CN210655466U - Intelligent control printing and die cutting integrated machine - Google Patents

Abstract

The utility model discloses an intelligent control printing cross cutting all-in-one, its characterized in that: the automatic mark-inserting device comprises an unwinding part, a deviation-rectifying part, a first flexo printing part, a reverse rotating frame, a second flexo printing part, a third flexo printing part, a peeling part, a composite part, a back circular die-cutting part, a front circular die-cutting part, a detection part, a strip-dividing part and a non-stop winding part which are sequentially arranged according to the working sequence, wherein a mark-inserting part is arranged between the peeling part and the composite part. The utility model discloses can realize the integrative production of printing cross cutting of airport luggage logistics storage management's RFID label to realize not stopping rolling of sticky tape or glue, simple structure is compact, and the rolling is of high quality, can adjust the rolling with the different pipe diameter paper tubes of rapid adaptation through the cutter position simultaneously.

Description

Intelligent control printing and die cutting integrated machine

Technical Field

The utility model relates to a printing technology field, concretely relates to printing cross cutting all-in-one.

Background

In the existing market, printing and die cutting integrated production equipment for RFID labels of airport luggage logistics storage management is not provided, in addition, adhesive tape or glue needs to be pre-coated on a paper tube of a winding shaft to realize non-stop winding of label production, so that labels cut off in the winding process can be adhered to the paper tube of the winding shaft which just enters winding work, but the adhesive tape or glue coating work is completed by a corresponding mechanism, and the structure is complex.

Disclosure of Invention

The utility model aims at providing a not enough to prior art, the utility model aims at providing a can realize the integrative production of printing cross cutting of airport luggage logistics storage management's RFID label to realize not going up the rolling of stopping of sticky tape or glue, simple structure is compact, and the rolling is of high quality, can pass through the intelligent control printing cross cutting all-in-one of cutter position control with the rolling of different pipe diameter paper tubes of quick adaptation simultaneously.

The utility model adopts the following technical proposal to complete:

intelligent control printing cross cutting all-in-one, its characterized in that: the automatic mark-inserting device comprises an unwinding part, a deviation-rectifying part, a first flexo printing part, a reverse rotating frame, a second flexo printing part, a third flexo printing part, a peeling part, a composite part, a back circular die-cutting part, a front circular die-cutting part, a detection part, a strip-dividing part and a non-stop winding part which are sequentially arranged according to the working sequence, wherein a mark-inserting part is arranged between the peeling part and the composite part.

And a dust removal station is reserved behind the deviation rectifying component, and a marking component is arranged behind the detection component.

Above-mentioned technical scheme's intelligent control printing cross cutting all-in-one can realize airport luggage logistics storage management's the integrative production of printing cross cutting of RFID label, and specific theory of operation is: the label roll material is unreeled by the unreeling component and corrected by the correcting component, firstly reverse printing is carried out at the first flexible printing component, then reverse rotation of the reverse rotating frame is carried out, front printing of labels is carried out at the second flexible printing component, overprinting of front printing of labels is carried out at the third flexible printing component, then the upper layer and the lower layer of the labels are separated by the stripping component, the upper layer passes through the upper part of the label inserting component, the lower layer passes through the lower part of the label inserting component, in the process, the label inserting component inserts the chip to the inner side surface of the lower layer film, then the upper layer and the lower layer of the labels are re-adhered together at the composite component, then the labels inserted into the chip are subjected to back die cutting at the back circular die cutting component and die cutting of the front sides of the labels at the front circular die cutting component, after the actions are finished, the detecting component detects the die-cut labels, and the marking component sprays code information on the front sides of the labels, The slitting component is used for slitting the label, and finally, the label after slitting is rolled through the rolling component without stopping, so that the printing and die cutting integrated production of the RFID label is completed.

Preferably, in order to realize non-stop rolling without applying adhesive tape or glue, the following technical scheme is adopted: the non-stop rolling component comprises a rolling turntable, the rolling turntable is arranged in an indexing rotation mode, A, B, C, D four rolling shafts are equally arranged on the circumference of the rolling turntable, the position of an upper left rolling shaft C is a roll changing station, the position of an upper right rolling shaft D is a rolling station, a large compression roller is arranged below the right side of the rolling shaft C and is pushed by a large compression roller cylinder to move, a small compression roller is arranged above the right side of the rolling shaft C and is pushed by a small compression roller cylinder to move, a cutter for cutting labels is movably arranged between the large compression roller and the small compression roller up and down, and the cutter moves up and down and is pushed by a cutter cylinder; when the cutter cuts off the label, the upper right position of paper tube on the winding shaft C is pressed and contacted by the small compression roller, the lower right position of paper tube on the winding shaft C is pressed and contacted by the large compression roller, the label passes through the bottom of the large compression roller from the left-right direction, enters between the winding shaft C and the large compression roller after winding the right semi-circle of the large compression roller, then enters between the winding shaft C and the small compression roller after winding the left semi-circle of the paper tube on the winding shaft C, and finally comes out and winds the paper tube on the winding shaft D.

The working principle of the technical scheme for realizing non-stop rolling without applying adhesive tape or glue is as follows: when the roll changing material receiving and cutting knife cuts off the label, the small compression roller is in pressing contact with the upper right part of the paper tube on the rolling shaft C, the large compression roller is in pressing contact with the lower right part of the paper tube on the rolling shaft C, then the label is cut off by the action of the cutting knife, the cut-off head of the label is pressed by the lower pressing roller, and the cut-off head of the label is very close to and faces the contact part of the paper tube on the rolling shaft C and the large compression roller, so that the cut-off head of the label can be rolled around the paper tube on the rolling shaft C along with the rotation of the rolling shaft C, and the adhesive tape or glue coating mechanism in the prior art is not needed to be pasted on the surface of the paper tube in advance, so that the adhesive tape or glue coating mechanism in the.

Preferably, the cutter cylinder is installed on the lifting seat, the lifting seat can be movably arranged on the adjusting frame up and down, the up-and-down movement of the lifting seat is pushed by the small compression roller cylinder, the small compression roller is also installed on the lifting seat, the adjusting frame performs horizontal sliding action, the horizontal sliding of the adjusting frame is driven by the adjusting motor through the screw nut structure, and the large compression roller cylinder are installed on the adjusting frame. Through above-mentioned design, after changing spool, the last bobbin external diameter of spool and changing, through the position that changes the alignment jig, the position that makes the cutter cut off the label produces corresponding change, and so, the cutter is after cutting off the label, and the label still can be guaranteed to carry out the rolling round the bobbin on the spool C by the head of cutting off, and then the non-stop rolling of the sticky tape or the glue of not going up of the different pipe diameter bobbins of quick adaptation.

Preferably, in order to improve the stability of the winding work in the roll changing process and ensure the winding quality, the following technical scheme is adopted: the front of the rolling turntable is provided with a rolling bearing plate, the rolling bearing plate is rotatably arranged on a turntable shaft of the rolling turntable and is locked by a locking cylinder, the rolling bearing plate is pushed by a long rod cylinder, the top end of the rolling bearing plate is provided with a movable supporting block for supporting the overhanging shaft end of the rolling shaft, and the activity of the movable supporting block is pushed by a supporting block cylinder arranged on the rolling bearing plate. Through the design, when the label is cut off by the cutter and the label begins to be wound on the paper tube on the winding shaft C, the movable support block loosens the support on the shaft end of the winding shaft D, meanwhile, the long rod cylinder pulls the winding support plate to rotate towards the winding shaft C, after the label is rotated in place, the movable support block supports the overhanging shaft end of the winding shaft C, the locking cylinder locks the winding support plate on the turntable shaft of the winding turntable, then, the winding turntable rotates in an indexing manner, the winding shaft C of the original winding changing station rotates to the winding station along with the indexing turntable, the winding support plate also rotates synchronously, and in the winding changing and winding process, the movable support block on the top of the winding support plate always supports the overhanging shaft end of the winding shaft C, so that the winding work and winding in the winding changing process are stable, and the winding quality is guaranteed.

Drawings

The utility model discloses there is following figure:

figure 1 is a schematic structural diagram of the present invention,

fig. 2 is an enlarged view of the winding part in fig. 1 without stopping the machine.

Detailed Description

As shown in the figure, the utility model discloses an intelligent control printing cross cutting all-in-one, include that unreel part 1, the part of rectifying 2, first flexographic printing part 4, reverse rotation frame 5, second flexographic printing part 6, third flexographic printing part 7, peel off part 8, composite member 10, back circle mould cutting part 11, front circle mould cutting part 12, detection component 13, make mark part 14, divide strip part 15 and non-stop rolling part 16 that set gradually according to working order, peel off part 8 and composite member 10's centre and be equipped with and insert mark part 9, the dust removal station 3 is reserved at the back of the part of rectifying 2.

The non-stop rolling component 16 comprises a rolling turntable 25, the rolling turntable 25 is arranged in an indexing rotation manner, the rolling turntable 25 is fixedly arranged on a turntable shaft 26, A, B, C, D rolling shafts are equally arranged on the upper circumference of the rolling turntable 25, the position of an upper left rolling shaft C is a roll changing station, the position of an upper right rolling shaft D is a rolling station, a large press roller 24 is arranged below the right side of the rolling shaft C, the large press roller 24 is pushed by a large press roller cylinder 22 to move, a small press roller 21 is arranged above the right side of the rolling shaft C, the small press roller 21 is pushed by a small press roller cylinder 34 to move up and down, a front stop 35 synchronously moves up and down with the small press roller 21, a cutter 20 for cutting labels is arranged between the large press roller 24 and the small press roller 21 in a vertically moving manner, the vertical movement of the cutter 20 is pushed by a cutter cylinder 31, the small press roller 21 and the front stop 35 are, the lifting seat 32 can be movably arranged on the adjusting frame 19 up and down through the guide of the guide post 33, the up-and-down movement of the lifting seat 32 is pushed by the small pressure roller cylinder 34, the small pressure roller cylinder 34 is arranged on the adjusting frame 19, the adjusting frame 19 performs horizontal sliding movement, the horizontal sliding movement of the adjusting frame 19 is driven by the adjusting motor 17 through the screw rod 18 nut structure, and the large pressure roller 24 and the large pressure roller cylinder 22 are arranged on the adjusting frame 19. A rolling support plate 28 is arranged in front of the rolling turntable 25, the rolling support plate 28 is rotatably arranged on the turntable shaft 26 and locked by a locking cylinder 27, the rolling support plate 28 is pushed by a long rod cylinder 23, a movable support block 30 for supporting the externally suspended shaft end of the rolling shaft is arranged at the top end of the rolling support plate 28, and the movable support block 30 is pushed by a support block cylinder 29 arranged on the rolling support plate 28. When the cutter cuts off the label (shown in fig. 2), the upper right part of the paper tube (paper tube is not drawn) on the rolling shaft C is pressed and contacted by the small compression roller, the lower right part of the paper tube on the rolling shaft C is pressed and contacted by the large compression roller, the label passes through the bottom of the large compression roller from the left to the right direction, and enters between the rolling shaft C and the large compression roller after being wound and connected with the right half circumference of the large compression roller, and then the label enters between the rolling shaft C and the small compression roller after being wound and connected with the left half circumference of the paper tube on the rolling shaft C, and finally the paper tube (paper tube is not drawn) on the rolling shaft D is wound and connected.

Claims (5)

1. Intelligent control printing cross cutting all-in-one, its characterized in that: the automatic mark-inserting device comprises an unwinding part, a deviation-rectifying part, a first flexo printing part, a reverse rotating frame, a second flexo printing part, a third flexo printing part, a peeling part, a composite part, a back circular die-cutting part, a front circular die-cutting part, a detection part, a strip-dividing part and a non-stop winding part which are sequentially arranged according to the working sequence, wherein a mark-inserting part is arranged between the peeling part and the composite part.

2. The intelligent control printing and die cutting all-in-one machine according to claim 1, wherein: and a dust removal station is reserved behind the deviation rectifying component, and a marking component is arranged behind the detection component.

3. The intelligent control printing and die cutting all-in-one machine according to claim 1, wherein: the non-stop rolling component comprises a rolling turntable, the rolling turntable is arranged in an indexing rotation mode, A, B, C, D four rolling shafts are equally arranged on the circumference of the rolling turntable, the position of an upper left rolling shaft C is a roll changing station, the position of an upper right rolling shaft D is a rolling station, a large compression roller is arranged below the right side of the rolling shaft C and is pushed by a large compression roller cylinder to move, a small compression roller is arranged above the right side of the rolling shaft C and is pushed by a small compression roller cylinder to move, a cutter for cutting labels is movably arranged between the large compression roller and the small compression roller up and down, and the cutter moves up and down and is pushed by a cutter cylinder; when the cutter cuts off the label, the upper right position of paper tube on the winding shaft C is pressed and contacted by the small compression roller, the lower right position of paper tube on the winding shaft C is pressed and contacted by the large compression roller, the label passes through the bottom of the large compression roller from the left-right direction, enters between the winding shaft C and the large compression roller after winding the right semi-circle of the large compression roller, then enters between the winding shaft C and the small compression roller after winding the left semi-circle of the paper tube on the winding shaft C, and finally comes out and winds the paper tube on the winding shaft D.

4. The intelligent control printing and die cutting all-in-one machine according to claim 3, wherein: the cutter cylinder is installed on the lift seat, and the lift seat can be on the adjustable shelf is located to the activity from top to bottom, and the activity from top to bottom of lift seat is promoted by little compression roller cylinder, and little compression roller also installs on the lift seat, and the adjustable shelf makes the horizontal slip action, and the horizontal slip of adjustable shelf is driven through the screw-nut structure by adjusting motor, and big compression roller, big compression roller cylinder are installed on the adjustable shelf.

5. The intelligent control printing and die cutting all-in-one machine according to claim 3, wherein: the front of the rolling turntable is provided with a rolling bearing plate, the rolling bearing plate is rotatably arranged on a turntable shaft of the rolling turntable and is locked by a locking cylinder, the rolling bearing plate is pushed by a long rod cylinder, the top end of the rolling bearing plate is provided with a movable supporting block for supporting the overhanging shaft end of the rolling shaft, and the activity of the movable supporting block is pushed by a supporting block cylinder arranged on the rolling bearing plate.

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