CN217170101U - Printing device with water-cooling curing assembly - Google Patents

Abstract

The utility model relates to the technical field of die cutting machines, in particular to a printing device with a water-cooling curing assembly, which comprises a flexible printing assembly, a film laminating assembly and a machine table, wherein the material of the printing device enters the interior of the flexible printing assembly from a feed roller, the rotation of an anilox roller leads the anilox roller to be scraped with even printing ink by a doctor in the contact operation process of the anilox roller and a printing roller, the printing ink is evenly scraped on a printing plate arranged on the printing roller, the material passes through the middle of the printing roller and a printing bearing roller through the guide of the feed roller, and the pattern or the character on the printing plate is printed on the surface of the material along with the relative motion of the printing roller, the printing bearing roller and the material, the relative position of the material is precisely positioned through a color mark sensor arranged on one side of the material, the target pattern and the character are precisely printed on the material, and the utility model can cure the ink print on the material after the flexible printing through the curing assembly, and the film laminating treatment can be carried out through the film laminating assembly.

Description

Printing device with water-cooling curing assembly

Technical Field

The utility model belongs to the technical field of the cross cutting machine technique and specifically relates to indicate a printing device with water-cooling solidification subassembly.

Background

The Die Cutting Machine (Die Cutting Machine), also called Cutting Machine, numerical control punching Machine, mainly used for some corresponding non-metallic materials, non-setting adhesive, EVA, double faced adhesive tape, electron, Die Cutting (full break, half break) of the mobile phone cushion, etc., indentation and gilding operation, laminating, the Die Cutting craft is a most commonly used craft of packing the printed matter, make up into the Die Cutting edition according to the pattern that the product design requires with the Die cutter, the existing Die Cutting Machine does not have the flexo printing assembly, when needing the flexo printing, then need two apparatuses of flexo printing Machine and Die Cutting Machine to work, and the existing flexo printing Machine is complicated in construction, there is no solidification assembly, it is inconvenient to use.

SUMMERY OF THE UTILITY MODEL

The utility model discloses problem to prior art provides a printing device with water-cooling solidification subassembly.

In order to solve the technical problem, the utility model discloses a following technical scheme:

the utility model provides a pair of printing device with water-cooling solidification subassembly, including flexography subassembly, tectorial membrane laminating subassembly, board, the flexography subassembly includes feed roll, discharge roller, version roller, anilox roller, ink scraper, ink horn, printing roller, color mark sensor and solidification subassembly, the feed roll the discharge roller all can rotate install in on the board, version roller install in the feed roll top, printing roller install in the oblique below of version roller, the anilox roller with version roller butt, the ink scraper with anilox roller butt, the ink horn install in anilox roller lateral part, the solidification unit mount in version roller lateral part, color mark sensor install in the printing roller top, tectorial membrane laminating unit mount in the solidification subassembly with between the version roller.

Preferably, the curing assembly comprises a water-cooled roller and a UV ink curing system, and a feeding end is arranged between the water-cooled roller and the UV ink curing system.

Preferably, the tectorial membrane laminating subassembly includes tectorial membrane steel roller, tectorial membrane compression roller, tectorial membrane paper guide roll install in tectorial membrane compression roller lateral part, tectorial membrane steel roller install in tectorial membrane paper guide roll lateral part, the tectorial membrane compression roller install in the oblique top of tectorial membrane steel roller.

Preferably, a pressure adjusting mechanism is arranged at the upper end of the laminating pressing roller, and the pressure adjusting mechanism is abutted to the shaft core of the laminating pressing roller.

Preferably, a paper guide roller is arranged between the curing assembly and the discharge roller, and the feeding roller is arranged in parallel with the discharge roller.

Preferably, the flexographic printing assembly further comprises a driving motor, and the driving motor is used for driving the printing roller and the anilox roller to rotate.

Preferably, an ink lifting roller is arranged on the ink box, a pressure regulating mechanism is arranged at the lower end of the ink lifting roller, and the ink lifting roller is attached to the anilox roller.

Preferably, the left end and the right end of the printing roller are provided with printing roller support blocks, the printing roller is pressed on the printing roller support blocks, and knobs for adjusting the angles of the printing roller support blocks are arranged on two sides of the printing roller support block.

The utility model has the advantages that:

the utility model provides a printing device with water-cooling solidification subassembly, including flexo printing subassembly, tectorial membrane laminating subassembly, board, the flexo printing subassembly includes feed roll, discharge roller, version roller, anilox roller, ink scraper, ink horn, printing roller, color mark sensor and solidification subassembly, the feed roll the discharge roller all can be rotated and installed on the board, version roller install in the feed roll top, printing roller install in the oblique below of version roller, anilox roller with version roller butt, ink scraper with anilox roller butt, the ink horn install in the anilox roller lateral part, the solidification subassembly install in version roller lateral part, color mark sensor install in the printing roller top, tectorial membrane laminating subassembly install in between solidification subassembly and version roller, the utility model discloses the material gets into to the inside of flexo printing subassembly from the feed roll, the rotation of reticulation roller makes the reticulation roll on by the doctor even printing ink of scraping of ink scraper at the contact operation in-process of reticulation roller and version roller, with the even printing plate of scraping of printing ink installation on version roller, the material passes through the direction of feed roll and passes through the centre of version roller and printing roller, along with version roller, the relative motion of printing roller and material, with pattern or characters printing on the printing plate on the surface of material, the relative position of material carries out accurate location through the color mark sensor of installing in material one side, make the accurate printing of target pattern and characters on the material, and the utility model discloses the inking of accessible solidification subassembly on the material after with the flexography carries out solidification treatment, accessible tectorial membrane laminating subassembly carries out the tectorial membrane processing in addition, the utility model discloses simple structure, reasonable in design, convenient to use.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a cross-sectional view of the present invention.

The reference numerals are respectively:

the flexible printing device comprises a flexible printing assembly-1, a pressure regulating mechanism-2, a coating laminating assembly-3, a feeding roller-4, a discharging roller-5, a printing roller-6, an anilox roller-7, a doctor blade-8, an ink box-9, a printing roller-10, a color mark sensor-11, a curing assembly-12, a water cooling roller-13, a UV ink curing system-14, a coating steel roller-15, a coating press roller-16, a coating paper guide roller-17, a pressure regulating mechanism-18, a paper guide roller-19, a driving motor-20 and a lifting roller-21.

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 will be described in detail with reference to the accompanying drawings.

As shown in fig. 1-2, the printing device with water-cooling curing assembly provided by the present invention comprises a flexible printing assembly 1, a laminating assembly 3, and a machine table, wherein the flexible printing assembly 1 comprises a feed roller 4, a discharge roller 5, a printing roller 6, an anilox roller 7, a doctor blade 8, an ink box 9, a printing roller 10, a color mark sensor 11, and a curing assembly 12, the feed roller 4 and the discharge roller 5 are rotatably mounted on the machine table, the printing roller 6 is mounted above the feed roller 4, the printing roller 10 is mounted below the printing roller 6, the anilox roller 7 abuts against the printing roller 6, the doctor blade 8 abuts against the anilox roller 7, the ink box 9 is mounted at the side of the anilox roller 7, the curing assembly 2 is mounted at the side of the printing roller 6, the color mark sensor 11 is mounted above the printing roller 10, the film laminating component 3 is arranged between the curing component 2 and the printing roller 6, the material of the utility model enters into the flexographic printing component 1 from the feed roller 4, the rotation of the anilox roller 7 causes the anilox roller to be scraped with even printing ink by the doctor 8 in the contact operation process of the anilox roller 7 and the printing roller 6, the printing ink is evenly scraped on the printing plate arranged on the printing roller 6, the material passes through the middle of the printing roller 6 and the printing roller 10 through the guide of the feed roller 4, the patterns or characters on the printing plate are printed on the surface of the material along with the relative motion of the printing roller 6, the printing roller 10 and the material, the relative position of the material is precisely positioned through the color mark sensor 11 arranged on one side of the material, the target patterns and the characters are precisely printed on the material, and the utility model can carry out curing treatment on the ink printing on the material after the flexographic printing through the curing component 12, accessible tectorial membrane laminating subassembly 3 carries out the tectorial membrane in addition and handles, the utility model discloses simple structure, reasonable in design, convenient to use.

In this embodiment, solidification subassembly 2 includes water-cooling roller 13, UV printing ink curing system 14, water-cooling roller 13 with be provided with the feed end between the UV printing ink curing system 14, the utility model discloses accessible water-cooling roller 13, UV printing ink curing system 14 solidify the inked seal after the flexography.

In this embodiment, tectorial membrane laminating subassembly 3 includes tectorial membrane steel roll 15, tectorial membrane compression roller 16, tectorial membrane paper guide roll 17 install in tectorial membrane compression roller 16 lateral part, tectorial membrane steel roll 15 install in tectorial membrane paper guide roll 17 lateral part, tectorial membrane compression roller 16 install in tectorial membrane steel roll 15 is the top to one side, tectorial membrane compression roller 16 upper end is provided with pressure adjustment mechanism 18, pressure adjustment mechanism 18 with tectorial membrane compression roller 16's axle core butt can be adjusted tectorial membrane compression roller 16 and tectorial membrane steel roll 15's clearance and adjust the pressure of tectorial membrane, the utility model discloses accessible pressure adjustment mechanism 18 exerts pressure to tectorial membrane compression roller 16, then passes through the material from between tectorial membrane compression roller 16 and tectorial membrane steel roll 15, carries out the tectorial membrane processing with the material when the material passes through tectorial membrane compression roller 16 and tectorial membrane steel roll 15.

In this embodiment, a paper guide roller 19 is disposed between the curing assembly 2 and the discharging roller 5, the feeding roller 4 is disposed in parallel with the discharging roller 5, and the paper guide roller 19 enables the material to smoothly pass through the space between the ink curing assembly 12 and the discharging roller 5.

In this embodiment, the flexographic printing assembly 1 further includes a driving motor 20, the driving motor 20 is used for driving the printing roller 10 and the anilox roller 7 to rotate, and in a specific time process, the speed of the flexographic printing can be adjusted by adjusting the rotation speed of the driving motor 20.

In this embodiment, be provided with ink lift roller 21 on the ink horn 9, ink lift roller 21 lower extreme is provided with pressure regulating mechanism 22, ink lift roller 21 with the laminating of anilox roller 7, the pressure of the pressure regulating mechanism 22 of ink lift roller 21 on the ink horn 9 installation on the ink horn 9 bottom down with anilox roller 7 pressfitting, is driven rotatoryly by rotatory anilox roller 7 under the effect of pressure, and the rotation of ink lift roller 21 transmits ink to the surface that the anilox is rolled, and ink is stayed and is followed anilox roller 7 and rotated together on anilox roller 7.

In this embodiment, the left and right ends of the printing roller are provided with a printing roller support block, the printing roller is pressed on the printing roller support block, and two sides of the printing roller support block are provided with knobs for adjusting the angles of the printing roller support block.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and although the present invention is disclosed in the above description in terms of preferred embodiments, it is not intended to limit the present invention, and any person skilled in the art will be able to make any changes or modifications to equivalent embodiments without departing from the scope of the present invention, and all the technical solutions of the present invention are within the scope of the present invention.

Claims (8)

1. The utility model provides a printing device with water-cooling solidification subassembly which characterized in that: including flexography subassembly, tectorial membrane laminating subassembly, board, the flexography subassembly includes feed roll, discharge roll, version roller, anilox roller, ink scraping knife, ink horn, printing roller, color mark sensor and solidification subassembly, the feed roll the discharge roll all can rotate install in on the board, version roller install in the feed roll top, printing roller install in the oblique below of version roller, the anilox roller with version roller butt, the ink scraping knife with anilox roller butt, the ink horn install in anilox roller lateral part, solidification unit mount in version roller lateral part, color mark sensor install in printing roller top, tectorial membrane laminating unit mount in the solidification subassembly with between the version roller.

2. A printing unit with a water-cooled curing assembly as in claim 1, wherein: the curing assembly comprises a water-cooled roller and a UV printing ink curing system, and a feeding end is arranged between the water-cooled roller and the UV printing ink curing system.

3. A printing unit with a water-cooled curing assembly as in claim 1, wherein: tectorial membrane laminating subassembly leads the paper roll including tectorial membrane steel roller, tectorial membrane compression roller, tectorial membrane, the tectorial membrane lead the paper roll install in tectorial membrane compression roller lateral part, tectorial membrane steel roller install in the paper roll lateral part is led to the tectorial membrane, the tectorial membrane compression roller install in the oblique top of tectorial membrane steel roller.

4. A printing unit with a water-cooled curing assembly as in claim 3, wherein: the upper end of the film laminating press roller is provided with a pressure adjusting mechanism, and the pressure adjusting mechanism is abutted to the shaft core of the film laminating press roller.

5. A printing unit with a water-cooled curing assembly as in claim 1, wherein: the curing assembly with be provided with between the discharge roller and lead the paper roll, the feed roll with discharge roller parallel arrangement.

6. A printing unit with a water-cooled curing assembly as in claim 1, wherein: the flexible printing assembly further comprises a driving motor, and the driving motor is used for driving the printing bearing roller and the anilox roller to rotate.

7. A printing unit with a water-cooled curing assembly as in claim 1, wherein: be provided with the ink lifting roller on the ink horn, the ink lifting roller lower extreme is provided with the pressure regulating mechanism, the ink lifting roller with the reticulation roller laminating.

8. A printing unit with a water-cooled curing assembly as in claim 1, wherein: the printing roller device is characterized in that a printing roller support block is arranged at the left end and the right end of the printing roller, the printing roller is pressed on the printing roller support block, and knobs for adjusting the angle of the printing roller support block are arranged on the two sides of the printing roller support block.

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