JP4077969B2 - Method for manufacturing inkjet recording medium - Google Patents

Description

【００６６】
【発明の効果】
本発明によれば、塗工液の必須成分であるアルミナ水和物、バインダー及び架橋剤を連続的に調合することにより、塗工液の粘度上昇を抑えることを可能となった。
【００６７】
これにより、インク吸収速度が速く、印字濃度、発色性が良好な最適な厚みを有するインク受容層を設けたインクジェット用記録媒体を連続的に塗工することが可能となり、経済的にインクジェット用記録媒体を製造することができる。さらには、塗工液が塗工プロセスを通じて安定であるために、記録媒体の品質バラツキを少なくすることができる。[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an inkjet recording medium and a method for manufacturing the same, and more particularly to a method for manufacturing an inkjet recording medium having high-grade image quality.
[0002]
[Prior art]
The ink jet recording method is a method in which fine droplets of ink are ejected by various operating principles and adhered to a recording medium such as paper to record images, characters, and the like.
[0003]
This system has features such as high speed, low noise, easy multi-coloring, large flexibility of recording patterns, no need for development, and other features such as copying machines, word processors, fax machines, plotters, etc. Expanded to information equipment and rapidly spreading.
[0004]
In recent years, high-performance digital cameras, digital videos, and scanners are being provided at low cost, and along with the spread of personal computers, there is an increasing opportunity to output image information obtained from these by an inkjet recording method.
[0005]
For this reason, it is required to output an image comparable to that of silver salt photography or plate-making multicolor printing by an inkjet method.
[0006]
Under these trends, recording devices and recording methods have been improved, such as higher recording speed, higher definition, and full color, but advanced characteristics are also required for recording media. I came.
[0007]
As the characteristics required for this recording medium,
(1) The ink absorption speed is fast and there is no more blur than necessary. (2) The print density and color developability are high.
[0008]
To meet these requirements, increasing the thickness of the ink-receiving layer solves the problem, but at the same time, increasing the film thickness requires stronger drying, so cracks (coating defects) from a certain coating thickness. There arises a problem that a prescribed film thickness cannot be obtained.
[0009]
For this reason, measures such as adding a cross-linking agent are taken to assist the binding of the binder contained in the coating solution, but there is a problem that the usable time of the coating solution is shortened.
[0010]
For example, when used as a coating liquid in which alumina hydrate, a binder and a crosslinking agent are mixed, the crosslinking agent reacts with the binder, resulting in an increase in viscosity. Therefore, the coating method inevitably becomes a batch method in which a certain amount of coating solution is prepared and applied in accordance with the pot life of the coating solution.
[0011]
This batch method is disadvantageous in terms of cost because it is necessary to repeat blending at a relatively short interval, so that coating is interrupted at each blending, resulting in loss of materials and time. . Furthermore, since the crosslinking agent is already prepared in the coating solution, the viscosity of the coating solution is increased even in coating in the same batch, making it difficult to control the film thickness.
[0012]
As another coating method, in JP-A-6-218324, a coating liquid composed of a lyophilic sol stabilized with a peptizer is applied to a substrate, and the solvent is removed to form a coating layer. In the method, a method of gelling the coating liquid by removing the deflocculant of the lyophilic sol before removing the solvent has been proposed, but there is still a question about the usable time of the coating liquid. .
[0013]
Furthermore, in JP-A-6-218324, as a specific method for removing the peptizer, a gas such as ammonia gas, hydrochloric acid, acetic acid, nitric acid is sprayed on the coating layer, or the lower layer of the coating layer is applied. A method of impregnating a component that reacts with the peptizer in advance has been proposed. However, the use of a highly dangerous gas or means for forming a plurality of coating layers has the disadvantage that it is complicated and leads to a decrease in productivity.
[0014]
[Problems to be solved by the invention]
SUMMARY OF THE INVENTION In view of the above problems, the present invention has an object to provide a method for stably and economically producing an inkjet recording medium having a thick ink-receiving layer by continuous coating. It is an object of the present invention to provide an ink jet recording medium that has a high ink absorption rate and is excellent in print density and color developability.
[0015]
[Means for Solving the Problems]
The present invention is a method for producing an ink jet recording medium obtained by coating a substrate with a coating solution containing alumina hydrate, a binder and a crosslinking agent as essential components, Among the constituent components, at least the binder and the cross-linking agent are separately supplied, and the constituent components of the coating liquid are continuously prepared, and the prepared coating liquid is sequentially applied to the substrate. The present invention relates to a method for manufacturing an inkjet recording medium.
[0016]
The binder is preferably polyvinyl alcohol, and the cross-linking agent is preferably boric acid or a borate. In this case, it is preferable to prepare boric acid or borate at a ratio of 15 to 50% by weight based on the polyvinyl alcohol solid content.
[0017]
Furthermore, it is preferable that the components of the coating liquid are continuously prepared by a static mixer.
[0018]
The coating amount of the coating liquid is preferably 60 g / m ² or less.
[0019]
As a base material used in the present invention, it is preferable to use a material obtained by forming a layer mainly composed of barium sulfate and a binder on the surface of the paper, and it is also preferable to use a film.
The paper preferably has a weight per unit area of 120 g / m ² or more.
[0020]
Furthermore, the present invention relates to an inkjet recording medium manufactured using the above manufacturing method.
[0021]
The present invention suppresses a change in viscosity over time by continuous preparation of the coating liquid as described above and continuous application of the prepared coating liquid, resulting in uneven film thickness and coating liquid. The difficulty of management can be eliminated.
[0022]
Since such a sufficient cross-linking agent that does not cause coating defects such as cracks can be added without increasing the binder and without increasing the binder, the coating thickness can be increased by one layer.
[0023]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the method for producing an inkjet recording medium of the present invention will be described in detail. The coating liquid used in the present invention contains alumina hydrate, a binder and a cross-linking agent as essential components, and other additives as necessary components.
[0024]
Among the essential components, since the binder and the crosslinking agent react to increase the viscosity of the coating liquid, at least the binder and the crosslinking agent are continuously prepared while being supplied separately. Specifically, for example, when the constituent components of the coating liquid are composed of only alumina hydrate, a binder, and a crosslinking agent, the three components are separately prepared while being supplied separately.
[0025]
In addition, the first mixture of alumina hydrate and crosslinking agent is the first liquid, the binder is the second liquid, and these two liquids are continuously mixed, or the alumina hydrate and binder are first mixed. The present invention includes that the mixture is used as the first liquid, the crosslinking agent is used as the second liquid, and these two liquids are continuously prepared.
[0026]
The same applies to cases where other components are included, and it is possible to use a pre-prepared mixture in any combination, with the requirement that the binder and crosslinking agent be mixed immediately before coating. It is.
[0027]
The alumina hydrate used in the present invention can be produced by a known method such as hydrolysis of aluminum alkoxide or hydrolysis of sodium aluminate. The shape is not particularly limited, such as a cilia shape, a needle shape, a plate shape, or a spindle shape, and it does not matter whether or not there is orientation. As this alumina hydrate, those commercially available, or those processed from those raw materials can be used, and the characteristics of these alumina hydrates are transparency, glossiness, dye fixing property. It is even better if it is high and has good coating properties without cracks or the like when the coating is formed.
[0028]
As what is marketed industrially, "AS-2", "AS-3" by a catalyst chemical company, "520" by a Nissan chemical company etc. are mentioned, for example. These alumina hydrates usually have a fine particle diameter of 1 μm or less and have excellent dispersibility, so that the recording medium can have very good smoothness and gloss.
[0029]
The binder used for binding the alumina hydrate can be freely selected from water-soluble polymers, and any binder may be used as long as it causes a crosslinking reaction using a crosslinking agent. Examples of such binders include polyvinyl alcohol, or a modified product thereof, starch or a modified product thereof, gelatin or a modified product thereof, casein or a modified product thereof, cellulose derivatives such as carboxymethylcellulose, hydroxyethylcellulose, hydroxypropylmethylcellulose, and SBR latex. And water-soluble polymers such as
[0030]
The mixing ratio of the alumina hydrate and the binder is, for example, 1: 1 to 30: 1, more preferably 5: 1 to 25: 1 by weight. When the amount of the binder is less than the above range, the ink receiving layer has insufficient mechanical strength, and cracking and powder falling are likely to occur, and when it is more than the above range, the pore volume is reduced and the ink is absorbed. May decrease.
[0031]
The cross-linking agent is for cross-linking the above-mentioned binder. For example, other components of the coating liquid that can include boric acid or borate include a dispersant, a thickening agent as necessary. Agents, pH adjusters, lubricants, fluidity modifiers, surfactants, antifoaming agents, water resistance agents, mold release agents, fluorescent whitening agents, UV absorbers, antioxidants, etc. can also be added. is there.
[0032]
Furthermore, in this invention, it is preferable to mix | blend a crosslinking agent (boric acid or borate) in 15-50 weight% with respect to polyvinyl alcohol.
[0033]
If the amount of the cross-linking agent is too small, the ink receiving layer will not have sufficient mechanical strength, causing cracks and powder falling, and it cannot be applied thickly. If it is too much, the viscosity will increase and the coating will be difficult to apply. This is because it becomes a liquid.
[0034]
As a continuous preparation method of the present invention, three liquids of alumina hydrate and binder and its cross-linking agent may be stirred with a stirrer while separately supplying them to the tank. It is preferable to use a static mixer that does not touch the surface and does not change its shape.
[0035]
When continuously blended here, the ratio of the prepared coating liquid consumed at the start of coating according to the amount consumed, from a state where two or more types of undiluted solutions are contained in separate containers. Mixing in a state where the amount is controlled and without causing density unevenness.
[0036]
The substrate used in the present invention may be, for example, a film used for paper, synthetic resin OHP, or the like, but is not particularly limited thereto.
[0037]
For example, when the substrate is paper, it is preferable to provide a paper surface with a layer mainly composed of barium sulfate and a binder. The main component means that in addition to barium sulfate and a binder, an additive in the coating process may remain in the layer.
[0038]
A coating liquid containing alumina hydrate, binder and cross-linking agent as essential constituents is applied on the layer mainly composed of barium sulfate and binder formed on the surface of paper using the method of the present invention. As a result, the ink receiving layer has a two-layer structure in which the lower layer is mainly composed of barium sulfate and a binder, and the upper layer is a porous layer mainly composed of alumina hydrate and a binder.
[0039]
In the case of a film, it is also possible to apply it directly on a substrate, and it is not necessary to provide a lower layer of a porous layer mainly composed of alumina hydrate and a binder.
[0040]
In the case of paper used in the present invention, as a base material made of a fibrous substance, it is a base material mainly made of wood pulp and filler, and has high ink solvent absorbability, glossiness, dye fixing property, coloring property, etc. in order to impart texture such as silver salt photograph with the properties of, preferably a weight of 120 g / m ² or more per unit area, as long as the range of 150~180g / m ^2, Even in the size of about A4 size and A3 size, a high-quality recording medium can be provided, which is more preferable.
[0041]
Also, since the ink absorption is almost satisfactory with the barium sulfate layer and the alumina hydrate layer, the water absorbability of the base material itself is not so much, and conversely, it is necessary to increase the water resistance of the back surface and cross section. Therefore, it is preferable to use those having a Steecht sizing degree of 100 seconds or more, more preferably 200 seconds or more.
[0042]
The coating amount on the substrate is preferably 60 g / m ² or less in terms of dry solid content, and in order to provide dye fixing properties and necessary smoothness, the range of ^{20 to} 45 g / m ² is used. More preferred.
[0043]
The drying method is not particularly limited, and a baking treatment may be performed if necessary. By performing such a baking treatment, the crosslinking strength of the binder is increased, the mechanical strength of the ink receiving layer is improved, and the surface gloss of the alumina hydrate layer is improved.
[0044]
Commonly used die coater, plate coater, air knife coater, roll coater, curtain coater, bar coater, gravure coater, spray device, etc. are used as a method of continuously coating a continuously prepared coating solution. The coating method that was used can be mentioned.
[0045]
Hereinafter, a detailed example will be described.
[0046]
Example 1
The following coated paper was prepared as a substrate. Coating solution containing 100 parts by weight of barium sulfate having an average particle size of 0.6 μm, 10 parts by weight of gelatin, 3 parts by weight of polyethylene glycol, and 0.4 parts by weight of chrome light vane formed by reacting barium sulfate and barium chloride. This was coated on a base paper having a weight per unit area of 130 g / m ² and a Beck smoothness of 340 seconds so that the dry thickness was 20 μm, and then a supercalender treatment was performed to obtain a surface smoothness of 400 seconds. A base material was obtained.
[0047]
Next, alumina hydrate was prepared as follows. Aluminum octoxide was synthesized according to the method described in U.S. Pat. No. 4,242,271 and hydrolyzed to produce an alumina slurry. Water was added to the alumina slurry until the solid content of alumina hydrate was 5%. Next, after raising the temperature to 80 ° C. and carrying out an aging reaction for 10 hours, the colloidal sol was spray-dried to obtain an alumina hydrate. Further, this alumina hydrate was mixed and dispersed in ion-exchanged water and adjusted to pH 10 with nitric acid. A colloidal sol was obtained with an aging time of 5 hours. The colloidal sol was desalted and then peptized by adding acetic acid. When the alumina hydrate obtained by drying this colloidal sol was measured by X-ray diffraction, it was pseudo boehmite.
[0048]
The alumina hydrate colloidal sol was concentrated to obtain a 15 wt% solution. Next, polyvinyl alcohol (PVAl17 manufactured by Kuraray Co., Ltd.) was dissolved in ion-exchanged water so as to have a solid content of 10%. Further, boric acid was dissolved in ion-exchanged water so as to have a solid content of 3% as a crosslinking agent for polyvinyl alcohol.
[0049]
Next, these liquids were set so that the flow rate of alumina hydrate was 20090 cc / min, the polyvinyl alcohol liquid was 3014 cc / min, and boric acid was 2009 cc / min. . (The mixing ratio of the solid content is 100 parts by weight of alumina hydrate, 10 parts by weight of polyvinyl alcohol, and 2 parts by weight of boric acid.) The coating conditions at this time are: line speed: 50 m / min, drying temperature: 150 C, coater: die coat, coating width: 1500 mm. And it coated on the said base material under these coating conditions, and sampled after 20 minutes. A recording medium having a porous layer containing pseudoboehmite having a thickness of 45 g / m ² could be obtained.
[0050]
Moreover, the pseudo boehmite porous layer obtained at this time had no cracks and was smooth. The evaluation results are shown in Table 1.
[0051]
Further, the coating was continued and sampling was performed when 1 hour had passed.
[0052]
Further, the coating was continued, and the raw roll was changed using an auto splice, and after 6 hours from the start of the coating, it was temporarily stopped and sampling was performed. The obtained sample was a recording medium having a porous layer containing pseudoboehmite with a thickness of 45 g / m ² .
[0053]
The recording medium obtained from these results was free of cracks and smooth as in the sample after 20 minutes.
[0054]
(Example 2)
The same operation as in Example 1 was performed, and at this time, the film thickness was set to 18 g / m ² to obtain a sample. The evaluation results are shown in Table 1.
[0055]
(Comparative Example 1)
Using the same base material as in Example 1, batch coating was performed. About the preparation of the coating liquid, the same preparation ratio as in Example 1 was used.
[0056]
That is, a coating solution having a mixing ratio of 100 parts by weight of alumina hydrate, 10 parts by weight of polyvinyl alcohol, and 2 parts by weight of boric acid was prepared in a batch manner using a 500 L tank.
[0057]
After blending, the mixture was stirred for 10 minutes, and coating was started using a die coater. The discharge pressure at the start was 0.5 kg / cm ² , the discharge pressure after 20 minutes increased to 8 kg / cm ² , and further continuation became impossible and the coating was stopped.
[0058]
Sampling was performed 10 m from the end of coating to obtain a recording medium having a porous layer thickness of 45 g / m ² containing pseudoboehmite.
[0059]
However, in the sample obtained at this time, the coated surface had irregularities that seem to be caused by the gel body, and cracks were also generated. The evaluation results are shown in Table 1.
[0060]
(Comparative Example 2)
Next, only the coating thickness was changed under the same conditions as in Comparative Example 1, and the process was started. The discharge pressure at the start was 0.5 kg / cm ² , the discharge pressure after 20 minutes increased to 8 kg / cm ² , and further continuation became impossible and the coating was stopped.
[0061]
Sampling was performed 10 m from the end of the coating to obtain a recording medium having a porous layer containing pseudoboehmite having a thickness of 18 g / m ² . However, in the sample obtained at this time, the coating surface was found to have irregularities that seemed to be caused by gel bodies, and cracks were also generated. The evaluation results are shown in Table 1.
[0062]
As the evaluation method, an image was formed on the ink jet recording media obtained in Example 1 and Comparative Example 2 using an ink jet printer, and a photographic quality printed matter was evaluated.
[0063]
Evaluation items are evaluation of coating defects (cracks), smoothness, beading, and ink absorbability. The evaluation criteria for each item are shown below.
Coating defect: “A” indicates that a crack occurred in the A4 size, and “B” indicates that no crack occurred.
Smoothness: Example 1 was evaluated as ◯, if it was the same or more, ◯, and if it was inferior, ×
Printing characteristics: Ink jet recording was performed using an ink jet printer having 128 nozzles for four colors Y, M, C, and Bk at an interval of 16 nozzles per mm, and beading and ink The absorptivity was evaluated.
Beading: Using the ink jet printer, the beading after solid printing of each ink of Y, M, C, and Bk in single color or multicolor was visually evaluated. When the amount of ink in single color printing is 100%, it is indicated as ◯ if no ink is generated at an ink amount of 300%, and × when it is generated.
[0064]
The beading referred to here is a phenomenon in which the printed dots are connected in the form of beads by contact with adjacent ink dots before the applied ink dots are absorbed and fixed on the recording medium, resulting in uneven image density. It is.
Ink absorbability: The ink absorptivity of the surface of the recording medium immediately after solid-color printing of each of Y, M, C, and Bk inks with a single color or multiple colors using the above-described ink jet printer was examined by touching the recording portion with a finger. When the amount of ink in single color printing is 100%, the case where the ink does not adhere to the finger at 300% is indicated by ◯, and the case where the ink adheres is indicated by ×.
[0065]
[Table 1]

[0066]
【The invention's effect】
According to the present invention, it is possible to suppress an increase in the viscosity of the coating liquid by continuously preparing alumina hydrate, a binder, and a crosslinking agent, which are essential components of the coating liquid.
[0067]
As a result, it is possible to continuously apply an ink jet recording medium provided with an ink receiving layer having an optimum thickness with a high ink absorption speed and good print density and color developability. A medium can be manufactured. Furthermore, since the coating liquid is stable throughout the coating process, the quality variation of the recording medium can be reduced.

Claims (8)

A method for producing an ink jet recording medium obtained by coating a substrate with a coating liquid comprising alumina hydrate, a binder and a crosslinking agent as essential constituent components,
Among the constituent components of the coating liquid, while supplying at least the binder and the crosslinking agent separately, the constituent components of the coating liquid are continuously prepared, and the prepared coating liquid is used as the base material. A method for producing an ink jet recording medium, which is sequentially coated.   2. The method for producing an inkjet recording medium according to claim 1, wherein the binder is polyvinyl alcohol, and the crosslinking agent is boric acid or borate.   3. The method for producing an ink jet recording medium according to claim 2, wherein the boric acid or the borate has a blending ratio of 15 to 50% by weight with respect to the solid content of the polyvinyl alcohol in the coating liquid. .   The method for producing an inkjet recording medium according to any one of claims 1 to 3, wherein the components of the coating liquid are continuously prepared by a static mixer. The method for producing an inkjet recording medium according to any one of claims 1 to 4, wherein the coating amount of the coating liquid on the substrate is 60 g / m ² or less.   6. The method for producing an ink jet recording medium according to claim 1, wherein the base material is a base material in which a layer mainly composed of barium sulfate and a binder is formed on the surface of paper. 7. The method for producing an ink jet recording medium according to claim 6, wherein the paper is a paper having a weight per unit area of 120 g / m ² or more.   The method for producing an inkjet recording medium according to claim 1, wherein the substrate is a film.