CN220884965U - Nail foil cutting and packaging production line - Google Patents

Abstract

The utility model relates to the technical field of production equipment of nail-beautifying aluminum foils, and provides a nail-beautifying foil cutting and packaging production line, which comprises a feeding assembly, a transferring assembly and a packaging assembly, wherein the nail-beautifying foil sequentially passes through the feeding assembly, the transferring assembly and the packaging assembly, the packaging assembly comprises a packaging guide table, a packaging side baffle plate, a packaging frame, a packaging machine and a film guide shaft, the packaging guide table is arranged on one side of the transferring assembly, the packaging side baffle plate is arranged on the packaging guide table in a sliding manner, the packaging frame is arranged on one side of the packaging guide table, the packaging machine is arranged on one side of the packaging frame, a packaging channel is formed between the two packaging side baffle plates, the lower part of the packaging guide table is rotatably provided with the film guide shaft, and a packaging film passes through the packaging channel after being guided by the film guide shaft; through the technical scheme, the problem that the nail foil with different packaging requirements in the related art needs different packaging equipment to carry out packaging operation, and when the packaging specification changes, a plurality of sets of equipment are idle, so that the overall working efficiency is low, the production cost is high and the equipment maintenance cost is high is solved.

Description

Nail foil cutting and packaging production line

Technical Field

The utility model relates to the technical field of production equipment of nail-beautifying aluminum foils, in particular to a nail-beautifying foil cutting and packaging production line.

Background

Nail foil is a tool for removing the paint on the nails. Along with the rising of the nail art, the demand of the nail foil is gradually increased, the nail foil is generally cut into small sections after being produced, then the small sections are stacked and integrally packed, and then the packed nail foil is sent to the hands of a user. During production, the packing process is different for different customer demands, so that two sets of packing equipment are required to be designed for packing operation, the daily production amount of the nail foil is limited by considering the factors such as the workload of field operators, the wearing degree of equipment, the maintenance of equipment and the like, at the moment, the two sets of packing equipment cannot be fully opened for use, the problems of idle equipment and low use rate exist, the investment cost, the maintenance cost and the like of production equipment are increased, and a plurality of sets of equipment occupy more space in a production workshop, so that the effective use rate of the space is reduced; therefore, the prior art needs to be improved and optimized, and the utilization rate of equipment is improved.

Disclosure of utility model

The utility model provides a nail foil cutting and packing production line, which solves the problems that in the related art, different packing equipment is required for packing nail foils with different packing requirements, and when packing specifications change, a plurality of sets of equipment are idle, so that the overall working efficiency is low, the production cost is high and the equipment maintenance cost is high.

The technical scheme of the utility model is as follows:

The utility model provides a beautiful first paper tinsel cutting packaging production line, includes the material loading subassembly, transport subassembly and the packing subassembly that beautiful first paper tinsel passed through in proper order, the packing subassembly is including packing guide table, packing side shield, packing frame, baling press and guide shaft, the packing guide table sets up transport the discharge gate one side of subassembly, the quantity of packing side shield is two all to slide and sets up on the packing guide table, the packing frame sets up packing guide table's discharge gate one side, the baling press sets up one side of packing frame, two form the packing passageway that packing film passed through between the packing side shield, the below rotation of packing guide table is provided with guide shaft, be close to on the packing guide table one side of transporting the subassembly is provided with the guide bar, the packing film passes through behind the direction of guide shaft with guide bar sliding connection and pass the packing passageway.

As a further technical scheme, the packing assembly further comprises a packing conveying frame, a packing conveying belt and a packing guide plate, wherein the packing conveying frame is arranged between the packing guide table and the transferring assembly, the packing conveying belt is circularly and slidingly arranged on the packing conveying frame, and the packing guide plate is slidingly arranged on the packing conveying frame.

As further technical scheme, still include the ejection of compact subassembly, the ejection of compact subassembly includes cuts chartered plane, ejection of compact frame, ejection of compact conveyer belt and divides the material unit, it is in to cut out the chartered plane setting and be in the discharge gate department of packing subassembly, the ejection of compact frame sets up cut out the discharge gate department of chartered plane, ejection of compact conveyer belt circulation slip sets up on the ejection of compact frame, divide the material unit to set up the discharge gate department of ejection of compact frame, divide the material unit to include slide, flow distribution plate and reposition of redundant personnel cylinder, the slide sets up the discharge gate department of ejection of compact frame, it has to articulate on the slide the flow distribution plate, the reposition of redundant personnel cylinder sets up on the flow distribution plate, the flexible output of reposition of redundant personnel cylinder with the flow distribution plate articulates.

As a further technical scheme, the feeding assembly comprises a frame, a cutting table is arranged on the frame, a cutting motor is arranged on the cutting table, a cutting knife is arranged on a telescopic output shaft of the cutting motor, a limiting plate in extrusion contact with the nail foil is arranged on the frame, and the limiting plate is positioned on one side of a discharge hole of the cutting table; the feeding port one side of cutting platform is provided with the delivery track, it is provided with a plurality of conveying roller that interval distributes in proper order to rotate on the delivery track.

As a further technical scheme, the left and right sides of the feed inlet of the cutting table are provided with arc-shaped guide plates, the left and right sides of the discharge outlet of the cutting table are provided with side limit frames, the lower part of the discharge outlet of the cutting table is provided with a rear limit frame, one side, close to the cutting motor, of the cutting knife is provided with a limit block, and the limit block is in interference with or separated from the side limit frames when the cutting knife slides.

As a further technical scheme, the feeding assembly further comprises a lifting motor, a feeding motor and a feeding supporting plate, wherein the feeding motor is arranged on the frame, the lifting motor is arranged on an output shaft of the feeding motor, the feeding supporting plate is arranged on an output shaft of the lifting motor, and the feeding supporting plate is positioned below a discharge hole of the cutting table.

As a further technical scheme, transport the subassembly and include transport support frame, conveying chain and transport layer board, transport support frame sets up packing guide table with between the material loading subassembly, it is provided with a plurality of delivery wheel to rotate on the transport support frame, transport support frame one side is provided with the conveying motor, the output shaft of conveying motor with one of them the delivery wheel links firmly, the conveying chain cover is established on the delivery wheel, detachable is provided with a plurality of interval distribution's on the conveying chain transport layer board, be provided with the gib block on the material loading layer board, the guide groove has been seted up on the transport layer board, the gib block with guide groove sliding connection.

As a further technical scheme, offer the storage tank of depositing the nail foil on the transport layer board, transport the subassembly still including pushing away the material unit, it includes pushing away material cylinder, sideslip motor and pushing away the flitch to push away the material unit, the sideslip motor sets up one side of conveyer chain, be provided with on the sideslip motor along the linear motion output shaft pushing away the material cylinder, be provided with on pushing away the telescopic link of material cylinder pushing away the flitch, pushing away the flitch with storage tank sliding connection.

As a further technical scheme, transport the subassembly still including transporting the unit, transport the unit and including transporting the support frame, transporting the bottom plate, transporting the opening frame, first transport cylinder and spacing cylinder, transport the support frame setting and be in one side of conveyer chain and be located the top of packing guide table feed inlet, it is in to transport the opening frame setting on the support frame, the opening direction orientation below of transporting the opening frame, first transport cylinder setting is in transport on the support frame, be provided with on the telescopic link of first transport cylinder transport the bottom plate, transport the bottom plate with transport the opening sliding connection of opening frame, transport the bottom plate and be located packing guide table feed inlet's top, transport the bottom plate and transport the opening frame and around the transport passageway of becoming the nail foil, spacing cylinder sets up transport the top of opening frame, first recess has been seted up on the transportation opening frame, telescopic link on the spacing cylinder passes first recess and is located in the passageway.

As a further technical scheme, the quantity of transporting the unit is two and symmetry sets up transport on the support frame, transport the unit and still include link, second transport cylinder, slide rail and sliding block, the slide rail sets up transport on the support frame, the sliding block slip set up on the slide rail and with the link links firmly, the link sets up transport on the opening frame, first transport cylinder sets up on the link, the second is transported the cylinder setting and is in transport on the support frame, the telescopic link of cylinder is transported to the second with the link links firmly.

The working principle and the beneficial effects of the utility model are as follows:

The utility model provides a nail foil cutting and packaging production line, which specifically comprises a feeding assembly, a transferring assembly and a packaging assembly, wherein the packaging assembly comprises a packaging guide table, a packaging side baffle, a packaging frame, a packaging machine, a film guide shaft, a packaging conveying frame, a packaging conveying belt and a packaging guide plate; before working, firstly guiding a packaging film for packaging the nail foil from a material shaft, guiding the packaging film by a film guiding shaft, sliding a guide rod of the packaging film, extending the packaging film from the guide rod to a packaging machine, and closing the packaging machine to form a transitional packaging section of the packaging film between the guide rod and the packaging machine; the left and right side edges of the transition packaging section below the packer are overlapped below the packer; the packing guide table is positioned below the transition packing section, and then the feeding assembly, the transferring assembly and the packing assembly are started; stacking the nail-beautifying foils cut into small sections into a pile, conveying the pile of nail-beautifying foils to a packing conveying belt through a conveying assembly, and conveying the nail-beautifying foils to a transitional packing section on a packing guide table by the packing conveying belt; under the driving action of the packaging film, the nail foil moves along the packaging film to a direction close to the packer; at the moment, a counterweight frame is arranged at the discharge hole of the packing conveying frame, a counterweight bar is arranged on the counterweight frame, the counterweight bar extends to the lower part of the packing machine from the discharge hole of the packing conveying frame, the nail foil sliding out of the packing conveying belt is just positioned below the counterweight bar and is in extrusion contact with the counterweight bar, the nail foil is extruded under the action of the gravity of the counterweight bar, the nail foil is compacted, the space occupied by the nail foil is reduced, and the packing effect of the packing machine is facilitated; when the nail foil moves to the lower part of the packer along with the transition packing section, the packer is selected from the existing equipment with heating and sealing functions; after being packed by a packer, the packaging film forms a cylinder shape, a stack of nail-beautifying foils are distributed in the cylinder-shaped packaging film at intervals, and then the cylinder-shaped packaging film continuously moves forwards to carry out subsequent operation treatment.

In order to meet the collinear production of the nail foil with different packaging requirements, the positions of the packaging side baffles on the packaging guide table are adjusted to enable the two packaging side baffles to be close to or far away from each other; when the two packing side baffles are adjusted to be close to each other until only one stack of nail foils can be accommodated to pass, the packing machine packs the stack of nail foils at the moment; when the two packing side baffles are adjusted to be far away from each other until the two stacks of nail foils can be accommodated to pass through side by side, and simultaneously, in order to ensure accurate conveying of the nail foils, the positions of the packing guide plates are synchronously adjusted, so that the distance between the two packing guide plates is kept consistent with the distance between the two packing side baffles; then carry the packing carriage with two piles of nail-beautifying foils simultaneously, carry the packing guide table through the packing conveyer belt, then enter into on the transition package section, remove to baling press department under the drive of transition package section and accomplish the packing operation, accomplish the packing operation of one pile or two piles of nail-beautifying foils with the help of the adjustment of packing side shield and packing guide plate position, improve the utilization ratio of packing equipment, avoid preparing many sets of packing equipment, reduce manufacturing cost, reduce equipment maintenance cost and maintenance time.

Drawings

The utility model will be described in further detail with reference to the drawings and the detailed description.

FIG. 1 is a schematic view of the overall structure of the present utility model;

FIG. 2 is a schematic view of the structure of the packing assembly of the present utility model;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

FIG. 4 is a schematic view of the junction of the transfer assembly and the loading assembly of the present utility model;

FIG. 5 is a partial enlarged view at B in FIG. 4;

FIG. 6 is a schematic view of the structure of the feeding assembly of the present utility model;

FIG. 7 is an enlarged view of a portion of FIG. 6 at C;

FIG. 8 is a schematic view of the structure of the transfer assembly of the present utility model;

FIG. 9 is a partial enlarged view at D in FIG. 8;

in the figure: 1. the feeding component, 2, the transferring component, 3, the packing component, 4, the packing guide table, 5, the packing side baffle, 6, the packing frame, 7, the packing machine, 8, the film guiding shaft, 9, the guide rod, 10, the packing conveying frame, 11, the packing conveying belt, 12, the packing guide plate, 13, the discharging component, 14, the packing machine, 15, the discharging frame, 16, the discharging conveying belt, 17, the distributing unit, 18, the slide plate, 19, the distributing plate, 20, the distributing cylinder, 21, the frame, 22, the cutting table, 23, the cutting motor, 24, the cutting knife, 25, the limiting plate, 26, the conveying track, 27, the conveying roller, 28, the arc-shaped guide plate, 29, the side limiting frame, 30, the rear limiting frame, 31 and the limiting block, 32, lifting motor, 33, feeding motor, 34, feeding pallet, 35, conveying support frame, 36, conveying chain, 37, conveying pallet, 38, conveying wheel, 39, conveying motor, 40, guide bar, 41, guide groove, 42, storage tank, 43, pushing unit, 44, pushing cylinder, 45, traversing motor, 46, pushing plate, 47, transferring unit, 48, transferring support frame, 49, transferring bottom plate, 50, transferring opening frame, 51, first transferring cylinder, 52, limiting cylinder, 53, first groove, 54, connecting frame, 55, second transferring cylinder, 56, slide rail, 57, sliding block, 58, transition packaging section, 59, counterweight frame, 60, counterweight bar, 61, processor.

Detailed Description

The technical solutions of the embodiments of the present utility model will be clearly and completely described below in conjunction with the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in fig. 1 to 9, the embodiment provides a nail foil cutting and packaging production line;

The utility model provides a beautiful first paper tinsel cutting packing production line, including the feeding subassembly 1 that beautiful first paper tinsel passed through in proper order, transport subassembly 2 and packing subassembly 3, packing subassembly 3 is including packing guide table 4, packing side shield 5, packing frame 6, baling press 7 and guide shaft 8, packing guide table 4 sets up in the discharge gate one side of transporting subassembly 2, the quantity of packing side shield 5 is two all sliding settings on packing guide table 4, packing frame 6 sets up in the discharge gate one side of packing guide table 4, baling press 7 sets up in one side of packing frame 6, form the packing passageway that the packing film passed through between two packing side shields 5, the below rotation of packing guide table 4 is provided with guide shaft 8, one side that is close to on the packing guide table 4 and transports subassembly 2 is provided with guide bar 9, packing film is through guide bar 9 sliding connection and pass the packing passageway behind the direction of guide shaft 8.

Further, the packing assembly 3 further comprises a packing conveying frame 10, a packing conveying belt 11 and a packing guide plate 12, the packing conveying frame 10 is arranged between the packing guide table 4 and the transferring assembly 2, the packing conveying belt 11 is circularly and slidingly arranged on the packing conveying frame 10, and the packing guide plate 12 is slidingly arranged on the packing conveying frame 10.

In this embodiment, as shown in fig. 1 to 3, a nail foil cutting and packaging production line is provided, which specifically includes a feeding component 1, a transferring component 2, and a packaging component 3, wherein the packaging component 3 includes a packaging guide table 4, a packaging side baffle 5, a packaging frame 6, a packaging machine 7, a film guiding shaft 8, and further includes a packaging conveying frame 10, a packaging conveying belt 11, and a packaging guide plate 12; before working, firstly guiding a packaging film for packaging the nail foil from a material shaft, guiding the packaging film by a film guiding shaft 8, sliding a packaging film moving guide rod 9 over the packaging film, extending the packaging film from the guide rod 9 to a packaging machine 7, and closing the packaging machine 7 to form a transitional packaging section 58 of the packaging film between the guide rod 9 and the packaging machine 7; the left and right side edges of the transitional packing section 58 below the packer 7 are overlapped below the packer 7; the packing guide table 4 is positioned below the transition packing section 58, and then the feeding assembly 1, the transferring assembly 2 and the packing assembly 3 are started; stacking the nail foils cut into small sections into a pile, conveying the pile of nail foils through the transfer assembly 2, conveying the pile of nail foils to the packing conveying belt 11, and conveying the nail foils to the transition packing section 58 on the packing guide table 4 by the packing conveying belt 11; under the driving action of the packaging film, the nail foil moves along the packaging film to a direction approaching to the packer 7; at this time, a counterweight frame 59 is arranged at the discharge port of the packing conveying frame 10, a counterweight bar 60 is arranged on the counterweight frame 59, the counterweight bar 60 extends to the lower part of the packing machine 7 from the discharge port of the packing conveying frame 10, and the nail foil sliding out of the packing conveying belt 11 is just positioned under the counterweight bar 60 and is in extrusion contact with the counterweight bar 60, so that the nail foil is extruded under the action of the gravity of the counterweight bar 60, the nail foil is compacted, the space occupied by the nail foil is reduced, and the packing effect of the packing machine 7 is facilitated; when the nail foil moves to the lower part of the packer 7 along with the transition packing section 58, the packer 7 is selected from the existing equipment with heating and sealing functions; after being packed by the packer 7, the packaging film forms a cylinder shape, a stack of nail foil is distributed in the cylinder-shaped packaging film at intervals, and then the cylinder-shaped packaging film continues to move forwards for subsequent operation treatment.

In order to meet the collinear production of the nail foil with different packaging requirements, the positions of the packaging side baffles 5 on the packaging guide table 4 are adjusted so that the two packaging side baffles 5 are close to or far away from each other; when the two packing side baffles 5 are adjusted to be close to each other until only one stack of nail foils can be accommodated to pass, the packing machine 7 packs the stack of nail foils; when the two packing side baffles 5 are adjusted to be far away from each other until the two stacks of nail foils can be accommodated to pass through side by side, and simultaneously, in order to ensure accurate conveying of the nail foils, the positions of the packing guide plates 12 are synchronously adjusted, so that the distance between the two packing guide plates 12 is kept consistent with the distance between the two packing side baffles 5; then two stacks of nail foils are simultaneously conveyed to the packing conveying frame 10, conveyed to the packing guide table 4 through the packing conveying belt 11, then enter into the transition packing section 58, move to the packing machine 7 to finish packing operation under the drive of the transition packing section 58, finish packing operation of one stack or two stacks of nail foils by means of the adjustment of the positions of the packing side baffle 5 and the packing guide plate 12, improve the utilization rate of packing equipment, avoid preparing multiple sets of packing equipment, reduce the production cost, and reduce the equipment maintenance cost and the maintenance time.

Further, still include ejection of compact subassembly 13, ejection of compact subassembly 13 includes cut-and-chartered plane 14, ejection of compact frame 15, ejection of compact conveyer belt 16 and dividing unit 17, cut-and-chartered plane 14 sets up the discharge gate department at packing subassembly 3, ejection of compact frame 15 sets up the discharge gate department at cut-and-chartered plane 14, ejection of compact conveyer belt 16 circulation slip sets up on ejection of compact frame 15, dividing unit 17 sets up the discharge gate department at ejection of compact frame 15, dividing unit 17 includes slide 18, flow distribution plate 19 and reposition of redundant personnel cylinder 20, slide 18 sets up the discharge gate department at ejection of compact frame 15, it has flow distribution plate 19 to articulate on the slide 18, flow distribution cylinder 20 sets up on flow distribution plate 19, the flexible output of flow distribution cylinder 20 articulates with flow distribution plate 19.

In this embodiment, as shown in fig. 1 to 3, the discharging component 13 is refined, and the specific discharging component 13 includes a bale cutter 14, a discharging frame 15, a discharging conveyor 16 and a distributing unit 17, where the distributing unit 17 includes a sliding plate 18, a distributing plate 19 and a distributing cylinder 20; when the packaging machine works, the packaging film packaged by the packaging machine 7 is cylindrical, is integrally in a cylindrical strip shape, is provided with a plurality of continuous stacks of nail foil, and is not divided into a stack of packaged individual small bags; then the tubular packaging film is conveyed to the lower part of the packaging machine 14, the packaging machine 14 is selected from the existing equipment with heat sealing and cutting functions, the front and the rear of each stack of nail foil are heat sealed and divided to form individual small bags, and one stack or two stacks of nail foil are arranged in each small bag according to the packaging requirement of the nail foil; the nail foil packaged into small bags continues to move forwards and moves onto the sliding plate 18, and the sliding plate 18 comprises a first section and a second section which are obliquely arranged, wherein the inclination angle of the first section is smaller than that of the second section; the slide plate 18 is arranged on the second section in a swinging way; a plurality of collecting boxes for containing nail foil are arranged at the discharge hole of the second section; on the slide plate 18, the nail foil slides on the slide plate 18 in an obliquely downward direction under the action of self gravity and then falls into a collecting box; after the first collecting box is fully filled with the nail foil, the external processor 61 is used for starting the two split air cylinders 20 electrically connected with the processor 61, the split air cylinders 20 push the split plate 19 to swing on the second section after being started, the two split bars swing in the same direction, the moving direction of the nail foil is adjusted, the nail foil is thrown into the second collecting box, and continuous discharging of the nail foil is guaranteed.

Further, the feeding assembly 1 comprises a frame 21, a cutting table 22 is arranged on the frame 21, a cutting motor 23 is arranged on the cutting table 22, a cutting knife 24 is arranged on a telescopic output shaft of the cutting motor 23, a limiting plate 25 in extrusion contact with the nail foil is arranged on the frame 21, and the limiting plate 25 is positioned on one side of a discharge hole of the cutting table 22; a conveying rail 26 is arranged on one side of a feed inlet of the cutting table 22, and a plurality of conveying rollers 27 which are sequentially and alternately distributed are rotatably arranged on the conveying rail 26.

Further, arc-shaped guide plates 28 are arranged on the left side and the right side of a feed inlet of the cutting table 22, side limit frames 29 are arranged on the left side and the right side of a discharge outlet of the cutting table 22, a rear limit frame 30 is arranged below the discharge outlet of the cutting table 22, a limit block 31 is arranged on one side, close to the cutting motor 23, of the cutting knife 24, and the limit block 31 is in contact with or separated from the side limit frames 29 when the cutting knife 24 slides.

Further, the feeding assembly 1 further comprises a lifting motor 32, a feeding motor 33 and a feeding supporting plate 34, the feeding motor 33 is arranged on the frame 21, the lifting motor 32 is arranged on an output shaft of the feeding motor 33, the feeding supporting plate 34 is arranged on an output shaft of the lifting motor 32, and the feeding supporting plate 34 is located below a discharge hole of the cutting table 22.

In this embodiment, as shown in fig. 1-2 and fig. 4-7, the feeding assembly 1 is thinned, and specifically includes a frame 21, a cutting table 22, a cutting motor 23, a cutting knife 24, a limiting plate 25, a conveying rail 26 and a conveying roller 27; wherein a plurality of conveying rollers 27 are sequentially and alternately distributed to form an upper roller group and a lower roller group respectively, and an external controller is positioned at one side of the frame 21; the cutting motor 23 is electrically connected with the processor 61; when the nail foil feeding device works, the nail foil is pulled to the conveying track 26, the nail foil is positioned between the upper group of rollers and the lower group of rollers, the nail foil conveying knife cutting table 22 is rotated by the conveying rollers 27, and meanwhile, the nail foil can be flattened by the upper group of rollers and the lower group of rollers, so that the flatness of the nail foil during discharging is improved; after the nail foil reaches the cutting table 22, under the conveying action of the conveying roller 27, the initial end of the nail foil is in extrusion contact with the limiting plate 25, at the moment, the cutting motor 23 is started by the processor 61, the cutting motor 23 is an electric motor, the cutting motor 23 can provide linear driving force, the cutting knife 24 is gradually close to the nail foil under the action of the cutting motor 23, and the nail foil is cut under the action of the cutting knife 24; the cutting motor 23 is quickly reversed under the control of the processor 61 after the nail foil is cut, and drives the cutter 24 to be quickly far away from the nail foil; at this time, the first time of nail foil cutting is completed; the nail foil continues to move forward until the nail foil is in extrusion contact with the limiting plate 25 again, and then the processor 61 regulates and controls the cutting motor 23 to finish the second cutting operation; the steps are repeated until the cutting of the nail foil is completed, the consistency of the sizes of the nail foil cut each time is improved by the aid of the limiting effect of the limiting plate 25, and the subsequent stacking and packaging of the nail foil are facilitated.

Optimizing the position of the cutting table 22, and adding an arc-shaped guide plate 28, a side limit frame 29 and a rear limit frame 30; the arc-shaped guide plates 28 are added on the left side and the right side of the feed inlet of the cutting table 22, and the conveying direction of the nail foil is guided by the arc-shaped guide plates 28, so that the problem of nail foil clamping stagnation caused by deviation of the conveying direction of the nail foil is avoided.

Side limit frames 29 are added on the left side and the right side of a discharge hole of the cutting table 22, and a rear limit frame 30 is added below the discharge hole of the cutting table 22; when the nail foil cutting machine works, the initial end of the nail foil passes through the cutting table 22 and is in extrusion contact with the limiting plate 25, at the moment, the left side and the right side of the section of the nail foil exceeding the cutting table 22 are respectively in sliding connection with the two side limiting frames 29, and under the action of the side limiting frames 29, the deviation of the left side and the right side of the nail foil is prevented; the nail foil cut by the cutter 24 can drop downwards, and the front and rear positions and the left and right positions of the nail foil are limited and restrained by the aid of the limiting plates 25, the side limiting frames 29 and the rear limiting frames 30, so that consistency of cutting size and accuracy of cutting positioning of the nail foil are guaranteed, the cut nail foil drops downwards neatly and is stacked together, and rapid stacking is achieved.

A limiting block 31 is added on the cutter 24; through the extrusion contact of stopper 31 and limit frame 29 of side, can effectually carry out spacingly to the removal orbit of cut-off knife 24, prevent when cut-off motor 23 appears unusual, cut-off knife 24 travel distance changes, causes equipment damage and personnel injury.

A lifting motor 32, a feeding motor 33 and a feeding supporting plate 34 are also added; wherein the lifting motor 32 and the feeding motor 33 are preferably electric driven motors, and the lifting motor 32 and the feeding motor 33 are electrically connected with the processor 61; when the nail foil is in extrusion contact with the limiting plate 25, the processor 61 starts the cutting motor 23, the cutting motor 23 pushes the cutter 24 to complete cutting of the nail foil, the cut nail foil falls on the feeding support plate 34, at the moment, the processor 61 starts the lifting motor 32, the lifting motor 32 drives the feeding support plate 34 to gradually descend away from a discharge hole of the cutting table 22, the feeding support plate 34 gradually descends along with gradual cutting of the nail foil by the cutter 24, and a pile of cut nail foils is stacked on the feeding support plate 34; when the cutting motor 23 is operated for a period of time, the processor 61 regulates and controls the operation, and the delivery of the nail foil is stopped, and when the lifting motor 32 is operated for a period of time, the operation is stopped; at this time, the highest layer of nail foil on the feeding supporting plate 34 is also positioned below the limiting plate 25; then the processor 61 starts the feeding motor 33, the feeding motor 33 is started to push the lifting motor 32 to a direction away from the cutting table 22, and the lifting motor 32 moves along with the feeding supporting plate 34 and the stacked nail foil to a direction away from the cutting table 22, so that the cutting and stacking of the nail foil are completed; meanwhile, the consistency of the cutting size of the nail foil is ensured, and the uniformity of stacking of the nail foil is improved.

Further, the transfer assembly 2 comprises a conveying support frame 35, a conveying chain 36 and a conveying supporting plate 37, the conveying support frame 35 is arranged between the packing guide table 4 and the feeding assembly 1, a plurality of conveying wheels 38 are rotatably arranged on the conveying support frame 35, a conveying motor 39 is arranged on one side of the conveying support frame 35, an output shaft of the conveying motor 39 is fixedly connected with one of the conveying wheels 38, the conveying chain 36 is sleeved on the conveying wheels 38, a plurality of conveying supporting plates 37 which are distributed at intervals are detachably arranged on the conveying chain 36, guide strips 40 are arranged on the feeding supporting plates 34, guide grooves 41 are formed in the conveying supporting plates 37, and the guide strips 40 are in sliding connection with the guide grooves 41.

Further, a storage tank 42 for storing nail foil is arranged on the conveying supporting plate 37, the transferring assembly 2 further comprises a pushing unit 43, the pushing unit 43 comprises a pushing cylinder 44, a traversing motor 45 and a pushing plate 46, the traversing motor 45 is arranged on one side of the conveying chain 36, the traversing motor 45 is provided with the pushing cylinder 44 along a linear moving output shaft, a telescopic rod of the pushing cylinder 44 is provided with the pushing plate 46, and the pushing plate 46 is in sliding connection with the storage tank 42.

Further, the transferring assembly 2 further comprises a transferring unit 47, the transferring unit 47 comprises a transferring support frame 48, a transferring bottom plate 49, a transferring opening frame 50, a first transferring air cylinder 51 and a limiting air cylinder 52, the transferring support frame 48 is arranged on one side of the conveying chain 36 and located above the feeding port of the packing guide table 4, the transferring opening frame 50 is arranged on the transferring support frame 48, the opening direction of the transferring opening frame 50 faces downwards, the first transferring air cylinder 51 is arranged on the transferring support frame 48, the transferring bottom plate 49 is arranged on a telescopic rod of the first transferring air cylinder 51, the transferring bottom plate 49 is in sliding connection with the opening of the transferring opening frame 50, the transferring bottom plate 49 is located above the feeding port of the packing guide table 4, when the transferring bottom plate 49 is located at the opening of the transferring opening frame 50, the transferring bottom plate 49 and the transferring opening frame 50 are surrounded into a transferring channel for transferring nail foil, the limiting air cylinder 52 is arranged above the transferring opening frame 50, a first groove 53 is formed in the transferring opening frame 50, and the telescopic rod on the limiting air cylinder 52 passes through the first groove 53 and is located in the transferring channel.

Further, the number of the transferring units 47 is two and symmetrically arranged on the transferring support frame 48, the transferring units 47 further comprise a connecting frame 54, a second transferring air cylinder 55, a sliding rail 56 and a sliding block 57, the sliding rail 56 is arranged on the transferring support frame 48, the sliding block 57 is arranged on the sliding rail 56 in a sliding manner and fixedly connected with the connecting frame 54, the connecting frame 54 is arranged on the transferring opening frame 50, the first transferring air cylinder 51 is arranged on the connecting frame 54, the second transferring air cylinder 55 is arranged on the transferring support frame 48, and a telescopic rod of the second transferring air cylinder 55 is fixedly connected with the connecting frame 54.

In this embodiment, as shown in fig. 1-2 and fig. 4-9, the transferring assembly 2 is thinned, and the transferring assembly 2 includes a conveying support frame 35, a conveying chain 36, a conveying pallet 37 and a conveying motor 39; the conveying motor 39 is electrically connected with the processor 61; the conveying motor 39 is an electrically driven servo motor and the output shaft thereof moves circularly; when the automatic feeding device works, the conveying motor 39 is started, the conveying motor 39 drives the conveying wheel 38 to rotate, the conveying wheel 38 drives the conveying chain 36 in meshed connection to reciprocate on the conveying support frame 35, the conveying chain 36 drives the conveying support plates 37 to move in the same direction when moving, and when the conveying support plates 37 are aligned with the feeding support plates 34, the processor 61 regulates and controls the conveying motor 39 to stop power output; at this time, the processor 61 starts the feeding motor 33, the output shaft of the feeding motor 33 starts to move in a telescopic manner, and pushes the feeding pallet 34 to approach the conveying pallet 37 gradually until the guide strip 40 is inserted into the guide groove 41, and along with the continuous operation of the feeding motor 33, the edge position of the bottom of the conveying pallet 37 slides on the upper surface of the feeding pallet 34 until the piled nail foils on the feeding pallet 34 are in extrusion contact with the conveying pallet 37, a guide bevel angle is arranged on one side, close to the feeding pallet 34, of the conveying pallet 37, and under the action of the guide bevel angle, the piled nail foils finally move from the feeding pallet 34 to the conveying pallet 37; then the processor 61 regulates and controls the feeding motor 33 to restore to the initial position, and waits for the next stack of nail foils to be transported to the feeding supporting plate 34; simultaneously, the processor 61 can start the conveying motor 39, the conveying motor 39 sequentially drives the conveying wheel 38, the conveying chain 36, the conveying supporting plate 37 and the nail foil, the conveying motor 39 approaches to the next packing procedure, the piled nail foil is transported by the aid of the feeding assembly 1 and the transporting assembly 2, the nail foil is prevented from tilting left and right and misplacement by the aid of the baffles combed on the left side and the right side of the conveying supporting plate 37, and follow-up packing operation is facilitated.

Further optimizing the transfer assembly 2, adding a pushing unit 43, wherein the pushing unit 43 comprises a pushing cylinder 44, a traversing motor 45 and a pushing plate 46; the pushing cylinder 44 and the traversing motor 45 are electrically connected with the processor 61; the telescopic rod of the pushing cylinder 44 linearly stretches and contracts; the traversing motor 45 is an electrically driven servo motor; the output shaft of the traversing motor 45 linearly stretches and contracts; when the nail foil conveyor works, after the piled nail foil on the discharging assembly 13 moves onto the conveying supporting plate 37, the conveying supporting plate 37 gradually approaches the pushing unit 43 under the driving action of the conveying chain 36, and when the conveying supporting plate 37 is aligned with the pushing plate 46, the processor 61 can regulate and control the conveying motor 39 to stop running; then the processor 61 starts the pushing cylinder 44, after the pushing cylinder 44 is started, the telescopic rod on the pushing cylinder 44 moves along with the pushing plate 46 towards the direction close to the storage tank 42 until the pushing plate 46 enters the storage tank 42, and along with the continuous pushing of the pushing cylinder, the pushing plate 46 is in extrusion contact with the nail foil in the storage tank 42; under the pushing action of the pushing plate 46, the nail foil slides from one end of the storage groove 42 to the other end until the nail foil is separated from the conveying supporting plate 37; at this time, the transfer of the nail foil is completed; the processor 61 then again activates the pushing cylinder 44 back to the original position awaiting the arrival of the next transport pallet 37. Wherein the position of the pushing cylinder 44 can be adjusted by the traversing motor 45, and the application range of the pushing cylinder 44 is improved.

Further optimizing the transfer assembly 2, adding a transfer unit 47, wherein the transfer unit 47 comprises a transfer support frame 48, a transfer bottom plate 49, a transfer opening frame 50, a first transfer cylinder 51 and a limiting cylinder 52; the telescopic rod of the first transfer cylinder 51 performs linear telescopic movement; when the nail foil conveying device works, when the conveying support plate 37 is aligned with the pushing plate 46, the conveying support plate 37 is just aligned with the transferring channel, the nail foil is separated from the conveying support plate 37 by pushing of the pushing plate 46 and moves to the transferring bottom plate 49 in the transferring channel, and after the pushing plate 46 pushes the nail foil to move on the transferring bottom plate 49 for a certain distance, the pushing plate 46 returns to the initial position under the action of the pushing cylinder 44; when the nail foil moves on the transferring bottom plate 49, the side walls on the left side and the right side of the transferring opening frame 50 play a role in limiting and guiding the nail foil; along with the pushing of the pushing plate 46, the nail foil is in extrusion contact with the telescopic rod on the limiting cylinder 52, and one end of the nail foil is aligned by means of the blocking and limiting actions of the telescopic rod on the limiting cylinder 52, and meanwhile, the stacked nail foils can be prevented from tilting back and forth and misplacement; at this time, the transferring bottom plate 49 is located above the conveyor belt in the packing procedure, and then the processor 61 starts the first transferring cylinder 51, the telescopic rod of the first transferring cylinder 51 starts to move in the direction away from the transferring opening frame 50, and the telescopic rod of the first transferring cylinder 51 drives the transferring bottom plate 49 to move in the same direction; when the transferring bottom plate 49 moves, the nail foil on the transferring bottom plate 49 cannot move along with the transferring bottom plate 49 under the blocking of the side wall of the transferring opening frame 50, and the nail foil stays in the transferring opening frame 50; when the transfer bottom plate 49 is separated from the transfer opening frame 50, the nail foil falls downward from the transfer passage until the nail foil falls onto the conveyor belt of the packing process, at which time the transfer of the nail foil is completed. The transfer connection of the nail foil from the transport pallet 37 to the conveyor belt is accomplished by means of the transfer unit 47.

Optimizing the transfer unit 47, adding a connecting frame 54, a second transfer cylinder 55, a sliding rail 56 and a sliding block 57; wherein the number of the transferring units 47 is preferably two, and the number of the pushing units 43 is also preferably two, which are in one-to-one correspondence with the transferring units 47; by adjusting the position of the conveying supporting plate 37 on the conveying chain 36, two stacks of nail foils are conveyed simultaneously, two stacks of nail foils are transported simultaneously, the subsequent packing process simultaneously realizes simultaneous packing of the two stacks of nail foils, and different packing requirements are met; the second transferring air cylinder 55 is electrically connected with the processor 61, the telescopic rod of the second transferring air cylinder 55 performs linear telescopic movement, the second transferring air cylinder 55 is started by the processor 61, the telescopic rod on the second transferring air cylinder 55 can drive the connecting frame 54 to move in the same direction, the connecting frame 54 can drive the sliding block 57 to slide on the sliding rail 56, and the movement consistency of the second transferring air cylinder 55 is ensured by the cooperation of the sliding rail 56 and the sliding block 57; meanwhile, the connecting frame 54 drives the transfer bottom plate 49, the transfer opening frame 50 and the first transfer cylinder 51 to move together in the same direction; the distance between the two transfer opening frames 50 is adjusted through the movement of the two second transfer cylinders 55, so that the two transfer opening frames 50 correspond to the conveying supporting plates 37 on the conveying chain 36, and smooth completion of the transfer of the nail foil is ensured.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (10)

1. The utility model provides a beautiful first paper tinsel cutting packaging production line, includes feeding subassembly (1), transport subassembly (2) and packing subassembly (3) that beautiful first paper tinsel passed through in proper order, its characterized in that, packing subassembly (3) are including packing guide table (4), packing side shield (5), packing frame (6), baling press (7) and guide shaft (8), packing guide table (4) set up transport the discharge gate one side of subassembly (2), the quantity of packing side shield (5) is two all to slide and set up on packing guide table (4), packing frame (6) set up discharge gate one side of packing guide table (4), packing frame (7) set up one side of packing frame (6), two form the packing passageway that packing film passed through between packing side shield (5), the below rotation of packing guide table (4) is provided with guide shaft (8), be close to on packing guide table (4) one side of transporting subassembly (2) is provided with guide bar (9), packing film (8) pass through guide shaft and pass through guide shaft (9) with the back of packing film (9) and pass through guide shaft.

2. The nail foil cutting and packing production line according to claim 1, wherein the packing assembly (3) further comprises a packing conveying frame (10), a packing conveying belt (11) and a packing guide plate (12), the packing conveying frame (10) is arranged between the packing guide table (4) and the transferring assembly (2), the packing conveying belt (11) is circularly and slidingly arranged on the packing conveying frame (10), and the packing guide plate (12) is slidingly arranged on the packing conveying frame (10).

3. The nail foil cutting and packaging production line according to claim 1, further comprising a discharging assembly (13), wherein the discharging assembly (13) comprises a packaging machine (14), a discharging frame (15), a discharging conveying belt (16) and a distributing unit (17), the packaging machine (14) is arranged at the discharging port of the packaging assembly (3), the discharging frame (15) is arranged at the discharging port of the packaging machine (14), the discharging conveying belt (16) is circularly and slidingly arranged on the discharging frame (15), the distributing unit (17) is arranged at the discharging port of the discharging frame (15), the distributing unit (17) comprises a sliding plate (18), a distributing plate (19) and a distributing cylinder (20), the sliding plate (18) is arranged at the discharging port of the discharging frame (15), the distributing plate (19) is hinged on the sliding plate (18), the distributing cylinder (20) is arranged on the distributing plate (19), and the output end of the distributing cylinder (20) is hinged with the distributing plate (19).

4. The nail foil cutting and packaging production line according to claim 2, wherein the feeding assembly (1) comprises a frame (21), a cutting table (22) is arranged on the frame (21), a cutting motor (23) is arranged on the cutting table (22), a cutting knife (24) is arranged on a telescopic output shaft of the cutting motor (23), a limiting plate (25) in extrusion contact with the nail foil is arranged on the frame (21), and the limiting plate (25) is positioned on one side of a discharge hole of the cutting table (22); a conveying rail (26) is arranged on one side of a feed inlet of the cutting table (22), and a plurality of conveying rollers (27) which are distributed at intervals in sequence are rotatably arranged on the conveying rail (26).

5. The nail foil cutting and packaging production line according to claim 4, wherein arc-shaped guide plates (28) are arranged on the left side and the right side of a feed inlet of the cutting table (22), side limit frames (29) are arranged on the left side and the right side of a discharge outlet of the cutting table (22), a rear limit frame (30) is arranged below the discharge outlet of the cutting table (22), a limit block (31) is arranged on one side, close to the cutting motor (23), of the cutting knife (24), and the limit block (31) is in contact with or separated from the side limit frames (29) when the cutting knife (24) slides.

6. The nail foil cutting and packaging production line according to claim 5, wherein the feeding assembly (1) further comprises a lifting motor (32), a feeding motor (33) and a feeding supporting plate (34), the feeding motor (33) is arranged on the frame (21), the lifting motor (32) is arranged on an output shaft of the feeding motor (33), the feeding supporting plate (34) is arranged on an output shaft of the lifting motor (32), and the feeding supporting plate (34) is positioned below a discharge hole of the cutting table (22).

7. The nail foil cutting and packaging production line according to claim 6, wherein the transfer assembly (2) comprises a conveying support frame (35), a conveying chain (36) and a conveying support plate (37), the conveying support frame (35) is arranged between the packaging guide table (4) and the feeding assembly (1), a plurality of conveying wheels (38) are rotatably arranged on the conveying support frame (35), a conveying motor (39) is arranged on one side of the conveying support frame (35), an output shaft of the conveying motor (39) is fixedly connected with one of the conveying wheels (38), the conveying chain (36) is sleeved on the conveying wheels (38), a plurality of conveying support plates (37) which are distributed at intervals are detachably arranged on the conveying chain (36), guide strips (40) are arranged on the conveying support plate (34), guide grooves (41) are formed in the conveying support plate (37), and the guide strips (40) are in sliding connection with the guide grooves (41).

8. The nail foil cutting and packaging production line according to claim 7, wherein a storage tank (42) for storing nail foil is formed in the conveying supporting plate (37), the transferring assembly (2) further comprises a pushing unit (43), the pushing unit (43) comprises a pushing cylinder (44), a traversing motor (45) and a pushing plate (46), the traversing motor (45) is arranged on one side of the conveying chain (36), the pushing cylinder (44) is arranged on a linear moving output shaft of the traversing motor (45), the pushing plate (46) is arranged on a telescopic rod of the pushing cylinder (44), and the pushing plate (46) is in sliding connection with the storage tank (42).

9. The nail foil cutting and packing production line according to claim 8, wherein the transfer assembly (2) further comprises a transfer unit (47), the transfer unit (47) comprises a transfer support frame (48), a transfer bottom plate (49), a transfer opening frame (50), a first transfer bottom plate (49) and a limiting cylinder (52), the transfer support frame (48) is arranged on one side of the conveying chain (36) and above a feed inlet of the packing guide table (4), the transfer opening frame (50) is arranged on the transfer support frame (48), the opening direction of the transfer opening frame (50) faces downwards, the first transfer cylinder (51) is arranged on the transfer support frame (48), the transfer bottom plate (49) is slidably connected with an opening of the transfer opening frame (50), the transfer bottom plate (49) is arranged above a feed inlet of the packing guide table (4), the transfer bottom plate (49) is arranged around the transfer opening frame (50) and the transfer opening frame (50) when the transfer bottom plate (49) is arranged around the transfer opening frame (50), the transfer opening frame (50) is provided with a first groove (53), and the telescopic rod on the limiting cylinder (52) penetrates through the first groove (53) and is located in the transfer channel.

10. The nail foil cutting and packaging production line according to claim 9, wherein the number of the transferring units (47) is two and symmetrically arranged on the transferring support frame (48), the transferring units (47) further comprise a connecting frame (54), a second transferring cylinder (55), a sliding rail (56) and a sliding block (57), the sliding rail (56) is arranged on the transferring support frame (48), the sliding block (57) is arranged on the sliding rail (56) in a sliding manner and fixedly connected with the connecting frame (54), the connecting frame (54) is arranged on the transferring opening frame (50), the first transferring cylinder (51) is arranged on the connecting frame (54), the second transferring cylinder (55) is arranged on the transferring support frame (48), and a telescopic rod of the second transferring cylinder (55) is fixedly connected with the connecting frame (54).