초록 ▼

The present invention relates to relay thermal conductor made of material having better thermal conductivity coefficient, wherein which is thermal conductively coupled with heating or cooling first thermal body at one end or face thereof, and is coupled with interface thermal conductor having higher

The present invention relates to relay thermal conductor made of material having better thermal conductivity coefficient, wherein which is thermal conductively coupled with heating or cooling first thermal body at one end or face thereof, and is coupled with interface thermal conductor having higher specific heat capacity at the other end or face thereof; the relay thermal conductor directly performs thermal conduction with second thermal body at another part thereof; and the interface thermal conductor having higher specific heat capacity is the thermal conducting carrier between the relay thermal conductor and the second thermal body.

대표청구항 ▼

1. A multi-layer thermally conductive structure including a plurality of partially overlapping conductors having different thermal conducting characteristics, comprising: a relay thermal conductor having a first surface that contacts and is thermally coupled with a first thermal body;an interface th

1. A multi-layer thermally conductive structure including a plurality of partially overlapping conductors having different thermal conducting characteristics, comprising: a relay thermal conductor having a first surface that contacts and is thermally coupled with a first thermal body;an interface thermal conductor between said relay thermal conductor and a second thermal body, said second thermal body contacting only the interface thermal conductor and not the relay thermal conductor, said interface thermal conductor having a first surface that contacts and is thermally coupled with the second thermal body, said relay thermal conductor and interface thermal conductor conducting heat between the first thermal body and the second thermal body when there is a temperature difference between the first thermal body and the second thermal body, and said interface thermal conductor having one of the following thermal characteristics:(i) a higher specific heat capacity than the relay thermal conductor;(ii) a coefficient of heat transfer to the second thermal body that is higher than a coefficient of thermal transfer from the relay thermal conductor to the second thermal body; and(iii) a higher thermal emissivity to the second thermal body than to the relay thermal conductor,wherein the interface thermal conductor has a second surface that, like said first surface of the relay thermal conductor, contacts and is thermally coupled with the first thermal body,wherein the first thermal body is either a heat absorber or a heat source and the second thermal body is also either a heat absorber or a heat source, andwherein relative contact areas between the relay thermal conductor, the interface thermal conductor, and the first and second thermal bodies determines thermal conduction properties of the multi-layer thermally conductive structure,wherein a thermal conducting surface of the first thermal body (101) is partially in contact with the relay thermal conductor (102) and partially in contact with the interface thermal conductor (103),wherein a thermal conductive surface of the relay thermal conductor (102) is partially in contact with the first thermal body (101) and partially in contact with the interface thermal conductor (103), said interface thermal conductor including a central section that extends through the relay thermal conductor to contact the first thermal body,wherein the first thermal body is an external heat source, andwherein the relay thermal conductor is made of a metal having a higher thermal conductivity than the interface thermal conductor and is sandwiched between the first thermal body and a portion of the interface thermal conductor that does not directly contact the first thermal body to diffuse thermal energy received by the relay thermal conductor from the first thermal body toward the interface thermal conductor. 2. A multi-layer thermally conductive structure as claimed in claim 1, the thermally conductive structure is included in one of the following heat absorbing, heat dissipation, or cooling structures of devices: machine casings; heat pipe structures; structural casings; semiconductor components; ventilation devices; information, audio, or image devices; lamps or LED devices; air conditioning devices; electrical machines or engines; mechanical devices that produce frictional heat losses; electric heaters, home appliances, or cooking devices; flame heating stoves; thermal energy installations; factories, houses, or other structures; water towers; and batteries or fuel cells. 3. A multi-layer thermally conductive structure as claimed in claim 1, wherein the thermally conductive structure is applied to round-bottomed cookware that lacks a lid or is equipped with a liftable lid. 4. A multi-layer thermally conductive structure as claimed in claim 1, wherein the relay thermal conductor is made of gold, silver, copper, or aluminum. 5. A multi-layer thermally conductive structure as claimed in claim 1, wherein the interface thermal conductor is made of aluminum, iron, cast iron, stainless steel, ceramics, stone, or gold. 6. A multi-layer thermally conductive structure as claimed in claim 1, wherein the thermally conductive structure is applied to a fluid inlet/outlet interface of a boiler, and wherein the boiler is a hermetic or semi-hermetic device. 7. A multi-layer thermally conductive structure as claimed in claim 1, wherein the interface thermal conductor includes a liquid, solid, or gas for transmitting thermal energy to the second thermal body. 8. A multi-layer thermally conductive structure as claimed in claim 1, wherein the relay thermal conductor includes a ring structure having an aperture whose diameter decreases between a surface that faces the first thermal body and a surface that faces the interface thermal conductor, and wherein a thickness of the relay thermal conductor decreases with distance away from the aperture. 9. A multi-layer thermally conductive structure as claimed in claim 1, wherein said thermal conductors are joined by one of the following structures: a. external screws or nuts;b. a mutually threaded spiral post and hole structure;c. a prestressed-clamping combination with a mutually threaded spiral post and hole structure;d. a rivet structure;e. a lamination structure;f. a fastener and clamp combination structure;g. an adhesive structure;h. a welded structure;i. a cast structure;j. a clamping structure;k. a table structure;l. a sintered powder structure;m. a friction and fusion structure;n. common casting of neighboring thermal conductors;o. an electroplating structure;p. a fixed or movable attachment structure;q. a structure that involves gravity;r. a magnetic structure; ands. an enclosure.