The present invention relates to a jacket heater having a heating element built therein, the jacket heater containing: the heating element having a watt density of 0.15 W/cm2 or more, a metal foil disposed adjacently to the heating element, and a surrounding body which surrounds the heating element
The present invention relates to a jacket heater having a heating element built therein, the jacket heater containing: the heating element having a watt density of 0.15 W/cm2 or more, a metal foil disposed adjacently to the heating element, and a surrounding body which surrounds the heating element and the metal foil.
대표청구항▼
1. A jacket heater having a heating element built therein, the jacket heater comprising: a metal foil, the metal foil having a thickness of 20 to 100 μm;a support disposed adjacently to the metal foil;the heating element having a watt density of 0.15 W/cm2 or more, the heating element being supporte
1. A jacket heater having a heating element built therein, the jacket heater comprising: a metal foil, the metal foil having a thickness of 20 to 100 μm;a support disposed adjacently to the metal foil;the heating element having a watt density of 0.15 W/cm2 or more, the heating element being supported by the support;a thermal insulator disposed adjacent to the heating element; anda surrounding body which surrounds the metal foil, the support, the heating element, and the thermal insulator,wherein the support is formed of a cloth made of inorganic fibers,the surrounding body includes an inner-layer material and an outer-layer material,the inner-layer material is disposed on the metal foil on a side opposite to the support,the outer-layer material is disposed on the thermal insulator on a side opposite to the heating element,the surrounding body is configured such that peripheral edge parts of the inner-layer material and the outer-layer material are bonded to each other,the inner-layer material and the outer-layer material each have a thickness of 0.1 to 8 mm, andthe inner-layer material, the metal foil, the support, the heating element, the thermal insulator, and the outer-layer material are stacked in a layered structure and stacked in order from an inner side to an outer side of the jacket heater. 2. The jacket heater according to claim 1, wherein the surrounding body is a sheet made of a fluororesin or a cloth made of inorganic fibers and having been subjected to coating treatment with a fluororesin. 3. The jacket heater according to claim 1, wherein the heating element comprises an electric heating wire. 4. The jacket heater according to claim 1, which is mounted on an object to be heated, so that the inner-layer material of the surrounding body comes into contact with the object. 5. A method for mounting the jacket heater of claim 1 on an object to be heated, wherein the jacket heater is mounted so that the metal-foil-side surface of the surrounding body comes into contact with the object. 6. The jacket heater according to claim 1, wherein the support is in direct contact with the metal foil, and the thermal insulator disposed is in direct contact with the heating element. 7. The jacket heater according to claim 1, wherein the thermal insulator is an aerogel-filled fibrous material obtained by filling a fibrous base with an aerogel. 8. The jacket heater according to claim 1, the thermal insulator is an aerogel-filled fibrous material obtained by filling a fibrous base with an aerogel, and the aerogel-filled fibrous material has a coefficient of thermal conductivity at 25° C. of 0.024 W/m·K or less, and has a coefficient of thermal conductivity at 80° C. of 0.035 W/m·K or less. 9. A jacket heater having a heating element built therein, the jacket heater comprising: a thermal insulator;a support disposed adjacent to the thermal insulator;the heating element having a watt density of 0.15 W/cm2 or more, the heating element being supported by the support;an insulating member disposed adjacent to the heating element;a metal foil disposed adjacent to the insulating member, the metal foil having a thickness of 20 to 100 μm; anda surrounding body which surrounds the thermal insulator, the support, the heating element, the insulating member, and the metal foil,the support being formed of a cloth made of inorganic fibers,the insulating member being formed of an electrically insulating cloth made of inorganic fibers,the surrounding body including an inner-layer material and an outer-layer material,the inner-layer material being disposed on the metal foil on a side opposite to the insulating member, andthe outer-layer material being disposed on the thermal insulator on a side opposite to the support, and whereinthe surrounding body is configured such that peripheral edge parts of the inner-layer material and the outer-layer material are bonded to each other,the inner-layer material and the outer-layer material each have a thickness of 0.1 to 8 mm, andthe inner-layer material, the metal foil, the insulating member, the heating element, the support, the thermal insulator, and the outer-layer material are stacked in a layered structure and stacked in order from an inner side to an outer side of the jacket heater. 10. The jacket heater according to claim 9, wherein the surrounding body is a sheet made of a fluororesin or a cloth made of inorganic fibers and having been subjected to coating treatment with a fluororesin. 11. The jacket heater according to claim 9, wherein the heating element comprises an electric heating wire. 12. The jacket heater according to claim 9, which is mounted on an object to be heated, so that the inner-layer material of the surrounding body comes into contact with the object. 13. A method for mounting the jacket heater of claim 9 on an object to be heated, wherein the jacket heater is mounted so that the metal-foil-side surface of the surrounding body comes into contact with the object. 14. The jacket heater according to claim 9, wherein the support is in direct contact with the metal foil, and the thermal insulator disposed is in direct contact with the heating element. 15. The jacket heater according to claim 9, wherein the thermal insulator is an aerogel-filled fibrous material obtained by filling a fibrous base with an aerogel. 16. The jacket heater according to claim 9, the thermal insulator is an aerogel-filled fibrous material obtained by filling a fibrous base with an aerogel, and the aerogel-filled fibrous material has a coefficient of thermal conductivity at 25° C. of 0.024 W/m·K or less, and has a coefficient of thermal conductivity at 80° C. of 0.035 W/m·K or less.
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이 특허에 인용된 특허 (5)
Batliwalla Neville S. ; Thompson James C., Electrical device.
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