Aspects of the disclosure are directed to a flexible thermal blanket assembly, comprising: a stack-up of material layers that are configured to wrap around a component, a plurality of snaps configured to be mechanically fastened through the material layers, and a cap configured as a baffle to preven
Aspects of the disclosure are directed to a flexible thermal blanket assembly, comprising: a stack-up of material layers that are configured to wrap around a component, a plurality of snaps configured to be mechanically fastened through the material layers, and a cap configured as a baffle to prevent thermal energy located at an exterior of the thermal blanket assembly from entering an interior of the thermal blanket assembly when the thermal blanket assembly is assembled.
대표청구항▼
1. A flexible thermal blanket assembly, comprising: a stack-up of material layers that are configured to wrap around a component;a plurality of snaps configured to be mechanically fastened through the material layers; anda cap configured as a baffle to prevent thermal energy located at an exterior o
1. A flexible thermal blanket assembly, comprising: a stack-up of material layers that are configured to wrap around a component;a plurality of snaps configured to be mechanically fastened through the material layers; anda cap configured as a baffle to prevent thermal energy located at an exterior of the thermal blanket assembly from entering an interior of the thermal blanket assembly when the thermal blanket assembly is assembled,wherein the material layers include: a silicone-impregnated aluminized fiberglass layer;a ceramic layer; andan insulation layer. 2. The thermal blanket assembly of claim 1, wherein the cap includes a plurality of sections. 3. The thermal blanket assembly of claim 2, wherein at least one of the sections includes a miter joint. 4. The thermal blanket assembly of claim 1, wherein the cap is coupled to the material layers via at least one of an adhesive or a stitch. 5. The thermal blanket assembly of claim 1, wherein the material layers include a hole formed therein that is configured to seat at least one of a plug or a seal. 6. The thermal blanket assembly of claim 5, further comprising: a sensor located in the interior of the thermal blanket assembly. 7. The thermal blanket assembly of claim 6, wherein the sensor is configured to measure at least one of a fluid flow, a temperature, and a pressure. 8. The thermal blanket assembly of claim 5, further comprising: a strap that is configured to at least partially cover a split line, the split line formed from a first end of the thermal blanket assembly to the hole. 9. The thermal blanket assembly of claim 8, wherein a first end of the strap is attached to the material layers via at least one of an adhesive or a stitch, and wherein a second end of the strap includes a snap. 10. The thermal blanket assembly of claim 1, further comprising: at least one wear protection plate located in the interior and on a surface of the material layers. 11. The thermal blanket assembly of claim 1, wherein the material layers include: a fiberglass layer disposed between the aluminized fiberglass layer and the ceramic layer. 12. The thermal blanket assembly of claim 1, wherein the aluminum fiberglass layer includes a silicone coating, and wherein the material layers include a calendared ceramic. 13. The thermal blanket assembly of claim 1, wherein at least two of the material layers are bonded to one another or are coupled to one another via an adhesive and a primer. 14. The thermal blanket assembly of claim 1, wherein the material layers are coupled to one another via at least one stitched thread. 15. The thermal blanket assembly of claim 1, wherein the insulation layer has a thickness of at least 3/16 inches. 16. The thermal blanket assembly of claim 1, further comprising: at least one vent hole formed in the material layers; anda mesh over the at least one vent hole, the mesh configured to prevent debris from entering the thermal blanket assembly. 17. The thermal blanket assembly of claim 1, wherein at least one of the snaps is hollow and includes locking-wire. 18. The thermal blanket assembly of claim 1, further comprising: the component,wherein the component includes a non-metallic seal associated with a fuel pump adapter. 19. A flexible thermal blanket assembly, comprising: a stack-up of material layers that are configured to wrap around a component;a plurality of snaps configured to be mechanically fastened through the material layers;a cap configured as a baffle to prevent thermal energy located at an exterior of the thermal blanket assembly from entering an interior of the thermal blanket assembly when the thermal blanket assembly is assembled; anda sensor located in the interior of the thermal blanket assembly,wherein the material layers include a hole formed therein that is configured to seat at least one of a plug or a seal. 20. A flexible thermal blanket assembly, comprising: a stack-up of material layers that are configured to wrap around a component;a plurality of snaps configured to be mechanically fastened through the material layers;a cap configured as a baffle to prevent thermal energy located at an exterior of the thermal blanket assembly from entering an interior of the thermal blanket assembly when the thermal blanket assembly is assembled; andat least one wear protection plate located in the interior and on a surface of the material layers.
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이 특허에 인용된 특허 (9)
Bailey ; Sr. Richard F. ; Fisher Ronald A. ; Hoffberg Steven M., Ergonomic systems and methods providing intelligent adaptive surfaces and temperature control.
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