CN206196222U - Energy -saving computer server cooling device - Google Patents

Abstract

The utility model mainly discloses an energy -saving computer server cooling device, including the rack bounding wall, the server, cooling -fluid input pipe, riser etc, the server is installed on the channel layer board, the coolant liquid of channel layer inboard is passed through cooling -fluid input pipe and is inputed and divide liquid to channel layer inboard to the riser after, the circulating fan will extract partial hot -air and cool off and the dehumidification through heat exchange coil, another part hot -air pass through bypass blast gate and air mixing by after the cooling carry after the cooling blower acting realize the rack to the server in part cooling and controlled humidity, this structure is with the design of contact heat conduction formula, in transferring to endothermic fluid with the heat dissipation of all kinds of chips of server and original paper, outdoor environment is taken to through the mode that moves in circles with the calorific value to the heat absorption fluid, realize with this mode that the cooling way can improve the sink temperature by a relatively large margin, heat transfer process in the middle of the while reduces, compression integral environment cooling demand, the stable work of server is satisfied simultaneously to final realization, reduces computer room whole energy consumption.

Description

A kind of energy-saving computer server cooling device

Technical field

The utility model is related to a kind of energy-saving computer server cooling device, and in particular to a kind of contact computer Room server cooling device, it is main that contact cooling capacity is provided, while aid in providing circulating dehumidification function, to meet server Cooling-down humidity-controlling demand.

Background technology

With the development in epoch, supercomputer and Various types of data center are developed with extremely swift and violent situation, therewith Come, the energy resource consumption at Various types of data center is also more and more big, and PUE values are one of all kinds of computer floor energy efficiency indexes important Index, current domestic all kinds of computer floor PUE values are generally 1.8 or even more than 2.0；And related data is announced according to Google, its PUE values are minimum already below 1.1；Domestic computer floor has huge energy-saving potential；Computer floor is generally carried using refrigeration unit Control passes through various design approach to cool down server after air heat-exchanging device exchanges heat cooling in cooling source, computer room；Generally Computer floor indoor environment need to control between 20-26 DEG C to maintain the normal working temperature of all kinds of chips of server, original paper；But Computer room entirety temperature control mode largely wastes low-temperature receiver, improves computer cooling energy consumption；Actually usual CPU can be 65 DEG C following normal work of chip temperature, GPU can below 70 DEG C normal work, hard disk can below 60 DEG C normal work；If energy All kinds of chips and component temperature are more directly controlled by reasonable approach, significantly energy-conservation is can be achieved to.

Utility model content

In view of the shortcomings of the prior art, the utility model provides a kind of energy-saving computer server cooling device, And disadvantages described above can be overcome.

In order to achieve the above object, the utility model is achieved through the following technical solutions：A kind of energy-saving computer clothes Business device cooling device, including rack coaming plate, blind plate, server, coolant inlet pipe, passage laminate, standpipe, circulating fan, change Hot coil, bypass air-valve, cooling blower, the server are arranged on passage laminate, and blind plate is located at server-side portion, coolant Input pipe is connected with standpipe, and standpipe is connected with passage laminate, has coolant in the passage laminate, and coolant passes through coolant Input pipe is input into standpipe in point liquid to passage laminate, the circulating fan, heat exchange coil, bypass air-valve, cooling blower structure Into an air cooling recirculation system, circulating fan will extract the part hot-air of server generation and be cooled down by heat exchange coil And dehumidifying, another part hot-air that server is produced by bypass air-valve and it is cooled after air mix and done through cooling blower Server is delivered to after work(and realizes that interior of equipment cabinet point is lowered the temperature and controls humidity.

As preferred：The rack coaming plate is provided with the passage laminate of some horizontal distributions, is provided with some in passage laminate Level and the canaliculus being uniformly arranged, coolant inlet pipe include being located at the input pipe and efferent duct of rack coaming plate top both sides, stand Pipe includes being distributed in point liquid standpipe and the liquid collecting standpipe of rack coaming plate sidepiece, and standpipe inner side is provided with the branch being connected with each passage laminate Pipe, coolant flow to a point liquid standpipe by input pipe, and point liquid standpipe passes through branch pipe by the micro- of coolant distribution to each passage laminate In road, coolant is after the heat exchange of passage laminate in liquid collecting standpipe.

As preferred：The blind plate blocks the gap between server and passage laminate, and this structure blind plate is blocked Gap between server and passage laminate, can allow the air-flow must be by server, rather than directly passing through between two-layer Gap is returned directly to other end return air inlet, it is to avoid air flow shortcircuit, influences cooling effect.

As preferred：Cooling medium in heat exchange coil is water at low temperature, energy-conservation and is facilitated.

As preferred：Heat conductive insulating pad is provided between the server and passage laminate, this structure heat conductive insulating pad increases Server contacts adaptation and contact area with laminate, effectively strengthens conducting heat and realizing good electric insulation.

The utility model has the beneficial effect that：

The design for overcoming conventional computer room integrally to lower the temperature, is designed, by all kinds of chips of server with thermal contact conductance formula It is transferred in heat recipient fluid with original paper radiating；Calorific value is taken to outdoor environment by heat recipient fluid by way of moving in circles；With this Mode realizes that cooling approach can by a relatively large margin improve sink temperature, while intermediate heat transfer process is reduced, compression integrated environment cooling Demand, it is final to realize meeting server steady operation simultaneously, reduce computer floor entirety energy consumption.

Brief description of the drawings

Fig. 1 is structural representation of the present utility model；

Fig. 2 is the utility model coolant type of cooling schematic diagram；

Fig. 3 is the utility model standpipe plate structure schematic diagram；

Fig. 4 is channel layer plate structure schematic diagram of the present utility model；

Fig. 5 is the utility model server mounting means structure chart；

Brief description of the drawings：101st, rack coaming plate；102nd, blind plate；103rd, server；104th, coolant inlet pipe；105th, channel layer Plate；106th, standpipe；107th, circulating fan；108th, heat exchange coil；109th, air-valve is bypassed；110th, cooling blower；111st, canaliculus；112、 Branch pipe；113rd, heat conductive insulating pad；1011st, input pipe；1012nd, efferent duct；1061st, liquid standpipe is divided；1062nd, liquid collecting standpipe.

Specific embodiment

With reference to accompanying drawing, the utility model preferred embodiment is described in further details.

Embodiment 1

As Fig. 1-5 shows, a kind of energy-saving computer server cooling device, including rack coaming plate 101, blind plate 102, service Device 103, coolant inlet pipe 104, passage laminate 105, standpipe 106, circulating fan 107, heat exchange coil 108, bypass air-valve 109th, cooling blower 110, the server 103 is arranged on passage laminate 105, and blind plate 102 is located at the sidepiece of server 103, cold But liquid input pipe 104 is connected with standpipe 106, and standpipe 106 is connected with passage laminate 105, has cooling in the passage laminate 105 Liquid, coolant is input into standpipe 106 in point liquid to passage laminate 105 by coolant inlet pipe 104, the circulating fan 107th, heat exchange coil 108, bypass air-valve 109, cooling blower 110 constitute an air cooling recirculation system, and circulating fan 107 will Extract the part hot-air of the generation of server 103 and cool down and dehumidify by heat exchange coil 108, it is another that server 103 is produced Part hot-air by bypass air-valve 109 and it is cooled after air mix and is delivered to server after the acting of cooling blower 110 103 realize that interior of equipment cabinet point is lowered the temperature and controls humidity；The rack coaming plate 101 is provided with the passage laminate of some horizontal distributions 105, some levels and the canaliculus 111 being uniformly arranged are provided with passage laminate 105, coolant inlet pipe 104 includes being located at rack The input pipe 1011 and efferent duct 1012 of the top both sides of coaming plate 101, standpipe 106 include being distributed in dividing for the sidepiece of rack coaming plate 101 Liquid standpipe 1061 and liquid collecting standpipe 1062, the inner side of standpipe 106 are provided with the branch pipe 112 being connected with each passage laminate 105, and coolant is led to Cross input pipe 1011 and flow to a point liquid standpipe 1061, point liquid standpipe 1061 passes through branch pipe 112 by coolant distribution to each passage laminate In 105 canaliculus 111, coolant is after the heat exchange of passage laminate 105 in liquid collecting standpipe 1062；The blind plate 102 is by server Gap between 103 and passage laminate 105 blocks.Allow the air-flow must be by server, rather than directly passing through between two-layer Gap be returned directly to other end return air inlet, it is to avoid air flow shortcircuit, influence cooling effect；Cooling in heat exchange coil 108 is situated between Matter is water at low temperature；Heat conductive insulating pad 113 is provided between the server 103 and passage laminate 105, heat conductive insulating pad increases service Device contacts adaptation and contact area with laminate, effectively strengthens conducting heat and realizing good electric insulation.

During practical operation, in coolant inlet pipe 104 be input into coolant may be selected to be conduction oil, chemical refrigerant or Water, refrigerant is 7/12 DEG C of water of low temperature in coil pipe, and coolant inlet pipe 104, passage laminate 105, standpipe 106 constitute contact Cooling system, the main cooling capacity of the System Take computer server, the confession of cooling liquid returns mode except as shown in Figure 2 Go out outside mode on enterprising, go out under can also be designed as down, upper entering and lower leaving, the combining form such as bottom in and top out；By circulating fan 107, Heat exchange coil 108, bypass air-valve 109, cooling blower 110 constitute an air cooling loop organization.Extracted by circulating fan 107 A part of hot-air that server is produced is cooled down and dehumidified by heat exchange coil 108, another part directly by ventilation valve 109 and Air mixing is delivered to each server and realizes that interior of equipment cabinet point is lowered the temperature and controlled wet after cooled after being done work via cooling blower 110 Degree；The utility model overcomes the design that conventional computer room integrally lowers the temperature, and is designed with thermal contact conductance formula, and server is all kinds of Chip is transferred in heat recipient fluid with original paper radiating；Calorific value is taken to outdoor environment by heat recipient fluid by way of moving in circles； Realize that cooling approach can by a relatively large margin improve sink temperature in this way, while reducing intermediate heat transfer process, compress integrated environment Cooling requirement, it is final to realize meeting server steady operation simultaneously, reduce computer floor entirety energy consumption.

Above-described embodiment is only used for illustrating utility model design of the present utility model, rather than to the utility model right The restriction of protection, all changes for carrying out unsubstantiality to the utility model using this design, all should fall into guarantor of the present utility model Shield scope.

Claims (5)

1. a kind of energy-saving computer server cooling device, it is characterised in that：Including rack coaming plate (101), blind plate (102), Server (103), coolant inlet pipe (104), passage laminate (105), standpipe (106), circulating fan (107), heat exchange coil (108), bypass air-valve (109), cooling blower (110), the server (103) on passage laminate (105), blind plate (102) server (103) sidepiece is located at, coolant inlet pipe (104) is connected with standpipe (106), standpipe (106) and passage laminate (105) connect, there is coolant in the passage laminate (105), coolant is input into standpipe by coolant inlet pipe (104) (106) liquid is divided afterwards in passage laminate (105), it is the circulating fan (107), heat exchange coil (108), bypass air-valve (109), cold But blower fan (110) constitutes an air cooling recirculation system, and circulating fan (107) will extract the part that server (103) is produced Hot-air is simultaneously cooled down and dehumidified by heat exchange coil (108), and another part hot-air that server (103) is produced is by bypassing wind Valve (109) with it is cooled after air mix and is delivered to server (103) after cooling blower (110) acting and realizes interior of equipment cabinet Point lower the temperature and control humidity.

2. a kind of energy-saving computer server cooling device according to claim 1, it is characterised in that：The rack encloses Plate (101) is provided with the passage laminate (105) of some horizontal distributions, passage laminate (105) and is provided with some levels and uniformly sets The canaliculus (111) put, coolant inlet pipe (104) including be located at rack coaming plate (101) top both sides input pipe (1011) and Efferent duct (1012), standpipe (106) is including being distributed in point the liquid standpipe (1061) and liquid collecting standpipe of rack coaming plate (101) sidepiece (1062),

Standpipe (106) inner side is provided with the branch pipe (112) being connected with each passage laminate (105), and coolant passes through input pipe (1011) A point liquid standpipe (1061) is flow to, point liquid standpipe (1061) is by branch pipe (112) by coolant distribution to each passage laminate (105) In canaliculus (111), coolant is after passage laminate (105) heat exchange in liquid collecting standpipe (1062).

3. a kind of energy-saving computer server cooling device according to claim 1, it is characterised in that：The blind plate (102) gap between server (103) and passage laminate (105) is blocked.

4. a kind of energy-saving computer server cooling device according to claim 1, it is characterised in that：Heat exchange coil (108) cooling medium in is water at low temperature.

5. a kind of energy-saving computer server cooling device according to claim 1, it is characterised in that：The server (103) heat conductive insulating pad (113) is provided with and passage laminate (105) between.