초록 ▼

The present invention provides a cooling medium flow path for improving cooling efficiency of a cooling medium used for liquid-cooling systems for motors, radiators and the like. The cooling medium flow path according to the present invention is capable of increasing cooling efficiency of a cooling

The present invention provides a cooling medium flow path for improving cooling efficiency of a cooling medium used for liquid-cooling systems for motors, radiators and the like. The cooling medium flow path according to the present invention is capable of increasing cooling efficiency of a cooling medium by providing magnetic members for generating a magnetic force in a direction substantially perpendicular to the flow direction of the cooling medium so that clusters of a liquid, such as cooling water, antifreeze liquid or the like flowing through the flow path may be finely divided or activated.

대표청구항 ▼

The invention claimed is: 1. A motor comprising a cooling medium flow path to which magnetic members are provided, the magnetic members generating a magnetic force in a direction substantially perpendicular to the flow direction, wherein the magnetic flux density at the center of the flow path is s

The invention claimed is: 1. A motor comprising a cooling medium flow path to which magnetic members are provided, the magnetic members generating a magnetic force in a direction substantially perpendicular to the flow direction, wherein the magnetic flux density at the center of the flow path is set at 2,000 to 5,000 gausses, and wherein far-infrared ray-generating members are provided in conjunction with the magnetic members, the wavelength of the far-infrared ray generated by the far-infrared ray-generating members being within ±10% of 1/N of a wavelength at which molecules undergo resonance reaction, wherein N is a natural number. 2. The motor according to claim 1, wherein the magnetic members are arranged in such a manner that mutually identical magnetic poles are juxtaposed or mutually different magnetic poles are alternately juxtaposed at a portion where the members are in the region of the medium flow path, around a pipe in which the cooling medium flows. 3. The motor according to claim 1, wherein the medium flow path is a bundled combination of a pathway through which a cooling medium passes together with a pathway through which a medium as a fuel passes, and further comprises magnetic members provided thereto, the magnetic members generating a magnetic force in a direction substantially perpendicular to the flow direction in each pathway. 4. The motor according to claim 1, which is used for an automobile. 5. The motor according to claim 1, which is liquid-cooled. 6. The motor according to claim 1, wherein far-infrared radiation-generating substances of the far-infrared ray-generating members include tourmaline, black silica, zeolite, talc, ceramics in general and substances containing SiO2 in part of their compositions. 7. The motor according to claim 1, wherein the cooling medium flow path is connected to a pump. 8. The motor according to claim 1, wherein the wavelength of the far-infrared ray is 5 to 25 micrometers. 9. The motor according to claim 1, wherein the wavelength of the far-infrared ray is 6 to 18 micrometers. 10. The motor according to claim 1, wherein the wavelength of the far-infrared ray is 8 to 14 micrometers. 11. A medium flow path comprising magnetic members, the magnetic members generating a magnetic force in a direction substantially perpendicular to the flow direction, wherein the magnetic flux density at the center of the flow path is set at 2,000 to 5,000 gausses, and wherein far-infrared ray-generating members are provided in conjunction with the magnetic members, the wavelength of the far-infrared ray generated by the far-infrared ray-generating members being within ±10% of 1/N of a wavelength at which molecules undergo resonance reaction, wherein N is a natural number. 12. The medium flow path according to claim 11, wherein the magnetic members are arranged in such a manner that mutually identical magnetic poles are juxtaposed or mutually different magnetic poles are alternately juxtaposed at a portion where the members are in the region of the medium flow path, around a pipe in which the cooling medium flows. 13. The medium flow path according to claim 11, wherein the medium flow path is a bundled combination of a pathway through which a cooling medium passes together with a pathway through which a medium as a fuel passes, and further comprises magnetic members provided thereto, the magnetic members generating a magnetic force in a direction substantially perpendicular to the flow direction in each pathway. 14. The medium flow path according to claim 11, wherein far-infrared radiation-generating substances of the far-infrared ray-generating members include tourmaline, black silica, zeolite, talc, ceramics in general and substances containing SiO2 in part of their compositions. 15. The medium flow path according to claim 11, to which a pump is connected. 16. The medium flow path according to claim 11, wherein the wavelength of the far-infrared ray is 5 to 25 micrometers. 17. The medium flow path according to claim 11, wherein the wavelength of the far-infrared ray is 6 to 18 micrometers. 18. The medium flow path according to claim 11, wherein the wavelength of the far-infrared ray is 8 to 14 micrometers. 19. A motor comprising a cooling medium flow path to which magnetic members are provided, the magnetic members generating a magnetic force in a direction substantially perpendicular to the flow direction, wherein the magnetic flux density at the center of the flow path is set at 2,000 to 5,000 gausses, and wherein the medium flow path is a bundled combination of a pathway through which a cooling medium passes together with a pathway through which a medium as a fuel passes, and further comprises magnetic members provided thereto, the magnetic members generating a magnetic force in a direction substantially perpendicular to the flow direction in each pathway. 20. The motor according to claim 19, wherein far-infrared ray-generating members are provided in conjunction with the magnetic members. 21. The motor according to claim 20, wherein the wavelength of the far-infrared ray generated by the far-infrared ray-generating members is within ±10% of 1/N of a wavelength at which molecules undergo resonance reaction, wherein N is a natural number. 22. The motor according to claim 21, wherein the wavelength of the far-infrared ray is 5 to 25 micrometers. 23. The motor according to claim 21, wherein the wavelength of the far-infrared ray is 6 to 18 micrometers. 24. The motor according to claim 21, wherein the wavelength of the far-infrared ray is 8 to 14 micrometers. 25. The motor according to claim 19, wherein the magnetic members are arranged in such a manner that mutually identical magnetic poles are juxtaposed or mutually different magnetic poles are alternately juxtaposed at a portion where the members are in the region of the medium flow path, around a pipe in which the cooling medium flows. 26. The motor according to claim 19, which is used for an automobile. 27. The motor according to claim 19, which is liquid-cooled. 28. The motor according to claim 19, wherein the cooling medium flow path is connected to a pump. 29. A medium flow path comprising magnetic members, the magnetic members generating a magnetic force in a direction substantially perpendicular to the flow direction, wherein the magnetic flux density at the center of the flow path is set at 2,000 to 5,000 gausses, and wherein the medium flow path is a bundled combination of a pathway through which a cooling medium passes together with a pathway through which a medium as a fuel passes, and further comprises magnetic members provided thereto, the magnetic members generating a magnetic force in a direction substantially perpendicular to the flow direction in each pathway. 30. The medium flow path according to claim 29, wherein far-infrared ray-generating members are provided in conjunction with the magnetic members. 31. The medium flow path according to claim 30, wherein the wavelength of the far-infrared ray generated by the far-infrared ray-generating members is within ±10% of 1/N of a wavelength at which molecules undergo resonance reaction, wherein N is a natural number. 32. The motor according to claim 31, wherein the wavelength of the far-infrared ray is 5 to 25 micrometers. 33. The motor according to claim 31, wherein the wavelength of the far-infrared ray is 6 to 18 micrometers. 34. The motor according to claim 31, wherein the wavelength of the far-infrared ray is 8 to 14 micrometers. 35. The medium flow path according to claim 29, wherein the magnetic members are arranged in such a manner that mutually identical magnetic poles are juxtaposed or mutually different magnetic poles are alternately juxtaposed at a portion where the members are in the region of the medium flow path, around a pipe in which the cooling medium flows. 36. The medium flow path according to claim 29, to which a pump is connected.