently seal the position, carry on spacingly to the cross-cut sword, impel the cross-cut lower knife when reaching the highest position (also violently seal the position), keep motionless, ensure that the radian of materials such as wrapping bag, packaging film reaches the tensioning requirement, can ensure on the one hand that the thickness that the packing was come out is equal, also the cross seal wall thickness evenly distributed of materials such as packaging film, on the other hand, the extension is violently sealed the time, ensure that the cross seal targets in place.

The integrated full-automatic E-shaped retest high-speed wet tissue packaging machine can be further set as follows: the frame is provided with second folding assemblies distributed on two sides of the transverse sealing upper knife, the second folding assemblies comprise opposite insertion groups distributed on two sides of the transverse sealing upper knife along the effective transportation direction, and the opposite insertion groups comprise two opposite insertion groups distributed on two ends of the transverse sealing upper knife along the effective transportation direction perpendicular to the two insertion groups.

By adopting the technical scheme, the second folding assembly is arranged, so that the functions of the transverse sealing and cutting equipment are improved, and the material can be subjected to angle folding and edge folding; wherein, the front and back sides of the transverse sealing upper knife are provided with the opposite insertion groups, which can ensure the folded angle to be in place and prevent the folded angle from rebounding.

The integrated full-automatic E-shaped retest high-speed wet tissue packaging machine can be further set as follows: the transverse sealing upper knife comprises a cutter and a transverse sealing main body which is relatively and fixedly connected with the end part of the transverse cutting lifting shaft, a heat-sealing wave groove is formed in the bottom of the transverse sealing main body, a cutting and cutting groove penetrates through the middle of the transverse sealing main body, the cutter is in sliding fit in the cutting and cutting groove, and the cutter is linked with a cutter pushing cylinder.

By adopting the technical scheme, the structure of the upper cutter of the transverse seal is improved, the cutter is additionally arranged, the cutting work is carried out while the transverse seal is carried out, the cutting is ensured to be in place, and the adhesion is prevented.

The present invention will be described in further detail with reference to the accompanying drawings and examples.

Drawings

FIG. 1 is a schematic view of the overall structure of the embodiment of the present invention;

FIG. 2 is a schematic view of a blanking device according to an embodiment of the present invention;

FIG. 3 is a schematic view of a tension adjustment assembly of an embodiment of the present invention;

FIG. 4 is a schematic view of a stacking mechanism according to an embodiment of the invention;

FIG. 5 is a schematic view of a storage bin assembly according to an embodiment of the present invention;

FIG. 6 is a schematic view of a cutter assembly according to an embodiment of the present invention;

FIG. 7 is a schematic view of a cross-seal severing module according to an embodiment of the present invention;

FIG. 8 is a schematic view of a driving device according to an embodiment of the present invention;

fig. 9 is a schematic view of a cross-sealing upper knife according to an embodiment of the invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The full-automatic E type of integral type retest high-speed wet tissue packagine machine that as shown in fig. 1, including frame 1 and set up conveyer 2 in frame 1, conveyer 2 has unloading module, vertical sealing module 4, the horizontal sealing to cut off module 5 along effective direction of transportation in proper order, the tip that lies in setting up the unloading module in frame 1 is equipped with the reel area that distributes in conveyer 2 below and can carry the packaging film and lays subassembly 6, conveyer 2 lies in and is equipped with between unloading module and the vertical sealing device and can lay advancing area guiding mechanism 7 of subassembly 6 linkage with the reel area, the unloading module includes that two sets of edges effective direction of transportation distributes in proper order in the unloader 3 of conveyer 2 top.

The working principle of the whole machine is as follows: the two groups of blanking devices 3 simultaneously carry out the work of conveying, folding, cutting and stacking the wet tissue raw materials, the wet tissue raw materials are changed into multiple pieces of wet tissues which are orderly stacked after passing through the blanking devices 3, and the conveyor 2 receives the wet tissues and conveys the wet tissues to the belt feeding guide mechanism 7; meanwhile, the winding drum tape placing assembly 6 transports the packaging film to the tape feeding guide mechanism 7; the belt feeding guide mechanism 7 is mainly used for smoothly transporting wet tissues to a packaging film, then the packaging film carrying the wet tissues is transported to the vertical sealing module 4 by the conveyor 2 for vertical sealing, and after the vertical sealing is finished, the wet tissues are delivered to the horizontal sealing cutting module 5 for horizontal sealing and cutting, so that the wet tissues are packaged and finished, the whole process has the advantages of high-speed blanking and high-precision stacking, and the problem of low packaging efficiency in the prior art is solved.

The blanking device 3 shown in fig. 2 to 6 comprises a raw material transportation roller 31 and a sinking tank 32 which are arranged on the frame 1, wherein a folding mechanism which can transport, fold and cut off the material is arranged on one side of the sinking tank 32 far away from the raw material transportation roller 31;

the folding mechanism sequentially comprises a plurality of road plate assemblies 33 for steering and transporting materials and assisting in folding, cutter assemblies 34 which are distributed along the effective material transporting direction and are positioned below the plurality of road plate assemblies 33, and first folding assemblies 35 for folding the edges and corners of the materials;

the machine frame 1 is provided with a tensioning adjusting assembly 36 distributed between the cutter assembly 34 and the multiple path plate assembly 33, the tensioning adjusting assembly 36 comprises a first paper feeding wheel shaft 361, a paper feeding wheel sliding block 362, a compression spring 363 and a tensioning adjusting cylinder 364, and the machine frame 1 is provided with a tensioning adjusting groove 365 distributed between the multiple path plate assembly 33 and the cutter assembly 34;

the middle of the first paper feeding wheel shaft 361 is hinged to the paper feeding wheel sliding block 362, the paper feeding wheel sliding block 362 is installed in the tensioning adjusting groove 365 in a sliding fit mode, the tensioning adjusting cylinder 364 is fixedly installed at the end of the tensioning adjusting groove 365, the axis of the tensioning adjusting cylinder 364 is parallel to the axis of the tensioning adjusting groove 365, the end of the tensioning adjusting cylinder 364 is linked with the paper feeding wheel sliding block 362, and the compression springs 363 are distributed between the tensioning adjusting cylinder 364 and the paper feeding wheel sliding block 362, and two ends of the compression springs 363 are respectively connected with the tensioning adjusting cylinder 364 and the paper feeding wheel sliding block 362 in an abutting mode. The tension adjusting assembly 36 further includes a second paper feeding wheel shaft 366 hinged to the frame 1, and the second paper feeding wheel shaft 366 and the first paper feeding wheel shaft 361 are distributed oppositely and respectively disposed on two sides of the material.

Be equipped with stacking mechanism 37 on frame 1, stacking mechanism 37 distributes and is located the one side towards effective direction of transportation in the hem subassembly, stacking mechanism 37 is including articulating the straight cam 371 that dashes on frame 1, straight cam 371 articulates there is connection pull rod 372, it has smooth hard axle 373 to connect pull rod 372 tip articulated, smooth hard axle 373 tip has linked firmly wind-operated panel 374 relatively, it has slide rail set 375 to connect pull rod 372 sliding fit, conveyer 2 is located straight cam 371 below and is equipped with storage storehouse subassembly 38.

The storage bin assembly 38 comprises storage sliding plates 381 which are distributed on the side portion of the conveyor 2 and distributed along the direction perpendicular to the effective transportation direction, the storage sliding plates 381 are linked with sliding plate pushing cylinders 382 mounted on the rack 1, baffle plates 383 distributed above the storage sliding plates 381 are fixedly connected to the side portion of the conveyor 2 relatively, and the baffle plates 383 and the storage sliding plates 381 are distributed vertically relatively.

The cutter assembly 34 includes a first cutter 341 with one end fixedly mounted on the frame 1, the first cutter 341 is intermittently linked with a second cutter 342 located on one side of the cutting edge of the first cutter 341, the end of the second cutter 342 is hinged to the frame 1, and the second cutter 342 can rotate around the hinged position.

The working principle of the blanking module is as follows: wet tissue raw materials enter a relevant solution to form uncut wet tissues through a raw material conveying roller 31 to a water settling tank 32, the uncut wet tissues are sequentially subjected to steering conveying and folding through a plurality of path plate assemblies 33, then are subjected to cutting separation through a cutter assembly 34, single-piece wet tissues are formed at the moment, then the single-piece wet tissues are folded through a first folding assembly 35 according to actual requirements, after the folding is completed, a straight punching cam 371 drives a wind control plate 374 to reciprocate along the axial direction of a sliding rail assembly 375, so that the single-piece wet tissues are pushed regularly, the wet tissues are sequentially stacked on a storage sliding plate 381, when the wet tissues are stacked to the actually required number or height, the storage sliding plate 381 is pushed out of the upper part of a conveyor 2, and the stacked wet tissues fall on the conveyor 2 and are conveyed to a belt feeding guide mechanism 7, so that the blanking is completed; in the whole process, the tensioning adjusting component 36 adaptively performs tensioning adjustment on the wet tissue raw material, so as to prevent the wet tissue from generating wrinkles, and the stacking mechanism 37 can realize high-precision stacking without deflection.

The transverse sealing and cutting module 5 shown in fig. 7 to 9 includes a transverse sealing upper knife 51 disposed at the upper portion of the frame 1 and a transverse sealing lower knife 52 distributed below the transverse sealing upper knife 51, the frame 1 is further provided with a driving device 53 which is simultaneously linked with the transverse sealing upper knife 51 and the transverse sealing lower knife 52 and can drive the transverse sealing upper knife 51 and the transverse sealing lower knife 52 to perform a relative opening and closing motion, the driving device 53 includes a supporting point connecting plate 531, a transverse cutting lifting shaft 532 distributed at the side portion of the supporting point connecting plate 531 and slidably connected with the supporting point connecting plate 531, a first servo motor fixedly mounted at the middle portion of the supporting point connecting plate 531, and a cam plate 533 fixedly connected with the end portion of the first servo motor; the transverse sealing upper knife 51 is relatively and fixedly connected with the end part of the transverse cutting lifting shaft 532; the two ends of the transverse sealing lower knife 52 are in sliding fit with a transverse cutting lifting shaft 532; the two ends of the cam plate 533 are respectively hinged with an upper knife lifting draw arm 534 and a lower knife lifting draw arm 535, the lower knife lifting draw arm 535 is hinged and linked with the horizontal sealing lower knife 52, the end part of the transverse cutting lifting shaft 532 far away from the horizontal sealing upper knife 51 is relatively fixedly connected with an upper knife lifting connecting plate 536, and the upper knife lifting draw arm 534 is hinged with the upper knife lifting connecting plate 536.

The driving device 53 further comprises a transverse moving pull arm 538 mechanism which is arranged on the machine frame 1 and can be intermittently connected with the lower cutter lifting pull arm 535 in an abutting mode, the transverse moving pull arm 538 mechanism comprises a transverse linkage seat 537, two ends of the transverse linkage seat 537 are fixedly arranged on the supporting point connecting plate 531, a through hole through which the lower cutter lifting pull arm 535 can movably penetrate is formed between the transverse linkage seat 537 and the supporting point connecting plate 531, the transverse moving pull arm 538 is hinged to the side portion, away from the supporting point connecting plate 531, of the transverse moving pull arm 537, a front-and-back moving cam 539 hinged to the machine frame 1 is linked with the transverse moving pull arm 538, and a second servo motor is linked with the front-back moving cam 539.

The frame 1 is provided with second folding assemblies distributed on two sides of the transverse sealing upper knife 51, the second folding assemblies comprise opposite insertion 54 groups distributed on two sides of the transverse sealing upper knife 51 along the effective transportation direction, and the opposite insertion 54 groups comprise two opposite insertion 54 groups distributed on two ends of the transverse sealing upper knife 51 along the effective transportation direction perpendicular to the effective transportation direction.

The transverse sealing upper knife 51 comprises a cutting knife 511 and a transverse sealing main body 512 which is relatively and fixedly connected with the end part of the transverse cutting lifting shaft 532, a heat-sealing wave groove 513 is formed in the bottom of the transverse sealing main body 512, a cutting and cutting groove 514 is formed in the middle of the transverse sealing main body 512 in a penetrating mode, the cutting knife 511 is in sliding fit with the cutting and cutting groove 514, and the cutting knife 511 is linked with a cutting knife pushing cylinder 515.

The transverse sealing and cutting module 5 has the working principle that: the cam plate 533 simultaneously drives the upper cutter lifting draw arm 534 and the lower cutter lifting draw arm 535 to move, the upper cutter lifting draw arm 534 drives the transverse sealing upper cutter 51 to move through the transverse cutting lifting shaft 532, the lower cutter lifting draw arm 535 drives the transverse sealing lower cutter 52 to move, the upper cutter lifting draw arm and the lower cutter lifting draw arm constitute relative opening and closing movement, meanwhile, the back-and-forth moving cam 539 drives the transverse draw arm to move, the transverse draw arm drives the supporting point connecting plate 531 to integrally move towards the direction of the lower cutter lifting draw arm 535 through the transverse linkage seat 537, therefore, when the transverse sealing lower cutter 52 moves to the highest position (transverse sealing position), the supporting point connecting plate limits the lower cutter lifting draw arm 535, the transverse sealing upper cutter 51 and the transverse sealing lower cutter 52 keep fixed relative positions at the moment, so as to transversely seal the packaging bags, and in the transverse sealing process, the cutter 511 cuts off and separates the connected packaging bags, thus completing the packaging of the wet tissues; the whole process has no rigid impact, the transverse seal is in place, and the wall thickness at the transverse seal is uniformly distributed.

Claims (10)

1. Full-automatic E type of integral type retest high-speed wet tissue packagine machine, include the frame and set up the conveyer in the frame, the conveyer has unloading module, erects to seal the module, violently seals the module of cutting off along effective direction of transportation in proper order, the tip that lies in setting up the unloading module in the frame is equipped with the reel area that distributes in the conveyer below and can carry the packaging film and lays the subassembly, the conveyer lies in to be equipped with between unloading module and the perpendicular closing means can lay the advancing area guiding mechanism of subassembly linkage with the reel area, its characterized in that: the blanking module comprises a plurality of groups of blanking devices which are sequentially distributed above the conveyor along the effective conveying direction.

2. The integrated full-automatic E-type retest high-speed wet tissue packaging machine according to claim 1, wherein: the blanking device comprises a raw material conveying roller and a sinking tank which are arranged on a rack, wherein a folding mechanism capable of conveying, folding and cutting off materials is arranged on one side of the sinking tank, which is far away from the raw material conveying roller;

the folding mechanism sequentially comprises a road counting plate component, a cutter component and a first folding component, wherein the road counting plate component is used for steering and transporting materials and assisting in folding, the cutter component is distributed along the effective material transporting direction and is positioned below the road counting plate component, and the first folding component is used for folding the edges and corners of the materials;

the machine frame is provided with tensioning adjusting components distributed between the cutter component and the multiple path board components, each tensioning adjusting component comprises a first paper feeding wheel shaft, a paper feeding wheel sliding block, a compression spring and a tensioning adjusting cylinder, and the machine frame is provided with tensioning adjusting grooves distributed between the multiple path board components and the cutter component;

the middle part of the first paper feeding wheel shaft is hinged to the paper feeding wheel sliding block, the paper feeding wheel sliding block is installed in the tensioning adjusting groove in a sliding fit mode, the tensioning adjusting cylinder is fixedly installed at the end part of the tensioning adjusting groove, the axis of the tensioning adjusting cylinder is parallel to the axis of the tensioning adjusting groove, the end part of the tensioning adjusting cylinder is linked with the paper feeding wheel sliding block, and the compression springs are distributed between the tensioning adjusting cylinder and the paper feeding wheel sliding block and are connected with the tensioning adjusting cylinder and the paper feeding wheel sliding block in an abutting mode at two ends of the compression springs.

3. The integrated full-automatic E-type retest high-speed wet tissue packaging machine according to claim 2, wherein: the tensioning adjusting assembly further comprises a second paper feeding wheel shaft hinged to the rack, and the second paper feeding wheel shaft and the first paper feeding wheel shaft are distributed oppositely and are respectively arranged on two sides of the material.

4. The integrated full-automatic E-type retest high-speed wet tissue packaging machine according to claim 2, wherein: the stacking mechanism is arranged on the rack and distributed on one side, facing the effective transportation direction, of the edge folding assembly, the stacking mechanism comprises a direct-punching cam hinged to the rack, a connecting pull rod is hinged to the direct-punching cam, the end portion of the connecting pull rod is hinged to a sliding hard shaft, the end portion of the sliding hard shaft is fixedly connected with a wind control plate, the connecting pull rod is in sliding fit with a slide rail assembly, and the conveyor is located below the direct-punching cam and is provided with a storage bin assembly.

5. The integrated full-automatic E-type retest high-speed wet tissue packaging machine according to claim 4, wherein: the storage bin component comprises storage sliding plates distributed on the side portion of the conveyor and distributed along the vertical effective conveying direction, the storage sliding plates are linked with sliding plate pushing cylinders mounted on the rack, the side portion of the conveyor is fixedly connected with baffles distributed above the storage sliding plates, and the baffles and the storage sliding plates are distributed vertically relatively.

6. The integrated full-automatic E-type retest high-speed wet tissue packaging machine according to claim 2, wherein: the cutter component comprises a first cutter, one end of the first cutter is fixedly installed on the rack, a second cutter is intermittently linked to one side, located on the cutting edge of the first cutter, the end portion of the second cutter is hinged to the rack, and the second cutter can rotate around the hinged portion of the second cutter.

7. The integrated full-automatic E-type retest high-speed wet tissue packaging machine according to claim 1, wherein: the transverse sealing cutting module comprises a transverse sealing upper knife arranged at the upper part of the rack and a transverse sealing lower knife distributed below the transverse sealing upper knife, the rack is also provided with a driving device which is simultaneously linked with the transverse sealing upper knife and the transverse sealing lower knife and can drive the transverse sealing upper knife and the transverse sealing lower knife to perform relative opening and closing movement, the driving device comprises a supporting point connecting plate, a transverse cutting lifting shaft distributed at the side part of the supporting point connecting plate and in sliding connection with the supporting point connecting plate, a first servo motor fixedly arranged at the middle part of the supporting point connecting plate and a cam plate fixedly connected with the end part of the first servo motor;

the transverse sealing upper knife is relatively and fixedly connected with the end part of the transverse cutting lifting shaft;

two ends of the transverse sealing lower knife are in sliding fit with the transverse cutting lifting shaft;

the two ends of the cam plate are respectively hinged with an upper cutter lifting draw arm and a lower cutter lifting draw arm, the lower cutter lifting draw arm is hinged and linked with the transverse sealing lower cutter, the end part of the transverse cutting lifting shaft, which is far away from the transverse sealing upper cutter, is relatively and fixedly connected with an upper cutter lifting connecting plate, and the upper cutter lifting draw arm is hinged with the upper cutter lifting connecting plate.

8. The integrated full-automatic E-type retest high-speed wet tissue packaging machine according to claim 7, wherein: the driving device further comprises a transverse moving arm-drawing mechanism which is arranged on the rack and can be in intermittent abutting connection with the lower cutter lifting arm-drawing, the transverse moving arm-drawing mechanism comprises a transverse linkage seat with two ends fixedly mounted on a supporting point connecting plate, a through hole for the lower cutter lifting arm-drawing to movably pass through is formed between the transverse linkage seat and the supporting point connecting plate, the transverse moving arm-drawing is hinged to the side portion of the transverse linkage seat far away from the supporting point connecting plate, a front-back moving cam hinged to the rack is linked with the transverse moving arm-drawing, and a second servo motor is linked with the front-back moving cam.

9. The integrated full-automatic E-type retest high-speed wet tissue packaging machine according to claim 8, wherein: the frame is provided with second folding assemblies distributed on two sides of the transverse sealing upper knife, the second folding assemblies comprise opposite insertion groups distributed on two sides of the transverse sealing upper knife along the effective transportation direction, and the opposite insertion groups comprise two opposite insertion groups distributed on two ends of the transverse sealing upper knife along the effective transportation direction perpendicular to the two insertion groups.

10. The integrated full-automatic E-type retest high-speed wet tissue packaging machine according to claim 7, wherein: the transverse sealing upper knife comprises a cutter and a transverse sealing main body which is relatively and fixedly connected with the end part of the transverse cutting lifting shaft, a heat-sealing wave groove is formed in the bottom of the transverse sealing main body, a cutting and cutting groove penetrates through the middle of the transverse sealing main body, the cutter is in sliding fit in the cutting and cutting groove, and the cutter is linked with a cutter pushing cylinder.

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