CN102339108A - Machine cabinet, machine cabinet radiating system and movable data center - Google Patents
Machine cabinet, machine cabinet radiating system and movable data center Download PDFInfo
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- CN102339108A CN102339108A CN2010102349790A CN201010234979A CN102339108A CN 102339108 A CN102339108 A CN 102339108A CN 2010102349790 A CN2010102349790 A CN 2010102349790A CN 201010234979 A CN201010234979 A CN 201010234979A CN 102339108 A CN102339108 A CN 102339108A
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Abstract
The invention provides a machine cabinet, a machine cabinet radiating system and a data center. The machine cabinet radiating system comprises at least one machine cabinet in which a plurality of operable computation systems are installed and a first liquid cooling exchanger, wherein the machine cabinet comprises a back plate which is vertical to the top surface and the bottom surface of the machine cabinet and is parallel to the front surface and the rear surface of the cabinet; the back plate is used for partitioning the machine cabinet into a front space and a rear space which mean a first space and a second space respectively; both the left side surface and the right side surface of the machine cabinet are provided with a vent hole; the vent holes are used for air inflow or air outflow; and the first liquid cooling exchanger is positioned on the left side or the right side of a first machine cabinet in the machine cabinet in which the plurality of operable computation systems are installed and is used for feeding cooled airflow into the vent holes of the first machine cabinet. By the machine cabinet, the machine cabinet radiating system and the data center, the radiating efficiency can be improved.
Description
Technical field
The present invention relates to computer realm, relate in particular to a kind of rack, cooling machine cabinet system and data center movably.
Background technology
The server that machine room or data center install is more and more, requires the more service device is installed in the rack, just requires layout in the highdensity rack, installation rack as much as possible in the limited space of machine room.Like this, highdensity group of planes equipment can produce great amount of heat, and the heat radiation of system just becomes the ultimate challenge of a high density group of planes.If can't effectively solve heat dissipation problem, just can not accomplish the high density of a group of planes.
Place multiple servers (also can be miscellaneous equipment) in the existing rack, each server is placed on the differing heights respectively; Radiating mode is as shown in Figure 1, and server is placed in the rack, and the cold wind in the machine room gets into from the rack front, and the wind energy that blows out at the back from rack carries away the heat that some said servers distribute.
In the process that realizes embodiment of the invention technical scheme, the inventor finds to exist at least in the above-mentioned prior art following problem:
Under present refrigeration modes, adopt the air-cooled circularly cooling of whole equipment room or layout areas more, refrigerating capacity is limited, and the placement density refractory of equipment is to increase in the rack, if density increases, the internal temperature of equipment can sharply rise, and can not effectively freeze.
Radiating mode is open, and noise is big, and the local turbulent flow of air-cooled meeting existence and the dead angle of dispelling the heat, and radiating efficiency is also low, and radiating effect is poor.
Summary of the invention
The technical matters that the present invention will solve provides a kind of rack, the cooling machine cabinet system reaches movably data center, can improve radiating efficiency.
In order to address the above problem, the invention provides a kind of cooling machine cabinet system, comprising:
At least one has installed the rack of a plurality of exercisable computing systems;
Said rack comprise perpendicular to the end face of said rack and bottom surface, with the parallel backboard in said rack front and back; Said backboard is divided into former and later two spaces with said rack room, is respectively first, second space;
First socket that at least one supplies exercisable computing system to insert is arranged on the first surface of said backboard, and wherein, when said exercisable computing system was connected with said first socket, said exercisable computing system was positioned at said first space;
Second socket that at least one supplies exercisable computing system to insert is arranged on the second surface of said backboard, and wherein, when said exercisable computing system was connected with said second socket, said exercisable computing system was positioned at said second space;
The left surface of said rack and right flank all have ventilating opening, and said ventilating opening is used for air intake or air-out;
The first liquid cooling interchanger, be arranged in said at least one the left side or the right side of rack first rack of a plurality of exercisable computing systems have been installed, be used for cooled air-flow is sent to the said ventilating opening of said first rack.
Further, said at least one rack that a plurality of exercisable computing systems have been installed comprises a plurality of first racks;
Said a plurality of first rack is arranged in order, and has said first a liquid cooling interchanger between per two first adjacent racks at least;
The said first liquid cooling interchanger also is used for thermal current that the said ventilating opening with the first adjacent rack blows out and cools off and form cold airflow and see off.
Further; The thermal current that the said first liquid cooling interchanger blows out the said ventilating opening of the first adjacent rack cools off and forms cold airflow and see off and be meant: the said first liquid cooling interchanger receives the thermal current that blows out from first, second space of the first adjacent rack of a side through said ventilating opening, cools off the formation cold airflow;
The said first liquid cooling interchanger is meant the said ventilating opening that cooled air-flow is sent to said first rack: the said first liquid cooling interchanger will cool off the said ventilating opening that the cold airflow that forms passes through the first adjacent rack of opposite side, be sent to first, second space of the first adjacent rack of this opposite side.
Further, said a plurality of first racks that are arranged in order form a rack formation;
Said cooling system also comprises two second liquid cooling interchangers, lays respectively at the two ends of said rack formation;
The said second liquid cooling interchanger is used for receiving the thermal current that this first rack first or second space blow out from the said ventilating opening of the first adjacent rack, cools off to form another space that cold airflow is sent into this first adjacent rack;
The centre of each said first liquid cooling interchanger also is provided with a dividing plate, and the said first liquid cooling interchanger is divided into first liquid cooling zone and second liquid cooling zone;
The thermal current that the said first liquid cooling interchanger blows out the said ventilating opening of the first adjacent rack cools off and forms cold airflow and see off and be meant: the first liquid cooling zone of the said first liquid cooling interchanger receives the thermal current that blows out from first space of the first adjacent rack of a side through said ventilating opening, and the thermal current that receives is cooled off the formation cold airflow; The second liquid cooling zone of the said first liquid cooling interchanger receives the thermal current that blows out from second space of the first adjacent rack of opposite side through said ventilating opening, and the thermal current that receives is cooled off the formation cold airflow;
The said first liquid cooling interchanger is meant the said ventilating opening that cooled air-flow is sent to said first rack: the said ventilating opening of the cold airflow of formation through the first adjacent rack of a said side will be cooled off in the second liquid cooling zone of the said first liquid cooling interchanger, send into second space of the first adjacent rack of this side; The ventilating opening that the cold airflow that forms passes through the first adjacent rack of said opposite side will be cooled off in the first liquid cooling zone of the said first liquid cooling interchanger, send into first space of the first adjacent rack of this opposite side.
Further, the two ends of said rack formation also respectively comprise at least one first liquid cooling interchanger;
The thermal current that the said first liquid cooling interchanger blows out the said ventilating opening of the first adjacent rack cools off and forms cold airflow and see off and be meant: first or second space of first rack that the said first liquid cooling interchanger is adjacent from one or both sides receives the thermal current that blows out through said ventilating opening, cools off the formation cold airflow;
The said first liquid cooling interchanger is meant the said ventilating opening that cooled air-flow is sent to said first rack: the said first liquid cooling interchanger will cool off the cold airflow that forms and pass through said ventilating opening, send into another space of the first adjacent rack of one or both sides.
The present invention also provides a kind of movably data center, comprising:
One container;
The rack that at least one has installed a plurality of exercisable computing systems is installed in the said container, wherein, said rack comprise perpendicular to the end face of said rack and bottom surface, with the parallel backboard in said rack front and back; Said backboard is divided into former and later two spaces with said rack room, is respectively first, second space;
First socket that at least one supplies exercisable computing system to insert is arranged on the first surface of said backboard, and wherein, when said exercisable computing system was connected with said first socket, said exercisable computing system was positioned at said first space;
Second socket that at least one supplies exercisable computing system to insert is arranged on the second surface of said backboard, and wherein, when said exercisable computing system was connected with said second socket, said exercisable computing system was positioned at said second space;
The left surface of said rack and right flank all have ventilating opening, and said ventilating opening is used for air intake or air-out;
The first liquid cooling interchanger is installed in the said container, be arranged in said at least one the left side or the right side of rack first rack of a plurality of exercisable computing systems have been installed, be used for cooled air-flow is sent to the said ventilating opening of said first rack.
Further, said at least one rack that a plurality of exercisable computing systems have been installed comprises a plurality of first racks;
Said a plurality of first rack is arranged in order, and has said first a liquid cooling interchanger between per two first adjacent racks at least;
The said first liquid cooling interchanger also is used for thermal current that the said ventilating opening with the first adjacent rack blows out and cools off and form cold airflow and see off.
Further; The thermal current that the said first liquid cooling interchanger blows out the said ventilating opening of the first adjacent rack cools off and forms cold airflow and see off and be meant: the said first liquid cooling interchanger receives the thermal current that blows out from first, second space of the first adjacent rack of a side through said ventilating opening, cools off the formation cold airflow;
The said first liquid cooling interchanger is meant the said ventilating opening that cooled air-flow is sent to said first rack: the said first liquid cooling interchanger will cool off the said ventilating opening that the cold airflow that forms passes through the first adjacent rack of opposite side, be sent to first, second space of the first adjacent rack of this opposite side.
Further, said a plurality of first racks that are arranged in order form a rack formation;
Said data center also comprises two second liquid cooling interchangers, is installed in the said container, lays respectively at the two ends of said rack formation;
The said second liquid cooling interchanger is used for receiving the thermal current that this first rack first or second space blow out from the said ventilating opening of the first adjacent rack, cools off to form another space that cold airflow is sent into this first adjacent rack;
The centre of each said first liquid cooling interchanger also is provided with a dividing plate, and the said first liquid cooling interchanger is divided into first liquid cooling zone and second liquid cooling zone;
The thermal current that the said first liquid cooling interchanger blows out the said ventilating opening of the first adjacent rack cools off and forms cold airflow and see off and be meant: the first liquid cooling zone of the said first liquid cooling interchanger receives the thermal current that blows out from first space of the first adjacent rack of a side through said ventilating opening, and the thermal current that receives is cooled off the formation cold airflow; The second liquid cooling zone of the said first liquid cooling interchanger receives the thermal current that blows out from second space of the first adjacent rack of opposite side through said ventilating opening, and the thermal current that receives is cooled off the formation cold airflow;
The said first liquid cooling interchanger is meant the said ventilating opening that cooled air-flow is sent to said first rack: the said ventilating opening of the cold airflow of formation through the first adjacent rack of a said side will be cooled off in the second liquid cooling zone of the said first liquid cooling interchanger, send into second space of the first adjacent rack of this side; The ventilating opening that the cold airflow that forms passes through the first adjacent rack of said opposite side will be cooled off in the first liquid cooling zone of the said first liquid cooling interchanger, send into first space of the first adjacent rack of this opposite side.
Further, the two ends of said rack formation also respectively comprise at least one first liquid cooling interchanger;
The thermal current that the said first liquid cooling interchanger blows out the said ventilating opening of the first adjacent rack cools off and forms cold airflow and see off and be meant: first or second space of first rack that the said first liquid cooling interchanger is adjacent from one or both sides receives the thermal current that blows out through said ventilating opening, cools off the formation cold airflow;
The said first liquid cooling interchanger is meant the said ventilating opening that cooled air-flow is sent to said first rack: the said first liquid cooling interchanger will cool off the cold airflow that forms and pass through said ventilating opening, send into another space of the first adjacent rack of one or both sides.
The present invention also provides a kind of rack, comprising:
Perpendicular to the end face of said rack and bottom surface, with the parallel backboard in said rack front and back;
Said backboard is divided into former and later two spaces with said rack room, is respectively first, second space;
First socket that at least one supplies exercisable computing system to insert is arranged on the first surface of said backboard, and wherein, when said exercisable computing system was connected with said first socket, said exercisable computing system was positioned at said first space;
Second socket that at least one supplies exercisable computing system to insert is arranged on the second surface of said backboard, and wherein, when said exercisable computing system was connected with said second socket, said exercisable computing system was positioned at said second space;
The left surface of said rack and right flank all have ventilating opening, and said ventilating opening is used for air intake or air-out.
One embodiment of the present of invention have the following advantages at least: through liquid cooling and air-cooled combining, improve radiating efficiency, eliminate pure air-cooled shortcoming.An alternative embodiment of the invention has the following advantages at least: in device layout; Through adding backboard in the middle of the rack, equipment can be installed front and back, and backboard has reduced the interconnection line between the equipment; The density that the node machine is installed in the rack is doubled; The wind direction of cooling machine cabinet is the mode on right from a left side (or from right left side), rather than common back-and-forth mode, improves radiating efficiency.
Description of drawings
Fig. 1 is in the existing wind-cooling heat dissipating mode, distinguished and admirable to synoptic diagram from the rack top;
Fig. 2 is the side view of the rack of embodiment one;
Fig. 3 is the synoptic diagram of one of cooling machine cabinet system implementation mode of embodiment two;
Fig. 4 is two a synoptic diagram of the cooling machine cabinet system implementation mode of embodiment two;
Fig. 5 is three a synoptic diagram of the cooling machine cabinet system implementation mode of embodiment two.
Embodiment
To combine accompanying drawing and embodiment that technical scheme of the present invention is explained in more detail below.
Need to prove that if do not conflict, each characteristic among the embodiment of the invention and the embodiment can mutually combine, all within protection scope of the present invention.In addition, though logical order has been shown, in some cases, can carry out step shown or that describe in process flow diagram with the order that is different from here.
Embodiment one, a kind of rack, as shown in Figure 2, comprising:
Perpendicular to the end face of said rack and bottom surface, with the parallel backboard in said rack front and back;
Said backboard is divided into former and later two spaces with said rack room, is respectively first, second space;
First socket that at least one supplies exercisable computing system to insert is arranged on the first surface of said backboard, and wherein, when said exercisable computing system was connected with said first socket, said exercisable computing system was positioned at said first space;
Second socket that at least one supplies exercisable computing system to insert is arranged on the second surface of said backboard, and wherein, when said exercisable computing system was connected with said second socket, said exercisable computing system was positioned at said second space;
The left surface of said rack and right flank all have ventilating opening, and said ventilating opening is used for air intake or air-out.
So, the differing heights in first, second space of rack all can laterally be placed exercisable computing system, and the exercisable computing system of said backboard both sides all connects said backboard through said socket; Owing to reduced cabling, and adopted the mode of bilateral, can increase the number of the exercisable computing system of placing in the rack greatly to inserting; Such as the rack of a 42U (1U is 44.5mm), suppose that existing mode is to place a node machine server among the unit height 1U, can only install maximum 42 station servers so; But in the present embodiment, through middle backboard, 84 servers can be installed to inserting mode in both sides, and density doubles.
In the present embodiment, said exercisable computing system can be server, also can be the node machine, can also be rack server; Do not get rid of the computing equipment that can be used as node for other during practical application yet.
In the present embodiment, the socket that said backboard provides can but be not limited to the flat socket of inserting mode; Heat radiation homogeneous heating more like this.
In the present embodiment, said rack can carry fan or other diversing flow systems, will carry that the thermal current of heat blows out rack in the rack; Also can be outside ventilation equipment blows into rack with air-flow from the said ventilating opening of rack one side, carries heat when air-flow passes rack, and the said ventilating opening from opposite side comes out then.
Embodiment two, a kind of cooling machine cabinet system comprise:
At least one has installed the rack of a plurality of exercisable computing systems;
Said rack comprise perpendicular to the end face of said rack and bottom surface, with the parallel backboard in said rack front and back; Said backboard is divided into former and later two spaces with said rack room, is respectively first, second space;
First socket that at least one supplies exercisable computing system to insert is arranged on the first surface of said backboard, and wherein, when said exercisable computing system was connected with said first socket, said exercisable computing system was positioned at said first space;
Second socket that at least one supplies exercisable computing system to insert is arranged on the second surface of said backboard, and wherein, when said exercisable computing system was connected with said second socket, said exercisable computing system was positioned at said second space;
The left surface of said rack and right flank all have ventilating opening, and said ventilating opening is used for air intake or air-out;
The first liquid cooling interchanger, be arranged in said at least one the left side or the right side of rack first rack of a plurality of exercisable computing systems have been installed, be used for cooled air-flow is sent to the said ventilating opening of said first rack.
In the present embodiment, other of said rack realizes that details can be with embodiment one.
In the present embodiment, the said first liquid cooling interchanger can comprise the fluid pipeline that links to each other with the external world, and liquid is through the said fluid pipeline said first liquid cooling interchanger of flowing through; When thermal current is blown over said fluid pipeline,, become cold airflow (for the thermal current that gets into the first liquid cooling interchanger) after the cooling with flowing liquid generation heat interchange in the said fluid pipeline; Heat is taken away through said flowing liquid, that is to say, the liquid in the first liquid cooling interchanger flows, and flows into cold liquid, liquid heating after the generation heat interchange, and the liquid of heat flows away.
In the present embodiment, said liquid can but be not limited to water, also can be other liquid.
In the present embodiment, said at least one rack that a plurality of exercisable computing systems have been installed can comprise a plurality of first racks;
Said a plurality of first rack is arranged in order, and has said first a liquid cooling interchanger between per two first adjacent racks at least;
The said first liquid cooling interchanger can also be used for thermal current that the said ventilating opening with the first adjacent rack blows out and cool off and form cold airflow and see off.
A kind of embodiment of present embodiment is as shown in Figure 3; Be a kind of semienclosed cooling system, among Fig. 3, said exercisable computing system is a server; Wherein, The white black surround arrow representes is the hot blast that rack blows out, what black arrow was represented is through the cooled wind of liquid cooling interchanger, among Fig. 4 and Fig. 5 too.
The thermal current that the said first liquid cooling interchanger blows out the said ventilating opening of the first adjacent rack cools off and forms cold airflow and see off and be meant: the said first liquid cooling interchanger receives the thermal current that blows out from first, second space of the first adjacent rack of a side through said ventilating opening, cools off the formation cold airflow;
The said first liquid cooling interchanger is meant the said ventilating opening that cooled air-flow is sent to said first rack: the said first liquid cooling interchanger will cool off the said ventilating opening that the cold airflow that forms passes through the first adjacent rack of opposite side, be sent to first, second space of the first adjacent rack of this opposite side.
It is thus clear that the cold airflow flow direction in first, second space of this first rack that is admitted to first rack is identical, and is parallel with said backboard.
In this embodiment, the route of heat transferred is:
Air-flow is admitted to first, second two spaces of first first rack of arbitrary end in a plurality of first racks that are arranged in order; From first, second two spaces of this first rack carry the thermal current that comes out behind the heat through the adjacent said first liquid cooling interchanger cooling of this first rack, one side after, get into first, second two spaces of the first adjacent rack of this first liquid cooling interchanger opposite side respectively; By that analogy, up to the thermal current that comes out of first first rack from the other end.
Said a plurality of first racks that are arranged in order form a rack formation; Two ends in this rack formation; Can place one second liquid cooling interchanger (just being arranged in the not adjacent side of first first rack of rack formation) respectively with other first rack; The air-flow that most begins to send into can be sent into first first rack of this end more earlier through the second liquid cooling interchanger of this end; If confirm it all is to send into air-flow, also can only place one second liquid cooling interchanger at this end from a certain end of rack formation; The said second liquid cooling interchanger can be identical with the first liquid cooling interchanger.
The another kind of embodiment of present embodiment is as shown in Figure 4, is a kind of fully closed cooling system, also comprises two second liquid cooling interchangers; The two ends that are positioned at said rack formation so, two liquid cooling interchangers about each first rack in a plurality of first racks that are arranged in order all has.
The said second liquid cooling interchanger is used for receiving the thermal current that this first rack first or second space blow out from the said ventilating opening of the first adjacent rack, cools off to form another space that cold airflow is sent into this first adjacent rack;
In this embodiment, the centre of each said first liquid cooling interchanger also is provided with a dividing plate, and the said first liquid cooling interchanger is divided into first liquid cooling zone and second liquid cooling zone;
The thermal current that the said first liquid cooling interchanger blows out the said ventilating opening of the first adjacent rack cools off and forms cold airflow and see off and be meant: the first liquid cooling zone of the said first liquid cooling interchanger receives the thermal current that blows out from first space of the first adjacent rack of a side through said ventilating opening, and the thermal current that receives is cooled off the formation cold airflow; The second liquid cooling zone of the said first liquid cooling interchanger receives the thermal current that blows out from second space of the first adjacent rack of opposite side through said ventilating opening, and the thermal current that receives is cooled off the formation cold airflow;
The said first liquid cooling interchanger is meant the said ventilating opening that cooled air-flow is sent to said first rack: the said ventilating opening of the cold airflow of formation through the first adjacent rack of a said side will be cooled off in the second liquid cooling zone of the said first liquid cooling interchanger, send into second space of the first adjacent rack of this side; The ventilating opening that the cold airflow that forms passes through the first adjacent rack of said opposite side will be cooled off in the first liquid cooling zone of the said first liquid cooling interchanger, send into first space of the first adjacent rack of this opposite side.
It is thus clear that the cold airflow flow direction in first, second space of this first rack that is admitted to first rack is opposite, but all parallel with said backboard.
In this embodiment, the two ends of said rack formation are called first end, second end respectively, the route of heat transferred is:
The thermal current that comes out from first space of first first rack of first end; Through the adjacent said first liquid cooling interchanger cooling of this first rack, one side; Get into first space of the first adjacent rack of this first liquid cooling interchanger opposite side; By that analogy, until the second liquid cooling interchanger that arrives second end; This second liquid cooling interchanger will be sent into second space of first first rack of this second end after cooling behind first space reception thermal current of first first rack of second end; The thermal current that comes out from this second space is through the adjacent said first liquid cooling interchanger cooling of this first rack, one side; Get into second space of the first adjacent rack of this first liquid cooling interchanger opposite side; By that analogy, until the second liquid cooling interchanger that arrives first end; This second liquid cooling interchanger will be sent into first space of first first rack of first end after cooling behind second space reception thermal current of first first rack of this first end; Form the circulation of an integral body thus.
Except the said first liquid cooling interchanger has the dividing plate, the said second liquid cooling interchanger can be identical with first other part of liquid cooling interchanger.
Another embodiment of present embodiment is as shown in Figure 5, is a kind of fully closed cooling system; The two ends of said rack formation also respectively comprise at least one first liquid cooling interchanger;
The thermal current that the said first liquid cooling interchanger blows out the said ventilating opening of the first adjacent rack cools off and forms cold airflow and see off and be meant: first or second space of first rack that the said first liquid cooling interchanger is adjacent from one or both sides receives the thermal current that blows out through said ventilating opening, cools off the formation cold airflow;
The said first liquid cooling interchanger is meant the said ventilating opening that cooled air-flow is sent to said first rack: the said first liquid cooling interchanger will cool off the cold airflow that forms and pass through said ventilating opening, send into another space of the first adjacent rack of one or both sides.
It is thus clear that the cold airflow flow direction in first, second space of this first rack that is admitted to first rack is opposite, but all parallel with said backboard.
In this embodiment, for each first rack, the route of its heat transferred is:
Air-flow is admitted to the thermal current that comes out behind first space of first rack, through the adjacent first liquid cooling interchanger cooling in this first rack left side or right side, gets into second space of this first rack; The thermal current that comes out from second space through the adjacent first liquid cooling interchanger cooling of this first rack opposite side after, send into first space of this first rack; Form a circulation thus.
In the present embodiment, each liquid cooling interchanger can be controlled the transmission direction of hot blast and cooled wind through internal or external power-equipment, like fan, fluid pump etc.; These equipment can integrate with the liquid cooling interchanger, also can be independently.
Embodiment three, a kind of movably data center comprise:
One container;
The rack that at least one has installed a plurality of exercisable computing systems is installed in the said container, wherein, said rack comprise perpendicular to the end face of said rack and bottom surface, with the parallel backboard in said rack front and back; Said backboard is divided into former and later two spaces with said rack room, is respectively first, second space;
First socket that at least one supplies exercisable computing system to insert is arranged on the first surface of said backboard, and wherein, when said exercisable computing system was connected with said first socket, said exercisable computing system was positioned at said first space;
Second socket that at least one supplies exercisable computing system to insert is arranged on the second surface of said backboard, and wherein, when said exercisable computing system was connected with said second socket, said exercisable computing system was positioned at said second space;
The left surface of said rack and right flank all have ventilating opening, and said ventilating opening is used for air intake or air-out;
The first liquid cooling interchanger is installed in the said container, be arranged in said at least one the left side or the right side of rack first rack of a plurality of exercisable computing systems have been installed, be used for cooled air-flow is sent to the said ventilating opening of said first rack.
In the present embodiment, other of said rack realizes that details can be with embodiment one, and the realization details of the said first liquid cooling interchanger can be with embodiment two.
In the present embodiment, can also comprise shakeproof layer between each rack and the said container.Can also comprise a supply line in the said container, the electric power system that carries with outside or container links to each other, and is used to each said exercisable computing system power supply.Can also comprise a data link in the said container, be used to connect each said exercisable computing system, can comprise an Ethernet switch that can conduct interviews in this data link from said container outside; Said electric power system is also supplied power for this Ethernet switch.Said movably data center can also comprise a data handling system, is used for deal with data, and can conduct interviews from said container outside through data link.
In the present embodiment, the liquid in the liquid cooling interchanger in the said movably data center can only flow in data center, to accomplish heat interchange; Also can flow into, flow out data center after carrying heat, to accomplish heat interchange from data center is outside.
In the present embodiment, said at least one rack that a plurality of exercisable computing systems have been installed can comprise a plurality of first racks;
Said a plurality of first rack is arranged in order, and has said first a liquid cooling interchanger between per two first adjacent racks at least;
The said first liquid cooling interchanger can also be used for thermal current that the said ventilating opening with the first adjacent rack blows out and cool off and form cold airflow and see off.
In a kind of embodiment of present embodiment; The thermal current that the said first liquid cooling interchanger blows out the said ventilating opening of adjacent first rack cools off and forms cold airflow and see off and can be meant: the said first liquid cooling interchanger receives the thermal current that blows out from first, second space of the first adjacent rack of a side through said ventilating opening, cools off the formation cold airflow;
The said first liquid cooling interchanger can be meant the said ventilating opening that cooled air-flow is sent to said first rack: the said first liquid cooling interchanger will cool off the said ventilating opening that the cold airflow that forms passes through the first adjacent rack of opposite side, be sent to first, second space of the first adjacent rack of this opposite side.
In this embodiment heat transferred route and other details can a same embodiment in embodiment shown in Figure 3.
In the another kind of embodiment of present embodiment, said a plurality of first racks that are arranged in order form a rack formation; Said data center also comprises two second liquid cooling interchangers, is installed in the said container, is positioned at the two ends of said rack formation;
The said second liquid cooling interchanger is used for receiving the thermal current that this first rack first or second space blow out from the said ventilating opening of the first adjacent rack, cools off to form another space that cold airflow is sent into this first adjacent rack;
The centre of each said first liquid cooling interchanger also is provided with a dividing plate, and the said first liquid cooling interchanger is divided into first liquid cooling zone and second liquid cooling zone;
The thermal current that the said first liquid cooling interchanger blows out the said ventilating opening of the first adjacent rack cools off and forms cold airflow and see off and be meant: the first liquid cooling zone of the said first liquid cooling interchanger receives the thermal current that blows out from first space of the first adjacent rack of a side through said ventilating opening, and the thermal current that receives is cooled off the formation cold airflow; The second liquid cooling zone of the said first liquid cooling interchanger receives the thermal current that blows out from second space of the first adjacent rack of opposite side through said ventilating opening, and the thermal current that receives is cooled off the formation cold airflow;
The said first liquid cooling interchanger is meant the said ventilating opening that cooled air-flow is sent to said first rack: the said ventilating opening of the cold airflow of formation through the first adjacent rack of a said side will be cooled off in the second liquid cooling zone of the said first liquid cooling interchanger, send into second space of the first adjacent rack of this side; The ventilating opening that the cold airflow that forms passes through the first adjacent rack of said opposite side will be cooled off in the first liquid cooling zone of the said first liquid cooling interchanger, send into first space of the first adjacent rack of this opposite side.
In this embodiment heat transferred route and other details can a same embodiment in embodiment shown in Figure 4.
In this embodiment, except said dividing plate, the realization details of the said second liquid cooling interchanger can be with the first liquid cooling interchanger.
In another embodiment of present embodiment, the two ends of said rack formation also respectively comprise at least one first liquid cooling interchanger;
The thermal current that the said first liquid cooling interchanger blows out the said ventilating opening of the first adjacent rack cools off and forms cold airflow and see off and be meant: first or second space of first rack that the said first liquid cooling interchanger is adjacent from one or both sides receives the thermal current that blows out through said ventilating opening, cools off the formation cold airflow;
The said first liquid cooling interchanger is meant the said ventilating opening that cooled air-flow is sent to said first rack: the said first liquid cooling interchanger will cool off the cold airflow that forms and pass through said ventilating opening, send into another space of the first adjacent rack of one or both sides.
In this embodiment heat transferred route and other details can a same embodiment in embodiment shown in Figure 5.
Certainly; The present invention also can have other various embodiments; Under the situation that does not deviate from spirit of the present invention and essence thereof; Those of ordinary skill in the art work as can make various corresponding changes and distortion according to the present invention, but these corresponding changes and distortion all should belong to the protection domain of claim of the present invention.
Claims (11)
1. a cooling machine cabinet system is characterized in that, comprising:
At least one has installed the rack of a plurality of exercisable computing systems;
Said rack comprise perpendicular to the end face of said rack and bottom surface, with the parallel backboard in said rack front and back; Said backboard is divided into former and later two spaces with said rack room, is respectively first, second space;
First socket that at least one supplies exercisable computing system to insert is arranged on the first surface of said backboard, and wherein, when said exercisable computing system was connected with said first socket, said exercisable computing system was positioned at said first space;
Second socket that at least one supplies exercisable computing system to insert is arranged on the second surface of said backboard, and wherein, when said exercisable computing system was connected with said second socket, said exercisable computing system was positioned at said second space;
The left surface of said rack and right flank all have ventilating opening, and said ventilating opening is used for air intake or air-out;
The first liquid cooling interchanger, be arranged in said at least one the left side or the right side of rack first rack of a plurality of exercisable computing systems have been installed, be used for cooled air-flow is sent to the said ventilating opening of said first rack.
2. cooling system as claimed in claim 1 is characterized in that:
Said at least one rack that a plurality of exercisable computing systems have been installed comprises a plurality of first racks;
Said a plurality of first rack is arranged in order, and has said first a liquid cooling interchanger between per two first adjacent racks at least;
The said first liquid cooling interchanger also is used for thermal current that the said ventilating opening with the first adjacent rack blows out and cools off and form cold airflow and see off.
3. cooling system as claimed in claim 2 is characterized in that:
The thermal current that the said first liquid cooling interchanger blows out the said ventilating opening of the first adjacent rack cools off and forms cold airflow and see off and be meant: the said first liquid cooling interchanger receives the thermal current that blows out from first, second space of the first adjacent rack of a side through said ventilating opening, cools off the formation cold airflow;
The said first liquid cooling interchanger is meant the said ventilating opening that cooled air-flow is sent to said first rack: the said first liquid cooling interchanger will cool off the said ventilating opening that the cold airflow that forms passes through the first adjacent rack of opposite side, be sent to first, second space of the first adjacent rack of this opposite side.
4. cooling system as claimed in claim 2 is characterized in that:
Said a plurality of first racks that are arranged in order form a rack formation;
Said cooling system also comprises two second liquid cooling interchangers, lays respectively at the two ends of said rack formation;
The said second liquid cooling interchanger is used for receiving the thermal current that this first rack first or second space blow out from the said ventilating opening of the first adjacent rack, cools off to form another space that cold airflow is sent into this first adjacent rack;
The centre of each said first liquid cooling interchanger also is provided with a dividing plate, and the said first liquid cooling interchanger is divided into first liquid cooling zone and second liquid cooling zone;
The thermal current that the said first liquid cooling interchanger blows out the said ventilating opening of the first adjacent rack cools off and forms cold airflow and see off and be meant: the first liquid cooling zone of the said first liquid cooling interchanger receives the thermal current that blows out from first space of the first adjacent rack of a side through said ventilating opening, and the thermal current that receives is cooled off the formation cold airflow; The second liquid cooling zone of the said first liquid cooling interchanger receives the thermal current that blows out from second space of the first adjacent rack of opposite side through said ventilating opening, and the thermal current that receives is cooled off the formation cold airflow;
The said first liquid cooling interchanger is meant the said ventilating opening that cooled air-flow is sent to said first rack: the said ventilating opening of the cold airflow of formation through the first adjacent rack of a said side will be cooled off in the second liquid cooling zone of the said first liquid cooling interchanger, send into second space of the first adjacent rack of this side; The ventilating opening that the cold airflow that forms passes through the first adjacent rack of said opposite side will be cooled off in the first liquid cooling zone of the said first liquid cooling interchanger, send into first space of the first adjacent rack of this opposite side.
5. cooling system as claimed in claim 2 is characterized in that:
The two ends of said rack formation also respectively comprise at least one first liquid cooling interchanger;
The thermal current that the said first liquid cooling interchanger blows out the said ventilating opening of the first adjacent rack cools off and forms cold airflow and see off and be meant: first or second space of first rack that the said first liquid cooling interchanger is adjacent from one or both sides receives the thermal current that blows out through said ventilating opening, cools off the formation cold airflow;
The said first liquid cooling interchanger is meant the said ventilating opening that cooled air-flow is sent to said first rack: the said first liquid cooling interchanger will cool off the cold airflow that forms and pass through said ventilating opening, send into another space of the first adjacent rack of one or both sides.
6. a data center movably is characterized in that, comprising:
One container;
The rack that at least one has installed a plurality of exercisable computing systems is installed in the said container, wherein, said rack comprise perpendicular to the end face of said rack and bottom surface, with the parallel backboard in said rack front and back; Said backboard is divided into former and later two spaces with said rack room, is respectively first, second space;
First socket that at least one supplies exercisable computing system to insert is arranged on the first surface of said backboard, and wherein, when said exercisable computing system was connected with said first socket, said exercisable computing system was positioned at said first space;
Second socket that at least one supplies exercisable computing system to insert is arranged on the second surface of said backboard, and wherein, when said exercisable computing system was connected with said second socket, said exercisable computing system was positioned at said second space;
The left surface of said rack and right flank all have ventilating opening, and said ventilating opening is used for air intake or air-out;
The first liquid cooling interchanger is installed in the said container, be arranged in said at least one the left side or the right side of rack first rack of a plurality of exercisable computing systems have been installed, be used for cooled air-flow is sent to the said ventilating opening of said first rack.
7. data center as claimed in claim 6 is characterized in that:
Said at least one rack that a plurality of exercisable computing systems have been installed comprises a plurality of first racks;
Said a plurality of first rack is arranged in order, and has said first a liquid cooling interchanger between per two first adjacent racks at least;
The said first liquid cooling interchanger also is used for thermal current that the said ventilating opening with the first adjacent rack blows out and cools off and form cold airflow and see off.
8. data center as claimed in claim 7 is characterized in that:
The thermal current that the said first liquid cooling interchanger blows out the said ventilating opening of the first adjacent rack cools off and forms cold airflow and see off and be meant: the said first liquid cooling interchanger receives the thermal current that blows out from first, second space of the first adjacent rack of a side through said ventilating opening, cools off the formation cold airflow;
The said first liquid cooling interchanger is meant the said ventilating opening that cooled air-flow is sent to said first rack: the said first liquid cooling interchanger will cool off the said ventilating opening that the cold airflow that forms passes through the first adjacent rack of opposite side, be sent to first, second space of the first adjacent rack of this opposite side.
9. data center as claimed in claim 7 is characterized in that:
Said a plurality of first racks that are arranged in order form a rack formation;
Said data center also comprises two second liquid cooling interchangers, is installed in the said container, lays respectively at the two ends of said rack formation;
The said second liquid cooling interchanger is used for receiving the thermal current that this first rack first or second space blow out from the said ventilating opening of the first adjacent rack, cools off to form another space that cold airflow is sent into this first adjacent rack;
The centre of each said first liquid cooling interchanger also is provided with a dividing plate, and the said first liquid cooling interchanger is divided into first liquid cooling zone and second liquid cooling zone;
The thermal current that the said first liquid cooling interchanger blows out the said ventilating opening of the first adjacent rack cools off and forms cold airflow and see off and be meant: the first liquid cooling zone of the said first liquid cooling interchanger receives the thermal current that blows out from first space of the first adjacent rack of a side through said ventilating opening, and the thermal current that receives is cooled off the formation cold airflow; The second liquid cooling zone of the said first liquid cooling interchanger receives the thermal current that blows out from second space of the first adjacent rack of opposite side through said ventilating opening, and the thermal current that receives is cooled off the formation cold airflow;
The said first liquid cooling interchanger is meant the said ventilating opening that cooled air-flow is sent to said first rack: the said ventilating opening of the cold airflow of formation through the first adjacent rack of a said side will be cooled off in the second liquid cooling zone of the said first liquid cooling interchanger, send into second space of the first adjacent rack of this side; The ventilating opening that the cold airflow that forms passes through the first adjacent rack of said opposite side will be cooled off in the first liquid cooling zone of the said first liquid cooling interchanger, send into first space of the first adjacent rack of this opposite side.
10. data center as claimed in claim 7 is characterized in that:
The two ends of said rack formation also respectively comprise at least one first liquid cooling interchanger;
The thermal current that the said first liquid cooling interchanger blows out the said ventilating opening of the first adjacent rack cools off and forms cold airflow and see off and be meant: first or second space of first rack that the said first liquid cooling interchanger is adjacent from one or both sides receives the thermal current that blows out through said ventilating opening, cools off the formation cold airflow;
The said first liquid cooling interchanger is meant the said ventilating opening that cooled air-flow is sent to said first rack: the said first liquid cooling interchanger will cool off the cold airflow that forms and pass through said ventilating opening, send into another space of the first adjacent rack of one or both sides.
11. a rack is characterized in that, comprising:
Perpendicular to the end face of said rack and bottom surface, with the parallel backboard in said rack front and back;
Said backboard is divided into former and later two spaces with said rack room, is respectively first, second space;
First socket that at least one supplies exercisable computing system to insert is arranged on the first surface of said backboard, and wherein, when said exercisable computing system was connected with said first socket, said exercisable computing system was positioned at said first space;
Second socket that at least one supplies exercisable computing system to insert is arranged on the second surface of said backboard, and wherein, when said exercisable computing system was connected with said second socket, said exercisable computing system was positioned at said second space;
The left surface of said rack and right flank all have ventilating opening, and said ventilating opening is used for air intake or air-out.
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CN 201010234979 CN102339108B (en) | 2010-07-21 | 2010-07-21 | Machine cabinet, machine cabinet radiating system and movable data center |
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Cited By (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102833988A (en) * | 2012-09-19 | 2012-12-19 | 北京德能恒信科技有限公司 | Data center heat dissipation scheme |
CN103118522A (en) * | 2013-01-31 | 2013-05-22 | 北京德能恒信科技有限公司 | Cooling system of data center |
CN103200804A (en) * | 2013-03-21 | 2013-07-10 | 彭渊博 | Heat generating equipment cabinet cooling system |
WO2014127678A1 (en) * | 2013-02-21 | 2014-08-28 | Tencent Technology (Shenzhen) Company Limited | Apparatus for cooling server cabinet and server cabinet apparatus |
CN104503556A (en) * | 2014-12-29 | 2015-04-08 | 浪潮电子信息产业股份有限公司 | Air cooling and liquid cooling combination-based redundant backup server radiation system |
CN105658041A (en) * | 2016-04-05 | 2016-06-08 | 浪潮电子信息产业股份有限公司 | Data center and data center cooling system |
CN105716181A (en) * | 2016-04-05 | 2016-06-29 | 浪潮电子信息产业股份有限公司 | Cold source device and heat radiation system |
CN106163229A (en) * | 2016-07-08 | 2016-11-23 | 北京百度网讯科技有限公司 | Data center |
CN106659086A (en) * | 2016-12-30 | 2017-05-10 | 华为数字技术(苏州)有限公司 | Refrigeration container and container data center |
WO2023213160A1 (en) * | 2022-05-05 | 2023-11-09 | 天津商业大学 | Novel highly-efficient data center server liquid-cooling heat dissipation cabinet |
Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2724365Y (en) * | 2004-07-07 | 2005-09-07 | 华为技术有限公司 | Machine cabinet |
CN201135011Y (en) * | 2007-12-14 | 2008-10-15 | 范垚银 | Liquid cooling apparatus of cabinet stage |
CN201491442U (en) * | 2009-06-17 | 2010-05-26 | 北京友邦众拓能源技术有限公司 | System for producing uninterrupted chilled water |
-
2010
- 2010-07-21 CN CN 201010234979 patent/CN102339108B/en active Active
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2724365Y (en) * | 2004-07-07 | 2005-09-07 | 华为技术有限公司 | Machine cabinet |
CN201135011Y (en) * | 2007-12-14 | 2008-10-15 | 范垚银 | Liquid cooling apparatus of cabinet stage |
CN201491442U (en) * | 2009-06-17 | 2010-05-26 | 北京友邦众拓能源技术有限公司 | System for producing uninterrupted chilled water |
Cited By (12)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102833988A (en) * | 2012-09-19 | 2012-12-19 | 北京德能恒信科技有限公司 | Data center heat dissipation scheme |
CN102833988B (en) * | 2012-09-19 | 2016-04-13 | 北京德能恒信科技有限公司 | A kind of data center heat dissipation scheme |
CN103118522A (en) * | 2013-01-31 | 2013-05-22 | 北京德能恒信科技有限公司 | Cooling system of data center |
WO2014127678A1 (en) * | 2013-02-21 | 2014-08-28 | Tencent Technology (Shenzhen) Company Limited | Apparatus for cooling server cabinet and server cabinet apparatus |
US9674989B2 (en) | 2013-02-21 | 2017-06-06 | Tencent Technology (Shenzhen) Company Limited | Apparatus for cooling server cabinet and server cabinet apparatus |
CN103200804A (en) * | 2013-03-21 | 2013-07-10 | 彭渊博 | Heat generating equipment cabinet cooling system |
CN104503556A (en) * | 2014-12-29 | 2015-04-08 | 浪潮电子信息产业股份有限公司 | Air cooling and liquid cooling combination-based redundant backup server radiation system |
CN105658041A (en) * | 2016-04-05 | 2016-06-08 | 浪潮电子信息产业股份有限公司 | Data center and data center cooling system |
CN105716181A (en) * | 2016-04-05 | 2016-06-29 | 浪潮电子信息产业股份有限公司 | Cold source device and heat radiation system |
CN106163229A (en) * | 2016-07-08 | 2016-11-23 | 北京百度网讯科技有限公司 | Data center |
CN106659086A (en) * | 2016-12-30 | 2017-05-10 | 华为数字技术(苏州)有限公司 | Refrigeration container and container data center |
WO2023213160A1 (en) * | 2022-05-05 | 2023-11-09 | 天津商业大学 | Novel highly-efficient data center server liquid-cooling heat dissipation cabinet |
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