JP2014042999A - Printing method using uv curable ink - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a printing method using UV curable ink by which a high definition printing quality of little bleeding can be obtained when a non-permeable printing object is ink-jet printed by using UV curable ink.SOLUTION: There is provided the printing method using UV curable ink, comprising: depositing UV curable ink 1 on a sheet 2 being a deposition target by coating the ink 1; then in a predetermined time period, irradiating the UV curable ink 1 with UV light thereby curing the UV curable ink 1. In the method, the UV curable ink is deposited on the sheet 2 by coating the ink while the sheet is heated. Preferably, the temperature of the sheet 2 is set to be 65°C or higher and at 80°C or lower.

Description

  The present invention relates to a printing method using a UV curable ink, and more particularly to a technique of inkjet printing using a UV curable ink for a non-permeable object.

Inkjet printing ejects ink droplets from an inkjet nozzle to an object and prints an image on the surface of the object. Therefore, it is used depending on the properties of the object (such as permeability). There is a feature that it is necessary to optimize ink properties (viscosity, addition amount of organic solvent, etc.) and printing conditions (drying temperature and drying time).
And as a technique which concerns on such an inkjet printing, the technique currently disclosed by the following patent documents 1 is disclosed and is well-known.

  In the prior art disclosed in Patent Document 1, ink-jet printing is performed using a UV curable ink that has been reduced in viscosity by adding a volatile organic solvent, and heating is performed after the ink has been applied to a print object. Thus, the organic solvent in the ink is removed (volatilized) to suppress the spread of the UV curable ink, and then the UV light is irradiated to cure the ink.

JP 2010-280828 A

However, since the conventional technology disclosed in Patent Document 1 uses a UV curable ink with a reduced viscosity, when ink jet printing is performed on a non-permeable printing object, the ink is printed. Since it diffuses immediately when it is applied to the object, there is a problem that the outline becomes unclear and the printed image becomes blurred.
That is, conventionally, when ink jet printing is performed on a non-permeable printing object, it has been difficult to obtain high-definition print quality with less blur.

  The present invention has been made in view of such a current problem, and obtains high-definition print quality with less blurring when ink-jet printing is performed on a non-permeable printing object using a UV curable ink. It is an object of the present invention to provide a printing method using a UV curable ink that can be used.

  The problem to be solved by the present invention is as described above. Next, means for solving the problem will be described.

  That is, in the first aspect, after the UV curable ink is applied to the sheet to be printed, the UV curable ink is cured by irradiating the UV curable ink with UV light within a predetermined time. In the printing method using ink, the UV curable ink is applied to the sheet while heating the sheet.

  In Claim 2, the temperature of the said sheet shall be 65 degreeC or more and 80 degrees C or less.

  In the present invention, the viscosity of the UV curable ink is 5 mPa · s or more and 100 mPa · s or less.

  As effects of the present invention, the following effects can be obtained.

In claim 1 and claim 2, by reducing the wettability of the print object, the diffusion rate of the UV curable ink can be reduced, and the spread of the UV curable ink applied to the print object can be suppressed. .
Thereby, in the case of inkjet printing using a UV curable ink with respect to a non-permeable printing object, clear print quality with little blur can be obtained.

In claim 3, by regulating the viscosity of the UV curable ink and adjusting the diffusion rate of the UV curable ink, the wettability of the print object and the surface tension of the UV curable ink are balanced, so that the print object is The spread of the applied UV curable ink can be suppressed.
Thereby, in the case of inkjet printing using a UV curable ink with respect to a non-permeable printing object, clear print quality with little blur can be obtained.

The schematic diagram which shows the coating condition of UV curable ink in the printing method using UV curable ink which concerns on one Embodiment of this invention. The schematic diagram which shows the application condition of the UV curable ink in the printing method using the conventional UV curable ink. The figure which shows the application condition of UV curable ink, (a) The figure which shows the breadth of UV curable ink in case a sheet temperature is 20 degreeC, (b) The figure which shows the breadth of UV curable ink in case a sheet temperature is 45 degreeC . The figure which shows the application condition of UV curable ink, (a) The figure which shows the breadth of UV curable ink in case a sheet temperature is 65 degreeC, (b) The figure which shows the breadth of UV curable ink in case a sheet temperature is 80 degreeC . The figure for demonstrating the influence on the printing quality by the change of sheet temperature, (a) The figure which shows the relationship between the wettability of a sheet | seat, and sheet temperature, (b) The relationship between the dot diameter of UV curable ink, and sheet temperature FIG. The figure which shows the application condition (when drawing a line) of UV curable ink, (a) The figure which shows the spread of UV curable ink in case a sheet temperature is 20 degreeC, (b) UV in the case where sheet temperature is 45 degreeC The figure which shows the breadth of curable ink, (c) The figure which shows the breadth of UV curable ink when a sheet temperature is 65 degreeC, (d) The figure which shows the breadth of UV curable ink when a sheet temperature is 80 degreeC. The figure which shows the relationship between the printing quality (line thickness) by UV curable ink, and sheet | seat temperature. The figure which shows the change of the application condition (when drawing a character) of UV curable ink by sheet | seat temperature (each case of 20 degreeC, 45 degreeC, 65 degreeC, and 80 degreeC).

Next, embodiments of the invention will be described.
First, a printing method using a UV curable ink according to an embodiment of the present invention will be described with reference to FIGS. 1 and 2.

As shown in FIG. 1, the printing method according to an embodiment of the present invention uses a UV curable ink 1 having a property of being cured by irradiating UV (ultraviolet rays), and has a non-permeable property as a printing object. This is a printing method for performing inkjet printing on a sheet 2 having the same.
In the printing method using the UV curable ink 1 according to an embodiment of the present invention, the sheet 2 is heated, and the UV curable ink 1 is applied to the heated sheet 2. Yes.
Then, after the UV curable ink 1 is applied to the heated sheet 2, the UV curable ink 1 is irradiated with UV light within a predetermined time (0.1 s in the present embodiment) and UV cured. The UV curable ink 1 is cured before the ink 1 spreads.

The UV curable ink 1 used in the printing method according to an embodiment of the present invention is a paint mainly composed of an acrylic resin, and is used by adjusting the viscosity to 5 mPa · s or more and 100 mPa · s or less. doing.
By adjusting the UV curable ink 1 to such a viscosity range, ink jet printing with the UV curable ink 1 is realized, and the diffusion speed when the UV curable ink 1 is applied to the sheet 2 is adjusted, whereby the sheet 2 It suppresses the spread when it is applied to the surface.

The sheet 2 used in the printing method according to an embodiment of the present invention is a sheet-like member having non-permeable properties, and materials such as ABS resin, polycarbonate resin, PET resin, and acrylic resin can be employed. .
When these materials are employed, when the temperature exceeds 80 ° C., curl deformation occurs in the sheet 2, and it is not suitable for inkjet printing.
For this reason, in the printing method which concerns on one Embodiment of this invention, it is set as the structure which manages the temperature of the sheet | seat 2 by making 80 degreeC into an upper limit.

For example, as shown in FIG. 2, conventionally, when inkjet printing is performed using the UV curable ink 1, the UV curable ink 1 is applied to the sheet 2 without heating the sheet 2 (that is, at room temperature). It was set as the structure made to paint.
In this case, the wettability of the sheet 2 is superior (larger) compared to the surface tension of the UV curable ink 1, and the UV curable ink 1 applied to the surface of the sheet 2 spreads immediately after application. .

On the other hand, as shown in FIG. 1, the printing method according to an embodiment of the present invention is configured to reduce the wettability of the sheet 2 by heating the sheet 2.
When the wettability of the sheet 2 is reduced, the diffusion rate of the UV curable ink 1 when applied to the sheet 2 can be reduced as compared with the conventional case.
For this reason, the spread of the UV curable ink 1 after application to the sheet 2 and before the UV curable ink 1 is irradiated with UV light (in this embodiment, the time within 0.1 s) is compared with the conventional case. Can be suppressed.

Next, the heating temperature of the sheet 2 in the printing method according to the embodiment of the present invention will be described with reference to FIGS.
FIG. 3 (a) shows an enlarged view of the printed portion of the UV curable ink 1 when ink jet printing is performed with the temperature of the sheet 2 set to 20 ° C. In addition, in the case of this 20 degreeC, it illustrates as what respond | corresponds to the state (namely, normal temperature state) which does not heat conventionally.
According to FIG. 3A, in this case, the dots expressed by the UV curable ink 1 applied to the sheet 2 are not clear and the image is blurred.
This is considered to be because the surface of the sheet 2 spreads before the UV curable ink 1 was cured.

FIG. 3B shows an enlargement of the printed portion of the UV curable ink 1 when the temperature of the sheet 2 is 45 ° C. (that is, heated) and inkjet printing is performed.
In this case, compared with FIG. 3A, the spread of the UV curable ink 1 on the surface of the sheet 2 is suppressed, the dot diameter expressed by the UV curable ink 1 is reduced, and the outline of the dots is also clear. Thus, it can be seen that the blurring of the image expressed by the UV curable ink 1 is improved as compared with the conventional case.

Further, FIG. 4 (a) shows an enlarged view of the printed portion of the UV curable ink 1 when the temperature of the sheet 2 is set to 65 ° C. (that is, heated) and ink jet printing is performed.
In this case, compared with FIG. 3B, the spread of the UV curable ink 1 on the surface of the sheet 2 is further suppressed, the dot diameter expressed by the UV curable ink 1 is further reduced, and the contour is also It turns out that it is clearer.

Furthermore, FIG. 4B shows an enlarged view of the printed portion of the UV curable ink 1 when the temperature of the sheet 2 is set to 80 ° C. (that is, heated) and ink jet printing is performed.
In this case, the dot diameter expressed by the UV curable ink 1 is almost the same as that shown in FIG.

  FIG. 5A shows the result of confirming the relationship between the temperature of the sheet 2 and the wettability of the sheet 2, and FIG. 5B shows the temperature of the sheet 2 and the sheet 2. The result of having confirmed the relationship with the dot diameter of the applied UV curable ink 1 is shown.

  According to FIG. 5 (a), the wettability of the sheet 2 decreases as the temperature of the sheet 2 increases, and the degree of decrease (slope) of wettability changes in the vicinity of about 65 ° C. It can be seen that the decrease in wettability converges around 80 ° C.

  Further, according to FIG. 5B, the dot diameter of the UV curable ink 1 on the sheet 2 becomes smaller as the temperature of the sheet 2 increases, and the phenomenon that the dot diameter is reduced in the vicinity of about 80 ° C. converges. You can see that

  That is, according to the experimental results shown in FIGS. 5A and 5B, it can be confirmed that the wettability of the sheet 2 decreases as the temperature of the sheet 2 increases, and the temperature of the sheet 2 increases. It has been found that the dot diameter expressed by the UV curable ink 1 can be reduced due to the decrease in wettability.

And judging from the actual print quality shown in FIG. 3 and FIG. 4, if the sheet 2 is heated to a temperature of 45 ° C. or higher, it is considered that the improvement of the print quality can be realized.
For this reason, when inkjet printing is performed on the sheet 2 using the UV effect ink 1, it is found that the temperature of the sheet 2 is preferably 45 ° C. or more and 80 ° C. or less, and better print quality. It can be seen that the temperature of the sheet 2 may be 65 ° C. or higher and 80 ° C. or lower in order to obtain

Next, the result of confirming the difference in spread of the UV curable ink 1 when a line is printed on the sheet 2 will be described with reference to FIGS. 6 and 7.
FIG. 6A shows an enlarged print site when the temperature of the sheet 2 is 20 ° C. (that is, at room temperature) and the UV curable ink 1 is used for inkjet printing of lines on the surface of the sheet 2. .
In this case, the line expressed by the UV curable ink 1 is not clear in outline, and there is a part with a large line width or a part with a small line width.
This is considered to be because the UV curable ink 1 spreads on the surface of the sheet 2.

FIG. 6B shows an enlargement of the print site when the temperature of the sheet 2 is 45 ° C. (that is, heated) and the line is inkjet printed on the surface of the sheet 2 with the UV curable ink 1. Yes.
In this case, although unevenness is seen in the outline of the line, compared with FIG. 6A, the spread of the UV curable ink 1 on the surface of the sheet 2 is suppressed, and the outline of the line expressed by the UV curable ink 1 is reduced. You can see that it is clear.

Further, FIG. 6C shows an enlarged print portion when the temperature of the sheet 2 is 65 ° C. (that is, heated) and lines are inkjet printed on the surface of the sheet 2.
In this case, compared with FIG. 6B, the spread of the UV curable ink 1 on the surface of the sheet 2 is further suppressed, and the contour of the line expressed by the UV curable ink 1 is further clarified. It can be seen that the unevenness in the area is also reduced.

Further, FIG. 6D shows an enlarged print site when the temperature of the sheet 2 is set to 80 ° C. (that is, heated) and lines are inkjet printed on the surface of the sheet 2.
In this case, the print quality of the line expressed by the UV curable ink 1 is almost the same as that shown in FIG.

FIG. 7 shows the result of confirming the maximum value and the minimum value of the thickness (line thickness) of the line when the line is inkjet printed on the surface of the sheet 2 with the UV curable ink 1.
According to FIG. 7, it can be seen that the maximum value of the line thickness decreases as the temperature of the sheet 2 increases, and when the temperature of the sheet 2 reaches approximately 65 ° C., the decrease in the maximum value of the line thickness converges.
Further, according to FIG. 7, it can be seen that the minimum value of the line thickness decreases as the temperature of the sheet 2 increases, and the decrease in the minimum value of the line thickness converges when the temperature of the sheet 2 reaches approximately 45 ° C. .
Furthermore, the variation in the line thickness (the difference between the maximum value and the minimum value of the line thickness) decreases with increasing temperature, and when the temperature of the sheet 2 reaches approximately 65 ° C., the variation in the line thickness decreases. Can be seen to converge.

Next, the result of confirming the difference in spread of the UV curable ink 1 when characters are printed on the sheet 2 will be described with reference to FIG.
In FIG. 8, the temperature of the sheet 2 is set to 20 ° C., 45 ° C., 65 ° C., and 80 ° C., and the print site when characters are inkjet printed with the UV curable ink 1 is shown enlarged.
In this case, it can be seen that the characters expressed by the UV curable ink 1 can be clearly recognized if the temperature of the sheet 2 is 45 ° C. or higher.
Moreover, according to FIG. 8, when the temperature of the sheet | seat 2 shall be 65 degreeC or more, it turns out that the character expressed with the UV curable ink 1 becomes clearer (a blur does not appear in an outline).

That is, based on the results of the experiments and the print quality confirmation results shown in FIGS. 3 to 8, when performing inkjet printing using the UV curable ink 1 on the sheet 2 which is a non-permeable printing object, the sheet 2 is It has been found that good print quality with less blurring can be obtained by heating.
In addition, when inkjet printing is performed on the sheet 2 using the UV curable ink 1, it can be seen that if the temperature of the sheet 2 is set higher than room temperature (that is, if heated), the printing quality can be improved. It has been found that the temperature of the sheet 2 is preferably 65 ° C. or higher and 80 ° C. or lower, and this makes it possible to obtain higher definition print quality.

For this reason, in the printing method using the UV curable ink 1 according to an embodiment of the present invention, the sheet 2 is heated when inkjet printing is performed using the UV curable ink 1 on the sheet 2 that is a non-permeable printing object. It is configured to do.
In the printing method using the UV curable ink 1 according to the embodiment of the present invention, the temperature of the sheet 2 is set to 65 ° C. or more and 80 ° C. or less before performing inkjet printing on the sheet 2. The sheet 2 in a heated state is subjected to inkjet printing with the UV curable ink 1.

That is, in the printing method using the UV curable ink 1 according to an embodiment of the present invention, after the UV curable ink 1 is applied to the sheet 2 that is a printing object, the printing method is performed within a predetermined time (in this embodiment, 0 .1 s) is a printing method in which the UV curable ink 1 is irradiated with UV light to cure the UV curable ink 1, and the UV curable ink 1 is applied to the sheet 2 while the sheet 2 is heated. is there.
In the printing method using the UV curable ink 1 according to an embodiment of the present invention, the temperature of the sheet 2 is set to 65 ° C. or more and 80 ° C. or less.
With such a configuration, it is possible to reduce the wettability of the sheet 2 as a printing object, to reduce the diffusion rate of the UV curable ink 1, and to suppress the spread of the UV curable ink 1 applied to the sheet 2.
Thereby, in the case of inkjet printing using the UV curable ink 1 on a non-permeable printing object (sheet 2 in the present embodiment), clear print quality with less blur can be obtained.

In the printing method using the UV curable ink 1 according to an embodiment of the present invention, the viscosity of the UV curable ink 1 is 5 mPa · s or more and 100 mPa · s or less.
In this way, by regulating the viscosity of the UV curable ink 1 and adjusting the diffusion speed of the UV curable ink 1, the balance between the wettability of the sheet 2 as a printing object and the surface tension of the UV curable ink 1 is achieved. 2 can be prevented from spreading.
Thereby, in the case of inkjet printing using the UV curable ink 1 on a non-permeable printing object (sheet 2 in the present embodiment), clear print quality with less blur can be obtained.

In addition, the printing method using the UV curable ink 1 according to an embodiment of the present invention can be configured not only to heat the entire sheet 2 but also to partially heat the sheet 2.
For example, in a portion where characters, marks, or the like for which an outline is to be clearly expressed is printed, the sheet 2 is heated and printed, and in a portion where a contour, such as a gradation pattern, is desired to be expressed ambiguously, the sheet 2 is heated. Printing can be performed without any adjustment, and printing can be performed under optimum conditions in accordance with the properties of the image by arbitrarily adjusting the heating part and the heating temperature.

In addition, as a method of reducing the diffusion rate of the UV curable ink 1 on the surface of the sheet 2, a method of reducing the wettability of the sheet 2, a method of increasing the surface tension of the UV curable ink 1, a method of combining these, and the like. Can be considered.
For example, as a method of reducing the wettability of the sheet 2, in addition to the method of heating the sheet 2 employed in the present embodiment, for example, a method of applying a water repellent (fluorine, silicon, etc.) to the surface of the sheet There is.

  In this embodiment, the time from when the UV curable ink 1 is applied to the sheet 2 until the UV light is irradiated is set to 0.1 s or less. For example, the time can be further shortened. The effect of suppressing the spread of the UV curable ink 1 applied to the sheet 2 can be obtained.

1 UV curable ink 2 Sheet

Claims (3)

This is a printing method using a UV curable ink in which a UV curable ink is applied to a sheet to be printed and then irradiated with UV light within a predetermined time to cure the UV curable ink. And
While heating the sheet,
Applying the UV curable ink to the sheet;
A printing method using a UV curable ink. The temperature of the sheet,
65 ° C or higher and 80 ° C or lower,
A printing method using the UV curable ink according to claim 1. The viscosity of the UV curable ink,
5 mPa · s or more and 100 mPa · s or less,
A printing method using the UV curable ink according to claim 1 or 2.

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