JPH0533251A - Hydroentangling web carrier and hydroentangled nonwoven fabric manufacturing method - Google Patents

Abstract

(57) [Summary] [Purpose] A hydroentanglement web transfer device suitable for stable production of hydroentangled nonwoven fabrics with good texture, excellent surface quality, and improved longitudinal / lateral strength ratio. It is an object of the present invention to provide a hydroentangled nonwoven fabric manufactured by using the apparatus. [Structure] A web-conveying device for hydroentanglement, characterized in that a web containing fibrous material is reciprocated at right angles to the conveying direction in a support, and a hydroentangled nonwoven fabric is produced using the device. Regarding the method. [Effect] The hydroentangled nonwoven fabric obtained by using the hydroentanglement web conveying device of the present invention is uniformly entangled, has a good texture, has a good texture, has a high strength, and has a small aspect ratio of strength. It has excellent drape properties and is used for general purposes.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a web conveying device for producing a hydroentangled nonwoven fabric and a method for producing a hydroentangled nonwoven fabric.

[0002]

2. Description of the Related Art In recent years, non-woven fabrics have been widely used in many fields in place of woven fabrics. Because of its low cost and high productivity, it can be used as a substitute for conventional woven fabrics, or can be used as a functional non-woven fabric because it can impart performance not obtained with woven fabrics. Furthermore, conventionally, the functionality of nonwoven fabrics has been utilized in the field of paper pulp as a raw material, and the supply as a high-performance material has become popular.

Among them, in particular, by using a method of injecting a high-pressure water stream onto a web to entangle the fibers forming the web three-dimensionally, the obtained non-woven fabric has a texture close to that of a cloth, feels and drapes. It is attracting attention because it excels in sex. This method is called by the name of hydroentanglement method or the like.

In the hydroentanglement method, a web containing fibers is loaded and conveyed on a porous support, and a high-pressure columnar water stream is jetted from above the web. Therefore, the nonwoven fabric after the entanglement is parallel to the web conveying direction. A trace of columnar water flow remains in the area. When a non-woven fabric having a perforated pattern or a non-woven fabric referred to as a perforated non-woven fabric is produced using a support having a relatively large mesh, these water flow traces are not visually observed. However, 10
When a support of around 0 mesh is used, water traces remain,
Not only is it a defect in appearance, but also the fibers are selectively arranged in the web conveying direction (longitudinal direction) to form a web having a large aspect ratio, unevenness in entanglement, etc.

Therefore, in order to remedy these drawbacks, various methods for improving the apparatus for generating a columnar water stream have been disclosed. Japanese Examined Patent Publication No. 47-30740 discloses a method in which a perforated plate including a fluid injection hole is capable of continuously moving, and the perforated plate is reciprocated at right angles to the traveling direction of the fiber bundle. As a result, a non-woven fabric having diagonal entanglement lines whose directions are opposite to each other is obtained, and a high-strength non-woven fabric is obtained also in the width direction. Japanese Patent Publication 62-123
Japanese Patent Laid-Open No. 42-42 discloses a method of ejecting a fluid by rotating a nozzle header including a plurality of fluid ejection nozzles while drawing a spiral trajectory. As a result, it is said that a non-woven fabric having a satin-finished surface with no unevenness in vertical and horizontal entanglement strength can be obtained. Japanese Patent Publication No. 1-35933 discloses a method in which a high-speed fluid ejection device and a web supply device are interlocked and rocked in the same direction. As a result, a very uniform three-dimensional entanglement can be obtained, and a nonwoven fabric excellent in flexibility and strength can be obtained.

In this way, by moving the nozzle,
It is shown as a method of improving the appearance and properties of hydroentangled nonwovens. However, the nozzle diameter is usually 10 to 500 μm and the nozzle interval is 10 to be used for performing strong entanglement.
It is extremely fine at 1500 μm. It is extremely difficult to move a head having a large number of such nozzles for a long time under uniform conditions, and it may be difficult to maintain the device.

[0007]

DISCLOSURE OF THE INVENTION The present invention is intended to solve the above-mentioned conventional problems, and stabilizes a nonwoven fabric having a good texture, excellent surface quality, and improved longitudinal / lateral strength ratio. The purpose is to produce.

[0008]

[Means for Solving the Problems] The inventors of the present invention have made extensive studies to solve the above problems. As a result, unlike the prior art, it was found that the same effect as the conventional method can be obtained by moving the support for loading and transporting the web, and the maintenance of the device is easy. It came to completion. That is, the present invention, in the hydroentanglement web transport device, the web transport support of the hydroentanglement nonwoven fabric manufacturing apparatus in which the high-pressure columnar water jet injection device is installed, in loading and transporting the hydroentanglement web containing fibrous material. The supporter reciprocates at right angles to the transport direction, which is a web transporting device for hydroentanglement. Further, the hydroentanglement web transporting device, the web transporting support of the hydroentangling nonwoven fabric manufacturing apparatus in which the high-pressure columnar water jet injection device is installed, in loading and transporting the hydroentanglement web containing fibrous material, the support Reciprocates at right angles to the transport direction,
A method for producing a hydroentangled nonwoven fabric, characterized in that a high-pressure water stream is jetted from above the hydroentangling web in the motion state to entangle fibers constituting the web three-dimensionally.

The present invention will be described in detail below. First, the support of the hydroentanglement web transfer device will be described. The support of the hydroentangled web carrier used in the present invention may be porous so long as water that is jetted at the time of entanglement and passes through the web easily passes through the support. As an example, a wire made of stainless steel or plastic is preferable, and a wire for papermaking can also be used. Also, 5
It is preferably about 0 to 200 mesh.

Next, the reciprocating motion of the support will be described. The support is used to load and convey the web,
Reciprocate at right angles. The movement needs to be performed at a constant speed in order to make the confounding uniform. When the speed changes, strong entangled portions and weak entangled portions appear, which is not preferable because it deviates from the gist of the present invention.

The method of reciprocating the support varies depending on the type of the hydroentangling device. An example is shown in FIGS. 1 and 2. This is an apparatus for transporting and interlacing a web using a belt conveyor type support. This device consists of a hydroentangling web carrier and a high pressure columnar jet injector.

Reference numeral A1 indicates the web conveying direction, and A2 indicates the reciprocating direction of the support. The web carrying support 1 carrying the hydroentanglement web 2 carries the web in the direction A1. Conveyance is performed by rotating a roll (including 3 to 5) that supports the web conveyance support 1 to drive the web conveyance support 1. Web 2 is a water jet device (6-10)
Fibers are entangled by the high-pressure columnar water flow generated from the. The water penetrating the web 2 and the web transport support 1 is forcibly dehydrated in the suction box 11.
By reciprocating at least one of the rolls (3 to 5) capable of reciprocating in the direction of A2 during the entanglement, the support 1 for web conveyance reciprocates. However, when moving multiple rolls, the movement needs to be synchronous. The reciprocating roll is not limited as long as reciprocating motion is provided at the confounding portion. In addition, the web conveying support 1 and the rolls 3 to
5 can be reciprocated by increasing the friction by the tension of the web carrying support 1 or by supporting the web carrying support 1 with another frame.

As another example, there is a system in which a support is covered by a cylindrical perforated drum and entanglement is performed on this drum. In this case, the perforated drum itself is reciprocated. The purpose can be achieved.

Next, a method for producing a hydroentangled nonwoven fabric using the web-entry device for hydroentanglement of the present invention will be described.
The direction of web transport and reciprocating motion is the perpendicular direction as described above. At this time, the reciprocating speed (v) and the web conveying speed (V) are preferably in the range of 0.2 ≦ v / V ≦ 5. If this value is small, the movement effect of the support is small, and if it is large, the web conveying speed is high, and it is necessary to move the support at a very high speed, which increases the load on the apparatus and is not preferable. Further, the width of the reciprocating motion is preferably in a range larger than the nozzle interval of the nozzles for injecting the high-pressure columnar water flow, but it is not necessary to set the width larger than necessary in order to avoid the load on the support. That is, the most preferable range is a range of 2D to 2L with respect to the nozzle interval (D) and the fiber length (L) of the fibrous material forming the web. If it is smaller than 2D, the effect of support movement is small.
However, making the nozzle spacing smaller than the fiber length is essential for proper and strong entanglement. Further, the preferable nozzle diameter is 10 to 500 μm, and the preferable nozzle interval is 10 to 1500 μm. The water pressure used for confounding is 10
It is preferably 250 kgf / cm ² and the web conveying speed is 5 to 200 m / min. Under the above conditions, high-pressure columnar water jet, when the reciprocating movement of the web transport support, the object of the present invention,
Thus, a hydroentangled non-woven fabric excellent in texture, drape, and touch can be obtained.

[0015]

The support of the present invention can be uniformly and firmly entangled, and effectively acts as a device for obtaining a hydroentangled nonwoven fabric excellent in texture, drape, and touch. Hydroentangled non-woven fabric obtained by this method, artificial leather, filter media, surgical clothing,
It can be widely used in a wide range of applications such as surface layer materials.

[0016]

EXAMPLES The present invention will now be specifically described with reference to examples, but the present invention is not limited to these examples.

Example 1 A polyethylene terephthalate fiber (manufactured by Teijin Ltd.) having a fineness of 1.5 denier and a fiber length of 38 mm and having a mechanical crimp was produced using a carding machine to produce a web having a basis weight of 20 g / m ² . Four sheets were laminated and loaded on a 100-mesh stainless steel support, and the web was entangled by a high-pressure columnar water stream at a web conveying speed of 15 m / min. FIG. 1 is a side view of an example of an interlacing device in which a support is installed. S1 to S5 are water jet injectors, and the conditions under which the entanglement is performed in Example 1 are shown below. The nozzle of S1 has a nozzle diameter of 120 μm, the nozzle spacing is 1.2 mm, the water pressure is 30 kgf / cm ^{2 in} two rows, and the nozzle diameter of S2 is 1
20μm, nozzle spacing 1.2mm, water pressure in 2 rows 70kgf / cm
² , S3 is nozzle diameter 120μm, nozzle spacing is 0.6mm, 2
Water pressure is 100 kgf / cm ^{2 in} a row, S4 has a nozzle diameter of 100 μm,
Nozzle spacing is 0.6 mm, water pressure is 70 kgf / cm ² in one row, S5 is 100 mm in nozzle diameter, nozzle spacing is 0.6 mm, water pressure is 3 in one row
It is 0 kgf / cm ² . The confounding was done on one side first. Next, the back surface was entangled under the same conditions. The reciprocating motion of the support is R
1 and R3 were exercised. Speed is 20m / min, width is 3
It is 8 mm. After this entanglement, it was dried at 110 ° C. using a suction through dryer.

Comparative Example 1 Entangling was performed under the same water pressure and conditions as in Example 1 without reciprocating the support.

Comparing the appearances of the hydroentangled non-woven fabrics of Example 1 and Comparative Example 1, the hydroentanglement traces are hardly noticeable in the sheet of Example 1, while the passage of water flow is recognized in Comparative Example 1. Moreover, the touch of Example 1 is good.
Table 1 below shows the physical properties of the hydroentangled nonwoven fabrics obtained in Example 1 and Comparative Example 1. As the index of the drape property, the bending resistance shown in the examples was measured by using the 45-degree cantilever method described in JIS-L1096, and the average value in the vertical and horizontal directions was shown.

[0020]

[Table 1]

As shown in Table 1, a water jet nonwoven fabric having a small aspect ratio of strength, a large strength and an excellent drape property was obtained.

[0022]

The hydroentangled nonwoven fabric obtained by using the support of the present invention has uniform entanglement, good texture, good touch, high strength, small aspect ratio of strength, and drapeability. Excellent in.

[Brief description of drawings]

FIG. 1 is a schematic side view of an example of a support installation device of the present invention.

FIG. 2 is an enlarged view of a support portion of the present invention.

[Explanation of symbols]

1 Web carrier 2 Web 3 Roll capable of reciprocating motion 4 Roll capable of reciprocating motion 5 Roll capable of reciprocating motion 6 Water jet device 7 Water jet device 8 Water jet device 9 Water jet device 10 Water injection device 11 suction box A1 support transport direction A2 support reciprocating direction

Claims (2)

[Claims] 1. A web-conveying support of a hydro-entangled nonwoven fabric manufacturing apparatus provided with a hydro-entanglement web conveying device and a high-pressure columnar water-jet spraying device, wherein a hydro-entanglement web containing fibers is loaded and conveyed. A water-entanglement web transfer device, wherein the support body reciprocates at right angles to the transfer direction. 2. In loading and transporting a hydroentanglement web containing fibrous material on a web transport support of a hydroentanglement nonwoven fabric manufacturing apparatus in which a hydroentanglement web transport device and a high-pressure columnar water jet injection device are installed, A water flow characterized in that the support reciprocates at right angles to the conveying direction, a high-pressure water flow is jetted from above the water-entanglement web in the motion state, and the fibers constituting the web are three-dimensionally entangled. Manufacturing method of entangled nonwoven fabric.