Network server cabinet? With the development of society, the amount of data information is increasing rapidly, and the density of data centers is also getting higher and higher. In the past, data centers had a decentralized and miniaturized layout. With the rise of big data and cloud computing in the future, there will be more and more large data centers, and the heat density of a single cabinet will become higher and higher. Modular data center solutions provide industry-leading cloud computing solutions, including cloud-based IT equipment, such as servers, storage, and networks. The solution adopts a high-performance, cloud computing-oriented customizable server, and applies an intelligent cloud computing operation management platform to fully realize the unified management, unified deployment, unified monitoring and unified backup of data center resources.
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The type of board, coating material, and processing technology determine the stability of the cabinet. Generally, its length specifications are 600, 800mm, width specifications are 600, 800, 1000mm, and height specifications are 42U, 36U, 25U. Most of the cabinets used in the early days were made of castings or angle steels connected or welded into the cabinet frame by screws, rivets, and then made of cover plates (doors) made of thin steel plates. This kind of cabinet is bulky, heavy, and crude in shape, and has been eliminated. With the use of transistors and integrated circuits and the miniaturization of various components, the structure of the cabinet is also developing in the direction of miniaturization and building blocks. The cabinet has developed from the whole panel structure in the past to a box and plug-in structure with a certain size series. There are two types of assembly and arrangement of subracks and plug-ins: horizontal arrangement and vertical arrangement. Cabinet materials generally use thin steel plates, steel profiles of various cross-sectional shapes, aluminum profiles, and various engineering plastics.
Proper layout of rack space is also very important to ensure proper temperature and enough cool air in the rack. The goal of proper rack layout is to control air circulation, that is, to avoid mixing of cold air with hot air before it reaches the equipment intakes. The solution to this problem has a wide range of applications. Unreasonable equipment installation location, especially the installation location of high power density equipment, may significantly increase the working pressure of the computer room. High load density clusters occur when high load density, high power servers are combined into one or more cabinets. This situation can cause a hot spot in the data room and require the operator to take appropriate action, such as lowering the air temperature set point.
Standard cabinet
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In the daily operation and maintenance process of the data center, it is not only necessary to ensure the safe and reliable operation of the equipment in the data center, but also to reasonably control the energy consumption. Therefore, during the operation of the air conditioning system, appropriate adjustments should be made according to the dynamic environment monitoring. If the temperature is set too low, the energy consumption will increase significantly. Network server cabinets, therefore, in our daily work, the temperature and humidity settings should be within the A-level standard range, and the balance between cooling capacity and heat generation should be well controlled, and the ambient temperature and humidity in the computer room can be controlled by controlling the air supply volume.
The network server cabinet can avoid the problem of wind short circuit. At the same time, we should also pay attention to the problem of uneven temperature distribution. Only by solving the problem of air distribution reasonably can it be completely eliminated. Rackmount server cabinet? The air-conditioning load of the computer room mainly comes from the heat generated by computer equipment, external equipment and equipment in the computer room, accounting for more than 80% of the total heat, followed by lighting heat, conduction heat, radiant heat, etc.
These calculation methods are different from those of general air-conditioned rooms. Load calculations are the same. Computer manufacturers can generally provide specific values for the heat generated by the equipment. Otherwise, calculate its calorific value according to the power consumption of the computer. The total power of various equipment in the computer room should be based on the maximum power consumption of the equipment in the computer room, but the power consumption is not all converted into heat, so it must be corrected with the above three coefficients, and these coefficients are related to the computer system. It is related to the structure, function, use, working status and electronic components used. The total coefficient is generally between 0.6 and 0.9 as well.
Rack server cabinet