JP2685224B2 - Registration method and device in printing - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial field of application) The present invention detects a register mark printed with transparent ink added with an ultraviolet absorbing substance or an infrared absorbing substance,
The present invention relates to a method and an apparatus for registering patterns by controlling the distance between register marks.

(Prior Art) As a conventional technology, for example, a registration method in printing using a transparent ink described in JP-A-57-93154 is known. This method detects the register mark by emitting fluorescence from the transparent ink by irradiating the register mark part printed with a transparent ink containing a trace amount of optical brightener with ultraviolet light, and printing with another plate. The design is registered by comparing the position of the registered register mark.

(Problems to be Solved by the Invention) The above-mentioned conventional technique is a method of detecting by emitting ultraviolet light by irradiating a fluorescent light-emitting body with ultraviolet light, and the wavelength of the fluorescent light is within the visible light region. Therefore, when detecting the fluorescence emission with a light receiving element or a camera, there is a problem that it is easily affected by ambient light. In order to avoid the influence of this ambient light, it is necessary to store the detection device and the object to be detected in the light shielding box, and to provide the light source with a filter or the like for removing visible light components, which makes the device complicated and expensive. There is a drawback that becomes. Also, instead of removing the ambient light, it is possible to reduce the influence of ambient light to some extent by providing a filter on the light-receiving element side or devising a circuit side, but in this case, even weak fluorescent light emission is further reduced. Since there is no choice but to weaken the detection, there is a drawback that the whole apparatus becomes complicated and expensive.

The present invention has been made under the circumstances as described above, and an object of the present invention is to provide a registration method and apparatus for printing that can reliably perform registration by a simple method.

(Structure of the Invention) (Means for Solving the Problems) The present invention relates to a registration method in printing, and the above object of the present invention is to provide the transparent ink in registration in printing using at least one plate of transparent ink. UV absorbing substance or infrared absorbing substance is added to the UV absorbing substance, and the register mark printed with this ultraviolet absorbing transparent ink or infrared absorbing transparent ink is irradiated with ultraviolet ray or infrared ray, and the ultraviolet absorbing substance or infrared absorbing substance absorbs ultraviolet ray or infrared ray. By detecting the register mark by detecting the change in the amount of ultraviolet rays or infrared rays due to the, by registering the pattern by comparing the register mark with the register mark printed by another plate To be achieved. Further, the device for the purpose of the present invention is an ultraviolet ray source or an infrared ray source for irradiating an ultraviolet ray or an infrared ray to a register mark printed with a transparent ink to which an ultraviolet ray absorbing substance or an infrared ray absorbing substance is added, and the ultraviolet ray for the register mark. Detects a register mark printed with transparent ink, which includes a photoelectric conversion unit that detects a change in the amount of ultraviolet rays or infrared rays due to absorption of infrared rays and a signal amplification unit that amplifies a detection signal from the photoelectric conversion unit. By providing first detecting means; second detecting means for detecting another register mark; control means for comparing the output signals from the first and second detecting means for registering. To be achieved.

(Operation) The present invention does not detect the emission of fluorescence of visible light, but detects the change in the amount of ultraviolet rays or infrared rays absorbed by the ultraviolet absorbing material or the infrared absorbing material containing the fluorescent light-emitting substance, and It is possible to detect register marks printed with transparent ink with a simple device that is completely unaffected by light.

FIG. 1 is a diagram showing the basic principle of the present invention with respect to ultraviolet rays. It has a light source 20 for emitting ultraviolet rays, and an ultraviolet sensor 21 as a light receiving element having a peak sensitivity in the ultraviolet region. A register mark 22 printed with a transparent ink containing an ultraviolet absorber is layered on the printed matter 23. When the register mark 22 is not present in the field of view, the ultraviolet sensor 21 reacts with the ultraviolet light 20B emitted from the light source 20 and reflected from the printing medium 23 with a constant reflectance, and converts it into a current. However, when the register mark 22 enters the field of view of the ultraviolet sensor 21, the ultraviolet light 20A emitted from the light source 20 is absorbed by the register mark 22, and the ratio of the reflected ultraviolet light 20B decreases. However, since the output current of the ultraviolet sensor 21 is almost proportional to the light amount of the reflected light 20B, the register mark 22 can be detected based on the difference between the output currents.

FIG. 2 shows how the output current I of the ultraviolet sensor 21 changes with time, and the level is I ₁ when the register mark 22 is not in the visual field. And the sensor 21
When the registration mark 22 enters the field of view, the ultraviolet ray 20A receives the registration mark 2
2 is absorbed by the fluorescent agent contained in 2 and the output current I of the sensor 21
Is reduced to level I ₂ . By amplifying the difference between the output currents I ₁ and I ₂ with a subsequent amplifier circuit, the registration mark 22
The presence or absence of can be easily detected.

In addition, when the printed material 23 is a transparent material such as a transfer film, the ultraviolet light source 30 is the printed material 33 as shown in FIG.
Alternatively, it may be provided in the direction opposite to the ultraviolet sensor 32. In this case, the register mark 31 can be detected by detecting the difference in the amount of light between the ultraviolet light that passes through the printed portion 33 and the ultraviolet light that passes through the register mark 31 containing the ultraviolet absorber.

Since the ultraviolet sensors 21 and 32 respond only to ultraviolet rays, they are not affected by ambient visible light such as natural light or fluorescent light.
The register mark can be detected stably. In addition, as the wavelength of ultraviolet rays, 260 to 380 nm is suitable.

(Embodiment) FIG. 4 is a view showing an embodiment of the present invention, in which a register mark 2 printed with a transparent ink containing an ultraviolet absorber and a transparent film 8 conveyed in the direction of the arrow shown in FIG. The register mark (color mark) 1 printed with normal ink is 20
Lined up at mm intervals. In this example, a urethane fluorescent agent was added to the transparent ink as a UV absorber at a weight ratio of 0.1%. The ultraviolet light receiving portion 12 and the visible light receiving portion 11 are also arranged in parallel at an interval of 20 mm. The ultraviolet rays emitted from the light projecting section 10 of the light projecting means 6 pass through the film 8 at a constant transmittance to reach the light receiving section 12, and the light receiving element 5
Then, the light amount is detected, and the light is output as a detection signal to the outside through the signal amplification circuit 3.

When the register mark 2 now passes between the light projecting section 10 and the light receiving section 12, ultraviolet rays are absorbed by the register mark 2 at a constant rate, and the output of the light receiving element 5 is as shown in FIG. 5 (A). become. That is, in FIG. 5 (A), I ₁ is the output of the light receiving element 5, the pulse a indicates the voltage drop caused by the ultraviolet rays being blocked by the register mark 1, and the pulse b is the ultraviolet rays absorbed by the register mark 2. It shows a decrease in the output voltage caused by the operation. In FIG. 5B, a ′ is the output voltage of the register mark 1 detected by the color mark sensor 4. Since the distance between the light receiving portions 11 and 12 is 20 mm here, if the distance between the register marks 1 and 2 is exactly 20 mm, the rise of the voltage of the pulse b and the pulse a'in FIGS. 5 (A) and (B). Both falling edges are on dashed line c. However, when the distance between the register marks 1 and 2 is not 20 mm, neither the falling edge of the pulse b nor the falling edge of the pulse a ′ is on the broken line c, so that both falling edges are on the broken line c. By controlling the position operation and the like of the compensator roller 13 by 7, it is possible to easily register the pattern between the plate printed with the transparent ink and the plate printed with the normal ink.

In the present invention, examples of the ultraviolet absorbing substance include inorganic substance fluorescent substances such as zinc sulfide, zinc silicate, zinc cadmium sulfide, calcium sulfide, calcium tungstate, stilpen-based substances such as diaminostilbenzyl sulfonic acid, diaminodiphenyl-based substances, imidazole. -Based, thiazole-based, coumarin-based, naphthalimide-based organic fluorescent substances, 2- (3 ', 5'-analkyl-2'
-Hydroxyphenyl) benzotriazole, 2- (2 '
-Hydroxy-3 ', 5'-ditertiarybutylphenyl) -5-chlorobenzotriazole and other benzotriazole-based 2.2'-dihydroxy-4-methoxybenzophenone, 2-hydroxy-4-n-octoxybenzophenone- and other benzophenone-based , Phenyl salicylate, salicylic acid such as 4-1-butyl-phenyl salicylate, [2,2'-thiobis (4-t-octylphenosheet)]-2 ethylhexylamine nickel (II)
A nickel complex salt system such as is used.

In the above example, transparent ink contains ultraviolet absorber, paper,
Although this is a method of detecting the register mark by utilizing the difference between the reflectance and the transmittance of ultraviolet rays of a film or the like, the same effect can be obtained by using infrared rays. That is, a substance that easily absorbs infrared rays is included in the transparent ink, and the infrared rays are radiated to the register mark portion of the paper, film, etc. printed with this transparent ink, and the amount of infrared rays absorbed by this infrared absorber is detected. Thereby, it is possible to register the pattern printed with the transparent ink as described above.

Infrared absorbers include anthraquinone-based, polymethine-based, cyanine-based, and diimonium-based compounds, and Nippon Kayaku Co., Ltd. has the type “IR-750, IRG-002, IRG-023, CY-
2, CY-9 ", etc. Also, the type" CYASORB IR-99, CYASORB IR-165 "and the like are commercially available from Sinamide Company of the United States.

EFFECTS OF THE INVENTION According to the present invention, since the register mark printed with the transparent ink can be detected without the influence of the disturbance visible light,
There is an advantage that the registration of the print containing the transparent ink can be automatically, accurately and easily performed. For this reason, it is possible to improve the quality by freeing the operator from the registration work of printing using the transparent ink, which has hitherto relied on manpower. In addition, since a great number of types of ultraviolet absorbers and infrared absorbers are commercially available, there is an advantage that the types that do not affect the quality can be appropriately selected.

[Brief description of the drawings]

FIG. 1 is a diagram for explaining the principle of the present invention, FIG. 2 is a diagram showing the relationship between time and the output current of a light receiving element, and FIG. 3 is a diagram showing a modification of the principle of FIG. FIG. 4 is a diagram showing an embodiment of the present invention, and FIGS. 5 (A) and 5 (B) are diagrams showing the relationship between the output current (voltage) of the light receiving element and time. 1,2,22,31 …… Registration mark, 3 …… Signal amplification circuit, 5 ・ ・ ・
... Light receiving element, 6 ... Projecting means, 7 ... Control section, 11, 12 ...
… Light receiving part, 13 …… Compensator roller, 21,32 …… UV sensor.

Claims (4)

(57) [Claims] 1. At least one plate is used for registering in printing with a transparent ink, by adding an ultraviolet absorbing substance to the transparent ink, and irradiating the register mark printed with this ultraviolet absorbing transparent ink with ultraviolet rays to absorb the ultraviolet rays. The register mark is detected by detecting the change in the amount of ultraviolet rays due to the absorption of ultraviolet rays by the substance, and the register of the pattern is registered by comparing the position of the register mark with the register mark printed by another plate. A registration method for printing, characterized in that 2. An ultraviolet source for irradiating an ultraviolet ray to a register mark printed with a transparent ink containing an ultraviolet absorbing substance,
Detects a register mark printed with transparent ink, which includes a photoelectric conversion unit that detects a change in the amount of ultraviolet light due to absorption of ultraviolet light in the register mark, and a signal amplification unit that amplifies a detection signal from the photoelectric converter. A first detecting means for detecting the other register mark; a second detecting means for detecting another register mark; and a control means for comparing the output signals from the first and second detecting means for registering. A registration device for printing. 3. At least one plate is used for registering in printing with a transparent ink, an infrared absorbing substance is added to the transparent ink, and the register mark printed with this infrared absorbing transparent ink is irradiated with infrared rays to absorb the infrared rays. The register mark is detected by detecting the change in the amount of infrared rays due to the absorption of infrared rays by the substance, and the pattern is registered by comparing the register mark with the register mark printed by another plate. A registering method in printing characterized by the above. 4. An infrared source for irradiating a register mark printed with a transparent ink containing an infrared absorbing material with infrared rays.
Detects a register mark printed with transparent ink, which includes a photoelectric conversion unit that detects a change in the amount of infrared rays due to absorption of infrared rays by the register mark, and a signal amplification unit that amplifies a detection signal from the photoelectric conversion unit. A first detecting means for detecting the other register mark; a second detecting means for detecting another register mark; and a control means for comparing the output signals from the first and second detecting means for registering. A registration device for printing.