IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0653630
(2007-01-16)
|
등록번호 |
US-7850427
(2011-02-10)
|
발명자
/ 주소 |
- Peer, David James
- Wang, Lingzhi
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
5 인용 특허 :
11 |
초록
▼
A high pressure turbomachine includes a casing having an interior chamber, an opening into the interior chamber, and a generally annular wall section extending about the opening and having an outer circumferential surface. A closure device is engageable with the casing and includes a body having an
A high pressure turbomachine includes a casing having an interior chamber, an opening into the interior chamber, and a generally annular wall section extending about the opening and having an outer circumferential surface. A closure device is engageable with the casing and includes a body having an inner circumferential overlap surface defining an opening. The closure body is configured to receive at least a portion of the casing annular wall section within the body opening such that the closure body overlap surface extends about the annular wall section outer surface so that the body substantially closes the casing opening. When the casing chamber contains high pressure fluid, the casing wall section expands radially outwardly such that the casing section outer surface pushes generally radially outwardly against the closure body overlap surface, the closure body being configured to either minimize or substantially prevent casing wall radial expansion.
대표청구항
▼
We claim: 1. A turbomachine comprising: a casing having an interior chamber, an opening into the interior chamber, and an annular wall section extending about the opening and having an outer circumferential surface, the casing having opposing axial ends and a central bore extending between the two
We claim: 1. A turbomachine comprising: a casing having an interior chamber, an opening into the interior chamber, and an annular wall section extending about the opening and having an outer circumferential surface, the casing having opposing axial ends and a central bore extending between the two ends, the casing bore providing the casing chamber; and a closure device engageable with the casing and including a body having an inner circumferential overlap surface at least partially defining an opening, the closure body being configured to receive at least a portion of the casing annular wall section within the body opening such that the closure body overlap surface extends about the annular wall section outer surface and the closure device substantially closes the casing opening, the closure device body including a cylindrical body with a centerline and an integral annular ledge extending circumferentially about the axis, the body ledge having an inner circumferential providing the overlap surface, the closure device body being sized to be disposeable within a portion of the casing bore such that the entire closure body is located between the first and second casing ends. 2. The turbomachine as recited in claim 1 wherein the closure device body has first and second axial ends, the body first end being spaced axially from the casing first end in a direction toward the casing second end, and the body second end being spaced axially from the casing second end in a direction generally toward the casing first end. 3. A turbomachine comprising: a casing having an interior chamber, an opening into the interior chamber, and an annular wall section extending about the opening and having an outer circumferential surface, the casing having a shoulder surface, a first inner circumferential surface with a first diameter, a second inner circumferential surface with a second diameter, the second diameter being substantially larger than the first diameter, a radial surface extending between the first and second circumferential surfaces, and an annular ledge extending generally axially from the shoulder surface and circumferentially about the casing axis, the annular ledge providing the casing annular wall section and outer circumferential surface; and a closure device engageable with the casing and including a body having an inner circumferential overlap surface at least partially defining an opening, the closure body being configured to receive at least a portion of the casing annular wall section within the body opening such that the closure body overlap surface extends about the annular wall section outer surface and the closure device substantially closes the casing opening, the closure device body including a circular cylindrical body with a centerline and an integral annular ledge extending circumferentially about the axis, the body ledge having an inner circumferential providing the overlap surface, the closure device body further having an outer circumferential surface, the closure body annular ledge having a radial shoulder surface, and the closure body being configured to receive at least a portion of the casing ledge such that the body annular ledge extends coaxially about the casing ledge, the body outer circumferential surface is disposeable against the casing second inner circumferential surface, and the closure ledge radial surface is disposed at least adjacent to the casing radial surface. 4. The turbomachine as recited in claim 3 wherein a generally annular gap is defined between the ledge outer circumferential surface and the casing second inner circumferential surface, the annular gap being sized to receive at least a portion of the closure body annular ledge. 5. The turbomachine as recited in claim 4 wherein the closure device body has opposing axial ends and an outer circumferential surface extending axially between the two ends, the body outer circumferential surface being disposed generally against the casing second inner circumferential surface when the closure device is engaged with the casing. 6. The turbomachine as recited in claim 3 wherein the closure device further includes at least one retainer engageable with the casing and configured to retain the closure body coupled with the casing. 7. A turbomachine comprising: a casing having an interior chamber, an opening into the interior chamber, and an annular wall section extending about the opening and having an outer circumferential surface, the casing having an inner circumferential surface and an annular groove extending radially outwardly from the inner surface; a closure device engageable with the casing and including a body having an inner circumferential overlap surface at least partially defining an opening, the closure body being configured to receive at least a portion of the casing annular wall section within the body opening such that the closure body overlap surface extends about the annular wall section outer surface and the closure device substantially closes the casing opening, the closure device body including a cylindrical body with a centerline and an integral annular ledge extending circumferentially about the axis, the body ledge having an inner circumferential providing the overlap surface, the closure device further including at least one retainer engageable with the casing and configured to retain the closure body coupled with the casing, the closure body being disposed at least partially within the casing inner circumferential surface; and the retainer being at least partially disposeable within the casing groove and against the closure body so as to substantially prevent displacement of the closure body along the casing axis. 8. The turbomachine as recited in claim 7 wherein the retainer includes a plurality of arcuate segments spaced circumferentially about the casing axis. 9. The turbomachine as recited in claim 3 further comprising a rotatable shaft and wherein the closure device cylindrical body includes a central through hole configured to receive a portion of the shaft. 10. The turbomachine as recited in claim 9 wherein the closure device is configured to seal about the shaft portion so as to prevent fluid flow through the closure body through hole. 11. The turbomachine as recited in claim 3 wherein the closure device further comprises a generally annular seal ring disposed generally between the casing annular wall section outer surface and the closure device overlap surface and configured to substantially prevent fluid flow out of the casing chamber. 12. The turbomachine as recited in claim 9 wherein the casing includes at least one annular groove extending radially inwardly from the annular wall section outer surface, the seal ring being disposed within the casing annular groove and contactable with the closure body overlap surface. 13. A turbomachine comprising: a casing having an interior chamber, an opening into the interior chamber, and an annular wall section extending about the opening and having an outer circumferential surface; and a closure device engageable with the casing and including a body having an inner circumferential overlap surface at least partially defining an opening, the closure body being configured to receive at least a portion of the casing annular wall section within the body opening such that the closure body overlap surface extends about the annular wall section outer surface and the closure device substantially closes the casing opening, wherein the closure body includes: a cylindrical inner portion at least partially disposeable within the casing opening; an annular outer portion having an inner surface providing the overlap surface and disposeable at least partially about the casing outer surface; and a radially extending connective portion extending between and integrally connecting the inner and outer body portions. 14. The turbomachine as recited in claim 13 wherein: the casing has an inner circumferential surface at least partially defining the casing interior chamber; and the closure body inner portion has an outer circumferential surface sized to fit within the casing inner circumferential surface so as to substantially eliminate clearance space between the body inner portion and the casing. 15. The turbomachine as recited in claim 14 wherein the closure body inner portion has a generally radially extending surface configured to at least partially define a fluid inlet of the turbomachine.
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