CN102837492B - Magnetic printing apparatus - Google Patents

Abstract

The invention discloses a magnetic printing apparatus comprising a first transmission mechanism, a printing device, a magnetic orientation device and a curing device; the first transmission mechanism is used for transmitting a print substrate; the printing device is used for coating magnetic ink on the print substrate, wherein the magnetic ink comprises a plurality of magnetic paint sheets; the magnetic orientation device is used for performing orientation on the magnetic paint sheets in the magnetic ink on the print substrate; and the curing device is used for curing the magnetic ink. With the adoption of the mode, the magnetic paint can be printed on the print substrate and subjected to the magnetic orientation and cutting treatment, so that a print has a special optical pattern effect.

Description

A kind of magnetic printing equipment

Technical field

The present invention relates to printing technology, particularly relate to a kind of magnetic printing equipment.

Background technology

At present, in field of anti-counterfeit technology, as in the printing process of banknote, bill etc., usually the magnetic pigment flakes of magnetic orientation mother matrix to magnetic photochromatic printing ink inside is utilized to carry out magnetic orientation, this magnetic orientation mother matrix has the specific magnetic fields of artificial design, thus makes magnetic pigment flakes in printed matter, produce the distinct optical pattern effect of design.The extensive use of this technology needs specific printing equipment to realize, but the printing equipment of prior art does not possess this function.

Therefore, need to provide a kind of magnetic printing equipment, to solve the problem.

Summary of the invention

The technical problem that the present invention mainly solves is to provide a kind of magnetic printing equipment, magnetic paint can be printed on printed matter substrate, and carries out magnetic orientation and solidification to it.

For solving the problems of the technologies described above, the technical scheme that the present invention adopts is: provide a kind of magnetic printing equipment, it comprises: the first transmission mechanism, printing equipment, magnetic orientation device and solidification equipment.This first transmission mechanism is used for transmission printed matter substrate.This printing equipment is for being coated on this printed matter substrate by magnetic ink, this magnetic ink comprises multiple magnetic pigment flakes.This magnetic orientation device is for carrying out magnetic orientation to this magnetic pigment flakes in this magnetic ink on this printed matter substrate.This solidification equipment is used for being cured this magnetic ink.

Wherein, this first transmission mechanism is with this printed matter substrate of intermittent mode transmission, this magnetic ink is coated on this printed matter substrate at the drive gap of this first transmission mechanism by this printing equipment, and this magnetic orientation device carries out magnetic orientation at the drive gap of this first transmission mechanism to this magnetic pigment flakes.

Wherein, this magnetic printing equipment comprises the second transmission mechanism further, for at this magnetic orientation device of direction transmission perpendicular to this printed matter substrate, to make this magnetic orientation device at the drive gap of this first transmission mechanism near this printed matter substrate, and away from this printed matter substrate before the transmission of this first transmission mechanism.

Wherein, this solidification equipment carries out partially cured at the drive gap of this first transmission mechanism to this magnetic ink, and solidifies completely this magnetic ink in the follow-up transmission process of this first transmission mechanism.

Wherein, this solidification equipment is positioned at top and the downstream of this magnetic orientation device.

Wherein, this magnetic orientation device comprises fixed head and arranges in a matrix fashion and the multiple magnetic orientation mother matrixs be arranged on this fixed head.

Wherein, this fixed head is provided with cooling duct and vacuum suction passage, vacuum suction passage carries out vacuum suction to printed matter substrate, and cooling duct cools printed matter substrate, fixed head and magnetic orientation mother matrix.

Wherein, this solidification equipment comprises radiation curing source and the tripper for holding this radiation curing source, and this tripper comprises coaxial two the fan-shaped cylinders arranged, these two fan-shaped cylinders around central axis, to realize the open and close of this tripper.

Wherein, this magnetic printing equipment comprises the first vacuum absorbing platform and the second vacuum absorbing platform further, this first vacuum absorbing platform is arranged at the side of this printed matter substrate away from this printing equipment, this second vacuum absorbing platform is arranged at the side of this printed matter substrate away from this solidification equipment, to carry out vacuum suction to this printed matter substrate respectively.

Wherein, this printed matter substrate at the uniform velocity continuously passes through this printing equipment, this magnetic orientation device and this solidification equipment under the drive of this first transmission mechanism.

The invention has the beneficial effects as follows: the situation being different from prior art, magnetic paint can be printed on printed matter substrate by the present invention by the way, and carries out magnetic orientation and solidification to it, makes printed matter have unique optical design effect.

Accompanying drawing explanation

Fig. 1 is the structural representation of the preferred embodiment of magnetic printing equipment of the present invention;

Fig. 2 is the structural representation of the preferred embodiment of magnetic orientation device of the present invention;

Fig. 3 is solidification equipment of the present invention structural representation in closed state;

Fig. 4 is solidification equipment of the present invention structural representation in the on-state.

Detailed description of the invention

Consult Fig. 1, Fig. 1 is the structural representation of the preferred embodiment of magnetic printing equipment of the present invention.In the present embodiment, magnetic printing equipment 1 comprises: the first transmission mechanism 10, second transmission mechanism 11, printing equipment 14, first vacuum absorbing platform 16, second vacuum absorbing platform 17, magnetic orientation device 18 and solidification equipment 19.

First transmission mechanism 10 for transmission printed matter substrate 13, to make it through printing equipment 14, magnetic orientation device 18 and solidification equipment 19.Printing equipment 14 is for being coated on printed matter substrate 13 by magnetic ink, and this magnetic ink comprises multiple magnetic pigment flakes.In the present embodiment, printing equipment 14 is preferably offset printing device, such as silk-screen printing device or gravure apparatus.

Magnetic orientation device 18 is for carrying out magnetic orientation to the magnetic pigment flakes in the magnetic ink on printed matter substrate 13.Solidification equipment 19, for being cured magnetic ink after magnetic orientation device 18 pairs of magnetic pigment flakes carry out magnetic orientation, keeps the arrangement mode after magnetic orientation to make magnetic pigment flakes.

In the present embodiment, first transmission mechanism 10 is preferably with intermittent mode transmission printed matter substrate 13, magnetic ink is coated on printed matter substrate 13 at the drive gap of the first transmission mechanism 10 by printing equipment 14, and magnetic orientation device 18 carries out magnetic orientation at the drive gap of the first transmission mechanism 10 to magnetic pigment flakes.Specifically, the first transmission mechanism 10 stops the transmission to printed matter substrate 13 after by printed matter substrate 13 transmission preset distance.Now, magnetic ink is coated on printed matter substrate 13 by printing equipment 14, and the magnetic pigment flakes simultaneously in the magnetic ink that has been coated with of magnetic orientation device 18 pairs of printing equipments 14 carries out magnetic orientation, and is cured by solidification equipment 19.

But in above-mentioned printing process, the printing time of printing equipment 14 is often less than the hardening time of solidification equipment 19.In order to the Appropriate application time, and increase work efficiency, solidification equipment 19 is arranged at top and the downstream of magnetic orientation device 18, and utilize the second transmission mechanism 11 at the direction transmission magnetic orientation device 18 perpendicular to printed matter substrate 13, to make magnetic orientation device 18 at the drive gap of the first transmission mechanism 10 near printed matter substrate, and away from printed matter substrate before the transmission of the first transmission mechanism 10.Now, at the drive gap of the first transmission mechanism 10, the magnetic pigment flakes in magnetic orientation device 18 pairs of magnetic inks carries out magnetic orientation, and solidification equipment 19 carries out partially cured at the drive gap of the first transmission mechanism 10 to magnetic ink.Subsequently, magnetic orientation device 18 under the second transmission mechanism 11 transmission away from printed matter substrate 13, and the first transmission mechanism 10 recovers the transmission to printed matter substrate 13, solidification equipment 19 solidifies completely magnetic ink in the follow-up transmission process of the first transmission mechanism 10.In the present embodiment, the second transmission mechanism 11 can effectively avoid pattern in magnetic ink to produce conditions of streaking, and then is conducive to forming complex pattern.

In the present embodiment, first vacuum absorbing platform 16 is arranged at the side of printed matter substrate 13 away from printing equipment 14, second vacuum absorbing platform 17 is arranged at the side of printed matter substrate 13 away from solidification equipment 19, to carry out vacuum suction to printed matter substrate 13 respectively, in printing and solidification process, keep good flatness to make printed matter substrate 13.

Consult Fig. 2, Fig. 2 is the structural representation of the preferred embodiment of magnetic orientation device of the present invention.In the present embodiment, magnetic orientation device 18 comprises fixed head 181, in a matrix fashion arrangement and the multiple magnetic orientation mother matrixs 180 be arranged on fixed head 181, and then carries out magnetic orientation to the magnetic paint in the multiple regions on printed matter substrate 13.

Fixed head 181 is provided with cooling duct 184 and vacuum suction passage 182.Vacuum suction passage 182 pairs of printed matter substrates 13 carry out vacuum suction, and cooling duct 184 then can cool printed matter substrate 13, fixed head 181 and magnetic orientation mother matrix 180.In the present embodiment, magnetic orientation mother matrix 180 preferably adopts taper hole embedding technique to be fixed on fixed head 181.Fixed head 181 comprises at least three gauge points 183 further.Gauge point 183 is for determining the relative position relation of magnetic orientation mother matrix 180 and printed matter substrate 13.Gauge point 183 is preferably set to hole.In other embodiments, gauge point also can be light source, color lump, axle or step.In the present embodiment, cool duct 184 preferably to cool with water.In other embodiments, also can cool with compressed air, wet goods medium.

Refer to Fig. 3 and Fig. 4.Fig. 3 is solidification equipment of the present invention structural representation in closed state.Fig. 4 is solidification equipment of the present invention structural representation in the on-state.In the present embodiment, solidification equipment 19 comprises radiation curing source 203 and the tripper for holding radiation curing source 203.Tripper comprises coaxial two the fan-shaped cylinders 201,202 arranged, two fan-shaped cylinders 201,202 are around central axis, to realize the open and close of tripper, and then radiation curing source 203 can be controlled fast irradiate or avoid irradiating printed matter substrate 13.In the present embodiment, radiation curing source 203 is preferably set to high-pressure sodium lamp.In other embodiments, radiation curing source 203 also can be radiant heat source, electron beam irradiation, LED cold light source, the source of infrared radiation or other can be used for one or more groups radiation curing source that above-mentioned magnetic ink is cured.

In other embodiments, printed matter substrate 13 also can at the uniform velocity continuously through printing equipment 14, magnetic orientation device 18 and solidification equipment 19 under the drive of the first transmission mechanism 10.

Be different from prior art, magnetic paint can be printed on printed matter substrate by magnetic printing equipment of the present invention, and carries out magnetic orientation and solidification to it, makes printed matter have unique optical design effect.

The foregoing is only embodiments of the present invention; not thereby the scope of the claims of the present invention is limited; every utilize description of the present invention and accompanying drawing content to do equivalent structure or equivalent flow process conversion; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present invention.

Claims (6)

1. a magnetic printing equipment, is characterized in that, described magnetic printing equipment comprises:

First transmission mechanism, for transmission printed matter substrate;

Printing equipment, for magnetic ink being coated on described printed matter substrate, described magnetic ink comprises multiple magnetic pigment flakes;

Magnetic orientation device, for carrying out magnetic orientation to the described magnetic pigment flakes in the described magnetic ink on described printed matter substrate, described magnetic orientation device comprises fixed head and arranges in a matrix fashion and the multiple magnetic orientation mother matrixs be arranged on described fixed head, described fixed head comprises at least three gauge points, and described gauge point is for determining the relative position relation of described magnetic orientation mother matrix and described printed matter substrate;

Solidification equipment, for being cured described magnetic ink, described solidification equipment carries out partially cured at the drive gap of described first transmission mechanism to described magnetic ink, and in the follow-up transmission process of described first transmission mechanism, described magnetic ink is solidified completely, described solidification equipment comprises radiation curing source and the tripper for holding described radiation curing source, described tripper comprises coaxial two the fan-shaped cylinders arranged, described two fan-shaped cylinders around central axis, to realize the open and close of described tripper.

2. magnetic printing equipment according to claim 1, it is characterized in that, described first transmission mechanism is with printed matter substrate described in intermittent mode transmission, described magnetic ink is coated on described printed matter substrate at the drive gap of described first transmission mechanism by described printing equipment, and described magnetic orientation device carries out magnetic orientation at the drive gap of described first transmission mechanism to described magnetic pigment flakes.

3. magnetic printing equipment according to claim 2, it is characterized in that, described magnetic printing equipment comprises the second transmission mechanism further, for magnetic orientation device described in the direction transmission perpendicular to described printed matter substrate, to make described magnetic orientation device at the drive gap of described first transmission mechanism near described printed matter substrate, and away from described printed matter substrate before the transmission of described first transmission mechanism.

4. magnetic printing equipment according to claim 1, is characterized in that, described solidification equipment is positioned at top and the downstream of described magnetic orientation device.

5. magnetic printing equipment according to claim 1, it is characterized in that, described fixed head is provided with cooling duct and vacuum suction passage, described vacuum suction passage carries out vacuum suction to described printed matter substrate, and described cooling duct cools described printed matter substrate, described fixed head and described magnetic orientation mother matrix.

6. magnetic printing equipment according to claim 1, it is characterized in that, described magnetic printing equipment comprises the first vacuum absorbing platform and the second vacuum absorbing platform further, described first vacuum absorbing platform is arranged at the side of described printed matter substrate away from described printing equipment, described second vacuum absorbing platform is arranged at the side of described printed matter substrate away from described solidification equipment, to carry out vacuum suction to described printed matter substrate respectively.