CN211106259U

CN211106259U - Flexographic printing cross cutting integral type device

Info

Publication number: CN211106259U
Application number: CN201921057570.9U
Authority: CN
Inventors: 张耀文
Original assignee: Jiangsu Beichuan Automation Equipment Co ltd
Current assignee: Jiangsu Beichuan Automation Equipment Co ltd
Priority date: 2019-07-08
Filing date: 2019-07-08
Publication date: 2020-07-28
Anticipated expiration: 2029-07-08

Abstract

The utility model discloses a flexographic printing and die cutting integrated device, which comprises a machine table, an unreeling unit, a tool apron traction unit, a drum-type flexible plate printing unit, a UV lamp drying unit, a drum-type circular knife die cutting unit, a reeling unit, a sliding type reeling and unreeling unit and a controller; the tool apron traction unit comprises a pair of traction supports, a rubber roller, a traction bottom roller, a transmission bottom shaft and a driver; the roller type flexible plate printing unit comprises a printer shell, wherein an ink groove, an ink lifting roller, an anilox roller, a printing plate roller and a printing bottom roller are arranged in the printer shell; the drum-type circular knife die cutting unit comprises a pair of die cutting supports, a circular knife die, a die cutting bottom roller, a transmission bottom shaft and a driver. The utility model discloses a flexographic printing cross cutting integral type device integrates printing and cross cutting on an equipment, adopts the unit formula design can be according to production technology demand independent assortment, has simplified the processing technology of label, printing cross cutting class product, has reduced manufacturing cost, has improved production efficiency.

Description

Flexographic printing cross cutting integral type device

Technical Field

The utility model relates to a cutting device technical field, concretely relates to multistation, multi-functional flexographic printing cross cutting integral type device.

Background

The Die Cutting Machine (Die Cutting Machine) is also called beer Machine, Cutting Machine and numerical control punching Machine, and is mainly used for Die Cutting (full break and half break), indentation and gold stamping operation, fitting and automatic waste discharge of non-metal materials, non-setting adhesive, EVA, double-sided adhesive, electronics, mobile phone rubber mats and the like, and the Die Cutting Machine utilizes a steel knife, a hardware Die and a steel wire (or a template carved by a steel plate) to apply certain pressure through an embossing plate to roll and cut a printed product or a paper board into a certain shape, and is important equipment for packaging and processing forming after printing.

After the traditional printing equipment finishes printing the printed product, the printed product is transferred to circular knife die cutting equipment or flat knife die cutting equipment, and the printed product and the die cutting product are integrated together by adopting a lost piece type, so that the product requirement is met. The processing mode has the defects of complex process, high labor cost, low processing efficiency and the like.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a flexographic printing cross cutting integral type device, with printing and cross cutting integration on an equipment, adopt unit formula design can be according to production technology demand independent assortment, simplified the processing technology of label, printing cross cutting class product, reduced manufacturing cost, improved production efficiency.

In order to solve the technical problem, the utility model provides a flexographic printing and die cutting integrated device, which comprises a machine table, an unreeling unit, a tool apron traction unit, a drum-type flexible plate printing unit, a UV lamp drying unit, a drum-type circular knife die cutting unit, a reeling unit, a sliding type reeling and unreeling unit and a controller, wherein the unreeling unit, the tool apron traction unit, the drum-type flexible plate printing unit, the UV lamp drying unit, the drum-type circular knife die cutting;

the tool apron traction unit is used for drawing materials to advance and comprises a pair of traction supports, a rubber roller, a traction bottom roller, a transmission bottom shaft and a driver, wherein the pair of traction supports are arranged oppositely, the rubber roller, the traction bottom roller and the transmission bottom shaft are respectively arranged on the pair of traction supports, the transmission bottom shaft, the traction bottom roller and the rubber roller are in meshing transmission through a gear, and the materials pass through the rubber roller and the traction bottom roller; the driver is arranged on the other side of the machine table and used for driving the transmission bottom shaft to rotate;

the drum-type flexible plate printing unit comprises a printer shell, an ink groove is formed in the printer shell, an ink lifting roller, an anilox roller, a printing plate roller and a printing bottom roller are installed in the printer shell, the printing bottom roller is driven to rotate by a driver, the printing bottom roller, the printing plate roller and the anilox roller are sequentially meshed and driven by gears, and the material passes through between the printing plate roller and the printing bottom roller; the ink lifting roller is arranged in the ink groove, is in contact transmission with the anilox roller and is used for transferring ink in the ink groove to the anilox roller; the printing ink on the anilox roller is uniformly and quantitatively transferred onto a printing plate roller through a scraper blade, so that the pattern on the printing plate roller is transferred onto the material;

the UV lamp drying unit is arranged on the rear side of the drum-type flexible board printing unit and is used for drying the printed materials;

the drum-type circular knife die cutting unit comprises a pair of die cutting supports, a circular knife die, a die cutting bottom roller, a transmission bottom shaft and a driver, wherein the pair of die cutting supports are arranged oppositely, the circular knife die, the die cutting bottom roller and the transmission bottom shaft are respectively arranged on the pair of die cutting supports, and the transmission bottom shaft, the die cutting bottom roller and the circular knife die are in meshing transmission through gears; the driver is arranged on the other side of the machine table and used for driving the transmission bottom shaft to rotate;

the sliding type retractable units are arranged on the upper side and the lower side of the drum-type circular knife die cutting unit and used for feeding and discharging die cutting materials.

The utility model discloses in, the equal electric connection of controller and each unit, it receives the signal of telecommunication that each unit sent and come to the action of each unit of integrated control.

Further, the driver comprises a servo motor, a speed reducer and a coupler which are connected with each other, and the speed reducer is fixedly connected with one end of the transmission bottom shaft or one end of the printing bottom roller through the coupler.

Furthermore, the traction support, the printer shell and the die cutting support are all provided with pressurizing hand wheels for extruding a rubber roller, a printing plate roller or a circular knife die.

Furthermore, a Y-direction adjusting mechanism is arranged on one side of the circular knife mold.

Furthermore, the UV lamp drying unit comprises a UV lamp shell and a light returning plate shell, one side of the UV lamp shell is hinged with one side of the light returning plate shell, the other side of the UV lamp shell is buckled together, a channel for materials to pass through is formed between the UV lamp shell and the light returning plate shell, and an anti-scattering cover is arranged at the position, located at the channel opening, of the UV lamp shell; a water cooling plate is arranged in the UV lamp shell, a groove is formed in the lower end face of the water cooling plate, a UV lamp panel is installed in the groove, and a crystal glass cover used for transmitting light is installed on the lower end face of the water cooling plate; a light returning plate for reflecting UV light is arranged in the light returning plate shell; a plurality of cooling water pipelines are arranged in the water cooling plate and the light returning plate.

Further, unreel unit and rolling unit and all include physiosis axle, servo motor, hold-in range and synchronous pulley, servo motor passes through hold-in range and synchronous pulley drive physiosis axle are rotatory.

Furthermore, the unreeling unit and the tool apron traction unit are also provided with a corona unit and a deviation rectifying unit;

the corona unit comprises a corona bottom roller, a discharge electrode and a discharge power regulator, the material passes through the corona bottom roller and the discharge electrode, and the discharge power regulator is used for controlling the discharge of the discharge electrode;

the deviation rectifying unit comprises a deviation rectifying support, a servo motor arranged on the deviation rectifying support, a rotary roller and a control detection sensor, wherein the detection sensor is used for detecting the deviation of the material and transmitting the deviation to the controller, and the controller controls the servo motor to adjust the angle of the rotary roller according to the received deviation value so as to correct the material in the Y direction.

Furthermore, the sliding type folding and unfolding unit comprises sliding guide rails arranged on the upper side and the lower side of the drum-type circular knife die cutting unit, a plurality of installation panels are connected onto the sliding guide rails in a sliding mode, and the installation panels are provided with material receiving and arranging shafts for feeding and discharging die cutting materials.

Further, still be equipped with the control panel who is used for setting up cross cutting and printing parameter on the board.

Further, the control panel is a cantilever type touch panel.

The utility model has the advantages that:

1. the utility model discloses a flexographic printing cross cutting integral type device makes up drum-type flexographic printing unit and drum-type circular knife cross cutting unit into integral type equipment through unit formula mechanism, carries out the printing and the cross cutting of product, has solved and can only print through traditional lithography apparatus in the past, then adopts traditional processing mode that traditional cross cutting equipment comes the cross cutting; the traditional processing technology is simplified, the purchase cost and the labor cost of equipment are reduced (the equipment can be completed by 3-5 people originally, and can be completed by 1 person now), and the processing efficiency is improved.

2. The utility model discloses a flexographic printing cross cutting integral type device, each unit such as traction unit, printing unit, cross cutting unit all adopt unit formula mechanism to combine together, and its installation is general, and the customer can be according to production technology demand independent assortment, and the flexibility is high, and the commonality is good.

3. The utility model discloses a flexographic printing cross cutting integral type device, the control system with printing unit and cross cutting unit is integrated to a controller in, controls each unit through an industrial computer, guarantees the tensile uniformity of printing and cross cutting to improved product precision and stability (printing + cross cutting precision is steerable within 0.1 mm).

Drawings

Fig. 1 is a schematic structural diagram of an integrated flexographic printing and die cutting device according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a corona unit;

FIG. 3 is a schematic diagram of a deviation rectifying unit;

fig. 4 is a schematic structural view of the tool holder drawing unit;

FIG. 5 is a schematic view of a roll-to-roll flexographic printing unit;

FIG. 6 is a schematic view of the structure of the UV lamp drying unit;

FIG. 7 is a schematic structural view of a drum type circular knife die cutting unit;

the reference numbers in the figures illustrate: 100. a machine platform; 110. a guide rail; 120. installing a panel; 130. a material receiving and discharging shaft; 140. a cantilever-type touch panel;

210. an unwinding unit; 220. a winding unit;

300. a corona unit; 310. a corona bottom roller; 320. a material guiding shaft; 330. a discharge electrode; 340. a discharge power regulator;

400. a deviation rectifying unit; 410. a deviation rectifying bracket; 420. a servo motor; 430. a detection sensor; 440. rotating the roller;

500. a tool apron traction unit; 510. a traction support; 520. a drive bottom shaft; 530. a traction bottom roller; 540. a rubber roller; 550. a transmission gear; 560. a pressurizing hand wheel; 570. a servo motor; 580. a speed reducer; 590. a coupling;

600. a roll-to-roll flexographic printing unit; 610. a printer housing; 620. an ink tank; 630. printing a bottom roller; 640. printing plate rollers; 650. an anilox roll; 660. an ink lifting roller;

700. a UV lamp drying unit; 710. a UV lamp housing; 720. a light return plate housing; 721. a hinge type hinge; 722. a spring type buckle; 730. a water-cooling plate; 731. a cooling water pipeline; 732. a groove; 740. a UV lamp panel; 750. a crystal glass cover; 760. a light return plate;

800. a drum-type circular knife die cutting unit; 810. die cutting the support; 820. a drive bottom shaft; 830. die cutting a bottom roller; 840. a circular knife mold; 841. y is to adjustment mechanism.

Detailed Description

The present invention is further described with reference to the following drawings and specific embodiments so that those skilled in the art can better understand the present invention and can implement the present invention, but the embodiments are not to be construed as limiting the present invention.

In the prior art, the production process of the electronic tag is to print by traditional printing equipment and then to die-cut by traditional die-cutting equipment, and the traditional processing mode has the defects of complex process, high labor cost, low processing efficiency and the like. In order to solve the technical problem, the utility model provides a flexographic printing cross cutting integral type device makes up into integral type equipment with cylinder flexographic printing unit 600 and cylinder circular knife cross cutting unit 800 through unit formula mechanism, carries out the printing and the cross cutting of product.

Referring to fig. 1, the flexographic printing and die cutting integrated device includes a machine table 100, an unwinding unit 210, a corona unit 300, a deviation rectifying unit 400, a tool apron traction unit 500, a drum-type flexographic printing unit 600, a UV lamp drying unit 700, a drum-type circular knife die cutting unit 800, a winding unit 220, a sliding type winding and unwinding unit, and a controller installed at one side of the machine table 100. The machine 100 is a vertical machine 100, the units are disposed on one side of the machine 100, and the corresponding components such as the driver and the electric control unit are disposed on the other side of the machine 100.

Specifically, unreel unit 210 and the structure of rolling unit 220 unanimously, all include physiosis axle, servo motor, hold-in range and synchronous pulley, wherein, the physiosis axle passes through bearing and synchronous pulley fixed connection, servo motor passes through hold-in range and synchronous pulley drive physiosis axle are rotatory, and the material is rolled up and is twined on the physiosis is epaxial, holds tightly it through physiosis axle inflation mode.

Referring to fig. 2, the corona unit 300 includes a corona backing roller 310, a material guiding shaft 320, a discharging electrode 330, and a discharging power adjuster 340, wherein the material guiding shaft 320 is used for guiding the material to advance, the material passes between the corona backing roller 310 and the discharging electrode 330, and the discharging power adjuster 340 changes the roughness of the surface of the material to reach a desired dyne value by controlling the discharging electrode 330 to discharge, thereby enhancing the adhesion of the ink on the surface of the material.

Referring to fig. 3, the deviation rectifying unit 400 is disposed behind the corona unit 300, and includes a deviation rectifying bracket 410, a servo motor 420 disposed on the deviation rectifying bracket 410, a rotating roller 440, and a detecting sensor 430. Wherein, when the material on the roller 440 passes the sensing sensor 430, the sensing sensor 430 senses the deviation of the material and transmits the deviation value to the controller; the controller controls the servo motor 420 to adjust the angle of the rotary roller 440 according to the received deviation value, so that the material is corrected in the Y direction, and the material is prevented from deviating.

Referring to fig. 4, a tool apron traction unit 500 is disposed behind the deviation rectifying unit 400 for drawing the material forward. Specifically, the tool apron traction unit 500 includes a pair of traction supports 510, a rubber roller 540, a traction bottom roller 530, a transmission bottom shaft 520 and a driver, wherein the pair of traction supports 510 are oppositely arranged, and the rubber roller 540, the traction bottom roller 530 and the transmission bottom shaft 520 are respectively installed on the pair of traction supports 510 from top to bottom. The inner ends of the rubber roller 540, the traction bottom roller 530 and the transmission bottom shaft 520 are all provided with meshed transmission gears 550, the traction bottom roller 530 is driven to the transmission bottom shaft 520 through the transmission gears 550, and the rubber roller 540 is driven to the traction bottom roller 530. The driver is installed on the other side of the machine table 100 and comprises a servo motor 570, a speed reducer 580 and a coupler 590 which are connected with each other, the speed reducer 580 is fixedly connected with one end of the transmission bottom shaft 520 or the printing bottom roller 630 through the coupler 590, so that the transmission bottom shaft 520 is driven to rotate, and the transmission bottom shaft 520 further drives the rubber roller 540 and the traction bottom roller 530 to rotate. The materials pass through the rubber roller 540 and the traction bottom roller 530, and when the rubber roller 540 and the traction bottom roller 530 rotate oppositely, the static friction force between the rubber roller 540 and the surface of the materials drives the materials to advance.

In addition, a pressurizing hand wheel 560 is arranged at the top of each traction support 510, and the extrudable rubber roller 540 pressurizes the rubber roller 540 by rotating the pressurizing hand wheel 560, so that the rubber roller 540 deforms, and the material is ensured not to slip after passing through the rubber roller 540.

Referring to fig. 5, the drum-type flexographic printing unit 600, disposed behind the tool apron drawing unit 500, includes a printer housing 610 having a material inlet and a material outlet respectively formed at both sides thereof; an ink tank 620 is arranged in the printer housing 610, an ink lifting roller 660, an anilox roller 650, a printing roller 640 and a printing bottom roller 630 are arranged in the printer housing 610, wherein the printing bottom roller 630, the printing roller 640 and the anilox roller 650 are sequentially engaged and driven through gears, and the specific engagement mode is similar to that of the tool apron traction unit 500, and is not described again. The printing bottom roller 630 is driven to rotate by a driver, and the driver is structured as described above, and the printing bottom roller 630 further drives the ink lifting roller 660, the anilox roller 650 and the printing plate roller 640 to rotate.

Ink lift roller 660 is disposed within ink tank 620 and is in contact drive with anilox roller 650. As the ink form roller 660 rotates, the ink in the ink tank 620 can be transferred to the surface of the anilox roller 650; the ink on the anilox roll 650 is further transferred uniformly and quantitatively to the printing plate roll 640 by the doctor blade. When the material passes between the printing plate roller 640 and the printing bottom roller 630, the printing plate roller 640 contacts with the material, so that the pattern on the printing plate roller 640 is transferred to the material. Meanwhile, a pair of pressurizing hand wheels 560 is also arranged on the printer shell 610 and used for adjusting the pressure between the printing plate roller 640 and the printing bottom roller 630, so that the printing quality is ensured.

Referring to fig. 6, a UV lamp drying unit 700 is disposed at a rear side of a drum-type flexographic printing unit 600 to dry printed materials, and the printed ink is L ED type UV environmental protection ink, and thus, the UV lamp is irradiated to dry the printed materials, and specifically, the UV lamp drying unit 700 includes a UV lamp housing 710 and a return light plate housing 720, one sides of the UV lamp housing 710 and the return light plate housing 720 are hinged together by a hinge 730, and the other sides are fastened together by a spring type fastener 722, a passage for passing the materials is formed between the UV lamp housing 710 and the return light plate housing 720, and a diffusion preventing cover is disposed at a position of a passage opening on the UV lamp housing 710, a water cooling plate 730 is disposed in the UV lamp housing 710, a groove 732 is disposed on a lower end surface of the water cooling plate 730, a UV lamp plate 740 is disposed in the groove 732, and a crystal glass cover for passing light is disposed on a lower end surface of the water cooling plate 730, a return light plate housing 720 is disposed with a return light plate 760 for reflecting the UV light, improving drying effect, a plurality of the water cooling plate 730, and a plurality of heat dissipation plates L for adjusting the heat dissipation efficiency of the printed materials.

Referring to fig. 7, a plurality of drum type circular knife die cutting units 800 may be provided behind the UV lamp drying unit 700. Specifically, the drum-type circular knife die-cutting includes a pair of die-cutting supports 810, a circular knife mold 840, a die-cutting bottom roller 830, a driving bottom shaft 820, and a driver. The pair of die cutting supports 810 are oppositely arranged, the circular knife mold 840, the die cutting bottom roller 830 and the transmission bottom shaft 820 are respectively installed on the pair of die cutting supports 810 from top to bottom, and the transmission bottom shaft 820, the die cutting bottom roller 830 and the circular knife mold 840 are in meshing transmission through gears, wherein the meshing mode is as described above. The driver is installed at the other side of the machine 100 for driving the transmission bottom shaft 820 to rotate, and the structure of the driver is as described above. The transmission bottom shaft 820 further drives the die cutting bottom roller 830 and the circular knife mold 840 to rotate, so that the die cutting of the material is realized. Similarly, a pressurizing hand wheel 560 is arranged at the top of each die cutting support 810 and used for adjusting the gap between the circular knife mold 840 and the die cutting bottom roller 830, so that better die cutting quality is realized. In addition, a Y-direction adjusting mechanism 841 is further disposed at the outer end of the circular knife mold 840 to adjust the Y-direction position of the circular knife mold 840.

And compounding the printed label with a die cutting material to form a 3-8-layer composite structure and performing die cutting. The die cutting material comprises, but is not limited to, foam, graphite, double faced adhesive tape, blue film, white film and red film, and the die cutting material is fed and discharged through the sliding type collecting and releasing unit. The utility model discloses in, the slidingtype receive and releases the unit including locating the sliding guide 110 of drum-type circular knife cross cutting unit 800 upper and lower both sides, it has a plurality of installation panels 120 to slide-connect on the sliding guide 110, installation panel 120 installs the material loading that is used for the die-cutting material and the receipts blowing axle 130 of wasting discharge.

The utility model discloses in, in the control system who integrates each unit such as printing unit, cross cutting unit to single controller, control each unit through an industrial computer, guaranteed the tensile uniformity of printing and cross cutting to product precision and stability have been improved. A cantilever type touch panel 140 is further disposed on the top of the machine 100, and parameters of each unit can be set through the touch panel.

The above-mentioned embodiments are merely preferred embodiments for fully illustrating the present invention, and the scope of the present invention is not limited thereto. Equivalent substitutes or changes made by the technical personnel in the technical field on the basis of the utility model are all within the protection scope of the utility model. The protection scope of the present invention is subject to the claims.

Claims

1. A flexographic printing and die cutting integrated device is characterized by comprising a machine table, an unreeling unit, a tool apron traction unit, a roller type flexible plate printing unit, a UV lamp drying unit, a roller type circular knife die cutting unit, a reeling unit, a sliding type reeling and unreeling unit and a controller, wherein the unreeling unit, the tool apron traction unit, the roller type flexible plate printing unit, the UV lamp drying unit, the roller type circular knife die cutting unit, the reeling unit and the sliding;

2. The flexographic printing and die cutting integrated device according to claim 1, wherein the driver comprises a servo motor, a reducer and a coupler which are connected in sequence, and the reducer is fixedly connected with one end of the transmission bottom shaft or the printing bottom roller through the coupler.

3. The flexographic printing and die cutting integrated device according to claim 1, wherein the traction support, the printer housing and the die cutting support are provided with pressing hand wheels for extruding a rubber roller, a printing plate roller or a circular knife mold.

4. The flexographic printing die-cutting integrated device according to claim 1, wherein a Y-direction adjusting mechanism is provided at one side of the circular knife mold.

5. The flexographic printing and die cutting integrated device according to claim 1, wherein the UV lamp drying unit comprises a UV lamp shell and a light returning plate shell, one side of the UV lamp shell is hinged with one side of the light returning plate shell, the other side of the UV lamp shell is buckled with the other side of the light returning plate shell, a channel for materials to pass through is formed between the UV lamp shell and the light returning plate shell, and a light scattering preventing cover is arranged on the UV lamp shell at the position of a channel opening; a water cooling plate is arranged in the UV lamp shell, a groove is formed in the lower end face of the water cooling plate, a UV lamp panel is installed in the groove, and a crystal glass cover used for transmitting light is installed on the lower end face of the water cooling plate; a light returning plate for reflecting UV light is arranged in the light returning plate shell; a plurality of cooling water pipelines are arranged in the water cooling plate and the light returning plate.

6. The flexographic printing and die cutting integrated device according to claim 1, wherein the unwinding unit and the winding unit each comprise an air shaft, a servo motor, a synchronous belt and a synchronous pulley, and the servo motor drives the air shaft to rotate through the synchronous belt and the synchronous pulley.

7. The integrated flexographic printing and die cutting device as recited in claim 1, wherein a corona unit and a deviation rectifying unit are further disposed between the unwinding unit and the knife holder traction unit;

the deviation rectifying unit comprises a deviation rectifying support, a servo motor arranged on the deviation rectifying support, a rotary roller and a detection sensor, wherein the detection sensor is used for detecting the deviation of the material and transmitting the deviation to the controller, and the controller controls the servo motor to adjust the angle of the rotary roller according to the received deviation value so as to correct the material in the Y direction.

8. The flexographic printing and die cutting integrated device according to claim 1, wherein the sliding type retracting unit comprises sliding guide rails arranged at the upper and lower sides of the drum-type circular knife die cutting unit, a plurality of mounting panels are slidably connected on the sliding guide rails, and the mounting panels are provided with receiving and discharging shafts for feeding and discharging die cutting materials.

9. The integrated flexographic printing and die cutting device as claimed in claim 1, wherein a control panel for setting die cutting and printing parameters is further provided on the machine table.

10. The flexographic die cut unitary device of claim 9 wherein said control panel is a cantilevered touch panel.