CN108844187A - Micromodule - Google Patents

Abstract

The present invention relates to technical field of information processing, disclose a kind of micromodule, it includes frame system and the multiple Information and Communication Technology mainframes and the multiple function systems that are arranged in the frame system, wherein the frame system includes at least two layers of frame, every layer of frame is equipped with the Information and Communication Technology mainframe, and the multiple function system at least partly connects the multiple Information and Communication Technology mainframe.The micromodule provided according to the present invention, frame system meet the requirement for being simutaneously arranged at least two layers ICT mainframe, so as to save construction area, reduce construction investment, are more energy-saving and environmentally friendly.

Description

Micromodule

Technical field

The present invention relates to technical field of information processing, more particularly to a kind of data center's micromodule.

Background technique

In the case where cloud computing and big data application promote, Constructing data center has welcome a new upsurge in construction, in face of such as This huge market, conventional data centers are " solid ", lack flexibility and scalability.

Micromodule data center is to data central field to carry out micromodule division according to professional standard, i.e., entire number It is divided into several isolated areas according to center, scale, power termination, the configuration in each region etc. are set according to unified standard Meter.

Since micromodule can be cooperated intelligent managing and control system, be reached the effect of green energy conservation with rapid deployment, built by separate periods Fruit, to bring a series of advantage to micromodule data center.

Be mostly single layer simply connected form however, the micromodule form promoted the use of in the industry at present, large scale deployment compared with To waste land resource.

Summary of the invention

(1) technical problems to be solved

The object of the present invention is to provide a kind of micromodules comprising at least two layers of frame, every layer of frame are used to placement machine Cabinet saves occupied area.

(2) technical solution

In order to solve the above technical problem, the present invention provides a kind of micromodules comprising including frame system and setting In the frame system multiple Information and Communication Technology (Information and Communication Technology, ICT can leave out after finalizing a text in bracket) mainframe and multiple function systems, wherein the frame system includes at least two layers of frame Frame, every layer of frame are equipped with the Information and Communication Technology mainframe, the multiple function system at least partly will be described Multiple Information and Communication Technology mainframe connections.

Preferably, the multiple function system includes air-conditioning system, ventilating system, process system, fire-fighting system, electrical system System, intellectualizing system, power-supply system, wherein be all connected between the process system of the frames, formed at least between two layers Wiring connection；All it is connected between the air-conditioning system of the frames, forms the pipeline connected relation at least between two layers；Whole institutes It states and is connected between the fire-fighting system of frame, form the firefighting warning linkage at least between two layers；All intelligences of the frame It is connected between system, forms data information intercommunication at least between two layers.

Preferably, the air-conditioning system includes：Multiple air-conditionings are arranged in every layer of frame, are located at the multiple letter Between message communication technology mainframe；And water supply system, including air conditioner connecting pipe road, main line and public pipeline, the master Pipeline corresponds to every layer of frame form, the air-conditioning being arranged on every layer of frame by the air conditioner connecting pipe road with it is right The main line of layer is answered to connect, all the main line is connected in parallel to the public pipeline.

Preferably, the corresponding main line of every layer of frame includes at least two water supplying pipes and at least two return water Pipe, each air-conditioning are connect at least two water supplying pipes and at least two return pipes.

Preferably, the frame system includes two layers of frame, the letter of the every layer of frame in first and tail column The outside of message communication technology mainframe forms the passage of heat, is spaced and is formed between the Information and Communication Technology mainframe of adjacent column The bottom of cold passage and the passage of heat, the cold passage and the passage of heat is equipped with floor.

Preferably, the main line is located under the floor of the cold passage of every layer of frame, the public pipeline edge The bottom of frame described in top layer extends, the water supply system further include by the corresponding main line of frame described in bottom with it is described The two sides of the cold passage are arranged in the longitudinally connected pipeline of public piping connection, the longitudinally connected pipeline.

Preferably, the air-conditioning system further includes：Humidification system, the humidification system include：Multiple humidifiers, setting exist In every layer of frame；And humidifying and water supplying pipeline, the multiple humidifier is connect with watering.

Preferably, the public pipeline includes public water supply pipeline, and the humidifying and water supplying pipeline is by the multiple humidifier With the public water supply piping connection.

Preferably, the floor of the cold passage of every layer of frame is equipped with humidifier interface, and the humidifier is located at On the floor of the cold passage, the humidifying and water supplying pipeline is located under the floor of the cold passage, and the humidifier passes through described Humidifier interface and the humidifying and water supplying piping connection.

Preferably, the air-conditioning system further includes：Condensate water discharging system, the condensate water discharging system include：Bottom Catch basin is arranged under the floor of the cold passage in frame described in bottom, the corresponding main line of frame described in bottom It is at least partially disposed in the bottom catch basin；The ground of the cold passage in frame described in top layer is arranged in top layer catch basin Under plate, the corresponding main line of frame described in top layer is at least partially disposed in the top layer catch basin.

Preferably, the floor of the cold passage in frame described in bottom is equipped with the be connected to the bottom catch basin One floor drain and the second floor drain, one end bottom of the top layer catch basin are equipped with groove, and the bottom of the groove is equipped with third floor drain With the 4th floor drain, the condensate water discharging system further includes：Condensate line connects the third floor drain and first floor drain It is logical.

Preferably, the condensate water discharging system further includes：Subset sink, it is positioned at each air-conditioning and each described Below humidifier, and it is connected to the bottom catch basin or the top layer catch basin.

Preferably, the multiple function system further include building system, it is ventilating system, process system, fire-fighting system, electrical It is system, intellectualizing system, at least any in power-supply system.

(3) beneficial effect

The micromodule provided according to the present invention, frame system meet the requirement for being simutaneously arranged at least two layers ICT mainframe, So as to save construction area, construction investment is reduced, is more energy-saving and environmentally friendly.

In a preferred embodiment, the multiple function system includes air-conditioning system, ventilating system, process system, fire-fighting System, electrical system, intellectualizing system, power-supply system, wherein be all connected between the process system of the frame, formed extremely Wiring connection between two layers few；All it is connected between the air-conditioning system of the frames, forms the pipeline at least between two layers and connect Clearance system；All it is connected between the fire-fighting system of the frames, forms the firefighting warning linkage at least between two layers；Described in whole It is connected between the intellectualizing system of frame, forms data information intercommunication at least between two layers.Micromodule of the invention, except in every layer Each section between connect each other except, while further including the interlayer linkage at least between two layers, while saving layout area The management and monitoring that more high concentration is carried out to entire micromodule, improve the efficiency of micromodule.

In a preferred embodiment, the piping connection between at least two layers of micromodule, at least two layers of micromodule be can be realized Air-conditioning overall operation, guarantee ICT mainframe running environment.

In a preferred embodiment, the corresponding main line of every layer of frame includes at least two water supplying pipes and at least two return water Pipe, each air-conditioning are connect at least two water supplying pipes and at least two return pipes.When Single Point of Faliure occurs in water supply system, still It can guarantee the operation of air-conditioning equipment, ensure that the stabilization of micromodule internal environment can satisfy by the reasonable Arrangement of water supply system The air conditioning terminal water demand of micromodule at least twice.

The micromodule provided according to the present invention, air-conditioning system can be that the cabinet of at least two layers micromodule provides and meets its work The temperature and humidity environment being required.Each air-conditioning in micromodule is arranged in parallel at below cold passage for water return pipeline, rationally benefit With the space of micromodule.It is provided with guiding gutter below all pipelines in micromodule, it, can when leakage accident occurs in water pipe Water is carried out to dredge exclusion, leak protection is formed, prevents from damaging micromodule internal unit, to guarantee micromodule equipment Normal operation.

Detailed description of the invention

Fig. 1 shows the structural block diagram of the micromodule of the embodiment of the present invention；

Fig. 2 shows the stereochemical structure block diagrams of the micromodule of the embodiment of the present invention；

Fig. 3 and Fig. 4 shows the perspective view of the frame system of the embodiment of the present invention；

Fig. 5 shows the exploded view of the part-structure of the frame system of the embodiment of the present invention；

Fig. 6 shows the structure of the connecting node of the column and cruciform bracing positioned at frame system corner of the embodiment of the present invention Schematic diagram；

Fig. 7 shows the structure of the connecting node of the column and cruciform bracing positioned at frame system edge of the embodiment of the present invention Schematic diagram；

Fig. 8 shows the structure of the column of the embodiment of the present invention being located inside frame system and the connecting node of cruciform bracing Schematic diagram；

Fig. 9 shows the structural schematic diagram of the first crossbeam prefabricated component of the embodiment of the present invention；

Figure 10 shows the structural schematic diagram of the second cross beam prefabricated component of the embodiment of the present invention；

Figure 11 shows the structural schematic diagram of the third crossbeam prefabricated component of the embodiment of the present invention；

Figure 12 shows the stereogram exploded view of the building system of the embodiment of the present invention；

Figure 13 shows the structural schematic diagram that the preceding sealing plate of the building system of the embodiment of the present invention is connect with frame system；

Figure 14 shows the structural schematic diagram of the top cover of the building system of the embodiment of the present invention；

Figure 15 shows the internal plane of the bottom air-conditioning system of the embodiment of the present invention；

Figure 16 shows the internal plane of the non-bottom air-conditioning system of the embodiment of the present invention；

Figure 17 shows the external front view of the air-conditioning system of the embodiment of the present invention；

Figure 18 shows the water supply system axonometric schematic diagram of the air-conditioning system of the embodiment of the present invention；

Figure 19 shows the internal plane of the bottom humidification system of the air-conditioning system of the embodiment of the present invention；

Figure 20 shows the internal plane of the humidification system of the non-bottom air-conditioning system of the embodiment of the present invention；

Figure 21 shows the structural schematic diagram of the condensate water discharging system of the embodiment of the present invention；

Figure 22 shows the inner plane structure chart of the ventilating system of the embodiment of the present invention；

Figure 23 shows the external forward sight structure chart of the ventilating system of the embodiment of the present invention；

Figure 24 show the ventilating system of the embodiment of the present invention along Figure 22 A-A to sectional view；

Figure 25 shows the sectional view of ventilating system B-B direction along Figure 22 of the embodiment of the present invention；

Figure 26 show the ventilating system of the embodiment of the present invention along Figure 22 C-C to sectional view；

Figure 27 shows the power supply structure schematic diagram of the control cabinet of the embodiment of the present invention；

Figure 28 shows the layout structure figure of the bottom of the micromodule of the embodiment of the present invention；

Figure 29 shows the layout structure figure of the non-bottom of the micromodule of the embodiment of the present invention.

Specific embodiment

With reference to the accompanying drawings and examples, specific embodiments of the present invention will be described in further detail.Following instance For illustrating the present invention, but it is not intended to limit the scope of the invention.

In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " installation ", " phase Even ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or be integrally connected；It can To be mechanical connection, it is also possible to be electrically connected；It can be directly connected, can also can be indirectly connected through an intermediary Connection inside two elements.For the ordinary skill in the art, above-mentioned term can be understood at this with concrete condition Concrete meaning in invention.

The present invention relates to a kind of micromodule, by splicing and combining or independent operating, the function of data center is realized, Fig. 1 shows The structural block diagram of the micromodule of the embodiment of the present invention out, micromodule of the present invention include that frame system 100 and setting exist Multiple Information and Communication Technology (Information and Communication Technology, ICT) in frame system 100 Mainframe 210 and multiple function systems can also include the building system 300 being arranged in outside frame system 100, wherein more A function system may include air-conditioning system 400, ventilating system 500, process system 600, fire-fighting system 700, electrical system 800, intellectualizing system 900, power-supply system 1000 etc..

ICT mainframe 210 is used for information processing, is the core of micromodule, frame system 100 can be ICT mainframe 210 and internal multiple function systems, exterior building system 300 bearing frame is provided.Building system 300 is internal frame ICT mainframe 210, multiple function systems in system 100 and frame system 100 provide periphery protection structure.Power-supply system 1000 provide the power supply plan inside micromodule.Process system 600 is ICT mainframe 210, other function system provides wiring cloth Office's scheme.800 air-conditioning distribution of electrical system and illumination scheme.Intellectualizing system 900 provides monitoring and Managed Solution.Air-conditioning system System 400 is to provide refrigeration and adding humidity project inside micromodule.Ventilating system 500 is to provide ventilation scheme inside micromodule.Disappear Anti- system 700 is for guaranteeing security against fire inside micromodule.

Fig. 2 shows the stereochemical structure block diagram of the micromodule of the embodiment of the present invention, micromodule of the invention is equipped at least two layers, It include at least two layers of frame, every layer is equipped with ICT mainframe 210, wherein including herein with the frame system of micromodule 100 Bottom frame L1 and top layer frame L2 on bottom frame is illustrated for two layers totally, and practical includes three layers, four layers etc. The micromodule structure of multistory frame is similar.In the present embodiment, frame system 100 is used to provide load-bearing protection for every layer of micromodule, Building system 300 provides peripheral protection for every layer of micromodule.Every layer of micromodule include ICT mainframe 210, air-conditioning system 400, Ventilating system 500, process system 600, fire-fighting system 700, electrical system 800, intellectualizing system 900, power-supply system 1000, Connection structure in top layer frame L2 between each component is only shown, the connection structure in bottom frame L1 is similar therewith in Fig. 2.? In every layer of micromodule, it is the core of micromodule, power-supply system 1000, process system that ICT mainframe 210, which is used for information processing, 600, air-conditioning system 400, ventilating system 500, intellectualizing system 900 are connect with ICT mainframe 210, wherein power-supply system 1000 for providing power supply plan for it, and process system 600 provides distributing scheme for it, and air-conditioning system 400 provides for it Refrigeration and adding humidity project, ventilating system 500 provide ventilation scheme for it.Intellectualizing system 900 and ICT mainframe 210, sky Adjusting system 400, ventilating system 500, electrical system 800, fire-fighting system 700 are separately connected, for being monitored to each section or Monitoring.

In addition, in the present embodiment, the process system in process system 600 and top layer frame L2 in bottom frame L1 It is connected between 600, forms the wiring connection at least between two layers.Air-conditioning system 400 and top layer frame L2 in bottom frame L1 It is connected between interior air-conditioning system 400, forms the pipeline connected relation at least between two layers.Fire-fighting system in bottom frame L1 It is connected between 700 and the fire-fighting system 700 in top layer frame L2, forms the firefighting warning linkage at least between two layers.Bottom frame Intellectualizing system 900 in frame L1 and it is connected between the intellectualizing system 900 in top layer frame L2, is formed at least between two layers Data information intercommunication.

Micromodule of the invention, in addition to being connected each other between each section in every layer, while further include at least two layers it Between interlayer linkage, save layout area while to entire micromodule carry out more high concentration management and monitoring, improve it is micro- The efficiency of module.

Frame system 100 is described in detail below.

Fig. 3 and Fig. 4 shows the perspective view of the frame system of the embodiment of the present invention, wherein also shows in Fig. 4 except frame system The other parts of the outer micromodule of system, Fig. 5 show the exploded view of the part-structure of the frame system of the embodiment of the present invention.

In embodiments of the present invention, frame system 100 includes at least two layers of frame, and every layer of frame is equipped with ICT mainframe 210, some or all of multiple function systems connect multiple ICT mainframes 210.Since frame system 100 of the invention is full Foot is simutaneously arranged the requirement of at least two layers ICT mainframe 210, so as to save construction area, reduces construction investment, more Energy conservation and environmental protection.

Frame system 100 is by upright of frame 110, cruciform bracing 120, multiple pedestal prefabricated components 130 and multiple links Beam 140 is spliced to form, and wherein upright of frame 110 and cruciform bracing 120 are interconnected to form the outer profile of at least two layers frame, Multiple pedestal prefabricated components 130 are connected between the cruciform bracing 120 of every layer of base of frame by multiple linking beams 140, form frame Frame pedestal, upright of frame 110 are additionally attached between the frame base of every layer of frame and the cruciform bracing 120 at top.

At least two column cabinet rest areas are set in every layer of frame, and cabinet rest area can be placed including ICT mainframe 210 A variety of cabinets 200 inside.Every layer of frame forms the passage of heat 150 in the outside of 200 rest area of cabinet of first and tail column, Interval forms cold passage 160 and the passage of heat 150 between the cabinet rest area of adjacent column.

It, again can be in every layer it should be noted that the frame system 100 of the micromodule in the present invention can be set to multilayer Multiple row cabinet 200 is accommodated, herein, includes two layers with micromodule, is illustrated for every layer of 4 column cabinet 200 of receiving, wherein It will include adjacent two column cabinet 200 and corresponding multiple functions in micromodule herein again as unit of adjacent two column cabinet 200 The structural unit of system is known as submodule, therefore above-mentioned example micromodule structure is equivalent to again including two layers, and every layer includes two Submodule, above-mentioned totally 4 submodules are connected with each other, obtain a kind of using the double-deck duplex as the micromodule of basic structural unit.Other The different numbers of plies, the micromodule principle of every layer of different cabinet numbers are similar, repeat no more.

Fig. 6 to Fig. 8 shows the structural schematic diagram of the connecting node of three kinds of upright of frame 110 and cruciform bracing 120, wherein scheming 6 show the connecting node of the column and cruciform bracing 120 positioned at 100 corner of frame system, and Fig. 7 is shown positioned at frame system 100 The column of edge and the connecting node of cruciform bracing 120, Fig. 8 show column and cruciform bracing inside frame system 100 120 connecting node.

Cruciform bracing 120 can be spliced to form by a variety of crossbeam prefabricated components, and many of crossbeam prefabricated component includes following In any at least one：First crossbeam prefabricated component, second cross beam prefabricated component, third crossbeam prefabricated component.Fig. 9 to Figure 11 shows respectively The structural schematic diagram of first crossbeam prefabricated component 120a, second cross beam prefabricated component 120b, third crossbeam prefabricated component 120c out, wherein the One crossbeam prefabricated component 120a length is corresponding with the width of the passage of heat 150；Second cross beam prefabricated component 120b length and cabinet rest area Width it is corresponding；Third crossbeam prefabricated component 120c length is corresponding with the width of cold passage 160.First crossbeam prefabricated component 120a, Two crossbeam prefabricated component 120b, third crossbeam prefabricated component 120c include two crossbeam units 121 being parallel to each other and connection two At least one stringer unit 122 of a crossbeam unit 121, first crossbeam prefabricated component 120a, second cross beam prefabricated component 120b, third The length of the crossbeam unit 121 of crossbeam prefabricated component 120c respectively corresponds the width, cold of the width of the passage of heat 150, cabinet rest area The width in channel 160, and the quantity of stringer unit 122 can be one, two, three or more.In addition, a variety of crossbeams are pre- Product can be not limited to above-mentioned three kinds, such as can also include the 4th crossbeam prefabricated component, the 5th crossbeam prefabricated component, and the 4th crossbeam is pre- Product and the 5th crossbeam prefabricated component are combined with each other, and total length is corresponding with the length of the passage of heat 150.

Pedestal prefabricated component 130 includes two layers of horizontal frame being parallel to each other and the vertical pole for connecting two layers of horizontal frame, and horizontal frame includes phase Mutually the multiple second horizontal grid beams of two the first horizontal grid beams of two parallel the first horizontal grid beams and connection.Above-mentioned includes a variety of parallel The pedestal prefabricated component 130 of structure has stronger anti-seismic performance, and the width of pedestal prefabricated component 130 can be with the width of cabinet rest area Degree corresponds to, and for the bottom structure as cabinet rest area, provides anti-seismic performance for cabinet.

The structural member of frame system 100, including upright of frame 110, cruciform bracing 120, pedestal prefabricated component 130, linking beam 140 etc. can use sheet metal structural without using fashioned iron, and each structural member can use the steel plate bending of same thickness, cutting, punching Equal processing are formed, to be more advantageous to Product Assembly.The section of upright of frame 110, cruciform bracing 120 etc. can be rectangle, side Shape, flute profile, H-shaped etc., upright of frame 110, linking beam 140 etc. are standard universal part, above-mentioned a variety of crossbeam prefabricated components and pedestal Prefabricated component 130 is the factory's weldment completed, and in building in scene for frame system 100, upright of frame 110, frame are horizontal Beam 120 (including a variety of crossbeam prefabricated components), pedestal prefabricated component 130, the node between linking beam 140 are connected by screw bolts.The frame Frame system 100 can combine standardization and assembling in its production and installation, realize the factorial production, scene is quickly Assembly, reduces the construction period, reduces project cost, reach energy-saving and environment-friendly purpose.

Modular assembly and layering assembly two ways can be used in building for the frame system 100 of the present embodiment.The mould It is with four upright of frame 110 for a variety of crossbeam prefabricated components of unit fit on, pedestal prefabricated component 130 and linking beam that block makeup, which is matched, 140, a frame unit is obtained, it is again that each frame unit is assembled even by a variety of crossbeam prefabricated components, linking beam 140 etc. later It is connected into overall structure.The layering assembly is to position all upright of frame 110 to complete simultaneously, and the assembled a variety of crossbeams of layering are prefabricated It is assembled to complete overall structure from bottom to top until top layer completes for part, pedestal prefabricated component 130 and linking beam 140.Entire frame Superstructure can be fixed in ground base by system 100 by pre-embedded bolt or using chemical anchor bolts.

According to the micromodule of the present embodiment, 100 self-contained structural system of frame system, can meet alone at least two layers of cabinet with And load-bearing and the shockproof requirements of function system, while also it is contemplated that the advantageous effect of cabinet, first splices frame system 100, then pacify Installation cabinet, reduces the cost of frame structure.

Building system 300 will be described in detail below.

Figure 12 shows the stereogram exploded view of the building system of the embodiment of the present invention, in embodiments of the present invention, building system 300 include preceding sealing plate 310, rear sealing plate 320, side seal board 330 and top cover 340.Wherein, preceding sealing plate 310 is attached at frame The front side of frame system 100, rear sealing plate 320 are attached at the rear side of frame system 100, and side seal board 330 is attached at frame system 100 Two sides between front side and rear side, the top of 340 covering framework system 100 of top cover.

In addition, the building system 300 of the present embodiment further includes pedestal sealing plate and base plate.Pedestal sealing plate is attached at bottom The surrounding of the frame base of the layer frame, base plate are attached at the bottom of the frame base of frame described in bottom Portion.

The structural schematic diagram that is connect with frame system 100 of sealing plate 310 before Figure 13 is shown, rear sealing plate 320, side seal board 330, Pedestal sealing plate and base plate and the structure connected of frame system 100 are similar therewith, and Figure 14 shows the knot of top cover 340 Structure schematic diagram.Above-mentioned preceding sealing plate 310, rear sealing plate 320, side seal board 330, top cover 340, pedestal sealing plate and base plate It include folded edges 301 and thermal insulation layer 302.Folded edges 301 with frame system 100 for connecting, before thermal insulation layer 302 is located at Sealing plate 310, rear sealing plate 320, side seal board 330, top cover 340 pedestal sealing plate, base plate frame oriented system 100 Side.

Preceding sealing plate 310, rear sealing plate 320, side seal board 330, top cover 340, pedestal sealing plate and base plate To be formed by plurality of plates unit spliced, such as Figure 13, preceding sealing plate 310, rear sealing plate 320, side seal board 330, pedestal sealing plate and bottom The folded edges 301 of seat bottom plate are, for example, Z-shaped folded edges, and the gap between adjacent plate unit can paste fire prevention EVA sealing Item 308.Such as Figure 14, the folded edges 301 of top cover 340 are, for example, U-shaped folded edges, the bottom of U shape folded edges Paste EVA sealing strip.

Access door 303 is arranged in the corresponding each cold passage 160 of preceding sealing plate 310, and the corresponding each passage of heat 150 of preceding sealing plate 310 is set Set passage of heat entrance 304.Access door 303 is arranged in each cold passage 160 of the corresponding bottom frame of sealing plate 320 afterwards, and rear sealing plate 320 is right Answer each passage of heat 150 of bottom frame that passage of heat entrance 304 is set.

Preceding sealing plate 310, rear sealing plate 320, side seal board 330, top cover 340, pedestal sealing plate, base plate can use The frame structure galvanized steel plain sheet of fold type designs in conjunction with aluminium foil polyurethane (PU) heat-barrier material, steel plate thickness 1.5mm, heat-barrier material Thickness 20mm pastes aluminium foil polyurethane (PU) towards the side of frame system 100 in steel plate and forms thermal insulation layer 302.Thermal insulation layer 302 Towards the attached glue processing of a face gross area of steel plate, to support to paste.Above structure increase each sealing plate, covering, bottom plate it is heat-insulated And leakproofness, make mechanical floor that there is good heat-insulating capability, prevents micromodule from generating moisture condensation due to internal-external temperature difference.

The pedestal of bottom frame is seamlessly connected using adjustable coffer with computer room floor or bottom surface, to reach Module sealing, the requirement of protection against rodents worm.

Each 2,160 access step step of micromodule product standard configuration cold passage, using anti-skid design steel plate, plate is thick Degree is not less than 3mm.Step designs for two-level configuration, and step projection size is 1300mm (width) × 400mm (depth), and step height is 450mm.High fine-tuning function is supported in step structure design, supports to be fastenedly connected with the pedestal of bottom frame.

In the top of the pedestal of bottom frame, building system 300 can also go along with sb. to guard him the passage of heat 150, specifically Ground, passage of heat entrance 304 are arranged passage of heat door, passage of heat bottom plate, passage of heat top plate, passage of heat door, side are arranged in the passage of heat 150 Passage of heat building enclosure is collectively formed in sealing plate 330, passage of heat bottom plate, passage of heat top plate.The passage of heat goes along with sb. to guard him sealing components installation After fully meet insulation, closed, sealing, dust-proof, waterproof, resist low earthquake intensity impact capacity.Structure integral protection grade is not low It is airtight 6 grades (except access doors 303) in IP44,8 degree of seismic intensity.

Passage of heat building enclosure uses 1.5mm thickness galvanized steel plain sheet fold type framework design, and it is poly- that aluminium foil is pasted in inside Urethane (PU) heat-barrier material, material thickness 10mm.Heat-insulated, closed requirement is realized after being installed.Passage of heat door uses 1.5mm Galvanized steel plain sheet fold type framework design, installs mechanical crank handle lock, and upper and lower two o'clock Tiandi lock structurally-fixed mode increases logical The airtightness at sect 303.Fire prevention EVA sealing strip is pasted at passage of heat door and contact therewith position, reaches sealing, dust-proof effect, heat Paste the design of aluminium foil polyurethane (PU) heat-barrier material on the inside of access door, have heat insulating function, thus realize heat preservation, it is heat-insulated, seal, Dust-proof effect.Passage of heat door is designed using embedded structure, is used convenient for the switch of internal cabinet maintenance door.Passage of heat top plate is adopted With 1.5mm galvanized steel plain sheet fold type framework design, using the tool-free maintenance of buckle-type, passage of heat top plate and contact therewith portion Fire prevention EVA sealing strip is pasted in position, reaches sealing, dust-proof effect.Passage of heat bottom plate uses 1.5mm galvanized steel plain sheet fold type frame knot Structure design, is fixed by bolts mode, realizes the airtightness in channel.It is heat-insulated that passage of heat bottom base plate pastes aluminium foil polyurethane (PU) Design of material has heat insulating function, to realize heat preservation, heat-insulated, sealing, dust-proof effect.

The access door 303 that corresponding cold passage 160 is arranged also is sealed, and the structure of one of access door 303 designs branch The installation of access control system component is held, as normal channel door 303, another access door 303 configures mechanical escape control door lock, makees For emergency exits.Access door 303 configures door closer, and access door 303 can be double door, the door of frame system 100, access door 303 Be sealing, waterproofing design between frame, access door 303, access door 303 close after without visible gap, between two fan doors, Men Yumen It is sealed between lintel, between 160 floor of door and cold passage by flexible material, short transverse needs to consider that project installation deviation causes Gap, can be adjusted by the mounting height of fine tuning lintel and door because of gap caused by installation error.

Braced frame can be set in the top of frame system 100, and the top covering component of micromodule specifically can be by supporting The structural members composition such as frame, top cover 340, each sealing plate and access door or maintenance door.The support frame of top cover layer Frame uses 2.0mm galvanized steel plain sheet fold type Frame Design.Top cover 340 uses the U-shaped folded edges of 1.5mm galvanized steel plain sheet Fire prevention EVA sealing strip, internal mating capillary groove and fire prevention EVA sealing strip overlap joint are pasted in 301 designs, U-shaped 301 bottom of folded edges It realizes that module is dust-proof, function of waterproof in conjunction with, integrated design structure, integrally reaches the requirement of IP44 degree of protection.We Case guarantees the waterproof effect of top surface by U-shaped flanging assembling scheme, by the stickup of metal plate and aluminium foil polyurethane, guarantees top surface Heat insulation effect.

Top covers the access door of component or maintenance door is processed using high-quality galvanized steel plain sheet, and structure is handle buckle mounting means Design, tool-free demolition, installation increase the convenient enclosure top cable in the future of mounting condition along wire casing and lay operation and maintenance.

Air-conditioning system 400 is described in detail below.

Figure 15 and Figure 16 show the internal planes of the air-conditioning system of the embodiment of the present invention, and wherein Figure 15 shows bottom sky The internal plane of adjusting system, Figure 16 show the internal plane of non-bottom air-conditioning system.Air-conditioning system 400 includes air-conditioning 410 And water supply system, Figure 17 show the external front view of the air-conditioning system of the embodiment of the present invention, Figure 18 shows the embodiment of the present invention Air-conditioning system water supply system axonometric schematic diagram.At least one air-conditioning 410 is set in every layer of frame, and the present embodiment includes every The multiple air-conditionings 410 of setting in layer frame, multiple air-conditionings 410 are between multiple ICT mainframes 210.Water supply system includes air-conditioning Connecting line 421, main line 422 and public pipeline 423, main line 422 correspond to every layer of frame form, are arranged on every layer of frame Air-conditioning 410 connect with the main line 422 of respective layer by air conditioner connecting pipe road 421, whole main lines 422 are connected in parallel to public affairs Condominium road 423.

In the present embodiment, public pipeline 423 include public water supply pipeline 423a and public water return pipeline 423b, every layer The corresponding main line 422 of frame includes at least two water supplying pipe 422a and at least two return pipe 422b, water supplying pipe 422a and public affairs Water supply pipe 423a connection altogether, return pipe 422b are connect with public water return pipeline 423b.It is preferred that each air-conditioning 410 and at least two A water supplying pipe 422a and at least two return pipe 422b connections.When Single Point of Faliure occurs in water supply system, air-conditioning is still ensured that The operation of 410 equipment ensures that the stabilization of micromodule internal environment can satisfy at least two by the reasonable Arrangement of water supply system The 410 end water demand of air-conditioning of secondary micromodule.

The frame system 100 of the present embodiment includes two layers of frame, ICT mainframe 210 of the every layer of frame in first and tail column Outside formed the passage of heat 150, between the ICT mainframe 210 of adjacent column interval form cold passage 160 and the passage of heat 150, it is cold Channel 160 and the bottom of the passage of heat 150 are equipped with floor.Main line 422 is located under the floor of the cold passage 160 of every layer of frame, Public pipeline 423 extends along the bottom of top layer frame, and water supply system further includes by the corresponding main line 422 of bottom frame and public affairs The two sides of cold passage 160 are arranged in the longitudinally connected pipeline 424 that condominium road 423 connects, longitudinally connected pipeline 424.In air-conditioning system Control valve can be equipped at each line branching node of system 400.

In addition, air-conditioning system 400 can also include humidification system, Figure 19 and Figure 20 show the air-conditioning system of the embodiment of the present invention The internal plane of the humidification system of system, wherein Figure 19 shows the internal plane of bottom humidification system, and Figure 20 shows non-bottom The internal plane of humidification system.Humidification system includes humidifier 431 and humidifying and water supplying pipeline 432.Setting in every layer of frame At least one humidifier 431, the interior multiple humidifiers 431 of setting of every layer of frame that the present embodiment includes.Humidifying and water supplying pipeline 432, Multiple humidifiers 431 are connect with watering.

In the present embodiment, public pipeline 423 includes public water supply pipeline 423a and public water return pipeline 423b, and humidification supplies Multiple humidifiers 431 are connect by water lines 432 with public water supply pipeline 423a.

Humidifier interface can be equipped on the floor of every layer of frame, humidifier 431 is located on floor, humidifying and water supplying pipeline 432 are located under floor, and humidifier 431 is connect by humidifier interface with humidifying and water supplying pipeline 432.

Air-conditioning system 400 can also include condensate water discharging system, and Figure 21 shows the condensate water discharging of the embodiment of the present invention The structural schematic diagram of system, condensate water discharging system include bottom catch basin 441 and top layer catch basin 442, bottom catch basin 441 are arranged under the floor of the cold passage 160 in bottom frame, and the corresponding main line 422 of bottom frame is at least partially disposed at bottom In layer catch basin 441.Top layer catch basin 442 is arranged under the floor of the cold passage 160 in top layer frame, and top layer frame is corresponding Main line 422 be at least partially disposed in top layer catch basin 442.Condensate water discharging system can also include condensate line 443, Bottom catch basin 441 is connected to by it with bottom catch basin 441.On the floor of cold passage 160 in bottom frame and bottom collection Several floor drains 444 can be set inside sink 441, top layer catch basin 442, on floor and the draining of each catch basin.It is cold Condensate drainage system can also include subset sink 445, and subset sink 445 is located at each air-conditioning 410 and each humidifier 431 Lower section, and be connected to bottom catch basin 441 or top layer catch basin 442.

The air-conditioning system 400 of the embodiment of the present invention, can be realized the piping connection between at least two layers of micromodule, and at least two The air-conditioning overall operation of layer micromodule can be that the cabinet of at least two layers micromodule provides the temperature for meeting its job requirement and wet Spend environment.Each air-conditioning 410 in micromodule is arranged in parallel at 160 lower section of cold passage for water return pipeline, rationally utilizes micromodule Space.It is provided with guiding gutter below all pipelines in micromodule, when leakage accident occurs in water pipe, water can be dredged Guide removes, and forms leak protection, prevents from damaging micromodule internal unit, to guarantee the normal fortune of micromodule equipment Row.

Ventilating system 500 is described in detail below.

Figure 22 shows the inner plane structure chart of the ventilating system of the embodiment of the present invention, and Figure 23 shows the embodiment of the present invention The external forward sight structure chart of ventilating system, Figure 24 to Figure 26 be shown respectively ventilating system along Figure 22 A-A to, B-B direction, C-C to Sectional view.Ventilating system 500 includes vent cabinet 510 and exhaust system, and wherein vent cabinet 510 leads to through whole frames The wall surface of wind cabinet 510 is equipped with first interface 511.Exhaust system includes exhaust outlet 521 and gas exhaust piping 522, every layer of frame At least one exhaust outlet 521 is equipped in frame, gas exhaust piping 522 is connected to whole exhaust outlets 521, and penetrates vent cabinet 510, is led to First interface 511 is crossed to be in communication with the outside.

Further, second interface 512 is additionally provided on the wall surface of vent cabinet 510, ventilating system 500 further includes air-supply system System, supply air system include air outlet 531 and air supply pipeline 532, at least one air outlet 531, air-supply are equipped in every layer of frame Pipeline 532 is connected to whole air outlets 531, and penetrates vent cabinet 510, is in communication with the outside by second interface 512.

In the present embodiment, vent cabinet 510 is equipped with maintenance door 540 towards the side of every layer of cold passage 160, and exhaust outlet 521 is set It sets in the bottom of cold passage 160, the top of the passage of heat 150 is arranged in air outlet 531.Gas exhaust piping 522 is in first interface 511 Place is equipped with the first fire resisting damper, and air supply pipeline 532 is equipped with the second fire resisting damper and regulating valve at second interface 512.Preferably, The top sidewall of vent cabinet 510 is arranged in one interface 511 and second interface 512, thus easy to exhaust pipeline 522, air supply pipeline 532 are connected to the extraneous pipeline being arranged at the top of micromodule.

Ventilating system 500 according to an embodiment of the present invention, laboratory hood is through whole frames, convenient for the cloth of ventilation shaft It sets, facilitates the micromodule for adapting to multistory frame integrally to divulge information, especially the outlet of fire-fighting tail gas, also, reduce outside micromodule Pipeline arrangement, keeps entire data center's pipeline more succinct.The vent cabinet 510 and surrounding space are separated by partition, thus with micro- Other space isolation in module.Ventilating system 500 further includes supply air system, fully ensures that the positive pressure in micromodule, can be reached Higher ventilation requirement.Furthermore maintenance door 540, the convenient maintenance to 510 interior conduit of vent cabinet can be set in vent cabinet 510.

Process system 600 is described in detail below.The present embodiment is carried out by taking the micromodule of the double-deck double structure as an example Explanation comprising two submodules of two submodules of bottom and top layer, each submodule of bottom are " 22-RACK " mode, that is, are wrapped 22 ICT mainframes 210 are included, it includes 21 ICT equipment cabinets, micromodule is total that each submodule of top layer, which is " 21-RACK " mode, It altogether include 86 ICT mainframes 210, cabinet dimensions use 2200 × 1200 × 600mm standard size, average single ICT host Cabinet 210 runs power consumption and considers according to 5kW.

1000mm wide screen lattice chute is set at 200mm above cabinet, and centre is separated out three using two pieces of moveable bulkheads Conduit, is successively power supply conduit, light current conduit, optical fiber channel from cold passage 160 to 150 direction of the passage of heat, and conduit designs width It is respectively：Power supply conduit 300mm, light current conduit 300mm, optical fiber channel 400mm, it is subsequent to pass through tune according to actual use situation The width accounting of three classes conduit is adjusted flexibly in whole partition position.It is can be set in micromodule across cold passage 160 and across the passage of heat 150 Chute, for bridging chute above cabinet, position is at micromodule both ends.

Fire-fighting system 700 is described in detail below.Fire-fighting system 700 is gone out using gas in the micromodule of the present embodiment Fiery system.Because heptafluoro-propane medicament has good fire-fighting efficiency, effect is good, blow-off velocity is fast, and extinguishing concentration (8-10%) is low, So selecting cabinet type prefabricated heptafluoro-propane gas as fire hydrant cabinet 270 in this micromodule.270 radius of protection of fire hydrant cabinet is 7.5 meters, Protection height is not preferably greater than 6.5 meters.4 groups of 90L fire hydrant cabinets 270 are set in the duplex bilayer micromodule of the present embodiment, according to upper and lower Two layers respectively as two zone of protections by the design of total flooding fire-fighting mode, bottom setting 2, top layer setting 2, prefabrication system Design work pressure 2.5MPa, extinction using gas design concentration are 8%, injecting time t≤8s.Each fire hydrant cabinet 270 is respectively arranged In micromodule middle position, according to the volume of guard plot and area dispersed placement, two spray heads are arranged in each fire hydrant cabinet 270. When carrying out fire-fighting fire extinguishing, fire hydrant cabinet 270 spurts gas simultaneously to cold and hot channel respectively, while carrying out fire-fighting link, opens protection Opening in area in addition to pressure relief opening, opens simultaneously skylight, entire can make in defined blowdown time when guaranteeing kindling Gas when guard plot can reach fire extinguishing as early as possible goes out concentration.Each 270 size of fire hydrant cabinet is within the scope of 600 × 500 × 1900mm (devices from different manufacturers size is slightly different) stores medicament maximum 103kg.Fire hydrant cabinet 270, which is equipped with, to be automatically controlled, manually controls two Kind Starting mode.Special-purpose air respirator can be configured outside micromodule and computer room.

Fire-fighting system 700 further includes electric fire-control system, and electric fire-control system includes pole early alert system equipment, fire extinguishing Control equipment, automatic fire alarm interlocking equipment etc..Wherein, pole advance warning equipment is mainly micromodule in the pole of fire early stage Alarming and managing is provided.Fire extinguishing control equipment is gas extinguishing control equipment, and major function is control in the event of fire Fire is eliminated without network gas fire-extinguishing system in micromodule.Automatic fire alarm interlocking equipment is mainly to provide to disappear in micromodule Anti- linkage and control, the final security against fire for realizing micromodule.

Power-supply system 1000 is described in detail below.In the micromodule of the present embodiment, each submodule is according to ICT master Independent power subsystem is arranged in 210 load of cabinet, and 4 sets of power subsystems are arranged in the micromodule of the double-deck double structure altogether.Each The design of simply connected micromodule power subsystem adds the equipping rules of uninterruptible power supply all the way based on alternating current all the way, while by adjusting The redundancy of uninterruptible power supply power or rectification module adapts to different grades of demand.It is above-mentioned when being configured with to uninterruptible power supply When requirement except principle, it can pass through and adjust ICT mainframe 210, flexibly be adapted to.

Based on 210 workload demand of ICT mainframe that previous process system 600 provides, each simply connected micromodule power supply subsystem It is altogether made of 4 600mm × 1200mm × 2200mm standard cabinet, wherein 1 station power distribution cabinet, 220,1 uninterruptible power supply cabinets 230,2 battery cupboards 240, three is electrically connected to each other.

About uninterruptible power supply cabinet 230, when ICT mainframe 210 is powered using AC power source, design communication is uninterruptedly electric Source (UPS) capacity is 200kVA, ensures grade (A, B grades) according to the product and micromodule of power-supply device producer in practical application Different flexible configuration power module quantity.When ICT mainframe 210 is powered using DC power supply (336V, 240V), direct current is designed Uninterruptible power supply (HVDC) capacity is 180kW.Separate unit uninterruptible power supply cabinet 230 is having a size of 600mm × 1200mm × 2200mm.

240 capacity of single battery cabinet is designed when ICT mainframe 210 is powered using AC power source about battery cupboard 240 For 84.48kW (32 440W, 12V, 15min high power lead-acid batteries of configuration, 8112 voltage rating 384V of battery pack).Work as ICT When mainframe 210 is powered using DC power supply (336V, 240V), design 240 capacity of single battery cabinet is 92.4kW (configuration 28 550W, 12V, 15min high power lead-acid battery, 8112 voltage rating 336V of battery pack) or 84kW (20 700W of configuration, 12V, 15min high power lead-acid battery, 8112 voltage rating 240V of battery pack).Each submodule configures 2 battery cupboards 240, Separate unit battery cupboard 240 is having a size of 600mm × 1200mm × 2200mm.

About power distribution cabinet 220, power supply mode adds uninterruptible power supply is mixed all the way to supply using alternating current all the way, designs power distribution cabinet 220 Capacity is 400A, and 220 internal physical of power distribution cabinet is divided into two 600mm wide separate portions, respectively as alternating current distribution region and Uninterruptible power supply distribution region.Separate unit power distribution cabinet 220 is having a size of 1200mm × 600mm × 2200mm.

Since micromodule further includes the humidification cabinet 260 and headlamp being arranged in frame system 100, alternating current passes through mutual Power distribution cabinet 220, uninterruptible power supply cabinet 230 and the battery cupboard 240 and ICT mainframe 210 of electrical connection humidify cabinet 260 and shine Bright lamp electrical connection, and direct current supply or direct current supply are switched by power distribution cabinet 220.

Electrical system 800 is described in detail below.In the micromodule of the present embodiment, each submodule is equipped with a pipe Control cabinet.

Figure 27 shows the power supply structure schematic diagram of the control cabinet 810 of the embodiment of the present invention, and control cabinet 810 includes Power entry module 811, Power entry module 811 includes the uninterruptible power supply unit 8111 being electrically connected to each other and battery pack 8112, uninterruptible power supply unit 8111 are electrically connected with the air-conditioning cabinet 250 outside control cabinet 810.Power entry module 811 further includes change-over switch 8113, uninterruptible power supply list Member 8111 is electrically connected by change-over switch 8113 with air-conditioning cabinet 250, and control cabinet 810 accesses first via alternating current, first via alternating current It is electrically connected by change-over switch 8113 with air-conditioning cabinet 250, change-over switch 8113 is used to switch the power supply mode to air-conditioning cabinet 250.

Managing cabinet 810 further includes weak current equipment 812, and uninterruptible power supply unit 8111 is electrically connected with weak current equipment 812.This Weak current equipment 812 includes interchanger 8121, access controller 8122, acquisition server 8123, Fire extinguisher in embodiment 8124, fire protection warning host 8125, smoke detector host 8126, practical as needed, weak current equipment may include above-mentioned column At least one of lift.

Power entry module 811 further includes main breaker and divides breaker, and main breaker setting is opened in first via alternating current with conversion Close 8113 between, divide breaker be arranged between change-over switch 8113 and air-conditioning cabinet 250 and uninterruptible power supply unit 8111 with Between weak current equipment 812.

In the micromodule of embodiment, power distribution cabinet 220, uninterruptible power supply cabinet 230, battery cupboard 240 are electrically connected to each other, pipe It controls cabinet 810 and accesses first via alternating current, power distribution cabinet accesses the second road alternating current.Second road alternating current passes through power distribution cabinet 220 and ICT mainframe 210 and humidification cabinet 260 be electrically connected.

It manages and carries uninterruptible power supply unit 8111 and battery pack 8112 in cabinet 810, air-conditioning 410 and each light current can be set Standby 812 power supply, and ICT mainframe 210, humidification cabinet 260 and headlamp are matched still through what the control city Gui810Wai Yu was electrically connected Electric cabinet 220, uninterruptible power supply cabinet 230 and battery cupboard 240 are powered, and the power supply of air-conditioning 410 and information equipment (ICT host are realized Cabinet 210) power supply physical isolation, reduce the interference to information equipment.

Furthermore the control cabinet 810 of the present embodiment further includes touch screen, and touch screen is electrically connected with weak current equipment 812.Touch screen And the wherein one side of control cabinet 810 is arranged in weak current equipment 812, opposite another side is arranged in Power entry module 811.

Micromodule further includes the environmental detection set being arranged in frame system 100, equipment dynamic detection device, equipment energy Consume detection device, safety device and fire plant.Environmental detection set, equipment dynamic detection device, equipment energy consumption detection dress Set, safety device and fire plant are electrically connected with the weak current equipment 812 of control cabinet 810 and touch screen, thus in micromodule It is interior to form corresponding dynamic monitoring system, environmental monitoring system, energy consumption monitoring system, safety defense monitoring system and fire-fighting control system System.That is control cabinet 810 is also used to monitoring intelligent system 900 and fire-fighting system 700.

About the connection of control cabinet 810 and fire plant, aspirated smoke detector end sampled point is set in cabinet, It manages and aspirated smoke detector host 8126, when occurring fire behavior in cabinet, aspirated smoke detector master is set in cabinet 810 The alarm of machine 8126 simultaneously in the touch screen of control cabinet 810 and the equal display alarm information of center of the centralized monitor and sends information to management Staff terminal can have found fire behavior in fire early period of origination, to take timely measure processing fire behavior.The interior setting temperature-sensitive of micromodule, Smoke-sensitive alarm detector, by alarming, bus is uploaded to the small-sized automatic fire alarm host in micromodule, realizes micromodule energy Linkage, be finally uploaded to building electric fire-control system.

Cabinet 810 is managed by setting touch screen, realizes the field monitoring of local maintenance and micromodule, realizes local forceful electric power prison It surveys and is managed with light current, improve visualization and O&M efficiency.

Intellectualizing system 900 is described in detail below.Intellectualizing system 900 mainly realizes prison by control cabinet 810 It controls, including dynamic monitoring system, environmental monitoring system, energy consumption monitoring system, safety defense monitoring system, safety defense monitoring system include again Intrusion alarm system, access control system, video monitoring system etc..

Power distribution cabinet 220, battery cupboard 240, uninterruptible power supply cabinet 230, constant humidity machine about dynamic monitoring system, in micromodule Deng the information of power monitoring equipment field terminal unit is uploaded to by RS-485 bus, then be uploaded to by interchanger 8121 Center of the centralized monitor realizes unified monitoring, can also be in touch-control screen display, management and the control of the control cabinet 810 of local micromodule System.

About environmental monitoring system, the temperature sensor by the way that cabinet is arranged in detects temperature signal, is uploaded to temperature and patrols Examine instrument, be finally uploaded to field terminal unit, by 8121 up-delivering signal of interchanger, realize control cabinet 810 touch screen and The display of center of the centralized monitor.The temperature-humidity signal that Temperature Humidity Sensor in micromodule will test is uploaded to on-site supervision list Member, then the display for managing the touch screen and center of the centralized monitor of cabinet 810 is uploaded to by interchanger 8121.The equipment such as air-conditioning 410 It is easy to appear the position setting positioning formula leak rope of leak, leak information is uploaded to water leakage controller, then passes through on-site supervision list Member, leak information is uploaded to the touch screen of control cabinet 810 to interchanger 8121 and center of the centralized monitor is shown.

About energy-consumption monitoring system, intelligence electricity is set at the circuits such as power distribution cabinet 220, air-conditioning, constant humidity machine, light distribution The consumption information in circuit is uploaded to the touch screen of control cabinet 810 by field terminal unit and center of the centralized monitor is shown by table, The energy consumption monitoring of the final energy consumption monitoring for realizing cabinet-level and non-ICT equipment provides theories integration for optimization micromodule PUE.

The intrusion alarm system of safety defense monitoring system is mainly that illegal invasion micromodule provides alarm.About safety monitoring system The access control system of system, micromodule into and out of access control point is arranged at door, brushing card device is set outdoors, is provided in door Door button, control cabinet 810 is interior to be arranged access controller 8122, and gate inhibition's host is arranged in Centralized Monitoring room, realizes to micromodule channel The authorization and control of 303 disengaging of door.About the video monitoring system of safety defense monitoring system, number is set in the channel of micromodule Word formula high-definition camera, the video information of acquisition are uploaded to center of the centralized monitor by interchanger 8121 and are managed collectively, managed The touch screen of control cabinet 810 can retrieve for examination the monitoring information in this micromodule.

The micromodule deployment of the embodiment of the present invention flexibly, is easy to extend, adapts to the more scene demands of multi-service, have module Change, standardization, prefabricated feature.The product uses prefabrication, on-site consolidation, without basis, establishes one's own system, applies in data In center, installation ability is increased substantially compared with past data center, and the construction period is obviously shortened, TCO cost and investment risk into One step reduces.

The micromodule of the embodiment of the present invention also carries out rational deployment, sophisticated systems configuration to inside.As previously mentioned, frame system System 100 includes at least two layers of frame, and every layer of frame is equipped at least two submodules, and each submodule includes two column cabinets, often Layer frame forms cold passage 160 between two column cabinets of each submodule, forms the passage of heat in two outsides of each submodule 150, wherein the respective side of adjacent submodule shares the same passage of heat 150.150 scale of cold and hot channel and cloth of the present embodiment Rationally, the efficient operation maintenance in module may be implemented in office.

The bottom of the micromodule of the embodiment of the present invention and the layout structure figure of non-bottom, cabinet is shown respectively in Figure 28 and Figure 29 Including ICT mainframe 210, power distribution cabinet 220, uninterruptible power supply cabinet 230 and battery cupboard 240, wherein power distribution cabinet 220, not between Close to arrangement, power distribution cabinet 220 is arranged in one end of any column cabinet for disconnected power cabinet 230, battery cupboard 240.By each submodule packet The two column cabinets included become first row cabinet and secondary series cabinet, and power distribution cabinet 220 is for example arranged in first row machine in the present embodiment The rear end of cabinet.

Cabinet is rectangular-shape, the longitudinal direction of whole cabinets in addition to power distribution cabinet 220 with arrange to being arranged vertically.Its In, in the submodule of bottom frame, the longitudinal direction of power distribution cabinet 220 with arrange to being arranged vertically, power distribution cabinet 220 is towards cold passage 160 side is equipped with maintenance door 540 towards the side of the passage of heat 150 and towards the side outside micromodule.Non- bottom frame In the submodule of frame, the longitudinal direction of power distribution cabinet 220 and arrange to parallel arrangement, power distribution cabinet 220 towards the side of cold passage 160 with And maintenance door is equipped with towards the side of the passage of heat 150.Due to 220 lateral arrangement of power distribution cabinet of non-bottom, guarantee that power distribution cabinet 220 exists In module while conventional maintenance, two layers of maintenance riding track are saved, are reduced investment outlay.

Cabinet further includes that air-conditioning cabinet 250 and humidification cabinet 260, air-conditioning cabinet 250 are evenly distributed in two column cabinets, humidifies cabinet 260 are arranged in the center of any column cabinet.The center that cabinet 260 is arranged in secondary series cabinet is humidified in the present embodiment.

Air conditioner load=the heat dissipation of ICT mainframe 210 refrigeration duty+power-supply device heat dissipation refrigeration duty+other refrigeration dutys (including dimension Protection structure load, lighting load, new wind load, human-body radiating load, pipeline temperature rise additional load etc.).According to process system 600 The process data of offer：Each submodule include 22 ICT mainframes 210, each 5kW, then technique heat dissipation refrigeration duty be 110kW, the 5% of power supply refrigeration duty taking technique load, it is calculated as 5.5kW, other loads press 70-100W/m²Index estimation, often A micromodule area is about 55m², therefore other loads are about 4kW.The total air conditioner load of each submodule of micromodule is about 110+ 5.5+4=119.5kW selects air-conditioning between the column of 25kW, needs 119.5 ÷ 25=4.78 ≈ 5, and because air-conditioning is adopted between column It is configured with N+1, therefore each submodule configures air-conditioning between 6 25kW column, 6 air-conditionings are evenly arranged in two column cabinets.

Cabinet further includes vent cabinet 510, and vent cabinet 510 is arranged in one end of any column cabinet, vent cabinet in the present embodiment 510 are arranged in the front end of first row cabinet.Wherein, the corresponding vent cabinet 510 in the position of whole frames is intertwined connection.

Cabinet further includes fire hydrant cabinet 270, and fire hydrant cabinet 270 is arranged in the center of any column cabinet, humidifies cabinet in the present embodiment 260 are arranged in the center of secondary series cabinet.Fire hydrant cabinet 270 is towards the side of cold passage 160 and towards the one of the passage of heat 150 Side is equipped with fire extinguishing sprayer.

Cabinet further includes control cabinet 810, and control cabinet 810 is arranged in one end of any column cabinet.Cabinet is managed in the present embodiment 810 are arranged in the rear end of first row cabinet.

In control cabinet 810, touch screen of arranging on one side, active Ethernet (Power Over Ethernet, POE, bracket Can leave out after interior final version) interchanger 8121, access controller 8122, acquisition server 8123, Fire extinguisher 8124, fire-fighting report Alert host 8125, smoke detector host 8126, another side arrangement 8113 electric appliance (Automatic of automatic change-over Transfer switching equipment, ATS can leave out after finalizing a text in bracket), breaker, uninterruptible power supply unit 8111 and battery pack 8112.

Each submodule of bottom frame includes 22 uninterruptible power supplies of power distribution cabinet 220,1 of ICT mainframe 210,1 230,2, cabinet humidification 260,1, the cabinet fire hydrant cabinet 270 and 1 of vent cabinet 510,1 of air-conditioning cabinet 250,1 of battery cupboard 240,6 A control cabinet 810, each submodule of non-bottom frame include that 21 power distribution cabinets 220,1 of ICT mainframe 210,1 are uninterrupted The air-conditioning cabinet 250,1 of battery cupboard 240,6 260,1, cabinet of the humidification fire hydrant cabinet 270 of vent cabinet 510,1 of power cabinet 230,2 with And 1 control cabinet 810.

The present invention by will at least two layers micromodule it is assembled, while it is internal carry out rational deployment, efficiency of installing software is higher, big to advise Mould is in application, more save land resource.

The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all in essence of the invention Within mind and principle, any modification, equivalent replacement, improvement and so on be should all be included in the protection scope of the present invention.

Claims (11)

1. a kind of micromodule, which is characterized in that logical including frame system and the multiple information being arranged in the frame system Letter technology mainframe and multiple function systems, wherein the frame system includes at least two layers of frame, every layer of frame is equal Equipped with the Information and Communication Technology mainframe, the multiple function system at least partly by the multiple Information and Communication Technology master Cabinet connection.

2. micromodule as described in claim 1, which is characterized in that the multiple function system includes air-conditioning system, ventage System, process system, fire-fighting system, electrical system, intellectualizing system, power-supply system,

Wherein, all it is connected between the process system of the frames, forms the wiring connection at least between two layers；All frames It is connected between the air-conditioning system of frame, forms the pipeline connected relation at least between two layers；All the fire-fighting system of the frames it Between be connected, form the firefighting warning linkage at least between two layers；All it is connected between the intellectualizing system of the frame, is formed extremely Data information intercommunication between two layers few.

3. micromodule as claimed in claim 2, which is characterized in that the air-conditioning system includes：

Air-conditioning, every layer of frame is interior to be arranged at least one described air-conditioning, at least one described air-conditioning is located at the multiple information Between communication technology mainframe；And

Water supply system, including air conditioner connecting pipe road, main line and public pipeline, the main line correspond to every layer of frame row It arranging, the air-conditioning being arranged on every layer of frame is connected by the main line of the air conditioner connecting pipe road and respective layer, All the main line is connected in parallel to the public pipeline.

4. micromodule as claimed in claim 3, which is characterized in that the corresponding main line of every layer of frame includes at least It is returned described in two water supplying pipes and at least two return pipes, each air-conditioning and at least two water supplying pipes and at least two Water pipe connection.

5. micromodule as claimed in claim 3, which is characterized in that the frame system includes two layers of frame, every layer of institute It states frame and forms the passage of heat in the outside of the Information and Communication Technology mainframe of first and tail column, in the information of adjacent column It is spaced between communication technology mainframe and forms cold passage and the passage of heat, the bottom of the cold passage and the passage of heat is equipped with ground Plate.

6. micromodule as claimed in claim 5, which is characterized in that the main line is located at the described cold logical of every layer of frame Under the floor in road, the public pipeline extends along the bottom of frame described in top layer, and the water supply system further includes will be described in bottom The longitudinally connected pipeline of the frame corresponding main line and the public piping connection, the longitudinally connected pipeline are arranged in institute State the two sides of cold passage.

7. micromodule as claimed in claim 5, which is characterized in that the air-conditioning system further includes：

Humidification system, the humidification system include：

Humidifier, every layer of frame is interior to be arranged at least one described humidifier；And

The multiple humidifier is connect by humidifying and water supplying pipeline with watering.

8. micromodule as claimed in claim 7, which is characterized in that the public pipeline includes public water supply pipeline, described to add Wet water supply pipe is by the multiple humidifier and the public water supply piping connection.

9. micromodule as claimed in claim 7, which is characterized in that the air-conditioning system further includes：

Condensate water discharging system, the condensate water discharging system include：

Bottom catch basin is arranged under the floor of the cold passage in frame described in bottom, the corresponding institute of frame described in bottom Main line is stated to be at least partially disposed in the bottom catch basin；

Top layer catch basin is arranged under the floor of the cold passage in frame described in top layer, the corresponding institute of frame described in top layer Main line is stated to be at least partially disposed in the top layer catch basin.

10. micromodule as claimed in claim 9, which is characterized in that the condensate water discharging system further includes：

The top layer catch basin is connected to by condensate line with the bottom catch basin.

11. micromodule as claimed in claim 9, which is characterized in that the condensate water discharging system further includes：

Subset sink is located at below each air-conditioning and each humidifier, and with the bottom catch basin or institute State the connection of top layer catch basin.