JP3486275B2 - Paper having watermark pattern and method for forming watermark pattern - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a paper having a watermark pattern and a method for forming the watermark pattern,
More specifically, a method of forming a watermark pattern by using a laser beam that facilitates a method of forming a watermark pattern by partially thinning the thickness of the base material on the paper surface as seen in the conventional pressing method. The present invention relates to a method and a sheet obtained by the method.

[0002]

2. Description of the Related Art Conventionally, other than the method of watermarking the paper surface at the papermaking stage, the paper surface is pressed with a pressure roll to partially change the thickness of the base material, and the transparent ink is printed on the paper surface. There is a method of partially changing the transparency of the substrate, but the present invention focuses on the former method. That is, in the pressing method using a conventional pressure roll, a protrusion of a watermark pattern such as predetermined characters or figures is formed on the outer peripheral surface of the pressure roll, and the thickness of the paper is pressed by the protrusion to reduce the thickness. , Was to form a watermark pattern.

[0003]

However, in the pressing type using a pressure roll, the "mold roll" must be replaced every time the watermark pattern is changed, and it is very difficult to make various mold rolls. However, there was a problem with economic efficiency. Further, it takes time and skill to adjust the roll gap and the parallel balance during the roll replacement work.

To solve this problem, for example, in Japanese Unexamined Patent Publication No. 4-185800, a sheet is passed between a rotating grindstone and a replaceable pressure pattern element attached to the outer peripheral surface of a rotating roll, A technique has been disclosed in which a mechanical frictional force is applied in the paper thickness direction of the paper, the base material surface is scraped off in the desired thickness direction by the frictional force, and a watermark is applied to the paper surface. However, even with this method, although the manufacturing cost was reduced and the pattern change of the watermark pattern was easier than the conventional method, the replacement of the pressure pattern element still required some time and skill of the operator. there were. Therefore, the present invention provides a technique for easily forming a watermark pattern by partially changing the thickness of the base material by a non-impact method without performing mechanical pressing as in the conventional pressure roll. This is an issue.

[0005]

In order to solve such a problem, the present invention provides a near-infrared absorber which selectively absorbs a predetermined wavelength in the near-infrared region and generates heat in a predetermined portion of a paper surface. With a near-infrared absorbing member made of a binder component, a watermark pattern planned portion is printed so as to embody a watermark pattern made of desired characters, figures, etc., and the paper surface is further irradiated with laser light having the predetermined wavelength. The watermark pattern is formed by instantly burning the near-infrared absorbing member and the paper base material in that portion with a predetermined thickness left, and removing the base material at a predetermined depth in the thickness direction of the paper. A paper having a watermark pattern is provided.

Further, the present invention has a near-infrared absorbing member comprising a binder component and a near-infrared absorbing agent which selectively absorbs a predetermined wavelength in the near-infrared region to generate heat in a predetermined portion of the paper surface, and a desired character is obtained. , A watermark pattern planned portion is printed so as to embody a watermark pattern composed of figures, and the surface of the paper is irradiated with laser light having the predetermined wavelength, and the near-infrared absorbing member and the paper base material of that portion are predetermined. The method for forming a watermark pattern is characterized in that the watermark pattern is formed by instantaneously burning with the remaining thickness to remove the base material at a predetermined depth in the thickness direction of the paper.

[0007]

According to the watermark pattern forming method of the present invention, a watermark pattern is planned so that the near-infrared absorbing member that selectively absorbs a predetermined wavelength in the near infrared region to generate heat in a predetermined portion of the paper surface realizes the watermark pattern. By printing a portion, by irradiating the surface of the paper with a laser beam having the predetermined wavelength, the near-infrared absorbing member and the paper base material in that portion are instantly burned leaving a predetermined thickness, and The base material is removed at a predetermined depth in the thickness direction to form a watermark pattern.

[0008]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The watermark pattern forming method of the present invention will be described in more detail below with reference to the preferred embodiments and the accompanying drawings. In addition,
Here, FIG. 1 is a schematic explanatory view of the watermark pattern creating method of the present invention, and FIG. 2 is based on a cross-sectional view of the continuous paper of FIG.
It is a supplementary explanatory view of the watermark pattern creating method of the present invention.

The near infrared ray absorbent used in the present invention has a function of 0.8 to 3 μm in order to efficiently realize a heat generating effect.
What absorbs the wavelength of is used most preferably. For example, myanine dye, thionyl nickel complex, bis-
A metal complex such as [Miss 1,2 toluyl] ethylene-1,2 dithiolate nickel, bis- [1chloro-3,4 dithiolate] nickel tetrabutylammonium can be preferably used. Research Institute NK-125 (749 nm), NK-747 (778n)
m), NK-104 (794 nm), NK-427 (8
03 nm), NK-123 (811 nm), NK-11
44 (815 nm), NK-1748 (859 nm),
NK-1161 (929 nm), near infrared absorber PA-1005 (850n manufactured by Mitsui Toatsu Fine Co., Ltd.)
m), PA-1003 (880 nm), PA-1006
(870 nm) PA-1002 (895 nm), PA-
1001 (1100 nm) can be used, and 830
Squarium dyes such as diethylaminonaphthol squarylium and dimethylaminonaphthol squarylium having a maximum absorption wavelength in nm can also be used. Furthermore, polymethine dyes, (di) immonium dyes, phthalocyanine dyes, triallylmethane dyes, naphthoquinone dyes and the like can be preferably used.

As the binder component for fixing the near-infrared absorber on the paper surface, various overprint varnishes of oxidation polymerization drying type, ultraviolet curing type and solvent type are most preferably used. Aqueous binders such as Then, the near-infrared absorbing member thus obtained is printed on the continuous paper surface by a normal printing means and printing method to form a near-infrared absorbing portion.

As shown in FIGS. 1 and 2, the watermark pattern forming method of the present embodiment is a near-infrared absorbing agent that selectively absorbs a predetermined wavelength in the near-infrared region on the surface of continuous paper to generate heat. With the near-infrared absorbing member 2 composed of a binder component and a binder component, the watermark pattern "BB" scheduled portion 3 is formed by coating.

In this embodiment, the laser light source LS irradiates the laser light having the predetermined wavelength, passes through the optical path changing mirror M, and passes through the concave cylindrical lens L1 whose one surface side is a concave cylindrical shape. The laser light is diffused in the width direction of the continuous paper 1, and the focus is adjusted via a rod-shaped convex cylindrical lens L2 whose one side is a convex cylinder, while the laser light is applied to the surface of the near infrared ray absorbing section 2. And the near-infrared absorbing part 2 and the base material of the paper 1 are instantly burned leaving a predetermined thickness to form a watermark pattern “BB” 4. At this time, if the paper flaps, the focus Since the distance is displaced, the continuous paper 1 is irradiated with laser while being sucked by the suction roll R.

Lasers having a wavelength in the near-infrared region of 0.8 to 3 μm for efficiently realizing the heat generating effect in the present invention include semiconductor lasers, helium / neon lasers, iodine lasers, and YAG / glass lasers. In particular, some semiconductor lasers have an emission wavelength in the range of 700 to 1500 nm, and since the irradiation device itself is compactly configured, it can be suitably used in practical use. The output adjustment is the most important for determining the thickness of the paper base material in the portion where the watermark pattern is formed, and is appropriately adjusted according to the predetermined thickness.

The laser irradiation from the laser light source LS may be performed continuously by adjusting the output of the laser light source so long as it does not affect the printing performed on the paper surface. In this embodiment, the timing mark T for notifying the watermark pattern formation position on the paper surface
Is printed, the optical sensor D for sensing and detecting the timing mark T is used to connect it to the control unit C, and the control unit C receiving the detection signal from the optical sensor D irradiates the laser light source LS. An instruction signal is sent and laser light is emitted intermittently at a required timing.

[0015]

According to the watermark pattern forming method of the present invention,
By printing a near-infrared absorbing member that selectively absorbs a predetermined wavelength in the near-infrared region and generates heat on a predetermined portion of the paper surface so as to embody the watermark pattern, the above-mentioned watermark pattern is printed on the paper surface. When a laser beam having a predetermined wavelength is irradiated, the near-infrared absorbing member and the paper base material in that portion are instantly burned leaving a predetermined thickness, and the base material has a predetermined depth in the thickness direction of the paper. Is removed, and the watermark pattern can be easily formed.

[Brief description of drawings]

FIG. 1 is a schematic explanatory diagram of a watermark pattern forming method of the present invention.

FIG. 2 is a supplementary explanatory view of the watermark pattern forming method of the present invention based on the cross-sectional view of the continuous paper in FIG.

[Explanation of symbols]

1 continuous paper 2 Near infrared absorbing material 3 Watermark pattern "BB" Scheduled section 4 Watermark pattern "BB" LS laser light source L1 concave cylindrical lens L2 convex cylindrical lens M optical path changing mirror R suction roll T timing mark C control unit D Optical sensor

Continuation of front page (51) Int.Cl. ⁷ Identification code FI D21H 25/04 D21H 25/04 (56) References JP-A-4-281096 (JP, A) JP-A-4-333699 (JP, A) JP-A-7-268797 (JP, A) JP-A-58-16669 (JP, A) JP-A-1-111100 (JP, A) (58) Fields investigated (Int.Cl. ⁷ , DB name) D21H 11/00-27/42 B23K 26/00-26/18 B41M 3/00-3/18 B41M 7/00-7/02

Claims (2)

(57) [Claims] 1. A near-infrared absorbing member composed of a near-infrared absorbing agent which selectively absorbs a predetermined wavelength in the near-infrared region and generates heat at a predetermined portion of the paper surface, and a near-infrared absorbing member, from desired characters, figures, etc. A predetermined watermark pattern portion is printed so as to embody a watermark pattern, and the paper surface is irradiated with laser light having the predetermined wavelength, and the near-infrared absorbing member and the paper base material in that portion have a predetermined thickness. A paper having a watermark pattern in which the watermark pattern is formed by instantaneously burning the remaining material and removing the base material at a predetermined depth in the thickness direction of the paper. 2. A near-infrared absorbing member composed of a near-infrared absorbing agent which selectively absorbs a predetermined wavelength in the near-infrared region and generates heat, and a near-infrared absorbing member on a predetermined portion of a paper surface, and a desired character, a figure, etc. A predetermined watermark pattern portion is printed so as to embody a watermark pattern, and the paper surface is irradiated with laser light having the predetermined wavelength, and the near-infrared absorbing member and the paper base material in that portion have a predetermined thickness. A method for forming a watermark pattern, characterized in that the watermark pattern is formed by instantaneously burning the remaining material and removing the base material at a predetermined depth in the thickness direction of the paper.