CN115257162A - Ink printing device for note production and printing process thereof - Google Patents

Abstract

The invention relates to the technical field of printing equipment, in particular to a printing ink printing device for note production and a printing process thereof.

Description

Ink printing device for note production and printing process thereof

Technical Field

The invention relates to the technical field of printing equipment, in particular to an ink printing device for note production and a printing process thereof.

Background

The plastic shrink film label has the advantages of good flexibility, impact resistance, strong tear resistance, difficulty in damage, moisture resistance and large shrinkage rate, and therefore, along with the improvement of living standard of people, the demand of the shrink film label is huge, in a label printing production line, ink printing can be carried out on a label material belt, the material belt subjected to ink printing is dried through a drying mechanism, and finally the label tape is wound through a winding mechanism.

Disclosure of Invention

In view of the above disadvantages of the prior art, an object of the present invention is to provide an ink printing apparatus for producing notes and a printing process thereof, which are used to solve the problem of ensuring the printing effect when printing the label ink in the prior art.

In order to achieve the above and other related purposes, the invention provides a printing ink printing device for notepaper production, which comprises a feeding mechanism, a printing machine and a drying mechanism, wherein the feeding mechanism is arranged at the input end of the printing machine, the drying mechanism is arranged at the output end of the printing machine, the feeding mechanism comprises a feeding frame, a feeding roller and a guide roller, the guide roller is arranged at the input end of the printing machine, the feeding roller is arranged on the feeding frame, the output end of the feeding roller is connected to the input end of the guide roller, a section of sterile bin is arranged between the feeding frame and the guide roller, a section of leveling plate is further arranged between the guide roller and the printing machine, a detection mechanism is further arranged between the output end of the printing machine and the drying mechanism, a section of leveling plate is further arranged between the guide roller and the printing machine, and the leveling plate can flatten a material belt, so that the phenomenon of wrinkles in the feeding process is reduced.

In an embodiment of the present invention, the output end of the feeding frame is further provided with a leveling roller.

In an embodiment of the invention, the detection mechanism comprises a detection frame and a detection camera, the detection frame is arranged at the output end of the printer, the detection camera is arranged below the material belt in the detection frame, a material belt irradiation lamp is arranged on the detection frame, two groups of material belt pressure stabilizing plates are symmetrically arranged on the detection frame along the material belt conveying direction, the material belt pressure stabilizing plates are connected to the detection frame in a sliding manner, a locking bolt is arranged between each pressure stabilizing plate and the detection frame, the material belt is irradiated by the material belt irradiation lamp, the material belt is detected by matching with the detection camera, stains on the material belt or parts with poor printing effect can be found in time, and therefore problems can be found in time and equipment parameters can be adjusted in time.

In an embodiment of the invention, the pressure stabilizing plate is provided with bolt holes, the bolt holes are connected with locking bolts in a threaded manner, the pressure stabilizing plate and the detection frame are locked by the locking bolts, when the position of the material belt pressure stabilizing plate on the detection frame needs to be adjusted, the locking bolts are loosened to enable the material belt pressure stabilizing plate to slide on the detection frame, and after the position is adjusted, the locking bolts are screwed down to fix the material belt pressure stabilizing plate in the working surface.

In an embodiment of the invention, the output end of the detection frame is provided with the detection guide rollers, the detection guide rollers are provided with two groups of detection rollers, the two groups of detection rollers are symmetrically arranged on two sides of the detection guide rollers and used for conveying the non-printing surface part of the material belt, the detection rollers are kept away from the printing surface part of the material belt, the printing ink which is not completely dried is prevented from being damaged by the detection rollers, the detection guide rollers can play a role in guiding the printed material belt, and the printed material belt is prevented from shaking to influence the forming effect of the printing ink.

In an embodiment of the invention, the drying mechanism comprises a drying rack and a material receiving roller, a drying oven is arranged in the drying rack, a plurality of groups of drying guide rollers are arranged in the drying oven, the drying rack is a U-shaped rack, an opening of the drying rack is arranged downwards, the material receiving roller is arranged in an opening of the drying rack, the drying rack is arranged in the U-shaped rack, occupation of practical space of equipment can be reduced, and the material receiving roller can be arranged in the space below the drying rack under the condition of ensuring sufficient drying to receive the dried material belt.

In an embodiment of the present invention, the input end of the drying rack is provided with a material belt guide plate, and an exhaust pipeline is arranged above the input end of the drying rack.

In an embodiment of the invention, a discharge port is arranged in the opening of the drying frame, a discharging guide wheel of the drying frame is arranged at the discharge port, a material receiving detection lamp is further arranged on one side of the material receiving roller and is arranged towards the output end of the discharging guide wheel, the material receiving detection lamp is arranged towards the output end of the discharging guide wheel, and the detection lamp can irradiate light on the surface of the material belt, so that the final observation and detection can be conveniently carried out manually.

A printing process adopting the ink printing device for producing the notepaper comprises the following specific steps:

a. the feeding roller and the flattening roller of the feeding frame are matched with each other to carry out pre-flattening treatment on the initial material belt;

b. the aseptic bin carries out aseptic processing on the material belt, and the printing machine carries out printing ink printing processing on the material belt;

c. detecting the printed material belt by matching a detection camera with a material belt irradiation lamp;

d. the drying frame is used for drying the printed material belt, the drying time is 4-6 min, and the drying temperature is controlled at 60-80 ℃; e. the material receiving detection lamp irradiates the dried material belt so as to facilitate manual detection of the material belt drying effect.

As described above, the ink printing device for producing notes and the printing process thereof of the present invention have the following beneficial effects:

1. through setting up aseptic storehouse with material area and external isolation, avoid on pollutants such as dust in the external world fall into the material area, avoid influencing the printing effect of subsequent printing in-process.

2. Still be equipped with one section flattening board between guide roll and the printing machine, the flattening board can flatten the material area, reduces the condition that the fold appears in the material loading in-process.

3. Shine the material area through the material area and shine the material area, the cooperation detects the camera and detects the material area, can in time discover the stain or the not good part of printing effect on the material area to can in time discover the problem and in time adjust equipment parameter.

4. When the position of the material belt pressure stabilizing plate on the detection frame needs to be adjusted, the locking bolt is loosened to enable the material belt pressure stabilizing plate to slide on the detection frame, and after the position is adjusted, the locking bolt is screwed down.

5. The pressure stabilizing plate is fixed in the working face, the detection roller avoids the printing face part of the material belt, and the printing ink which is not completely dried is prevented from being damaged by the detection roller.

Drawings

Fig. 1 is a schematic structural diagram of an ink printing apparatus and an ink printing process for producing notes according to an embodiment of the present invention.

Fig. 2 is a schematic structural view of a detection frame of an ink printing device for producing notes and a printing process thereof according to an embodiment of the invention.

Fig. 3 is a schematic view of a material belt voltage regulator plate structure of an ink printing apparatus for producing notes and a printing process thereof according to an embodiment of the present invention.

Fig. 4 is a partially enlarged view of reference character a in fig. 1.

Fig. 5 is a schematic structural view of a flattening roller of an ink printing device for producing notes and a printing process thereof, which are disclosed in the embodiment of the invention.

Description of the element reference numerals

1. A printing press; 2. a feeding frame; 3. a guide roller; 4. a feeding roller; 5. a sterile bin; 6. a leveling plate; 7. flattening rollers; 8. a detection frame; 9. detecting a camera; 10. a material belt illuminating lamp; 11. a material belt pressure stabilizing plate; 12. locking the bolt; 13. detecting a guide roller; 14. detecting a roller; 15. a drying rack; 16. a material receiving roller; 17. drying the oven; 18. drying the guide roller; 19. a material belt guide plate; 20. an exhaust line; 21. a discharging guide wheel; 22. receive material detection lamp.

Detailed Description

The following description of the embodiments of the present invention is provided for illustrative purposes, and other advantages and effects of the present invention will become apparent to those skilled in the art from the present disclosure.

Please refer to fig. 1 to 5. It should be understood that the structures, ratios, sizes, etc. shown in the drawings and attached to the description are only for understanding and reading the disclosure of the present invention, and are not intended to limit the practical conditions of the present invention, so that the present invention has no technical significance, and any modifications of the structures, changes of the ratio relationships, or adjustments of the sizes, should still fall within the scope of the technical contents of the present invention without affecting the efficacy and the achievable purpose of the present invention. In addition, the terms "upper", "lower", "left", "right", "middle" and "one" used in the present specification are for clarity of description, and are not intended to limit the scope of the present invention, and the relative relationship between the terms and the terms is not to be construed as a scope of the present invention.

Referring to fig. 1 to 5, the present invention provides an ink printing device for note production and a printing process thereof, wherein when ink printing processing is required to be performed on a material strip, the ink printing processing efficiency is improved by the mutual cooperation of a feeding mechanism, a printing machine 1 and a drying mechanism, the feeding mechanism is arranged at an input end of the printing machine 1, the drying mechanism is arranged at an output end of the printing machine 1, the feeding mechanism comprises a feeding frame 2, a feeding roller 4 and a guide roller 3, the guide roller 3 is arranged at the input end of the printing machine 1, the guide roller 3 guides the material strip at the input end of the printing machine 1, the feeding roller 4 is arranged on the feeding frame 2, an output end of the feeding roller 4 is connected to an input end of the guide roller 3, a section of sterile bin 5 is arranged between the feeding frame 2 and the guide roller 3, the sterile bin 5 isolates the material strip from the outside, so as to prevent contaminants such as dust in the outside from falling onto the material strip, and to avoid affecting the printing effect in the subsequent printing process, a section of leveling plate 6 is further arranged between the guide roller 3 and the printing machine 1, the leveling plate 6 can flatten the material strip, thereby reducing the occurrence of wrinkles in the feeding process, and the situation that the feeding process of the material strip is performed by the leveling plate 7, and the leveling plate 2 is further arranged on the feeding roller 7;

as shown in fig. 1 and 2, a detection mechanism is further arranged between the output end of the printing machine 1 and the drying mechanism, the detection mechanism can detect the material belt, the detection mechanism comprises a detection frame 8 and a detection camera 9, the detection frame 8 is arranged at the output end of the printing machine 1, the detection camera 9 is arranged below the material belt in the detection frame 8, a material belt irradiation lamp 10 is arranged on the detection frame 8, after the printing of the material belt is completed by using the printing machine 1, the material belt is irradiated by the material belt irradiation lamp 10, the material belt is detected by matching with the detection camera 9, stains on the material belt or parts with poor printing effect can be found in time, and therefore problems can be found in time, and equipment parameters can be adjusted in time;

two groups of material belt pressure stabilizing plates 11 are symmetrically arranged on the detection frame 8 along the material belt conveying direction, the material belt pressure stabilizing plates 11 are connected to the material belt pressure stabilizing plates on the detection frame 8 in a sliding mode and can level the material belt on the detection frame 8, so that the detection camera 9 can be matched to detect the material belt, locking bolts 12 are arranged between the material belt pressure stabilizing plates 11 and the detection frame 8, bolt holes are formed in the material belt pressure stabilizing plates 11, locking bolts 12 are connected to the bolt holes in an internal thread mode, the material belt pressure stabilizing plates 11 and the detection frame 8 are locked through the locking bolts 12, when the position of the material belt pressure stabilizing plates 11 on the detection frame 8 needs to be adjusted, the locking bolts 12 are loosened, the material belt pressure stabilizing plates 11 slide on the detection frame 8, after the position is adjusted, the locking bolts 12 are screwed again, and the material belt pressure stabilizing plates 11 are fixed in a working face;

the output end of the detection frame 8 is provided with a detection guide roller 13, the detection guide roller 13 is provided with two groups of detection rollers 14, the two groups of detection rollers 14 are symmetrically arranged at two sides of the detection guide roller 13 and used for conveying the non-printing surface part of the material belt, the detection rollers 14 are kept away from the printing surface part of the material belt, the printing ink which is not completely dried is prevented from being damaged by the detection rollers 14, the detection guide roller 13 can play a role in guiding the printed material belt, the printed material belt is prevented from shaking, and the forming effect of the printing ink is prevented from being influenced;

as shown in fig. 1, the drying mechanism includes a drying rack 15 and a material receiving roller 16, a drying oven 17 is arranged in the drying rack 15, a plurality of groups of drying guide rollers 18 are arranged in the drying oven 17, the drying oven 17 in the drying rack 15 is used for drying the material belt on the drying guide rollers 18, the drying rack 15 is a U-shaped rack, an opening of the drying rack 15 is arranged downwards, the material receiving roller 16 is arranged in the opening of the drying rack 15, the occupation of the practical space of the equipment can be reduced by arranging the drying rack 15 into the U-shaped rack, and the material receiving roller 16 can be arranged by utilizing the space below the drying rack 15 under the condition of ensuring sufficient drying, so as to receive the dried material belt;

therefore, the material belt can have enough drying stroke in the drying rack 15, the material belt guide plate 19 is arranged at the input end of the drying rack 15, the material belt guide plate 19 can provide a guide effect for the material belt to be input into the drying rack 15, the exhaust pipeline 20 is arranged above the input end of the drying rack 15, and the exhaust pipeline 20 can timely exhaust heat emitted by the drying rack 15 so as to avoid influencing the surrounding working environment;

a discharge port is formed in an opening of the drying frame 15, a discharge guide wheel 21 of the drying frame 2 is arranged at the discharge port, the discharge guide wheel 21 plays a role in guiding the material belt at the output end in the drying frame 15 after drying, the material belt is prevented from shaking in the material receiving process to influence the final material receiving effect, a material receiving detection lamp 22 is further arranged on one side of the material receiving roller 16, the material receiving detection lamp 22 is arranged towards the direction of the output end of the discharge guide wheel, the detection lamp can irradiate light on the surface of the material belt, and the final observation and detection can be conveniently carried out manually;

a printing process of an ink printing device for producing notepaper comprises the following specific steps:

a. the feeding roller and the flattening roller of the feeding frame are matched with each other to carry out pre-flattening treatment on the initial material belt;

b. the sterile bin carries out sterile treatment on the material belt, and the printing machine carries out printing ink printing treatment on the material belt;

c. detecting the printed material belt by matching a detection camera with a material belt irradiation lamp;

d. the drying frame is used for drying the printed material belt, the drying time is 4-6 min, and the drying temperature is controlled at 60-80 ℃;

e. the material receiving detection lamp irradiates the dried material belt so as to facilitate manual detection of the material belt drying effect.

In summary, the material belt is isolated from the outside by the sterile bin, so that pollutants such as dust in the outside are prevented from falling onto the material belt, the influence on the printing effect in the subsequent printing process is avoided, the leveling plate is further arranged between the guide roller and the printing machine, the leveling plate can flatten the material belt, the phenomenon that wrinkles appear in the feeding process is reduced, the material belt is irradiated by the material belt irradiation lamp, the material belt is detected by the detection camera in a matched mode, stains on the material belt or parts with poor printing effect can be found in time, problems can be found in time, equipment parameters can be adjusted in time, when the position of the material belt stabilizing plate on the detection frame needs to be adjusted, the locking bolt is loosened, the material belt stabilizing plate slides on the detection frame, the locking bolt is screwed after the position is adjusted, the material belt stabilizing plate is fixed in the working face, the material belt face part avoided by the detection roller, the damage of the detection roller which is not completely dried is avoided, the detection guide roller can play a role in guiding and shaking on the printed material belt, the forming effect on the influence on the forming effect of the printing ink is avoided, the drying frame can be reduced by setting the U-shaped drying frame, the emission direction of the drying roller, the material belt drying frame, the emission lamp can be conveniently used for observing the emission direction of the discharge lamp, and the discharge lamp, the discharge lamp after the detection of the discharge end of the material belt is detected. Therefore, the invention effectively overcomes various defects in the prior art and has high industrial utilization value.

The foregoing embodiments are merely illustrative of the principles and utilities of the present invention and are not intended to limit the invention. Any person skilled in the art can modify or change the above-mentioned embodiments without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which can be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (9)

1. The utility model provides a printing ink printing device is used in memo production, a serial communication port, including feed mechanism, printing machine and stoving mechanism, the printing machine input is located to feed mechanism, the printing machine output is located to stoving mechanism, feed mechanism includes material loading frame, material loading roller and guide roll, the printing machine input is located to the guide roll, the material loading roller is located on the material loading frame, the material loading roller output is connected to the guide roll input, be equipped with one section aseptic storehouse between material loading frame and the guide roll, still be equipped with one section flattening board between guide roll and the printing machine, still be equipped with detection mechanism between printing machine output and the stoving mechanism.

2. The ink printing apparatus for producing notes according to claim 1, wherein: the output end of the feeding frame is also provided with a flattening roller.

3. The ink printing apparatus for producing notes according to claim 1, wherein: the detection mechanism comprises a detection frame and a detection camera, the detection frame is arranged at the output end of the printing machine, the detection camera is arranged below the material belt in the detection frame, a material belt irradiation lamp is arranged on the detection frame, two groups of material belt pressure stabilizing plates are symmetrically arranged on the detection frame along the material belt conveying direction, the material belt pressure stabilizing plates are connected to the detection frame in a sliding mode, and locking bolts are arranged between the pressure stabilizing plates and the detection frame.

4. The ink printing apparatus for producing notes according to claim 3, wherein: the pressure stabilizing plate is provided with a bolt hole, a locking bolt is connected in the bolt hole in a threaded manner, and the pressure stabilizing plate and the detection frame are locked through the locking bolt.

5. The ink printing apparatus for producing notes according to claim 3, wherein: the output end of the detection frame is provided with a detection guide roller, the detection guide roller is provided with two groups of detection rollers, and the two groups of detection rollers are symmetrically arranged on the two sides of the detection guide roller and on the non-printing surface part of the conveying material belt.

6. The ink printing apparatus for producing notes according to claim 1, wherein: drying mechanism puts up and receives the material roller including drying, it is equipped with the stoving oven to dry to put up, be equipped with multiunit stoving deflector roll in the stoving oven, it puts up for the U-shaped frame to dry, it sets up down to dry the frame opening, receive the material roller and locate in the frame opening of drying.

7. The ink printing apparatus for producing notes according to claim 6, wherein: the input end of the drying rack is provided with a material belt guide plate, and an exhaust pipeline is arranged above the input end of the drying rack.

8. The ink printing apparatus for producing notes according to claim 6, wherein: the drying rack is characterized in that a discharge port is arranged in the opening of the drying rack, a discharging guide wheel of the drying rack is arranged at the discharge port, a material receiving detection lamp is further arranged on one side of the material receiving roller and is arranged towards the direction of the output end of the discharging guide wheel.

9. A printing process using the ink printing apparatus for producing notes according to any one of claims 1 to 8, characterized in that:

the method comprises the following specific steps:

a. the feeding roller and the flattening roller of the feeding frame are matched with each other to carry out pre-flattening treatment on the initial material belt;

b. the aseptic bin carries out aseptic processing on the material belt, and the printing machine carries out printing ink printing processing on the material belt;

c. detecting the printed material belt by matching a detection camera with a material belt irradiation lamp;

d. the drying rack is used for drying the printed material belt, the drying time is 4-6 min, and the drying temperature is controlled at 60-80 ℃;

e. the material receiving detection lamp irradiates the dried material belt so as to facilitate manual detection of the material belt drying effect.

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