CN108098919B - A kind of full-automatic flat-press flat-die cutting machine and its processing technology - Google Patents

Abstract

The present invention relates to die-cutting machine technical fields, disclose a kind of full-automatic flat-press flat-die cutting machine and its processing technology, including rack, feeding device is disposed with along the conveying direction of cardboard in the rack, die-cutting apparatus, waste discharge apparatus, secondary waste discharge apparatus, the conveying device for paperboard conveying is provided in the rack, the conveying device drives cardboard successively to pass through the die-cutting apparatus, waste discharge apparatus and secondary waste discharge apparatus, the feeding device includes the feeding material component being arranged in the rack, absorbent module below the feeding material component is set, the present invention has the following advantages and effects: this programme utilizes new mechanical structure, by the way that feeding device is arranged, so that the resistance that cardboard is subject in fill process is smaller, when cardboard does not convey, cardboard is more firm is located on bearing plate, enable cardboard more It quickly reaches at conveying device, improves the transfer efficiency of cardboard.

Description

A kind of full-automatic flat-press flat-die cutting machine and its processing technology

Technical field

The present invention relates to die-cutting machine technical field, more specifically, it relates to a kind of full-automatic flat-press flat-die cutting machine and its Processing technology.

Background technique

Cross cutting, impression and the cold pressing of trade mark, carton, the greeting card that die-cutting machine is mainly used in paper article packaging decoration industry etc. are made Industry is the important equipment of packaging machine-shaping after print.The working principle of die-cutting machine be using steel knife, steel wire (or steel engraving at Template), apply certain pressure by coining plate, printing or cardboard rolled and are cut into certain shapes, make cardboard be divided into cardboard at Product and waste material.

Currently, the Chinese patent that notification number is CN205416523U, which discloses a kind of negative-pressure adsorption, exempts from pressure transmission die-cutting machine, It includes rack, wind pressure room, roller mechanism on cross cutting, is die cut lower roller mechanism, main drive gear, transport mechanism, the rack side Equipped with upper roller mechanism is die cut, roller mechanism lower part, which is equipped with, on cross cutting is die cut lower roller mechanism, is die cut lower roller mechanism side and is equipped with main transmission Mechanism, roller mechanism side is equipped with wind pressure room on the cross cutting, is die cut lower roller mechanism side and is equipped with transport mechanism；The transport mechanism Including support plate, bellows, wind isolation board, transmission shaft, idler wheel, aspiration channel, it is equipped with bellows among the support plate, is set in the bellows There are several wind isolation boards, the wind isolation board top is equipped with several groups transmission shaft, and the transmission shaft is equipped with several idler wheels, the bellows Bottom is equipped with aspiration channel.

This negative-pressure adsorption exempts from pressure transmission die-cutting machine by setting wind pressure room, generation negative pressure in wind pressure room, to corrugated paper into Row absorption transmission, but adsorb transmission so that the frictional force between corrugated paper and idler wheel is larger, the conveying of pair of rollers corrugated paper by It is certain to hinder, reduce the transfer efficiency of die-cutting machine.

Summary of the invention

In view of the deficienciess of the prior art, the invention reside in provide a kind of full-automatic flat-press flat-die cutting machine and its processing work Skill has the effect of improving the transfer efficiency of die-cutting machine.

To achieve the above object, the present invention provides the following technical scheme that a kind of full-automatic flat-press flat-die cutting machine and its add Work technique, including rack are disposed with feeding device, die-cutting apparatus, primary in the rack along the conveying direction of cardboard Waste discharge apparatus, secondary waste discharge apparatus, the conveying device for paperboard conveying is provided in the rack, and the conveying device drives Cardboard successively passes through the die-cutting apparatus, a waste discharge apparatus and secondary waste discharge apparatus, and the feeding device includes being arranged in institute The absorbent module stating the feeding material component in rack, being arranged in below the feeding material component, the feeding material component include rotation connection PU in the rack takes turns, drives the first actuator of the PU wheel reciprocating rotation, and the absorbent module includes being fixedly connected In the rack negative pressure chamber, be fixedly connected in the negative pressure chamber and be connected to the negative pressure chamber aspiration channel, with it is described Suction ventilator that aspiration channel is fixedly connected, the auxiliary tube for being fixedly connected in the negative pressure chamber and being connected to the negative pressure chamber, rotation It is connected to the second actuator of closed plate in the auxiliary tube, the driving closed plate reciprocating rotation, the negative pressure chamber is located at The lower section of PU wheel slidably connects bearing plate in the rack, offered on the bearing plate for PU wheel across pass through Hole, the bearing plate are located in the negative pressure chamber, and the driving bearing plate is provided between the bearing plate and the rack and is moved Dynamic third actuator, the rotation period of the closed plate is with the PU rotation period taken turns on the contrary, the sliding of the bearing plate Period is opposite with the rotation period that the PU takes turns.

By using above-mentioned technical proposal, the first actuator drives PU to take turns reciprocating rotation, when PU wheel rotates forward, due to The rotation period of closed plate is taken turns with PU on the contrary, the sliding period of bearing plate is also taken turns with PU on the contrary, will be auxiliary after closed plate rotation at this time Help pipe to open, the indoor air pressure of negative pressure is identical as ambient pressure, and cardboard is not adsorbed in negative pressure chamber, bearing plate decline, cardboard with PU wheel contradicts, and cardboard moves under the drive that PU take turns, after through conveying roller and transmission belt conveying completion feed operation, conveying device Cardboard is delivered to die-cutting apparatus and carries out die cut operation, a waste discharge apparatus is delivered to after die cut operation and carries out waste discharge behaviour Make, is then sent to secondary waste discharge apparatus, cardboard finished product and waste material are separated, realize the process operation of cardboard；When PU takes turns When reversion, bearing plate rises, and cardboard is taken away PU wheel, closed plate closes auxiliary tube, negative pressure house vacuum, external atmospheric pressure It is pressed on what cardboard more consolidated on bearing plate, keeps cardboard not easily shifted, the reciprocating rotation of closed plate is transporting cardboard When the resistance that is subject to it is smaller, the resistance being subject to when cardboard is placed is larger, makes cardboard while improving cardboard transfer efficiency More firm is located on bearing plate.

The present invention is further arranged to: first actuator includes being rotatably connected in the rack and by being die cut owner First drive shaft of machine driving rotation, is hinged in the rack conjugate cam being fixedly connected in first drive shaft First connecting rod, be hinged on the first connecting rod second connecting rod, be hinged on the second connecting rod third connecting rod, rotation Be connected on the first connecting rod and respectively with the main cam of the conjugate cam and that returns that cam contradicts first contradict wheel and the Two contradict wheel, are provided with transmission component in the rack, the transmission component includes the rotation being rotatably connected in the rack Axis, the second gear being rotatably connected in the rack, is rotatably connected on the first gear being fixedly connected in the rotation axis The third gear being fixedly connected in the rack and with the third connecting rod, the second gear with the first gear and The engagement of three gears, the PU wheel are fixedly connected in the rotation axis.

By using above-mentioned technical proposal, the first drive shaft rotates under the drive of cross cutting machine host, and the first drive shaft turns Dynamic drive conjugate cam rotation, conjugate cam rotation drive main cam and time cam to contradict wheel and second to first and contradict wheel progress It pushes, so that first connecting rod reciprocally swinging, by the transmitting of second connecting rod and third connecting rod, third gear carries out reciprocating rotation, By the transmitting of the second gear of engagement so that first gear reciprocating rotation, so that rotation axis reciprocating rotation, rotation axis reciprocating rotary It is dynamic that PU is driven to take turns reciprocating rotation, so that the intermittent delivery to cardboard is realized, by conjugate cam and a series of connecting rods, so that PU takes turns Rotation it is more accurate, reduce the error of transmission, reduce equipment generate failure probability.

The present invention is further arranged to: second actuator includes the driving being fixedly connected in first drive shaft Cam, the second catch bar being hinged on first catch bar, is hinged on institute at the first catch bar being hinged in the rack The for stating the third catch bar on the second catch bar, being rotatably connected on first catch bar and contradicted with the driving cam Three contradict wheel, the first elastic component for being fixedly connected between the rack and first catch bar, on the third catch bar It is fixedly connected with synchronizing bar, the synchronizing bar is rotatably connected in the rack, the closed plate and the fixed company of the synchronizing bar It connects.

By using above-mentioned technical proposal, the first drive shaft turns drive driving cam rotation, and driving cam rotation drives Third contradicts wheel movement, and third conflict wheel is mobile to drive the first catch bar to swing, and the swing of the first catch bar drives the first elastic component Deformation, so that the first elastic component generates the effect of power to rotating bar, so that third contradicts, wheel is lasting to be contradicted on driving cam, from And realize the reciprocally swinging of the first catch bar, by the conduction of the second catch bar and third catch bar so that closed plate reciprocating rotary It is dynamic, by driving a series of oscillating rods of cam, so that auxiliary tube is back and forth opened and closed, so that the indoor air pressure generation of negative pressure becomes repeatedly Change, the normal transport for also not interfering cardboard is preferably adsorbed in realization to cardboard.

The present invention is further arranged to: the third actuator includes the fixed link being fixedly connected in the rack, hinge Connect in the fixed link elevating lever, be fixedly connected in the first drive shaft lifter cam, be rotatably connected on the lifting The second bullet taken turns, be fixedly connected respectively with the fixed link and elevating lever on bar and with the 4th conflict that the lifter cam contradicts Property part, the elevating lever and the bearing plate are hinged.

By using above-mentioned technical proposal, the first drive shaft turns drive lifter cam rotation, and lifter cam rotation drives 4th contradicts wheel movement, and the 4th conflict wheel is mobile to drive elevating lever to swing, and deformation occurs for the second elastic component, to elevating lever applied force Effect so that the 4th contradicts that wheel is lasting to be contradicted with lifter cam, so that elevating lever reciprocally swinging, drives and glide on bearing plate It is dynamic, so that cardboard be driven to move up and down, so that cardboard is contacted PU wheel repeatedly, can be spaced within a short period of time and convey more cardboard, Improve transfer efficiency.

The present invention is further arranged to: the feeding device further includes the conveying roller being rotatably connected in the rack, drives The fourth drive member for moving the conveying roller rotation, the transmission belt being arranged in the rack, the conveying roller are located at PU wheel Towards the side of the conveying device, the transmission belt is between the conveying roller and the conveying device.

By using above-mentioned technical proposal, cardboard leaves PU wheel and reaches on conveying roller, and fourth drive member drives conveying roller to turn Dynamic, conveying roller pair cardboard carries out conveying back cardboard and reaches in transmission belt, reaches at conveying device under the drive of transmission belt, conveying Device conveys cardboard, improves the transfer efficiency of cardboard.

The present invention is further arranged to: the fourth drive member includes being rotatably connected in the rack and by being die cut owner First rotate gear of machine driving, the second turning gear for being rotatably connected in the rack and being fixedly connected with the conveying roller It takes turns, be rotatably connected in the rack and intermeshing first transmission gear and the second transmission gear, first driving cog Wheel and the second transmission gear are engaged from different the second rotate gear respectively, first rotate gear and one of them second turn Moving gear engagement.

By using above-mentioned technical proposal, the rotation of the first rotate gear drives the rotation of the second rotate gear, the second turning gear Wheel rotation drives the first transmission gear and the rotation of the second transmission gear, and the first transmission gear and the second transmission gear rotate so that the The rotation of two rotate gears, second gear rotation drive conveying roller rotation, and conveying roller rotation drives cardboard mobile, carried out by gear Transmission so that rolling between conveying roller is more synchronous, the effect that conveying roller can simultaneously to cardboard applied force, make cardboard by Power increases, and accelerates travelling speed.

The present invention is further arranged to: a waste discharge apparatus includes the upper waste discharge mould being slidably connected in the rack The 5th actuator that plate, the lower waste discharge template being fixedly connected in the rack, the driving upper waste discharge template are slided.

By using above-mentioned technical proposal, the upper waste discharge template sliding under the drive of the 5th actuator, due to cardboard into Went die cut operation, under the action of upper waste discharge template and lower waste discharge template, waste material more quickly can be from cardboard finished product It falls off, accelerates the speed of waste discharge.

The present invention is further arranged to: the 5th actuator includes the first oscillating rod being hinged in the rack, hinge Connect the second oscillating rod in the rack, both ends and first oscillating rod and the hinged first connecting rod of the second oscillating rod, The third oscillating rod being hinged in the rack, both ends hinged with second oscillating rod and third oscillating rod second connect respectively Extension bar, both ends respectively the third connecting rod hinged with second oscillating rod and upper waste discharge template, both ends respectively with the third The 4th hinged connecting rod of oscillating rod and upper waste discharge template is rotatably connected in the rack and by the row of die-cutting machine host driven Useless cam, the waste discharge cam and first oscillating rod contradict.

By using above-mentioned technical proposal, the rotation of waste discharge cam drives the rotation of the first oscillating rod, and the first oscillating rod rotates band Dynamic first connecting rod is mobile, and first connecting rod is mobile to drive the second oscillating rod to swing, and the second oscillating rod, which is swung, drives the second connection Bar is mobile, and the second connecting rod is mobile to drive third oscillating rod to swing, third connecting rod and the 4th connecting rod in the second oscillating rod and So that upper waste discharge template movement under the drive of third oscillating rod, to realize that waste discharge operates.

The present invention is further arranged to: bat homogeneous component, the bat homogeneous component are provided with below the secondary waste discharge apparatus It is described including the driving cylinder being mounted on the rack, the pushing plate being fixedly connected on the catch bar of the driving cylinder Several ventholes are offered in pushing plate.

By using above-mentioned technical proposal, cylinder is driven to drive pushing plate mobile, the venthole in pushing plate to push Plate is not easy the air flowing around drive in moving process, reduces the generation of wind, and pushing plate is sent out with cardboard finished product after movement Raw contact, positions the position of cardboard finished product, so that the blanking that cardboard finished product is more neat.

The present invention is further arranged to:

Step A: the third actuator drives the closed plate to open the auxiliary tube, and the negative pressure room pressure subtracts Small, the PU wheel drives cardboard to be moved at the conveying roller, and cardboard is transmitted in the transmission belt by the conveying roller；

Step B: the cardboard in the transmission belt is delivered at the die-cutting apparatus by the conveying device, carries out cross cutting behaviour Make；

Step C: cardboard is delivered at a waste discharge apparatus by the conveying device, after the upper waste discharge template decline It is contradicted with the lower waste discharge template, first time waste discharge operation is carried out to cardboard；

Step D: cardboard is delivered at the secondary waste discharge apparatus by the conveying device, carries out secondary waste discharge operation, paper Board finished product falls, and waste material leaves rack under the drive of secondary waste discharge apparatus；

Step E: cardboard finished product reaches under self gravitation effect to be clapped at homogeneous component, and the driving cylinder pushes the promotion Plate movement, pushing plate clap to the cardboard finished product in falling state neat, completion blanking operation.

By using above-mentioned technical proposal, cardboard is delivered at conveying roller by PU wheel, and cardboard is delivered to transmission by conveying roller It taking, cardboard is delivered at die-cutting apparatus by conveying device, and die cut operation is carried out, the shape of cardboard finished product is printed off on cardboard, Back cardboard reached under the conveying of conveying device at the first waste discharge apparatus, pass through the conflict of upper waste discharge template and lower waste discharge template Under, part waste material leaves cardboard finished product, and after a waste discharge, cardboard is reached at secondary waste discharge apparatus, and cardboard finished product is at itself It falls under the action of gravity, remaining waste material takes away rack by secondary waste discharge apparatus, pushes in the dropping process of cardboard finished product Plate clap together to cardboard finished product, completes blanking operation, realizes more quickly by paperboard at cardboard finished product, improve Production efficiency.

In conclusion the invention has the following advantages:

1, by setting feeding device, so that the resistance that cardboard is subject in fill process is smaller, not conveying in cardboard is It is located on bearing plate so that cardboard is more firm, cardboard is more quickly reached at conveying device, paper is improved The transfer efficiency of plate, while making cardboard is more firm to be located on bearing plate, reduce cardboard falls probability；

2, by the first actuator of setting, the second actuator and third actuator, the first actuator, the second actuator and the Three actuators are all made of the first drive shaft and are driven, so that working in coordination between each actuator realizes more accurate behaviour Make, reduces due to cooperating probability that is inaccurate and causing full-automatic flat-press flat-die cutting machine to generate failure between each component.

Detailed description of the invention

Fig. 1 is the external structure schematic diagram of the utility model；

Fig. 2 is the attachment structure schematic diagram for embodying die-cutting apparatus and a waste discharge apparatus；

Fig. 3 is the attachment structure schematic diagram for embodying the first drive shaft and conjugate cam；

Fig. 4 is the attachment structure schematic diagram for embodying rotation axis and first gear；

Fig. 5 is the attachment structure schematic diagram for embodying negative pressure chamber and aspiration channel；

Fig. 6 is the attachment structure schematic diagram for embodying negative pressure chamber and closed plate；

Fig. 7 is the attachment structure schematic diagram for embodying the first transmission gear and the second transmission gear；

Fig. 8 is the attachment structure schematic diagram for embodying conveyor chain and transportation sprocket；

Fig. 9 is enlarged drawing at the A of Fig. 8, embodies the connection structure of upper tooth piece and lower tooth piece；

Figure 10 is the attachment structure schematic diagram for embodying the second oscillating rod and first connecting rod；

Figure 11 is the attachment structure schematic diagram for embodying driving cylinder and pushing plate；

Figure 12 is enlarged drawing at the B of Figure 11, embodies the connection structure of cleaning plate and holding tank.

Appended drawing reference: 1, rack；2, feeding device；21, feeding material component；211, PU takes turns；212, the first actuator；2121, First drive shaft；2122, conjugate cam；2123, first connecting rod；2124, second connecting rod；2125, third connecting rod；2126, first Contradict wheel；2127, second wheel is contradicted；2128, interlocking lever；22, absorbent module；221, negative pressure chamber；222, aspiration channel；223, air draught Machine；224, auxiliary tube；225, closed plate；226, the second actuator；2261, cam is driven；2262, the first catch bar；2263, Two catch bars；2264, third catch bar；2265, third contradicts wheel；2266, the first elastic component；2267, synchronizing bar；2268, even Connect frame；23, conveying roller；24, fourth drive member；241, the first rotate gear；242, the second rotate gear；243, the first driving cog Wheel；244, the second transmission gear；25, transmission belt；3, die-cutting apparatus；31, upper die cutting plate；32, lower die cutting plate；4, a waste discharge fills It sets；41, upper waste discharge template；42, lower waste discharge template；43, the 5th actuator；431, the first oscillating rod；432, the second oscillating rod； 433, first connecting rod；434, third oscillating rod；435, the second connecting rod；436, third connecting rod；437, the 4th connecting rod； 438, waste discharge cam；5, secondary waste discharge apparatus；51, waste discharge frame；511, sliding rack；512, plate is cleared up；513, holding tank；52, defeated Send machine；53, it is detached from component；6, conveying device；61, conveyor chain；62, transportation sprocket；63, tooth is arranged；631, fixed plate；632, on Tooth piece；633, lower tooth piece；7, transmission component；71, rotation axis；72, first gear；73, second gear；74, third gear；8, it holds Fishplate bar；81, third actuator；812, fixed link；813, elevating lever；814, lifter cam；815, the 4th wheel is contradicted；816, second Elastic component；82, through hole；9, homogeneous component is clapped；91, cylinder is driven；92, pushing plate；93, venthole.

Specific embodiment

Referring to attached drawing, the present invention will be further described.

As depicted in figs. 1 and 2, a kind of full-automatic flat-press flat-die cutting machine and its processing technology, including rack 1, edge in rack 1 The conveying direction of cardboard is disposed with feeding device 2,3, waste discharge apparatus 4 of die-cutting apparatus and secondary waste discharge apparatus 5, rack Conveying device 6 is additionally provided on 1, conveying device 6 drives cardboard successively to pass through 3, waste discharge apparatus 4 of die-cutting apparatus and secondary row Waste-removing device 5.

As shown in Figure 3 and Figure 4, feeding device 2 includes feeding material component 21 and absorbent module 22, and feeding material component 21 is taken turns including PU 211 and first actuator 212, the first actuator 212 include the first drive shaft 2121, conjugate cam 2122, first connecting rod 2123, Second connecting rod 2124, third connecting rod 2125, first contradict wheel 2126 and second and contradict wheel 2127, and the first drive shaft 2121 is being die cut It is rotated under the drive of machine host, conjugate cam 2122 is fixedly connected in the first drive shaft 2121, and first connecting rod 2123 is hinged on On the side wall of rack 1, the first conflict wheel 2126 and the second conflict wheel 2127 are fixed with first connecting rod 2123 by interlocking lever 2128 Connection, the first conflict wheel 2126 and the second conflict wheel 2127 are rotatably connected on one of interlocking lever 2128 far from first connecting rod 2123 End, the first conflict wheel 2126 and second contradict the two sides that wheel 2127 is located at first connecting rod 2123, the first conflict wheel 2126 and conjugation The main cam of cam 2122 contradicts, and the cam that returns of the second conflict wheel 2127 and conjugate cam 2122 contradicts.First connecting rod 2123 is remote One end and second connecting rod 2124 from hinged place is hinged, second connecting rod 2124 one end and third connecting rod far from first connecting rod 2123 2125 is hinged.

Transmission component 7 is provided in rack 1, transmission component 7 includes rotation axis 71, first gear 72,73 and of second gear Third gear 74, several rotation axis 71 are rotatably connected between 1 inner wall of rack, length direction point of the rotation axis 71 along rack 1 Cloth, several PU wheel 211 are fixedly connected in rotation axis 71 and are distributed along the length direction of rotation axis 71, one end of rotation axis 71 On be fixedly connected to above-mentioned first gear 72, second gear 73 is rotatably connected on the inner wall of rack 1, the two of second gear 73 Side is engaged with first gear 72, and third gear 74 is rotatably connected on the inner wall of rack 1 and two sides are engaged with second gear 73, first gear 72, second gear 73 and third gear 74 are spur gear, and third connecting rod 2125 is far from second connecting rod 2124 One end is fixedly connected with third gear 74.

As shown in Figure 5 and Figure 6, absorbent module 22 include negative pressure chamber 221, aspiration channel 222, suction ventilator 223, auxiliary tube 224, Closed plate 225 and the second actuator 226.1 two sides of rack are fixedly connected in the negative pressure chamber 221 of box body shape and are located at PU wheel 211 Lower section, aspiration channel 222 are fixedly connected on the bottom of negative pressure chamber 221 and are connected to negative pressure chamber 221, and aspiration channel 222 is far from negative pressure chamber 221 one end is fixedly connected with above-mentioned suction ventilator 223, and suction ventilator 223 is fixedly connected in rack 1.Auxiliary tube 224 is fixedly connected Negative pressure chamber 221 bottom and be connected to negative pressure chamber 221, be rotatably connected in auxiliary tube 224 in the closed plate 225 of disc-shaped and Auxiliary tube 224 is closed when turning to level.Second actuator 226 includes driving cam 2261, the first catch bar 2262, second Catch bar 2263, third catch bar 2264, third contradict wheel 2265 and the first elastic component 2266, and driving cam 2261 is fixedly connected In the first drive shaft 2121, the first catch bar 2262 is hinged on the side wall of rack 1, and third contradicts wheel 2265 and passes through connection frame 2268 are fixedly connected on the first catch bar 2262, the both ends of the first elastic component 2266 respectively with the first catch bar 2262 and rack 1 is fixedly connected, and the first elastic component 2266 is spring, and third contradicts wheel 2265 and is rotatably connected on connection frame 2268 far from the first promotion One end of bar 2262, third contradict wheel 2265 and contradict with driving cam 2261, and the second catch bar 2263 is hinged on the first catch bar 2262 one end far from driving cam 2261, third catch bar 2264 are hinged on the second catch bar 2263 far from the first catch bar 2262 one end, third catch bar 2264 are fixedly connected with synchronizing bar 2267 on one end far from the second catch bar 2263, synchronous Bar 2267 is rotatably connected between 1 inner wall of rack, and synchronizing bar 2267 passes through auxiliary tube 224 and is fixedly connected with closed plate 225, synchronous The axle center of bar 2267 is overlapped with the diametrical direction of closed plate 225.

As shown in Figure 4 and Figure 5, bearing plate 8 is slidably connected between 1 inner wall of rack, it is separate that bearing plate 8 is located at PU wheel 211 The side of negative pressure chamber 221 is provided with third actuator 81 between bearing plate 8 and rack 1, section is offered on bearing plate 8 in length Rectangular through hole 82, third actuator 81 include fixed link 812, elevating lever 813, the conflict of lifter cam the 814, the 4th wheel 815 With the second elastic component 816, fixed link 812 is fixedly connected between 1 inner wall of rack, and L-shaped elevating lever 813 is hinged on fixed link On 812, the both ends of the second elastic component 816 are fixedly connected with fixed link 812 and elevating lever 813 respectively, and the second elastic component 816 is bullet Spring, lifter cam 814 are fixedly connected in the first drive shaft 2121, and it is close that the 4th conflict wheel 815 is rotatably connected on elevating lever 813 It one end of lifter cam 814 and is contradicted with lifter cam 814, elevating lever 813 and bearing plate 8 are hinged.

As shown in fig. 7, feeding device 2 further includes conveying roller 23, fourth drive member 24 and transmission belt 25, conveying roller 23 is rotated The two sides up and down of cardboard are connected between 1 inner wall of rack and are located at, fourth drive member 24 includes the first rotate gear 241, second Rotate gear 242, the first transmission gear 243 and the second transmission gear 244, the first rotate gear 241 are rotatably connected on rack 1 On side wall, the second rotate gear 242 is fixedly connected on conveying roller 23,244 phase of the first transmission gear 243 and the second transmission gear Mutually engagement, the first transmission gear 243 engages with one of them second rotate gear 242, the second transmission gear 244 and another the The engagement of two rotate gears 242, the second rotate gear 242 engaged with the first transmission gear 243 are also nibbled with the first rotate gear 241 It closes.

As shown in Figure 8 and Figure 9, conveying device 6 includes being connected on 1 inner wall of rack in being rotated by for machine host of cross cutting Transportation sprocket 62, be slidably connected at the conveyor chain 61 engaged on 1 inner wall of rack and with transportation sprocket 62, be fixedly connected on it is defeated The tooth on chain 61 is sent to arrange 63, tooth row 63 includes the fixed plate 631 being fixedly connected on conveyor chain 61, is fixedly connected on fixation Upper tooth piece 632 and lower tooth piece 633 on plate 631.Die-cutting apparatus 3 include be fixedly connected on 1 inner wall of rack upper die cutting plate 31, The mobile lower die cutting plate 32 of oscilaltion under die-cutting machine host driven.

As shown in Figure 10, a waste discharge apparatus 4 includes upper waste discharge template 41, lower waste discharge template 42 and the 5th actuator 43, Lower waste discharge template 42 is fixedly connected between the inner wall of rack 1, and upper waste discharge template 41 is slidably connected between the inner wall of rack 1, 5th actuator 43 includes the first oscillating rod 431, the second oscillating rod 432, first connecting rod 433, third oscillating rod 434, second Connecting rod 435, third connecting rod 436, the 4th connecting rod 437 and waste discharge cam 438, the first oscillating rod 431 are hinged on rack 1 On inner wall, die-cutting machine host driven waste discharge cam 438 is rotated, and one end of the first oscillating rod 431 and waste discharge cam 438 contradict, the The one end of one oscillating rod 431 far from waste discharge cam 438 and first connecting rod 433 are hinged, and first connecting rod 433 is swung far from first One end of bar 431 and the second oscillating rod 432 are hinged, and the second T-shaped oscillating rod 432 is hinged on the inner wall of rack 1, L-shaped Third oscillating rod 434 be hinged on the inner wall of rack 1, the both ends of the second connecting rod 435 respectively with the second oscillating rod 432 and Three oscillating rods 434 are hinged, and third connecting rod 436 is hinged on the second oscillating rod 432, and third connecting rod 436 is swung far from second One end of bar 432 and upper waste discharge template 41 are hinged, and the 4th connecting rod 437 is hinged on third oscillating rod 434, the 4th connecting rod 437 one end far from third oscillating rod 434 and upper waste discharge template 41 are hinged.

As is illustrated by figs. 11 and 12, secondary waste discharge apparatus 5 includes the waste discharge slided up and down under the driving of cross cutting machine host Frame 51, the conveyer 52 being mounted in rack 1 and driving cardboard finished product leave the disengaging component 53 of tooth row 63, and waste discharge frame 51 includes The sliding rack 511 being slidably connected on 1 inner wall of rack and the cleaning plate 512 for being fixedly connected on 511 lower surface of sliding rack, clear up plate Holding tank 513 is offered on 512.It is provided with below secondary waste discharge apparatus 5 and claps homogeneous component 9, clapping homogeneous component 9 includes driving cylinder 91 With pushing plate 92, cylinder 91 is driven to be fixedly connected on 1 inner wall of rack, pushing plate 92 is fixedly connected on the promotion of driving cylinder 91 On bar, several ventholes 93 are offered in pushing plate 92.

In conclusion the first drive shaft 2121 rotates under the drive of cross cutting machine host, the first drive shaft 2121 rotates band The dynamic rotation of conjugate cam 2122, the rotation of conjugate cam 2122 drive main cam and return cam and support to the first conflict wheel 2126 and second Wheel trolley 2127 is pushed, so that 2123 reciprocally swinging of first connecting rod, passes through the biography of second connecting rod 2124 and third connecting rod 2125 It passs, third gear 74 carries out reciprocating rotation, by the transmitting of the second gear 73 of engagement so that 72 reciprocating rotation of first gear, makes 71 reciprocating rotation of rotation axis is obtained, 71 reciprocating rotation of rotation axis drives PU to take turns 211 reciprocating rotations, while the first drive shaft 2121 rotates Lifter cam 814 is driven to rotate, the rotation of lifter cam 814 drives the 4th conflict wheel 815 mobile, and the 4th contradicts 815 movement band of wheel Dynamic elevating lever 813 is swung, and deformation occurs for the second elastic component 816, the effect to 813 applied force of elevating lever, so that the 4th contradicts wheel 815 it is lasting contradict with lifter cam 814 so that 813 reciprocally swinging of elevating lever, drives bearing plate 8 to slide up and down, to drive Cardboard moves up and down, and the first drive shaft 2121 rotation at this time drives driving cam 2261 to rotate, and the driving rotation of cam 2261 drives Third contradicts 2265 movement of wheel, and third conflict wheel 2265 is mobile to drive the swing of the first catch bar 2262, and the first catch bar 2262 is put It is dynamic to drive 2266 deformation of the first elastic component, so that the first elastic component 2266 generates the effect of power to rotating bar, so that third contradicts Wheel 2265 persistently contradicts on driving cam 2261, to realize the reciprocally swinging of the first catch bar 2262, pushes by second The conduction of bar 2263 and third catch bar 2264 is so that 225 reciprocating rotation of closed plate, realizes the reciprocal opening and closing of auxiliary tube 224, make PU wheel 211 when rotating forward, bearing plate 8 declines, and cardboard is taken turns 211 with PU and contacted, and air pressure is identical as the external world in negative pressure chamber 221, So that PU wheel 211 can carry out the conveying of cardboard, when PU wheel 211 rotates backward, bearing plate 8 rises, and cardboard leaves PU wheel 211, bears Vacuum chamber is generated in pressure chamber 221, cardboard is relatively stable to be located on bearing plate 8, in conveying roller 23 after cardboard leaves bearing plate 8 It is moved under drive with transmission belt 25 at conveying device 6, tooth is arranged 63 pairs of cardboards and is clamped, and transportation sprocket 62 drives carrier chain Item 61 is mobile, and conveyor chain 61 drives tooth row 63 to be moved between die cutting plate 31 and lower die cutting plate 32, and lower die cutting plate 32 is mobile Contacted afterwards with upper die cutting plate 31 and carry out die cut operation, backteeth row 63 cardboard is delivered to upper waste discharge template 41 and lower waste discharge template Between 42, the rotation of waste discharge cam 438 drives the rotation of the first oscillating rod 431, and the rotation of the first oscillating rod 431 drives first connecting rod 433 is mobile, and first connecting rod 433 is mobile to drive the second oscillating rod 432 to swing, and the second oscillating rod 432, which is swung, drives the second connection Bar 435 is mobile, and the second connecting rod 435 is mobile to drive third oscillating rod 434 to swing, third connecting rod 436 and the 4th connecting rod 437 Making upper waste discharge template 41 under the drive of the second oscillating rod 432 and third oscillating rod 434, waste discharge template 42 is mobile downward, realizes Waste discharge operation, back cardboard reach secondary waste discharge apparatus 5, die-cutting machine host drives waste discharge frame 51 mobile, drive cardboard finished product from Waste material is opened, waste material reaches above conveyer 52 under the drive of tooth row 63, and being detached from component 53 makes waste material leave tooth row 63, conveyer Waste material is carried out rack 1 by 52, and cardboard finished product, which reaches, claps homogeneous component 9, and pusher cylinder drives the movement of pushing plate 92 to carry out clapping neat behaviour Make, makes the neat blanking of cardboard finished product.

The above is only a preferred embodiment of the present invention, protection scope of the present invention is not limited merely to above-mentioned implementation Example, all technical solutions belonged under thinking of the present invention all belong to the scope of protection of the present invention.It should be pointed out that for the art Those of ordinary skill for, several improvements and modifications without departing from the principles of the present invention, these improvements and modifications It should be regarded as protection scope of the present invention.

Claims (10)

1. a kind of full-automatic flat-press flat-die cutting machine, including rack (1), it is characterized in that: along the conveying side of cardboard in the rack (1) It is disposed with feeding device (2), die-cutting apparatus (3), a waste discharge apparatus (4), secondary waste discharge apparatus (5), the machine upwards The conveying device (6) for paperboard conveying is provided on frame (1), the conveying device (6) drives cardboard successively to pass through the mould Cutting apparatus (3), a waste discharge apparatus (4) and secondary waste discharge apparatus (5), the feeding device (2) include being arranged in the rack (1) absorbent module (22) of feeding material component (21), setting below the feeding material component (21) on, the feeding material component (21) The first actuator including the PU wheel (211), described PU wheel (211) reciprocating rotation of driving that are rotatably connected on the rack (1) (212), the absorbent module (22) include the negative pressure chamber (221) being fixedly connected on the rack (1), be fixedly connected on it is described The aspiration channel (222) that is connected in negative pressure chamber (221) and with the negative pressure chamber (221) is fixedly connected with the aspiration channel (222) Suction ventilator (223), the auxiliary tube (224) for being fixedly connected on the negative pressure chamber (221) and being connected to the negative pressure chamber (221), The second of the closed plate (225), driving closed plate (225) reciprocating rotation that are rotatably connected in the auxiliary tube (224) drives Moving part (226), the negative pressure chamber (221) are located at the lower section of PU wheel (211), slidably connect undertaking on the rack (1) Plate (8), the through hole (82) passed through for PU wheel (211) is offered on the bearing plate (8), and the bearing plate (8) is located at described In negative pressure chamber (221), the third for driving the bearing plate (8) mobile is provided between the bearing plate (8) and the rack (1) The rotation period of actuator (81), the rotation period of the closed plate (225) and PU wheel (211) is on the contrary, the bearing plate (8) it is opposite that the sliding period takes turns the rotation period of (211) with the PU.

2. a kind of full-automatic flat-press flat-die cutting machine according to claim 1, it is characterized in that: first actuator (212) Including be rotatably connected on the rack (1) and rotated by die-cutting machine host driven the first drive shaft (2121), be fixedly connected Conjugate cam (2122) on first drive shaft (2121), the first connecting rod (2123) being hinged on the rack (1), The second connecting rod (2124) being hinged on the first connecting rod (2123), the third being hinged on the second connecting rod (2124) connect Bar (2125), be rotatably connected on the first connecting rod (2123) and respectively with the main cam of the conjugate cam (2122) and return The the first conflict wheel (2126) and second that cam contradicts contradict wheel (2127), are provided with transmission component (7) on the rack (1), The transmission component (7) includes the rotation axis (71) being rotatably connected on the rack (1), is fixedly connected on the rotation axis (71) first gear (72) on, is rotatably connected on the rack at the second gear (73) being rotatably connected on the rack (1) (1) the third gear (74) being fixedly connected on and with the third connecting rod (2125), the second gear (73) is with described One gear (72) and third gear (74) engagement, the PU wheel (211) are fixedly connected on the rotation axis (71).

3. a kind of full-automatic flat-press flat-die cutting machine according to claim 2, it is characterized in that: second actuator (226) Including be fixedly connected on first drive shaft (2121) driving cam (2261), be hinged on the rack (1) One catch bar (2262), is hinged on described second at the second catch bar (2263) being hinged on first catch bar (2262) Third catch bar (2264) on catch bar (2263), be rotatably connected on first catch bar (2262) and with the driving The third that cam (2261) contradicts contradicts wheel (2265), is fixedly connected on the rack (1) and first catch bar (2262) Between the first elastic component (2266), be fixedly connected with synchronizing bar (2267), the synchronization on the third catch bar (2264) Bar (2267) is rotatably connected on the rack (1), and the closed plate (225) is fixedly connected with the synchronizing bar (2267).

4. a kind of full-automatic flat-press flat-die cutting machine according to claim 2, it is characterized in that: the third actuator (81) wraps Include the fixed link (812) being fixedly connected on the rack (1), the elevating lever (813) that is hinged on the fixed link (812), The lifter cam (814) that is fixedly connected on the first drive shaft (2121), be rotatably connected on the elevating lever (813) and with institute State the 4th of lifter cam (814) conflict contradict wheel (815), respectively with the fixed company of the fixed link (812) and elevating lever (813) The second elastic component (816) connect, the elevating lever (813) and the bearing plate (8) are hinged.

5. a kind of full-automatic flat-press flat-die cutting machine according to claim 1, it is characterized in that: the feeding device (2) also wraps Include the conveying roller (23) being rotatably connected on the rack (1), the fourth drive member (24) of the driving conveying roller (23) rotation, The transmission belt (25) being arranged on the rack (1), the conveying roller (23) are located at PU wheel (211) and fill towards the conveying The side of (6) is set, the transmission belt (25) is between the conveying roller (23) and the conveying device (6).

6. a kind of full-automatic flat-press flat-die cutting machine according to claim 5, it is characterized in that: the fourth drive member (24) is wrapped Include be rotatably connected on the rack (1) and by the first rotate gear (241) of die-cutting machine host driven, be rotatably connected on it is described The second rotate gear (242) for being fixedly connected in rack (1) and with the conveying roller (23) is rotatably connected on the rack (1) Upper and intermeshing first transmission gear (243) and the second transmission gear (244), first transmission gear (243) and the Two transmission gears (244) are engaged from different the second rotate gear (242) respectively, first rotate gear (241) with wherein One the second rotate gear (242) engagement.

7. a kind of full-automatic flat-press flat-die cutting machine according to claim 6 a, it is characterized in that: waste discharge apparatus (4) Including the upper waste discharge template (41) being slidably connected on the rack (1), the lower waste discharge mould being fixedly connected on the rack (1) The 5th actuator (43) that plate (42), the driving upper waste discharge template (41) are slided.

8. a kind of full-automatic flat-press flat-die cutting machine according to claim 7, it is characterized in that: the 5th actuator (43) is wrapped Include the first oscillating rod (431) being hinged on the rack (1), the second oscillating rod (432) for being hinged on the rack (1), The both ends first connecting rod (433) hinged with first oscillating rod (431) and the second oscillating rod (432) is hinged on the machine Third oscillating rod (434) on frame (1), both ends are hinged with second oscillating rod (432) and third oscillating rod (434) respectively Second connecting rod (435), both ends the third connecting rod hinged with second oscillating rod (432) and upper waste discharge template (41) respectively (436), both ends fourth connecting rod (437) hinged with the third oscillating rod (434) and upper waste discharge template (41), rotation respectively Be connected on the rack (1) and by the waste discharge cam (438) of die-cutting machine host driven, the waste discharge cam (438) with it is described First oscillating rod (431) contradicts.

9. a kind of full-automatic flat-press flat-die cutting machine according to claim 8, it is characterized in that: the secondary waste discharge apparatus (5) Lower section be provided with clap homogeneous component (9), it is described clap homogeneous component (9) include be mounted on the rack (1) driving cylinder (91), The pushing plate (92) being fixedly connected on the catch bar of driving cylinder (91), offers several on the pushing plate (92) Venthole (93).

10. a kind of processing technology, it is characterized in that: based on a kind of full-automatic flat-press flat-die cutting machine described in claim 9, processing Technique includes:

Step A: the third actuator (81) drives the closed plate (225) to open the auxiliary tube (224), the negative pressure chamber (221) interior pressure reduces, and the PU wheel (211) drives cardboard to be moved at the conveying roller (23), and the conveying roller (23) will Cardboard is transmitted on the transmission belt (25)；

Step B: the cardboard on the transmission belt (25) is delivered at the die-cutting apparatus (3) by the conveying device (6), is carried out Die cut operation；

Step C: cardboard is delivered at a waste discharge apparatus (4) by the conveying device (6), the upper waste discharge template (41) It is contradicted after decline with the lower waste discharge template (42), first time waste discharge operation is carried out to cardboard；

Step D: cardboard is delivered at the secondary waste discharge apparatus (5) by the conveying device (6), carries out secondary waste discharge operation, Cardboard finished product falls, and waste material leaves rack (1) under the drive of secondary waste discharge apparatus (5)；

Step E: cardboard finished product reaches under self gravitation effect to be clapped at homogeneous component (9), described in driving cylinder (91) promotion Pushing plate (92) movement, pushing plate (92) clap to the cardboard finished product in falling state neat, completion blanking operation.