IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0888322
(2004-07-09)
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발명자
/ 주소 |
- Young,Henry
- Randolph,Ord Allen
- Hamilton,Alan R.
- Jacobs,Alexander Antonius Maria
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출원인 / 주소 |
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대리인 / 주소 |
Beusse, Brownlee, Wolter, Mora &
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인용정보 |
피인용 횟수 :
6 인용 특허 :
23 |
초록
▼
Silencing equipment is provided for an air-cooling assembly in a large off-road vehicle having wheels, traction motors for the wheels that operate in a motoring mode to propel the vehicle and a power generating dynamic braking mode, resistor grids for dissipating the dynamic braking power, and a blo
Silencing equipment is provided for an air-cooling assembly in a large off-road vehicle having wheels, traction motors for the wheels that operate in a motoring mode to propel the vehicle and a power generating dynamic braking mode, resistor grids for dissipating the dynamic braking power, and a blower for moving cooling air past the grids to cool them. The silencing equipment may include a resistor grid housing 24 and at least one upper inlet 22 for passing cooling air to the interior of the housing. The inlet includes noise-absorbing material. A conduit 28 is provided for directing cooling air from the upper inlet through a transition chamber to reach the blower and at least one resistor grid in the housing. The conduit is lined with noise-absorbing material. A removable cover 30 is provided for the conduit for accessing the air blower in the housing through the transition chamber, whereby servicing of the blower may be performed without removal of the entire upper inlet.
대표청구항
▼
What is claimed is: 1. Silencing equipment for an air-cooling assembly in a large off-road vehicle having wheels, traction motors for the wheels that operate in a motoring mode to propel the vehicle and generate electrical power in a dynamic braking mode, resistor grids for dissipating the dynamic
What is claimed is: 1. Silencing equipment for an air-cooling assembly in a large off-road vehicle having wheels, traction motors for the wheels that operate in a motoring mode to propel the vehicle and generate electrical power in a dynamic braking mode, resistor grids for dissipating the dynamic braking electrical power, and a blower for moving cooling air past the grids to cool them, said silencing equipment comprising: a resistor grid housing; at least one upper inlet for passing cooling air to the interior of said housing, said inlet including noise-absorbing material; a conduit for directing cooling air from said upper inlet through a transition chamber to reach said blower and at least one resistor grid in said housing, wherein said conduit is lined with noise-absorbing material; and a removable cover for said conduit for accessing the air blower for said housing through said transition chamber, whereby servicing of said blower can be performed without removal of the entire upper inlet. 2. The silencing equipment of claim 1 wherein said transition chamber provides a transition to cooling air from a generally horizontal plane to a generally vertical plane. 3. The silencing equipment of claim 1 further comprising at least one outlet for exhausting air from said resistor grid housing, said at least one outlet including a plurality of exhaust vanes positioned at an angle relative to a stream of exhaust air to impart a deflection to said exhaust air into a desired direction, said plurality of exhaust vanes including noise-adsorbing material, whereby said at least one outlet combines air deflection and silencing in a single device. 4. The silencing equipment of claim 3 wherein each exhaust vane includes at its exit end a first edge comprising a straight edge, and a second edge comprising a taper for reducing pressure drop at the end of the vane. 5. The silencing equipment of claim 3 wherein a deflection angle for the exhaust vanes is about 20 degrees. 6. The silencing equipment of claim 1 further comprising an inboard inlet for passing additional cooling air to the interior of said housing, said inboard inlet in communication with said conduit for directing said additional cooling air from said inboard inlet through said transition chamber to reach said blower and said at least one resistor grid in said housing. 7. The silencing equipment of claim 1 further comprising an adaptor plate for a retrofit installation of said silencing equipment, said adaptor plate mounted to a pre-existing mounting pattern on said housing, and including a second mounting pattern for a respective silencer, said second mounting pattern configured to support a silencer cross-sectional area selected for reducing backpressure while providing a given level of sound attenuation. 8. Silencing equipment for an air-cooling assembly in a large off-road vehicle having wheels, traction motors for the wheels that operate in a motoring mode to propel the vehicle and generate electrical power in a dynamic braking mode, resistor grids for dissipating the dynamic braking electrical power, and a blower for moving cooling air past the grids to cool them, said silencing equipment comprising: a resistor grid housing; and at least one outlet for exhausting air from said resistor grid housing, said at least one outlet including a plurality of exhaust vanes positioned at an angle relative to a stream of exhaust air to impart a deflection to said exhaust air into a desired direction, said plurality of exhaust vanes including noise-adsorbing material, whereby said at least one outlet combines air deflection and silencing in a single device. 9. The silencing equipment of claim 8 further comprising at least one upper inlet for passing cooling air to the interior of said housing, said inlet including noise-absorbing material. 10. The silencing equipment of claim 9 further comprising a conduit for directing cooling air from said upper inlet through a transition chamber to reach said blower and at least one resistor grid in said housing, wherein said conduit is lined with noise-absorbing material; and a removable cover for said conduit for accessing the air blower for said housing through said transition chamber, whereby servicing of said blower may be performed without removal of the entire upper inlet. 11. The silencing equipment of claim 8 wherein said transition chamber provides a transition to cooling air from a generally horizontal plane to a generally vertical plane. 12. The silencing equipment of claim 8 wherein each exhaust vane includes at its exit end a first edge comprising a straight edge, and a second edge comprising a taper for reducing pressure drop at the end of the vane. 13. The silencing equipment of claim 12 wherein a deflection angle for the exhaust vanes is about 20 degrees. 14. The silencing equipment of claim 9 further comprising an inboard inlet for passing additional cooling air to the interior of said housing, said inboard inlet in communication with said conduit for directing said additional cooling air from said inboard inlet through said transition chamber to reach said blower and said at least one resistor grid in said housing. 15. The silencing equipment of claim 8 further comprising an adaptor plate for a retrofit installation of said silencing equipment, said adaptor plate mounted to a pre-existing mounting pattern on said housing, and including a second mounting pattern for a respective silencer, said second mounting pattern configured to support a silencer cross-sectional area selected for reducing backpressure while providing a given level of sound attenuation. 16. A silencing kit for an air-cooling assembly in a large off-road vehicle having wheels, traction motors for the wheels that operate in a motoring mode to propel the vehicle and generate electrical power in a dynamic braking mode, resistor grids for dissipating the dynamic braking electrical power, and a blower for moving cooling air past the grids to cool them, said kit comprising: at least one inlet for passing cooling air to the interior of a resistor grid housing, said inlet including noise-absorbing material; a conduit for directing cooling air from said inlet through a transition chamber to reach said blower and at least one resistor grid in said housing, wherein said conduit is lined with noise-absorbing material; and a removable cover for said conduit for accessing the air blower for said housing through said transition chamber. 17. The kit of claim 16 further comprising at least one outlet for exhausting air from said resistor grid housing, said at least one outlet including a plurality of exhaust vanes positioned at an angle for imparting a deflection to exhaust air into a desired direction, said plurality of exhaust vanes including noise-adsorbing material. 18. The kit of claim 17 wherein each exhaust vane includes at its exit end a first edge comprising a straight edge, and a second edge comprising a taper for reducing pressure drop at the end of the vane. 19. The kit of claim 16 further comprising an adaptor plate for a retrofit installation, said adaptor plate connectable to a pre-existing mounting pattern on said housing, said plate including a second mounting pattern for a corresponding silencer, said second mounting pattern configured to support a silencer cross-sectional area sufficiently large for reducing backpressure while providing a given level of sound attenuation.
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