IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0807055
(2004-03-18)
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발명자
/ 주소 |
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출원인 / 주소 |
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인용정보 |
피인용 횟수 :
4 인용 특허 :
6 |
초록
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A blower unit includes a housing, a shroud, a motor, a feed air impeller, a fan casing and a cooling air impeller. A motor shaft extends from both ends of the motor. The feed air impeller is attached to a front of the motor and the cooling air impeller is attached to a rear of the motor. The feed ai
A blower unit includes a housing, a shroud, a motor, a feed air impeller, a fan casing and a cooling air impeller. A motor shaft extends from both ends of the motor. The feed air impeller is attached to a front of the motor and the cooling air impeller is attached to a rear of the motor. The feed air impeller is contained in the fan casing. The shroud retains the motor and forms a guide chamber around the fan casing. The shroud is retained in the housing. Air is drawn through a front of the housing by the cooling air impeller. The air flows between the motor and the shroud and out of a bottom of the housing. Air is drawn by the feed air impeller and forced through the plurality of apertures in the fan casing and through a housing outlet by the feed air impeller.
대표청구항
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I claim: 1. A method of providing a cooled blower unit, comprising the steps of: rotating a feed air impeller in a casing, said casing having a casing inlet and at least one aperture outlet; rotating a cooling air impeller at a rear of a motor and said feed air impeller at a front thereof; providin
I claim: 1. A method of providing a cooled blower unit, comprising the steps of: rotating a feed air impeller in a casing, said casing having a casing inlet and at least one aperture outlet; rotating a cooling air impeller at a rear of a motor and said feed air impeller at a front thereof; providing a shroud having a chamber adjacent said casing, said motor being retained in said shroud, providing at least one passage from said chamber to a shroud outlet in said shroud; retaining said shroud in a housing, forming at least one air opening and a housing outlet in said housing, said housing outlet receiving said shroud outlet; rotating said cooling air impeller to draw inlet air through said at least one air opening, said inlet air flowing between said motor and said shroud, said inlet air flowing out of said shroud and said housing; and rotating said feed air impeller to draw said inlet air between said shroud and said housing into said casing inlet, said feed air impeller forcing air through said at least one aperture outlet to said housing outlet. 2. The method of providing a cooled blower unit of claim 1, further comprising the step of: providing said housing with a first housing half and a second housing half, said at least one air opening and said housing outlet being formed in a front of said first housing half. 3. The method of providing a cooled blower unit of claim 2, further comprising the step of: forming a recess in a bottom of said second housing half. 4. The method of providing a cooled blower unit of claim 3, further comprising the step of: providing said shroud with a first shroud half and an second shroud half, forming a discharge passage in said first shroud half, said discharge passage communicating with said recess to exhaust said inlet air from between said motor and said shroud. 5. The method of providing a cooled blower unit of claim 1, further comprising the step of: attaching a portion of said casing to said motor. 6. A method of provided a cooled blower unit, comprising the steps of: rotating a feed air impeller at one end of a motor and a cooling air impeller at the other end of said motor; containing said feed air impeller in a fan casing, forming a plurality of apertures through a cylindrical wall of said fan casing, forming a feed inlet opening through a front wall of said fan casing; containing said fan casing and said motor in a shroud, said shroud including a guide chamber adjacent said plurality of apertures, forming at least one tubular passage in said shroud that communicates with said guide chamber, said at least one tubular passage communicating with a feed air outlet in a front of said shroud; retaining said shroud in a housing, forming at least one air inlet opening and an air discharge outlet in said housing, said air discharge outlet receiving said feed air outlet; rotating said cooling air impeller to draw inlet air through said at least one air inlet opening, said inlet air flowing between said motor and said shroud, said inlet air flowing out of said shroud and said housing; rotating said feed air impeller to draw said inlet air between said shroud and said housing into said feed inlet opening, said air impeller forcing air through said plurality of apertures and said at least one tubular passage to said air discharge outlet. 7. The method of providing a cooled blower unit of claim 6, further comprising the step of: providing said housing with a first housing half and a second housing half, said at least one air inlet opening and said air discharge outlet being formed in a front of said first housing half. 8. The method of providing a cooled blower unit of claim 7, further comprising the step of: forming a recess in a bottom of said second housing half. 9. The method of providing a cooled blower unit of claim 8, further comprising the step of: providing said shroud with a first shroud half and an second shroud half, forming a discharge passage in said first shroud half, said discharge passage communicating with said recess to exhaust said inlet air from between said motor and said shroud. 10. The method of providing a cooled blower unit of claim 6, further comprising the step of: attaching a portion of said fan casing to said motor. 11. A method of providing a cooled blower unit, comprising the steps of: rotating a feed air impeller at one end of a motor and a cooling air impeller at the other end of said motor; containing said feed air impeller in a fan casing, forming a plurality of apertures through a cylindrical wall of said fan casing, forming a feed inlet opening through a front wall of said fan casing; containing said fan casing and said motor in between a first shroud half and an second shroud half, said first and second shroud halves including a guide chamber adjacent said plurality of apertures, forming at least one tubular passage in at least one of said first and second shroud halves that communicates with said guide chamber, said at least one tubular passage communicating with a feed air outlet in a front of said first and second shroud halves; retaining said first and second shroud halves in a first housing half and a second housing half, forming at least one air inlet opening and an air discharge outlet in a front of said first housing half, said air discharge outlet receiving said feed air outlet; rotating said cooling air impeller to draw inlet air through said at least one air inlet opening, said inlet air flowing between said motor and said first and second shroud halves, said inlet air flowing out of said first and second shroud halves and said first and second housing halves; rotating said feed air impeller to draw said inlet air between said first and second shroud halves and said first and second housing halves into said feed inlet opening, said air impeller forcing air through said plurality of apertures and said at least one tubular passage to said air discharge outlet. 12. The method of providing a cooled blower unit of claim 11, further comprising the step of: forming a recess in a bottom of said second housing half. 13. The method of providing a cooled blower unit of claim 12, further comprising the step of: forming a discharge passage in said first shroud half, said discharge passage communicating with said recess to exhaust said inlet air from between said motor and said shroud. 14. The method of providing a cooled blower unit of claim 11, further comprising the step of: attaching a portion of said fan casing to said motor. 15. A method of providing a cooled blower unit, comprising the steps of: rotating a motor having a shaft, attaching a feed air impeller to one end of said shaft and a cooling air impeller to the other end of said shaft; enclosing said motor in a shroud, said shroud having an air inlet and an air outlet, said feed air impeller being adjacent to said air inlet; retaining said shroud in a housing, forming at least one air inlet opening and at least one air outlet opening in said housing, said at least one air outlet opening communicating with said air outlet; rotating said cooling air impeller to draw inlet air through said at least one air inlet opening, said inlet air flowing between said motor and said shroud; and rotating said feed air impeller to force air through said at least one air outlet opening. 16. The method of providing a cooled blower unit of claim 15, further comprising the step of: rotating said feed air impeller in a casing, said casing having a casing inlet and at least one aperture outlet. 17. The method of providing a cooled blower unit of claim 16, further comprising the step of: rotating said feed air impeller to draw said inlet air between said shroud and said housing into said casing inlet, said feed air impeller forcing air through said at least one aperture outlet to said at least one outlet opening. 18. The method of providing a cooled blower unit of claim 15, further comprising the step of: providing said housing with a first housing half and a second housing half, said at least one air inlet opening and said at least one air outlet opening being formed in a front of said first housing half. 19. The method of providing a cooled blower unit of claim 18, further comprising the step of: forming a recess in a bottom of said second housing half. 20. The method of providing a cooled blower unit of claim 19, further comprising the step of: providing said shroud with a first shroud half and an second shroud half, forming a discharge passage in said first shroud half, said discharge passage communicating with said recess to exhaust said inlet air from between said motor and said shroud. 21. The method of providing a cooled blower unit of claim 15, further comprising the step of: attaching a portion of said casing to said motor.
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