JPH02154074A - Sheet material for printing - Google Patents

Abstract

PURPOSE:To obtain the title sheet material for display label having specific physical properties by forming a porous body on a base material sheet composed of nylon fiber having dispersed and formed microporous layer and having the constitutional fiber bonded at the crossed points. CONSTITUTION:A nylon resin coating containing a nylon resin, methyl alcohol and calcium chloride, etc., is applied to a base material having a microporous layer formed on whole faces of each constitutional fiber of a nylon taffeta using 50-210d nylon fiber and consisting of >=150 numbers of pick by immersing the nylon taffeta into a solution of calcium chloride-methyl alcohol and etching the nylon taffeta and the coated base material is immersed into water to provide the sheet material for printing containing dispersed and bonded calcium chloride, having 50-250mu thickness and 50-120mm stiffness and softness by canch lever test and attached by a porous sheet material. The above-mentioned sheet material has proper stiffness capable of printing every paper and is suitable as a display label use without impairing printabilities.

Description

Detailed Description of the Invention <Industrial Application Field> The present invention relates to a printing sorting material, more specifically, a sheet material having appropriate rigidity that can be printed on by a sheet printing machine, The sheet material particularly relates to printing sheet materials used as display labels for clothing and the like.

<Prior Art and Problems to be Solved by the Invention> Printing on sheet materials includes printing on long sheets as well as printing on individual sheets cut into appropriate sizes.

In normal long sheet printing, a long sheet material to be printed is continuously fed into a printing roll section of a printing machine. On the other hand, when printing individual sheets, the sheets to be printed must be cut into appropriate sizes and sequentially fed to the printing roll section of the printing machine, and the feeding mechanism is a large amount of stacked sheets. A method is used in which the sheet material to be printed is sequentially slid and fed leaf by leaf.

In order for the printing sheet material to be compatible with this feeding mechanism in the case of leaflet printing, the printing sheet material must have appropriate rigidity (hardness), that is, it must be a flexible printing sheet material. If so, it is difficult to feed the sheets smoothly in a feeding mechanism that slides each sheet to the printing roll section, and furthermore, it is difficult to perform operations before and after printing, such as aligning operations, smoothly.

On the other hand, when a printed sheet material is attached to clothing and used as a so-called label for clothing to indicate its quality, handling precautions, etc., its rigidity (
There is a permissible limit on hardness.

Therefore, it is desired to supply a printing sheet material that satisfies both the requirements of print processing suitability in sheet-fed printing presses and compatibility with illuminated display labels.

Means for Solving the Problems> The present invention provides a microporous printing material made of so-called nylon resin that has the most preferable rigidity (hardness) as a printing material without impairing printing permeability due to the microporosity. ), and the above-mentioned problem has been solved.

That is, the first invention provides a fabric (knitted woven fabric, non-woven fabric, etc.) composed of nylon fibers, in which microporous particles are dispersed over almost the entire circumferential surface of each constituent fiber, and the constituent fibers are formed mainly at their intersections. A printing sheet material in which a porous body is formed and adhered to the fixed substrate by applying a nylon resin paint, and the thickness thereof is set to 50p to 250μ, and the bending resistance is 50mm to 120μ by a cantilever test. The second invention is a fabric (#Hwi fabric, non-woven fabric, etc.) made of nylon fibers, in which microporous is dispersed and formed on almost the entire circumferential surface of each constituent fiber, and each constituent fiber is mainly At the same time, calcium chloride was dispersed and fixed on the substrate fixed to the base by applying nylon resin paint, and the thickness was increased to 50 mm.
It is a printing sheet material having a thickness of μ to 250 μ and a bending resistance of 50 to 120 am by a cantilever test.

By the way, a sheet material in which the peripheral surface of the constituent fibers of a nylon fiber cloth is made microporous has already been published in the Utility Model Publication Act in 1973.
-46381 and Utility Model Publication No. 54-42635 are known. Furthermore, sheet materials made of a nylon fiber woven fabric and a porous nylon resin layer are already known in Japanese Utility Model Publications No. 53-42477 and No. 54-42637.

Making the nylon fiber fabric (woven fabric, non-woven fabric, etc.) itself microporous is performed by immersing the fabric in a calcium chloride-methyl alcohol solution, etching the constituent fibers, while making the porous nylon resin layer microporous. The attachment is carried out by impregnating or coating the fabric with a calcium chloride-methyl alcohol solution of nylon resin.

The present invention provides a printing sheet material that maintains a good balance of rigidity, printability, and thickness and texture that do not cause discomfort to the human body when worn on clothing, which are optimal for leaflet printing machines. By integrating the physical properties imparted by the so-called etching process and the physical properties imparted by the impregnating coating process, we succeeded in providing the above-mentioned printing sorting material. By dispersing and fixing an appropriate amount of this material, we were able to successfully provide an even better printing sorting material. When trying to print display labels that can be attached to clothing using a printing press, the physical properties of the sheet material that can be printed on the printing press, and when the printed sheet material is used as a display label and attached to clothing and worn. It is difficult to obtain a printing sheet material that satisfies all aspects of feel and feel that it provides to the human body by using the etching treatment method or the impregnation coating treatment method. That is, the etching treatment method provides a very good feel and texture, but is insufficient in terms of rigidity.

On the other hand, in the impregnating coating method, rigidity can be imparted by increasing the amount of nylon resin deposited to some extent, but the feel and feel are unfavorable.

In the present invention, after the etching treatment, impregnation coating treatment is repeated to make almost the entire circumferential surface of the constituent fibers of the nylon fiber fabric microporous, and at the same time, each constituent fiber is welded to each other at their intersection points. By further adhering an appropriate amount of a porous body of nylon resin to the fabric in the state, its physical properties can be changed to a thickness of 50 μm to 25 μm.
0 μ, and bending resistance (calent lever test) 501-12
This makes it possible to provide printing sheet materials whose thickness is controlled to 0 m.

In this case, the amount of the porous nylon resin adhered to the etched substrate is 5 g/nf to 30 g/rd, but the thickness is 50 u to 250 μ, and the bending resistance (calent lever test) is 50 to 120 m5. Most preferable to maintain balance.

Furthermore, in the present invention, we were able to exhibit superior rigidity, feel, and texture, and also succeeded in maintaining these physical properties in the best condition for a long period of time. That is, it is a sorting material that has been subjected to an impregnation coating treatment after etching treatment, and this sheet material is further coated with calcium chloride throughout.
By dispersing and fixing them, it is possible to provide an excellent printing sheet material that achieves the object of the present invention.

Sheet materials based on nylon fabric tend to absorb moisture and become excessively soft. Calcium chloride, which is dispersed and fixed throughout the sheet material, exerts a moisture absorption function on the surface of the sheet material, and the moisture absorption This is thought to prevent excessive softening of the sheet material by stopping it from reaching the entire interior of the sheet material.

However, on the other hand, the presence of excessive calcium chloride causes stickiness on the surface of the sheet material, impairing the feel and hand.

The amount of calcium chloride dispersed and fixed in the present invention is 0.5g/
n(~3, Og/n(must be 0.5g/
When it is less than +d, the moisture absorption function on the surface of the sheet material is insufficient, and when it exceeds 3.0 g/rr+, stickiness occurs on the surface of the sheet material.

Furthermore, in the present invention, the rigidity can be further improved by finally treating with various types of fat liquids. In this case, acrylic, melamine, etc. are used.

<Example> Example 1 Nylon woven fabric (6-nylon 100%, 70 denier,
170 pieces of taffeta were immersed in a solution of 25 parts by weight of calcium chloride and 100 parts by weight of methyl alcohol for 20 seconds, passed through a mangle, and then dried (120°C for 11 minutes) to form a nylon weave. A base sheet was obtained in which micro bolus gas was dispersed and formed on almost the entire circumferential surface of each of the constituent fibers of the cloth, and each of the constituent fibers were fixed to each other at their intersections.

Next, a nylon resin paint with the following composition was applied to the above base sheet at a coating amount of 100 g/r+, and then soaked in water for 2 hours.
It was immersed for 0 seconds and then dried (120'C for 11 minutes) to obtain a printing sheet material in which 23 g/n of the nylon resin porous material was attached to the base sheet.

This printing sheet material is shown in Table 1. It has the physical properties as shown in Figure 1, and is suitable for printing on every leaf and is suitable as a label for displaying clothing (epsilon).

6-nylon 20 Weight part methyl alcohol 125 Calcium chloride 50 Calcium carbonate 30 Fluorescent agent 0.85 Comparative example 1 Nylon woven fabric (6-nylon 100%, 70 denier,
170 pieces of taffeta) were mixed with a solution of 25 parts of calcium chloride and 100 parts of methyl alcohol for 20 years. After crushing, it is passed through a mangle and then dried (40"C for 11 minutes) to form microporous dispersed on almost the entire circumference of each constituent fiber of the nylon woven fabric, and each constituent fiber is mutually At the intersection, a fixed substrate sort was obtained.

Example 2 Nylon woven fabric (6-nylon 100%, 70 denier,
After immersing 170 pieces of taffeta in a solution of 25 parts by weight of calcium chloride and 100 parts by weight of methyl alcohol for 20 seconds, it was passed through a mangle, and then dried (120°C for 11 minutes) to form a nylon fabric. A base material sheet was obtained in which micro bolus gas was dispersed and formed on almost the entire circumference of each constituent fiber of the cloth, and the constituent fibers were fixed to each other at their intersections.

Next, a nylon resin paint of the following composition was applied on the base sheet at a coating amount of 90 g/n, and dried at 100'C for 1 minute to form a porous nylon resin paint with a coating weight of 23 g/rd on the base sheet. A printing sheet material was obtained in which calcium chloride was dispersed and fixed over the entire base sheet at a rate of 0.85 g/nf.This printing sheet material had physical properties as shown in Table 1, and It was suitable for leaf printing and had a desirable feel as a clothing display label.

6-nylon 20 parts by weight Methyl alcohol 125 Calcium chloride 50 Calcium carbonate 30 Comparative example 2 Nylon woven fabric (6-nylon 100%, 70 denier,
After applying nylon resin paint of the following composition at a coating amount of 80 g/pot on top of 170 taffetas (170 pieces of taffeta), immerse it in water for 1 hour.
Soak for minutes, then dry (+40@c, 1 minute),
A printing sheet material was obtained in which a porous nylon resin material of 23 g/n was attached to a nylon woven fabric.

6-Nylon 20 Parts by weight Methyl alcohol 50 Calcium chloride 25 Calcium carbonate 10 Table procedure amendment 1 August 1999 sunrise

Claims (5)

[Claims] (1) By applying a nylon resin paint to a base in which microporous particles are dispersed and formed on almost the entire circumference of each constituent fiber of a fabric made of nylon fibers, and each constituent fiber is fixed to each other mainly at their intersections. A sheet to which the formed porous body is attached, which has a thickness of 50 μm to 250 μm and a bending resistance of 50 mm to 120 μm according to a cantilever test.
A printing sheet material characterized by having a diameter of mm. (2) Fabric made of nylon fiber is 50 denier or more
The printing sheet material according to claim (1), which is nylon taffeta having a denier of 210 and a total number of 150 or more strokes. (3) A fabric made of nylon fibers is formed by applying a nylon resin paint to a base in which microporous particles are dispersed over almost the entire circumference of each constituent fiber, and the constituent fibers are fixed to each other at their intersections. A sheet formed by adhering a porous material to which calcium chloride is dispersed and fixed throughout the sheet, and has a thickness of 50 μm to 250 μm.
And the bending resistance by cantilever test is 50mm~1
A printing sheet material characterized by having a thickness of 20 mm. (4) Fabric made of nylon fibers is 50 denier or more
The printing sheet material according to claim (3), which is nylon taffeta having a denier of 210 and a total number of 150 or more strokes. (5) Dispersed and fixed amount of calcium chloride is 0.5g/m^2
The printing sheet material according to claim (3) or (4), which has a weight of 3.0 g/m^2.