JP2000008266A - Liquid impregnation into fabric - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an efficient impregnation method of a solution including an elastic polymer into fabric with few rolls by using roll rotational pressure and cloth tension. SOLUTION: This impregnation method consists of impregnating a solution of elastic polymer such as a dimethylformamide solution of polyurethane into fabric such as a nonwoven fabric consisting of sea-island type multicomponent fiber. The above-mentioned solution is fed to a roll surface, a contact surface of the fabric with the roll surface or space of contact surface between the roll surface and the contact surface of the fabric with the roll surface and the above-mentioned fabric is fed to roll rotary direction along the roll surface under the condition satisfying the formula: T>=60ηUθ-130 [T is cloth tension (N/m); η is viscosity of solution N.min/m2); U is speed difference between roll rotary speed and fabric supply speed (m/min); θ is hold angle (radian)] and the above-mentioned solution is impregnated into the inside of the fabric.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for impregnating a cloth with a liquid. More specifically, the present invention relates to a method of forcibly impregnating a cloth with a liquid by using a rotation pressure of a roll and a tension of the cloth.

[0002]

2. Description of the Related Art Hitherto, an immersion impregnation method has been adopted to impregnate a polymer solution into a nonwoven fabric or the like. However, when the viscosity of the polymer solution becomes high, bubbles accumulate in the solution, resulting in non-uniformity. Easy to impregnate. Attempts have also been made to use rolls to compress the fabric to make the impregnation uniform, but unnecessary force of the rolls can adversely affect the properties of the fabric.

As a method of improving this, Japanese Patent Publication No.
No. 27442 discloses that a polymer solution is uniformly and constantly supplied to a roller surface by passing between a pair of rollers having a gap equal to or slightly larger than the thickness of the fiber assembly. Accordingly, a method of forcibly impregnating the inside of the fiber assembly with the polymer solution has been disclosed. This method is shown in FIG. 2, in which the fibrous sheet 1 is advanced in the direction of the rotation of the pair of impregnating rolls 9 through the gap between the multi-stage rolls as indicated by arrows, and a constant amount of the impregnating liquid 10 is constantly supplied onto the rolls. The impregnating liquid such as a polymer solution is brought into contact with the fibrous sheet 1 and impregnated by the rotational force of a roll. Reference numeral 11 denotes an impregnating liquid drain roll, and 12 denotes an impregnating liquid receiver.

[0004]

According to the above method,
The impregnation occurs with the pressing force of the rolls when the cloth passes through the rolls as a driving force, and the passage time per one roll (residence time in the range pressed by the rolls) is at most 0.1 to 0.2. Since the time is extremely short, such as about seconds, a large number of rolls are required to sufficiently perform impregnation. However, the use of a large number of rolls is not a cost and space advantage and is not an industrially advantageous method. Accordingly, an object of the present invention is to provide a method for impregnating a cloth with a liquid, which can exhibit the above-mentioned impregnation effect even when the number of rolls is reduced.

[0005]

Means for Solving the Problems The present inventors have conducted intensive studies to achieve the above object, and if the residence time per roll can be increased, it is not necessary to use a large number of rolls. Focusing on the fact that the impregnation treatment can be carried out, the present invention has been achieved. That is, the present invention is a method of impregnating a liquid inside a cloth using a roll, wherein the liquid is in contact with the roll surface or the contact surface with the roll surface of the fabric, or the contact surface between the roll surface and the roll surface of the fabric. A liquid is impregnated inside the cloth by guiding the cloth along the roll surface in the rotation direction of the roll while supplying the cloth to the gap.

[0006] The liquid impregnation of the cloth of the present invention is carried out using a roll, but there is no particular limitation on the size and material of the roll, and various types can be used. Practically, those having a diameter of about 100 mm to 500 mm are used. As the liquid to be impregnated into the cloth, a resin liquid in which an organic compound, an organic polymer compound or the like is dissolved in an organic solvent, preferably a liquid in which an elastic polymer is dissolved is used. As the cloth, a nonwoven fabric, a web, a felt, etc. Things are available.

Examples of the elastic polymer include thermoplastic elastomers such as polyurethane and styrene-isobutylene-styrene block copolymer. Among them, when the fabric is a non-woven fabric for artificial leather, it is supple. Polyurethane is preferred in that it can provide a polymer. These elastic polymers are dissolved in an organic solvent and used as a liquid for impregnation.As the organic solvent for dissolving the elastic polymer,
There is no particular limitation as long as it can dissolve the elastic polymer, and examples thereof include dimethylformamide, dimethylacetamide, and dimethylsulfoxide. Dimethylformamide is preferred from the viewpoint of the quality of the obtained fabric and the solubility of polyurethane. The concentration of the elastic polymer in the solution cannot be determined unequivocally, but if the concentration is too high, the viscosity of the solution increases. Therefore, the concentration is usually 5 wt% to 30 wt% in consideration of the quality of the fabric.

As described above, non-woven fabrics,
Various things such as web and felt can be used,
When the fabric is used as artificial leather, a nonwoven fabric is preferred, and the fibers constituting the fabric are more preferably multicomponent fibers having a sea-island component structure. As the polymer constituting such a sea-island component, various polyolefins,
Polyamides, polyesters, polyacrylonitriles, polystyrenes, styrene-acrylonitrile copolymer, methyl (meth) acrylate-acrylonitrile copolymer, polyvinyl alcohol, etc., but the sea component is a polyamide or polyolefin,
The effect of the present invention is large when a nonwoven fabric in which island components are polyamides, polystyrenes or polyesters is used,
preferable.

In order to impregnate the cloth of the present invention with a liquid, as shown in FIG. 1, a liquid containing an elastic polymer or the like is contacted with the surface of the impregnating roll, the surface of the cloth impregnating roll, or the surface of the impregnating roll. This is performed by guiding the fabric along the impregnating roll surface in the rotation direction of the impregnating roll while supplying the fabric to the gap between the contact surface and the impregnating roll surface. The liquid may be supplied by a pump or by providing a liquid reservoir as shown in FIG. Although the temperature of the impregnating roll and the temperature of the liquid containing the elastic polymer may be controlled by separate control mechanisms, the temperature of the entire room may be controlled.

In the present invention, it is important that the fabric is guided along the impregnating roll surface. If the contact surface with the impregnating roll is too small, the effect of the present invention is small, and if it is too large, the operation becomes difficult. So 1/4 of the circumference of the impregnating roll
It is preferable that the distance is adjusted to about １ ／. The rotation speed of the impregnating roll is set in relation to the feed speed of the fabric, and is usually about 1 to 10 times the feed speed of the fabric and the tension is 0.1
It is carried out at about kg / cm to 5 kg / cm. Hereinafter, the present invention will be described more specifically with reference to the drawings.

FIG. 1 is a conceptual diagram showing a method of impregnating a cloth into a liquid according to the present invention. The fibrous sheet 1 as a fabric is sent out by a nip roll (delivery roll) 2 and is taken up by a nip roll (take-off roll) 5 via a guide roll 4 while being in contact with the surface of the impregnation roll 3. Reference numeral 6 denotes a supply line for supplying the impregnating liquid, 7 denotes an impregnating liquid supply tank, and 8 denotes a gear pump for supplying the impregnating liquid.

In this manner, the cloth is impregnated with the liquid. Elements such as the cloth feeding speed, the roll rotation speed, the roll holding angle, the liquid viscosity, and the cloth tension are individually set. Can be operated. However,
Depending on the setting conditions of individual elements, the cloth may be wound around a roll or the cloth may be stretched. The present inventors have further studied and found that when they are operated so as to satisfy a specific relationship, they can be operated stably. The hugging angle is an angle (radian) at which the fabric is wound along the roll surface.

According to the knowledge of the present inventors, the difference between the rotation speed of the impregnating roll and the feeding speed of the fabric is U (m / min), the hugging angle of the impregnating roll is θ (radian), and the viscosity of the impregnating liquid is η (N · min / m ² ) and the tension of the fabric is T (N /
When m), the operation is preferably performed so as to satisfy T ≧ 60ηUθ−130, more preferably the operation is performed so as to satisfy T ≧ 60ηUθ, and T ≧ 60ηUθ +
It is more preferred to operate at 175. Here, N is Newton, and the unit of ηUθ is N / m. FIG. 3 shows these relationships. Hereinafter, the present invention will be described specifically with reference to examples.

[0014]

EXAMPLES Example 1 As a cloth, 50 parts by weight of 6-nylon, polyethylene 5
A non-woven sheet having a three-dimensional network structure obtained by mixing and spinning 0 parts by weight is used.
A roll having a diameter of 220 mm, a roll having a diameter of 220 mm was used as a nip roll, and a roll having a diameter of 160 mm was used as a guide roll.
A dimethylformamide solution containing 20% by weight of a polyurethane elastomer is prepared as an impregnating liquid, and the impregnating liquid is uniformly supplied to a surface of an impregnating roll rotating at a speed of 600 ml / min by a pump at a speed three times as high as the cloth feeding speed. The sheet was guided along the impregnating roll by 周 rotation (embracing angle π radian) at a tension of 1 kg / cm (980 N / m) in the rotation direction of the impregnating roll. The degree of impregnation of the liquid was determined by cutting the nonwoven fabric in the cross-sectional direction and measuring the degree of penetration. Table 1 shows the results.

Example 2 A nonwoven fabric was impregnated with a liquid in the same manner as in Example 1 except that the nonwoven fabric sheet was made to follow the impregnating roll by 1/4 turn (embracing angle π / 2 radians) and guided in the rotation direction of the impregnation roll. . Table 1 shows the results.

Example 3 The rotating speed of the impregnating roll was set to be twice the feed speed of the fabric, and the tension of the nonwoven fabric sheet was set to 0.5 kg / cm (490 N).
/ M), except that the liquid was impregnated in the nonwoven fabric in the same manner as in Example 1. Table 1 shows the results.

Comparative Example 1 Using the same nonwoven fabric and impregnation liquid as in Example 1, the nonwoven cloth was impregnated with the liquid by the method shown in FIG. The results are shown in Table 1. As a result, ten pairs of impregnating rolls were required.

Example 4 The same cloth and roll as in Example 1 were used, the position of the guide roll 4 was adjusted to set the nonwoven fabric impregnating roll holding angle to 120 degrees (2π / 3 radians), and 20% by weight of polyurethane elastomer. dimethylformamide solution (viscosity 90 poise, 0.15N · min / m ²⁾ at a speed of at pump 600 ml / min, feed speed of the fabric 3m / m
supply evenly to the surface of the impregnating roll rotating at 3 times
0.5 kg / cm tension (490 N / m)
To guide the impregnating roll in the rotation direction. The running of the fabric was stable, and the degree of impregnation was good as shown in Table 1.
ηθU was 1.9 (N / m), and the tension T (N / m) of the nonwoven fabric sheet satisfied T ≧ 60ηθU + 175.

Example 5 Using the same cloth and roll as in Example 4, the roll holding angle of the nonwoven fabric sheet was set to 120 degrees (2π / 3 radians), and a 20% by weight polyurethane elastomer in a dimethylformaldehyde solution (90 poise, 0.1%) was used. 15N ・ min
/ M ² ) was uniformly supplied by a pump at a speed of 2000 ml / min to the surface of an impregnating roll rotating at a speed three times the fabric feeding speed of 8 m / min. 0.3k tension of non-woven sheet
g / cm (294 N / m) in the direction of rotation of the impregnating roll. Table 1 shows the degree of liquid impregnation. At this time, ηθU
= 5.0 (N / m), thereby satisfying T ≧ 60ηθU-130.

Example 6 Using the same fabric and roll as in Example 4, the roll holding angle of the nonwoven fabric sheet was 90 degrees (π / 2 radians).
15% by weight of a polyurethane elastomer in a dimethylformaldehyde solution (50 poise, 0.084 N · min /
m ² ) was uniformly supplied to the surface of the impregnating roll rotating at a speed of 2000 ml / min by a pump at a speed three times the fabric feeding speed of 9 m / min. 0.3kg tension on nonwoven sheet
/ Cm (294 N / m) in the direction of rotation of the impregnating roll. Table 1 shows the degree of liquid impregnation. At this time, ηθU =
2.4 (N / m), thereby satisfying T ≧ 60ηθU.

[0021]

[Table 1]

[0022]

According to the present invention, it is possible to provide a method for efficiently impregnating a cloth with a solution containing an elastic polymer or the like along the roll surface. According to such a method, not only the effect of impregnating the cloth with the liquid is excellent, but also the number of rolls used can be reduced, which is industrially advantageous.

[Brief description of the drawings]

FIG. 1 is a schematic view showing an example of a method for impregnating a fabric with a liquid according to the present invention.

FIG. 2 is a schematic view showing a conventional method for impregnating a cloth with a liquid.

FIG. 3 is a graph showing a relationship between a fabric tension T (N / m) and ηθU (N / m).

[Explanation of symbols]

 Reference Signs List 1 fibrous sheet 2 nip roll 3 impregnating roll 4 guide roll 5 nip roll 6 impregnating liquid supply line 7 impregnating liquid supply tank 8 gear pump 9 impregnating roll 10 impregnating liquid 11 impregnating liquid draining roll 12 impregnating liquid receiver

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Yasuyuki Miyake 1621 Sakurazu, Kurashiki-shi, Okayama Prefecture Kuraray Co., Ltd. (72) Inventor Kazunori Watanabe 1621 Sakurazu, Kurashiki-shi, Okayama Prefecture Kuraray Co., Ltd. F-term (reference) 3B154 AA07 AA08 AA09 AA17 AB19 AB22 BB02 BB32 BB47 BC22 BD15 BD18 BE04 BF03 BF14 BF15 BF16 DA21 4L033 AA05 AA07 AA08 AB01 AB04 AB07 BA71 CA50

Claims (10)

[Claims] 1. A method for impregnating a liquid inside a cloth using a roll, comprising: contacting the liquid with a roll surface, a contact surface of the cloth with the roll surface, or a contact surface between the roll surface and the contact surface of the cloth with the roll surface. A method for impregnating a cloth with a liquid, wherein the liquid is impregnated inside the cloth by guiding the cloth along the roll surface in the rotation direction of the roll while supplying the cloth to the gap. 2. The method according to claim 1, wherein the liquid is a solution containing an elastic polymer. 3. The method according to claim 2, wherein said elastic polymer is polyurethane. 4. The method according to claim 1, wherein said liquid is a solution of polyurethane in dimethylformamide. 5. The method according to claim 1, wherein said cloth is a non-woven fabric. 6. The method according to claim 1, wherein the fibers constituting the fabric are multicomponent fibers having a sea-island component structure. 7. The method according to claim 6, wherein the sea component is a polyamide or polyolefin, and the island component is a polyamide, polystyrene or polyester. 8. The difference between the rotation speed of the roll and the feed speed of the fabric is U (m / min), the hugging angle of the roll is θ (radian), and the viscosity of the liquid is η (N · min / m ² ). When the tension of the cloth is T (N / m), T is T ≧ 60ηUθ−
The method for impregnating a cloth according to any one of claims 1 to 7, wherein the cloth is guided so as to satisfy 130. 9. The difference between the rotation speed of the roll and the feed speed of the fabric is U (m / min), the hugging angle of the roll is θ (radian), and the viscosity of the liquid is η (N · min / m ² ). 8. The method for impregnating a cloth with a liquid according to claim 1, wherein the cloth is guided so that T satisfies T ≧ 60ηUθ, where T (N / m) is the tension of the cloth. 10. The difference between the rotation speed of the roll and the feed speed of the fabric is U (m / min), the hugging angle of the roll is θ (radian), and the viscosity of the liquid is η (N · min / m ² ). When the tension of the cloth is T (N / m), T is T ≧ 60ηUθ
The method for impregnating a cloth with a liquid according to any one of claims 1 to 7, wherein the cloth is guided so as to satisfy +175.