RU151237U1 - MOBILE DATA PROCESSING CENTER - Google Patents

Abstract

A mobile data center containing a cargo container, divided into two rooms: a vestibule gateway and a room with equipment, equipped with a raised floor, with a movable platform installed above it that can move across the container axis, racks with information technology equipment are fixed on the movable platform, in addition, the cargo container is equipped with an electric power supply system, a cooling system, a security alarm and access control system, a gas fire extinguishing system, automatically a supervisory control system, cable and network equipment, a screen separating the flows of cold and hot air, while the flow of cold air is organized through the front wall of the equipment, characterized in that at least one system for automatically entering an external power reserve is connected to the cargo container, connected electrically with a modular uninterruptible power supply, in turn, electrically connected to racks with information technology and with a cooling system consisting of inter-row air conditioners with compressors and DC fans, as well as condenser units connected to inter-row air conditioners by increased flexibility flexible conduits laid in flexible cable channels, while the inter-row air conditioners are mounted on a movable platform between the racks with information technology equipment.

Description

The utility model relates to the field of software and hardware systems using local and global information and computer networks, in particular, to mobile computing centers.

The mobile data processing center (MODC) is a rapidly deployable data processing center made in the form of a freight transport container and designed to host and support the operation of information technology equipment (IT equipment) and engineering systems.

The Emerson SmartMod data center is known (networking / smartsolutions / documents / s1-11480.pdf, 2014), which contains a container whose format does not correspond to the standard cargo container in which engineering systems are located: power supply system with uninterruptible power supply (UPS), cooling system, alarm and access control system, gas fire extinguishing system, cable and network equipment, server racks, data storage systems, telecommunication equipment and cable support structures.

The disadvantage of this technical solution is that the container has overall dimensions that exceed the dimensions of a standard cargo container, which makes it difficult to deliver it to the assembly site by road, rail or air. Access to the room with racks with information technology equipment is carried out directly from the street, which leads to the possibility of dusty-containing air with unsatisfactory temperature and humidity parameters entering it from the outside. Another disadvantage of this solution is the low security against unauthorized access to information technology equipment and systems that ensure its operation.

The known IDC IDS1000-A40 Container Data Center of Huawei (DataCenter / hw-204419.htm., _ 2014), containing a container that houses engineering systems: power supply system with UPS, cooling system, security alarm and access control system, gas system fire extinguishing, cable and network equipment, server racks, data storage systems, telecommunication equipment and cable support structures. The racks in the container are arranged in several rows transversely to the long side of the container, with doors located on the side of the container.

The disadvantage of this technical solution is that access to the room with racks with information and technological equipment is carried out directly from the street, which leads to the possibility of dust-containing air entering it with unsatisfactory temperature and humidity parameters. Another disadvantage of this solution is the low security against unauthorized access to telecommunication equipment and systems that ensure its operation.

The closest analogue to the proposed device is the MCOD (prototype - patent for a utility model of the Russian Federation No. 78384 dated 09.07.2008) which contains a standard transport (cargo) container equipped with a raised floor, racks with information technology equipment, power supply system, cooling system, security system alarm and access control, gas fire extinguishing system, automated dispatch control system, cable and network equipment located under the raised floor, a mobile platform, having w displaceable transversely to the container axis in which the fixed rack with information-processing equipment, moreover, the container is provided with a screen separating the flows of cold and hot air, the cold air enters through the front wall of the equipment; as a cooling system, a forced air cooling system is used, installed above the existing screen windows. IT equipment consists of servers, data storage systems, telecommunication systems equipment. The data center can be installed on a vehicle. The platform has the ability to move due to remote control. The container is divided into two rooms: the vestibule gateway and a room with equipment.

The disadvantages of this technical solution are:

- low reliability of systems that ensure the functioning of IT equipment;

- poor security from unauthorized access to information technology equipment and systems that ensure its operation.

The objective of the proposed technical solution is to increase the reliability of the power supply system, cooling system.

The technical result of the technical solution consists in increasing the reliability of the power supply system of IT equipment through the use of a modular UPS, as well as an automatic input system for the power supply reserve, and, as a result, in increasing the reliability of the cooling system due to the power supply of in-line air conditioners directly from the modular UPS.

The technical result is achieved by the fact that the mobile data processing center contains a cargo container 6, divided into two rooms: a vestibule gateway and a room with equipment, is equipped with a raised floor 7, with a movable platform 9 installed above it, with the ability to move across the axis of the container, on a movable platform 9 racks 8 with information technology equipment are fixed, in addition, the cargo container 6 is equipped with an electric power supply system, a cooling system, an alarm and access control system, a system gas fire extinguishing, automated dispatch control system, cable and network equipment, a screen separating the flows of cold and hot air, while the flow of cold air is organized through the front wall of the equipment. At least one automatic reserve transfer system (ABP system) of external power supply, electrically connected to a modular uninterruptible power supply 2, in turn electrically connected to racks 8 with information technology equipment and a cooling system, is additionally installed in the cargo container 6; consisting of inter-row air conditioners 3 with compressors and DC fans, as well as condenser units 10 connected to intra-row air conditioners 3 by freon pipelines increased flexibility, laid in flexible cable ducts, while in-line air conditioners 3 are mounted on a movable platform 9 between racks 8 with information technology equipment.

The possibility of practical implementation of the utility model is illustrated by the drawing, where figure 1 shows a General view of the MCOD.

In addition, figure 1 shows the ventilation system 1 installed in the cargo container 6, designed to maintain excess pressure inside the cargo container 6; in addition, the walls, the bottom, the roof, the door 4 and the gate 5 of the cargo container 6 are made in the form of a multilayer structure with an intermediate layer of non-combustible heat-insulating material, in addition, stops 11 are attached to the door 4 and the gate 5 of the cargo container to prevent the door and gate from being opened when sawing loops, as well as the door and gate are equipped with locks with multi-point locking; in addition, an unauthorized access control system is installed in the cargo container 6, including a video surveillance system, motion sensors, vibration sensors, sensors for opening the door 4 and gate 5.

The device operates as follows. Manufactured at the factory in the format of the cargo container of the MCOD, with the structural elements installed in it in accordance with the claimed utility model, they are delivered to the installation site by any transport suitable for the transport of cargo containers that are made in standard sizes in accordance with the requirements of the International Organization for Standardization ( ISO). The data center is connected to the electric network, after which it is ready for operation.

The power supply system provides power to all internal consumers of the MCOD through the external power supply ABP system, which continuously monitors the status of the main and backup power supply inputs. In the event of a power failure at the main input of the external power supply source or its deviation from the nominal value in excess of the permissible value, the ATS system automatically switches the power supply of the MCOD to the backup external power supply, thereby increasing the reliability of the MCOD power supply system.

When switching the power supply of the MCOD from input to input, as well as in the event of external power failures, the continuous operation of IT equipment is provided by a modular UPS 2, to which racks 8 with IT equipment are electrically connected. Modular UPS 2 has a degree of redundancy of at least N + 1, where N is the number of power modules of a modular UPS (power supply units) required for the normal operation of the MCOD. In the event of a malfunction of one of the power modules of the modular UPS 2, the backup module takes over its functions, moreover, the failed power module of the modular UPS 2 is replaced with a working one without interrupting its operation.

Electrical and switching connections inside the center are carried out using cable and network equipment.

Another aspect of the constructive solution of the proposed utility model, aimed at increasing the likelihood of trouble-free operation of the MCOD in incidents with the disconnection of external power supply, is to increase the reliability of the cooling system. It is known that one of the main problems for modern data centers containing densely installed information technology equipment on minimal areas is a significant level of heat generation during the operation of IT equipment, therefore, shutting down the cooling system if it is de-energized can provoke dangerous heating with the risk of emergency situations and with a complete shutdown of IT equipment.

The use of in-line air conditioners 3 with compressors and DC fans allows you to organize their power supply from the modular UPS 2, which eliminates the above problems that occur when the external power supply is disconnected. In addition, the cooling system is designed in such a way that it has a degree of redundancy of at least M + 1, where Μ is the number of in-line air conditioners 3 with compressors and DC fans and condenser units 10 that are functionally connected to them, which is necessary for utilizing the heat power allocated by IT equipment.

Thus, one of the advantages of the proposed technical solution compared to the prototype is that racks 8 with IT equipment, as well as 3 row air conditioners with compressors and DC fans are connected directly to the modular UPS 2, which eliminates the possibility of disconnecting this equipment when the loss of external power supply, and allows it to work continuously and to avoid deviation of climatic parameters inside the center.

To ensure normal conditions for installation and repair work on information technology equipment or a cooling system, racks 8 and in-line air conditioners 3 are mounted on a movable platform 9, which can move the entire row array to any position along the transverse axis of the container. To enable the movement of in-row air conditioners 3 on the mobile platform 9, the in-row air conditioners 3 and condenser units 10 are connected by freon pipelines of increased flexibility laid in flexible cable channels.

In combination with a screen separating the flows of cold and hot air, the cooling system forms a “cold corridor” in front of the racks 8, and a “hot corridor” behind the racks 8. The principle of operation of the cooling system is that the air from the “cold corridor” passes through the information technology equipment in the racks 8, cooling it, and is discharged into the “hot corridor”. Heated air from the “hot corridor” is taken in by row air conditioners 3 through their air filters, cools down and is again fed into the “cold corridor”. These in-line air conditioners 3 belong to the class of air conditioners in which compressors and DC fans and electronic thermostatic valves are used that do not require periodic adjustment. Intra row air conditioners 3 control the temperature of not only the supply, but also the cooled air.

In them, to prevent the activation of protection against high pressure in the freon circuit, an adaptive power limitation function is implemented.

The ventilation system 1 creates and maintains excess air pressure inside the cargo container 6 with respect to atmospheric pressure outside the cargo container 6, which improves the reliability of the cooling system and reduces the environmental impact on the operation of IT equipment installed inside the cargo container 6. Thus, ventilation system 1, in combination with the tambour-lock room, prevents dust from entering inside the center, and reduces the effect of outside air on the climatic parameters inside the center, and also allows you to remove any extinguishing agent and combustion products from the room after the gas fire extinguishing system has been activated.

To prevent unauthorized access to information technology equipment and systems that ensure the operation of the MCOD and located inside the cargo container 6, its walls, bottom, roof, door 4 and gate 5 are made in the form of a multilayer structure (for example, steel) with an intermediate layer of non-combustible heat-insulating material (for example, from mineral wool), which makes it difficult to open them with the help of hand and electric bench tools. The door 4 and the gate 5 of the cargo container 6 are equipped with stops 11, blocking them in the openings when cutting the loops. The door 4 and gate 5 of the cargo container 6 are also equipped with locks with multi-point locking, which significantly increases the time for detection and filing of locks of the lock.

In addition to mechanical protections (made in the form of a multilayer structure of walls, bottom, roof, door 4 and gate 5, stops 11, locks with multipoint locking), an unauthorized access control system is included, including a video surveillance system, an alarm and access control system, motion sensors, sensors vibration sensors for opening door 4, gate 5 of cargo container 6, operating with the help of hardware and software, notifying on-duty personnel of the attempt and the fact of entering the data center.

The automated dispatch control system of the MCOD performs continuous monitoring of the state of technological equipment and provides the dispatcher with up-to-date information about the status of all the MCOD systems.

Claims (1)

A mobile data center containing a cargo container, divided into two rooms: a vestibule gateway and a room with equipment, equipped with a raised floor, with a movable platform installed above it that can move across the container axis, racks with information technology equipment are fixed on the movable platform, in addition, the cargo container is equipped with an electric power supply system, a cooling system, a security alarm and access control system, a gas fire extinguishing system, automatically a supervisory control system, cable and network equipment, a screen separating the flows of cold and hot air, while the flow of cold air is organized through the front wall of the equipment, characterized in that at least one system for automatically entering an external power reserve is connected to the cargo container, connected electrically with a modular uninterruptible power supply, in turn, electrically connected to racks with information technology and with a cooling system consisting of inter-row air conditioners with compressors and DC fans, as well as condenser units connected to inter-row air conditioners by increased flexibility flexible conduits laid in flexible cable channels, while the inter-row air conditioners are mounted on a movable platform between the racks with information technology equipment.

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