Method for manufacturing a fuel tank or filling pipe and use thereof in a hybrid vehicle
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B60K-015/00
B25J-015/00
B29C-049/00
F16L-019/00
B60K-015/03
B29C-049/04
B29C-049/20
B25J-015/06
B25J-019/00
F16L-009/133
B29K-023/00
B29K-105/08
B29K-105/00
B29L-031/00
출원번호
US-0781143
(2014-03-28)
등록번호
US-10160311
(2018-12-25)
우선권정보
FR-13 52941 (2013-03-29)
국제출원번호
PCT/EP2014/056375
(2014-03-28)
국제공개번호
WO2014/154900
(2014-10-02)
발명자
/ 주소
De Keyzer, Pierre
Criel, Bjorn
Boucaux, Eric
출원인 / 주소
Plastic Omnium Advanced Innovation and Research
대리인 / 주소
Oblon, McClelland, Maier & Neustadt, L.L.P.
인용정보
피인용 횟수 :
0인용 특허 :
5
초록▼
A method for manufacturing a fuel tank or filling pipe including a wall made of thermoplastics material and a fibrous reinforcement over at least part of the surface thereof, the method including: heating the fibrous reinforcement to bring the fibrous reinforcement into an at least partially molten
A method for manufacturing a fuel tank or filling pipe including a wall made of thermoplastics material and a fibrous reinforcement over at least part of the surface thereof, the method including: heating the fibrous reinforcement to bring the fibrous reinforcement into an at least partially molten state; introducing the heated fibrous reinforcement, and the wall in at least partially molten state, into a mold; and welding the fibrous reinforcement to the wall using pressure of a gas which inflates the wall and presses the heated fibrous reinforcement firmly against the wall in the molten state.
대표청구항▼
1. A method for welding a fibrous reinforcement when manufacturing an object chosen from an assembly of a tank and a filling pipe, the object including a wall of thermoplastics material, the welding method comprising: heating a fibrous reinforcement to bring the fibrous reinforcement into a molten s
1. A method for welding a fibrous reinforcement when manufacturing an object chosen from an assembly of a tank and a filling pipe, the object including a wall of thermoplastics material, the welding method comprising: heating a fibrous reinforcement to bring the fibrous reinforcement into a molten state, the fibrous reinforcement including both a thermoplastics material compatible with that of the object and chopped fibers or long fibers or continuous fibers which may or may not be woven, the fibrous reinforcement being located on an external face of the object without increasing significantly a thickness of the object and decreasing a useful capacity of the object; andwelding, in a mold, the heated fibrous reinforcement to the wall in an at least partially molten state, using pressure of a gas that inflates the wall against the mold. 2. The method as claimed in claim 1, wherein the object is a fuel tank. 3. The method as claimed in claim 1, wherein the object is a filling pipe. 4. The method as claimed in claim 1, wherein the fibrous reinforcement is heated using a heating element that is placed in front of the fibrous reinforcement to heat the fibrous reinforcement by radiation, by convection, or by contact. 5. The method as claimed in claim 1, wherein the fibrous reinforcement is heated outside of the mold to bring the fibrous reinforcement into a molten state and then introduced heated into the mold. 6. The method as claimed in claim 1, further comprising preforming the fibrous reinforcement, the preforming being performed at least partially outside of the mold and/or in the mold. 7. The method as claimed in claim 6, wherein the preforming the fibrous reinforcement on a preforming support is performed outside of the mold after the fibrous reinforcement has been heated and before the fibrous reinforcement is transferred into the mold. 8. The method as claimed in any claim 1, wherein the thermoplastics-material content of the fibrous reinforcement is at least 30%, or 50%, or at least 70%. 9. The method as claimed in claim 1, wherein there are provided, in the mold, at a site intended for the preheated reinforcement, means for keeping the mold at a temperature high enough to prevent the fibrous reinforcement from cooling before the fibrous reinforcement has become welded to the sheet. 10. A method of manufacturing an object chosen from an assembly a fuel tank and of a filling pipe, comprising: introducing a sheet of thermoplastics material in an at least partially molten state into a blow-molding mold;shaping the sheet to a cavity of the mold by blow-molding using a blow-molding gas; anddemolding the sheet;the object comprising a wall of thermoplastics material which is formed by the sheet and locally reinforced by a fibers reinforcement comprising both a thermoplastics material compatible with that of the sheet and chopped fibers or long fibers or continuous fibers which may or may not be woven;the method further comprising the method as claimed in claim 1 for welding the fibrous reinforcement to the sheet, the mold of the welding method being the blow-molding mold and the pressure of the gas which inflates the wall against the mold during welding being the pressure of the blow-molding gas. 11. The method as claimed in claim 10, wherein the fibrous reinforcement is introduced into the mold to press the fibrous reinforcement against a face of the sheet opposite to an interior face of the mold. 12. The method as claimed in claim 10, wherein the fibrous reinforcement is introduced into the mold to press the fibrous reinforcement against an interior face of the mold. 13. The method as claimed in claim 10, wherein two sheets of thermoplastics material in an at least partially molten state are introduced into a blow-molding mold of two half-molds and of a core separating the two half-molds, one sheet being introduced between a first half-mold and the core, the other sheet being introduced between the second half-mold and the core, the method further comprising: bonding the two sheets together after they have been shaped, by opening the mold, removing the core from between the two half-molds, and bringing the two half-molds back against one another. 14. A method of manufacturing an object from an assembly of a fuel tank and of a filling pipe, comprising: demolding a sheet in an at least partially molten state from a blow-molding mold in which the sheet has been shaped;introducing the sheet into a post-blowing mold;inflating the sheet against an interior face of the post-blowing mold using a post-blowing gas;the object comprising a wall made of thermoplastics material formed by the sheet and locally reinforced with a fibers reinforcement comprising both a thermoplastics material compatible with that of the sheet and chopped fibers or long fibers or continuous fibers which may or may not be woven;the method further comprising the method for welding the fibrous reinforcement to the sheet as claimed in claim 1, the welding mold being the post-blowing mold and the pressure of the gas which inflates the wall against the mold being the pressure of the post-blowing gas. 15. A core of a mold for implementing the method as claimed in claim 13, comprising mobile means of positioning the reinforcement near the interior face of the mold. 16. A tank or pipe obtained by a method as claimed in claim 10, comprising: a wall of thermoplastics material and a fibers reinforcement welded over at least part of its external surface, the fibrous reinforcement comprising a plastics material of same kind as or compatible with that of an external surface of the tank or of the pipe and continuous fibers. 17. The use of a tank as claimed in claim 16 obtained as a fuel tank of a hybrid vehicle. 18. A method for welding a fibrous reinforcement when manufacturing an object chosen from an assembly of a tank and a filling pipe, the object including a wall of thermoplastics material, the welding method comprising: heating a fibrous reinforcement outside a mold to bring the fibrous reinforcement into a molten state, the fibrous reinforcement including both a thermoplastics material compatible with that of the object and chopped fibers or long fibers or continuous fibers which may or may not be woven, the fibrous reinforcement not increasing significantly a thickness of the object and not decreasing a useful capacity of the object;introducing the fibrous reinforcement heated into the mold; andwelding, in the mold, the heated fibrous reinforcement to the wall in an at least partially molten state, using pressure of a gas that inflates the wall against the mold.
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이 특허에 인용된 특허 (5)
Seizert Robert D. (Canton MI), Fabric reinforcement for plastic fuel tanks.
Stiles Ernest D. (St. Clair Shores MI) Wlosinski Ronald K. (Sterling Heights MI) Houston Daniel Q. (Dearborn MI), Method of molding an article with integral heat shield.
Stiles Ernest D. (St. Clair Shores MI) Wlosinski Ronald K. (Sterling Heights MI) Houston Daniel Q. (Dearborn MI), Molded article with integral heat shield.
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