JPH0118183B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a cushion material made of polyester fiber.

Most cushion materials currently used in the furniture and bed fields are urethane foams.
However, since urethane foam undergoes a large change over time due to moist heat aging, it must be manufactured with a hard texture, which has disadvantages such as a feeling of hard texture immediately after production and a feeling of bottoming out, which is disliked.

The present invention eliminates these drawbacks, is durable,
The purpose is to provide a polyester fiber cushion material that exhibits excellent performance.

The present invention has a fineness of 1 to 20 denier and a fiber length of 30 to 20.
High melting point polyester staple with 100mm;
A polyester staple having a melting point lower than the polyester staple by 50°C or more is contained in a weight ratio of 90:10 to 50:50. Density 0.005~ fixed together by knots formed by melting staples
Made of polyester fiber cushion material having a weight of 0.15 g/cm ³ .

The photo in the attached drawing shows a 70% high melting point polyester staple with a fineness of 10d and a length of 51mm, a fineness of 6d and a length of 51mm.
1 is an enlarged photograph of a cushion material of the present invention made of 30% low melting point polyester staple of 51 mm. As seen in this photo, a large number of staples are irregularly intertwined in three dimensions, and most of the low-melting-point staples melt due to heat, forming knots, and the multiple staples are fixed together at the intertwined part. I understand that. Further, since the entangled high melting point staples are only fixed by the molten blobs of low melting point polyester at the entangled portions, the excellent elasticity of the high melting point staples is unlikely to be diminished.

The cushion material of the present invention shows almost no change in cushion performance over time due to moist heat aging, and can be customized to suit your preference from soft cushions to hard cushions by changing the mixing ratio of high melting point polyester staples and low melting point polyester staples. It can be manufactured using Further, by partially changing the mixing ratio, there is an advantage that a cushion material having a soft surface and a hard interior can be manufactured.

The method for manufacturing the cushion material of the present invention will be described. First, high melting point polyester staples and low melting point polyester staples are mixed in a weight ratio of 90:10 to 50:50, and then a fibrous web is formed using a suitable webber.

Examples of high melting point polyester fibers include ordinary polyethylene terephthalate, polyhexamethylene terephthalate, polytetramethylene terephthalate, poly1,4-dimethylcyclohexane terephthalate, polyhyvalolactone, or composite fibers produced by copolymer esters or conjugate spinning of these. I can give an example. The cross-sectional shape of the high melting point polyester fiber may be circular, irregularly shaped or hollow. On the other hand, low melting point polyester fibers are made of fatty acid dicarboxylic acids such as adipic acid and sebacic acid, aromatic dicarboxylic acids such as phthalic acid, isophthalic acid, and naphthalene dicarboxylic acid, and/or alicyclic acids such as hexahydroterephthalic acid and hexahydroisophthalic acid. A compound containing a predetermined number of group dicarboxylic acids and aliphatic or alicyclic diols such as diethylene glycol, polyethylene glycol, propylene glycol, and paraxylylene glycol, and optionally added with oxyacids such as parahydroxybenzoic acid. It is a polymerized ester, for example, a polyester obtained by copolymerizing isophthalic acid and 1,6-hexanediol with terephthalic acid and ethylene glycol. The fiber length of high melting point and low melting point polyester fibers is
It is sufficient that the staple length is 30 to 100 mm, which is a normal staple length, and the fineness thereof is usually 1 to 20 deniers.

The mixing ratio of high-melting point polyester fibers and low-melting point polyester fibers is 90:10 to 50:50 by weight, and if the mixing ratio of both polyester fibers is changed appropriately within this range, the material can be made from a relatively soft cushion material to a slightly soft cushion material. Even hard cushion materials can be obtained. In this case, if the ratio of high melting point polyester fiber exceeds 90%, the cushioning properties tend to deteriorate because the heat fusion between the fibers of the manufactured pine is insufficient. If it is less than %, the fused component will be too large and the produced mat will be too hard and unsuitable as a cushion material.

The mixed web is laminated to a predetermined thickness and then heated. During this lamination, the density of the web is 0.005
~0.15g/cm ^<3> , preferably 0.01~0.10g/cm ^<3> . When laminated at such a density, the produced mat has a rebound resilience value suitable for use as a cushion material. The heating temperature of the laminated web is then a temperature between the melting points of the high melting point polyester fibers and the melting points of the low melting point polyester fibers. At this time, preferably the melting point of the high melting point polyester fiber is 200℃
In addition, since the melting point of the low melting point polyester fiber is 50° C. or more lower than that of the high melting point polyester fiber used at the same time, the heating temperature is determined according to the melting points of both polyester fibers. The heating means is preferably a moist heat means such as hot water, steam, or high-pressure steam. For example, a web packed in layers in a mold is molded into a mat using high-pressure steam. In this case, a dry heat means such as hot air may be used as the heating means, and it is also possible to perform continuous mat forming between endless belts.

By this heating, the low melting point polyester fibers are melted and the high melting point polyester fibers are thermally fused together.

The cushion material of the present invention is stronger than urethane foam, so it has the advantage that even if it is used alone as a pinerest, it does not feel bottomed out and is comfortable to sleep on. In addition, it has excellent durability because there is little change over time due to moist heat aging, and there is no need to manufacture it with hard grains like urethane foam. As a result,
In the present invention, not only can soft cushion materials or hard cushion materials be manufactured according to preference, but also the surface can be improved by laminating and molding an appropriate number of webs with different mixing ratios of high melting point polyester fibers and low melting point polyester fibers. Cushion materials that are soft and hard inside can also be manufactured as appropriate.

The cushion material of the present invention may be used for bed mattresses, furniture seats, etc., and as a carpet underlay material.

Next, the present invention will be explained with reference to Examples and Comparative Examples.

Example 1 A polyethylene terephthalate staple (melting point 257°C) with a fineness of 10 denier and a fiber length of 51 mm was used as a high melting point polyester fiber, and a polyethylene terephthalate staple (melting point 257°C) with a fineness of 6 denier and a fiber length of 51 mm was used as a low melting point polyester fiber.
Polyester staple copolymerized with terephthalic acid and isophthalic acid with a copolymerization ratio of 60:40 (melting point
110℃). High melting point polyester fibers and low melting point polyester fibers are mixed at a ratio of 80:20, and a web is produced using a random webber.

The web was placed in a stainless steel box (height 100cm x width 50cm) with punched holes for good heat conduction.
cm×height 50 cm) so that the density is 0.02 g/cm ³ , and after filling the box with a top lid, place it in a double high-pressure can. After evacuating the inside of the can, matte molding was performed using high-pressure steam at 130°C for 10 minutes. As a result, the low melting point polyester fibers are melted and a mat is obtained in which the low melting point polyester fibers are fused to the intertwined portions of the high melting point polyester fibers. When this pine is sliced into 10cm thick pieces, it exhibits excellent cushioning properties as a cushioning material for furniture.

Example 2 The same high melting point polyester fibers and low melting point polyester fibers as in Example 1 were mixed at a ratio of 90:10, and a web was produced using a random webber. A mat is produced from this web in the same manner as in Example 1. The obtained mat has good cushioning properties and is suitable as a relatively soft cushion material.

Example 3 Mat is produced in the same manner as in Example 2 except that the mixing ratio was 70:30. The resulting mat has good cushioning properties.

Example 4 Mat is produced in the same manner as in Example 2 except that the mixing ratio was 50:50. The obtained pine has good cushioning properties and is suitable as a slightly hard cushion material.

Comparative Example 1 Mat is produced in the same manner as in Example 2 except that the mixing ratio was 95:5. Since the resulting mat has insufficient fusion between the fibers, peeling occurs between the laminated webs or between the fibers during repeated use, resulting in decreased cushioning properties.

Comparative Example 2 A mat is produced in the same manner as in Example 2 except that the mixing ratio is 45:55. The resulting mat is unsuitable as a cushion material because it contains an excessive amount of fusing components and is too hard, and the cushioning properties of the fibers are not sufficiently expressed.

Example 5 The same high-melting point polyester fibers and low-melting point polyester fibers as in Example 1 were mixed at a ratio of 70:30, and a web with a weight of 800 g/m ² was produced using a roller card and a cross wrapper, and then lightly needled. Punch to obtain a 40mm thick sheet.

The sheet was passed between driving endless belts made of wire mesh with a vertical interval of 20 mm, and heated with hot air at 180° C. for 3 minutes. As a result, a continuous sheet-like mat having a density of 0.04 g/cm ³ and maintaining a thickness of 20 mm is obtained by heat-sealing the intertwined portions of the low-melting point polyester fibers and the high-melting point polyester fibers. This mat is a good cushioning material that does not deform even under repeated compression.

[Brief explanation of drawings]

The drawing is an enlarged photograph showing the cushion material of the present invention.

Claims (1)

[Claims] 1 Contains a high melting point polyester staple having a fineness of 1 to 20 denier and a fiber length of 30 to 100 mm, and a polyester staple having a lower melting point than the polyester staple by 50°C or more in a weight ratio of 90:10 to 50:50, and the staple is Density 0.005 to 0.15, in which the intertwined portions are irregularly intertwined in three dimensions, and at least a portion of the intertwined portions are integrally fixed by knots formed by melting the low melting point polyester staple.
Cushion material made of polyester fibers with g/cm ³ .