JP2001328282A - Pigment ink cartridge for color ink jet recording, and method for sustaining color balance of recorded matter - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a pigment ink cartridge being filled with a porous holding material in which apparent color balance of a color recorded matter can be kept in an optimal range over a long term. SOLUTION: In the pigment ink cartridge for color ink jet recording, compression porosity of a porous holding material impregnated with each ink composition is regulated to substantially match the pore sedimentation rate of pigment particles contained in each ink composition impregnating the porous holding material.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a pigment ink cartridge for color ink jet recording and a method for maintaining a color balance of a recorded matter in color ink jet recording. According to the ink cartridge of the present invention, in particular, the color balance on the appearance of the color inkjet recorded matter can be stably maintained regardless of the inkjet recording operation timing.

[0002]

2. Description of the Related Art An ink cartridge has been widely used for supplying ink to an ink jet recording apparatus. For example, an ink cartridge for color printing is
An ink storage chamber and an ink supply means are provided for each color ink, and the ink supply means and the ink suction means provided on the ink jet recording apparatus side are connected by being attached to a predetermined position of the ink jet recording apparatus. ,
Ink is supplied from the ink cartridge to the ink jet recording apparatus.

In the ink cartridge, a type in which the ink storage chamber is filled with a porous material such as urethane foam is widely used. This is an ink cartridge of a type in which a porous body is impregnated with liquid ink and filled in an ink storage chamber, and its main purpose is to supply ink stably.

[0004] On the other hand, in the ink jet recording method, the use of pigment ink instead of dye ink has been expanding. Even when pigment ink is used, it is convenient to use an ink cartridge, and it is even more advantageous to use a porous holder-filled ink cartridge.

However, since the pigment ink is an aqueous dispersion, there is a problem that the pigment particles settle. For example,
When the ink cartridge is left in a warehouse or on a shelf in a store or in a state where the ink cartridge is attached to an ink jet recording apparatus for a long period of time, the pigment particles gradually settle down in the individual ink storage chambers of the ink cartridge. . As a result, a concentration gradient of the pigment particles occurs from the bottom to the top inside the ink storage chamber. In the ink cartridge for color printing, the concentration gradient of the pigment particles is generated from the bottom to the top in each ink storage chamber, and the sedimentation speed of the pigment particles for each color is different for each pigment particle.

On the other hand, at the bottom of each ink storage chamber, an ink intake of an ink supply means is provided. Each of the ink intakes comes in contact with the pigment ink-impregnated porous support, takes in the pigment ink liquid, and supplies the ink liquid to the inkjet recording apparatus. However, since the sedimentation speed of the pigment particles differs for each pigment particle, when the conditions inside each ink storage chamber are the same (that is, when the same porous holding member is filled into each ink storage chamber at the same compression ratio). In the case where the ink inlet is in contact with the porous holding member, a difference occurs in the pigment particle concentration of the ink liquid impregnated in the porous holding member. It gradually expands with.

More specifically, for example, color printing in which a porous holding member is impregnated with a cyan pigment ink liquid, a yellow pigment ink liquid, a magenta pigment ink liquid, and a black pigment ink liquid and filled in each ink storage chamber. In the ink cartridges for use, the pigment particle concentration in each ink liquid is adjusted so that the color balance in appearance of a color record formed using the ink supplied from the ink cartridges is optimized. On the other hand, in actuality, in each ink storage chamber, each pigment particle settles down with time, and a concentration gradient occurs from the bottom to the top, and generally, each ink liquid is taken in from the bottom one by one. used. Therefore,
When a new ink cartridge for color printing is mounted on an ink jet recording apparatus to form a color record, strictly speaking, the color record formed by the initial ink jet recording operation has a high pigment particle concentration overall, but gradually. Tends to lower the pigment particle concentration. In this case, if the pigment particle concentration of each ink liquid decreases uniformly, the optimal color balance in the appearance of the color recorded matter is maintained, so that a recorded matter having extremely high density or extremely low density can be formed. If avoided by appropriate means, there is no practical problem. However, as described above, the sedimentation speed of the pigment particles differs for each pigment particle. Generally, cyan pigment particles
Since the specific gravity is higher than other pigment particles (that is, yellow pigment particles, magenta pigment particles, and black pigment particles), the sedimentation degree is large. It becomes steeper than liquid. When the ink liquid having such a steep concentration gradient is present, the concentration range in which the overall color balance can be optimized is narrowed, and the ink cartridge needs to be replaced frequently.

[0008]

SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to provide a pigment ink cartridge filled with a porous carrier for color ink-jet recording, in which the color balance of the appearance of the color recorded matter is adjusted to an optimum range over a long period of time. It is to provide a means to maintain.

[0009]

According to the present invention, there is provided a pigment ink cartridge for color ink jet recording by adjusting the compression porosity of a porous holder impregnated with each ink composition. Characterized by substantially matching the degree of void settling of the pigment particles contained in each ink composition impregnated in the porous holding member,
This can be solved by the pigment ink cartridge described above.

In the pigment ink cartridge according to a preferred embodiment of the present invention, the compressed porosity of the porous support impregnated with the ink composition containing the pigment particles having a large degree of void sedimentation is relatively reduced. For example, the compressed porosity of the porous holder impregnated with the cyan ink composition is made smaller than the compressed porosity of the porous holder impregnated with the other ink compositions.

Further, the present invention relates to a pigment ink cartridge for color ink jet recording, wherein the porous porosity of a porous holder impregnated with each of the ink compositions is adjusted so as to impregnate the porous holder. The present invention also relates to a method of maintaining a stable color balance of a recorded matter by substantially matching the degree of void settling of pigment particles contained in each ink composition.

[0012]

DESCRIPTION OF THE PREFERRED EMBODIMENTS An ink cartridge according to the present invention comprises:
An ink storage chamber for storing each ink composition of an ink set required for color inkjet recording is provided. Generally, at least each of the storage chambers for the cyan ink composition, the yellow ink composition, and the magenta ink composition is provided, and in some cases, the storage chamber for the black ink composition is further provided. Can be. In addition, for example, a storage chamber for a light cyan ink composition or a light magenta ink composition, or a storage chamber for an orange ink composition or a green ink composition may be provided. In the ink cartridge of the present invention, each of the ink storage chambers is filled with a porous holder, and the porous holder is impregnated with each of the ink compositions.

The porous support is not particularly limited as long as it can be impregnated with the aqueous pigment ink composition. For example, a known porous material such as urethane foam, polyester foam or melamine foam can be used. Can be used.

Generally, the "porosity" of a porous body means the volume occupied by the entire voids relative to the volume of the entire porous body. Here, the volume of the entire porous body is defined as the volume occupied by the material (hereinafter, may be referred to as “material volume”) and the volume occupied by the void (hereinafter, may be referred to as “void volume”).
Therefore, the "porosity" of the porous body,
It is the ratio (percentage) of the “void volume” (numerator) to the sum (denominator) of the “material volume” and the “void volume”.

In the present invention, it is preferable to use a porous body that can be compressed and restored as the porous holding body. Here, "can be compressed and restored" means that the porous body can be compressed and deformed in response to an external force that crushes the porous body, and conversely, can restore the original shape when the crushing external force disappears. Since such a compressible / restorable porous body is filled into the ink storage chamber in a compressed state, the volume of the porous holding body changes depending on the degree of compression, and with the change, the “gap” The rate also changes. Therefore, in this specification, the term “porosity” will be described by dividing it into “original porosity” and “compressed porosity” depending on the presence or absence of the above-mentioned compression.

That is, the volume of the entire porous holder capable of being compressed / restored used in the present invention changes depending on whether or not it receives a compressive force from the outside. It depends on the size. For example, when the porous holding member is present in the open space and does not receive a compressive force from the outside, the volume of the entire porous holding member (hereinafter, sometimes referred to as “original volume”) reaches a maximum value. (I.e., the "original porosity") is within the virtual surface relative to the volume surrounded by the virtual surface with which the entire outer surface of the porous support is inscribed (i.e., the original volume). It is the percentage of the total volume of all voids.

However, in the case of the present invention, the volume of the porous holder is smaller than the original volume because the porous holder is filled in the ink storage chamber in a compressed state. Is the inner surface of the ink storage chamber that actually exists. In this case, the “porosity” (that is, “compressed porosity”) of the porous holding member that is compressed and filled in the ink storage chamber is represented by the following equation (1):

[0018]

Embedded image (Wherein, epsilon is a compression porosity, V _I is the volume of the ink containing chamber, V _m is a is a material volume of the porous carrier which is compressed filled in the ink containing chamber) can be calculated from . The material volume (V _m ) is a value irrelevant to the presence or absence of a compressive force, and can be calculated from the weight and specific gravity of the porous holder filled in the ink storage chamber.

The “sedimentation degree” of the pigment particles in the ink composition is generally determined by comparing the ink composition, which is an aqueous dispersion,
By itself (ie, in the absence of a porous support), it can be measured from the change in pigment concentration at the bottom or top of the container when left in the container for a period of time. That is, the ratio is calculated from the ratio of the pigment concentration at the bottom or the top of the container immediately after standing and the pigment concentration at the bottom or the top of the container after a certain period of time (for example, one year or two years) after standing. Can be. The general “settling degree” thus measured may be hereinafter referred to as “free space sinking degree”. Further, the sedimentation speed of the pigment particles under the condition of measuring the “free space sedimentation degree” may be referred to as “free space sedimentation speed”. "Free space sedimentation degree" or "free space sedimentation velocity" of individual pigment particles
Varies with various factors. For example, the degree of sedimentation in free space varies depending on the particle size, specific gravity, and dispersibility of the pigment particles, the viscosity of the ink liquid, the composition of the liquid component, and the like.

On the other hand, in the present invention, since the ink composition is impregnated in the porous support, the “sedimentation degree” of the pigment particles is defined as the “sedimentation degree” in the state of being impregnated in the porous support.
(Hereinafter, may be referred to as “void sedimentation degree”). The “sedimentation degree” (ie, “void sedimentation rate”) or “sedimentation velocity (ie,“ void sedimentation velocity ”) in a state of being impregnated in the porous support is determined by the above“ free space sedimentation degree ”or“ free space sedimentation degree ”. Unlike “spatial sedimentation velocity,” it is difficult to measure them directly, but it is known that there is a certain correlation between them. For example, the following equation for the "free-space sedimentation rate" and "void sedimentation rate" _{(2): V a = V} m / F (ε) (2) wherein, V _a is the air gap sedimentation rate, _Vm is the free space settling velocity, and F (ε) is a porosity function]. The porosity function F (ε) is an empirical formula, and is based on Steinour's formula [Ind. Eng. Ch
em. , 36, 618 (1944)] and Lewi.
s, Gilliland & Bauer formula [ibi
d. , 41, 1104 (1949)]. For example, Lewis, Gilliland &
Bauer's equation is represented by the following equation (3): F (ε) = ε− ^4.65 (3) [wherein, F (ε) is a porosity function and ε is a compressed porosity]. .

In the ink cartridge of the present invention,
By adjusting the compression porosity of the ink-impregnated porous holding member compressed and filled in each ink storage chamber, the degree of void settling of the pigment particles in each ink storage chamber is made substantially the same. Here, “substantially match” means to match to the extent that the object of the present invention is sufficiently achieved, and the object of the present invention refers to the voids of the pigment particles contained in each ink composition. Based on the difference in the degree of sedimentation and the difference in the timing of inkjet recording operation (for example, at intervals of about one year or more),
It is an object of the present invention to prevent a difference in the color balance of a recorded matter, and to stably maintain a color balance in appearance of a color inkjet recorded matter irrespective of an inkjet recording operation time. For example, it is an object to prevent a difference in color balance between color records formed one year to several years apart.

Although the control target of the ink cartridge of the present invention is the "gap sedimentation degree", it is difficult to directly measure and control the "gap sedimentation degree". Using the “free space subsidence”
It is preferred to control the "void settling degree" indirectly.

For example, when the ink cartridge of the present invention is manufactured, the degree of sedimentation of the pigment particles in the free space (that is, the “free space”) for each ink composition housed in each ink housing chamber of the ink cartridge. Sinking degree)
Is measured first. The measurement of free space sedimentation, for example,
As described above, the ink composition is inserted into an appropriate container (for example, a beaker or a centrifuge tube), and the pigment concentration at the bottom or the top (= initial pigment concentration) is measured, and then left for about one year or centrifuged. After the treatment, the pigment concentration at the bottom or at the top (= pigment concentration after settling) is likewise measured. Next, it can be determined by calculating the ratio (Ci / Cp) of the pigment concentration after settling (Cp) to the initial pigment concentration (Ci).

Next, a porous holder is prepared in which the compressed porosity is changed according to the difference in the degree of sedimentation of free space obtained in this way. That is, the sedimentation of pigment particles can be delayed by combining a porous support having a low compressed porosity with an ink composition having a large free space settling degree.

In the present invention, a method for adjusting the compressed porosity of the porous holder impregnated with each ink composition includes the following.
For example, (a) a method of preparing porous holders having different original porosity and changing the degree of compression when filling the ink storage chamber can be used. (B) A method of preparing a porous holder having the same original porosity and changing the degree of compression when filling the ink storage chamber (that is, when the volumes of the ink storage chambers for the respective ink compositions are equal) A method in which the original volume of the porous holder before filling the ink storage chamber is changed for each ink composition), or (c) preparing a porous holder having a different original porosity and feeding the ink into the ink storage chamber. A method in which the degree of compression at the time of filling is the same (that is, when the volumes of the ink storage chambers for the respective ink compositions are the same, the original volume of the porous holder before filling the ink storage chamber with each ink is reduced. How to make the same size for each composition Preferably carried out by either.

The compression porosity of the porous holder is changed in accordance with the difference in the degree of sedimentation of free space, and the degree of void sedimentation of the pigment particles contained in each ink composition impregnated in the porous holder is changed. Are substantially matched. At the time of these adjustments, from the measured value of the free space sedimentation degree, the relationship between the free space sedimentation degree, the void sedimentation degree, and the compressed porosity is estimated using the above equation (2), and the pilot test is used together. The optimal combination can be determined.

In the pilot test for determining the optimum combination, the change over time in the color balance of the recorded matter formed from the ink cartridge of the present invention is used as a reference. When evaluating the change over time in color balance, for example, solid printing is performed so that the same OD value is obtained for each color, and whether the difference between the OD values of each color is within a certain reference (for example, within 10%) Can be determined by The measurement of the OD value is performed, for example, using a Macbeth CE-7000 spectrophotometer (Ma
cbeth). In addition, in order to reduce the time required for the change with time, for example, it is also possible to utilize a centrifugal separator and to perform the evaluation after centrifugally accelerating the ink cartridge itself.

[0028]

According to the ink cartridge of the present invention,
The color balance on the appearance of the color recorded matter can be maintained in the optimum range for a long period of time.

Claims (3)

[Claims] In a pigment ink cartridge for color ink jet recording, by controlling the compression porosity of a porous holder impregnated with each ink composition, each ink composition impregnated in the porous holder is adjusted. The pigment ink cartridge described above, wherein the degree of void settling of the pigment particles contained in the pigment ink is substantially matched. 2. The pigment ink cartridge according to claim 1, wherein the compressed porosity of the porous holding member impregnated with the ink composition containing the pigment particles having a large void sedimentation degree is relatively small. 3. In a pigment ink cartridge for color ink jet recording, the compressed porosity of a porous holder impregnated with each of the ink compositions is adjusted to adjust each ink composition impregnated in the porous holder. A method for maintaining a stable color balance of a recorded matter by substantially matching the degree of void settling of pigment particles contained in the recording medium.