CN218558281U - Automatic silk thermoprinting and brushing device - Google Patents

Abstract

The utility model relates to a printing device technical field, concretely relates to change silk thermoprint brush device, including paper conveying unit, shaping rendition unit and collection unit, shaping rendition unit includes the fixing base, be equipped with positioning mechanism in the fixing base, collection mechanism, paper transfer mechanism, the impression roller, the printing plate roller, coating roller and shaping transfer roller, positioning mechanism is located paper conveying unit one side, paper transfer mechanism is located positioning mechanism one side, the impression roller is located paper transfer mechanism one side, the printing plate roller is located impression roller one side, the coating roller is located printing plate roller one side, the shaping transfer roller is located impression roller opposite side, collection mechanism is located shaping transfer roller one side and extends to collection unit. The utility model discloses a device degree of automation is higher, can alleviate staff's work burden, and is more swift during the operation, can effectively improve the quality of silk boiling hot printing efficiency and printing, can be with the gloss oil rendition on a seal surface through silk boiling hot printing to present directly printed 3D and become the image on a seal.

Description

Automatic silk thermoprint brush device

Technical Field

The utility model relates to a printing device technical field, concretely relates to change silk thermoprint brush device.

Background

With the maturity of the printing technology of China, various printing equipment develops rapidly, the printing of the traditional technology mainly adopts manual printing, and it needs a large amount of printing workers in the printing process, not only wastes time and energy, and the production speed is slower, has increased the cost on the one hand, and on the other hand the quality of printing is also comparatively limited, so suitability and practicality receive the restriction, are difficult to satisfy the demand in market, and printing device is born because of the usefulness.

Ordinary 3D light becomes printing ink is accomplished on screen printing machine, and the pattern that brushes out is clear inadequately, and the colour is bright-colored inadequately, and the quality is relatively poor to printing device structure is complicated, and the installation accuracy is low, can not realize not shutting down and change a roll, is unfavorable for energy-conservation, high-efficient, low-loss, and application scope is little, and the discharge capacity of harmful matter is great.

Disclosure of Invention

In order to overcome the shortcoming and the not enough that exist among the prior art, the utility model aims to provide an automatic silk thermoprint device, this automatic silk thermoprint device structure sets up rationally, the first vision recognition device detected signal of setting in one side of impression roller, control shaping rendition unit starts, the idle running condition can be avoided appearing, thereby the resource has been saved, the printing cost has been reduced, this device degree of automation is higher, staff's work burden has been alleviateed, it is more swift convenient when staff's operation, can effectively improve the quality of silk thermoprint printing efficiency and printing, can be with the gloss oil rendition on a seal surface through silk thermoprint printing, thereby it becomes the image to present direct printing 3D on a seal.

The purpose of the utility model is realized through the following technical scheme: an automatic silk thermoprinting device comprises a paper conveying unit, a forming transfer unit and a paper collecting unit, wherein the forming transfer unit comprises a fixed seat, a positioning mechanism, a paper collecting mechanism, a paper transferring mechanism, an impression roller, a printing plate roller, a coating roller and a forming transfer roller are arranged in the fixed seat, the positioning mechanism is positioned on one side close to the paper conveying unit, the paper transferring mechanism is positioned on one side of the positioning mechanism, the impression roller is positioned on one side of the paper transferring mechanism, the printing plate roller is positioned on one side of the impression roller, the coating roller is positioned on one side of the printing plate roller, the forming transfer roller is positioned on the other side of the impression roller, the paper collecting mechanism is positioned on one side of the forming transfer roller, one end of the paper collecting mechanism extends to the paper collecting unit, a first visual identification device is arranged on one side of the impression roller, and the first visual identification device is positioned between the printing plate roller and the paper collecting mechanism; the paper conveying unit is located on one side of the forming and transferring unit, and the paper collecting unit is located on the other side of the forming and transferring unit.

Furthermore, the paper conveying unit comprises a paper preassembling mechanism and a conveying belt mechanism, the upper end of the paper preassembling mechanism is provided with a paper feeding and flying mechanism, one end of the conveying belt mechanism is located on one side of the paper feeding and flying mechanism, and the other end of the conveying belt mechanism extends to the positioning mechanism.

Furthermore, one side of the coating roller is provided with a first coating ink scraping device.

Furthermore, a second coating and ink scraping device is arranged on one side of the forming transfer roller.

Further, the forming transfer roller is provided with a built-in UV curing device.

Furthermore, a paper gripping tooth mechanism is arranged at the abutting position of the impression roller and the printing plate roller.

Furthermore, the delivery unit includes delivery unit, second vision recognition device and UV solidification equipment, UV solidification equipment is located delivery unit's one side, just delivery mechanism's extension passes through UV solidification equipment, second vision recognition device be located UV solidification equipment with between the delivery mechanism.

The beneficial effects of the utility model reside in that: the utility model discloses an automatic silk thermoprint device structure sets up rationally, the first visual identification device detected signal of setting in one side of impression roller, control shaping rendition unit starts, can avoid appearing the idle running condition, thereby the resource has been saved, the printing cost is reduced, this device degree of automation is higher, staff's work burden has been alleviateed, it is more convenient when the staff operates, can effectively improve the quality of silk thermoprint printing efficiency and printing, can be with the gloss oil rendition on a seal surface through silk thermoprint printing, thereby it becomes the image to present the direct printing 3D on a seal.

Drawings

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

The reference signs are: 11-a paper pre-loading mechanism, 12-a conveyor belt mechanism, 13-a paper feeding flying mechanism, 21-a fixed seat, 22-a positioning mechanism, 23-a paper collecting mechanism, 24-a paper conveying mechanism, 25-an impression roller, 26-a printing plate roller, 27-a coating roller, 28-a forming transfer roller, 29-a first visual identification device, 30-a first coating and ink scraping device, 31-a second coating and ink scraping device, 32-a built-in UV curing device, 33-a paper gripper mechanism, 41-a paper collecting device, 42-a UV curing device and 43-a second visual identification device.

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 accompanying fig. 1, which are not intended to limit the present invention.

Referring to fig. 1, an automatic filament printing device includes a paper conveying unit, a forming transfer unit and a paper collecting unit, where the forming transfer unit includes a fixing seat 21, a positioning mechanism 22, a paper collecting mechanism 23, a paper transferring mechanism 24, an imprinting roller 25, a printing plate roller 26, a coating roller 27 and a forming transfer roller 28 are arranged in the fixing seat 21, the positioning mechanism 22 is located at one side close to the paper conveying unit, the paper transferring mechanism 24 is located at one side of the positioning mechanism 22, the imprinting roller 25 is located at one side of the paper transferring mechanism 24, the printing plate roller 26 is located at one side of the imprinting roller 25, the coating roller 27 is located at one side of the printing plate roller 26, the forming transfer roller 28 is located at the other side of the imprinting roller 25, the paper collecting mechanism 23 is located at one side of the forming transfer roller 28, one end of the paper collecting mechanism 23 extends to the paper collecting unit, one side of the imprinting roller 25 is provided with a first visual recognition device 29, the first visual recognition device 29 is located between the printing plate roller 26 and the paper collecting mechanism 23, and a paper gripping mechanism 33 is arranged at a position where the imprinting roller 25 and the printing plate roller 26 abut against; the paper conveying unit is located at one side of the forming and transferring unit, and the paper delivery unit is located at the other side of the forming and transferring unit, wherein the first visual recognition device 29 is a visual recognition device in the prior art, and is only cited here.

The automatic silk hot stamping device in the embodiment is reasonable in structure arrangement, the first visual recognition device 29 arranged on one side of the stamping roller 25 detects signals to control the starting of the forming and transfer printing unit, so that the idling condition can be avoided, the resources are saved, the printing cost is reduced, the automation degree of the device is higher, the work load of workers is reduced, the operation of the workers is quicker and more convenient, the silk hot stamping printing efficiency and the printing quality can be effectively improved, and the gloss oil can be transferred on the surface of a printed sheet through silk hot stamping, so that a directly printed 3D variable image is presented on the printed sheet; specifically, the paper is conveyed to the positioning mechanism 22 by the conveying unit, is carried between the paper conveying mechanism 24 and the impression cylinder 25 by the paper conveying mechanism 24 after passing through the positioning mechanism 22, passes through a gap between the impression cylinder 25 and the printing plate cylinder 26 after passing through the impression cylinder 25, then passes through the coating cylinder 27, is coated by the coating cylinder 27, is conveyed to the forming transfer roller 28, is solidified, is conveyed to the paper receiving mechanism 23, is conveyed to the paper receiving unit after passing through the paper receiving mechanism 23, and is collected for the paper which is subjected to the silk-jet printing, so that the silk-jet printing is completed.

In this embodiment, the paper conveying unit includes a paper pre-loading mechanism 11 and a conveying belt mechanism 12, the upper end of the paper pre-loading mechanism 11 is provided with a paper feeding and flying mechanism 13, one end of the conveying belt mechanism 12 is located at one side of the paper feeding and flying mechanism 13, and the other end of the conveying belt mechanism 12 extends to the positioning mechanism 22, where the paper feeding and flying mechanism 13 is a paper feeding and flying mechanism in the prior art, and is only cited here.

In this embodiment, the paper pre-loading mechanism 11 is arranged to pre-load the paper to be printed, and during printing, the paper to be printed is transferred to the conveyor belt mechanism 12 through the paper feeding flying mechanism 13 arranged at the upper end of the paper pre-loading mechanism 11, and is conveyed to the positioning mechanism 22 through the conveyor belt mechanism 12, and then enters the forming and transfer printing unit to perform automatic silk-screen printing on the printed paper.

In this embodiment, a first coating and ink scraping device 30 is arranged on one side of the coating roller 27; one side of the forming transfer roller 28 is provided with a second coating and ink scraping device 31; the contoured transfer roller 28 is provided with a built-in UV curing device 32.

In this embodiment, the first coating ink-scraping device 30 is disposed on one side of the coating roller 27 to uniformly coat the ink to be coated on the surface of the printing paper, the second coating ink-scraping device 31 is disposed on one side of the forming transfer roller 28 to secondarily scrape the ink on the surface of the printing paper passing through the forming transfer roller 28, and the built-in UV curing device 32 is used to cure the ink on the surface of the printing paper, thereby finally realizing the automatic silk-jet printing.

In this embodiment, the delivery unit includes a delivery device 41, a second visual recognition device 43 and a UV curing device 42, the UV curing device 42 is located at one side of the delivery device 41, an extension of the delivery mechanism 23 passes through the UV curing device 42, the second visual recognition device 43 is located between the UV curing device 42 and the delivery mechanism 23, wherein the second visual recognition device 43 is a visual recognition device in the prior art, and is only incorporated herein by reference.

In this embodiment, the paper printed by the automatic silk-like printing of the forming and transfer printing unit is conveyed to the paper delivery device 41 by the paper delivery mechanism 24 for collection, the drying condition of the printed paper is observed by the second visual recognition device 43 before the collection of the paper delivery device 41, the paper printed by the silk-like printing is further cured by the UV curing device 42, the problem that the printed patterns are deformed, the printed patterns are scratched or the paper is adhered to each other due to the fact that the printing ink is not completely dried can be avoided, and the practicability of the automatic silk-like printing and brushing device is further improved.

The above-mentioned embodiment is the utility model discloses the implementation of preferred, in addition, the utility model discloses can also realize by other modes, not deviating from the utility model discloses any obvious replacement is all within the protection scope under the prerequisite of design.

Claims (8)

1. The utility model provides an automatic change silk thermoprint device which characterized in that: the paper feeding and transferring device comprises a paper conveying unit, a forming and transferring unit and a paper collecting unit, wherein the forming and transferring unit comprises a fixed seat, a positioning mechanism, a paper collecting mechanism, a paper transferring mechanism, an impression roller, a printing plate roller, a coating roller and a forming transfer roller are arranged in the fixed seat, the positioning mechanism is positioned at one side close to the paper conveying unit, the paper transferring mechanism is positioned at one side of the positioning mechanism, the impression roller is positioned at one side of the paper transferring mechanism, the printing plate roller is positioned at one side of the impression roller, the coating roller is positioned at one side of the printing plate roller, the forming transfer roller is positioned at the other side of the impression roller, the paper collecting mechanism is positioned at one side of the forming transfer roller, one end of the paper collecting mechanism extends to the paper collecting unit, a first visual identification device is arranged at one side of the impression roller, and the first visual identification device is positioned between the printing plate roller and the paper collecting mechanism; the paper conveying unit is located on one side of the forming and transferring unit, and the paper collecting unit is located on the other side of the forming and transferring unit.

2. The automated hot filament stamping device of claim 1, wherein: the paper conveying unit comprises a paper preassembling mechanism and a conveying belt mechanism, the upper end of the paper preassembling mechanism is provided with a paper feeding and flying mechanism, one end of the conveying belt mechanism is located on one side of the paper feeding and flying mechanism, and the other end of the conveying belt mechanism extends to the positioning mechanism.

3. The automatic silk-hot stamping device according to claim 1, characterized in that: and a first visual recognition device is arranged on one side of the embossing roller.

4. The automated hot filament stamping device of claim 1, wherein: and a first coating and ink scraping device is arranged on one side of the coating roller.

5. The automated hot filament stamping device of claim 1, wherein: and one side of the forming transfer roller is provided with a second coating and ink scraping device.

6. The automated hot filament stamping device of claim 1, wherein: the forming transfer roller is provided with a built-in UV curing device.

7. The automated hot filament stamping device of claim 1, wherein: and a paper gripping tooth mechanism is arranged at the joint of the impression roller and the printing plate roller.

8. The automated hot filament stamping device of claim 1, wherein: the paper collecting unit comprises a paper collecting device and a UV curing device, wherein the UV curing device is positioned on one side of the paper collecting device, and the extending section of the paper collecting mechanism passes through the UV curing device.

Images