CN216507423U

CN216507423U - Glazing die-cutting machine

Info

Publication number: CN216507423U
Application number: CN202122984892.1U
Authority: CN
Inventors: 张雨辰
Original assignee: Dongguan Vision Intelligent Equipment Co ltd
Current assignee: Dongguan Vision Intelligent Equipment Co ltd
Priority date: 2021-11-30
Filing date: 2021-11-30
Publication date: 2022-05-13
Anticipated expiration: 2031-11-30

Abstract

The utility model relates to the technical field of die cutting machines, in particular to a glazing die cutting machine, a unreeling shaft of the glazing die cutting machine is used for feeding raw materials, the position of the material is corrected by the deviation correcting component, then the material enters the flexible printing component to print characters or patterns on the material, the film coating shaft provides a film to carry out surface film coating on the printed material, the ink curing component provides curing and material cooling for the ink printed on the material, the material pulling component is arranged on the swing roller to enable the material to run, then the die cutting component cuts the materials properly, the waste materials are recovered through the waste material recovery shaft, then the materials pass through the cutting component, the automatic cutting machine can properly cut materials, and finally, the material collecting shaft is used for ending the materials.

Description

Glazing die-cutting machine

Technical Field

The utility model relates to the technical field of die cutting machines, in particular to a glazing die cutting machine.

Background

The Die Cutting Machine (Die Cutting Machine) is called Cutting Machine, numerical control punching Machine, it is mainly used for Die Cutting (full-break, half-break), indentation and gilding operation, and fitting of some corresponding non-metal materials, non-setting adhesive, EVA, double faced adhesive tape, electron, mobile phone rubber mat, etc., the Die Cutting process is the most commonly used process for packing printed matter, that is, the Die Cutting plate is combined by the Die Cutting knife according to the pattern of product design requirement, the current Die Cutting Machine is only simple to cut the material film, it can't carry out flexography to the material, collect the waste material, when needing flexography, then need a plurality of equipment to work.

SUMMERY OF THE UTILITY MODEL

The utility model provides a glazing die-cutting machine aiming at the problems in the prior art.

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

the utility model provides a glazing die-cutting machine, which comprises a machine table, a unreeling shaft, a deviation rectifying 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 material recycling shaft, a cutting assembly and a material collecting shaft, the unreeling shaft is arranged at one end of the machine table, the deviation correcting component is arranged above the unreeling shaft, the flexible printing component is arranged on one side of the deviation rectifying component, the ink curing component is arranged at the discharge port of the flexible printing component, the film covering shaft and the film collecting shaft are both arranged above the printing ink curing assembly, the die cutting assembly is arranged on the side part of the printing ink curing assembly, the swing roller material pulling component is arranged below the die cutting component, the waste material recovery shaft is arranged on one side of the die cutting component, the cutting assembly is arranged on one side of the die cutting assembly, and the material receiving shaft is arranged on one side of the cutting assembly.

Preferably, the flexographic assembly includes a feed roller, a discharge roller, a printing roller, an anilox roller, a doctor blade, an ink cartridge, a printing roller, and a color mark sensor, wherein the feed roller and the discharge roller are rotatably installed on the machine table, the printing roller is installed above the feed roller, the printing roller is installed below the printing roller in a slanting manner, the anilox roller is abutted against the printing roller, the doctor blade is abutted against the anilox roller, the ink cartridge is installed on the side portion of the anilox roller, the ink curing assembly is installed on the side portion of the printing roller, and the color mark sensor is installed on the top of the printing roller.

Preferably, a film laminating assembly is arranged between the printing roller and the printing ink curing assembly and comprises a film laminating steel roller, a film laminating press roller and a film laminating guide roller, the film laminating guide roller is arranged below the film laminating shaft, the film laminating steel roller is arranged on the side portion of the film laminating guide roller, and the film laminating press roller is arranged above the film laminating steel roller in an inclined mode.

Preferably, the ink curing assembly comprises a water-cooled roller and a UV ink curing system, a feeding end is arranged between the water-cooled 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 pad roller, a die cutting bottom roller, a magnetic roller, a die cutting pressurizing mechanism and a gear, the die cutting pad roller is arranged on the die cutting bottom roller, the magnetic roller is sequentially arranged from bottom to top, the first driving motor is used for driving the gear to drive the die cutting pad roller, the die cutting bottom roller and the magnetic roller to 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.

Preferably, the die cutting pressurizing mechanism comprises a hand wheel, a pressurizing screw rod and a pressing plate, the pressing plate is installed above the magnetic roller, one end of the pressurizing screw rod is connected with the pressing plate, the other end of the pressurizing screw rod 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.

As preferred, cut the subassembly and include second driving motor, pneumatic pressure cutter subassembly, pressure cutter axle, pneumatic pressure cutter subassembly includes sliding shaft, a plurality of slip blade holder, pressure cutter axle install in pneumatic pressure cutter subassembly below, it is a plurality of but slip blade holder slidable mounting in on the sliding shaft, be provided with sword cutting board on the slip blade holder, the sword is held to the interior clamp of sword cutting board, second driving motor is used for the drive pressure cutter axle with the sliding shaft rotates.

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

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

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

The utility model has the beneficial effects that:

the utility model provides a glazing die-cutting machine, which comprises a machine table, a unreeling shaft, a deviation rectifying assembly, a flexographic printing assembly, an ink curing assembly, a film covering shaft, a film reeling shaft, a die cutting assembly, a swinging roller material pulling assembly, a waste material recycling shaft, a cutting assembly and a material reeling 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 flexographic printing assembly is arranged at one side of the deviation rectifying assembly, the ink curing assembly is arranged at a discharge port of the flexographic printing assembly, the film covering shaft and the film reeling 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 material recycling shaft is arranged at one side of the die cutting assembly, the cutting assembly is arranged at one side of the die cutting assembly, and the material reeling shaft is arranged at one side of the cutting assembly, the utility model supplies raw materials by an unreeling shaft, corrects the position of the materials by a deviation correcting assembly, then the materials enter a flexible printing assembly to print characters or patterns on the materials, a film is provided by a film coating shaft to coat the surface of the printed materials, an ink curing assembly is used for curing ink printed on the materials and cooling the materials, a swinging roller is used for pulling the materials to operate the materials, then a die cutting assembly is used for properly cutting the materials, waste materials are recovered by a waste material recovery shaft, then the materials can be properly cut by a cutting assembly, and finally the materials are subjected to tail closing work by a material receiving shaft.

Drawings

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

Fig. 2 is another overall structure diagram of the present invention.

Fig. 3 is an elevational view of the overall construction of the present invention.

Fig. 4 is a schematic view of the structural plate of the flexo printing unit and the ink curing unit of the utility model.

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

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

Fig. 7 is another perspective view of the die cutting assembly of the present invention.

Figure 8 is a schematic view of the slitting assembly of the present invention.

Figure 9 is a schematic view of another perspective of the slitting assembly of the present invention.

Fig. 10 is a schematic structural view of the oscillating roller pulling assembly of the present invention.

The reference numerals are respectively:

a machine table-1, a unreeling shaft-2, a deviation correcting component-3, a flexible printing component-4, an ink solidifying component-5, a laminating shaft-6, a film collecting shaft-7, a die cutting component-8, a swinging roller material pulling component-9, a waste material recycling shaft-10, a slitting component-11, a material collecting shaft-12, a feeding roller-13, a discharging roller-14, a printing roller-15, an anilox roller-16, a doctor blade-17, an ink box-18, a printing roller-19, a color mark sensor-20, a laminating attaching component-21, a laminating steel roller-22, a laminating pressing roller-23, a laminating guide roller-24, a water-cooled roller-25, a UV ink curing system-26, a first driving motor-27, a die-cutting pad roller-28, a die-cutting bottom roller-29, a magnetic roller-30, a die-cutting pressurizing mechanism-31, a gear-32, a hand wheel-33, a pressurizing screw-34, a pressure plate-35, a bearing seat-36, a bearing-37, a second driving motor-38, a pneumatic pressure cutter assembly-39, a pressure cutter shaft-40, a sliding shaft-41, a sliding cutter holder-42, a cutter pressure plate-43, a cutter-44, a driving shaft-45, a driven shaft-46, a paper guide roller-47, a guide shaft-48, a fixed block-49, a third driving motor-50, a pneumatic compression roller assembly-51, a slitting and waste-absorbing assembly-52, a cantilever control console-53, a hot air drying assembly-54 and a traction assembly-55.

Detailed Description

In order to facilitate understanding of those skilled in the art, the present invention will be further described with reference to the following examples and drawings, which are not intended to limit the present invention. The present invention is described in detail below with reference to the attached drawings.

As shown in fig. 1-10, the glazing die-cutting machine provided by the utility model comprises a machine table 1, a unreeling shaft 2, a deviation correcting assembly 3, a flexographic printing assembly 4, an ink curing assembly 5, a film covering shaft 6, a film collecting shaft 7, a die cutting assembly 8, a swinging roller material pulling assembly 9, a waste material recycling shaft 10, a cutting assembly 11 and a material collecting shaft 12, wherein the unreeling shaft 2 is installed at one end of the machine table 1, the deviation correcting assembly 3 is installed above the unreeling shaft 2, the flexographic printing assembly 4 is installed at one side of the deviation correcting assembly 3, the ink curing assembly 5 is installed at a discharge port of the flexographic printing assembly 4, the film covering shaft 6 and the film collecting shaft 7 are both installed above the ink curing assembly 5, the die cutting assembly 8 is installed at the side of the ink curing assembly 5, the swinging roller material pulling assembly 9 is installed below the die cutting assembly 8, the waste material recycling shaft 10 is installed at one side of the die cutting assembly 8, the cutting assembly 11 is arranged on one side of the die cutting assembly 8, the material receiving shaft 12 is arranged on one side of the cutting assembly 11, the unreeling shaft 2 of the utility model is used for feeding raw materials, the position of the materials is corrected through the deviation correcting assembly 3, then the materials enter the flexible printing assembly 4 to print characters or patterns on the materials, the film coating shaft 6 is used for providing a film to carry out surface film coating on the printed materials, the ink curing assembly 5 is used for providing curing and material cooling for ink printed on the materials, the swinging roller is used for pulling the material assembly 9 to enable the materials to operate, then the die cutting assembly 8 is used for properly cutting the materials, waste materials are recovered through the waste material recovery shaft 10, then the materials can be properly cut through the cutting assembly 11, and finally the material is subjected to tailing work through the material receiving shaft 12, the utility model can complete printing, film coating, die cutting, cutting and material receiving at one time, only need a equipment can carry out automated production, reasonable in design, convenient to use.

As shown in fig. 1-3 and 4-5, in this embodiment, the flexographic printing assembly 4 includes a feed roller 13, a discharge roller 14, a printing roller 15, an anilox roller 16, a doctor blade 17, an ink cartridge 18, a printing roller 19, and a color mark sensor 20, wherein the feed roller 13 and the discharge roller 14 are rotatably mounted on the machine base 1, the printing roller 15 is mounted above the feed roller 13, the printing roller 19 is mounted obliquely below the printing roller 15, the anilox roller 16 abuts against the printing roller 15, the doctor blade 17 abuts against the anilox roller 16, the ink cartridge 18 is mounted at a side portion of the anilox roller 16, the ink curing assembly 5 is mounted at a side portion of the printing roller 15, the color mark sensor 20 is mounted above the printing roller 19, the material of the present invention enters the interior of the flexographic printing assembly 4 from the feed roller 13, and the rotation of the anilox roller 16 causes the ink on the anilox roller uniformly scraped by the doctor blade 17 to be in the contact operation between the anilox roller 16 and the printing roller 15, ink is evenly scraped on a printing plate arranged on a plate roller 15, materials pass through the middle of the plate roller 15 and a printing roller 19 through the guide of a feeding roller 13, patterns or characters on the printing plate are printed on the surface of the materials along with the relative motion of the plate roller 15, the printing roller 19 and the materials, and the relative position of the materials is precisely positioned through a color mark sensor 20 arranged on one side of the materials, so that target patterns and characters are precisely printed on the materials.

As shown in fig. 1-3 and 4-5, in this embodiment, a coating laminating assembly 21 is disposed between the printing roller 15 and the ink curing assembly 5, the coating laminating assembly 21 includes a coating steel roller 22, a coating press roller 23, and a coating guide roller 24, the coating guide roller 24 is mounted below the coating shaft 6, the coating steel roller 22 is mounted on a side portion of the coating guide roller 24, the coating press roller 23 is mounted on an obliquely upper portion of the coating steel roller 22, 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 below the UV ink curing system, a thin film passes through the coating guide roller 24 on the coating unit on one side of the printing roller 19 and then passes through the coating press roller 23, and covers the surface of the printed material under the action of the press roller, after the film coating process of the materials is finished, the materials pass through the water-cooling roller 25 positioned on one side of the film coating unit, a UV curing system is arranged on one side of the water-cooling roller 25 to perform a curing process of ink on the materials, the water-cooling roller 25 cools the cured materials in an internal water circulation mode, then the printed materials are led out to the discharging roller 14 through the paper guide roller 47, and the hot air drying assembly 54 can be used for performing hot air curing treatment on the ink on the materials.

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 bottom 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 bottom roller 29, and the magnetic roller 30 are sequentially disposed from bottom to top, the first driving motor 27 is configured to drive the die cutting pad roller 28, the die cutting bottom roller 29, and the magnetic roller 30 to rotate through the gear 32, the die cutting pressurizing mechanism 31 is configured to adjust the magnetic roller 30 to move up and down, a die cutting knife is disposed on the magnetic roller 30, the die cutting pressurizing mechanism 31 includes a hand wheel 33, a pressurizing screw 34, and a pressure plate 35, the pressure plate 35 is mounted above the magnetic roller 30, one end of the pressurizing screw 34 is connected to the pressure plate 35, the other end of the pressurizing screw 34 is connected to the hand wheel 33, the pressing plate 35 with be provided with bearing frame 36 between the magnetic roll 30, bearing frame 36 internally mounted has bearing 37, and the material passes from the clearance of cross cutting bottom roll 29 and magnetic roll 30, uses the cross cutting loading system 31 that is located the magnetic roll 30 top to exert decurrent pressure adjustment die-cutting rule for the pressure of material to the magnetic roll 30, and in the equipment moving process, cross cutting pad roller 28 drives cross cutting bottom roll 29 and magnetic roll 30 and rotates, and the accurate positioning of cooperation color mark sensor 20 to the material makes the die-cutting rule on the magnetic roll 30 correspond the position that needs the cross cutting on the material well for the die-cutting rule can be accurate the completion to the cross cutting processing of material.

As shown in fig. 1-3 and 8-9, in this embodiment, the slitting assembly 11 includes a second driving motor 38, a pneumatic pressing cutter assembly 39 and a pressing cutter shaft 40, the pneumatic pressing cutter assembly 39 includes a sliding shaft 41 and a plurality of sliding cutter seats 42, the pressing cutter shaft 40 is installed below the pneumatic pressing cutter assembly 39, the plurality of sliding cutter seats 42 are slidably installed on the sliding shaft 41, a cutter pressing plate 43 is disposed on the sliding cutter seat 42, a cutter 44 is clamped in the cutter pressing plate 43, the second driving motor 38 is configured to drive the pressing cutter shaft 40 and the sliding shaft 41 to rotate, the cutter 44 on the pneumatic pressing cutter assembly 39 can cut and slice the passing material, and the second driving motor 38 can drive the pneumatic pressing cutter assembly 39 to move up and down during use.

As shown in fig. 1-3 and 10, in this embodiment, the swing roller pulling assembly 9 includes a driving shaft 45, a driven shaft 46, a paper guide roller 47, a guide shaft 48, a fixed block 49, and a third driving motor 50, wherein the driving shaft 45 and the driven shaft 46 are both mounted on the machine base 1, the paper guide roller 47 is mounted between the driving shaft 45 and the driven shaft 46, the guide shaft 48 is mounted below the paper guide roller 47, the fixed block 49 is mounted on the guide shaft 48, the third driving motor 50 is used for driving the driving shaft 45 and the driven shaft 46 to rotate, the material enters a material processing process through the driving shaft 45 and then is led out to a discharging end through the driven shaft 46, and the paper guide roller 47 can reciprocate during the rotation of the driving shaft 45 controlled by the servo motor to realize an intermittent material operation mode of the material, and the utility model can select to enter the die cutting component 8 or the slitting component 11 through the oscillating roller material pulling component 9.

As shown in fig. 1 to 3, in this embodiment, a traction assembly 55 is disposed on an oblique side of the swing roller material pulling assembly 9, a pneumatic pressure roller assembly 5 is installed obliquely above the traction assembly 55, the pneumatic pressure roller assembly 51 is used for pressing a material onto the traction assembly 51, the traction assembly 51 provides power to drive the material to operate, and the swing roller material pulling assembly 9 drives the entered material to operate in a reciprocating manner.

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

Although the present invention has been described with reference to the above preferred embodiments, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims

1. The glazing die-cutting machine is characterized in that: including board, unreel the axle, the subassembly of rectifying, flexo printing subassembly, printing ink solidification subassembly, tectorial membrane axle, receipts membrane axle, cross cutting subassembly, pendulum roller draw material subassembly, waste recovery axle, cut the subassembly and receive the material axle, unreel the axle install in board one end, the subassembly of rectifying install in unreel the axle top, the flexo printing subassembly install in the one side of the subassembly of rectifying, printing ink solidification subassembly install in flexo printing subassembly discharge gate department, the tectorial membrane axle with receive the membrane axle all install in printing ink solidification subassembly top, the cross cutting subassembly install in printing ink solidification subassembly lateral part, the pendulum roller draw the material subassembly install in cross cutting subassembly below, waste recovery axle install in one side of cross cutting subassembly, cut the subassembly install in cross cutting subassembly one side, receive the material axle install in cut subassembly one side.

2. The glazing die cutter set forth in claim 1, wherein: 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 roller and a color mark sensor, wherein the feeding roller, the discharging roller and the feeding roller are rotatably installed on the machine table, the printing roller is installed above the feeding roller, the printing roller is installed below the printing roller in an inclined mode, the anilox roller is abutted against the printing roller, the doctor blade is abutted against the anilox roller, the ink box is installed on the side portion of the anilox roller, the ink curing component is installed on the side portion of the printing roller, and the color mark sensor is installed above the printing roller.

3. The glazing die cutter set forth in claim 2, wherein: version roller with be provided with tectorial membrane laminating subassembly between the printing ink solidification subassembly, tectorial membrane laminating subassembly includes tectorial membrane steel roll, tectorial membrane compression roller, tectorial membrane guide roll, the tectorial membrane guide roll install in tectorial membrane axle below, tectorial membrane steel roll install in tectorial membrane guide roll lateral part, the tectorial membrane compression roller install in the oblique top of tectorial membrane steel roll.

4. The glazing die cutter set forth in claim 2, wherein: the printing ink curing assembly comprises a water-cooled roller and a UV printing ink curing system, a feeding end is arranged between the water-cooled roller and the UV printing ink curing system, and a hot air drying assembly is arranged at the lower part of the UV printing ink curing system.

5. The glazing die cutter set forth in claim 1, wherein: the die cutting assembly comprises a first driving motor, a die cutting pad roller, a die cutting bottom roller, a magnetic roller, a die cutting pressurizing mechanism and a gear, the die cutting pad roller is arranged on the die cutting bottom roller, the magnetic roller is arranged from bottom to top in sequence, the first driving motor is used for driving the gear to drive the die cutting pad roller, 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.

6. The glazing die cutter set forth in claim 5, wherein: the die cutting pressurizing mechanism comprises a hand wheel, a pressurizing screw rod and a pressing plate, the pressing plate is installed above the magnetic roller, one end of the pressurizing screw rod is connected with the pressing plate, the other end of the pressurizing screw rod 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.

7. The glazing die cutter set forth in claim 1, wherein: the slitting component comprises a second driving motor, a pneumatic pressing cutter component and a pressing cutter shaft, the pneumatic pressing cutter component comprises a sliding shaft and a plurality of sliding cutter holders, the pressing cutter shaft is installed below the pneumatic pressing cutter component and is a plurality of the sliding cutter holders are slidably installed on the sliding shaft, a cutter pressing plate is arranged on the sliding cutter holders, blades are clamped in the cutter pressing plate, and the second driving motor is used for driving the pressing cutter shaft and the sliding shaft to rotate.

8. The glazing die cutter set forth in claim 1, wherein: the swing roller material pulling assembly comprises a driving shaft, a driven shaft, a paper guide roller, a guide rod shaft, a fixed block and a third driving motor, wherein the driving shaft and the driven shaft are installed on the machine table, the paper guide roller is installed between the driving shaft and the driven shaft, the guide rod shaft is installed below the paper guide roller, the fixed block is installed on the guide rod shaft, and the third driving motor is used for driving the driving shaft and the driven shaft to rotate.

9. The glazing die cutter set forth in claim 8, wherein: the swing roller material pulling assembly is provided with a traction assembly on the oblique side edge, and a pneumatic compression roller assembly is installed above the traction assembly in an oblique mode.

10. The glazing die cutter set forth in claim 1, wherein: the material receiving shaft is provided with at least two, the side part of the material receiving shaft is provided with a slitting and waste absorbing assembly, and the machine table is provided with a rotatable cantilever control table.