JP2006088466A - Liquid confirming film and discharging state confirming method with the same and inkjet recording device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a liquid confirming film excellent in simplicity, economical efficiency and general purpose properties. <P>SOLUTION: In the liquid confirming film, onto the surface of which a colorless or light-colored liquid adheres for confirmation, the density difference between a part, to which the colorless or light-colored liquid has adhered, and a part, to which neither colorless nor light-colored liquid has adhered is set to be at least 0.02 and, at the same time, color difference ΔE in L<SP>*</SP>a<SP>*</SP>b<SP>*</SP>color space is set to be not more than 10.0. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a liquid confirmation film used for confirming the presence of a colorless or light-colored liquid used for ink jet recording and the like, and a discharge state confirmation method and an ink jet recording apparatus using the same.

In conventional ink jet printers, printing is performed on a recording medium to detect nozzle ejection failure, and the pattern is confirmed by a person. However, the colorless or light-colored liquid (treatment liquid) used for improving the fixing property of the ink cannot be confirmed with the naked eye even when printed on paper, and the ejection failure cannot be confirmed.
As a method for detecting such discharge failure of a colorless or light-colored liquid, a method of printing a colorless or light-colored liquid on a recording medium having a color reaction (see Patent Document 1), or a recording medium provided with a colorless or light-colored liquid For example, a method of applying a liquid that causes a color reaction with a marker or the like (see Patent Document 2) has been proposed. These methods use a color reaction to visualize a colorless or light-colored liquid that cannot be observed with the naked eye to the recognition level with the naked eye (hereinafter referred to as “colored visualization method”).
Further, a method of mechanically reading a colorless or light-colored liquid applied to a recording medium without using such visualization without using visualization as described above (hereinafter referred to as “non-visual”). Has also been proposed (referred to as Patent Document 3).
JP 2000-168106 A JP 2003-326828 A JP 2003-159783 A

However, in the coloring visualization method, a special material (coloring reaction agent) used for the color reaction is required, and the safety of the material may be a problem. Moreover, since it is necessary to select a coloring reaction agent according to the component contained in a colorless or light-colored liquid, if the composition of the colorless or light-colored liquid used as a detection target differs, it cannot use and it is inferior in versatility. Furthermore, the recording medium used for checking ejection failure cannot be reused because the surface is colored, which is uneconomical. The non-visual machine reading method requires a dedicated reading device. For this reason, when such an exclusive reading device is provided in the ink jet recording apparatus, the size of the apparatus is increased and the cost is increased. As described above, the conventional methods have problems in terms of simplicity, economy, and versatility.
An object of the present invention is to solve the above problems. That is, an object of the present invention is to provide a liquid confirmation film excellent in convenience, economy, and versatility, and a discharge state confirmation method and an ink jet recording apparatus using the film.

The above-mentioned subject is achieved by the following present invention. That is, the present invention
<1>
In a liquid confirmation film used for confirming a colorless or light-colored liquid attached to the surface,
The density difference between the colorless or light color liquid adhering portion and the colorless or light color liquid non-adhering portion when a colorless or light color liquid is adhered to the surface is 0.02 or more, and L ^* a ^* b ^* The liquid confirmation film is characterized in that ΔE in the color system is 10.0 or less.

<2>
<1> The liquid confirmation according to <1>, wherein the surface opposite to the surface on which the colorless or light-colored liquid is attached (liquid application surface) is smooth and the light transmittance is 99% or less. Film.

<3>
The liquid confirmation film according to <1>, wherein a liquid absorption rate of a surface (liquid application surface) on which the colorless or light-colored liquid is attached is in a range of 0 to 95%.

<4>
<2> The liquid confirmation film according to <1>, wherein the colorless or light-colored liquid is a colorless or light-colored liquid used for inkjet recording.

<5>
In an ejection state confirmation method for confirming the ejection state of the colorless or light color liquid ejected from the recording head by attaching a colorless or light color liquid for inkjet recording ejected from the recording head to the surface of the liquid confirmation film. ,
When the colorless or light-colored liquid is adhered to the liquid confirmation film surface, the concentration difference between the colorless or light-colored liquid adhering part and the colorless or light-colored liquid non-adhering part is 0.02 or more, and In addition, there is provided a discharge state confirmation method using a liquid confirmation film having ΔE in the L ^* a ^* b ^* color system of 10.0 or less.

<6>
<5> The discharge state confirmation method according to <5>, wherein the discharge state is detected with the naked eye.

<7>
<5> The discharge state confirmation method according to <5>, wherein the discharge state is detected using an optical means.

<8>
In an ink jet recording apparatus comprising a recording head for performing image recording by discharging two or more types of liquid onto the surface of a recording medium, wherein at least one of the two or more types of liquid is a colorless or light-colored liquid.
When discharging the colorless or light-colored liquid from the recording head, the colorless or light-colored liquid adhering portion and the colorless or light-colored liquid non-adhered when the colorless or light-colored liquid is adhered to the surface as the recording medium An ink jet recording apparatus using a liquid confirmation film having a density difference from a part of 0.02 or more and ΔE in an L ^* a ^* b ^* color system of 10.0 or less.

  As described above, according to the present invention, it is possible to provide a liquid confirmation film excellent in simplicity, economy, and versatility, and a discharge state confirmation method and an ink jet recording apparatus using the film.

(Liquid confirmation film)
The liquid confirmation film of the present invention is a liquid confirmation film used for confirming a colorless or light-colored liquid on the surface thereof, and the colorless or light-colored liquid when the colorless or light-colored liquid is adhered to the surface. A difference in density between the adhering portion and the non-adhering portion of the colorless or light-colored liquid is 0.02 or more, and ΔE in the L ^* a ^* b ^* color system is 10.0 or less.
By such a difference in density, it is possible to easily confirm the adhesion state of a colorless or light-colored liquid that is difficult to visually recognize with the naked eye. As one of the preferable embodiments in which the difference in density is 0.02 or more, one side of the film is smooth, and the other side (liquid application surface) for making colorless or light liquid is roughened with sandpaper or the like, and the surface is uneven. There is a way to have. When colorless or light-colored liquid adheres to the uneven surface of such a film, the light of the portion where the colorless or light-colored liquid adheres (liquid adhesion portion) and the portion where the colorless or light-colored liquid does not adhere (liquid non-adhesion portion) A difference occurs in the scattering state. That is, when a colorless or light-colored liquid adheres to the liquid application surface that originally has unevenness, the surface of the liquid adhering portion becomes smoother than the surface of the liquid non-adhering portion.

In addition, when the material constituting the liquid confirmation film is made of a transparent material, there is a difference in light transmittance as a result. Therefore, if the surface opposite to the liquid application surface is smooth, this transmission is possible. The difference in rate can also be used to distinguish between a colorless or light color liquid adhering part and a colorless or light color liquid non-adhering part. In this case, for example, it can be confirmed from the surface opposite to the liquid application surface (non-liquid application surface) side, but in terms of easier confirmation, the liquid confirmation film is provided with the liquid application surface on the upper side and the reflection density. It is more preferable to install on a low sheet (for example, black paper) and check from the liquid application surface side.
For this reason, when using the liquid confirmation film of the present invention to confirm the presence or absence of a colorless or light-colored liquid (the presence or absence, the area or shape of the attached colorless or light-colored liquid, the attachment position on the liquid confirmation film, etc.) Since it is not necessary to use a color reaction or to use a dedicated reflectance measuring apparatus as in the prior art, it is excellent in simplicity, economy, and versatility.
For the above reasons, the light transmittance of the liquid confirmation film of the present invention is preferably 99% or less, and more preferably 90% or less. Here, the light transmittance of the film represents the ratio of scattered light to the total transmitted light, and was measured using a fully automatic haze meter TC-H III DP type (manufactured by Tokyo Denshoku Co., Ltd.).

  In the present invention, without using a color reaction, the density difference between the colorless or light-colored liquid adhering part and the colorless or light-colored liquid non-adhering part is 0.02 or more. Can be confirmed. The density difference is preferably 0.03 or more, more preferably 0.05 or more, further preferably 0.25 or more, and the larger the better. When the density difference is less than 0.02, it is difficult to confirm even the presence or absence of a colorless or light-colored liquid with the naked eye.

In the present invention, since ΔE in the L ^* a ^* b ^* color system is 10.0 or less between the colorless or light-colored liquid adhering portion and the colorless or light-colored liquid non-adhering portion, Difficult to distinguish color differences with the naked eye. In the present invention, since the color reaction is not used, the colorless or light-colored liquid adhering portion does not change color, and ΔE is 10.0 or less. ΔE is more preferably 6.5 or less, and further preferably 1.5 or less.
In the present invention, ΔE means a value represented by the following formula (1).

Here, in formula (1), L ₁ ^* , a ₁ ^* , b ₁ ^* represent the values of L ^* , a ^* , b ^* of the colorless or light-colored liquid adhering portion, and L ₂ ^* , a ₂ ^* , b ₂ ^* represents the values of L ^* , a ^* , and b ^* of the colorless or light liquid adhering portion. The values of L ₁ ^* , a ₁ ^* , b ₁ ^* , L ₂ ^* , a ₂ ^* , and b ₂ ^* were measured using X-Rite 938 (manufactured by X-Rite).

Thus, since the liquid confirmation film of the present invention has ΔE of 10.0 or less, it is difficult to distinguish the color difference between these two regions with the naked eye, but the light scattering state in the region where the colorless or light-colored liquid is attached By changing optical factors other than color, such as light transmittance and transmittance, and making the density difference 0.02 or more, the difference between the colorless or light-colored liquid adhering portion and the colorless or light-colored liquid non-adhering portion can be recognized by the naked eye .
The method for changing the optical factor other than the color of the region to which the colorless or light-colored liquid is attached is not particularly limited. For example, the surface of the liquid application surface described above is roughened with sandpaper or the like to control the roughness. However, it is not limited to this.

  The density difference between the colorless or light-colored liquid adhering part and the colorless or light-colored liquid non-adhering part means a difference in optical density between the two on the liquid application surface. Here, the optical density was measured using X-Rite 404 (manufactured by X-Rite Co., Ltd.), and a 1 cm × 1 cm square solid patch was measured for a colorless or light-colored liquid adhering part.

  However, when the liquid confirmation film is made of a transparent material, light is transmitted from the liquid application surface side to the non-liquid application surface side, and the colorless or light color liquid adhering portion and the colorless or light color liquid non-adhering portion In some cases, the density difference cannot be sufficiently ensured and cannot be identified with the naked eye. In such a case, it is preferable to measure the density difference in a state where the liquid confirmation film is placed on a sheet member having a low lightness (reflection density) such as black with the liquid application surface facing upward. In practice, it is preferable to use a black sheet.

In addition, the liquid application surface is particularly preferably non-absorbing. If the liquid application surface is water-absorbing, the colorless or light-colored liquid adhering to the liquid-application surface is absorbed by the liquid confirmation film. This is because the difference between the surface roughness of the liquid non-adhered portion is small, and it may be difficult to distinguish the two regions when viewed with the naked eye.
Further, when the liquid application surface has a large water absorption, the colorless or light-colored liquid is absorbed immediately after the colorless or light-colored liquid is applied, so that the ejection failure of the recording head used in the ink jet recording apparatus is confirmed. When a certain period of time is required until the liquid confirmation film is discharged out of the apparatus after the colorless or light-colored liquid is applied, observation with the naked eye may be impossible.

For the above reasons, the liquid water absorption rate on the liquid application surface of the liquid confirmation film of the present invention is preferably 0% to 95%, more preferably 0.01% to 80%, and more preferably 0.01% to 50%. More preferred.
In the present invention, the liquid absorptivity is the vertical cross-sectional area of the liquid immediately after dropping a colorless or light-colored liquid on the liquid confirmation film surface, and the liquid landed on the liquid application surface of the liquid confirmation film. Then, when the cross-sectional area in the vertical direction of the liquid droplet on the liquid application surface after 100 seconds has elapsed, a is expressed by the following formula (2).
Formula (2) Liquid absorption rate = 100 × {(Sa) / S}
In addition, the liquid absorption rate was calculated | required by measuring using 1100DAT by FIBRO.

  In order to make the liquid application surface non-water-absorbing, it is not particularly limited as long as the material constituting at least the liquid application surface is a material having a composition and structure that prevents the entry and absorption of water molecules into the material. As an example, a normal bulk material having no voids or pores, such as a porous body (for example, sponge) or a fibrous body (for example, paper) can be used.

  Moreover, when the material which comprises the film for liquid confirmation consists of transparent materials, it is preferable that a non-liquid provision surface is smooth as mentioned above. Furthermore, in order to make it easier to confirm a colorless or light-colored liquid, the non-liquid-applied surface may be printed with a pattern such as a mirror surface or a grid in addition to being smooth, and brightness (optical A film having a low density (for example, a black film) may be bonded.

Although it does not specifically limit as a material which comprises the film for liquid confirmation, Well-known materials, such as resin, glass, a metal, etc. can be used and 2 or more types may be combined, but from viewpoints, such as ease of handling and processing Is preferably a resin such as PET (polyethylene terephthalate) or PE (polyester). Moreover, the material which comprises the film for liquid confirmation may be comprised from the opaque material and the translucent material, and may be comprised from transparent materials, such as PET.
A commercially available OHP sheet for OA equipment can also be suitably used, and the effect is more preferably improved by processing the surface (processing methods include physical processing methods such as sandblasting and sandpaper, Surface treatment etc. can be used)

(Discharge status confirmation method / ink jet recording apparatus)
Since the liquid confirmation film of the present invention described above does not use a color reaction, it can be used regardless of the composition of a colorless or light-colored liquid and has high versatility. Further, since the presence of a colorless or light liquid can be easily confirmed with the naked eye, a dedicated reading device is not required.
As described above, the liquid confirmation film of the present invention can be used to confirm any colorless or light-colored liquid easily with the naked eye. The recording head is preferably used for confirming ejection failure of a colorless or light-color liquid for ink jet recording that is ejected onto a recording medium such as paper for image recording.

  A large number of nozzles are arranged on the nozzle surface of the recording head in order to perform image recording by discharging two or more kinds of liquids (printing liquid) such as ink and colorless or light-colored liquid onto a recording medium. When printing is performed for a long time, image quality may be deteriorated due to ejection failure such as clogging of some nozzles or deterioration of ejection performance. For this reason, it is possible to grasp the presence and presence ratio of nozzles with defective discharge and perform maintenance of the recording head to eliminate defective discharge, or when discharge defects cannot be resolved, discharge from each nozzle. Therefore, it is necessary to perform feedback such as controlling the ejection of ink or colorless or light-colored liquid to suppress adverse effects on image quality.

Therefore, when a colorless or light-colored liquid is ejected from a recording head, if the liquid confirmation film of the present invention is used as a recording medium, the reflectance is improved in an ink jet recording apparatus that prints using a colorless or light-colored liquid in addition to ink. Without using a dedicated reading device such as a measuring device, it is possible to easily and economically perform a confirmation operation of a colorless or light-colored liquid necessary for performing feedback as described above with the naked eye.
Note that the discharge failure detection operation can of course use not only the naked eye but also optical means (optical detection means other than the naked eye). In this case, it is particularly preferable to use a scanner as the optical means. As a substitute for visual inspection, a scanner has an image recognition capability close to the naked eye and is widely used as an OA device. This is because it can be used easily.

  For example, after reading the liquid adhesion surface of the liquid confirmation film to which colorless or light-colored liquid ejected from the recording head adheres, the printed out image may be confirmed with the naked eye. In this case, there is an advantage that the inspection result of the ejection failure can be stocked as a printed matter. In addition, in the case of visual inspection, it is necessary to determine whether there is a discharge failure before the colorless or light-colored liquid attached on the liquid confirmation film evaporates. If the printout is performed, there is an advantage that such a time restriction is eliminated.

In addition, the feedback operation may be automated by linking the image image read by the scanner with other devices or control programs involved in image formation such as a recording head control system as digital data.
In this case, the analog discharge failure detection operation with the naked eye can be digitized, so that the time for the feedback operation can be shortened and the accuracy of the feedback operation can be further improved.

  Hereinafter, the present invention will be described with reference to examples of detection of defective discharge of colorless or light-colored liquid used in ink jet recording, but the present invention is not limited to the following examples.

-Treatment liquid-
A colorless or light liquid (treatment liquid) having the following composition was prepared.
・ Diethylene glycol: 20% by mass
Propylene glycol: 5% by mass
・ Surfinol 465 (manufactured by Nissin Chemical): 1% by mass
・ Magnesium nitrate: 2% by mass
-Water: 72: mass%

-Liquid confirmation film Three types of liquid confirmation films were prepared.
-About the PET film (OHP film (clear) manufactured by Fuji Xerox Office Supply Co., Ltd., thickness: 0.1 mm, 297 x 210 mm), the liquid application surface was roughened with sandpaper, and the film 1 was used. The liquid absorption rate of the liquid application surface of this film 1 was 0%, and the light transmittance was 5%.

(Film 2)
-Fuji Xerox C2 paper (97 x 210 mm) was used as film 2. The liquid absorption rate of the liquid application surface of this film 2 was 100%, and the light transmittance was 95%.

(Film 3)
PET film (thickness: 0.1 mm, Fuji Xerox Office Supply OHP film (clear), 97 × 210 mm) was used as film 3.
This PET film is made of a colorless and transparent PET material that is not colored at all. Since both surfaces are smooth, it is apparently transparent. The liquid absorption rate of the liquid application surface of the film 3 was 0%, and the light transmittance was 5%.

-Evaluation-
For the evaluation, an ink jet recording apparatus equipped with a 400 dpi, 160-nozzle prototype print head was used, and after the ink tank was filled with the above-described treatment liquid, it was allowed to stand to the extent that ejection failure occurred in some nozzles. Then, printing was performed on the above-described films 1 to 3, and immediately after printing, the printing surface was turned up to visually confirm ejection failure, reflection density, and ΔE.

  Further, in evaluating the ejection failure, for the film 2, the film surface immediately after printing was visually observed, and the reflection density and ΔE were measured. On the other hand, for the films 1 and 3, the film is placed on black paper having a reflection density of 1.4 (paper having the entire surface printed in black by an ink jet recording apparatus) and visually observed. , ΔE was measured. The results are shown in Table 1. The reflection density of the film, ΔE, was measured by the method described above. Moreover, in any film, no discoloration of the film surface was observed before and after the treatment liquid was adhered.

The evaluation criteria for visual observation shown in Table 1 are as follows.
◯: The presence of the treatment liquid can be easily confirmed with the naked eye, and it is possible to easily identify which part of the nozzle has a defective discharge.
Δ: If the viewing direction is changed, the presence of the treatment liquid can be confirmed. However, it is very difficult to confirm, and it is difficult to identify which part of the nozzle has a defective discharge. It is impossible level.
X: Even the presence of the treatment liquid can hardly be confirmed with the naked eye.

Claims (8)

In a liquid confirmation film used for confirming a colorless or light-colored liquid attached to the surface,
The density difference between the colorless or light color liquid adhering portion and the colorless or light color liquid non-adhering portion when a colorless or light color liquid is adhered to the surface is 0.02 or more, and L ^* a ^* b ^* A film for liquid confirmation, wherein ΔE in the color system is 10.0 or less.   2. The liquid confirmation according to claim 1, wherein the surface opposite to the surface on which the colorless or light-colored liquid is adhered (liquid application surface) is smooth and the light transmittance is 99% or less. Film.   2. The liquid confirmation film according to claim 1, wherein a liquid absorptivity of a surface (liquid application surface) on which the colorless or light-colored liquid is attached is in a range of 0 to 95%.   The film for liquid confirmation according to claim 1, wherein the colorless or light-colored liquid is a colorless or light-colored liquid used for inkjet recording. In an ejection state confirmation method for confirming the ejection state of the colorless or light color liquid ejected from the recording head by attaching a colorless or light color liquid for inkjet recording ejected from the recording head to the surface of the liquid confirmation film. ,
When the colorless or light-colored liquid is adhered to the liquid confirmation film surface, the concentration difference between the colorless or light-colored liquid adhering part and the colorless or light-colored liquid non-adhering part is 0.02 or more, and An ejection state confirmation method using a liquid confirmation film having ΔE in the L ^* a ^* b ^* color system of 10.0 or less.   The discharge state confirmation method according to claim 5, wherein the discharge state is detected with the naked eye.   6. The discharge state confirmation method according to claim 5, wherein the discharge state is detected using an optical means. In an ink jet recording apparatus comprising a recording head for performing image recording by discharging two or more types of liquid onto the surface of a recording medium, wherein at least one of the two or more types of liquid is a colorless or light-colored liquid.
When discharging the colorless or light-colored liquid from the recording head, the colorless or light-colored liquid adhering portion and the colorless or light-colored liquid non-adhered when the colorless or light-colored liquid is adhered to the surface as the recording medium An ink jet recording apparatus comprising: a liquid confirmation film having a density difference from a part of 0.02 or more and ΔE in an L ^* a ^* b ^* color system of 10.0 or less.