CN107650493B - Magnetic ink printing equipment - Google Patents

Abstract

The invention discloses printing equipment and a printing method for magnetic ink, and belongs to the technical field of printing equipment. The printing equipment and the printing method solve the problem of low production efficiency of the original magnetic ink printing equipment. The printing equipment of the magnetic ink comprises a support, wherein a printing platform is arranged on the support, a printing head positioned above the printing platform is also arranged on the support, and a magnetic die is arranged in the printing platform. Compared with the prior art, in the printing equipment and the printing method of the magnetic ink, because the magnetic die is arranged in the printing platform, only one magnetic die is needed in the printing process, and the printed matter does not need to be conveyed independently for many times, so that the production efficiency is improved.

Description

Magnetic ink printing equipment

Technical Field

The invention belongs to the technical field of printing equipment, and relates to printing equipment and a printing method of magnetic ink.

Background

At present, the magnetic ink can apparently generate a three-dimensional illusion visual effect due to the pigment which changes the self direction or the arrangement direction of the magnetic pigment in the ink by using a magnetic field, and is widely applied to the fields of material decoration, anti-counterfeiting treatment and the like. The ink prepared based on the magnetic optical color-changing pigment in the magnetic ink is more defined as the optically variable color ink due to unique effect, and the optically variable color ink is a special variety of the magnetic ink. However, after the magnetic ink is printed, the magnetic ink must pass through a magnetic field and stay for a certain time to generate a three-dimensional effect, and the effect can promote leveling to disappear before the magnetic ink is unshaped, so that a plurality of processes are required when the magnetic ink is applied, the production speed is extremely slow, a plurality of devices are required to be used, a plurality of magnetic molds must be manufactured for the same pattern to work simultaneously, the requirement of production capacity can be met, the space is occupied, and the cost is consumed.

Therefore, the existing magnetic ink printing device has the defects of low production efficiency, high cost consumption and the like.

Disclosure of Invention

The invention aims to provide a printing device for magnetic ink with high production efficiency aiming at the problems in the prior art.

The purpose of the invention can be realized by the following technical scheme:

the magnetic ink printing equipment comprises a support, wherein a printing table is arranged on the support, and a printing head positioned above the printing table is also arranged on the support.

In printing, a printed matter such as paper or a sheet film is placed on the printing pad. A print head above the ink pad then prints the magnetic ink onto the print. Because the magnetic mould is arranged in the printing platform in the equipment, the magnetic mould can absorb magnetism to the magnetic ink printed on the printed matter during printing so as to achieve the required printing effect. Compare in current lithography apparatus and print earlier to the printed matter, then transfer to the printed matter and inhale magnetism on the magnetism mould, this equipment will print and inhale magnetism and go on simultaneously, the printing time of the magnetic ink that has significantly reduced has improved the precision of production efficiency and cover position.

In the above printing apparatus for magnetic ink, the support is provided with a slide rail, and the ink pad is slidably disposed on the slide rail.

Because the sliding rail is arranged on the support, the printing platform and the printed matter can slide on the sliding rail as a whole or the printing platform can slide on the sliding rail, the printed matter can conveniently enter the next procedure, and the production efficiency is improved.

In the above printing apparatus for magnetic ink, the support is provided with a shaping device, and the shaping device is located on the upper side of the slide rail.

After the printed matter is printed, the printing platform and the printed matter are moved to the shaping device as a whole through the sliding rail, and the shaping device shapes the printed matter, so that the printed matter is more conveniently shaped in the equipment, and the production efficiency is higher. In addition, because the magnetic mold is arranged in the printing platform, the magnetic mold does not need to be additionally arranged at the shaping device, and the printing cost of the magnetic ink is reduced.

In the above printing apparatus for magnetic ink, the setting device is a UV curing lamp, an LED UV curing lamp, an infrared lamp, or a hot air module.

These modes of the setting device can set the printed matter.

In the above printing apparatus for magnetic ink, an ejector pin is disposed in the ink pad.

In the operation process of the equipment, the thimble can push part or the whole of the printed matter away from the printing table, so that the printed matter can be conveniently transferred away from the printing table.

In the above printing apparatus for magnetic ink, an air suction device for sucking printed matters is provided in the printing pad.

In the operation process of the equipment, the printed matter can be adsorbed on the printing table through the air suction device, so that the printed matter can be stably printed, shaped and the like.

In the above printing apparatus for magnetic ink, the side of the support is provided with a mechanical arm.

The mechanical arm is used for conveying printed matters such as paper or sheet films and the like, and the production efficiency is improved.

According to the purpose of the invention, the invention also discloses a printing method of the magnetic ink, which adopts the following technical scheme:

a method for printing magnetic ink, comprising the steps of:

A. placing the printed matter on a printing table provided with a magnetic mold;

B. printing the printed matter and enabling the magnetic mold to absorb magnetism of the printed matter;

C. and shaping the printed matter.

In the printing method, the printing time of the magnetic ink is shortened, the production efficiency is improved, and the registration accuracy is improved because the processes of printing and attracting magnetism are carried out on the printed matters such as paper or sheet films and the like at the same time.

In the above printing method of magnetic ink, in the step C, the printing pad is transported to the setting device together with the printed matter for setting.

After the printed matter is printed, the printing platform and the printed matter are integrally moved to the shaping device through the sliding rail, and the shaping device shapes the printed matter. Because the magnetic mold is arranged in the printing platform, the magnetic mold does not need to be additionally arranged at the shaping device, and the printing cost of the magnetic ink is reduced.

In the above printing method of magnetic ink, in the step C, the printing pad is conveyed to the shaping device together with the printed matter by the slide rail for shaping.

The printing platform and the printed matter are conveyed through the slide rail, so that the working efficiency is high.

Compared with the prior art, in the printing equipment and the printing method of the magnetic ink, because the magnetic mold is arranged in the printing platform, only one magnetic mold is needed in the printing process, and printed matters such as paper or sheet films and the like do not need to be conveyed independently for multiple times, so that the production efficiency is improved, and the registration accuracy is greatly improved.

Drawings

FIG. 1 is a schematic diagram of a magnetic ink printing apparatus;

in the figure, 1, a bracket; 2. a printing pad; 3. a print head; 4. a slide rail; 5. a shaping device; 6. a mechanical arm; 7. a screen mounting frame and a screen.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1, the printing apparatus of the present magnetic ink is different from a roll for a sheet-like printed matter such as paper or a sheet film. This lithography apparatus includes support 1, is equipped with slide rail 4 on the support 1. The slide rail 4 is provided with a printing table 2 in a sliding way, and a magnetic mould is arranged in the printing table 2. The ink pad 2 is provided with an ejector pin and an air suction device for absorbing printed matters. In the operation process of the equipment, the ejector pins can push part or the whole of the printed matter away from the printing table 2, so that the printed matter is convenient to be transferred away from the printing table 2. Further, the printed matter can be adsorbed on the pad 2 by the air suction device, and the printed matter can be stably printed, set, and the like. In this embodiment, the air suction devices are a plurality of holes provided on the printing pad. The air suction motor is arranged in the printing equipment, and the holes in the printing pad are pumped through the guide pipe, so that the effect of adsorbing and positioning the printing stock is achieved.

The support 1 is also provided with a printing head 3 positioned above the printing platform 2, and the support 1 is also provided with a driving device for driving the printing head 3 to move towards all directions. In the present embodiment, the print head 3 is movable in the up-down and left-right directions in the view of fig. 1. A screen mounting frame and a screen 7 are provided under the print head 3. In the present embodiment, the screen mount and the screen 7 move up and down along with the print head 3 in the view of fig. 1. When the print head 3 moves left and right, the screen mount and the screen 7 do not move.

Because the innovation is suitable for supporting various printing modes and is more adaptive, the screen printing mode shown in fig. 1 is taken as a special example, and various mechanical modes based on screen printing, including screen printing modes such as an inclined arm screen printing machine, a vertical screen printing machine, a curved surface screen printing machine, a rotary screen printing machine, an electrostatic screen printing machine and the like, are suitable for being used in the innovation and are taken as protection contents.

In addition, a shaping device 5 is arranged on the support 1, and the shaping device 5 is positioned on the upper side of the sliding rail 4. Specifically, the setting device 5 is a UV curing lamp, an LED UV curing lamp, an infrared lamp, or a hot air module, and can set the printed matter in these ways. The setting device 5 may also be another device capable of setting the magnetic ink.

The side of the bracket 1 is provided with a mechanical arm 6 for conveying printed matters so as to improve the production efficiency. In this embodiment, after the printed matter is printed, magnetically attracted, and shaped on the printing table 2, the robot arm 6 transports the printed matter to another place.

The working process in this embodiment will now be described as follows:

in printing, a printed matter is placed on the printing pad 2. The air nozzles in the printing platform 2 work to absorb the printed matters on the printing platform 2. Then, the printing head 3 above the pad 2 prints the magnetic ink on the printed matter. Because the magnetic mould is arranged in the printing platform 2 in the equipment, the magnetic mould can absorb magnetism to the magnetic ink printed on the printed matter at the same time of printing so as to achieve the required printing effect.

After the printed matter is printed, the printing pad 2 and the printed matter are moved as a whole to the setting device 5 by the slide rail 4, and the setting device 5 sets the printed matter.

Then, the pad 2 continues to move to the mechanical arm along the slide rail 4, and the thimble in the pad 2 pushes the printed matter away from the pad 2, so that the mechanical arm 6 can clamp and move the printed matter to other positions conveniently. In this embodiment, the robot arm 6 moves the printed matter to another position for curing.

In the equipment, the printing platform 2 and the printed matter are moved to the shaping device 5 through the slide rail 4 as a whole, so that the printed matter is convenient to shape and high in production efficiency. In addition, because the printing platform 2 is internally provided with the magnetic mold, the setting device 5 does not need to be additionally provided with the magnetic mold, and the printing cost of the magnetic ink is reduced.

Compare and print the printed matter earlier in current lithography apparatus, then transfer the printed matter and carry out magnetism of inhaling on the magnetism mould, this equipment will print and inhale magnetism and go on simultaneously, greatly reduced the printing time of magnetic ink. Because the sliding rail 4 is arranged on the support 1, the ink pad 2 and the printed matter can slide on the sliding rail 4 as a whole or the ink pad 2 can slide on the sliding rail 4, the printed matter can conveniently enter the next procedure, and the production efficiency and the accuracy of the nesting are improved. In addition, in the printing process of the equipment, only one magnetic mold is needed, and the printing cost is low.

According to the purpose of the invention, the invention also discloses a printing method of the magnetic ink, which is characterized by comprising the following steps:

A. placing the printed matter on a printing platform 2 provided with a magnetic mold;

B. printing the printed matter and enabling the magnetic mold to absorb magnetism of the printed matter;

C. and shaping the printed matter. In step C, the printing pad 2 and the printed matter are conveyed to the shaping device 5 through the slide rail 4 for shaping.

In the printing method, the printing time of the magnetic ink is shortened and the production efficiency and the registration accuracy are improved because the processes of printing and magnetic attraction are carried out on the printed matters such as paper or sheet films and the like at the same time.

After the printed matter is printed, the printing pad 2 and the printed matter are moved as a whole to the setting device 5 by the slide rail 4, and the setting device 5 sets the printed matter. In addition, the printing platform 2 is internally provided with the magnetic mold, and the setting device 5 is not required to be additionally provided with the magnetic mold, so that the printing cost of the magnetic ink is reduced. The printing platform 2 and the printed matter are conveyed through the slide rail 4, so that the working efficiency is high.

Claims (1)

1. The utility model provides a lithography apparatus of magnetic ink, includes support (1), support (1) on be equipped with ink pad (2), support (1) on still be equipped with print head (3) that are located ink pad (2) top, its characterized in that, ink pad (2) in be equipped with the magnetic mold, ink pad (2) in be equipped with the thimble, support (1) on be equipped with slide rail (4), ink pad (2) slide and set up on slide rail (4), support (1) on be equipped with setting device (5), setting device (5) be located slide rail (4) upside, setting device (5) be UV lamp or infrared lamp or hot-blast module, ink pad (2) in be equipped with the air cock that is used for adsorbing the printed matter, support (1) lateral part be equipped with arm (6).

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