CN218601809U - Auxiliary management system for data center machine room - Google Patents

Abstract

The utility model discloses a data center computer lab auxiliary management system includes system module frame, and system module frame is equipped with access unit and crane span structure unit from upwards being equipped with in proper order down, and system module frame's middle part is equipped with the isolation region, and the crane span structure unit is located the both sides of isolation region, and the crane span structure unit includes that the cable mark joins in marriage the storehouse and fortune dimension storehouse, is equipped with first reason line mechanism in the fortune dimension storehouse, and the cable mark joins in marriage and is equipped with second reason line mechanism in the storehouse, and the integration has lighting system and intelligent management system on the access unit. The utility model discloses with the crane span structure system, power and the network access system of modularization, structural style with data mainframe room, lighting system and intelligent management system integration be an independent system, make the data computer lab need not to design respectively to above system again at the design stage. The utility model discloses carry out unified structural configuration to above-mentioned system according to prevailing relevant standard at home and abroad, make the use of data center computer lab system form a new application mode in the whole life cycle such as design, construction and fortune dimension.

Description

Auxiliary management system for data center machine room

Technical Field

The utility model relates to a communication equipment technical field especially indicates a data center computer lab auxiliary management system.

Background

A high-availability data center machine room can provide a safe and energy-saving operation environment and a standard and convenient operation and maintenance scheme for an owner in the whole life cycle. At present, in a data center machine room project planning stage, due to uncertainty of future system application, only some basic requirements can be provided for the safety level, application scale, application prospect and the like of project construction, design is often performed according to product standards and configuration schemes provided by various product manufacturers during deepening design, and deepening design units of the schemes become product promoters of various manufacturers and equipment manufacturers as technical holders become leaders of various system technical schemes. When the manufacturers upgrade and optimize the scheme of the system products, the updating of the technology, materials and processes within the range of each system is limited, and even if the equipment manufacturers do not provide the specific integral scheme according to the specific requirements of the data center for the manufacturers who purchase other system equipment, the special integral scheme is provided. The design of the data center machine room is always in a state that a manufacturer can only use what, and the integration technology of the auxiliary management system of the data center machine room is difficult to break through greatly.

Generally, most of the concerns in the deepening design of a data center machine room are focused on the system security level, the consideration of the system energy efficiency is mostly reflected in the aspects of environmental protection and energy saving (PUE reduction), and the overall comprehensive energy efficiency in the whole life cycle of the machine room system is not easily embodied in a quantized manner, including the rationality of the system operation and maintenance mode, the convenience and the economy of the operation and maintenance mode, the utilization rate of system resources and the like. In addition, because the application form of each auxiliary system of the data center machine room is relatively independent, for example: the design, construction and application of the bridge system, the power access system, the network access system, the working illumination system, the intelligent monitoring system and the like have respective process standards, the structure of the bridge system is complex, even professional machine room installation personnel operate the bridge system by high professional techniques, and even the professional limit of operation and maintenance personnel at the later stage is met, so that the operation and maintenance standardization of the data center machine room are difficult to realize, a lot of auxiliary system equipment and space resources in the data center machine room cannot be well utilized, and the standardization degree of the machine room is lowered along with the extension of time. For example, various cables in a bridge or a system cabinet are more and more disordered, and the operation and maintenance risks related to the cables are higher and higher; the flatness and tightness of the anti-static movable floor are increasingly poor, even the airflow organization of a machine room is influenced, the refrigeration effect in the machine room is reduced, and the operation efficiency of the whole machine room system is reduced.

The following is a description of some problems and reasons for the problems in the application of the above system in the full life cycle of the data center room.

1. The bridge frame system: the modern data center mainframe room has a large number of bridges, and in terms of an upward wiring mode, the modern data center mainframe room mainly comprises a system strong electric cable (or a rail-type small bus system), a system network copper cable, a system network optical fiber, an auxiliary system strong and weak electric bridge, and the like. Although the installation modes are basically the same and are basically hung in the space range of about 0.3 m above the cabinet, the vertical space above and below the bridge main body is completely occupied by a hanging rod, a cable, an access accessory and the like due to multiple types and different paths of the bridge and independent hanging processes and installation accessories. And the system is also often crossed with installation accessories of systems such as suspended ceilings, lighting, fire fighting, monitoring, ventilation and the like, so that the space of the upper half part of a data center machine room is very complicated, namely the system is not attractive and is not convenient for operation and maintenance. The bridge frame adopting the downward wiring mode is often limited by the clear height of a building site and the paving height of a movable floor, and simultaneously is crossed with system equipment such as airflow organization, heat preservation, grounding, floors, fire control, movable ring monitoring and the like of a machine room, so that the complexity of the space below the floor is increased. Not only increases the difficulty of construction, but also brings great inconvenience to operation and maintenance. Meanwhile, when the cable is operated and maintained, a plurality of floors need to be lifted, so that the whole tightness of the ground is poorer and poorer, the use effect of the anti-static movable floor is reduced, and the service life of the anti-static movable floor is prolonged.

2. The power access system comprises: the power access system in the bus mode is a track bus-bar system, the personalized structure appearance, the independent hoisting accessory and the installation process of the power access system form great contrast with other wiring systems in a machine room, the power access system serving as a terminal device is hoisted below the track bus-bar system in a rotary plugging mode, and the double-circuit power supply mode enables the small bus-bar system to greatly increase the complexity of the space above a system cabinet and increase the difficulty of operation and maintenance. The tail end of the special line mode power access system is provided with a certain number of special PDU with load capacity in a system cabinet according to the requirements of system equipment, and the special PDU has the biggest problem of no flexibility and is not easy to adjust along with the increase and decrease of the electric load of the system cabinet, so that the tail end of the power access system is not excessive investment in the early stage, or is repeated investment in the later stage, and the invalid investment proportion is increased. No matter which power access mode, no special standard power access space exists, so that cables and access accessory equipment of an access system are not hung outside a cabinet, and valuable space of the system cabinet is occupied.

3. A network access system: the network cables of the data center machine room are copper cables and optical cables, each information system is provided with a respective network port and network equipment, some information systems are special networks, and some information systems can share the network system. In order to ensure the requirement of the application system on the network expansion, more redundant line resources are usually reserved during planning and construction so as to have richer and more flexible networking schemes for future system application. However, the number of available ports in the future is determined by the access device, and therefore, a certain position is reserved for the network device in the system cabinet, so that the available space of the system device in the standard cabinet is reduced by 20% on average. Therefore, the bearing efficiency of the whole machine room is reduced, and the basis of PUE efficiency is weakened.

4. An illumination system: different lighting systems and a plurality of lighting subareas are arranged in the data center machine room, so that the wiring amount of the lighting systems is increased, the structure of a control system is complex, and the construction cost is high. At present, the illumination control mode of a data center machine room is too rough, a group of high-illumination lamps can be controlled by a single loop, and the area needing high illumination only has the work area of the operation. The machine room has low illumination utilization rate, high energy consumption and high operation and maintenance cost. The installation position of the lighting lamp of the data center machine room is high, and under the condition of the same illumination standard, the power of a light source needs to be increased and the power consumption is increased for compensating the illumination loss.

5. The intelligent management system comprises: at present, an intelligent management system of a data center machine room comprises two major types, one is a power and environment monitoring system based on basic equipment, and the other is an asset management system based on a data service system. Both systems can only acquire information on respective system platforms, and cannot meet the requirement that operation and maintenance personnel directly acquire related information on the equipment site. So that the utility model can not play better and more roles on site.

Therefore, a modular, structured and standardized auxiliary management system for the data center room is needed.

SUMMERY OF THE UTILITY MODEL

To not enough among the above-mentioned background art, the utility model provides a data center computer lab auxiliary management system for solve above-mentioned technical problem.

The technical scheme of the utility model is realized like this: the utility model provides a data center computer lab auxiliary management system, includes system module frame, and system module frame is equipped with access unit and crane span structure unit from upwards in proper order down, and system module frame's middle part is equipped with the isolation region, and the crane span structure unit is located the both sides of isolation region, and the crane span structure unit includes that the cable marks storehouse and fortune dimension storehouse, fortune dimension is equipped with first reason line mechanism in the storehouse, and the cable marks and is equipped with second reason line mechanism in the storehouse, and the integration has lighting system and intelligent screen system on the access unit.

The system module frame array is arranged on the upper portion of the cabinet, and an outer side plate is arranged at the outer side end of the system module frame array. The access unit comprises an access unit mounting area and an access unit management area, the access unit mounting area and the access unit management area are arranged on two sides of the isolation area, the access unit management area is arranged on the outer side of the access unit mounting area, an installation beam frame fixed on a system module frame is arranged in the access unit mounting area, an integrated bin gate is arranged at an opening of the outer side of the access unit management area, the access unit management area is located below the operation and maintenance bin, and the access mounting area is located below the cable marking bin.

The integrated bin gate comprises an access unit bin gate, the access unit bin gate is rotatably connected with the system module frame, and the lighting system and the intelligent screen system are arranged on the access unit bin gate; the access unit bin gate comprises a rear cover plate, side plates and a ladder outer cover, the side plates are symmetrically arranged on two sides of the rear cover plate, the ladder outer cover is arranged on the outer side of the rear cover plate, a first heat dissipation hole is formed in the middle of the ladder outer cover on the step plate, a data wire outlet hole is formed in the ladder outer cover, and a camera is arranged on the ladder outer cover.

The illuminating system comprises an LED panel lamp, the intelligent screen system comprises an LCD display screen, the LED panel lamp is arranged on the rear cover plate through a lamp frame, the LCD display screen is arranged on the ladder outer cover, and a control device is arranged between the rear cover plate and the ladder outer cover.

The operation and maintenance bin is characterized in that an operation and maintenance bin door is arranged at the opening end of the operation and maintenance bin and is connected with the system module frame in a controllable rotating mode, wear-resistant strips are arranged on the outer wall of the operation and maintenance bin door, and the operation and maintenance bin door enables the first line arranging mechanism to cover the operation and maintenance bin.

The first wire arranging mechanism comprises a supporting rod, a buckle is arranged on the inner wall of the supporting rod, the supporting rod is connected to the system module frame through the buckle in a clamped mode, a supporting arm is arranged on the outer wall of the supporting rod, an arc-shaped wire supporting plate is arranged on the supporting arm, a stopper is arranged at the outer end of the supporting arm, and the stopper is located on the outer side of the arc-shaped wire supporting plate.

An upper cover plate is arranged at an opening of the cable marking bin and is in controllable rotary connection with the system module frame, second heat dissipation holes are formed in the upper cover plate, and the second wire arranging mechanism is covered in the cable marking bin by the upper cover plate.

The second wire arranging mechanism comprises a plurality of wire arranging devices which are arranged in parallel in the system module frame; the wire arranging device comprises a wire arranging plate, wire arranging grooves which are arranged in a crossed mode are formed in the upper end and the lower end of the wire arranging plate, clamping grooves are formed in the two ends of the wire arranging plate, and the clamping grooves are clamped with clamping seats arranged on the inner wall of a system module frame.

The system module frame is made of fireproof materials, and preferably, the frame made of the fireproof materials is made of magnesium-aluminum alloy.

The utility model discloses with crane span structure system, power access system, network access system, work lighting system and intelligent management system etc. of modularization, structural style in with the data center computer lab, highly integrated is in one set of new system's device, makes above-mentioned system create a new application mode in aspects such as design, construction and fortune dimension of data center computer lab. The system performs unified configuration on the systems according to the current domestic and international specifications, and does not need to perform respective planning design on the systems in the design stage of a data center machine room. The modular structure does not need to be installed on the systems respectively in the construction process, and the convenient installation mode shortens the construction period of the data center machine room by times. In the machine room operation and maintenance process, the working surface of the machine room operation and maintenance is reduced, the complexity of the operation and maintenance work is reduced, the operation and maintenance efficiency of the machine room is improved, and the operation and maintenance cost of the machine room is reduced. The space occupied by the auxiliary system of the machine room in the machine room of the data center is reduced, the system bearing capacity of the machine room is improved, and a foundation is laid for the standardized management of the machine room and the expansion of the system density of the machine room in the future. The safety, the availability and the economy of the data center machine room are improved, and meanwhile, the design, the installation and the application of each data center machine room system are more standardized. All accessories of the system are manufactured in a unified mode on a factory production line, and the assembly is completed on the site of the machine room, so that the construction period of the data center machine room is shortened, and the system process standard and the overall visual effect of the data center machine room are improved.

Drawings

In order to illustrate the embodiments of the present invention more clearly, the drawings that are needed in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the description below are only some embodiments of the present invention, and that other drawings can be obtained by those skilled in the art without inventive work.

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the whole internal structure of the present invention.

Fig. 3 is a schematic overall top view of the present invention.

Fig. 4 is a schematic overall side view of the present invention.

Fig. 5 is a schematic view of an access unit door of the access unit.

Fig. 6 is a rear view of the access unit door of the access unit.

Fig. 7 is a schematic diagram of the wire arranging device used in a power wire state.

Fig. 8 is a schematic diagram of the wire organizer used in the network wire state.

Fig. 9 is a schematic view of a second wire arranging mechanism.

Fig. 10 is a schematic view of a first wire management mechanism.

Fig. 11 is a schematic view of the opened state of the upper cover.

Fig. 12 is a schematic view of the access unit door in an open state.

Fig. 13 is a schematic view of the door opening state of the operation and maintenance warehouse.

Fig. 14 is a schematic view of the combination state of the standard cabinet.

Fig. 15 is a schematic view of a cabinet array in an assembled state.

Fig. 16 is a schematic view of the arrangement state of the cables of the standard cabin.

Fig. 17 is a schematic view of the cable arrangement state of the operation and maintenance cabin.

Fig. 18 is a schematic diagram of an application state of the modular power access system.

Fig. 19 is a schematic diagram of an application state of a network access unit.

Fig. 20 is a side view of the assembled cabinet array.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without any creative effort belong to the protection scope of the present invention.

As shown in fig. 1, embodiment 1 is a data center room auxiliary management system, including a system module frame 1, in use, the system module frame is disposed on an upper portion of a cabinet 100, and configured into a complete room system (as shown in fig. 14 and 15), the system module frame 1 is disposed on the upper portion of the cabinet 100 in an array manner, an outer side plate 9 is disposed at an outer side end of the system module frame 1, and no outer side plate is disposed between two connected system module frames. The system module frame 1 is made of fireproof materials, preferably, the frame made of the fireproof materials is a magnesium-aluminum composite frame, and the system module frame is high in strength, light in weight and fine in process. System module frame 1 is equipped with access unit 2 and crane span structure unit 3 from upwards in proper order down, system module frame 1's middle part is equipped with isolation region 10, crane span structure unit 3 is located isolation region 10's both sides, crane span structure unit 3 includes two cable mark storehouse 3.1 and two fortune dimension storehouse 3.2, the cable mark storehouse 3.1 and fortune dimension storehouse 3.2 intercommunication that are located the isolation region homonymy, not only structurally the subregion but also the piecemeal in the function, the modularization, the design of structuralization, can guarantee each system safe independent operation, it is more convenient high-efficient to make each system fortune dimension administrative work again. An isolation area 10 is arranged between the two cable matching bins 3.1, the isolation area separates the strong current part and the weak current part of the system, and the width of the isolation area can be set to be 300mm. A working lighting system is integrated in the access unit 2 and can be used for working lighting, a first wire arranging mechanism 5 is arranged in the operation and maintenance bin 3.2, and a second wire arranging mechanism 6 is arranged in the cable marking bin 3.1. The first cable arranging mechanism 5 adopts a pipe gallery cable management mode, so that various cables can be orderly arranged in layers without mutual interference, and old cables can be safely and conveniently detached or new cables can be arranged at any time. The second wire arranging mechanism 6 combs the power cables and the network cables, so that various standard distribution cables are sequentially arranged in a layered mode. The system units are assembled together with the whole system module frame, and special mounting auxiliary materials such as a suspender or a bracket are not needed any more, so that the structure is simpler, the mounting is more convenient and faster, and the cost is lower. The access unit 2 is divided into power access and network access, and the power access and network access unit reasonably plans the gap between the traditional machine room bridge and the machine cabinet to form two relatively independent equipment installation spaces which accord with EIA standards, so that a standard management space is provided for the terminal equipment of two access systems. The terminal access equipment of the power and network access systems is moved out of the system cabinet for management, so that the system cabinet has more space for bearing the system equipment, and objective physical conditions are provided for improving the PUE value of the data center machine room system.

Further, as shown in fig. 2, the access unit 2 includes an access installation area 2.1 and an access unit management area 2.2, which are disposed at two sides of the isolation area 10, the access unit management area 2.2 is disposed at an outer side of the access installation area 2.1, an installation beam frame 2.1.1 fixed on the system module frame 1 is disposed in the access installation area 2.1, and the installation beam frame 2.1.1 is fixedly connected in the system module frame 1 for fixing a wire harness or corresponding equipment. The outside opening part of access unit management district 2.2 is equipped with integrated door 4, and the access installing zone is linked together with the access unit management district, and the outside opening part of access unit management district is equipped with integrated door, and access unit management district 2.1 is located fortune dimension storehouse 3.2 below, and access installing zone 2.1 is located cable standard and joins in marriage storehouse 3.1 below. The bridge frame adopts a warehouse-dividing (partition) management mode, can be respectively managed according to the characteristics of cables with different life cycles, different types and different management frequencies of a data center machine room, and adopts bridge frame management with different management modes, so that the cable management really steps into a new era of fine management. As shown in fig. 18, 19 and 20, the access installation area is divided into a power access unit and a network access unit, the power access unit is located below a strong electric bridge rack standard cabin and an operation and maintenance cabin of the module, the unit is a standard space with the depth of 450mm and the depth of 19 inches and the depth of 6U, a distribution box, an industrial connector, a PDU and other various tail end power access devices can be orderly installed in the unit, a power cable in the bridge rack is connected into a system cabinet in the shortest distance and the most hidden mode, the PDU is installed in the space, the management of all power systems in the original cabinet can be moved out of the cabinet, and a more loose operation and maintenance space is won for system server equipment. A network access unit: the unit is a standard space with the depth of 450mm and the depth of 19 inches and the depth of 6U, and can be orderly arranged in the unit, so that a network port management unit or an access switch and other various access terminal network equipment in the bridge are connected into a system cabinet in the shortest distance and the most concealed mode, the network port management unit or the access switch is arranged in the space, the management of all network access systems in the original cabinet can be moved out of the cabinet, and a looser operation and maintenance space is obtained for system server equipment.

Further, as shown in fig. 3, the integrated bin gate 4 includes an access unit bin gate 4.1, the access unit bin gate 4.1 is rotatably connected with the system module frame 1, the access unit bin gate is driven to be switched on and off by a motor, so that automatic switching is realized, and the automation degree is high. The LED lighting system and the LCD intelligent management display screen system are arranged on the access unit bin door 4.1, and the structure is compact and the application is convenient. Preferably, the access unit door 4.1 includes a rear cover plate 4.1.1, side plates 4.1.2 and a ladder housing 4.1.3, the side plates 4.1.2 are symmetrically arranged on two sides of the rear cover plate 4.1.1 and are fixedly connected with the rear cover plate, the side plates are rotatably connected with the system module frame 1 through connecting lug seats 4.1.6, the ladder housing 4.1.3 is detachably connected with the outer side of the rear cover plate 4.1.1, a first heat dissipation hole 4.1.4 is arranged on a middle ladder plate of the ladder housing 4.1.3, the heat dissipation efficiency is improved, a data wire outlet 4.1.5 is arranged on the ladder housing 4.1.3, the data wire outlet can be arranged in 2 or more numbers, so as to facilitate leading-out of different types of wire harnesses, a camera 4.1.7 is arranged in the middle of the lower part of the ladder housing 4.1.3, and an audio channel can be constructed for the machine room main control center and the front end of the system cabinet.

Preferably, as shown in fig. 4, 5 and 6, the lighting system comprises an LED flat lamp 7, the intelligent management display screen system comprises an LCD display screen 8, the LED flat lamp 7 is arranged on the rear cover plate 4.1.1 through a lamp frame 19, the LCD display screen 8 is arranged on the step housing 4.1.3, and a control device is arranged between the rear cover plate 4.1.1 and the step housing 4.1.3. The LED plane light source is adopted as the lighting source, a bus power supply mode is adopted for system power supply of the LED lighting system and the LCD intelligent display screen, the bus is LED out by the power distribution cabinet, passes through each system cabinet along the strong electric bridge unit in series, and is LED into the power access unit, so that power is supplied to the LED system and the LCD intelligent display screen on the front and the back management area bin doors. The illumination control is independent control, each light source is linked with the opening and closing of each access unit bin door, the opening and closing of each access unit bin door is linked with the opening and closing of a cabinet door of the system, when the cabinet door is opened, the access unit bin door can be linked and opened upwards for 90 degrees, the illuminating lamps on the inner side of the bin door are rotated to the working area of the system cabinet, meanwhile, the illumination switch is triggered to open the light source, and when the cabinet door is closed, the access unit bin door is closed in a linked mode, and the light source is triggered to close by the switch. The lighting lamp and the metal system module frame are connected into the equipotential connection system together. The intelligent display screen hardware is integrated outside the power and network access unit door, the intelligent management system data is led into the door 4.1 from the data wire outlet 4.1.5 on the ladder outer cover 4.1.3 through the network cable, the system software implements unified configuration management on all system cabinets through the core server database and the front end APP client, and a video digital channel special for management is established for the machine room master control center and the system equipment field. The system can display the file codes of the current system cabinet, the current and historical states of the power load of the system cabinet, the front and rear environmental temperature states of the system cabinet and the like in a partition mode on the LCD strip screen, and can also utilize APP to expand other management functions according to user requirements. And in the process of inspection, the machine room pipe transportation personnel can know the relevant information of the operation state of each system cabinet on the site of the machine room without carrying any equipment. The intelligent management system establishes a set of video and audio information channels from the data center master control room to the front-end system cabinet, and provides a hardware platform for function expansion in data center computer room management.

As shown in fig. 11 to 13, the work lighting system is integrated in the system module frame, so that the targeted lighting of the work area is realized, and the illumination standard of the national relevant standard can be met without starting other irrelevant lighting during operation and maintenance, and meanwhile, the power energy can be saved by several times or tens of times. The work lighting system reduces the lighting power consumption, can combine the common lighting and the emergency lighting into a lighting system and is powered by the UPS system, eliminates the illumination difference of the two previous lighting states, and improves the usability of the lighting system. The lighting system adopts a bus mode for power supply, a bus cable path is arranged in the strong electric bridge standard distribution bin, a complex pipeline system does not need to be installed for the lighting system in two states, and meanwhile, the lighting system is controlled to be linked by a switch of a cabinet door and a special lighting switch does not need to be set. The operation and maintenance height of the lighting system is reduced in space, and the operation and maintenance difficulty of the lighting system is also reduced.

As shown in fig. 13, in embodiment 2, an operation and maintenance bin door 3.2.1 is disposed at an opening end of the operation and maintenance bin 3.2, the operation and maintenance bin door 3.2.1 is connected to the system module frame 1 in a controllable rotating manner, a wear strip 3.2.2 is disposed on an outer wall of the operation and maintenance bin door 3.2.1, and the operation and maintenance bin door can be easily opened by touching a friction strip upwards. The operation and maintenance bin gate 3.2.1 covers the first wire arranging mechanism 5 in the system module frame 1. Preferably, as shown in fig. 10 and 17, the first wire arranging mechanism 5 comprises a support rod 5-1, a buckle 5-2 is arranged on the inner wall of the support rod 5-1, the support rod 5-1 is clamped on the system module frame 1 through the buckle 5-2, four support arms 5-3 arranged in parallel are arranged on the outer wall of the support rod 5-1, an arc-shaped wire supporting plate 5-4 is arranged on the support arms 5-3 to form a fishbone-shaped vertical wire arranging frame, a stopper 5-5 is arranged at the outer end of the support arm 5-3, and the stopper 5-5 is positioned outside the arc-shaped wire supporting plate 5-4 to prevent the cable from sliding off the arc-shaped wire supporting plate. First reason line mechanism will be divided into 4 layers of wiring spaces in the fortune dimension storehouse perpendicularly, adopts pipe gallery cable management mode to make each layer, each kind of cable between mutual noninterference, make the cloth of cable put and manage more convenient.

Further, as shown in fig. 16, an upper cover plate 3.1.1 is arranged at an opening of the cable matching bin 3.1, the upper cover plate 3.1.1 is connected with the system module frame 1 in a controllable rotating manner, a second heat dissipation hole 3.1.2 is arranged on the upper cover plate 3.1.1, and the second wire arranging mechanism 6 is covered in the cable matching bin 3.1 by the upper cover plate 3.1.1. Preferably, the second wire arranging mechanism 6 comprises a plurality of wire arranging devices 6.1 which are arranged in parallel in the system module frame 1; namely, a track frame is arranged in a system module frame 1, and a plurality of wire organizers 6.1 which are arranged in parallel are arranged on the track frame 1.1 at intervals; the track frame is equipped with montant 1.3 including the side frame 1.1 that the symmetry set up on the side frame, is equipped with between two side frame frames and connects die-pin 1.2, reason line ware 6.1 with connect die-pin 1.2 and side frame 1.1 joint. The standard distribution bin of the cable standard distribution bin unit is used for distributing trunk cables of a strong current system and a weak current system which are configured according to a planning standard, and the operation and maintenance bin of the operation and maintenance unit is used for distributing branch cables in the local cabinet array and cables which need to be added in the later period.

Preferably, as shown in fig. 9, the wire arranging device 6.1 includes a wire arranging plate 6.1.1, wire arranging grooves 6.1.2 arranged in a cross manner are formed at the upper and lower ends of the wire arranging plate 6.1.1, clamping grooves 6.1.3 are formed at the two ends of the wire arranging plate 6.1.1, the clamping grooves 6.1.3 are clamped with clamping seats 6.1.4 arranged on the inner wall of the system module frame 1, and the cables can be orderly arranged without using auxiliary materials such as wire clamps, wire ties and the like; the groove width of the wire arranging groove 6.1.2 is set according to a line type, the wire arranging device of the wide wire groove is used for arranging power wires (shown in figure 7), the wire arranging device of the narrow wire groove is used for arranging network wires (shown in figure 8), the two ends of the wire arranging plate 6.1.1 are provided with clamping grooves 6.1.3, the clamping grooves 6.1.3 are clamped with clamping seats 6-4-4 arranged on the inner wall of the side frame 6-1-1, the quick installation of the wire arranging device is convenient, various cables in the cabinet are led to be shorter from the bridge frame and are all orderly arranged in the system device, messy cables cannot be seen in a machine room, and the appearance of the cable arranging device is neat and uniform and large. The other structure is the same as embodiment 1.

The intelligent management system establishes a set of video and audio information channels from the data center master control room to the front-end system cabinet, and provides a hardware platform for function expansion in data center computer room management. The electronic label system in the intelligent management system can rapidly configure the label information of the system cabinet. The intelligent management system can display the power configuration load capacity, the historical maximum load capacity and the current load capacity of each system cabinet in a graphical mode in real time, and gives an alarm on site when the early warning value is reached. Meanwhile, the current ambient temperatures of the cold area (front) and the hot area (back) of each system cabinet can be accurately presented, and system alarm and field alarm are carried out when the early warning value is reached.

The system is an open system scheme, on one hand, the configuration requirements of the data center under most conditions can be met, and the system can be compatible with products of equipment manufacturers of various systems. On the other hand, the system has the personalized scheme with the best application effect, and the personalized scheme integrates the system application schemes with higher cost performance in the industry, such as a network pre-termination system, a mother cable power supply system, a positioning lighting system, a digital information interaction system and the like. The utility model discloses make data center computer lab realize through fortune dimension mode, eliminated the cable management mode under the raised floor promptly, also changed in the past the disorderly numerous and diverse outward appearance effect in the sky of system's rack, made data center computer lab system application mode step into a brand-new era.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a data center computer lab auxiliary management system which characterized in that: including system module frame (1), system module frame (1) is from upwards being equipped with access unit (2) and crane span structure unit (3) down in proper order, the middle part of system module frame (1) is equipped with isolation region (10), crane span structure unit (3) are located the both sides of isolation region (10), crane span structure unit (3) are joined in marriage storehouse (3.1) and fortune dimension storehouse (3.2) including the cable mark, fortune dimension is equipped with first reason line mechanism (5) in storehouse (3.2), be equipped with second reason line mechanism (6) in cable mark storehouse (3.1), it has lighting system and intelligent screen system to integrate on access unit (2).

2. The auxiliary management system for the data center machine room as claimed in claim 1, wherein: the system module frame (1) is arranged on the upper portion of the cabinet (100) in an array mode, and an outer side plate (9) is arranged at the outer side end of the system module frame (1) in the array mode.

3. The auxiliary management system for the data center machine room according to claim 1 or 2, characterized in that: access unit (2) is including setting up access unit installing zone (2.1) and access unit management district (2.2) in isolation region (10) both sides, the outside of access unit installing zone (2.1) is access unit management district (2.2), be equipped with in access installing zone (2.1) and fix installation roof beam structure (2.1.1) on system module frame (1), the outside opening part of access unit management district (2.2) is equipped with integrated door (4), access unit management district (2.2) are located fortune dimension storehouse (3.2) below, access installing zone (2.1) are located cable mark and join in marriage storehouse (3.1) below.

4. The auxiliary management system for the data center machine room as claimed in claim 3, wherein: the integrated bin gate (4) comprises an access unit bin gate (4.1), the access unit bin gate (4.1) is rotatably connected with the system module frame (1), and the lighting system and the intelligent screen system are arranged on the access unit bin gate (4.1); insert unit storehouse door (4.1) and include back shroud (4.1.1), curb plate (4.1.2) and ladder dustcoat (4.1.3), curb plate (4.1.2) symmetry sets up the both sides in back shroud (4.1.1), ladder dustcoat (4.1.3) set up the outside in back shroud (4.1.1), be equipped with first louvre (4.1.4) on the middle ladder board of ladder dustcoat (4.1.3), be equipped with data wire hole (4.1.5) on ladder dustcoat (4.1.3), be equipped with camera (4.1.7) on ladder dustcoat (4.1.3).

5. The auxiliary management system for the data center machine room according to claim 4, characterized in that: the lighting system comprises an LED panel lamp (7), the intelligent screen system comprises an LCD display screen (8), the LED panel lamp (7) is arranged on a rear cover plate (4.1.1) through a lamp frame (19), the LCD display screen (8) is arranged on a ladder outer cover (4.1.3), and intelligent screen system control equipment is arranged between the rear cover plate (4.1.1) and the ladder outer cover (4.1.3).

6. The auxiliary management system for the data center machine room of any one of claims 1 to 2 and 4 to 5, wherein the auxiliary management system comprises: fortune dimension storehouse (3.2) open end is equipped with fortune dimension door (3.2.1), and fortune dimension door (3.2.1) is connected with system module frame (1) controllable rotation, is equipped with wear-resisting strip (3.2.2) on the outer wall of fortune dimension door (3.2.1), and fortune dimension door (3.2.1) is with first reason line mechanism (5) shade in fortune dimension storehouse (3.2).

7. The auxiliary management system for the data center machine room according to claim 6, characterized in that: the first wire arranging mechanism (5) comprises a supporting rod (5-1), a buckle (5-2) is arranged on the inner wall of the supporting rod (5-1), the supporting rod (5-1) is connected to the system module frame (1) in a clamped mode through the buckle (5-2), a supporting arm (5-3) is arranged on the outer wall of the supporting rod (5-1), an arc-shaped wire supporting plate (5-4) is arranged on the supporting arm (5-3), a blocking head (5-5) is arranged at the outer end of the supporting arm (5-3), and the blocking head (5-5) is located on the outer side of the arc-shaped wire supporting plate (5-4).

8. The auxiliary management system for the data center machine room of any one of claims 1 to 2, 4 to 5 and 7, wherein: an upper cover plate (3.1.1) is arranged at an opening of the cable standard distribution bin (3.1), the upper cover plate (3.1.1) is connected with the system module frame (1) in a controllable rotating mode, a second heat dissipation hole (3.1.2) is formed in the upper cover plate (3.1.1), and the upper cover plate (3.1.1) covers the second wire arranging mechanism (6) in the cable standard distribution bin (3.1).

9. The auxiliary management system for the data center machine room according to claim 8, wherein: the second wire arranging mechanism (6) comprises a plurality of wire arranging devices (6.1) which are arranged in parallel in the system module frame (1); the wire arranging device (6.1) comprises a wire arranging plate (6.1.1), wire arranging grooves (6.1.2) which are arranged in a cross mode are formed in the upper end and the lower end of the wire arranging plate (6.1.1), clamping grooves (6.1.3) are formed in the two ends of the wire arranging plate (6.1.1), and the clamping grooves (6.1.3) are clamped with clamping seats (6.1.4) arranged on the inner wall of the system module frame (1).

10. The auxiliary management system for the data center machine room of any one of claims 1 to 2, 4 to 5, 7 and 9, wherein the auxiliary management system comprises: the system module frame (1) is made of fireproof materials, and the frame made of the fireproof materials is a magnesium-aluminum composite frame.

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