CN220883805U - Novel digital label printer - Google Patents

Abstract

The utility model relates to a novel digital label printer, which solves the problems of printing and producing the current label and also printing and producing crystal labels, wherein the novel digital label printer is characterized in that according to the forward movement direction of paper (3), the paper (3) sequentially passes through a paper feeding unit (19), a printing unit (20), a film covering unit (21) and a paper collecting unit (22); the tension roller (2) of the paper feeding unit (19) is positioned above the paper feeding wheel (1), the paper feeding bracket (12) penetrates through the whole printing unit (20), the paper feeding conveyor belt (17) penetrates through the whole film covering unit (21), and the tension roller (2) of the paper collecting unit (22) is positioned above the paper collecting wheel (18).

Description

Novel digital label printer

Technical Field

The present disclosure relates to label printers, and particularly to a digital label printer.

Background

At present, a digital label printer mainly prints self-adhesive, the back of the self-adhesive is self-adhesive, the self-adhesive is stuck on release paper, the front of the self-adhesive is made of common materials, the materials are divided into paper, plastic and the like, the printed patterns are also planar, the thickness is thinner, and the printed products also need to be die-cut through the needed patterns by a die-cutting post-process step so as to facilitate the use at the back. For a certain thickness, a non-setting adhesive without die cutting is commonly called a crystal mark, because the crystal mark is characterized in that the bottom is pressure-sensitive adhesive water, white ink is arranged on the pressure-sensitive adhesive water, color patterns are arranged on the white ink, and gloss oil is arranged on the color patterns. The crystal mark is adhered to the release paper through self-contained pressure-sensitive adhesive water. Therefore, to produce the crystal mark, pressure sensitive adhesive water, white ink, color ink and gloss oil are required to be sprayed. Since the crystal mark is a transfer product, a transfer film is required to be coated on the crystal mark.

The prior technical scheme is that glue is coated on release paper in advance by a screen printing method, the release paper coated with the glue is arranged on a digital label machine, white ink is coated by a roll coating unit, then the release paper enters a printing unit, a color pattern is printed by a spray head, then gloss oil is printed by a printing spray head, and finally paper is collected. And coating a transfer film on the other film coating machine to obtain a finished product.

Disclosure of Invention

The utility model aims to solve the problems, and provides a novel digital label printer which prints glue, white ink, color ink and gloss oil on the same pattern through a printing nozzle, then coats a transfer film, and finally receives paper to complete the whole production process.

The technical scheme adopted by the utility model is as follows: according to the forward movement direction of paper, the paper sequentially passes through a paper feeding unit, a printing unit, a film covering unit and a paper collecting unit; the arrangement sequence of the paper feeding unit components is a paper feeding wheel and a tension roller, wherein the tension roller is positioned above the paper feeding wheel; the arrangement sequence of the printing unit components is sequentially a paper feeding bracket, a glue spray head, a UVLED lamp, a white ink spray head, a UVLED lamp, a cyan ink spray head, a UVLED lamp, a magenta ink spray head, a UVLED lamp, a yellow Mo Pentou, a UVLED lamp, a black ink spray head, a UVLED lamp, a gloss oil spray head and a UVLED lamp, wherein the paper feeding bracket penetrates through the whole printing unit, the UVLED lamp is beside each spray head and is in the same horizontal position with each spray head, and all spray heads are arranged on the same horizontal line; the arrangement sequence of the components of the film laminating unit is sequentially a motor, a paper conveying conveyor belt, a transfer film roller, a film and a pressure roller, wherein the motor drives the paper conveying conveyor belt to move, the paper conveying conveyor belt penetrates through the whole film laminating unit, the transfer film roller is positioned above the paper conveying conveyor belt and above the left pressure roller, and the pressure roller is positioned above the tail part of the paper conveying conveyor belt and clings to the paper conveying conveyor belt; the arrangement sequence of the paper collecting unit components is sequentially a tension roller and a paper collecting wheel, wherein the tension roller is positioned above the paper collecting wheel.

The paper is firstly conveyed forwards by a paper conveying wheel, the tightness of the paper is regulated by a tension roller, the paper reaches a paper conveying bracket, the paper moves forwards, a glue spray head arranged at the forefront is lowered, glue is sprayed to the paper at a position close to but not in contact with the paper, and meanwhile, a UVLED lamp beside the spray head is used for immediately drying the glue in a UV mode; the paper continues to move along the paper feeding bracket, the white ink spray head arranged at the second position falls down, white ink is sprayed on the paper at a position close to but not in contact with the paper, and meanwhile, a UVLED lamp beside the spray head immediately dries white Mo Youmo in a UV mode; the paper continues to move along the paper feeding bracket, the magenta ink spray head arranged at the third position descends, the cyan ink is sprayed on the paper at the position close to but not in contact with the paper, and meanwhile, the UVLED lamps beside the spray head immediately dry the cyan ink in a UV mode; the paper continues to move along the paper feeding bracket, the magenta ink spray head arranged at the fourth position drops down, the magenta ink is sprayed on the paper at a position close to but not in contact with the paper, and meanwhile, a UVLED lamp beside the spray head immediately dries the magenta ink in a UV mode; the paper continues to move along the paper feeding bracket, the yellow ink spray head arranged at the fifth position falls down, yellow ink is sprayed on the paper at a position close to but not in contact with the paper, and meanwhile, a UVLED lamp beside the spray head immediately dries the yellow ink in a UV mode; the paper continues to move along the paper feeding bracket, the black ink spray head arranged at the sixth position falls down, black ink is sprayed on the paper at a position close to but not in contact with the paper, and meanwhile, a UVLED lamp beside the spray head immediately dries the black ink in a UV mode; the paper continues to move along the paper feeding bracket, the gloss oil spray head arranged at the seventh position falls down, gloss oil is sprayed on the paper at a position close to but not in contact with the paper, and meanwhile, the UVLED lamps beside the spray head immediately dry the gloss oil in a UV mode. The paper passes through the paper feed bracket and reaches the paper feed conveyor belt of the film laminating unit, the transfer film passes through the lower part of the pressure roller through the transfer film roller and is attached to the paper, and the paper covered with the film enters the paper collecting wheel through the tension roller.

If the current self-adhesive labels are printed, the glue spray head, the white Mo Pentou and the gloss oil spray head do not work, the transfer film roller does not contain a transfer film, and the pressure roller does not press.

The utility model has the beneficial effects that the digital label printer prints glue, white ink, color ink and gloss oil layers on the same pattern through the printing nozzle, then coats a transfer film, finally receives paper, and completes the whole crystal label production process on one machine.

Drawings

The utility model will be further described with reference to the drawings and examples.

FIG. 1 is a schematic diagram of the product of the present utility model.

In the figure, a paper feeding wheel 1, a tension roller 2, paper 3, a glue spray head 4, a UVLED lamp 5, a white ink spray head 6, a green ink spray head 7, a magenta ink spray head 8, a yellow ink spray head 9, a black ink spray head 10, a gloss oil spray head 11, a paper feeding bracket 12, a transfer film roller 13, a transfer film 14, a pressure roller 15, a motor 16, a motor 17, a conveyor belt 18, a paper collecting wheel 19, a paper feeding unit 20, a printing unit 21, a film covering unit 22 and a paper collecting unit.

Detailed Description

In fig. 1, a novel digital label printer, according to the forward movement direction of a paper 3, the paper 3 sequentially passes through a paper feeding unit 19, a printing unit 20, a film covering unit 21 and a paper collecting unit 22; the arrangement sequence of the components of the paper feeding unit 19 is a paper feeding wheel 1 and a tension roller 2, wherein the tension roller 2 is positioned above the paper feeding wheel 1, the arrangement sequence of the components of the printing unit 20 is a paper feeding bracket 12, a glue spray head 4, a UVLED lamp 5, a white ink spray head 6, a UVLED lamp 5, a cyan ink spray head 7, a UVLED lamp 5, a magenta ink spray head 8, a UVLED lamp 5, yellow Mo Pentou, a UVLED lamp 5, a black ink spray head 10, a UVLED lamp 5, an optical oil spray head 11 and a UVLED lamp 5, the paper feeding bracket 12 penetrates through the whole printing unit 20, the UVLED lamp 5 is positioned beside each spray head and at the same horizontal position with each spray head, and all spray heads are arranged on the same horizontal line; the arrangement sequence of the components of the film laminating unit 21 is sequentially a motor 16, a paper conveying belt 17, a transfer film roller 13, a film 14 and a pressure roller 15, wherein the motor 16 drives the paper conveying belt 17 to move, the paper conveying belt 17 penetrates through the whole film laminating unit 21, the transfer film roller 13 is positioned above the paper conveying belt 17 and is positioned above the left of the pressure roller 15, and the pressure roller 15 is positioned above the tail of the paper conveying belt 17 and is tightly attached to the paper conveying belt 17; the components of the paper collecting unit 22 are arranged in sequence of a tension roller 2 and a paper collecting wheel 18, wherein the tension roller 2 is positioned above the paper collecting wheel 18.

The paper 3 is firstly conveyed forwards by the paper feeding wheel 1, the tightness of the paper 3 is regulated by the tension roller 2, the paper 3 reaches the paper feeding bracket 12, the paper 3 moves forwards, the forefront glue spray head 4 drops down, glue is sprayed to the paper 3 at a position close to but not in contact with the paper 3, and meanwhile, the UVLED lamp 5 beside the spray head immediately dries the glue in a UV mode; the paper 3 continues to move along the paper feeding bracket 12, the white ink spray head 6 arranged at the second position falls down, white ink is sprayed on the paper 3 at a position close to but not in contact with the paper 3, and meanwhile, the UVLED lamps 5 beside the spray head are used for drying the white ink in a UV mode; the paper 3 continues to move along the paper feeding bracket 12, the cyan ink spray head 7 arranged at the third position drops down, the cyan ink is sprayed on the paper 3 near but not in contact with the paper 3, and meanwhile, the UVLED lamp 5 beside the spray head immediately dries the cyan ink in a UV mode; the paper 3 continues to move along the paper feeding bracket 12, the magenta ink spray head 8 arranged at the fourth position falls down, magenta ink is sprayed on the paper 3 at a position close to but not in contact with the paper 3, and meanwhile, the UVLED lamp 5 beside the spray head immediately dries the magenta ink in a UV mode; the paper 3 continues to move along the paper feeding bracket 12, the yellow ink spray head 9 arranged at the fifth position drops down, yellow ink is sprayed on the paper 3 at a position close to but not in contact with the paper 3, and meanwhile, the UVLED lamps 5 beside the spray head immediately dry the yellow ink in a UV mode; the paper 3 continues to move along the paper feeding bracket 12, the black ink spray head 10 arranged at the sixth position falls down, black ink is sprayed on the paper 3 at a position close to but not in contact with the paper 3, and meanwhile, the UVLED lamps 5 beside the spray head immediately dry the black ink in a UV mode; the paper 3 continues to move along the paper feeding bracket 12, the varnish spray head 11 arranged at the seventh position drops down, varnish is sprayed on the paper 3 near but not in contact with the paper 3, and meanwhile, the UVLED lamps 5 beside the spray head immediately dry varnish in a UV mode. The paper 3 passes through the paper feed bracket 12 to reach the paper feed conveyor belt 17 of the film coating unit 21, the transfer film 14 passes through the lower part of the pressure roller 15 by the transfer film roller 13 and is attached to the paper 3, and the paper 3 coated with the film passes through the tension roller 2 and enters the paper collecting wheel 18.

Through actual production inspection, the invention has actual benefit and application and popularization value.

Claims (1)

1. A novel digital label printer, characterized in that: according to the forward movement direction of the paper (3), the paper (3) sequentially passes through a paper feeding unit (19), a printing unit (20), a film covering unit (21) and a paper collecting unit (22); the arrangement sequence of the components of the paper feeding unit (19) is a paper feeding wheel (1) and a tension roller (2), wherein the tension roller (2) is positioned above the paper feeding wheel (1); the arrangement sequence of the components of the printing unit (20) sequentially comprises a paper feeding bracket (12), a glue spray head (4), a UVLED lamp (5), a white Mo Pentou (6), a UVLED lamp (5), a cyan ink spray head (7), a UVLED lamp (5), a magenta ink spray head (8), a UVLED lamp (5), a yellow ink spray head (9), a UVLED lamp (5), a black ink spray head (10), a UVLED lamp (5), a gloss oil spray head (11) and a UVLED lamp (5), wherein the paper feeding bracket (12) penetrates through the whole printing unit (20), the UVLED lamp (5) is beside each spray head, is at the same horizontal position with each spray head, and all spray heads are arranged on the same horizontal line; the arrangement sequence of the components of the film laminating unit (21) is sequentially a motor (16), a paper conveying conveyor belt (17), a transfer film roller (13), a film (14) and a pressure roller (15), wherein the motor (16) drives the paper conveying conveyor belt (17) to move, the paper conveying conveyor belt (17) penetrates through the whole film laminating unit (21), the transfer film roller (13) is positioned above the paper conveying conveyor belt (17), is positioned above the left of the pressure roller (15), and the pressure roller (15) is positioned above the tail of the paper conveying conveyor belt (17) and is tightly attached to the paper conveying conveyor belt (17); the arrangement sequence of the components of the paper collecting unit (22) is sequentially provided with a tension roller (2) and a paper collecting wheel (18), wherein the tension roller (2) is positioned above the paper collecting wheel (18).