Mounting electronic device to thermally conductive pad of liquid-cooling mechanism in translational movement-minimizing manner
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G06F-001/18
H05K-005/00
H05K-007/20
G06F-001/20
출원번호
US-0857129
(2017-12-28)
등록번호
US-10111365
(2018-10-23)
발명자
/ 주소
Junkins, Andrew Thomas
Kamath, Vinod
출원인 / 주소
Lenovo Enterprise Solutions (Singapore) PTE. LTD.
대리인 / 주소
Friday, Jason
인용정보
피인용 횟수 :
0인용 특허 :
21
초록▼
A liquid-cooling mechanism, or sub-system, has a thermally conductive plate in which a cooling liquid channel is disposed, and a thermally conductive pad disposed on the thermally conductive plate. An electronic device is mounted to the thermally conductive pad, such as via a mounting component, in
A liquid-cooling mechanism, or sub-system, has a thermally conductive plate in which a cooling liquid channel is disposed, and a thermally conductive pad disposed on the thermally conductive plate. An electronic device is mounted to the thermally conductive pad, such as via a mounting component, in a manner that decreases translational movement of a contact surface of the electronic device against a contact surface of the thermally conductive pad. When mounted to the thermally conductive pad, the electronic device compresses the thermally conductive pad.
대표청구항▼
1. A method comprising: providing a liquid-cooling mechanism having a thermally conductive plate in which a cooling liquid channel is disposed and having a thermally conductive pad disposed on the thermally conductive plate, the thermally conductive plate having a bottom surface with which one or mo
1. A method comprising: providing a liquid-cooling mechanism having a thermally conductive plate in which a cooling liquid channel is disposed and having a thermally conductive pad disposed on the thermally conductive plate, the thermally conductive plate having a bottom surface with which one or more integrated circuits (ICs) of a mainboard are in thermal contact; andmounting an electronic device to the thermally conductive pad in a manner that decreases translational movement of a contact surface of the electronic device against a contact surface of the thermally conductive pad,wherein mounting the component comprises: inserting the electronic device into a bay to which a bracket is rotationally attached and that is rotated away from the thermally conductive pad, the bracket attached to the thermally conductive plate and having an opening through which the thermally conductive pad is exposed; androtating the bay towards and against the thermally conductive pad, causing a latching pin of a latch attached to the bracket to engage with a latching hole of the bay, maintaining the electronic device positioned against the thermally conductive pad. 2. The method of claim 1, wherein in mounting the electronic device to the thermally conductive pad, the electronic device compresses the thermally conductive pad. 3. The method of claim 1, wherein mounting the electronic device to the thermally conductive pad comprises: linearly moving the electronic device against the thermally conductive pad along an axis perpendicular to the contact surfaces of the electronic device and the thermally conductive pad, without any translational movement of the contact surface of the electronic device occurring relative to the contact surface of the thermally conductive pad. 4. The method of claim 1, wherein mounting the electronic device to the thermally conductive pad comprises: toollessly mounting the electronic device to the thermally conductive pad. 5. The method of claim 4, wherein inserting the electronic device within the slot of the bay causes a connector of the electronic device to conductively mate with a corresponding connector at a back of the bay. 6. The method of claim 1, wherein the electronic device has an electronic component uncovered and exposed at the contact surface of the electronic device. 7. A liquid-cooling sub-system comprising: a thermally conductive plate having a cooling liquid channel within which cooling liquid is circulated and having a bottom surface to which one or more integrated circuits (ICs) of a mainboard are to thermally contact;a thermally conductive pad disposed on the thermally conductive plate; anda mounting component permitting mounting of an electronic device against the thermally conductive pad in a manner that decreases translational movement of a contact surface of the electronic device against a contact surface of the thermally conductive pad,wherein the mounting component comprises: a bracket attached to the thermally conductive plate and having an opening through which the thermally conductive pad is exposed;a latch attached to the bracket and having a latching pin; anda bay rotationally attached to the bracket, having a slot receptive to insertion of the electronic device, and having a latching hole with which the latching pin is engageable upon rotation of the bay towards the thermally conductive pad,and wherein engagement of the latching pin with the latching hole maintains the electronic device positioned against the thermally conductive pad by the mounting component, upon the electronic device having been inserted into the slot and the bay thereafter rotated towards the thermally conductive pad. 8. The liquid-cooling sub-system of claim 7, wherein the manner in which the mounting component permits mounting the electronic device to the thermally conductive pad compresses the electronic device against the thermally conductive pad. 9. The liquid-cooling sub-system of claim 7, wherein the manner in which the mounting component permits mounting the electronic device to the thermally conductive pad comprises rotation of the electronic device against the thermally conductive pad. 10. The liquid-cooling sub-system of claim 7, wherein the manner in which the mounting component permits toolless mounting the electronic device to the thermally conductive pad compresses the electronic device against the thermally conductive pad. 11. A computing system comprising: a mainboard having one or more integrated circuits;a thermally conductive plate having a cooling liquid channel within which cooling liquid is circulated and having a bottom surface with which the ICs of the mainboard are in thermal contact;a thermally conductive pad disposed on the thermally conductive plate;an electronic device; anda mounting component removably mounting the electronic device against the thermally conductive pad in a manner that minimizes translational movement of a contact surface of the electronic device against a contact surface of the thermally conductive pad,wherein the mounting component comprises: a bracket attached to the thermally conductive plate and having an opening through which the thermally conductive pad is exposed;a latch attached to the bracket and having a latching pin; anda bay rotationally attached to the bracket, having a slot receptive to insertion of the electronic device, and having a latching hole with which the latching pin is engageable upon rotation of the bay towards the thermally conductive pad,wherein engagement of the latching pin with the latching hole maintains the electronic device positioned against the thermally conductive pad by the mounting component, upon the electronic device having been inserted into the slot and the bay thereafter rotated towards the thermally conductive pad. 12. The computing system of claim 11 further comprising: a logic board to which the thermally conductive plate is attached;a connector at a back of the bay, to which a corresponding connector of the electronic device conductively mates. 13. The computing system of claim 11, wherein the electronic device comprises one of: a hard disk drive;a solid state drive.
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