CN114030288B - Go up optical die cutting machine - Google Patents

Abstract

The invention relates to the technical field of die cutting machines, in particular to a feeding die cutting machine, a rolling shaft is used for feeding raw materials, a deviation correcting component is used for correcting the positions of the materials, the materials enter a flexible printing component for printing characters or patterns, a film coating shaft is used for providing films for surface film coating of the printed materials, an ink solidifying component is used for solidifying ink printed on the materials and cooling the materials, a swinging roller pulling component is used for enabling the materials to run, then the die cutting component is used for properly cutting the materials, waste materials are recycled through a waste recycling shaft, then the materials are cut through a cutting component and can be properly cut, and finally, the materials are subjected to ending work through a material collecting shaft.

Description

Go up optical die cutting machine

Technical Field

The invention relates to the technical field of die cutting machines, in particular to a top light die cutting machine.

Background

The die cutting machine (Die Cutting Machine) is also called a cutting machine and a numerical control punching machine, and is mainly used for die cutting (full-cut, half-cut), indentation and gold stamping operations, laminating of corresponding nonmetal materials, self-adhesive, EVA, double-sided adhesives, electronic and mobile phone rubber pads and the like, the die cutting process is the most commonly used process for packaging printed matters, or the die cutting process is combined into a die cutting plate by using die cutting knives according to patterns required by product design, the conventional die cutting machine is only used for simply cutting a material film, flexible printing cannot be carried out on the material, waste materials are collected, and a plurality of devices are required to work when flexible printing and film coating are required.

Disclosure of Invention

The invention provides a glazing die cutting machine aiming at the problems of the prior art.

In order to solve the technical problems, the invention adopts the following technical scheme:

the invention provides a sizing die cutting machine which comprises a machine table, a unreeling shaft, a correction assembly, a flexible printing assembly, an ink curing assembly, a film covering shaft, a film collecting shaft, a die cutting assembly, a swinging roller material pulling assembly, a waste recycling shaft, a slitting assembly and a material collecting shaft.

Preferably, the flexography component comprises a feeding roller, a discharging roller, a plate roller, an anilox roller, a doctor blade, an ink box, a printing roller and a color code sensor, wherein the feeding roller and the discharging roller are rotatably arranged on the machine table, the plate roller is arranged above the feeding roller, the printing roller is arranged below the plate roller in an inclined manner, the anilox roller is abutted with the plate roller, the doctor blade is abutted with the anilox roller, the ink box is arranged on the side part of the anilox roller, the ink curing component is arranged on the side part of the plate roller, and the color code sensor is arranged above the printing roller.

Preferably, a film laminating assembly is arranged between the plate roller and the ink curing assembly, and comprises a film laminating steel roller, a film laminating press roller and a film laminating guide roller, wherein the film laminating guide roller is arranged below the film laminating shaft, the film laminating steel roller is arranged on the side part of the film laminating guide roller, and the film laminating press roller is arranged above the film laminating steel roller obliquely.

Preferably, the ink curing assembly comprises a water cooling roller and a UV ink curing system, a feeding end is arranged between the water cooling roller and the UV ink curing system, and a hot air drying assembly is arranged at the lower part of the UV ink curing system.

Preferably, the die cutting assembly comprises a first driving motor, a die cutting cushion roller, a die cutting bottom roller, a magnetic roller, a die cutting pressurizing mechanism and a gear, wherein the die cutting cushion roller, the die cutting bottom roller and the magnetic roller are sequentially arranged from bottom to top, the first driving motor is used for driving the die cutting cushion roller, the die cutting bottom roller and the magnetic roller to rotate through the gear, the die cutting pressurizing mechanism is used for adjusting the magnetic roller to move up and down, and a die cutting knife is arranged on the magnetic roller.

Preferably, the die cutting pressurizing mechanism comprises a hand wheel, a pressurizing screw and a pressing plate, wherein the pressing plate is arranged above the magnetic roller, one end of the pressurizing screw is connected with the pressing plate, the other end of the pressurizing screw is connected with the hand wheel, a bearing seat is arranged between the pressing plate and the magnetic roller, and a bearing is arranged in the bearing seat.

Preferably, the slitting assembly comprises a second driving motor, a pneumatic slitting assembly and a slitting cutter shaft, the pneumatic slitting assembly comprises a sliding shaft and a plurality of sliding cutter holders, the slitting cutter shaft is arranged below the pneumatic slitting assembly, the sliding cutter holders are slidably arranged on the sliding shaft, a slitting cutter pressing plate is arranged on the sliding cutter holders, a blade is clamped in the slitting cutter pressing plate, and the second driving motor is used for driving the slitting cutter shaft to rotate with the sliding shaft.

Preferably, the swing roller material pulling assembly comprises a driving shaft, a driven shaft, a guide roller shaft, a fixed block and a third driving motor, wherein the driving shaft and the driven shaft are both arranged on the machine table, the guide roller is arranged between the driving shaft and the driven shaft, the guide roller is arranged below the guide roller, the fixed block is arranged on the guide roller shaft, and the third driving motor is used for driving the driving shaft and the driven shaft to rotate.

Preferably, a traction assembly is arranged on the inclined side edge of the swing roller material pulling assembly, and a pneumatic compression roller assembly is arranged above the traction assembly in an inclined mode.

Preferably, the receiving shaft is provided with at least two, the side part of the receiving shaft is provided with a slitting waste absorbing assembly, and the machine table is provided with a rotatable cantilever control table.

The invention has the beneficial effects that:

the invention provides a glazing die cutting machine, which comprises a machine table, a unreeling shaft, a correction assembly, a flexible printing assembly, an ink curing assembly, a film coating shaft, a film collecting shaft, a die cutting assembly, a swinging roller material pulling assembly, a waste recycling shaft, a slitting assembly and a material collecting shaft, wherein the unreeling shaft is arranged at one end of the machine table, the correction assembly is arranged above the unreeling shaft, the flexible printing assembly is arranged at one side of the correction assembly, the ink curing assembly is arranged at a discharge hole of the flexible printing assembly, the film coating shaft and the film collecting shaft are arranged above the ink curing assembly, the die cutting assembly is arranged at the side part of the ink curing assembly, the swinging roller material pulling assembly is arranged below the die cutting assembly, the waste recycling shaft is arranged at one side of the die cutting assembly, the slitting assembly is arranged at one side of the die cutting assembly, the material collecting shaft is arranged on one side of the slitting assembly, the material collecting shaft is used for feeding raw materials, the position of the materials is corrected through the deviation correcting assembly, the materials enter the flexible printing assembly to print characters or patterns on the materials, the film coating shaft is used for providing films to carry out surface film coating on the printed materials, the ink solidifying assembly is used for solidifying ink printed on the materials and cooling the materials, the swinging roller pulling assembly is used for enabling the materials to run, the die cutting assembly is used for properly cutting the materials, waste materials are recycled through the waste material recycling shaft, the materials can be properly segmented through the slitting assembly, and finally the material collecting shaft is used for carrying out ending work on the materials.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the present invention.

Fig. 2 is a schematic view of another view overall structure of the present invention.

Fig. 3 is a front view of the overall structure of the present invention.

Fig. 4 is a schematic view of the structural plate of the flexographic printing element and ink curing element according to the present invention.

Fig. 5 is a cross-sectional view of the flexographic printing element and ink curing element of the present invention.

Fig. 6 is a schematic view of the die cutting assembly of the present invention.

Fig. 7 is a schematic view of another view angle structure of the die cutting assembly of the present invention.

Fig. 8 is a schematic structural view of the slitting assembly according to the invention.

Fig. 9 is a schematic view of another view angle structure of the slitting assembly according to the invention.

Fig. 10 is a schematic diagram of a swing roller pulling assembly according to the present invention.

The reference numerals are respectively:

the machine platform-1, the unreeling shaft-2, the deviation correcting component-3, the flexible printing component-4, the printing ink solidifying component-5, the film covering shaft-6, the film collecting shaft-7, the die cutting component-8, the swinging roller material pulling component-9, the waste recycling shaft-10, the slitting component-11, the material collecting shaft-12, the feeding roller-13, the discharging roller-14, the plate roller-15, the anilox roller-16, the doctor blade-17, the ink box-18, the printing roller-19, the color mark sensor-20, the film covering attaching component-21, the film covering steel roller-22, the film covering compression roller-23, the film covering guide roller-24, the water cooling roller-25, the UV printing ink solidifying system-26, the first driving motor-27, the die cutting cushion roller-28, the die cutting bottom roller-29, the magnetic roller-30, the die cutting pressurizing mechanism-31, the gear-32, the hand wheel-33, the pressurizing screw-34, the pressing plate-35, the bearing seat-36, the bearing-37, the second driving motor-38, the pneumatic pressing component-39, the cutter-40, the cutter shaft-40, the sliding seat-43, the cutter-46, the driven shaft-46, the driving roller-46, the cutter-46, the sliding seat-46, the driven shaft-46, the device comprises a fixed block-49, a third driving motor-50, a pneumatic compression roller assembly-51, a slitting waste absorbing assembly-52, a cantilever control console-53, a hot air drying assembly-54 and a traction assembly-55.

Detailed Description

The invention will be further described with reference to examples and drawings, to which reference is made, but which are not intended to limit the scope of the invention. The present invention will be described in detail below with reference to the accompanying drawings.

As shown in fig. 1-10, the invention provides a glazing die cutting machine, which comprises a machine table 1, an unwinding shaft 2, a deviation rectifying component 3, a flexible printing component 4, an ink solidifying component 5, a film covering shaft 6, a film collecting shaft 7, a die cutting component 8, a swinging roller material pulling component 9, a waste recycling shaft 10, a slitting component 11 and a material collecting shaft 12, wherein the unwinding shaft 2 is arranged at one end of the machine table 1, the deviation rectifying component 3 is arranged above the unwinding shaft 2, the flexible printing component 4 is arranged at one side of the deviation rectifying component 3, the ink solidifying component 5 is arranged above the flexible printing component 4, the film covering shaft 6 and the film collecting shaft 7 are both arranged above the ink solidifying component 5, the die cutting component 8 is arranged at the side part of the ink solidifying component 5, the swinging roller material pulling component 9 is arranged below the die cutting component 8, the waste recycling shaft 10 is arranged at one side of the die cutting component 8, the slitting component 11 is arranged at one side of the die cutting component 8, the material collecting shaft 12 is arranged at one side of the slitting component 11, the material collecting shaft 11 is arranged at one side of the slitting component 12, the material collecting shaft 11 is arranged at one side of the die cutting component 2, the other side of the film winding component 4 is arranged at the other side of the material collecting shaft 2, the material collecting shaft 2 is cooled by the position of the flexible printing component 4, the printing component is arranged at the position of the material collecting shaft 4, and the material is cooled by the material after the film is properly, the material is printed, and the material is cut by the film is printed, and the material is cut and the material is properly, and the film and has been printed, and the material is cooled by the film and the material is proper roll and has a proper roll and is printed Laminating, cross cutting, slitting and receiving material only need a equipment to carry out automated production, reasonable in design, convenient to use.

As shown in fig. 1-3 and 4-5, in this embodiment, the flexo printing assembly 4 includes a feeding roller 13, a discharging roller 14, a plate roller 15, an anilox roller 16, a doctor blade 17, an ink box 18, a printing roller 19, and a color mark sensor 20, wherein the feeding roller 13 and the discharging roller 14 are rotatably mounted on the machine table 1, the plate roller 15 is mounted above the feeding roller 13, the printing roller 19 is mounted obliquely below the plate roller 15, the anilox roller 16 is abutted against the plate roller 15, the doctor blade 17 is abutted against the anilox roller 16, the ink box 18 is mounted on the side of the anilox roller 16, the ink curing assembly 5 is mounted on the side of the plate roller 15, the color mark sensor 20 is mounted above the printing roller 19, the anilox roller 16 is rotated from the feeding roller 13 to the inside the flexo assembly 4, the ink scraped by the doctor blade 17 on the roller 16 is uniformly in contact with the plate roller 16 and the plate roller 15, the pattern is mounted on the printing roller 15 on the printing plate 15 or on the printing plate 15 by the printing plate, and the pattern is precisely positioned on the printing plate material by the printing plate 15, and the pattern is mounted on the printing plate 15, and the printing plate material is precisely positioned on the side of the printing plate material, and the printing plate material is moved on the side of the printing plate material is on the side of the printing plate 15, and the printing plate material is relatively opposite to the printing plate material.

As shown in fig. 1-3 and 4-5, in this embodiment, a film laminating assembly 21 is disposed between the plate roller 15 and the ink curing assembly 5, the film laminating assembly 21 includes a film-coated steel roller 22, a film-coated pressing roller 23, and a film-coated guiding roller 24, the film-coated guiding roller 24 is mounted below the film-coated shaft 6, the film-coated steel roller 22 is mounted on the side of the film-coated guiding roller 24, the film-coated pressing roller 23 is mounted above the film-coated steel roller 22 obliquely, the ink curing assembly 5 includes a water-cooled roller 25 and a UV ink curing system 26, a feeding end is disposed between the water-cooled roller 25 and the UV ink curing system 26, a hot air drying assembly 54 is disposed at the lower part of the UV ink curing system, the film is coated on the surface of the printed material by the film-coated guiding roller 24 via the hot air-coated pressing roller 23, after the film-coated process of the printed material is completed, the material is cooled by the water-cooled roller 25 on one side of the film-coated unit, the water-cooled roller 25 is cooled by the water-cooled roller 25, and the material is cooled by the water-cooled roller assembly for cooling system for cooling the material and curing system for cooling the material and the material, and the material is cooled by the water-cooled roller for curing system for the invention, and the material is cooled by the water-cooled roller for curing system for the material and the material for the material curing system for the material curing after the material curing, and the material curing after the material is cooled by the material and the material is cooled by the material, and cured by the material, and the material after the material is cured by the material and cured roller and cured by the material.

As shown in fig. 1-3 and 6-7, in this embodiment, the die-cutting assembly 8 includes a first driving motor 27, a die-cutting pad roller 28, a die-cutting pad roller 29, a magnetic roller 30, a die-cutting pressurizing mechanism 31 and a gear 32, the die-cutting pad roller 28, the die-cutting pad roller 29 and the magnetic roller 30 are sequentially arranged from bottom to top, the first driving motor 27 is used for driving the die-cutting pad roller 28, the die-cutting pad roller 29 and the magnetic roller 30 to rotate through the gear 32, the die-cutting pressurizing mechanism 31 is used for adjusting the magnetic roller 30 to move up and down, a die-cutting knife is arranged on the magnetic roller 30, the die-cutting pressurizing mechanism 31 includes a hand wheel 33, a pressurizing screw 34 and a pressing plate 35, the pressing plate 35 is arranged above the magnetic roller 30, one end of the pressurizing screw 34 is connected with the pressing plate 35, the other end of the pressurizing screw 34 is connected with the hand wheel 33, a bearing seat 36 is arranged between the pressing plate 35 and the magnetic roller 30, a bearing 37 is arranged in the bearing 36, the die-cutting pad roller 29 and the material is driven by the gear 32 to move up and down relative to the die-cutting pad roller 30, the die-cutting pad roller 30 is arranged on the magnetic roller 30, and the pressing roller 30 is driven by the magnetic roller 30 to move precisely, and the die-cutting pad roller 30 is positioned relative to the magnetic roller 30, and the magnetic roller is required to move to the die-cutting pad roller to move, and the magnetic roller 30.

As shown in fig. 1-3 and 8-9, in this embodiment, the slitting assembly 11 includes a second driving motor 38, a pneumatic slitting knife assembly 39, and a slitting knife shaft 40, the pneumatic slitting knife assembly 39 includes a sliding shaft 41, and a plurality of sliding knife holders 42, the slitting knife shaft 40 is mounted below the pneumatic slitting knife assembly 39, the sliding knife holders 42 are slidably mounted on the sliding shaft 41, a knife slitting press plate 43 is disposed on the sliding knife holders 42, a knife 44 is clamped in the knife slitting press plate 43, the second driving motor 38 is used for driving the slitting knife shaft 40 to rotate with the sliding shaft 41, the knife 44 on the pneumatic slitting knife assembly 39 can perform slitting and slicing treatment on materials passing through, and in the use process, the second driving motor 38 can drive the pneumatic slitting knife assembly 39 to move up and down.

As shown in fig. 1-3 and 10, in this embodiment, the swing roller material pulling assembly 9 includes a driving shaft 45, a driven shaft 46, a paper guiding roller 47, a guide rod shaft 48, a fixed block 49, and a third driving motor 50, where the driving shaft 45 and the driven shaft 46 are both mounted on the machine table 1, the paper guiding roller 47 is mounted between the driving shaft 45 and the driven shaft 46, the guide rod shaft 48 is mounted below the paper guiding roller 47, the fixed block 49 is mounted on the guide rod shaft 48, the third driving motor 50 is used to drive the driving shaft 45 and the driven shaft 46 to rotate, and after passing through the driving shaft 45, the material is introduced into a material processing procedure, and then is led out to a discharge end through the driven shaft 46, and the reciprocating motion of the paper guiding roller 47 can be realized during the rotation of the driving shaft 45 controlled by the servo motor, and the present invention can perform the selection through the swing roller material pulling assembly 9 into the die cutting assembly 8 or the die cutting assembly 11.

In this embodiment, as shown in fig. 1-3, a traction component 55 is disposed on an oblique side of the swing roller material pulling component 9, a pneumatic compression roller component 5 is installed above the traction component 55 in an oblique manner, the pneumatic compression roller component 51 is used for compressing the material on the traction component 51, the traction component 51 provides power to drive the material to operate, and the swing roller material pulling component 9 drives the entered material to reciprocate.

As shown in fig. 1-3, in this embodiment, in order to ensure the stability of the material received after cutting or die cutting, at least two receiving shafts 12 are provided, cutting waste absorbing components 52 are provided on the side portions of the receiving shafts 12, a rotatable cantilever console 53 is provided on the machine table 1, and the cantilever console 53 includes a plurality of control buttons for integrally controlling the present polishing and cutting machine.

The present invention is not limited to the preferred embodiments, but is intended to be limited to the following description, and any modifications, equivalent changes and variations in light of the above-described embodiments will be apparent to those skilled in the art without departing from the scope of the present invention.

Claims (6)

1. The utility model provides a go up optical cutting machine which characterized in that: the automatic feeding device comprises a machine table, a unreeling shaft, a deviation rectifying assembly, a flexible printing assembly, an ink curing assembly, a film covering shaft, a film collecting shaft, a die cutting assembly, a swinging roller material pulling assembly, a waste recycling shaft, a slitting assembly and a material collecting shaft, wherein the unreeling shaft is arranged at one end of the machine table, the deviation rectifying assembly is arranged above the unreeling shaft, the flexible printing assembly is arranged at one side of the deviation rectifying assembly, the ink curing assembly is arranged at a discharge hole of the flexible printing assembly, the film covering shaft and the film collecting shaft are both arranged above the ink curing assembly, the die cutting assembly is arranged at the side part of the ink curing assembly, the swinging roller material pulling assembly is arranged below the die cutting assembly, the waste recycling shaft is arranged at one side of the die cutting assembly, and the material collecting shaft is arranged at one side of the slitting assembly;

the flexible printing component comprises a feeding roller, a discharging roller, a printing roller, an anilox roller, a doctor blade, an ink box, a printing receiving roller and a color code sensor, wherein the feeding roller and the discharging roller are rotatably arranged on the machine table, the printing roller is arranged above the feeding roller, the printing receiving roller is arranged obliquely below the printing roller, the anilox roller is abutted with the printing roller, the doctor blade is abutted with the printing roller, the ink box is arranged on the side part of the anilox roller, the ink curing component is arranged on the side part of the printing roller, and the color code sensor is arranged above the printing receiving roller;

a film coating laminating assembly is arranged between the plate roller and the ink curing assembly, and comprises a film coating steel roller, a film coating press roller and a film coating guide roller, wherein the film coating guide roller is arranged below the film coating shaft, the film coating steel roller is arranged on the side part of the film coating guide roller, and the film coating press roller is arranged obliquely above the film coating steel roller;

the ink curing assembly comprises a water cooling roller and a UV ink curing system, a feeding end is arranged between the water cooling roller and the UV ink curing system, and a hot air drying assembly is arranged at the lower part of the UV ink curing system;

the swing roller material pulling assembly comprises a driving shaft, a driven shaft, a guide roller shaft, a fixed block and a third driving motor, wherein the driving shaft and the driven shaft are both arranged on the machine table, the guide roller is arranged between the driving shaft and the driven shaft, the guide roller is arranged below the guide roller, the fixed block is arranged on the guide roller shaft, and the third driving motor is used for driving the driving shaft and the driven shaft to rotate.

2. A glazing die-cutting machine according to claim 1, wherein: the die cutting assembly comprises a first driving motor, a die cutting cushion roller, a die cutting bottom roller, a magnetic roller, a die cutting pressurizing mechanism and a gear, wherein the die cutting cushion roller, the die cutting bottom roller and the magnetic roller are sequentially arranged from bottom to top, the first driving motor is used for driving the die cutting cushion roller through the gear, the die cutting bottom roller and the magnetic roller rotate, the die cutting pressurizing mechanism is used for adjusting the magnetic roller to move up and down, and a die cutting knife is arranged on the magnetic roller.

3. A glazing die-cutting machine according to claim 2, wherein: the die cutting pressurizing mechanism comprises a hand wheel, a pressurizing screw and a pressing plate, wherein the pressing plate is installed above the magnetic roller, one end of the pressurizing screw is connected with the pressing plate, the other end of the pressurizing screw is connected with the hand wheel, a bearing seat is arranged between the pressing plate and the magnetic roller, and a bearing is installed inside the bearing seat.

4. A glazing die-cutting machine according to claim 1, wherein: the cutting assembly comprises a second driving motor, a pneumatic cutter pressing assembly and a cutter pressing shaft, the pneumatic cutter pressing assembly comprises a sliding shaft and a plurality of sliding cutter holders, the cutter pressing shaft is arranged below the pneumatic cutter pressing assembly, the sliding cutter holders are slidably arranged on the sliding shaft, a cutter cutting pressing plate is arranged on the sliding cutter holders, a cutter is clamped in the cutter cutting pressing plate, and the second driving motor is used for driving the cutter pressing shaft to rotate with the sliding shaft.

5. A glazing die-cutting machine according to claim 1, wherein: the swing roller draws material subassembly oblique side to be provided with the traction assembly, the pneumatic compression roller subassembly is installed to the traction assembly oblique top.

6. A glazing die-cutting machine according to claim 1, wherein: the collecting shaft is provided with at least two, the side part of the collecting shaft is provided with a slitting waste absorbing assembly, and the machine table is provided with a rotatable cantilever control table.