[미국특허]
Data storage device carrier and carrier tray
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G06F-001/16
H05K-007/16
출원번호
US-0290816
(2005-12-01)
등록번호
US-7447011
(2008-11-04)
발명자
/ 주소
Wade,Adam
Willoughby,Mark David
출원인 / 주소
Xyratex Technology Limited
대리인 / 주소
Pillsbury Winthrop Shaw Pittman LLP
인용정보
피인용 횟수 :
38인용 특허 :
16
초록▼
Various arrangements of carrier trays and carriers for data storage devices, such as disk drives, are disclosed. The carrier trays and carriers have air flow holes that are carefully arranged to promote good air flow across the data storage devices. In one example, the air holes in a tray are arrang
Various arrangements of carrier trays and carriers for data storage devices, such as disk drives, are disclosed. The carrier trays and carriers have air flow holes that are carefully arranged to promote good air flow across the data storage devices. In one example, the air holes in a tray are arranged so that, when a data storage device is received on the tray, air passing over a first surface of the base from the forward end can pass through the base, over a part of a second surface and back through the base to flow across the recess typically located under the data storage device.
대표청구항▼
The invention claimed is: 1. A data storage device carrier tray constructed and arranged to be incorporated into a data storage device carrier that is for carrying a data storage device and for removable mounting in a data storage device chassis, the data storage device having a recess on its under
The invention claimed is: 1. A data storage device carrier tray constructed and arranged to be incorporated into a data storage device carrier that is for carrying a data storage device and for removable mounting in a data storage device chassis, the data storage device having a recess on its under surface defined by an edge of the under surface, the carrier tray having a base having a first surface on which a data storage device can be received and a second surface, the carrier tray having a forward end and a rearward end, the base having plural air holes therethrough, the air holes being arranged so that, when a data storage device is received on the tray, air passing over the first surface of the base from the forward end can pass through the base, over a part of the second surface and back through the base to flow across the recess under the data storage device. 2. A carrier tray according to claim 1, the tray having at least a first air hole positioned at least partly forward of a front edge of the under surface of the data storage device and at least a second air hole positioned at least partly rearward of a front edge of the data storage device and under the recess so that, when a data storage device is received on the tray, air passing over the base from the forward end can pass through the first air hole, under the base, and through the second air hole to flow across the recess under the data storage device. 3. A carrier tray according to claim 1, the tray having at least one air hole positioned such that a front part of said air hole is positioned forward of a front edge of the under surface of the data storage device and a rear part of said air hole is positioned rearward of a front edge of the data storage device and under a recess so that, when a data storage device is received on the tray, air passing over the base from the forward end can pass through the front part of said air hole, under the base, and through the rear part of said air hole to flow across the recess under the data storage device. 4. A carrier tray according to claim 1, wherein the tray has at least one air hole positioned such that, when a data storage device is received on the tray, said air hole is under the data storage device towards the rear of the data storage device so that air flowing across the recess under the data storage device can exit through said air hole. 5. A carrier tray according to claim 1, the tray having at least a first air hole positioned at least partly forward of a rear edge of the under surface of a data storage device received on the tray and under the recess and at least a second air hole positioned at least partly rearward of a rear edge of the data storage device so that, when a data storage device is received on the tray, air flowing across the recess under the data storage device can exit through said first air hole and enter through said second air hole. 6. A carrier tray according to claim 1, the tray having at least one air hole positioned such that a front part of said air hole is positioned forward of a rear edge of the under surface of the data storage device and under the recess and a rear part of said air hole is positioned rearward of a rear edge of the data storage device so that, when a data storage device is received on the tray, air flowing across the recess under the data storage device can exit through the front part of said air hole and enter through the rear part of said air hole. 7. A carrier tray according to claim 1, wherein the carrier tray has a front wall at its forward end, the front wall having air holes therethrough, the air holes being arranged to achieve a greater air flow rate towards the top and bottom surfaces of a data storage device received on the tray than towards the central portion of the face of the data storage device that is adjacent the front wall of the carrier tray base. 8. A data storage device carrier for carrying a data storage device and for removable mounting in a data storage device chassis, the data storage device having a recess on its under surface defined by an edge of the under surface, the carrier comprising: a data storage device carrier tray having a base having a forward end and a rearward end, the base having a first surface on which a data storage device can be received and a second surface, the carrier tray having a forward end and a rearward end, the base having plural air holes therethrough; and, an electromagnetic interference shield adjacent the forward end of the carrier tray, the electromagnetic interference shield having plural air holes therethrough; whereby air can pass through the electromagnetic interference shield air holes, through the forward end of the carrier tray base, over part of the first surface of the base, through the base, over a part of the second surface and back through the base to flow across the recess under the data storage device. 9. A data storage device carrier according to claim 8, wherein the electromagnetic interference shield air holes are arranged to achieve a greater air flow rate towards the top and bottom surfaces of the data storage device received on the tray than towards the central portion of the face of the data storage device that is adjacent the forward end of the carrier tray base. 10. A data storage device carrier according to claim 8, the tray having at least a first air hole positioned at least partly forward of a front edge of the under surface of the data storage device and at least a second air hole positioned at least partly rearward of a front edge of the data storage device and under the recess so that, when a data storage device is received on the tray, air passing over the base from the forward end can pass through the first air hole, under the base, and through the second air hole to flow across the recess under the data storage device. 11. A data storage device carrier according to claim 8, the tray having at least one air hole positioned such that a front part of said air hole is positioned forward of a front edge of the under surface of the data storage device and a rear part of said air hole is positioned rearward of a front edge of the data storage device and under the recess so that, when a data storage device is received on the tray, air passing over the base from the forward end can pass through a front part of said air hole, under the base, and through the rear part of said air hole to flow across the recess under the data storage device. 12. A data storage device carrier according to claim 8, wherein the tray has at least one air hole positioned such that, when a data storage device is received on the tray, said air hole is under the data storage device towards the rear of the data storage device so that air flowing across the recess under the data storage device can exit through said air hole. 13. A data storage device carrier according to claim 8, the tray having at least a first air hole positioned at least partly forward of a rear edge of the under surface of a data storage device received on the tray and under the recess and at least a second air hole positioned at least partly rearward of a rear edge of the data storage device so that, when a data storage device is received on the tray, air flowing across the recess under the data storage device can exit through said first air hole and enter through said second air hole. 14. A data storage device carrier according to claim 8, the tray having at least one air hole positioned such that a front part of said air hole is positioned forward of a rear edge of the under surface of the data storage device and under the recess and a rear part of said air hole is positioned rearward of a rear edge of the data storage device so that, when a data storage device is received on the tray, air flowing across the recess under the data storage device can exit through the front part of said air hole and enter through the rear part of said air hole. 15. A data storage device carrier according to claim 8, wherein the carrier tray has a front wall at its forward end, the front wall having air holes therethrough corresponding to the electromagnetic interference shield air holes. 16. A data storage device carrier tray constructed and arranged to be incorporated into a data storage device carrier that is for carrying a data storage device and for removable mounting in a data storage device chassis, the carrier tray having a base having a forward end and a rearward end, the base comprising a front wall at its forward end, the front wall having air holes therethrough, the air holes being arranged such that as air is passed through the front wall to a data storage device received on the tray, a greater air flow rate is achieved towards the top and bottom surfaces of the data storage device than towards the central portion of the face of the data storage device that is adjacent the front wall of the carrier tray base. 17. A carrier tray according to claim 16, wherein the base has plural air holes therethrough to allow air to pass through the base.
Varghese Paily T. (Tomball TX) Hastings Robert J. (Kingwood TX) Lobato William D. (Spring TX), Hard disc drive support tray apparatus with built-in handling shock reduction, EMI shielding and mounting alignment stru.
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