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Cloud computing server system for heat dissipation, energy conservation and safe data storage

A cloud computing server and heat dissipation system technology, applied in energy-saving computing, computing, energy-saving ICT, etc., can solve the problems that cannot directly affect the heat dissipation of the server heat source, cannot meet the requirements of cloud computing heat dissipation, energy saving and data security, etc., to achieve easy maintenance, Effects of reduced power consumption and reduced fan noise

Active Publication Date: 2010-10-06
姚学民
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0007] At present, there are good natural air cooling and water cooling resources around some IDC computer rooms, but when exchanging heat with the cooling system of the computer room, due to the humidity and dust of the natural air, the cleanliness of the natural water body, etc., it can only be limited to the computer room. Heat exchange is performed in the overall environment and cannot directly act on the heat dissipation of the heat source of the server
[0008] The various heat dissipation and energy saving measures proposed above still cannot meet the heat dissipation, energy saving and data security requirements of cloud computing. The method of improving the structure and configuration makes it a cloud computing server system that can not only dissipate heat and save energy, but also can store safely

Method used

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  • Cloud computing server system for heat dissipation, energy conservation and safe data storage
  • Cloud computing server system for heat dissipation, energy conservation and safe data storage
  • Cloud computing server system for heat dissipation, energy conservation and safe data storage

Examples

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Effect test

Embodiment 1

[0036] In the IDC center, the network cabinet (5) is transformed into such figure 1 The style is divided into upper and lower layers, the lower layer is the server array (1) space and the cooling system (2) space, and the upper layer is the hard disk array (3) space.

[0037] The heat dissipation system (2) includes a vertical metal heat dissipation plate (201), the bare computer (101) is fixed by the motherboard fixing fastener (102), and the heat dissipation connector (203) is close to the metal heat dissipation plate (201) and the bare computer (101) the CPU chip on the motherboard, the other side of the metal cooling plate (201) distributes cooling fins (204), and the cooling pipes (202) are included, and the temperature sensor (205) is distributed on the cooling fins (204) inside.

[0038] The power supply system (4) provides DC power to the hard disk array (3) through the power cord (10), and is configured to the bare computer (101) at the same time to supply power for ...

Embodiment 2

[0045] The hard disk array (3) is placed in the underground civil defense project in the city under the state of network storage. The underground civil defense engineering part can become a network storage hosting center, where the user hosts the hard disk; the server array (1) is placed in the computing center on the building, which can make full use of the ventilation advantages at the height of the building, and the server array (1) Realize natural air cooling; the above-mentioned server array placement method will not be limited to the network cabinet, one or more metal heat dissipation walls can be configured, and more server arrays can be fixed on the metal heat dissipation wall. On the other side, heat dissipation measures are carried out. Such a configuration makes the heat dissipation source more concentrated, which is more conducive to heat dissipation and energy saving.

Embodiment 3

[0047] When the hard disk array (3) realizes long-distance high-bandwidth network storage, the user remotely logs in to the management module of the hard disk array (3), turns on / off the hard disk, increases / decreases hard disk resources, and specifies remote computing resources for the hard disk Or specify hard drives for remote computing resources. This mode of operation enables computing resources and storage resources to be increased at any time to achieve rapid server upgrades; when a hard disk is damaged, computing resources can be immediately directed to another backup hard disk to achieve rapid data recovery.

[0048] At the same time, the network storage hosting center provides FTP and P2P services to users through independent bandwidth channels, and multiple network storage hosting centers realize mutual data backup. These tasks do not go through the computing center, which relatively reduces the high energy consumption of the computing center.

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Abstract

The invention discloses a cloud computing server system for heat dissipation, energy conservation and safe data storage. The system comprises a network cabinet, a power system, a server array, a hard disk array and a heat radiating system. The cloud computing server system is characterized in that a bare computer is fixedly connected with a metal radiating panel to form the server array; a CPU ona main board and a north bridge chip transfer heat through a radiating connection piece to the metal radiating panel for heat dissipation, and a radiating pipe carries out heat dissipation on the metal radiating panel; the server array is separated from the hard disk array at a certain distance, and the data port of the main board is connected with the hard disk array through a data line; the power system carries out DC supply on the server array and the hard disk array, and the heat radiating system carries out heat dissipation on the power system; and the heat radiating system can be simultaneously connected with a natural air-cooling system and a water-cooling system. The server system configured by the invention can concentrate heating sources and directly carry out heat dissipation, thus improving heat dissipation efficiency and saving energy; and the computing part and the storage part of a server are separately configured, thus facilitating maintenance and safe data storage.

Description

technical field [0001] The invention relates to a heat dissipation, energy saving and data storage system applied to cloud computing servers, network cabinets and IDC machine rooms. Specifically, it is to separate and reconfigure the computing part, storage part and other hardware in the server hardware, and adopt different heat dissipation measures, power supply measures and security measures for the separated hardware to meet the high efficiency required by cloud computing. Requirements for heat dissipation, energy saving, and data security storage. Background technique [0002] Cloud computing services have high requirements for data throughput and processing. To process a large number of data requests, cloud computing servers need to be configured with higher frequency CPUs, which require more power consumption and bring higher heat generation. In order to dissipate heat , and need to be equipped with a fan with higher power; at the same time, the north bridge chip on t...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06F1/20G06F1/16
CPCY02B60/1275Y02D10/00
Inventor 姚学民
Owner 姚学民
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