JPH07145546A - Method for collecting filament web - Google Patents

Abstract

PURPOSE:To prevent troubles such as winding of web in a post process following collection before they happen by blowing an inward air flow on the selvage of web sucked and piled on a collecting net to rearrange filaments groups coming out of suction width. CONSTITUTION:In production of spun bond nonwoven fabric, when melted and spun sheetlike polyester filament groups 6 are gathered on a collecting net 1 equipped with a suction device 3 below, a pair of a right and a left screening plates 2 and 2' are laid between the net 1 and the suction device 3 to control suction width narrower than fall width of the web. Further, air is blown from a pair of a right and a left air outlets 4 and 4' on the selvage part of the web sucked and gathered on the net 1 and the filament groups getting out to the outside of a suction zone are rearranged to form selvage.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention
In particular, the present invention relates to a method for stably forming an ear portion of a web in a sheet forming step in manufacturing a spunbond nonwoven fabric.

[0002]

2. Description of the Related Art In the process of making webs of spunbonded nonwoven fabrics, continuous filaments are electrostatically charged to the same polarity and the filaments opened by the repulsive force or by the diffusion action of air etc. It is transported along with the air flow used, sprayed on the collection net, landed,
It is done by being collected. At this time, fixing the position of the landing web for improving the uniformity of the sheet to be produced, that is, preventing the blown filament group from being blown off by the air used for conveyance and preventing the displacement of the deposited filament sheet, and Suction from the lower part of the collecting net is generally performed for the purpose of eliminating the carrier air. At this time, in the state where it is just blown and collected, an extremely large amount of air is used for conveyance, and the end of the collecting web (ear) is very Is greatly disturbed. In addition, the edge has a thin web thickness, and has a very morphologically unstable structure. Therefore, it is very difficult to form both ends of the landing web, and this edge treatment is a passability of the subsequent process, that is, the unstable portion where the thickness of the edge is thin at the time of adhesion treatment such as hot roll treatment It gets wrapped around. Or, the peeling from the net is bad. Problems such as the above were likely to occur. It also affects the size of the ears that are wasted when it becomes a product, which is an important point in the production of nonwoven fabrics.

JP-B-53-37458, JP-B-6
No. 0-25542 discloses a proposal for the edge treatment of the web and the regulation of the web deposition position, but none of the methods could effectively treat the edge portion of the web. . Japanese Patent Publication No. 53-37458 proposes to blow air on both ends of the web collected on the net to form the web end and increase the thickness. When the air is sucked by the air suction device, the web end strongly sticks to the net due to the adsorption effect due to the charging of the filament and the suction effect, and the web end does not move easily even if an air flow is blown, and the flow rate can be adjusted. Even if it goes, the edge of the web, which is affected by air, fluctuates greatly and cannot be processed uniformly. It was also found that when there is a large variation in the width of the web before the treatment and the width of the edge of the web is very large, some edge treatment may not be possible depending on the mounting position of the air blowing nozzle.

In Japanese Patent Publication No. 60-25542, a pair of flat plates or boxes which are charged with the same polarity as the electrostatically charged filament group and are arranged parallel to the collecting direction and at both ends of the web. The body is trying to regulate the collection area and process the ears. However, with this method, a large amount of yarn is blown out at high speed due to the pulling and transport of the yarn, and after landing of the web, it will disturb the escape area of the air that tries to flow uniformly in all four directions, so the air flow is disturbed. Sisters,
It is not preferable because the filaments are entangled and the filaments are extremely lined up in one direction, and the whole web is easily disturbed. In addition, ear treatment cannot be performed effectively. In addition, since it is surrounded by a flat plate, it is difficult to see the condition of the web and it is difficult to deal with it. Moreover, it is very dangerous to use a high DC voltage.

[0005]

DISCLOSURE OF THE INVENTION The present inventors have solved the above-mentioned problems of the prior art by effectively and uniformly treating both ends of the collection web, and there is no problem in the subsequent process. The present invention has been achieved as a result of extensive studies on a method for treating the web edge of the collecting web.

[0006]

DISCLOSURE OF THE INVENTION The present invention is a filament web collecting method for collecting a continuous filament group conveyed by an air flow on a net having a suction device below, and a method of collecting the suction width of the web. Capturing a filament web characterized by restricting the width narrower than the falling width and blowing air inward to the ears of the web collected on the net to rearrange the outer filament group of the suction width Is the way.

[0007]

Next, the present invention will be described in detail. FIG. 1 shows a sectional view of the device as seen from the net advancing direction. The continuous filament group 6 conveyed by the air flow is collected on the collecting net 1 in which the suction device 3 is installed below. At this time, the shield plates 2 and 2 ′ are inserted between the net and the suction device, and the suction width is regulated so as to be narrower than the width of the web that drops onto the net when there is no shield plate. Any material can be used as the shielding plate as long as it can block air. In this case, the suction width (effective width) of the suction device itself needs to be wider than the width regulated by the shielding plate. As shown in the figure, since the suction air velocity inside the shield plate near the shield plate becomes large, the sway of the filament group is regulated to some extent and the ear part is formed by rearranging the filament at the end of the web, as described later. Also works effectively. If the width (effective width) of the suction device itself is narrowed without using the shielding plate, the suction wind speed at both ears of the suction portion will be small, and the effect of the present invention will be difficult to obtain.

When the shielding plate is not used, the continuous filament group conveyed by the air flow falls on the net as it is, so that the web end lands on the net in a largely disturbed state due to fluctuations of the air flow, As shown in FIG. 3-a, the edges of the web are uneven, and the width of the web also fluctuates greatly. On the other hand, by blocking both ends in the width direction of the suction zone with the shield plates, as shown in FIG. 4, the suction wind velocity at the portion inside the shield plate close to the shield plate increases, so that it falls to the outer portion of the shield plate. Immediately before falling onto the net, the filament group with uneven edges is sucked by a strong suction force inside the shield plate, and the protruding portion of the shield plate to the outside becomes small. That is, as shown in FIG. 2A, due to the effect of the shielding plate, the disturbance of the end portion and the fluctuation of the web width due to the sway of the web collected on the net can be suppressed to be small.
The small disturbance of the end portion and the small fluctuation of the web width and the strong suction force inside the shield plate are important also in the subsequent rearrangement of the filament group by the air nozzle.
The position of this shield plate can be adjusted, and the shield plate is finely adjusted in balance with the swelling of the filament group in the width direction due to air for conveying the sheet-like web.

The web collected on the net is rearranged by injecting an air flow from the air nozzle toward the inner side in the width direction of the web to the end portion protruding above the shielding plate, that is, outside the suction zone. And mold the ears of the web. What is important when applying this air flow is to apply the air flow to the filaments on the net above the shielding plate. The filament group charged with static electricity in order to improve the openability is very strong inside the shielding plate due to the attractive force of static electricity generated by the momentum of collision with the net and the suction action of the suction device. It is adsorbed on the net, but since the suction action does not work above the shielding plate, the adsorption force of the filament group on the net is comparatively small, and the filament group above the shielding plate is compared by the air flow ejected from the air nozzle. Easily blown away.
Since the filament group inside the shield plate is sucked by the strong suction force near the shield plate, it is not blown away by the air flow ejected from the air nozzle. Further, the suction force becomes smaller on the inner side, but since the distance from the air nozzle becomes larger, the influence of the jetted air flow becomes smaller, and the filament is not blown off. The filaments blown from above the shielding plate toward the inside of the web are attracted by the strong suction force near the inside of the shielding plate, and are rearranged to form the ears of the web. At this time, a large amount of the sucked filament is sucked into a portion having a high suction wind speed, that is, a portion where the web is relatively thin inside the shield plate, so that the eye spots on the ears are averaged.

The jetting of the air flow for rearranging the filaments above the shielding plate is carried out at a position after the filaments have fallen onto the net and are sucked. When the filament group is dropped onto the net, the carrier air collides with the jet air from the nozzle, so that stable web formation cannot be performed. Therefore, it is necessary to inject the air from the nozzle at a position at least 5 cm past the position where the filament group falls onto the net. Moving this position away from the dropping position of the filament group does not cause any problem in terms of effect, but it is uneconomical because it is necessary to widen the suction zone. In addition, it is preferable that the air jetting direction is a slightly backward direction of the web.

The sectional shape of the tip of the air nozzle to be used is not particularly limited to a slit shape, a circular shape or the like, and may be any structure capable of squeezing air so as to effectively act on the web end. In addition, the air flow rate and injection pressure are the tip cross-sectional shape and area of the air nozzle, the injection position, the injection angle,
Although it depends on the suction force of the suction zone and the like, the filament group above the shield plate is blown inside the shield plate to adjust the flow rate so that it can be rearranged. An excessively strong air flow blows away even the filament inside the shield plate, disturbs the uniformity of the web, and is uneconomical.Therefore, finely adjust the air flow rate, the direction of the air flow, the shield plate position, etc. within the range to reach the purpose. To do.

Since the edges of the web thus treated are concentrated and deposited on the boundary between the shield plate and the suction zone, FIG.
As shown in, the web edge is thickened to improve stability. The web edge treated in this way is improved in the treatment in the later step, that is, the sticking to a heat roll or the like and the poor releasability from the net are improved, and no trouble occurs. Thickening the edge of the web is very important in this way, but this is not achieved simply by installing a shield plate at the end of the suction zone, without further air treatment on the shield plate. must not.

The edge-treated web is thickened in the subsequent steps of the web to increase its strength.
Problems such as web salmon at the time of peeling from the net and winding at the time of bonding with a heat roll are eliminated, and the subsequent process can be stably passed. In this way, a long-fiber nonwoven fabric can be obtained.

[0014]

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

Example 1 A group of polyethylene terephthalate filaments that have been electrostatically charged and electrically spread are formed into a sheet by using air.
The web was collected by using the above apparatus so as to have a basis weight of 30 g / m ² . At this time, both ends of the suction zone should be 5 cm
The web is landed on the net above the shield plate toward the inside in the width direction of the web by controlling the flow rate of 4 kgf / cm ² of air from both ends after shielding the filaments to some extent by regulating the landing position of the filaments and collecting them. Sprayed towards the edges and edge treated. The cross section of the web after the treatment was as shown in Fig. 2-b, and both ends were thick. Continuously smoothing the web surface using a heat roll on the net,
Subsequently, peeling from the net and embossing adhesion treatment with a heat roll were performed, but no problems such as peeling and tearing of the web from the end or winding of the end around the heat roll occurred.

Comparative Example 1 The same process as in Example 1 was carried out with only the shield plate installed and no subsequent air treatment. In the web, although the landing position was roughly regulated by the shielding plate, a small amount of thin filament web landed on the net above the shielding plate. This web was liable to wind around the roll from the thin end of the web during the subsequent hot roll treatment on the net, and the end of the web passed through this process during peeling from the net, and the subsequent process could not be performed. .

Comparative Example 2 The same treatment as in Example 1 was carried out by performing only the air treatment afterwards without installing a shielding plate. The landed web oscillated greatly due to the action of the conveying air flow, landed like a meandering web, and the web end had a larger area of the thin portion of the web than in Comparative Example 1. If you try to apply an air flow to both ends of this web,
Because the web edge is meandering, and because the web is attracted to the net by charging and attracted to the net by suction, it is difficult to adjust the air flow rate to act and the web is blown off greatly, or at all. There are many parts that cannot be processed at the edges. It was not possible to make the edges of the web thicker and uniform and to align the edges cleanly. In the subsequent treatment, the same trouble occurred in the thin portion of the web edge as in Comparative Example 1, which was not successful.

[0018]

As is clear from the description of the embodiment in detail above, according to the method of the present invention, the end treatment of the collected web is performed by the shielding plate installed at the upper end of the suction zone. Due to the joint effect of the landing position regulation and the subsequent regulatory leakage by the air in the non-suction part, the action of blowing away the web edge, it is possible to very effectively perform the end treatment of the filament web that is disturbed and collected greatly. it can. As a result, it is possible to stably perform the post-process without causing troubles such as winding of the web end during roll processing and tearing of the web during peeling from the net in the post-process following the collection.

[Brief description of drawings]

FIG. 1 is a schematic cross-sectional view taken along a moving direction of a collection net of an apparatus used for collecting and processing end portions of a continuous filament group web of the present invention.

FIG. 2 is a schematic view showing a spread state of a web on a net according to the method of the present invention, in which a is a plan view and b is a cross-sectional view of the processed web.

FIG. 3 is a schematic view showing a spread state of a web on a net when a shield plate is not used, where a is a plan view and b is a cross-sectional view of the web.

FIG. 4 is a measurement diagram of changes in the suction air wind velocity in the net width direction when the end of the suction zone is covered with a shielding plate.

[Explanation of symbols]

 1. Mobile collection net 2, 2 '. Shield plate 3. Suction device 4, 4 '. Air outlet 5. 5. Processed web cross section Sheet filament group

Claims (1)

[Claims] 1. A method for collecting a filament web in which a continuous filament group conveyed by an air stream is collected on a net having a suction device below, and the suction width is restricted to be narrower than the falling width of the web. A method for collecting filament webs, characterized in that air is blown inward to the ear portions of the webs collected on the net to rearrange the outer filament groups having the suction width.