KR101380374B1 - Method for natural-dyeing using cold pad batch - Google Patents

Abstract

The present invention relates to a dyeing method using a natural dye through a cold pad batch (CPB) process and, more specifically, to a dyeing method using a natural dye through a CPB process which can provide the optimum process for a natural dye by using a CPB process, which is one area of continuous dyeing methods among reactive dyeing methods. The dyeing method using a natural dye through a CPB process according to the present invention comprises one process selected from the group consisting of a pad-drying process, a pad-steaming process, a pad-aging process, and an alkali reduction process, in a method for dyeing an object with a natural dye by using a CPB process. [Reference numerals] (AA) Bleach or scour through a continuous washing machine and treat with a permeating agent; (BB) Silket finish through an open silket M/C; (CC) Neutralize and tenter dry; (DD) Nip dye through a CPB dyeing machine; (EE , HH) Dry through a tenter M/C; (FF) Pad with a mordant agent and dry by using a tenter M/C; (GG) Soap by using a continuous washing machine; (II) Soften, finish for functionalization and compact finish

Description

Natural dyeing method using CPB process {METHOD FOR NATURAL-DYEING USING COLD PAD BATCH}

The present invention relates to a dyeing method of a natural dye using a CPB process, and more particularly, by using a cold pad batch (CPB) process, which is a field of a continuous dyeing method among reactive dyeing methods The present invention relates to a method for dyeing natural dyes using a CPB process that can provide an optimal process.

Until now, natural dyeing has been mainly carried out by batch dyeing method, and cotton knit, which is a representative natural dyeing product, has many difficulties in product development due to disadvantages such as wrinkles, unevenness, peeling, and poor fastness. .

Cold Pad Batch (CPB) is a dyeing method that has advantages in production and management. Compared to the method, dye adsorption rate is high and dyeing is possible at low temperature, so it is very economical such as low energy consumption and high productivity. Known as a dyeing method.

However, there have been no reports of applying the same to natural dyeing using the CPB dyeing method or the CPB dyeing facility.

Therefore, the present invention is configured to solve the problems of the prior art as described above, the object of the present invention to provide an optimal CPB process according to natural dyes so that the CPB dyeing method can be applied to natural dyeing products, such as knitted material It is done.

The problems to be solved by the present invention are not limited to those mentioned above, and other problems to be solved can be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, the dyeing method of the natural dye using the CPB process according to the present invention, in the method of dyeing the natural dye using the CPB process, the CPB process is a Pad-Drying process, Pad- The steaming process, Pad-Ageing process and alkali reduction process characterized in that it consists of any one process selected from.

In addition, the dyeing method of the natural dye using the CPB process according to the present invention, the natural dye is a Brazilian wood, the CPB process is characterized in that consisting of the Pad-Drying process.

In addition, the dyeing method of the natural dye using the CPB process according to the present invention, the natural dye is any one selected from rhubarb, racks, sub Sun medicine, the CPB process is characterized in that consisting of the Pad-Steaming process .

In addition, the dyeing method of the natural dyes using the CPB process according to the present invention, the natural dye is any one selected from Maddera, Miroboran, Mokseocho, pomegranate, the CPB process consists of the Pad-Ageing process It is characterized by.

In addition, the dyeing method of the natural dye using the CPB process according to the present invention, the natural dye is a side, the CPB process is characterized in that the alkali reduction process.

In addition, the dyeing method of the natural dye using the CPB process according to the present invention, the dyeing material is a cellulose-based fabric or knit, the mordant is aluminum, iron, copper, tin, calcium mordant and potassium aluminum sulfate. It is characterized in that any one selected from the group consisting of.

According to the dyeing method of the natural dye using the CPB process according to the present invention having the above-described configuration, it is possible to provide an optimal CPB process according to the natural dye so that the CPB dyeing method can be applied to natural dyeing products, such as knitted material Can be.

The effects attained by the present invention are not limited to those mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the following description.

1 is a method of dyeing a natural dye using a CPB process according to the present invention, a process diagram of the Pad-Drying process.
2 is a method of dyeing a natural dye using a CPB process according to the present invention, a process diagram of the Pad-Steaming process.
3 is a method of dyeing a natural dye using a CPB process according to the present invention, a process diagram of the Pad-Ageing process.
Figure 4 is a dyeing method of the natural dye using the CPB process according to the present invention, a process of the alkali reduction process.
5a to 5b is a graph showing a change in K / S value according to the dye concentration in the dyeing method of the natural dye using the CPB process according to the present invention.
Figure 6 is a graph showing the ORP change of the side salt solution according to the caustic soda and hydrosulfite content by the alkali reduction process in the dyeing method of the natural dye using the CPB process according to the present invention.
Figure 7 Swatch prepared by the dyeing method of natural dyes using the CPB process according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the following description. However, the present invention is not limited to the embodiments described herein but may be embodied in other forms. Rather, the embodiments disclosed herein are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. Like numbers refer to like elements throughout.

1 is a method of dyeing a natural dye using a CPB process according to the present invention, a process diagram of a Pad-Drying process, Figure 2 is a method of dyeing a natural dye using a CPB process according to the present invention, Pad-Steaming process 3 is a process of dyeing a natural dye using a CPB process according to the present invention, a process of a Pad-Ageing process, Figure 4 is a method of dyeing a natural dye using a CPB process according to the present invention, 5A through 5B are graphs showing changes in K / S values according to dye concentration in the dyeing method of a natural dye using a CPB process according to the present invention, and FIG. 6 is a CPB according to the present invention. In the dyeing method of the natural dye using the process, it is a graph showing the ORP change of the salt solution according to the caustic soda and hydrosulfite content by the alkali reduction process, Figure 7 using the CPB process according to the present invention Swatch produced by the method of dyeing natural dyes.

As described above, the present invention utilizes a cold pad batch (CPB) process, which is one of continuous dyeing methods of reactive dyeing methods, to provide an optimal process according to natural dyes. It relates to a method of dyeing dyes. Therefore, the CPB process to the CPB dyeing method mentioned in the present invention are well-known techniques related thereto and are not particularly limited thereto.

More specifically, the dyeing method of the natural dye using the CPB process according to the present invention, in the method of dyeing the natural dye using the CPB process, the CPB process is a Pad-Drying process, Pad-Steaming process, Pad- It is characterized by consisting of any one process selected from the ageing process and alkali reduction (Alkali Reduction) process.

In the CPB process, dye adsorption, dye fixation through a mordant, and a post-treatment step are sequentially performed. Characteristic differences between the Pad-Drying process, the Pad-Steaming process, the Pad-Ageing process, and the alkali reduction process include dyes through a mordant. Appear in the fixing step, characterized in that it comprises a process of drying, steaming, ageing, and reduction, respectively. More specifically, it is as shown in FIGS.

In order to derive the optimal process for each natural dye, a total of 11 kinds of natural dyes for each process except alkali reduction process (p., Gall, quince, pomegranate, brazilwood, yellowish white, mirobaran, Mokseocho, rack, rhubarb, puppet) was performed. In this case, CM 30's single silket was used as the knitted fabric and treated with Protepon SG075 penetrant distributed by Wonyoung C & S, which showed the best test result. 3% (ows) was used. Here, potassium aluminum sulfate is used as a mordant because a general mordant containing iron, copper, etc., the color becomes dark and deep, and the color change is large and the natural dye loses a natural feeling. Compared with other mordant, the color change is small.

However, the dyeing method of the natural dye using the CPB process according to the present invention is not specifically limited to the knitted fabric of the fabric as the dyeing material, it can be applied to cellulose-based fabric, the mordant also the potassium aluminum sulfate The aluminum-based, iron-based, copper-based, tin-based, calcium-based mordant may be used.

[Table 1]

As shown in [Table 2] below, it was confirmed that dyeing was performed by the CPB process for the remaining natural dyes except for yellow and yellow ginseng. The results showed that the up was lowered, and the side applied an alkali reduction method utilizing a reducing agent as described later. For the rest of the natural dyes, the optimum of the CPB process was chosen by comparing the K / S values (dyeing amounts). For Brazil Wood, Pad-Drying process, rhubarb, rack, and sub-medicine were selected for Pad-Steaming process, and for Madder, Miroboran, Mokseocho, and pomegranate, Pad-Ageing process was selected.

[Table 2]

Next, the concentration of the dye was changed to 0.5, 1, 2, and 4% by CPB process selected for each natural dye, and the K / S values of the dye concentrations were measured. The results are shown in [Table 3] and FIG. 5A. To 5b. As a result, it was confirmed that as the dye concentration increases for all natural dyes, the K / S value increases, wherein the dye with the highest K / S value is a rack with a K / S value of 7.88 at 387 nm when used at 4%. Showed. In addition, in the case of appearance, the color became darker as the dye concentration increased, but the increase in color build-up was insignificant in the case of Madder.

[Table 3]

In the results of Table 3, some dyes caused disproportion problems as the dye concentration was increased. In particular, the disproportionate phenomenon of subacute drugs, pomegranates, and racks was noticeable. In order to alleviate this phenomenon, two types of dispersants, Protesol P-711 (Wonyoung C & S) and RAP-50 (Hanseo Synthetics), and two types of alkali (soda ash and caustic soda (50%)) were considered. ) Was used to analyze the degree of dispersibility and solubility increase. At this time, the concentration of the dye was fixed at 0.3% (ows).

As shown in [Table 4], it was shown that the sub-medicinal agent significantly improved the dispersibility when using the P-711 dispersant, but the RAP-50 had no effect, and in the case of alkali, the solubility was greatly improved. It was confirmed. In the case of racks and pomegranates, the degree of dispersibility improvement by the dispersant was insignificant, but the solubility increased with the use of alkali like the sun medicine, and there was no difference according to alkali.

After all, P-711 dispersant was effective for sunscreen, but dissolution of dye was more effective than dispersing, and the weak dye alkali has little adverse effect on dye and environment. The amount is more preferably 5 g / L.

[Table 4]

As shown in [Table 2], dyeing by the Pad-Drying process, Pad-Steaming process, and Pad-Ageing process is not suitable, but the alkali reduction process is applied by reducing and oxidizing with alkali and hydrosulfite. can do.

In order to establish the proper reducing conditions, the concentrations of caustic soda and hydrosulfite were gradually increased to observe changes in oxidation reduction potential (ORP) and salt color, and the results are shown in [Table 5]. At this time, the concentration of the salt solution was prepared to 1% (ows).

As shown in [Table 5], the hydrosulfite and caustic soda gradually became vating color even when only 0.5% (ows) were added. When the hydrosulfite and caustic soda entered 2% (ows), the interface between the salt solution and the air was clear. It is yellow. Afterwards, hydrosulfite and caustic soda were added up to 5%. This results in the same results as the ORP change graph of FIG. 6, in the case of ORP, hydrosulfite and caustic soda concentration gradually increased up to 2% (ows), but the equilibrium was maintained thereafter.

[Table 5]

On the other hand, the color change of the dyed fabric according to the concentration of hydrosulfite and caustic soda was also examined. The dye was fixed at 1% (ows) and the color and appearance were compared after nip-dyeing by varying the concentration of hydrosulfite and caustic soda. The results are shown in [Table 6]. As a result, the color build-up gradually increased until 0.5% (ows) of each preparation (hydrosulfite and caustic soda) was added, but there was no significant difference in the concentration increase above 0.5% (ows) and For samples stained at 1.0% (ows), oxidation occurred immediately after padding and exposure to air. This phenomenon may cause oxidative disproportionate during bulk production. Therefore, it is preferable to add 2.0% (ows) of hydrosulfite and caustic soda in the appropriate reducing aid concentration in the alkali reduction step for the side.

[Table 6]

Based on the above results, the field process was established and the established Pad-Drying process conditions are shown in FIG. 1, and dyeing of Brazilian wood was performed through the process. Various fastnesses and leveling properties (tailing and listing color difference) of the samples dyed by the Pad-Drying process are shown in [Table 7] and [Table 8]. As shown in this figure, the fabric dyed using Brazilwood dye in the field showed high leveling and relatively good fastness, which confirmed that the Pad-Drying process is suitable for dyeing Brazilwood. .

[Table 7]

[Table 8]

The pad-steaming process is shown in FIG. 2, and dyes of about three kinds of dyes of rhubarb, rack, and subline were subjected to the pad-steaming process. Table 9 shows the fastnesses of the samples dyed by the process, but the fastness of rhubarb and rack was somewhat lower, but the sub-medicine showed relatively good fastness compared to the other two dyes. ] Showed the color difference for the samples dyed with the three dyes, all showed excellent leveling properties, and these results confirm that the Pad-Steaming process is suitable for the dyeing of rhubarb, rack, and sunscreen.

TABLE 9

[Table 10]

The pad-ageing process is shown in Figure 3, four natural dyes, such as puppet, miraboran, Mokseocho, pomegranate proceeded to the process. As a result of analyzing the color difference of the four samples, Mokseocho showed a large color difference, but the other three dyes had a good level of homogeneity, and in the case of Maddera, Miro Boran and Mokseocho, they showed relatively good washing, sweating and friction fastness. This is due to the low build-up of the dye, which results in less dye in the fabric. Pomegranate had low grade of discoloration before and after washing and fastness of dry and wet friction but good leveling and fastness of washing. The fastness and leveling properties (tailing and listing color difference) are shown in Table 11 and Table 12, respectively, as a result of in situ staining properties of the pomegranate.

[Table 11]

[Table 12]

On the other hand, as one of the natural vat dye (dry salt dye) is possible to dye through reduction and oxidation, it was established a spot dyeing process by applying a CPB dyeing machine, this is shown in FIG. As a result of dyeing the side by the alkali reduction method in the field, it was possible to obtain a fabric having excellent leveling and fastness, the color difference (uniformity) according to the various fastnesses and the parts of the fabric dyed to the side through the alkali reduction method [Table 13] And [Table 14], respectively.

[Table 13]

[Table 14]

FIG. 7 is an optimal CPB process (Pad-Drying process, Pad-) for a total of nine natural dyes as described above, as natural dyes, such as quince, sesame, pomegranate, brazilwood, miraboran, mokseocho, rack, rhubarb, and walnut. Swatch produced in the field by steaming process, Pad-Ageing process and Alkali Reduction process are shown.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention. Therefore, it is to be understood that the present invention is not limited to the above-described embodiments. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims. It is also to be understood that the invention includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims.

Claims (6)

delete In the method of dyeing natural dyes using a cold pad batch (CPB) process,
The CPB process is made of any one process selected from Pad-Drying process, Pad-Steaming process, Pad-Ageing process and alkali reduction process,
The natural dye is brazilian wood,
The dyeing method of the natural dye using the CPB process, characterized in that the CPB process comprises the Pad-Drying process.
In the method of dyeing natural dyes using a cold pad batch (CPB) process,
The CPB process is made of any one process selected from Pad-Drying process, Pad-Steaming process, Pad-Ageing process and alkali reduction process,
The natural dye is any one selected from rhubarb, rack, sub-medicine,
The dyeing method of the natural dye using the CPB process, characterized in that the CPB process consists of the Pad-Steaming process.
In the method of dyeing natural dyes using a cold pad batch (CPB) process,
The CPB process is made of any one process selected from Pad-Drying process, Pad-Steaming process, Pad-Ageing process and alkali reduction process,
The natural dye is any one selected from Maddera, Miroboran, Mokseocho, Pomegranate,
The dyeing method of the natural dye using the CPB process, characterized in that the CPB process comprises the Pad-Ageing process.
In the method of dyeing natural dyes using a cold pad batch (CPB) process,
The CPB process is made of any one process selected from Pad-Drying process, Pad-Steaming process, Pad-Ageing process and alkali reduction process,
The natural dye is a side,
The CPB process is a dyeing method of natural dyes utilizing the CPB process, characterized in that the alkali reduction process.
6. The method according to any one of claims 2 to 5,
The dyeing material is a cellulose fabric or knit,
The mordant is any one selected from the group consisting of aluminum, iron, copper, tin, calcium mordant and potassium aluminum sulfate.

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