IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0599128
(2007-06-11)
|
등록번호 |
US-8174833
(2012-05-08)
|
국제출원번호 |
PCT/JP2007/061738
(2007-06-11)
|
§371/§102 date |
20091106
(20091106)
|
국제공개번호 |
WO2008/152686
(2008-12-18)
|
발명자
/ 주소 |
- Kitanaka, Hidetoshi
- Yabuuchi, Masataka
|
출원인 / 주소 |
- Mitsubishi Electric Corporation
|
대리인 / 주소 |
Buchanan Ingersoll & Rooney PC
|
인용정보 |
피인용 횟수 :
6 인용 특허 :
0 |
초록
▼
A cooling device for cooling a plurality of switching elements included in each of a converter unit and an inverter unit includes a fin base that serves as a switching element attachment plane on which the switching elements are mounted and a plurality of fins arranged on a plane opposite to the swi
A cooling device for cooling a plurality of switching elements included in each of a converter unit and an inverter unit includes a fin base that serves as a switching element attachment plane on which the switching elements are mounted and a plurality of fins arranged on a plane opposite to the switching element attachment plane. When an electric power converting circuit is a single- or multi-phase bridge circuit including a plurality of sets of legs each formed with a positive-side arm and a negative-side arm, the switching elements constituting the legs of different phases are arranged in a row on the fin base in a traveling direction of a railway electric car.
대표청구항
▼
1. An electric power converting apparatus configured to be applied to a railway electric car operated in an alternate-current electrified railway section, the electric power converting apparatus comprising: a converter unit that converts an alternate current to a direct current;an inverter unit that
1. An electric power converting apparatus configured to be applied to a railway electric car operated in an alternate-current electrified railway section, the electric power converting apparatus comprising: a converter unit that converts an alternate current to a direct current;an inverter unit that is connected to an output side of the converter unit via a direct-current power source and converts a direct current from the direct-current power source into an alternate current to supply an electric power to an electric motor that drives the railway electric car; anda cooling device for cooling a plurality of switching elements included in each of the converter unit and the inverter unit, whereinthe cooling device includes a fin base that serves as a switching element attachment plane on which the switching elements are mounted, anda plurality of fins arranged on a plane opposite to the switching element attachment plane such that the fins are cooled by an airflow caused by traveling of the railway electric car, andthe switching elements of the converter unit and the switching elements of the inverter unit have different relationships between a heat generation amount and a speed of the railway electric car,the heat generation amount of the switching elements of the converter unit is maximized when the speed of the railway electric car is in a speed range that is equal to or higher than 30% to 50% of a maximum speed, so that a first fin pitch of the fins for the converter unit is set to a value with which a cooling performance of the cooling device is maximized when the speed of the railway electric car is in a speed range that is equal to or higher than 30%,the heat generation amount of the switching elements of the inverter unit is maximized when the speed of the railway electric car is in a speed range that is equal to or lower than 30% to 50% of the maximum speed, so that a second fin pitch of the fins for the inverter unit is set to a value with which a cooling performance of the cooling device is maximized when the speed of the railway electric car is in a speed range that is equal to or lower than 50%, andthe first fin pitch is smaller than the second fin pitch. 2. The electric power converting apparatus according to claim 1, wherein each of the converter unit and the inverter unit is either one of a single-phase bridge circuit and a multi-phase bridge circuit including a plurality of sets of legs each formed with a positive-side arm and a negative-side arm each including the switching elements, andthe switching elements that constitutes each of the legs of different phases are arranged in a row on the fin base in a traveling direction of the railway electric car. 3. The electric power converting apparatus according to claim 1, wherein each of the converter unit and the inverter unit is either one of a single-phase bridge circuit and a multi-phase bridge circuit including a plurality of sets of legs each formed with a positive-side arm and a negative-side arm each including the switching elements, andthe legs of different phases are arranged in a row on the fin base in a direction perpendicular to a traveling direction of the railway electric car. 4. The electric power converting apparatus according to claim 2, wherein the switching elements are connected in parallel in each of the positive-side arm and the negative-side arm, andsets of arms of a same type each formed with parallelly connected switching elements are arranged in a row on the fin base in the direction perpendicular to the traveling direction of the railway electric car. 5. The electric power converting apparatus according to claim 2, wherein the switching elements are connected in parallel in each of the positive-side arm and the negative-side arm, andthe switching elements that are connected in parallel are arranged at regular intervals from a front edge of the fin base in the traveling direction of the railway electric car. 6. The electric power converting apparatus according to claim 1, wherein each of the switching elements has a rectangular shape having a long side and a short side, andthe switching elements are arranged in a row on the fin base such that long sides are arranged in a direction perpendicular to the traveling direction of the railway electric car. 7. The electric power converting apparatus according to claim 1, wherein the cooling device includes a first cooling device for the converter unit, anda second cooling device for the inverter unit, andthe first cooling device and the second cooling device are provided separately. 8. The electric power converting apparatus according to claim 1, wherein a thickness of each of the fins is in a range from 2 millimeters to 4 millimeters,a first fin pitch of the fins provided on the fin base for the converter unit is set to a value between 6.5 millimeters and 11.5 millimeters, anda second fin pitch of the fins provided on the fin base for the inverter unit is set to a value between 8.5 millimeters and 15.5 millimeters. 9. The electric power converting apparatus according to claim 1, wherein a thickness of each of the fins is in a range from 2 millimeters to 4 millimeters,a first fin pitch of the fins provided on the fin base for the converter unit is set to a value between 8 millimeters and 10 millimeters, anda second fin pitch of the fins provided on the fin base for the inverter unit is set to a value between 10 millimeters and 14 millimeters. 10. The electric power converting apparatus according to claim 2, wherein each of the legs of the converter unit includes a first switching element, a second switching element, a third switching element, and a fourth switching element connected in series, the first switching element and the second switching element forming the positive-side arm, the third switching element and the fourth switching element forming the negative-side arm,the direct-current power source includes a first direct-current power source and a second direct-current power source connected in series,a first end of the first switching element is connected to a positive side of the first direct-current power source, and a first end of the fourth switching element is connected to a negative side of the second direct-current power source,the converter unit further includes a first diode of which a cathode is connected to a connection point between the first switching element and the second switching element and an anode is connected to a midpoint between the first direct-current power source and the second direct-current power source, anda second diode of which an anode is connected to a connection point between the third switching element and the fourth switching element and a cathode is connected to a midpoint between the first direct-current power source and the second direct-current power source,a three-level circuit is formed in which a connection point between the second switching element and the third switching element is configured to be drawn to outside, andthe first switching element, the second switching element, the third switching element, and the fourth switching element are arranged in a row on the fin base in the traveling direction of the railway electric car. 11. The electric power converting apparatus according to claim 10, wherein the electric power converting circuit is either one of a single-phase bridge circuit and a multi-phase bridge circuit including the sets of legs each formed with the first switching element, the second switching element, the third switching element, and the fourth switching element, andthe legs of different phases are arranged in a row on the fin base in a direction perpendicular to the traveling direction of the railway electric car. 12. The electric power converting apparatus according to claim 2, wherein each of the legs of the converter unit includes a first switching element, a second switching element, a third switching element, and a fourth switching element connected in series, the first switching element and the second switching element forming the positive-side arm, the third switching element and the fourth switching element forming the negative-side arm,the direct-current power source includes a first direct-current power source and a second direct-current power source connected in series,a first end of the first switching element is connected to a positive side of the first direct-current power source, and a first end of the fourth switching element is connected to a negative side of the second direct-current power source,the converter unit further includes a first diode of which a cathode is connected to a connection point between the first switching element and the second switching element and an anode is connected to a midpoint between the first direct-current power source and the second direct-current power source, anda second diode of which an anode is connected to a connection point between the third switching element and the fourth switching element and a cathode is connected to a midpoint between the first direct-current power source and the second direct-current power source,a three-level circuit is formed in which a connection point between the second switching element and the third switching element is configured to be drawn to outside, andthe first switching element, the second switching element, the third switching element, and the fourth switching element are arranged in order in a row on the fin base in the traveling direction of the railway electric car. 13. The electric power converting apparatus according to claim 1, wherein the fin base includes a plurality of embedded heat pipes, andthe heat pipes are arranged to pass immediately beneath the switching elements extending in the traveling direction of the railway electric car. 14. The electric power converting apparatus according to claim 2, wherein the fin base includes a plurality of embedded heat pipes, andthe heat pipes are arranged to pass immediately beneath the switching elements included in the positive-side arm and the switching elements included in the negative-side arm extending in the traveling direction of the railway electric car. 15. The electric power converting apparatus according to claim 1, wherein a heat pipe is embedded in the fin base, andthe heat pipe is arranged such that a first end is positioned near a region immediately beneath a switching element having a larger loss from among the switching elements included in the converter unit and the inverter unit and a second end is positioned near a region immediately beneath a switching element having a smaller loss from among the switching elements. 16. The electric power converting apparatus according to claim 14, wherein each of the legs of the converter unit includes a first switching element, a second switching element, a third switching element, and a fourth switching element connected in series, the first switching element and the second switching element forming the positive-side arm, the third switching element and the fourth switching element forming the negative-side arm,the direct-current power source includes a first direct-current power source and a second direct-current power source connected in series,a first end of the first switching element is connected to a positive side of the first direct-current power source, and a first end of the fourth switching element is connected to a negative side of the second direct-current power source,the converter unit further includes a first diode of which a cathode is connected to a connection point between the first switching element and the second switching element and an anode is connected to a midpoint between the first direct-current power source and the second direct-current power source, anda second diode of which an anode is connected to a connection point between the third switching element and the fourth switching element and a cathode is connected to a midpoint between the first direct-current power source and the second direct-current power source,a three-level circuit is formed in which a connection point between the second switching element and the third switching element is configured to be drawn to outside,the first switching element, the second switching element, the third switching element, and the fourth switching element are arranged in order in a row on the fin base in the traveling direction of the railway electric car, andthe heat pipes are embedded in the fin base, andthe heat pipes includes a first heat pipe that is arranged to pass immediately beneath the first switching element and the second switching element such that a first end of the first heat pipe extends up to a region beyond beneath the first switching element and a second end of the first heat pipe extends up to a region beyond beneath the second switching element and near a region immediately beneath the first diode, anda second heat pipe that is arranged to pass immediately beneath the third switching element and the fourth switching element such that a first end of the second heat pipe extends up to a region beyond beneath the third switching element and a second end of the second heat pipe extends up to a region beyond beneath the fourth switching element and near a region immediately beneath the second diode.
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