Vent structure and method of manufacturing the same
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B60H-001/00
B29C-065/00
B29C-065/16
B29C-065/82
B29K-007/00
B29K-009/06
B29K-021/00
B29K-023/00
B29K-027/12
B29K-027/18
B29K-055/02
B29K-067/00
B29K-077/00
B29K-081/00
B29K-101/12
B29K-105/00
B29K-105/04
B29K-105/06
B29K-105/08
B29K-105/20
B29K-309/08
B29L-009/00
B29L-015/00
B29L-031/34
B29L-031/42
B29L-031/00
F21V-031/03
F21S-008/10
출원번호
US-0718461
(2010-03-05)
등록번호
US-9616618
(2017-04-11)
우선권정보
JP-2008-315399 (2008-12-11)
발명자
/ 주소
Furuyama, Satoru
출원인 / 주소
NITTO DENKO CORPORATION
대리인 / 주소
Hamre, Schumann, Mueller & Larson, P.C.
인용정보
피인용 횟수 :
0인용 특허 :
6
초록▼
A vent structure includes: a first housing component having an opening portion for ventilation; a gas-permeable membrane that is attached to the first housing component to close the opening portion; and a laser welding portion that joins the first housing component with the gas-permeable membrane. T
A vent structure includes: a first housing component having an opening portion for ventilation; a gas-permeable membrane that is attached to the first housing component to close the opening portion; and a laser welding portion that joins the first housing component with the gas-permeable membrane. The gas-permeable membrane includes a main body including a fluororesin film and a porous resin sheet that is laid on the main body. The porous resin sheet is located on the surface side of the vent structure. Both of the main body and the outer peripheral portion of the porous resin sheet that projects outwardly from the main body are fixed to the first housing component by the laser welding portion.
대표청구항▼
1. A vent structure comprising: a resin component having an opening portion for ventilation;a gas-permeable membrane that is attached to the resin component to close the opening portion, the gas-permeable membrane having: a main body including a fluororesin film and a reinforcing member laminated wi
1. A vent structure comprising: a resin component having an opening portion for ventilation;a gas-permeable membrane that is attached to the resin component to close the opening portion, the gas-permeable membrane having: a main body including a fluororesin film and a reinforcing member laminated with the fluororesin film by welding or bonding; and a porous resin sheet that is laid on the main body; anda laser welding portion that is formed around the opening portion to lie between the resin component and the gas-permeable membrane and that joins the resin component with the gas-permeable membrane,wherein the reinforcing member comprises a woven fabric, a nonwoven fabric, a net, or a mesh,the porous resin sheet is located on a surface side of the vent structure,when the gas-permeable membrane is viewed in a plane, an area of the porous resin sheet is larger than an area of the main body and the main body is fitted entirely in the porous resin sheet,the porous resin sheet has an outer peripheral portion that projects outwardly from an outer peripheral edge of the main body in an in-plane direction perpendicular to the thickness direction of the gas-permeable membrane,both of the main body and the outer peripheral portion of the porous resin sheet are fixed directly to a first portion of the surface of the resin component and a second portion of a surface of the resin component respectively by the laser welding portion, and the first portion is different from the second portion, anda thickness of the porous resin sheet is greater than that of the main body. 2. The vent structure according to claim 1, wherein the porous resin sheet is an ultra-high molecular weight polyethylene porous sheet. 3. The vent structure according to claim 1, wherein the resin component is a molded article of a resin having a lower melting point than a fluororesin that constitutes the fluororesin film. 4. The vent structure according to claim 1, wherein the laser welding portion has a double ring shape in a plan view. 5. The vent structure according to claim 4, wherein the porous resin sheet is provided on only one side of the main body, andthe laser welding portion includes: an inner periphery welding portion that is formed between the resin component and the main body; and an outer periphery welding portion that is formed between the resin component and the outer peripheral portion of the porous resin sheet. 6. The vent structure according to claim 1, wherein the laser welding portion is formed so as to straddle a boundary between the main body and the porous resin sheet in the in-plane direction. 7. The vent structure according to claim 1, wherein the porous resin sheet comprises a recess facing the opening portion, and the main body is fitted in the recess. 8. The vent structure according to claim 1, wherein the reinforcing member of the main body is welded to the resin component. 9. The vent structure according to claim 1, wherein the first portion of the surface of the surface of the resin component and the second portion of the surface of the resin component are on a same plane. 10. A method of manufacturing a vent structure including: a resin component having an opening portion for ventilation; and a gas-permeable membrane that is attached to the resin component to close the opening portion, wherein the gas-permeable membrane has: a main body including a fluororesin film and a reinforcing member laminated with the fluororesin film by welding or bonding; and a porous resin sheet that is laid on the main body, the method comprising the steps of: placing the gas-permeable membrane on the opening portion of the resin component so that the porous resin sheet is located on a surface side of the vent structure to be manufactured; andirradiating an interface between the resin component and the gas-permeable membrane with a laser beam so that a laser welding portion is formed around the opening portion to fix directly, to the resin component, both of the main body and an outer peripheral portion of the porous resin sheet that projects outwardly from an outer peripheral edge of the main body in an in-plane direction perpendicular to a thickness direction of the gas-permeable membrane,wherein the reinforcing member comprises a woven fabric, a nonwoven fabric, a net, or a mesh,when the gas-permeable membrane is viewed in a plane, an area of the porous resin sheet is larger than an area of the main body and the main body is fitted entirely in the porous resin sheet,in the irradiating step, both of the main body and the outer peripheral portion of the porous resin sheet are fixed directly to a first portion of a surface of the resin component and a second portion of the surface of the resin component respectively by the laser welding portion and the first portion is different from the second portion, anda thickness of the porous resin sheet is greater than that of the main body. 11. The method of manufacturing a vent structure according to claim 10, wherein in the placing step, a light-transmissive jig having an opening portion for heat radiation is used as a jig for maintaining a positional relationship between the gas-permeable membrane and the resin component, and the gas-permeable membrane is sandwiched between the light-transmissive jig and the resin component so that the gas-permeable membrane is exposed through the opening portion of the light-transmissive jig, andin the laser irradiating step, the gas-permeable membrane and the resin component are irradiated with the laser beam that has passed through the light-transmissive jig. 12. The method of manufacturing a vent structure according to claim 10, wherein the porous resin sheet is an ultra-high molecular weight polyethylene porous sheet. 13. The method of manufacturing a vent structure according to claim 10, wherein the porous resin sheet is provided on only one side of the main body, andthe laser irradiating step comprises: a first irradiating step of forming an inner periphery welding portion as the laser welding portion between the resin component and the main body; and a second irradiating step of forming an outer periphery welding portion as the laser welding portion between the resin component and the outer peripheral portion of the porous resin sheet. 14. The method of manufacturing a vent structure according to claim 10, wherein in the laser irradiating step, the laser welding portion is formed so as to straddle a boundary between the main body and the porous resin sheet in the in-plane direction. 15. The method of manufacturing a vent structure according to claim 10, wherein the porous resin sheet comprises a recess facing the opening portion, and the main body is fitted in the recess. 16. The method of manufacturing a vent structure according to claim 10, wherein the reinforcing member of the main body is welded to the resin component. 17. The method of manufacturing a vent structure according to claim 10, wherein the first portion of the surface of the resin component and the second portion of the surface of the resin component are on a same plane. 18. A vent structure comprising: a resin component having an opening portion for ventilation;a gas-permeable membrane that is attached to the resin component to close the opening portion, the gas-permeable membrane having: a main body including a fluororesin film; and a porous resin sheet that is laid on the main body; anda laser welding portion that is formed around the opening portion to lie between the resin component and the gas-permeable membrane and that joins the resin component with the gas-permeable membrane,wherein the porous resin sheet is located on a surface side of the vent structure,when the gas-permeable membrane is viewed in a plane, an area of the porous resin sheet is larger than an area of the main body and the main body is fitted entirely in the porous resin sheet,the porous resin sheet has an outer peripheral portion that projects outwardly from an outer peripheral edge of the main body in an in-plane direction perpendicular to a thickness direction of the gas-permeable membrane,both of the main body and the outer peripheral portion of the porous resin sheet are fixed directly to a first portion of the surface of the resin component and a second portion of the surface of the resin component respectively by the laser welding portion, and the first portion is different from the second portion,the first portion of the surface of the resin component and the second portion of the surface of the resin component are on a same plane, anda thickness of the porous resin sheet is greater than that of the main body.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (6)
Ibuka, Shigeo; Kushibiki, Keiko; Yaguchi, Tatsuya, Fuel cell with separator and porous support member including high density portion.
Kariya Toshimitsu,JPX, Photovoltaic element having a back side transparent and electrically conductive layer with a light incident side surface region having a specific cross section and a module comprising said photovolat.
Akahori, Masami; Matsune, Jo; Ohno, Koichi; Hayashi, Zituhiko; Yokose, Koichi; Kuroki, Yuichi, Seal plate and pressure adjusting mechanism for the seal plate.
Mashiko,Hiroaki; Yanagi,Toshiki; Nishii,Hiroyuki; Ikeyama,Yoshiki, Ventilation member, vented housing using the same, pull-out prevention member for ventilation member and kit for forming ventilation structure.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.