KR101297153B1 - Hologram printing method - Google Patents

Abstract

The present invention relates to a holographic printing method.
According to the present invention, since a hologram is printed through a series of automated processes using a set of rollers, a technique of improving productivity, preventing waste of resources, and versatility is disclosed.

Description

Hologram printing method {HOLOGRAM PRINTING METHOD}

The present invention relates to a method of printing a hologram on a printed object.

The hologram is a three-dimensional image, and the unique three-dimensional image given by the hologram is widely used as a means of preventing forgery and alteration because it is impossible to duplicate by a conventional printing method.

The method for recording a hologram on an object (defined as a flat object in which the hologram can be recorded such as a bell or a film) includes a first method of attaching a hologram film to an object and printing a hologram on the object. There is a second way.

In the case of the first method, since the product is completed in a state in which a hologram film made of a material such as PET is attached to an object such as paper, recycling of the object is impossible. Therefore, the first method has a problem of causing waste of resources and consequent environmental pollution, and for this reason, the products produced by the first method are banned in some countries.

The second method is preferable in that the hologram film is printed on the to-be-printed object without attaching the hologram film to the to-be-printed object (the object to which the hologram can be printed). However, the second method, as in the technique (hereinafter referred to as 'prior art') described in the Republic of Korea Patent Registration No. 10-1027067 (name of the invention: the holographic printing method of the interior material and the printed material produced by it), the screen technique, etc. After the pattern printing layer is formed on the to-be-printed object, a hologram film (hereinafter referred to as a 'hologram sheet') is attached to the to-be-printed object, and the hologram film is attached to the object by using a separate pressing means such as a roller. Discontinuous and complex processes, such as removing the hologram film after pressing, are difficult to mass-produce and difficult to work with, resulting in poor productivity.

It is an object of the present invention to provide a technique by which a hologram can be printed on a print (the object on which the hologram is printed) on a continuous series of automated processes.

Holographic printing method according to the present invention for achieving the above object, the coating step of applying a coating liquid to the substrate; A close contact step of bringing the to-be-printed object and the hologram film coated with the coating liquid through the coating step between the back-rolling roller and the communication roller, which form a group; A curing step of curing the coating solution in a state in which the hologram film and the to-be-printed object are in close contact; A separation step of separating the hologram film from the to-be-printed object in a state in which the coating material cured by the coating solution in the curing step is fixed to the to-be-printed object; And collecting the holographic film separated from the to-be-printed object by the separating step by winding the first collection bobbin, and collecting the to-be-printed material by winding the second collection bobbin. .

The coating liquid used in the coating step is a UV coating liquid, and the curing step is a method of irradiating ultraviolet rays to the surface of the hologram film in a state in which the hologram film and the substrate are in close contact with each other.

The curing step takes place at least two points.

The hologram printing method includes a suction step of sucking heat around the hologram film and the substrate to be in close contact with each other; .

One side of the hologram film is wound around the first supply bobbin, the other side is wound around the first collection bobbin, one side of the to-be-printed object is wound around the second supply bobbin, and the other side is wound around the second collection bobbin.

The adhesion step is made by one communication roller and two communication rollers spaced apart from each other.

The present invention has the following effects.

Firstly, the hologram can be printed on the substrate by a continuous series of automated processes, resulting in excellent productivity.

Secondly, not only can the recycled printed matter be reused, but also the hologram film can be repeatedly reused, thereby ultimately greatly reducing the waste of resources.

Third, it is excellent in versatility because it can be applied to any kind of hologram film and to-be-printed material having only enough flexibility to be wound around bobbin by adjusting only the distance between the backache roller and the communication roller.

Furthermore, the hologram is transferred to the printing method by roll to roll regardless of the thickness and material such as film and paper such as gravure printing and rotoprint, shrink film and coated fabric. Can be given, there is an effect that can be utilized for anti-counterfeit packaging materials, fancy goods and the like.

1 is a block diagram of a hologram printing apparatus for applying the hologram printing method according to the present invention.
2 is a flowchart of a hologram printing method according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. For simplicity of description, redundant description is omitted or compressed as much as possible.

1 is a schematic configuration diagram of a hologram printing apparatus 100 for applying a hologram printing method according to the present invention.

As shown in FIG. 1, the hologram printing apparatus 100 includes a first supply bobbin 110, a first collection bobbin 120, a second supply bobbin 130, a second collection bobbin 140, and a contactor ( 150), the first to third ultraviolet irradiation (161 to 163), the inhaler 170 and the like.

One side of the hologram film HF is wound around the first supply bobbin 110. The hologram film HF wound by the rotation of the first supply bobbin 110 is released and supplied to the closer 150.

The other side of the hologram film HF is wound around the first collection bobbin 120. The hologram film HF coming from the contactor 150 side is wound by the rotation of the first collection bobbin 120 and collected. Here, the hologram film HF is provided with a flexible material which can be wound around the first supply bobbin 110 and the first collection bobbin 120, and a hologram pattern is formed.

One side of the object to be printed PP is wound around the second supply bobbin 130. The hologram film HF wound by the rotation of the second supply bobbin 130 is released and supplied to the closer 150.

The other side of the to-be-printed object PP is wound around the second collection bobbin 140. By the rotation of the second collection bobbin 140, the printed matter (PP) on which the hologram coming from the contactor 150 side is wound is collected and collected. Here, the to-be-printed material PP is made of a material such as a flexible paper that can be wound around the second supply bobbin 130 and the second collection bobbin 140.

 The contactor 150 is provided to bring the hologram film HF and the to-be-printed object into close contact with each other and includes one back barrel roller 151, the first communication roller 152, and the second communication roller 153. It is composed.

The two communication rollers 152 and 153 are provided to be spaced apart from each other, and are relatively relatively large (as compared with the two communication rollers) such that the hologram film HF and the printed matter PP which are in close contact with each other can be passed while being pressed. It is provided while maintaining a distance from the large diameter barrel roller 151. Of course, depending on the implementation it is also possible to include only one backing roller and one communication roller, as in this embodiment by providing two communication rollers 152, 153 spaced apart from each other by the hologram film (HF) and As the to-be-printed PP moves from the point where the first communication roller 152 is located to the point where the second communication roller 153 is located, continuous adhesion is applied to the hologram film HF and the to-be-printed PP. In addition, it is preferable to secure the ultraviolet irradiation area by the first ultraviolet irradiator 161 as well as to make the adhesion more firmly.

For reference, the UV coating solution has a good curing effect in the absence of oxygen. (Usually, the UV coating solution is not cured by oxygen in the air, which is called oxygen barrier phenomenon. UV curing agents without oxygen barrier phenomenon are expensive and lose productivity.) . Accordingly, the UV coating liquid can be completely blocked from the air by keeping the hologram film HF and the printed matter PP closely and closely adhered by the backing roller 151 and the two communicating rollers 152 and 153. Even if the hologram film HF and the to-be-printed PP move at a high speed, 60 to 70% of the hologram film HF may be hardened by the first ultraviolet irradiator 161.

The first to third ultraviolet irradiators 161 to 163 are provided to control the amount of heat and the amount of light, and the UV coating liquid is cured by irradiating the surface of the hologram film HF in close contact with the substrate PP. Let's do it. Therefore, the UV coating liquid applied to the hologram film HF passes through the points where the hologram films HF and the to-be-adhered PP are in close contact with each other, and the first to third UV irradiators 161 to 163 are positioned. It hardens as it transitions to).

The first ultraviolet irradiator 161 is provided between the first communication roller 152 and the second communication roller 153, and the second and third ultraviolet irradiators 162 and 163 are holograms with the second communication roller 153. It is provided between the point where the pair of end rollers 181 and 182 which separate the film HF and the to-be-printed material PP are located.

Of course, in the present embodiment, three ultraviolet irradiators 161 to 163 are provided. However, depending on the implementation, it may be considered to include one, two, or four or more ultraviolet irradiators. For reference, in order to separate the hologram film from the to-be-printed state in close contact with each other, since the UV coating liquid must be transferred to the to-be-printed product (PP), it is preferable to increase the production efficiency by providing a plurality of ultraviolet irradiators.

The inhaler 170 absorbs heat generated by the ultraviolet irradiators 162 and 163. In general, only the heat of the to-be-printed object PP is removed so that the original shape can be preserved as it is during the winding operation by the second collection bobbin 140. Since the hologram transfer according to the present invention can be performed on both the prints PP having a thickness of 16 to 300 μm, the thin prints PP may be deformed by heat. If you wind up will be able to deform the fabric. Furthermore, by removing the heat from the substrate (PP), it helps to cure the UV coating liquid quickly.

The hologram printing apparatus 100 has a rotational force applied to the first supply bobbin 110, the first collection bobbin 120, the second supply bobbin 130, the second collection bobbin 140, the back barrel roller 151, and the like. A drive source (eg, a motor) for providing is further provided, but the description thereof is omitted since it is obvious.

Subsequently, a hologram printing method according to the present invention made in the hologram printing apparatus 100 as described above will be described with reference to the flowchart of FIG.

1. Application <S21>

A UV coating liquid is applied to the substrate (PP). Here, the time point at which the UV coating liquid is applied to the to-be-printed material PP is a time point at which the hologram film HF and the to-be-printed material PP start to come into close contact with each other (the time at which the hologram film and the to-be-printed material enter between the barrel roller and the first communication roller). ) It is enough before.

2. Close contact <S22>

After passing through step S21, the to-be-printed object PP and the hologram film HF to which the coating liquid is applied are introduced between the delivery roller 151 and the first communication roller 152 and then the delivery roller 151 and the second communication roller 153. ), The hologram film HF and the to-be-printed object PP are pressed against each other and adhered to each other.

3. Primary curing <S23>

The UV coating liquid is cured by irradiating ultraviolet rays to the surface of the hologram film HF which is in the middle of moving from the first communication roller 152 to the second communication roller 153 by the first ultraviolet irradiator 161.

For reference, the reason why the large diameter barrel roller 151 is used in the first curing is to allow the ultraviolet rays irradiated by the first ultraviolet irradiator 161 to be formed over a large area. For example, when a small roller is used, the area for curing the UV coating liquid by the first ultraviolet irradiator 161 is narrow, so that the UV coating liquid is hardly hardened when the substrate PP moves at a high speed. In such a state, when the hologram film HF and the to-be-printed PP are shaken without being in close contact with each other exactly 1: 1 before passing through the side portions of the second and third ultraviolet irradiators 162 and 163, it will be described later. The hologram effect may be broken when the difference is hardened (depending on the implementation). Therefore, it is preferable to use a large diameter roller 151, the diameter of the communication rollers (152, 1253) in terms of the structural implementation of the device is preferably smaller than the diameter of the barrel roller (151).

4. Secondary Curing <S24>

The hologram film HF which is on the way to the separation point from the to-be-printed material PP, after entering between the second delivery roller 151 and the second communication roller 153 by the second and third ultraviolet irradiators 162 and 163. Ultraviolet irradiation to the surface of the UV coating liquid further cured.

5. Heat Suction <S25>

The second collection bobbin 140 is sucked into the second collection bobbin 140 by sucking heat from the periphery of the hologram film HF and the to-be-printed material PP which are in close contact with the inhaler 170 located at the positions of the second and third ultraviolet irradiators 162 and 163. At the same time, the winding work is not abnormal and at the same time accelerates the curing of the UV coating liquid.

6. Separation <S26>

Due to the configuration as shown in FIG. 1, the hologram film HF and the printed matter PP that are closely adhered to each other exit between the pair of end rollers 181 and 182, and thus, the first collection bobbin 120 and the second collection bobbin 140 are separated from each other. The hologram film HF and the to-be-printed PP are separated from each other by pulling the hologram film HF and the to-be-printed PP, respectively, by the tension by the rotation of. At this time, the coating material cured UV coating liquid is maintained in a completely fixed state to the substrate (PP).

7. Collection <S27>

The hologram film HF and the to-be-printed material PP, which pass through the pair of end rollers 181 and 182 while being separated from each other, are wound on the first collection bobbin 120 and the second collection bobbin 140, respectively.

For reference, the hologram film HF collected by the first collection bobbin 120 may be reused by changing the positions of the first collection bobbin 120 and the first supply bobbin 110, and the second collection bobbin. The printed matter PP on which the hologram collected by the 140 is printed is commercialized and shipped.

Although the present invention has been fully described by way of example only with reference to the accompanying drawings, it is to be understood that the present invention is not limited thereto. It is to be understood that the scope of the invention is to be construed as being limited only by the following claims and their equivalents.

Claims (6)

An application step of applying a coating liquid to the to-be-printed object;
A close contact step of bringing the to-be-printed object and the hologram film coated with the coating liquid through the coating step between the back-rolling roller and the communication roller, which form a group;
A curing step of curing the coating solution in a state in which the hologram film and the to-be-printed object are in close contact;
A suction step of sucking heat around the hologram film and the substrate to be in close contact with each other;
A separation step of separating the hologram film from the to-be-printed object in a state in which the coating material cured by the curing step is fixed to the to-be-printed object; And
A collecting step in which the hologram film separated from the to-be-printed object by the separating step is collected by winding the first collection bobbin, and the to-be-printed material is wound by the second collection bobbin; &Lt; RTI ID = 0.0 &gt;
Hologram printing method. The method of claim 1,
The coating liquid used in the coating step is a UV coating liquid,
The curing step is characterized by consisting of a method of irradiating ultraviolet light on the surface of the hologram film in a state in which the hologram film and the substrate to be in close contact with each other.
Hologram printing method. The method of claim 2,
The curing step is at least two points characterized in that
Hologram printing method. delete The method of claim 2,
One side of the hologram film is wound around the first supply bobbin, the other side is wound around the first collection bobbin,
One side of the to-be-printed object is wound around a second supply bobbin, and the other side is wound around a second collection bobbin.
Hologram printing method. The method of claim 1,
The contact step is characterized in that made by one communication roller and two communication rollers spaced apart from each other
Hologram printing method.

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