JP6482175B2 - Inkjet printing method - Google Patents

Description

  The present invention relates to an inkjet printing method, and more particularly to a method for inkjet printing on a fabric.

  When ink-jet printing is performed on a fabric, the ink-jet ink has a relatively low viscosity, so that the fabric penetrates quickly and bleeding may occur.

  Therefore, as a technique for preventing bleeding, after printing an inkjet ink for printing containing at least a colorant and a water-soluble compound that can be polymerized by irradiation with external energy rays on the fabric, the polymerizable water-soluble compound On the other hand, a method for recording on a fabric, in which a polymer compound is produced by irradiating the external energy ray, and then subjected to a water washing treatment after color development, is being studied (Patent Document 1).

JP 2006-144180 A (released on June 8, 2006)

  However, as in the technique of Patent Document 1, if ink jet ink containing a colorant such as a dye and an auxiliary agent for promoting dyeing is temporarily fixed on a fabric in a short time, bleeding can be suppressed. However, there is a problem that the auxiliary agent cannot penetrate into the fabric and the color development is limited to the surface.

  The present invention has been made in view of the above problems, and a main object thereof is to provide a technique for improving color development while suppressing bleeding when ink-jet printing is performed on a fabric.

  As a result of diligent study, the inventors have improved the color development by separating the dyeing assistant printing from the printing of the colorant and the water-soluble photocurable resin, so that the dyeing assistant is familiar with the fabric. And the present invention has been completed.

  That is, the inkjet printing method according to the present invention includes a first printing step of printing a first liquid containing a dyeing assistant on a fabric by an inkjet method, and a colorant and a water-soluble photocurable resin after the first printing step. Including a second printing step of printing the second liquid containing on the fabric by an inkjet method, and a light irradiation step of irradiating the second liquid printed on the fabric in the second printing step with light. It is a feature.

  For the colorant, it is preferable to suppress bleeding in order to obtain a fine printed image. On the other hand, it is preferable that the dyeing assistant is allowed to bleed into the fabric and sufficiently blend in. According to said structure, a water-soluble photocurable resin can be mixed and printed in a coloring agent (2nd printing process), and the bleeding of a coloring agent can be suppressed by irradiating light (light irradiation process). Here, if the dyeing assistant is printed together with the colorant, it is difficult to sufficiently apply the dyeing assistant to the fabric. However, according to the above configuration, a separate step is required before printing the colorant. Since the dyeing assistant is printed in step 1, the dyeing assistant can be sufficiently blended with the fabric. Thereby, when ink-jet printing is performed on the fabric, color development can be improved while suppressing bleeding.

  In the ink jet printing method according to the present invention, the first liquid that is printed on the fabric in the first printing step preferably has a lower viscosity than the second liquid that is printed on the fabric in the second printing step.

  According to said structure, a dyeing assistant can be more familiar with a fabric.

  Preferably, the inkjet printing method further includes a thickening step of increasing the viscosity of the first liquid printed on the fabric in the first printing step after the first printing step and before the second printing step.

  According to said structure, the bleeding of a coloring agent can be suppressed more by increasing the viscosity of the 1st liquid printed on the said cloth in the 1st printing process before the 2nd printing process. .

  In the ink jet printing method, the first liquid further includes a water-soluble photocurable resin, and in the thickening process, it is preferable to irradiate the first liquid printed on the fabric in the first printing process with light.

  According to said structure, in the said thickening process, the viscosity of a 1st liquid can be increased successfully.

  In the inkjet printing method, in the thickening step, the first liquid printed on the fabric in the first printing step may be heated.

  According to said structure, in the said thickening process, the viscosity of a 1st liquid can be increased successfully.

  In the inkjet printing method, the time from when the first liquid is printed on the fabric in the first printing process until the viscosity of the first liquid is increased in the thickening process is the same as that on the fabric in the second printing process. It is preferable that it is longer than the time from printing the second liquid to irradiating the second liquid with light in the light irradiation step.

  According to said structure, a dyeing assistant can be more familiar with a fabric.

In the inkjet printing method, a first nozzle for printing the first liquid in the first printing process, a first light irradiation unit for performing light irradiation in the thickening process, and a second liquid in the second printing process. A second nozzle for performing printing, and a second light irradiation unit for performing light irradiation in the light irradiation step, and the first nozzle is disposed in front of the first light irradiation unit in the main scanning direction. The second nozzle is disposed in front of the second light irradiation unit in the main scanning direction, and the first nozzle and the first light irradiation unit are more than the second nozzle and the second light irradiation unit, The first printing step is performed using the inkjet head, which is disposed forward in the sub-scanning direction, and the interval between the first nozzle and the first light irradiation unit is wider than the interval between the second nozzle and the second light irradiation unit. , The thickening step, the second printing step and the light irradiation process Preferably it is carried out.

  According to said structure, a 1st printing process, the said thickening process, a 2nd printing process, and the said light irradiation process can be performed suitably using one inkjet head. In particular, the inkjet head includes the first printing step, the thickening step, the second printing step and the light irradiation step, the time interval between the first printing step and the thickening step, and the second printing step. And a structure suitable for the time interval between the light irradiation step and the light irradiation step. Thereby, when ink-jet printing is performed on the fabric, color development can be improved with a simple configuration while suppressing bleeding.

In the inkjet printing method, the first nozzle for printing the first liquid in the first printing process, the heating unit for heating the first liquid in the thickening process, and the second liquid in the second printing process. A second nozzle for performing printing, and a light irradiation unit for performing light irradiation in the light irradiation step, wherein the first nozzle is disposed in front of the heating unit in the main scanning direction; The nozzle is disposed in front of the light irradiation unit in the main scanning direction, and the first nozzle and the heating unit are disposed in front of the second nozzle and the light irradiation unit in the sub scanning direction. The first printing step, the thickening step, the second printing step, and the light irradiation step are performed using an inkjet head that is wider than the interval between the second nozzle and the light irradiation unit. Also good.

  According to said structure, a 1st printing process, the said thickening process, a 2nd printing process, and the said light irradiation process can be performed suitably using one inkjet head. In particular, the inkjet head includes the first printing step, the thickening step, the second printing step and the light irradiation step, the time interval between the first printing step and the thickening step, and the second printing step. And a structure suitable for the time interval between the light irradiation step and the light irradiation step. Thereby, when ink-jet printing is performed on the fabric, color development can be improved with a simple configuration while suppressing bleeding.

  According to the present invention, when ink-jet printing is performed on a fabric, color development can be improved while suppressing bleeding.

It is a figure for demonstrating the main concept of the inkjet printing method which concerns on one Embodiment of this invention. It is a figure which shows the outline | summary of the inkjet printing method which concerns on one Embodiment of this invention. 1 is a diagram illustrating a schematic configuration of an inkjet head according to an embodiment of the present invention.

  An ink jet printing method according to the present invention includes a first printing step of printing a first liquid containing a dyeing assistant on a fabric by an ink jet method, and a first liquid containing a colorant and a water-soluble photocurable resin after the first printing step. A second printing step of printing the two liquids on the fabric by an ink jet method; and a light irradiation step of irradiating the second liquid printed on the fabric in the second printing step with light.

  Moreover, in one embodiment, the inkjet printing method according to the present invention further increases the viscosity of the first liquid printed on the fabric in the first printing step after the first printing step and before the second printing step. A thickening step, a color development step for coloring the colorant printed on the fabric after the light irradiation step, and a removal step for removing the water-soluble photocurable resin on the fabric after the color development step. , May be included.

  FIG. 1 is a diagram for explaining a main concept of an ink jet printing method according to an embodiment of the present invention. In FIG. 1, 1 indicates a fabric, 2 indicates a first print layer, and 3 indicates a second print layer. Moreover, FIG. 2 is a figure which shows the outline | summary of the inkjet printing method which concerns on one Embodiment of this invention.

  In the inkjet printing method according to an embodiment of the present invention, after the fabric 1 is attached to the inkjet device, first, in step S1, the first liquid containing the dyeing assistant is printed on the fabric 1 by the inkjet method ( First printing step), the first printed layer 2 is formed on the fabric 1 by increasing the viscosity of the printed first liquid (thickening step).

  The first liquid may be printed on the entire fabric 1 or may be printed only on the portion where the colorant is printed.

  A dyeing assistant refers to an auxiliary agent used in a general dyeing process. For example, an auxiliary agent for leveling, an auxiliary agent for slow dyeing, a dyeing agent, a mordant, a fixing agent, a reducing agent, a moisturizing agent, etc. , And can be appropriately selected according to the colorant.

  Leveling dyeing assistant and slow dyeing assistant are also called leveling dyes and slow dyeing agents. They are agents for slow dyeing and dyeing evenly, mainly surfactants, and fiber affinity. There are leveling agents and dye affinity leveling agents. Examples of the leveling agent and slow dyeing agent include, but are not limited to, Amylazine L-33, Neugen SS, Leopold, Peletex P · W · S, and the like.

  The dyeing agent is a drug for promoting the dyeing of a combination of a coloring agent and a fiber that are difficult to dye, and is not limited thereto. For example, when dyeing cellulose directly with a dye Examples thereof include sodium chloride (sodium chloride), sodium nitrate (sodium salt), and acids (hydrochloric acid, sulfuric acid, acetic acid, formic acid) used when protein fibers are dyed with an acidic dye.

The mordant is an agent for improving the affinity of the fabric 1 with respect to the colorant to improve the color development of the colorant, and is not limited thereto, but, for example, alum (Al ₂ (SO ₄ ) ₃ · K ₂ SO ₄ · 24H ₂ O), ferrous sulfate (FeSO ₄ · 7H ₂ O), chromium alum (Cr ₂ (SO ₄ ) ₃ · K ₂ SO ₄ · 24H ₂ O), tannic acid, cotonol, etc. Is mentioned.

  The fixing agent is an agent that functions to impart a dyeing property to the fiber by mediating the fiber and the colorant, and is not limited to these, but examples include, but are not limited to, katanol OH, tartar, fix salt , Fix MC, Nylox 1200/700/800, Silk Fix 3A, Amigen, Chromozol SS, Hannol Fix, Soritol N, TKS and the like.

  A reducing agent is a chemical for reducing and solubilizing a colorant that does not dissolve in water (hot water), such as vat dyes and sulfur dyes, but is not limited thereto. Examples include soda, blank kit IAN, and longalit FD.

  Examples of the humectant include, but are not limited to, urea.

  Other compositions are not particularly limited as long as the first liquid contains a dyeing assistant, but further includes, for example, a water-soluble photocurable resin, a glue, a pH adjuster, a surface tension adjuster, a storage stabilizer, and the like. May be. Also, the solvent of the first liquid is not particularly limited. For example, pure water, a water-soluble organic solvent (polyhydric alcohols, monohydric alcohols, alkyl ethers of polyhydric alcohols, amines, etc.) and the like are used. it can. In addition, it is preferable to make the viscosity of a 1st liquid lower than the viscosity of a 2nd liquid by diluting with a solvent. Thereby, the dyeing assistant can be blended with the fabric 1. The viscosity of the first liquid is preferably about 5 to 20 mPa · s, for example.

  The increase in the viscosity of the first liquid printed on the fabric 1 is not limited to these. For example, (A) the first liquid contains a water-soluble photocurable resin, and the first liquid contains light. May be performed by irradiating (B) the first liquid.

  Although it does not limit to this as water-soluble photocurable resin, For example, water-soluble monofunctional ethylenically unsaturated monomer (For example, C5-C15 hydroxyl-containing (meth) acrylate [hydroxyethyl (meta ) Acrylate, hydroxypropyl (meth) acrylate, 4-hydroxybutyl (meth) acrylate, etc.), N-dimethyl (meth) acrylamide, N-diethyl (meth) acrylamide, N-hydroxyethyl (meth) acrylamide, etc. it can.

  The light irradiation method is not particularly limited, and light irradiation means for irradiating light having a wavelength capable of curing the water-soluble photocurable resin may be used. For example, when the water-soluble photocurable resin is a water-soluble ultraviolet curable resin, light may be irradiated using, for example, a UVLED, a metal halide lamp, a high-pressure mercury lamp, a germicidal lamp, or the like as the light irradiation means.

  Further, the heating method is not particularly limited, and a method such as radiation heating, heat conduction heating, or microwave heating may be used as appropriate.

  The increase in the viscosity of the first liquid printed on the fabric 1 may be performed after all the printing of the first liquid on the fabric 1 is completed. This is preferably performed when a predetermined time has elapsed after the printing of the liquid is completed. In this case, as will be described later, the nozzle includes a nozzle for printing the first liquid and a light irradiation unit or heating unit for increasing the viscosity of the first liquid, and the nozzle is more than the light irradiation unit or heating unit. In addition, by using the ink jet head arranged in front of the main scanning direction, it is possible to suitably perform the printing of the first liquid and the increase in the viscosity. That is, when such an ink jet head is used, first, the first liquid is printed on each part of the fabric 1 through which the first liquid is printed, and then the light irradiation part or the heating part passes through the first part. The viscosity of the liquid will be increased.

  The main scanning direction refers to the direction in which the inkjet head is scanned. Further, the sub-scanning direction is a direction different from the main scanning direction, and refers to a direction in which the inkjet head moves relative to the fabric 1 between each scan. In addition, the inkjet apparatus used in this embodiment may be a flat bed machine or a roll machine.

  Subsequently, in step S2, the second liquid containing the colorant and the water-soluble photocurable resin is printed on the fabric 1 by the ink jet method (second printing step), and the printed second liquid is irradiated with light. The second print layer 3 is formed on the fabric 1 by (light irradiation process).

  The second liquid may be printed on the fabric 1 so as to obtain a desired print image.

  A dye can be used as the colorant. Examples of the dye include disperse dyes, acid dyes, reactive dyes, and the like.

  Other compositions are not particularly limited as long as the second liquid contains a colorant and a water-soluble photocurable resin. For example, a moisturizer, a pH adjuster, a surface tension adjuster, a storage stabilizer, a dispersant and the like are further added. May be included. Also, the solvent of the second liquid is not particularly limited. For example, pure water, a water-soluble organic solvent (polyhydric alcohols, monohydric alcohols, alkyl ethers of polyhydric alcohols, amines, etc.) and the like are used. it can.

  The water-soluble photocurable resin and the light irradiation method are as described above, and the description thereof is omitted.

  The second liquid printed on the fabric 1 may be irradiated with light after the printing of the second liquid on the fabric 1 is completed. It is preferably performed after the printing of the liquid is completed. In this case, as will be described later, a nozzle for printing the second liquid and a light irradiation unit for irradiating the second liquid with light are provided, and the nozzle is located in front of the light irradiation part in the main scanning direction. By using the arranged inkjet head, printing of the second liquid and light irradiation can be suitably performed. That is, when such an ink jet head is used, first, the nozzle passes through each part on the fabric 1 to print the second liquid, and then the light irradiator passes through the second liquid. Will be irradiated.

  When ink-jet printing is performed on a fabric, it is preferable to suppress bleeding in order to obtain a fine printed image with respect to the colorant. On the other hand, it is preferable that the dyeing assistant is allowed to bleed into the fabric and sufficiently blend in. According to the present embodiment, the water-soluble photocurable resin is mixed with the colorant and printed (second printing step), and by irradiating with light (light irradiation step), the water-soluble photocurable resin is cured, and the first The viscosity of the two liquids increases, and bleeding of the colorant can be suppressed. Here, if the dyeing assistant is printed together with the colorant, the viscosity of the second liquid is immediately increased in order to suppress bleeding of the colorant, so that the dyeing assistant is sufficiently applied to the fabric. However, according to the present embodiment, since the dyeing assistant is printed in a separate step before printing the colorant, the dyeing assistant can be sufficiently applied to the fabric. As a result, when ink jet printing is performed on the fabric, the coloring can be improved by sufficiently allowing the dyeing assistant to conform to the fabric while suppressing bleeding.

  Note that the pretreatment of textile printing in the prior art is intended only to suppress bleeding of the colorant. The first printing step in the present embodiment is not for suppressing bleeding of the colorant, but for sufficiently allowing the dyeing aid to blend into the fabric, and is completely different from the pretreatment for printing in the prior art. In this embodiment, since the bleeding of the colorant is suppressed by mixing the colorant with a water-soluble photocurable resin, printing, and irradiating light, it is not necessary to perform a pretreatment step.

  Further, according to the present embodiment, before the second printing step, the viscosity of the first liquid printed on the fabric in the first printing step is increased, so that the colorant is added on the fabric 1. It is possible to avoid bleeding due to dissolution in one liquid, and to further suppress bleeding of the colorant.

  More preferably, the time from when the first liquid is printed on the fabric in the first printing step to when the viscosity of the first liquid is increased in the thickening step is the second time on the fabric in the second printing step. It is preferable that the time from printing the two liquids to irradiating the second liquid with light in the light irradiation step is longer.

  As a result, the first liquid can be soaked for a long period of time and become familiar with the fabric 1, and the second liquid can be prevented from being soaked into the fabric 1. Thereby, it is possible to make the dyeing aid more familiar to the fabric while suppressing bleeding of the colorant.

  Here, steps S1 and S2 (first printing step, thickening step, second printing step, and light irradiation step) can be performed with a simple configuration by using the following inkjet head 10. .

FIG. 3 is a diagram showing a schematic configuration of the inkjet head 10 according to the embodiment of the present invention. As shown in FIG. 3, the inkjet head 10 includes a first nozzle 13 for printing the first liquid in the first printing process, a first light irradiation unit 14 for performing light irradiation in the thickening process, Second nozzles 11y, 11m, 11c and 11k for printing the second liquid in the second printing step (corresponding to, but not limited to, yellow, magenta, cyan and black, respectively), and the above light A second light irradiation unit 12 for performing light irradiation in the irradiation process is provided, and the first nozzle 13 is disposed in front of the first light irradiation unit 14 in the main scanning direction, and the second nozzles 11y and 11m. 11c and 11k are arranged in front of the second light irradiation unit 12 in the main scanning direction, and the first nozzle 13 and the first light irradiation unit 14 are the second nozzles 11y, 11m, 11c and 1 k and than the second light irradiation unit 12 is disposed in the sub-scanning forward, the first nozzle 13 the distance L between the first light irradiation part 14, the second nozzle 11y, 11m, and 11c and 11k first It is wider than the distance from the two-light irradiation unit 12.

  When such an inkjet head 10 is used, the first nozzle 13 first passes through each part on the fabric 1 to print the first liquid. Thereafter, after the first liquid has spread and familiarized with the fabric 1 for the time required for the inkjet head 10 to move through the interval L, the first light irradiation unit 14 passes and increases the viscosity of the first liquid. Then, after moving relative to the fabric 1 of the inkjet head 10 in the sub-scanning direction, the second nozzles 11y, 11m, 11c and 11k pass and the second liquid is printed. And the 2nd light irradiation part 12 passes without leaving a gap, the viscosity of a 2nd liquid can be increased, and the bleeding of a 2nd liquid can be suppressed.

  Note that the inkjet head 10 and an inkjet apparatus including the inkjet head 10 are also within the scope of the present invention.

Moreover, in the said thickening process, when increasing the viscosity of the said 1st liquid by heating the 1st liquid on the fabric 1, in the inkjet head 10, instead of the 1st light irradiation part 14, a heating part is used. The provided inkjet head may be used. That is, the ink jet head in the present embodiment includes a first nozzle for printing the first liquid in the first printing process, a heating unit for heating the first liquid in the thickening process, and a second printing process. A second nozzle for performing printing of the second liquid, and a light irradiation unit for performing light irradiation in the light irradiation step, wherein the first nozzle is arranged in front of the heating unit in the main scanning direction. The second nozzle is disposed in front of the light irradiation unit in the main scanning direction, and the first nozzle and the heating unit are disposed in front of the second nozzle and the light irradiation unit in the sub scanning direction. The interval between the first nozzle and the heating unit may be wider than the interval between the second nozzle and the light irradiation unit. Thereby, the effect equivalent to the inkjet head 10 can be acquired.

  Note that the ink jet head and an ink jet apparatus including the ink jet head are also included in the scope of the present invention.

  Subsequently, in step S3, a coloring process for the colorant on the fabric 1 is performed (coloring process). The color development method is not particularly limited, and can be appropriately selected from known methods such as a steaming method, an HT steaming method, and an HP steaming method according to the material to be printed, ink, and the like.

  Finally, in step S4, the surface of the fabric 1 is washed with a cleaning liquid such as water and dried to remove the water-soluble photocurable resin, undyed dye, etc. on the fabric 1 (removal step). . For example, when printing is performed on a cellulose fiber fabric, it is generally washed with water or hot water, then treated with a soaping bath, further washed with water or hot water, and dried.

  As described above, a desired image can be printed on the fabric 1 with good color development while suppressing bleeding.

(Additional notes)
The inkjet printing method which concerns on one Embodiment of this invention is the 1st printing process which prints the 1st liquid containing a dyeing assistant on the fabric 1 with an inkjet system, and after a 1st printing process, a coloring agent and water-soluble light Includes a second printing step of printing a second liquid containing a cured resin on the fabric 1 by an ink jet method, and a light irradiation step of irradiating the second liquid printed on the fabric 1 in the second printing step with light. To do.

  For the colorant, it is preferable to suppress bleeding in order to obtain a fine printed image. On the other hand, it is preferable that the dyeing assistant is allowed to bleed into the fabric 1 and sufficiently blend in. According to said structure, a water-soluble photocurable resin can be mixed and printed in a coloring agent (2nd printing process), and the bleeding of a coloring agent can be suppressed by irradiating light (light irradiation process). Here, if the dyeing assistant is printed together with the colorant, it is difficult to sufficiently apply the dyeing assistant to the fabric 1. However, according to the above configuration, before printing the colorant, Since the dyeing assistant is printed in the process, the dyeing assistant can be sufficiently applied to the fabric 1. Thereby, when inkjet printing is performed on the fabric 1, color development can be improved while suppressing bleeding.

  In the inkjet printing method according to an embodiment of the present invention, the first liquid that is printed on the fabric 1 in the first printing step has a lower viscosity than the second liquid that is printed on the fabric 1 in the second printing step.

  According to said structure, a dyeing assistant can be made to adapt to the fabric 1 more.

  In the inkjet printing method according to an embodiment of the present invention, after the first printing step, before the second printing step, a viscosity increasing step for increasing the viscosity of the first liquid printed on the fabric 1 in the first printing step is performed. In addition.

  According to said structure, the bleeding of a coloring agent can be suppressed more by increasing the viscosity of the 1st liquid printed on the fabric 1 in the 1st printing process before the 2nd printing process. .

  In the ink jet printing method according to an embodiment of the present invention, the first liquid further includes a water-soluble photocurable resin. In the thickening process, the first liquid printed on the fabric 1 in the first printing process is light. Irradiate.

  According to said structure, in the said thickening process, the viscosity of a 1st liquid can be increased successfully.

  In the inkjet printing method according to another embodiment of the present invention, in the thickening step, the first liquid printed on the fabric 1 in the first printing step may be heated.

  According to said structure, in the said thickening process, the viscosity of a 1st liquid can be increased successfully.

  In the inkjet printing method according to an embodiment of the present invention, the time from when the first liquid is printed on the fabric 1 in the first printing process until the viscosity of the first liquid is increased in the thickening process is It is preferable that the time from when the second liquid is printed on the fabric 1 in the second printing process to when the second liquid is irradiated with light in the light irradiation process is longer.

  According to said structure, a dyeing assistant can be made to adapt to the fabric 1 more.

In the inkjet printing method, a first nozzle for printing the first liquid in the first printing process, a first light irradiation unit for performing light irradiation in the thickening process, and a second liquid in the second printing process. A second nozzle for performing printing, and a second light irradiation unit for performing light irradiation in the light irradiation step, and the first nozzle is disposed in front of the first light irradiation unit in the main scanning direction. The second nozzle is disposed in front of the second light irradiation unit in the main scanning direction, and the first nozzle and the first light irradiation unit are more than the second nozzle and the second light irradiation unit, The first printing is performed using the inkjet head 10, which is arranged forward in the sub-scanning direction, and the interval between the first nozzle and the first light irradiation unit is wider than the interval between the second nozzle and the second light irradiation unit. Process, thickening process, second printing process and light illumination A step.

  According to said structure, a 1st printing process, the said thickening process, a 2nd printing process, and the said light irradiation process can be performed suitably using one inkjet head. In particular, the inkjet head 10 includes the first printing step, the thickening step, the second printing step and the light irradiation step, the time interval between the first printing step and the thickening step, and the second printing. The structure is suitable for the time interval between the process and the light irradiation process. Thereby, when ink-jet printing is performed on the fabric 1, color development can be improved while suppressing bleeding with a simple configuration.

In the inkjet printing method, the first nozzle for printing the first liquid in the first printing process, the heating unit for heating the first liquid in the thickening process, and the second liquid in the second printing process. A second nozzle for performing printing, and a light irradiation unit for performing light irradiation in the light irradiation step, wherein the first nozzle is disposed in front of the heating unit in the main scanning direction; The nozzle is disposed in front of the light irradiation unit in the main scanning direction, and the first nozzle and the heating unit are disposed in front of the second nozzle and the light irradiation unit in the sub scanning direction. The first printing step, the thickening step, the second printing step, and the light irradiation step are performed using an inkjet head that is wider than the interval between the second nozzle and the light irradiation unit.

  According to said structure, a 1st printing process, the said thickening process, a 2nd printing process, and the said light irradiation process can be performed suitably using one inkjet head. In particular, the inkjet head includes the first printing step, the thickening step, the second printing step and the light irradiation step, the time interval between the first printing step and the thickening step, and the second printing step. And a structure suitable for the time interval between the light irradiation step and the light irradiation step. Thereby, when ink-jet printing is performed on the fabric 1, color development can be improved while suppressing bleeding with a simple configuration.

  The present invention is not limited to the above-described embodiments, and various modifications can be made within the scope of the claims, and embodiments obtained by appropriately combining the respective technical means disclosed are also included in the present invention. Included in the technical scope. Moreover, all the patent documents and nonpatent literatures described in this specification are used as reference in this specification.

  The present invention can be used in various fields such as the textile industry using inkjet printing.

DESCRIPTION OF SYMBOLS 1 Fabric 2 1st print layer 3 2nd print layer 10 Inkjet head 11y, 11m, 11c, 11k 2nd nozzle 12 2nd light irradiation part 13 1st nozzle 14 1st light irradiation part

Claims (8)

After the step of printing on the fabric by inkjet method a first liquid containing pure water or a water-soluble organic solvent as a solvent, which contains a dyeing aid for improving color development in the color development step using a colorant that is a dye A first printing step having a processing step of allowing the dyeing aid to bleed and conform to the fabric;
After the first printing step, a second printing step of printing the second liquid containing the colorant and the water-soluble photocurable resin on the fabric by an ink jet method;
A light irradiation step of irradiating the second liquid printed on the fabric in the second printing step with light having a wavelength at which the water-soluble photocurable resin is cured, and suppressing bleeding of the colorant;
Including
The color development step is a step of performing color treatment of the colorant on the fabric after the light irradiation step,
After the color development step, the inkjet method further comprises a removal step of removing the water-soluble photocurable resin and the colorant that has not been dyed on the fabric by washing the surface of the fabric with a washing liquid. Printing method.   The inkjet printing method according to claim 1, wherein the first liquid printed on the fabric in the first printing step has a lower viscosity than the second liquid printed on the fabric in the second printing step.   The method further comprises a thickening step of increasing the viscosity of the first liquid printed on the fabric in the first printing step after the first printing step and before the second printing step. The inkjet printing method as described in any one of. The first liquid further includes a water-soluble photocurable resin,
The inkjet printing method according to claim 3, wherein, in the thickening step, light is irradiated to the first liquid printed on the fabric in the first printing step.   The inkjet printing method according to claim 3, wherein, in the thickening step, the first liquid printed on the fabric in the first printing step is heated. The time from when the first liquid is printed on the fabric in the first printing process until the viscosity of the first liquid is increased in the thickening process is as follows:
6. The method according to claim 3, wherein the time from when the second liquid is printed on the fabric in the second printing step to when the second liquid is irradiated with light in the light irradiation step is longer. The inkjet printing method according to one item. A first nozzle for printing the first liquid in the first printing step,
A first light irradiation unit for performing light irradiation in the thickening step,
A second nozzle for performing printing of the second liquid in the second printing step, and a second light irradiation unit for performing light irradiation in the light irradiation step,
The first nozzle is disposed in front of the first light irradiation unit in the main scanning direction,
The second nozzle is disposed in front of the second light irradiation unit in the main scanning direction,
The first nozzle and the first light irradiation unit are arranged in front of the second nozzle and the second light irradiation unit in the sub-scanning direction ,
The interval between the first nozzle and the first light irradiation unit is wider than the interval between the second nozzle and the second light irradiation unit, using the inkjet head, the first printing step, the thickening step, the second printing step The inkjet printing method according to claim 4, wherein the light irradiation step is performed. A first nozzle for printing the first liquid in the first printing step,
A heating section for heating the first liquid in the thickening step,
A second nozzle for performing printing of the second liquid in the second printing step, and a light irradiation unit for performing light irradiation in the light irradiation step,
The first nozzle is disposed in front of the main scanning direction from the heating unit,
The second nozzle is arranged in front of the light irradiation unit in the main scanning direction,
The first nozzle and the heating unit are disposed in front of the second nozzle and the light irradiation unit in the sub-scanning direction ,
The interval between the first nozzle and the heating unit is wider than the interval between the second nozzle and the light irradiation unit, using the inkjet head, the first printing step, the thickening step, the second printing step, and the light irradiation step. The inkjet printing method according to claim 5, wherein:

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