IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0994103
(2008-12-09)
|
등록번호 |
US-8365862
(2013-02-05)
|
국제출원번호 |
PCT/AU2008/001812
(2008-12-09)
|
§371/§102 date |
20110222
(20110222)
|
국제공개번호 |
WO2009/140713
(2009-11-26)
|
발명자
/ 주소 |
- Coates, Michael William
- Kierzkowski, Marek Henryk
- Gibbons, Philip John
|
출원인 / 주소 |
|
인용정보 |
피인용 횟수 :
8 인용 특허 :
6 |
초록
▼
Described embodiments relate to a method of manufacturing a sound absorption material. The method comprises: forming a low density fibrous web to act as a porous bulk absorber, the fibrous web containing a proportion of bi-component fibers, each bi-component fiber having a core material and a sheath
Described embodiments relate to a method of manufacturing a sound absorption material. The method comprises: forming a low density fibrous web to act as a porous bulk absorber, the fibrous web containing a proportion of bi-component fibers, each bi-component fiber having a core material and a sheath material around the core material, the sheath material having a lower melting point than the core material; applying a thin facing layer to the low density fibrous web, wherein the facing layer is adhesively compatible with the sheath material; heating the fibrous web to a temperature sufficient to soften the sheath material of at least some of the bi-component fibers; and pressing the facing layer and fibrous web together under low pressure such that at least part of the facing layer contacts the softened sheath material of at least some of the bi-component fibers to form an adhesive bond between the facing layer and the fibrous web.
대표청구항
▼
1. A method of manufacturing a sound absorption material, the method comprising: forming a low density fibrous web to act as a porous bulk absorber, the low density fibrous web having a density of more than about 10 kg/m3 and less than about 120 kg/m3, and containing a proportion of bi-component fib
1. A method of manufacturing a sound absorption material, the method comprising: forming a low density fibrous web to act as a porous bulk absorber, the low density fibrous web having a density of more than about 10 kg/m3 and less than about 120 kg/m3, and containing a proportion of bi-component fibers, each bi-component fiber having a core material and a sheath material around the core material, the sheath material having a lower melting point than the core material;applying a thin facing layer directly to the low density fibrous web, wherein the facing layer is a non-adhesive type film that is adhesively compatible with the sheath material;heating the low density fibrous web to a temperature sufficient to soften the sheath material of at least some of the bi-component fibers; andpressing the facing layer and low density fibrous web together under low pressure such that at least part of the facing layer directly contacts the softened sheath material of at least some of the bi-component fibers to form an adhesive bond between the facing layer and the fibrous web, and the fibrous web remains a low density fibrous web after release of said low pressure. 2. The method of claim 1, wherein a thickness of the low density fibrous web after the pressing is reduced by about 5% to 80% of the thickness of the low density fibrous web before the pressing. 3. The method of claim 1, wherein the facing layer is a first facing layer applied to a first face of the low density fibrous web and the method further comprises applying a second facing layer directly to a second face of the low density fibrous web, the second facing layer being a non-adhesive type film that is adhesively compatible with the sheath. 4. The method of claim 3, further comprising pressing the second facing layer and the low density fibrous web together under low pressure such that at least part of the second facing layer directly contacts the softened sheath of at least some of the bi-component fibers to form an adhesive bond between the second facing layer and the low density fibrous web. 5. The method of claim 3, wherein the low density fibrous web is a first low density fibrous web and the method further comprises pressing a second low density fibrous web together with the second facing layer under low pressure to lightly bond a first side of the second low density fibrous web to the second facing layer, wherein the second low density fibrous web comprises a proportion of bi-component fibers each having a core material and a sheath material around the core material, the sheath material having a lower melting point than the core material. 6. The method of claim 5, further comprising, prior to pressing the second low density fibrous web together with the second facing layer, heating the first side of the second low density fibrous web to soften the sheath material of the bi-component fibers in the second low density fibrous web so that an adhesive bond can be formed between the second low density fibrous web and the second facing layer when pressed together under low pressure. 7. The method of claim 5, further comprising, prior to pressing the second low density fibrous web together with the second facing layer, applying an adhesive substance to the first side of the second low density fibrous web, the adhesive substance being adhesively compatible with the second facing layer. 8. The method of claim 7, further comprising: applying a third facing layer to a second side of the second low density fibrous web, the third facing layer being a non-adhesive type film that is adhesively compatible with the sheath material of the bi-component fibers of the second low density fibrous web;heating the second low density fibrous web to a temperature sufficient to soften the sheath material of at least some of the bi-component fibers; andpressing the third facing layer and the second low density fibrous web together under low pressure such that at least part of the third facing layer contacts the softened sheath material of at least some of the bi-component fibers to form an adhesive bond between the third facing layer and the second low density fibrous web. 9. The method of claim 5, further comprising: applying a third facing layer to a second side of the second low density fibrous web, the third facing layer being a non-adhesive type film that is adhesively compatible with the sheath material of the bi-component fibers of the second low density fibrous web;heating the second low density fibrous web to a temperature sufficient to soften the sheath material of at least some of the bi-component fibers; andpressing the third facing layer and the second low density fibrous web together under low pressure such that at least part of the third facing layer directly contacts the softened sheath material of at least some of the bi-component fibers to form an adhesive bond between the third facing layer and the second low density fibrous web. 10. A sound absorption material formed by the method of claim 1. 11. The method of claim 1, wherein said heating includes heating the low density fibrous web and the thin facing layer concurrently. 12. A sound absorption material comprising: a low density fibrous web to act as a porous bulk absorber, the low density fibrous web having a density of more than about 10 kg/m3 and less than about 120 kg/m3, and containing a proportion of bi-component fibers, each bi-component fiber having a core material and a sheath material around the core material, the sheath material having a lower melting point than the core material; anda thin facing layer in the form of a non-adhesive type film directly adhered to the low density fibrous web by an adhesive bond formed between the sheath material of at least some of the bi-component fibers and the thin facing layer. 13. The material of claim 12, wherein the thin facing layer comprises material selected from the group consisting of polymer films, foils and fabrics. 14. The material of claim 12, wherein the thin facing layer comprises material selected from the group consisting of polyethylene, polyester, polyamide and polypropylene. 15. The material of claim 12, wherein the sheath material of the bi-component fibers is selected from the group consisting of polyethylene, polyamide, polypropylene and co-polyester. 16. The material of claim 12, wherein the thin facing layer has a thickness of between 5 and 100 microns. 17. The method of claim 6, further comprising: applying a third facing layer to a second side of the second low density fibrous web, the third facing layer being a non-adhesive type film that is adhesively compatible with the sheath material of the bi-component fibers of the second low density fibrous web;heating the second low density fibrous web to a temperature sufficient to soften the sheath material of at least some of the bi-component fibers; andpressing the third facing layer and the second low density fibrous web together under low pressure such that at least part of the third facing layer contacts the softened sheath material of at least some of the bi-component fibers to form an adhesive bond between the third facing layer and the second low density fibrous web. 18. A method of manufacturing a sound absorption material, the method comprising: providing a low density fibrous web to act as a porous bulk absorber, the low density fibrous web having a density of more than about 10 kg/m3 and less than about 120 kg/m3, and containing a proportion of bi-component fibers, each bi-component fiber having a core material and a sheath material around the core material, the sheath material having a lower melting point than the core material;supplying the low density web in a thermally bonded state and thereafter applying a thin facing layer in the form of a non-adhesive type film directly to the low density fibrous web;heating the low density fibrous web to a temperature sufficient to soften the sheath material of at least some of the bi-component fibers; andpressing the facing layer and low density fibrous web together under low pressure such that at least part of the facing layer directly contacts the softened sheath material of at least some of the bi-component fibers to form an adhesive bond between the facing layer and the fibrous web.
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