A fuel container with high fuel barrier properties is provided. The fuel container is a coextrusion blow-molded fuel container having a container body made of a layered structure. The layered structure comprises: a barrier layer made of a barrier resin (A); and an inner layer and an outer layer made
A fuel container with high fuel barrier properties is provided. The fuel container is a coextrusion blow-molded fuel container having a container body made of a layered structure. The layered structure comprises: a barrier layer made of a barrier resin (A); and an inner layer and an outer layer made of a thermoplastic resin (B) that is different from the barrier resin (A); wherein a ratio (X/Y) of a distance (X) between end portions of the barrier layer at a pinch-off part of the fuel container and an average thickness (Y) of the container body is at least 1/10000 and at most 1/10; and wherein a ratio (Y1/Y) between a total thickness (Y1) of the layers of the container body that are located on the inside with respect to the barrier layer and an average thickness (Y) of the container body is at least 3/10 and at most 7/10.
대표청구항▼
What is claimed is: 1. A fuel container made of a layered structure, the layered structure at least comprising: a fuel barrier layer made of a fuel barrier resin (A); and an outer layer made of a thermoplastic resin (B) that is different from the fuel barrier resin (A), wherein the fuel container i
What is claimed is: 1. A fuel container made of a layered structure, the layered structure at least comprising: a fuel barrier layer made of a fuel barrier resin (A); and an outer layer made of a thermoplastic resin (B) that is different from the fuel barrier resin (A), wherein the fuel container is provided with an opening through its body, wherein a cutting face of a layer at the opening is covered by a fuel barrier member made of a fuel barrier material (C), wherein the layer covered by the fuel barrier member is located on the outside with respect to the fuel barrier layer, and wherein the fuel barrier member is exposed to an opening space through the fuel container, or the fuel barrier member and the fuel barrier layer are exposed to the opening space through the fuel container. 2. The fuel container of claim 1, comprising: an intermediate layer serving as the fuel barrier layer; and an inner layer and an outer layer made of the thermoplastic resin (B). 3. The fuel container of claim 1, wherein an adhesive resin layer is located between the fuel barrier layer and the layer made of the thermoplastic resin (B). 4. The fuel container of claim 1, wherein the fuel barrier resin (A) is at least one selected from the group consisting of polyvinyl alcohol resins, polyamides, and aliphatic polyketones. 5. The fuel container of claim 1, wherein the thermoplastic resin (B) is high-density polyethylene. 6. The fuel container of claim 1, wherein the fuel barrier material (C) is at least one selected from the group consisting of metal foil, epoxy resin, polyvinylidene chloride resin, polyvinylalcohol resin, polyamide resin, polyester resin, and fluorocarbon resin. 7. The fuel container of claim 1, wherein the fuel barrier member covers the cutting face via an adhesive. 8. The fuel container of claim 1, wherein a pinch-off part of the fuel container is covered with a fuel barrier member. 9. The fuel container of claim 1, wherein a component for fuel containers is mounted onto the opening portion. 10. The fuel container of claim 1, wherein a gasoline permeation amount (measured at 40° C. and 65% RH) of the fuel barrier resin (A) is at most 100 g·20 μm/m2·day. 11. The fuel container of claim 10, wherein a gasoline permeation amount (measured at 40° C. and 65% RH) of the fuel barrier material (C) is at most 400 g·20 μm/m2·day. 12. A fuel container made of a layered structure, the layered structure at least comprising: a fuel barrier layer made of a fuel barrier resin (A); and an outer layer made of a thermoplastic resin (B) that is different from the fuel barrier resin (A), wherein the fuel container is provided with an opening, a cut-out or a groove is provided around the opening in an outer surface of the outer layer of the fuel container such that the cut-out or the groove does not extend completely through the outer layer, and the cut-out or the groove is covered or filled with a fuel barrier member made of a fuel barrier material (C); and wherein the fuel barrier layer is exposed to an opening space. 13. The fuel container of claim 12, comprising: an intermediate layer serving as the fuel barrier layer; and an inner layer and an outer layer made of the thermoplastic resin (B). 14. The fuel container of claim 12, wherein an adhesive resin layer is located between the fuel barrier layer and the layer made of the thermoplastic resin (B). 15. The fuel container of claim 12, wherein the fuel barrier resin (A) is at least one selected from the group consisting of polyvinyl alcohol resins, polyamides, and aliphatic polyketones. 16. The fuel container of claim 12, wherein the thermoplastic resin (B) is high-density polyethylene. 17. The fuel container of claim 12, wherein the fuel barrier material (C) is at least one selected from the group consisting of metal foil, epoxy resin, polyvinylidene chloride resin, polyvinylalcohol resin, polyamide resin, polyester resin, and fluorocarbon resin. 18. The fuel container of claim 12, wherein the fuel barrier member covers the cutting face, cut-out or groove via an adhesive. 19. The fuel container of claim 12, wherein a pinch-off part of the fuel container is covered with a fuel barrier member. 20. The fuel container of claim 12, wherein the cut-out or groove provided in the outer surface around the opening completely surrounds the opening. 21. The fuel container of claim 12, wherein a depth of the cut-out or groove is 0.1 to 0.8 times an average thickness (Y) of the container body. 22. The fuel container of claim 12, wherein a depth of the cut-out or groove is at least 0.2 and less than 1 times a total thickness (Y2) of layers locating on the outside with respect to the fuel barrier layer. 23. The fuel container of claim 12, wherein a ratio (Y2/Y) of total thickness (Y2) of layers located on the outside with respect to the fuel barrier layer and the average thickness (Y) of the container body is at most 45/100. 24. The fuel container of claim 12, wherein a gasoline permeation amount (measured at 40° C. and 65% RH) of the fuel barrier resin (A) is at most 100 g·20 μm/m2·day. 25. The fuel container of claim 24, wherein a gasoline permeation amount (measured at 40° C. and 65% RH) of the fuel barrier material (C) is at most 400 g·20 μm/m2·day. 26. The fuel container of claim 12, wherein a component for fuel containers is mounted onto the opening portion. 27. The fuel container of claim 26, wherein the component for fuel containers is a fuel barrier member made of the fuel barrier material (C), and the cut-out or groove is covered by mounting the component for fuel containers.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.