CN208317251U - A kind of green energy conservation micromodule data center - Google Patents
A kind of green energy conservation micromodule data center Download PDFInfo
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Abstract
The utility model relates to data center's field of energy-saving technology, and in particular to a kind of green energy conservation micromodule data center.A kind of green energy conservation micromodule data center, is set in independent cabinet, comprising: condenser is set to the top in independent cabinet;ICT EM equipment module is internally provided with information technoloy equipment, multiple liquid boxes and interchanger;Liquid reserve tank is seal cavity and stores cooling medium;Power module condenser and power module shell built in power supply device, power module form;Battery module condenser and battery module housings built in battery pack, battery module form;UPS module connects battery pack and is in case of emergency to power to entire data center using battery pack electric energy;Control module is connect with the solenoid valve of each connecting line and infusion pump.The data center of the utility model meet medium-sized and small enterprises to the micromation of data center, expansibleization, operate convenient, the easy demand of deployment, realize the green energy conservation overall development target of data center.
Description
Technical field
The utility model relates to data center's field of energy-saving technology, and in particular in a kind of green energy conservation micromodule data
The heart.
Background technique
Evaporation cooling technique is the novel electrical equipment cooling technology with China's independent intellectual property right, it is high using environmental protection
The liquid of insulation is taken away the heat of heat-producing device by the gasification heat absorption of cooling medium, is realized to equipment as cooling medium
It is cooling.There are many forms for information technoloy equipment for evaporation cooling technique, such as surface-mount type and infiltration type, surface-mount type evaporation cooling technique application
In the particular technique details of information technoloy equipment be detailed in Chinese patent " evaporation-cooled device attached to surface of super computer " (application publication number:
CN101751096A), the technical detail that infiltration type evaporation cooling technique is applied to information technoloy equipment is detailed in Chinese patent " one kind integrated one
(application number: 201620390096.1), the relevant technologies reference may also be made to patent, and " stator of steam turbine generator soaks body cooling device " entirely
Formula self circular loop of evaporative cooling " (application publication number: CN1416201), it is dynamic that these application forms are not necessarily to extraneous addition auxiliary
Power, fully rely on cooling system itself establishes self-powered circulation.It will be applied to data center from driving evaporation cooling technique, and can be
The safe operation of data center provides a strong guarantee, while can realize energy conservation, noise reduction and other effects.
Big data development speed is getting faster now, and more and more medium-sized and small enterprises in addition to large enterprise are to data
The concern of center construction and demand are also increasing.In view of itself information security and secret protection, medium-sized and small enterprises are often
It is more likely to construct independent data center, but land occupation and investment larger, the construction period of typical data center computer room construction
Also longer, therefore microdata center becomes medium and small enterprise by the features such as its agility, real-time, data-optimized, secret protection
The preferential selection of industry.
Currently, data center machine room generally realizes the cooling to heat-producing device using air cooled mode, inside computer room
There are inhomogeneous cooling, noise is larger phenomena such as, and cooling system energy consumption level also needs to be further decreased, and China data
The PUE value at center is generally greater than 2.0;And the type of cooling that existing microdata center uses is still for the cooling skill of traditional air
Art, energy saving and in terms of there is also larger deficiencies.
Application No. is 201510022151.1 utility applications to disclose a kind of design side at microdata center
Method, equipment integration form are cabinet-level, and the used type of cooling is air-cooled in cabinet, and blower driving wind path is needed to follow
Ring.Cooling system in the design method at the microdata center is substantially the steam compression type refrigeration circulatory system, conventional refrigerant system
Uniting, operating pressure is higher, and energy consumption is larger.
Utility model content
In order to solve the above technical problems, the purpose of the utility model is to provide in a kind of green energy conservation micromodule data
Information technoloy equipment, power supply system, cooling system, control module etc. are integrated in single cabinet by the heart, evaporate cooling skill using from driving
Art cools down heat generating components, selects the liquid of environmental protection, high insulation as cooling medium, has sufficiently ensured information technoloy equipment operation
Safety, and be arranged due to eliminating the blower in the air-cooled computer room of tradition, being greatly reduced for data center's operation energy consumption is realized,
Significant computer room noise reduction effect is reached.
The purpose of this utility model is achieved through the following technical solutions:
A kind of green energy conservation micromodule data center, including be sequentially arranged in independent cabinet condenser, ICT (information
And the communication technology) EM equipment module, power module, battery module and liquid reserve tank;
Wherein: condenser, for being cooled down to cooling medium;ICT EM equipment module, is internally provided with information technoloy equipment and friendship
It changes planes;Power module is internally provided with power supply device;Battery module, is internally provided with battery pack, the battery pack with it is described
ICT EM equipment module connects and provides electric energy for the ICT EM equipment module, and the power supply device connects the battery pack and is described
Battery pack charging;Be equipped with built-in condenser in the power module and battery module, and the power module, battery module and
Condenser is equipped with cooling water outlet and cooling water inlet;Liquid reserve tank for storing cooling medium, and is located at the independent cabinet
Bottom;
The cooling medium outlet of the condenser is connected to the first inlet of the liquid reserve tank, the storage by valve A
First liquid outlet of liquid case is connected to the cooling medium entrance of ICT EM equipment module by valve B, the ICT EM equipment module it is cold
But media outlet is connected to the cooling medium entrance of the condenser.
Further, the liquid reserve tank is additionally provided with the second inlet and the second liquid outlet, the power module and battery mould
Block further respectively has cooling medium outlet and cooling medium entrance, second liquid outlet are separately connected the power supply through infusion pump
The cooling medium outlet of the cooling medium entrance of module and battery module, the power module and battery module is connected to described
Second inlet.
Further, the data center is additionally provided with control module, and the control module controls opening for all solenoid valves
It opens and closes, and monitor temperature, humidity, pressure, cooling water water and the smog alarm signal of the independent interior of equipment cabinet.
Further, the data center is additionally provided with UPS (uninterruptible power supply) module, and the UPS module connects battery
It wraps and provides electric energy to ICT EM equipment module, control module and infusion pump.
Further, simultaneously supply of electrical energy gives the control module, ICT EM equipment module and UPS mould for the power supply device connection
Block.
Further, the cooling medium outlet of the condenser is also connected to the second of the liquid reserve tank by battery valve H
Inlet;The infusion pump is additionally coupled to the cooling medium entrance of ICT EM equipment module.
Further, it is provided with external power source interface, network interface and cooling water outlet and inlet on the independent cabinet, respectively
External power supply, communication device and apparatus for supplying cool water are connected, the external power source interface is also connected with the power supply device, described
Network interface link control module, the cooling water outlet and inlet are separately connected the cooling of power module, battery module and condenser
Water inlet and cooling water inlet.
Further, the control module and UPS module generation heat are smaller, are all made of natural heat dissipation mode.
Further, the ICT EM equipment module drives vapor cooling system using liquid box surface-mount type certainly, or using infiltration
The driving vapor cooling system certainly of formula.
The utility model has the beneficial effects that
The utility model proposes green energy conservation micromodule data center, compact is compact, and function is complete, with finished product
Form catered to demand of the medium-sized and small enterprises to microdata center, the technological achievement is easy to spread.Green energy conservation micromodule data
Center takes full advantage of the advantages such as safe, energy saving, reliable from driving evaporation cooling technique, so that data center has reached green
Energy-efficient effect.
Simultaneously the utility model realize evaporation cooling technique in the reasonable application at microdata center, and by information technoloy equipment, control
The resources integrations such as system processed, power supply, evaporative cooling system form in single cabinet with the green of the advantages such as safety, energy conservation
Color energy conservation micromodule data center, can meet current medium-sized and small enterprises etc. to the market demand at microdata center.
In addition, green energy conservation micromodule data center's cabinet of the utility model uses driving evaporation cooling technique certainly,
Noise is effectively reduced in the case where not increasing any power device and operating pressure as normal pressure;And meet medium-sized and small enterprises logarithm
According to the micromation at center, expansibleization, the demands such as convenient, deployment is simple are operated, and the green energy conservation for realizing data center is total
Body developing goal.
Detailed description of the invention
Fig. 1 is the distribution schematic diagram of green energy conservation micromodule described in the utility model data center modules;
Fig. 2 is the cooling system schematic diagram of green energy conservation micromodule described in the utility model data center;
Wherein, 1- solenoid valve A, 2- solenoid valve B, 3- solenoid valve C, 4- solenoid valve D, 5- solenoid valve E, 6- solenoid valve F, 7- electricity
Magnet valve G, 8- solenoid valve H, 9- solenoid valve J, 10- solenoid valve K, 11- solenoid valve L, 12- condenser, 13- control module, 14-ICT
EM equipment module, 15- power module, 16-UPS module, 17- battery module, 18- liquid reserve tank, 19-IT equipment, the more a liquid boxes of 20-,
21- condenser cooling water entrance, the outlet of 22- condenser cooling water, 23- power module cooling water inlet, 24- power module are cooling
Water out, 25- battery module cooling water inlet, 26- battery module cooling water outlet, condenser built in 27- power module, 28-
Power supply device, condenser built in 29- battery module, 30- battery pack, 31- infusion pump.
Specific embodiment
In order to make the purpose of the utility model, technical solutions and advantages more clearly understood, below in conjunction with attached drawing and implementation
Example, the present invention will be further described in detail.It should be appreciated that specific embodiment described herein is only to explain this
Utility model is not used to limit the utility model.
A kind of green energy conservation micromodule data center is set in an independent cabinet as depicted in figs. 1 and 2, comprising:
Condenser 12, the equipment to absorb heat in cooling medium, condenser 12 described in the present embodiment select water cooling
Formula condenser takes away the heat of cooling medium using cooling water;The condenser 12 is set to the top in the independent cabinet,
And it is higher than the height of other modules;The condenser 12 is provided with condenser cooling water entrance 21 and condenser cooling water outlet
22 and condenser medium inlet and condenser media outlet;It is additionally provided with pressure gauge in the internal cavity of the condenser 12,
To monitor the gas pressure in the airtight cavity;It is provided with one outlet at the top of the condenser 12, and connects solenoid valve J9, it should
Solenoid valve is typically in closed state.
ICT EM equipment module 14 is internally provided with equipment, the IT such as information technoloy equipment 19, multiple liquid boxes 20 and interchanger and sets
Standby 19 are vertically arranged, and multiple liquid boxes 20 are fitted tightly over respectively on the information technoloy equipment 19, are provided in the multiple liquid box 20 cold
But medium absorbs the heat that the information technoloy equipment 19 generates;After all liquid boxes are connected in parallel, common input terminal and defeated
Outlet is connected respectively to cooling import and the coolant outlet of the ICT EM equipment module 14;Cooling medium flows into institute through cooling import
It states in ICT EM equipment module 14, generates gasification phenomenon after absorbing the heat that the information technoloy equipment 19 generates, cooling medium is changed into gas-
Liquid two-phase medium, and be discharged from coolant outlet.
Power module 15, condenser 27 and power module shell form built in power supply device 28, power module;It is described
Power module medium inlet and power module media outlet are provided on power module shell;The inside of the power module shell
For closed space, which is also referred to as power module cavity;Affiliated power supply device 28 is pyrotoxin and is locking device and sets
It is placed on the bottom surface of the power module cavity, cooling medium is filled in the power module cavity, charging amount can guarantee
By the whole submergence of entire power supply device 28.Condenser 27 built in the power module is set to the power module cavity
The bottom surface of condenser 27 is set to the liquid level of cooling medium or more built in top and the power module;Built in the power module
The inside stream supercooled water of condenser 27 is used to absorb heat, and the both ends of the device are respectively arranged with power module cooling water
Entrance 23 and power module cooling water outlet 24.It is additionally provided with pressure gauge in the power module cavity, to monitor the closed chamber
Gas pressure in body;The top of the power module 15 is provided with one outlet, and connects solenoid valve K10, the solenoid valve one
As be in close state.The power supply device 28 is electrically connected with the control module 13, ICT EM equipment module 14 and infusion pump 31,
And electrical source of power is provided, and the power supply device 28 is also electrically connected with the battery pack 30, existed with supplementing the battery pack 30
Electricity consumed by the self discharge of battery pack 30 under the electric energy consumed under special operating status, and supplement normal operating condition
Energy.
When the power supply device 28 work, the heat of generation is transferred to the entire power supply of submergence by way of heat convection
The cooling medium of device 28, cooling medium generate gasification phenomenon after absorbing heat, and cooling medium becomes two-phase medium.Two-phase medium
It flows up and condenser 27 is cooled to liquid phase built in the power module state, falls telegram in reply source module chamber downwards
In the liquid of body bottom surface, so that the self-powered for completing the power module 15 circulates.
Battery module 17, condenser 29 and battery module housings form built in battery pack 30, battery module.The electricity
Pond packet 30 connect with the ICT EM equipment module 14 and provides electric energy for the ICT EM equipment module 14, and the power supply device 28 connects
The battery pack 30 simultaneously charges for the battery pack 30.The inside of the battery module housings is closed space, the structure
As battery module cavity;The battery pack 30 is pyrotoxin and is locking device and the bottom for being set to the battery module cavity
On face, cooling medium is filled in the battery module cavity, charging amount can guarantee the entirety submergence of entire battery pack 30.
Condenser 29 built in the battery module is set to the top of the battery module cavity and the built-in condensation of the battery module
The bottom surface of device 29 is located at the liquid level of cooling medium or more;The inside stream supercooled water of condenser 29 built in the battery module is used to
Heat is absorbed, and the both ends of the device are respectively arranged with battery module cooling water inlet 25 and battery module cooling water outlet
26.It is additionally provided with pressure gauge in the battery module cavity, to monitor the gas pressure in the airtight cavity.The battery module
17 top is provided with one outlet, and connects solenoid valve L11, which is typically in closed state.
When the battery pack 30 work, the heat transfer of generation is cooling to the cooling medium for submerging entire battery pack 30
Gasification phenomenon is generated after Absorption of Medium heat, cooling medium becomes two-phase medium.Two-phase medium flows up and by the battery
Condenser 29 is cooled to the state of liquid phase built in module, falls downwards in the liquid of telegram in reply pond module cavity bottom surface, thus
The self-powered for completing the battery module 17 circulates.
Liquid reserve tank 18 is seal cavity, is used to interim storage cooling medium;The liquid reserve tank 18 is provided with 2 and goes out liquid
Mouth and 2 inlets.
Control module 13, is set to the downside of condenser 12 in independent cabinet, and the control module 13 has temperature prison
Survey, humidity detection, pressure monitoring, cooling water water quantity monitoring, smog alarm signal monitoring and each solenoid valve open the function such as control
Energy.Temperature prison is provided in the cooling medium of the ICT EM equipment module 14, the power module 15 and the battery module 17
Survey device, and with 13 communication connection of control module, to monitor and upload the temperature of the cooling medium in each module;It is described
Control module 13 is also and in the pressure gauge in condenser internal cavity, the pressure gauge and battery module cavity in power module cavity
Pressure gauge communication connection, and monitor the internal cavity pressure value, battery module chamber pressure value and power module chamber of condenser
Body pressure value, and compare with design value;The device of cooling water water quantity monitoring is provided on each pipeline of cooling water, with
And be provided with smoke alarm unit in the independent cabinet, these devices with 13 communication connection of control module, and will monitoring letter
It number is transmitted in control module 13.
UPS module 16 is electrically connected with the battery pack 30;The UPS module 16 monitors the electricity of the power module 15
Pressure, the UPS module 16 are electrically connected the information technoloy equipment 19, control module 13 and infusion pump 31, and in data center's power
It is that the ICT EM equipment module 14 and control module 13 are powered that battery pack 30 is connected when power supply power supply is interrupted, in the data center
Power supply and cooling water simultaneously when interrupting, connecting battery pack 30 is the ICT EM equipment module 14, control module 13 and the infusion
31 power supply of pump.
Independent cabinet where the data center is traditionally arranged to be vertical, and multiple stabilizer blades is arranged in its bottom surface, makes bottom
Face is maintained a certain distance with ground, as shown in Figure 1.Be provided on the independent cabinet external power source interface, network interface and
Cooling water cabinet inlet and outlet are connected, so that in the data respectively with extraneous power supply, control route and cooling water transfer pipeline
The heart can directly work under conditions of user provides power supply, network line and cooling water;The external power source interface electricity
The power supply device 28, the network interface and 13 communication connection of control module are connected, the cooling water cabinet is imported and exported,
Including cooling water cabinet input port and cooling water cabinet delivery outlet, it is cooling that cooling water cabinet input port connects the condenser
Water inlet 21, power module cooling water inlet 23 and battery module cooling water inlet 25, and to the cooling water of its transport flow with
The heat that two-phase medium carries is absorbed, the cooling water cabinet delivery outlet connection condenser cooling water outlet 22, power module are cold
But water out 24 and battery module cooling water outlet 26.
In the independent cabinet, the installation site of the condenser 12 has to be higher than the ICT EM equipment module 14;Institute
The installation site for stating liquid reserve tank 18 must be positioned at the bottom of the independent cabinet, to utilize the condenser 12, power module 15
With the more convenient effective collection cooling medium of high and low fall of battery module 17 and the liquid reserve tank 18.
The connection schematic diagram of whole system inside the data center is as shown in Figure 2;
Wherein, the delivery pipe of the cooling medium of the data center is provided with one section of infusion common segment, the infusion common segment
Input terminal one of liquid outlet of the liquid reserve tank 18 is connected by solenoid valve B2, another of the liquid reserve tank 18 goes out liquid
Mouth passes sequentially through solenoid valve C3 and infusion pump 31 is also connected to the input terminal of the infusion common segment;The defeated of common segment of being infused
Outlet is provided with 3 branches, is respectively connected to the cooling import of ICT EM equipment module 14, passes through solenoid valve F6 connection power module
Medium inlet passes through solenoid valve D4 connection battery module medium inlet.
The coolant outlet of the ICT EM equipment module 14 connects the medium inlet of the condenser 12, the condenser 12
Media outlet connects two pipelines, and passes through an inlet of solenoid valve H8 connection liquid reserve tank 18 respectively, passes through solenoid valve A1
Connect another inlet of liquid reserve tank 18.The two-phase medium that the gasification of ICT EM equipment module 14 generates is entered by the medium
Mouth enters in the condenser 12, after being cooled into cooling medium, flows out through the media outlet and returns to the liquid reserve tank 18
In.
The power module media outlet of the power module 15 is connected to one of the liquid reserve tank 18 by solenoid valve G7
Inlet.The battery module media outlet of the battery module 17 by solenoid valve E5 be connected to one of the liquid reserve tank 18 into
Liquid mouth.
In the present embodiment, there are two types of operational modes for the cooling system setting of the data center: normal mode and emergency mould
Formula.
Normal mode is the operational mode of the data center in normal conditions.
In normal mode, the control of the control module 13 solenoid valve A1 and solenoid valve B2 is in the open state, same to time control
Solenoid valve C3 processed, solenoid valve D4, solenoid valve E5, solenoid valve F6, solenoid valve G7, solenoid valve H8 are in close state, the data
The entire cooling system at center forms 3 independent cooling mini systems, and the drive form of 3 independent cooling mini systems is equal
For Natural Circulation, it is not necessarily to external offer driving force, which is respectively as follows: ICT EM equipment module cooling system, electricity
Source module cooling system and battery module cooling system.
ICT EM equipment module cooling system, by multiple liquid boxes 20, the liquid reserve tank 18 in condenser 12, ICT EM equipment module 14
It is formed with associated catheter.In condenser 12, cooling water is passed through in the condenser 12 by condenser cooling water entrance 21, is passed through
It absorbs in two-phase medium and is flowed out after heat from condenser cooling water outlet 22, complete the work for taking away heat;The ICT equipment mould
In 14 course of work of block, generated heat passes to the multiple liquid boxes 20 fitted closely with it by way of heat transfer,
In cooling medium absorb heat after generate gasification phenomenon, liquid cooling medium becomes two-phase medium.Two-phase medium flows up
In to condenser 12 and cooled water absorbs heat, and two-phase medium, which is condensed, is cooled to liquid phase cooling medium, and cooling medium is self cooling
It after condenser 12 flows out, is flowed back in liquid reserve tank 18 by solenoid valve A1, is then flowed out from liquid reserve tank 18 again, and pass through solenoid valve B2
It is back in the multiple liquid box 20, the self-powered for completing ICT EM equipment module cooling system since then circulates.
Power module cooling system, cooling water are flowed into power module 15 by power module cooling water inlet 23, are absorbed
It is flowed out after heat from power module cooling water outlet 24, heat work is taken away in completion;When power supply device 28 works, generate
After heat is transferred to cooling medium heat absorption by way of heat convection, cooling medium, which generates gasification phenomenon, becomes two-phase medium.
Two-phase medium flows up and cooling water built in power module in condenser 27 absorbs heat, and two-phase medium is condensed cooling
As liquid phase cooling medium, liquid phase cooling medium is fallen downwards in the liquid for being back to cavity bottom, to complete power supply cooling system
The self-powered of system circulates.
In battery module cooling system, cooling water is flowed into battery module 17 by battery module cooling water inlet 25, is inhaled
It is flowed out after receiving heat from battery module cooling water outlet 26, heat work is taken away in completion;When battery pack 30 works, generate
Heat transfer generates gasification phenomenon, cooling medium becomes two-phase medium to cooling medium after cooling medium heat absorption.Two-phase medium to
Upper flowing and cooling water built in battery module in condenser 29 absorb heat two-phase medium and are condensed that be cooled into liquid phase cold
But medium, liquid phase cooling medium are fallen downwards in the liquid for being back to cavity bottom, so that the self-powered for completing battery cooling system follows
Circulation is dynamic.
In when the cooling system operation of the data center, when control module 13 monitors the internal cavity pressure of condenser
When the actual pressure value of power, power module chamber pressure or battery module chamber pressure is more than design value, control module 13 will be controlled
Solenoid valve J9, solenoid valve K10 or solenoid valve L11 processed are opened until observed pressure turns off after being restored in scope of design.
Contingency mode, for operational mode of the data center in the case where power failure, cooling water such as cut off the water supply at the special operation conditions,
The effect of contingency mode is the emergency case coped in practical work process:
Situation 1: when the power failure of the data center, the UPS module 16 starts, and is described with battery pack 30
ICT EM equipment module 14 and control module 13 provide 15~30 minutes emergency services.
Situation 2: when cooling water cuts off the water supply phenomenon, control module 13 controls solenoid valve A1 and solenoid valve B2 and closes, and
It controls the solenoid valve C3, solenoid valve D4, solenoid valve E5, solenoid valve F6, solenoid valve G7 and solenoid valve H8 to open, while controlling defeated
Cooling medium in liquid reserve tank 18 is pumped into battery module 17, power module by the starting operation of liquid pump 31, the infusion pump 31 respectively
15 and multiple liquid boxes 20 inside, cooling medium cools down heat generating components by way of heat convection, then from electricity
It is flow back into liquid reserve tank 18 after the cooling medium confluence flowed out in pond module 17, power module 15 and multiple liquid boxes 20;With cold
But the cycle heat exchange of the heat generating components of medium and power module 15, battery module 17 and ICT EM equipment module 14, it is cold in liquid reserve tank 18
But the temperature of medium constantly rises, and when heat generating components temperature reaches the operating temperature upper limit, control module 13 controls overall data
Center stops working.Runing time length under the contingency mode can be designed by the liquid storage amount in liquid reserve tank 18 to realize.
Situation 3: when data center's power supply and cooling water interrupt simultaneously, UPS module 16 and battery pack 30 are data center
Interior ICT EM equipment module 14, control module 13 and infusion pump 31 provides emergency service, and control module 13 controls solenoid valve A1 and electricity
Magnet valve B2 is closed, and is controlled solenoid valve C3, solenoid valve D4, solenoid valve E5, solenoid valve F6, solenoid valve G7 and solenoid valve H8 and opened,
The starting operation of infusion pump 31 is controlled simultaneously;Liquid cooling medium in liquid reserve tank 18 is pumped into battery module by infusion pump 31 respectively
17, the inside of power module 15 and multiple liquid boxes 20, liquid cooling medium by way of heat convection to heat generating components into
Then row cooling flows back into liquid reserve tank from after the liquid confluence that battery module 17, power module 15 and multiple liquid boxes 20 flow out
In 18.When the heat generating components temperature arrival operating temperature upper limit or UPS power-on time reach the upper limit in cruise duration, control module 13
Control overall data center stops working.
In the present embodiment, cooling water used in the data center may be selected the infrastructure that building provide and supply water.When
When building can not provide cooling water, cooling water can be provided for the data center in outdoor addition cooling tower and water cooler.?
Annual wet-bulb temperature is lower than 26 DEG C of area, and cooling water needed for green energy conservation micromodule data center can be only by cooling tower whole year
It provides, experiment, which obtains PUE value, under this actual operating conditions can be reduced to 1.1;In other areas, green energy conservation micromodule number
It can be provided by air-cooled liquid chillers+air-cooled cooler or water-cooled cold water unit+cooling tower according to cooling water needed for center,
And use natural cooling+cooling in summer mode operation.
In view of generated heat is smaller in the control module 13 and UPS module 16, nature is used to dissipate to it first
Hot mode discharge, i.e., the spontaneous thermal part of the partial heat is transferred in the air in independent cabinet, then by the independent cabinet
Air be transferred in environment through rack enclosure, in this way design increase data center cooling system working efficiency and reduce cold
But the usage amount of water.
The air-cooled condenser of cabinet external equally also can be selected in condenser 12 in the utility model, when using air-cooled condensation
When device, it should be noted that its installation site necessarily is greater than the independent cabinet;
Cooling skill is evaporated in the driving certainly that the type of cooling of ICT EM equipment module 14 is not limited to liquid box surface-mount type in the utility model
The driving evaporation cooling technique certainly of infiltration type also can be used in art.
Cooling medium used in the utility model meets national requirements for environmental protection, and has high insulating property, thus even if
It leaks, short-circuit electrical hazard will not be caused.
The utility model proposes green energy conservation micromodule data center, compact is compact and function is complete, with finished product
The form of change has catered to demand of the medium-sized and small enterprises to microdata center, and the technological achievement is easy to spread.Green energy conservation micromodule number
The advantages such as safe, energy saving, reliable from driving evaporation cooling technique are taken full advantage of according to center, so that data center has reached green
The energy-efficient effect of color.
The above descriptions are merely preferred embodiments of the present invention, is not intended to limit the utility model, for this
For the technical staff in field, various modifications and changes may be made to the present invention.It is all in the spirit and principles of the utility model
Within, any modification, equivalent replacement, improvement and so on should be included within the scope of protection of this utility model.
Claims (9)
1. a kind of green energy conservation micromodule data center, which is characterized in that including the condenser being sequentially arranged in independent cabinet
(12), ICT EM equipment module (14), power module (15), battery module (17) and liquid reserve tank (18);
Wherein: condenser (12), for carrying out condensation cooling to vapor-liquid two phases cooling medium;ICT EM equipment module (14), in
Portion is provided with information technoloy equipment (19) and interchanger;Power module (15) is internally provided with power supply device (28);Battery module
(17), it is internally provided with battery pack (30), the battery pack (30) connect with the ICT EM equipment module (14) and is the ICT
EM equipment module (14) provides electric energy, and the power supply device (28) connects the battery pack (30) and fills for the battery pack (30)
Electricity;Built-in condenser, and the power module (15), battery mould are equipped in the power module (15) and battery module (17)
Block (17) and condenser (12) are equipped with cooling water outlet and cooling water inlet;Liquid reserve tank (18), for storing cooling medium, and
Positioned at the bottom of the independent cabinet;
The cooling medium outlet of the condenser (12) is connected to the first inlet of the liquid reserve tank (18) by valve A (1),
First liquid outlet of the liquid reserve tank (18) is connected to the cooling medium entrance of ICT EM equipment module (14), institute by valve B (2)
The cooling medium outlet for stating ICT EM equipment module (14) is connected to the cooling medium entrance of the condenser (12).
2. green energy conservation micromodule data center according to claim 1, which is characterized in that the liquid reserve tank (18) is additionally provided with
Second inlet and the second liquid outlet, the power module (15) and battery module (17) further respectively have cooling medium outlet and
Cooling medium entrance, second liquid outlet are separately connected the power module (15) and battery module (17) through infusion pump (31)
Cooling medium entrance, the cooling medium outlet of the power module (15) and battery module (17) be connected to described second into
Liquid mouth.
3. green energy conservation micromodule data center according to claim 1, which is characterized in that the data center is additionally provided with
Control module (13), the control module (13) control the opening and closing of all solenoid valves, and monitor in the independent cabinet
Temperature, humidity, pressure, cooling water water and the smog alarm signal in portion.
4. green energy conservation micromodule data center according to claim 3, which is characterized in that the data center is additionally provided with
UPS module (16), the UPS module connect battery pack (30) and provide electric energy to ICT EM equipment module (14), control module (13)
And infusion pump.
5. green energy conservation micromodule data center according to claim 4, which is characterized in that power supply device (28) connection
And supply of electrical energy is to the control module (13), ICT EM equipment module (14) and UPS module (16).
6. green energy conservation micromodule data center according to claim 2, which is characterized in that the cooling of the condenser (12)
Media outlet also passes through the second inlet that battery valve H (8) is connected to the liquid reserve tank (18);The infusion pump (31) is also connected with
To the cooling medium entrance of ICT EM equipment module (14).
7. green energy conservation micromodule data center according to claim 3, which is characterized in that be provided on the independent cabinet
External power source interface, network interface and cooling water outlet and inlet are separately connected external power supply, communication device and cooling water supply dress
It sets, the external power source interface is also connected with the power supply device (28), the network interface link control module (13), described cold
But water entrance is separately connected power module (15), the cooling water inlet of battery module (17) and condenser (12) and cooling water and enters
Mouthful.
8. green energy conservation micromodule data center according to claim 4, which is characterized in that the control module (13) and
UPS module (16) is all made of natural heat dissipation mode.
9. green energy conservation micromodule data center according to claim 4, which is characterized in that the ICT EM equipment module (14)
Using the driving vapor cooling system certainly of liquid box surface-mount type or the driving vapor cooling system certainly of infiltration type.
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CN108601312A (en) * | 2018-06-25 | 2018-09-28 | 中国科学院电工研究所 | A kind of green energy conservation micromodule data center |
CN108601312B (en) * | 2018-06-25 | 2023-08-04 | 中国科学院电工研究所 | Green energy-saving micro-module data center |
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