A heat exchanger tube has an inner peripheral surface serving as an exhaust gas flow path with a flat cross-sectional shape. A thin structure is incorporated in the heat exchanger tube and has a substantially rectangular channel-shaped waveform in cross section. The corrugated fin structure has a cu
A heat exchanger tube has an inner peripheral surface serving as an exhaust gas flow path with a flat cross-sectional shape. A thin structure is incorporated in the heat exchanger tube and has a substantially rectangular channel-shaped waveform in cross section. The corrugated fin structure has a curved surface forming waveform meandering with a predetermined wavelength in the lengthwise direction. The wave width of the channel-shaped waveform is H, the wavelength of the waveform meandering in the lengthwise direction is L and the amplitude of the waveform meandering in the lengthwise direction is A. The heat exchanger tube is formed so that H/L is set at 0.17 to 0.20 and the ration (G/H) of a gap G determined by H-A to H is set at-0.21 to 0.19.
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What is claimed is: 1. A heat exchanger tube having an inner peripheral surface defining an exhaust gas flow path with a flat cross-sectional shape, a corrugated fin structure incorporated in the heat exchanger tube and having a substantially rectangular channel-shaped waveform in cross section, th
What is claimed is: 1. A heat exchanger tube having an inner peripheral surface defining an exhaust gas flow path with a flat cross-sectional shape, a corrugated fin structure incorporated in the heat exchanger tube and having a substantially rectangular channel-shaped waveform in cross section, the corrugated fin structure having a curved surface forming a waveform meandering with a predetermined wavelength L in a lengthwise direction, the channel-shaped waveform defining a wave width H selected so that a value indicated by H/L is within a range of 0.17 to 0.20 and a vertex of the waveform meandering in the corrugated fin structure having a radius of curvature R in a range of 1.7 H to 2 H for the wave width H of the channel-shaped waveform in the corrugated fin structure. 2. The heat exchanger tube according to claim 1, characterized in that at least one notch, slit or through hole is provided in a side wall portion having a curved surface in the lengthwise direction in the corrugated fin structure so that a fluid can flow between adjacent fluid flow paths. 3. The heat exchanger tube according to claim 1, characterized in that the corrugated fin structure is formed of a metallic sheet material, a fabrication means thereof is selected from press molding, gear molding, and a combination of these, and a joining means for joining the corrugated fin structure to the inner peripheral surface of the heat exchanger tube is selected from welding, brazing, adhesion, and other joining methods. 4. The heat exchanger tube according to claim 1, characterized in that a metallic sheet material forming the corrugated fin structure consists of an austenitic stainless steel with a thickness of 0.05 to 0.3 mm. 5. The heat exchanger tube according to claim 1, characterized in that the heat exchanger tube has a substantially elliptical cross-sectional shape. 6. The heat exchanger tube according to claims 1, characterized in that the heat exchanger tube has a substantially rectangular cross-sectional shape. 7. A heat exchanger tube having an inner peripheral surface defining an exhaust gas flow path with a flat cross-sectional shape, a corrugated fin structure incorporated in the heat exchanger tube and having a substantially rectangular channel-shaped waveform in cross section, the corrugated fin structure having a curved surface forming waveform meandering with a predetermined wavelength L in a lengthwise direction and an amplitude A, the channel-shaped waveform defining a wave width H, a gap G determined by a difference (H-A) between the wave width H of the channel-shaped waveform and the amplitude A being is selected so that a value G/H is within a range of-0.21 to 0.19 and a vertex of the waveform meandering in the corrugated fin structure having a radius of curvature R in a range of 1.7 H to 2 H for the wave width H of the channel-shaped waveform in the corrugated fin structure. 8. The heat exchanger tube according to claim 7, characterized in that at least one notch, slit or through hole are provided in a side wall portion having a curved surface in the lengthwise direction in the corrugated fin structure so that a fluid can flow between adjacent fluid flow paths. 9. The heat exchanger tube according to claim 7, characterized in that the corrugated fin structure is formed of a metallic sheet material, a fabrication means thereof is selected from press molding, gear molding, and a combination of these, and a joining means for joining the corrugated fin structure to the inner peripheral surface of the heat exchanger tube is selected from welding, brazing, adhesion, and other joining methods. 10. The heat exchanger tube according to claim 7, characterized in that a metallic sheet material forming the corrugated fin structure consists of an austenitic stainless steel with a thickness of 0.05 to 0.3 mm. 11. The heat exchanger tube according to claim 7, characterized in that the heat exchanger tube has a substantially elliptical cross-sectional shape. 12. The heat exchanger tube according to claims 7, characterized in that the heat exchanger tube has a substantially rectangular cross-sectional shape. 13. A heat exchanger tube having an inner peripheral surface defining an exhaust gas flow path with a flat cross-sectional shape, a corrugated fin structure incorporated in the heat exchanger tube and having a substantially rectangular channel-shaped waveform in cross section, the corrugated fin structure having a curved surface forming a waveform meandering with a predetermined wavelength L in a lengthwise direction and an amplitude A, the channel-shaped waveform defining a wave width H selected so that a value indicated by H/L is within a range of 0.17 to 0.20, and a gap G determined by a difference (H-A) between the wave width H of the channel-shaped waveform and the amplitude A being selected so that a value G/H is within a range of-0.21 to 0.19 and a vertex of the waveform meandering in the corrugated fin structure having a radius of curvature R in a range of 1.7 H to 2 H for the wave width H of the channel-shaped waveform in the corrugated fin structure. 14. The heat exchanger tube according to claim 13, characterized in that at least one notch, slit or through hole, is provided in a side wall portion having a curved surface in the lengthwise direction in the corrugated fin structure so that a fluid can flow between adjacent fluid flow paths. 15. The heat exchanger tube according to claim 13, characterized in that the corrugated fin structure is formed of a metallic sheet material, a fabrication means thereof is selected from press molding, gear molding, and a combination of these, and a joining means for joining the corrugated fin structure to the inner peripheral surface of the heating tube is selected from welding, brazing, adhesion, and other joining methods. 16. The heat exchanger tube according to claim 13, characterized in that a metallic sheet material forming the corrugated fin structure consists of an austenitic stainless steel with a thickness of 0.05 to 0.3 mm. 17. The heat exchanger tube according to claim 13, characterized in that the heat exchanger tube has a substantially elliptical cross-sectional shape or a substantially rectangular cross-sectional shape.
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이 특허에 인용된 특허 (6)
Usui,Shoichiro; Goto,Tadahiro, Fin structure, heat-transfer tube having the fin structure housed therein, and heat exchanger having the heat-transfer tube assembled therein.
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