CN205563397U - Integral type liquid cooling heat dissipation computer machine case - Google Patents

Abstract

The utility model relates to a liquid cooling field provides integral type liquid cooling heat dissipation computer machine case, the power distribution box comprises a box body, mainboard and liquid cooling cooling system, the box is the airtight space that comprises the polylith wallboard, the mainboard is arranged in the box, be provided with the device that generates heat on the mainboard, the device that generates heat includes CPU and display card, the bottom half forms the reservoir, the reservoir is used for saving the coolant liquid, liquid cooling cooling system includes the pipeline, a heat radiation mechanism arranged under the upper casing, pump sending mechanism and spray mechanism, the coolant pump of pump sending mechanism in with the reservoir goes into in the pipeline, the one end of pipeline is connected with spray mechanism, spray mechanism spray the coolant liquid in the box or direct injection on the device that generates heat, on the pipeline of heat dissipation establishment of institution the spray mechanism before or set up on the box wallboard, heat dissipation mechanism is outside to the box with the heat transfer of coolant liquid, the utility model relates to a style structural design solves the too high situation of computer internal heat generation device temperature, and the device convenient to carry, reasonable in design, light in weight, heat transfer ability reinforce and cost are lower.

Description

Integral type liquid-cooling heat radiation computer cabinet

Technical field

This utility model relates to liquid cooling field, particularly relates to integral type liquid-cooling heat radiation computer cabinet.

Background technology

Along with the fast development of modern computer science, Automated library system degree is more and more higher, performance is become better and better, Heat radiation difficulty is the most increasing simultaneously.For ensureing the properly functioning of equipment, heat need to be derived from heater element In environment.For the equipment that caloric value is little, generally use air-cooled heat radiation, increasing situation Under, air-cooled can not meet radiating requirements, liquid cooling application increases.Compared with air-cooled, liquid is cold will Coolant directly or indirectly guides thermal source, and owing to the specific heat capacity of liquid is much larger than gas, unit volume can be transmitted Heat also far above air.

At present, the application process that liquid is cold is broadly divided into the cooling of direct liquid and Indirect liquid cools down two kinds.Directly Connect liquid cooling, as the term suggests directly contacting with heater members, existing direct liquid cooling side for coolant Immersion liquid-cooled suit business device, U.S. Patent Publication No. that method application has patent publication No. to be CN104597994 are A kind of integrated heat spreader of US7911782B2, pumping system are in the high-performance computer of one.Above-mentioned direct liquid Body cooling is required to a large amount of coolant, causes that system weight is big, structure is complicated.The meter of current computer chip Calculation ability improves rapidly, and caloric value is also continuing increase, and above-mentioned direct liquid cooling technology adapts to this challenge Limited in one's ability.

Corresponding with the cooling of direct liquid, the coolant in Indirect liquid cooling is not directly contacted with heater members, Evaporation-cooled device attached to surface of super computer as disclosed in patent publication No. is CN101751096B, patent Publication No. is that the liquid cold plate used in CN102711414A contacts with heater members, and indirect belt walks heat Device.Both schemes can only cool down and process CPU, GPU etc. to possess the heater members of regular heat-delivery surface scattered The heat issued, and helpless to other heater members such as parts such as internal memory, resistance on circuit board, The most often also need to and air-cooled combination.Additionally due to coolant is not directly contacted with heater members, centre is deposited In thermal contact resistance and thermal-conduction resistance, cause heat exchanger efficiency low.In the case of equal heater members surface temperature, Lower coolant temperature is needed than the cooling of direct liquid.

During computer uses, computer heating seriously can cause computer corruption, blue screen, power-off etc. Fault, the basic structure of traditional computer wind-cooling heat dissipating includes fan and fastener, it usually needs install multiple wind Fan, but the fan installed too much can expend a large amount of electric energy, meanwhile, makes limited housing interior volume narrower Little, radiating efficiency is relatively low, it addition, also there are some computers to use immersion liquid-cooling heat radiation structure, generally needs Outer circulation device to be attached, structure is complicated, owing to coolant is full of cabinet by needs, can exist cost high, The drawback that weight is big, therefore computer internal heat generation element is carried out by design integral type liquid-cooling heat radiation computer cabinet Cooling down is necessary.

Utility model content

For overcoming the deficiencies in the prior art, this utility model purpose is to provide integral type liquid-cooling heat radiation computer Case, including casing, mainboard and liquid cooling heat radiation system, described casing is the confined space being made up of polylith wallboard, Described mainboard is placed in described casing, and described mainboard is provided with heater members, and described heater members includes CPU And video card, described box bottom forms reservoir, and described reservoir is used for storing coolant, described coolant For non-electrically conductive liquid, described liquid cooling heat radiation system includes pipeline, cooling mechanism, pumping mechanism and spraying mechanism, Coolant in described reservoir is pumped in described pipeline by described pumping mechanism, and one end of described pipeline connects There is described spraying mechanism, in coolant is injected in described casing by described spraying mechanism or inject directly on described On heater members, described cooling mechanism be arranged on described spraying mechanism before pipeline on or be arranged on described case On body wall plate, the heat of coolant is delivered to outside described casing by described cooling mechanism.

Preferably, described reservoir is open-top reservoir, and the other end of described pipeline is immersed in described In coolant in reservoir.

Alternatively, the other end of described pipeline is connected with the described pumping mechanism being placed in described reservoir.

Preferably, described liquid cooling heat radiation system also includes filter mechanism, and described filter mechanism can be by coolant In Impurity removal.

Specifically, described cooling mechanism is heat exchanger, and described pumping mechanism is pump, and described filter mechanism was Filter, the quantity of described heat exchanger, described pump and described filter is one or more.

Preferably, described spraying mechanism includes catheter and the nozzle connected with described catheter, described drain Pipe is connected with described pipeline.

Preferably, described catheter includes main catheter and/or the bifurcated catheter connected with described main catheter, Described nozzle is arranged on described main catheter and/or bifurcated catheter, or is arranged on described by adaptor On catheter.

In detail, coolant is injected on described heater members by described nozzle with Sprayable, to described Thermal device carries out cooling down.

Preferably, the nozzle on described bifurcated catheter is oppositely arranged with described heater members.

Further, described casing is provided with breather, described breather is provided with gas permeable material.

The integral type liquid-cooling heat radiation computer cabinet that this utility model provides, it has the advantages that

1, the integral type liquid-cooling heat radiation computer cabinet that this utility model provides, with existing air-cooled or liquid cold charge Put and compare, have employed the form of spraying, by space in spray coolant to casing, utilize droplet coverage rate Big advantage, forms thin liquid film on heater members surface, due to droplet ejection at a high speed, impact to device surface Time still there is high flow velocities, therefore can promote liquid film flow at high speed, thus enhanced heat exchange, improve cooling heat radiation Efficiency.

2, during the Spray Way that this utility model uses forms liquid film on heater members surface, with Droplet impact meeting generating portion bubble, these bubbles become in the case of heater members surface temperature is higher The nucleus of boiling of liquid, can evaporate faster than the immersion liquid-cooled suit business device in background technology, further Enhanced heat exchange, so allows for using higher coolant temperature, thus expands device application Scope.

3, the integral type liquid-cooling heat radiation computer cabinet that this utility model provides, owing to using spray pattern, no Need to arrange structure as so complicated in liquid-cooling heat radiator in background technology, it is not required that provide substantial amounts of cold But liquid, thus greatly reduce the weight of whole cabinet, relatively costly due to coolant, subtract the most greatly Lack equipment cost, simultaneously because spray cooling only needs low discharge can obtain good radiating effect, therefore The wasted work of pump reduces further.

4, the integral type liquid-cooling heat radiation computer cabinet that this utility model provides, for the device that local pyrexia amount is big Part, such as CPU and video card, is also provided with single refrigerating module, uses topical spray or swiftly flowing side Method is to strengthen its heat exchange.

5, the integral type liquid-cooling heat radiation computer cabinet that this utility model provides, is formed after coolant is evaporated The supercool droplet that steam sprays with nozzle mixes, and cooling liquid steam more can be promoted to condense.

6, the spraying mechanism that this utility model uses, the supercool droplet utilizing steam to spray with nozzle mixes, cold But liquid steam condensation, it is not necessary to be separately provided condenser, alleviate construction weight, expands answering of this device Use scope.

7, it is provided with breather on the integral type liquid-cooling heat radiation computer cabinet that this utility model provides, it is possible to Maintain box house pressure be in close to or the state of a slightly above atmospheric pressure under thus reduce cabinet to close The requirement of envelope property.

8, the integral type liquid-cooling heat radiation computer cabinet that this utility model provides, uses integral structure design, Can effectively solve the problem that the situation that computer cabinet internal heat generation device temperature is too high, this device is easy to carry, operation Simply, reasonable in design, lightweight, exchange capability of heat is strong and cost is relatively low, has good marketing and uses It is worth.

Accompanying drawing explanation

In order to be illustrated more clearly that the technical solution of the utility model, embodiment or prior art will be retouched below In stating, the required accompanying drawing used is briefly described, it should be apparent that, the accompanying drawing in describing below is only Embodiments more of the present utility model, for those of ordinary skill in the art, are not paying creative labor On the premise of Dong, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is the structural representation of integral type liquid-cooling heat radiation computer cabinet in this utility model embodiment one；

Fig. 2 is structural representation Fig. 1 of integral type liquid-cooling heat radiation computer cabinet in this utility model embodiment two；

Fig. 3 is structural representation Fig. 2 of integral type liquid-cooling heat radiation computer cabinet in this utility model embodiment two.

In figure: 1-casing, 2-mainboard, 3-heater members, 4-pipeline, 5-nozzle, 6-filter, 7-pump, 8- Heat exchanger.

Detailed description of the invention

Below in conjunction with the accompanying drawing in this utility model embodiment, to the technical side in this utility model embodiment Case is clearly and completely described, it is clear that described embodiment is only that this utility model part is real Execute example rather than whole embodiments.Based on the embodiment in this utility model, ordinary skill people The every other embodiment that member is obtained on the premise of not making creative work, broadly falls into this practicality new The scope of type protection.

Embodiment one

As it is shown in figure 1, this utility model provides integral type liquid-cooling heat radiation computer cabinet, including casing 1, Mainboard 2 and liquid cooling heat radiation system, described casing 1 is the confined space being made up of polylith wallboard, described casing 1 Top is provided with top cover, is provided with openable dividing plate, described mainboard 2 between described casing 1 and described top cover Being placed in described casing 1, described mainboard 2 is provided with heater members 3, described heater members 3 includes CPU And video card, after described dividing plate is opened, described mainboard 2 and described heater members 3 can be put into by this opening or Person takes out, and is placed with air-cooled radiator inside described top cover, uses fan to force the mode of cooling to carry out heat exchange, The on and off switch and other electric interfaces controlled for computer it is additionally provided with on described top cover, additionally, described casing 1 Reservoir is formed on bottom, and described reservoir is used for storing coolant, and described coolant is non-electrically conductive liquid.

Described liquid cooling heat radiation system includes pipeline 4, heat exchanger 8, pump 7, filter 6 and spraying mechanism, pump 7 and filter 6 be arranged on described pipeline 4, described filter 6 can by the Impurity removal in coolant, Coolant in described reservoir is pumped in described pipeline 4 by described pump 7, and described pump 7 is arranged on described case Body 1 is internal, and described heat exchanger 8 is arranged on outside the wallboard of described casing 1, for by the heat in casing 1 It is outside that amount is delivered to casing 1, and it is internal that the two ends of described pipeline 4 are arranged at described casing 1, described pipeline 4 One end connect have described spraying mechanism, the other end of described pipeline 4 to be immersed in the cooling in described reservoir In liquid, described reservoir is open-top reservoir, after coolant enters described liquid cooling heat radiation system, and warp Cross filter 6, pump 7 and heat exchanger 8, finally by spraying mechanism, coolant is injected in described casing 1 Or inject directly on described heater members 3, described heater members 3 is lowered the temperature.

It is internal that described spraying mechanism is arranged on described casing 1, and described spraying mechanism includes catheter and with described The nozzle 5 of catheter connection, described catheter is connected with one end of described pipeline 4, and described catheter includes main Catheter and the bifurcated catheter connected with described main catheter, described nozzle 5 is arranged on described main catheter With on bifurcated catheter, coolant is sprayed by the nozzle on described main catheter with Sprayable, due to droplet Scattered band is big, and therefore the droplet of a nozzle ejection can spread to confined space everywhere easily, simultaneously by Little in droplet sizes, the most also can arrive the unapproachable position of direct projection with air-flow, when droplet collides On plate after element, wall or other obstruction things, i.e. glue thereon, when being pooled to a certain amount of, or shape Become big drop, or form liquid film, and flow downward under droplet impact and action of gravity, described branch Nozzle on catheter is oppositely arranged with CPU or video card, for directly spraying fall for CPU or video card Temperature, in coolant can be injected in the space that described casing 1 is formed by described spraying mechanism or inject directly on On described heater members 3, described heater members 3 is lowered the temperature, the cooling liquid steam after heat exchange and spray The coolant mixing of mouth injection makes cooling liquid steam condense, and the heat that heater members 3 sends is delivered to liquid Drip or on liquid film, take away, if heater members 3 surface temperature is higher along with drop thin film drainage, it is possible to Promote drop liquid film evaporation, thus strengthen heat transfer effect.

In the present embodiment, described nozzle 5 is for being ejected into institute by described cooling liquid with discrete drops Stating confined space, described nozzle 5 also has multiple injection direction, in order to preferably spread drop, nozzle 5 The droplet typical case of ejection is conical distribution or fan-shaped distribution, but is not precluded from being beneficial to drop space with other Other spray shapes spread.

It addition, be provided with breather on the described casing 1 of the present embodiment, described breather is provided with Gas permeable material, described gas permeable material molecular gap is little, and air molecule can be allowed to pass through, but stop hydrone and Cooling liquid steam molecule passes through, when variations in temperature in described casing 1, and the sky expanded owing to temperature raises Edema caused by disorder of QI can voluntarily through breather discharge, it is possible to maintain box house pressure be in close to or slightly above one Under the state of individual atmospheric pressure thus reduce the cabinet requirement to sealing.

Embodiment two

As shown in Figures 2 and 3, this utility model provides integral type liquid-cooling heat radiation computer cabinet, including Casing 1, mainboard 2 and liquid cooling heat radiation system, described casing 1 is the confined space being made up of polylith wallboard, institute State casing 1 top and be provided with top cover, between described casing 1 and described top cover, be provided with openable dividing plate, institute State mainboard 2 to be placed in described casing 1, described mainboard 2 is provided with heater members 3, described heater members 3 Including CPU and video card, after described dividing plate is opened, described mainboard 2 and described heater members 3 can be opened by this Mouth is put into or is taken out, and is placed with power supply and adapter plate for circuit inside described top cover, additionally, described casing 1 Reservoir is formed on bottom, and described reservoir is used for storing coolant, and described coolant is non-electrically conductive liquid.

Described liquid cooling heat radiation system includes pipeline 4, heat exchanger 8, pump 7, filter 6 and spraying mechanism, pump 7 and filter 6 be arranged on described pipeline 4, described filter 6 can by the Impurity removal in coolant, Coolant in described reservoir is pumped in described pipeline 4 by described pump 7, and described pump 7 is arranged on described case Body 1 is outside, and described heat exchanger 8 is arranged on outside the wallboard of described casing 1, for by the heat in casing 1 It is outside that amount is delivered to casing 1, and described heat exchanger 8 air-out backward realizes heat radiation, and the two ends of described pipeline 4 are equal Being arranged on described casing 1 internal, one end of described pipeline 4 connects described spraying mechanism, described pipeline 4 The other end be immersed in the coolant in described reservoir, described reservoir is open-top reservoir, After coolant enters described liquid cooling heat radiation system, through filter 6, pump 7 and heat exchanger 8, finally by spray Spill in coolant is injected in described casing 1 by mechanism or inject directly on described heater members 3, to described Heater members 3 is lowered the temperature.

It is internal that described spraying mechanism is arranged on described casing 1, and described spraying mechanism includes catheter and with described The nozzle 5 of catheter connection, described catheter is connected with one end of described pipeline 4, and described catheter includes main Catheter and the bifurcated catheter connected with described main catheter, described nozzle 5 is arranged on described main catheter With on bifurcated catheter, coolant is sprayed by the nozzle on described main catheter with Sprayable, due to droplet Scattered band is big, and therefore the droplet of a nozzle ejection can spread to confined space everywhere easily, simultaneously by Little in droplet sizes, the most also can arrive the unapproachable position of direct projection with air-flow, when droplet collides On plate after element, wall or other obstruction things, i.e. glue thereon, when being pooled to a certain amount of, or shape Become big drop, or form liquid film, and flow downward under droplet impact and action of gravity, described branch Nozzle on catheter is oppositely arranged with CPU or video card, for directly spraying fall for CPU or video card Temperature, in coolant can be injected in the space that described casing 1 is formed by described spraying mechanism or inject directly on On described heater members 3, described heater members 3 is lowered the temperature, the cooling liquid steam after heat exchange and spray The coolant mixing of mouth injection makes cooling liquid steam condense, and the heat that heater members 3 sends is delivered to liquid Drip or on liquid film, take away, if heater members 3 surface temperature is higher along with drop thin film drainage, it is possible to Promote drop liquid film evaporation, thus strengthen heat transfer effect.

In the present embodiment, described nozzle 5 is for being ejected into institute by described cooling liquid with discrete drops Stating confined space, described nozzle 5 also has multiple injection direction, in order to preferably spread drop, nozzle 5 The droplet typical case of ejection is conical distribution or fan-shaped distribution, but is not precluded from being beneficial to drop space with other Other spray shapes spread.

It addition, be provided with breather on the described casing 1 of the present embodiment, described breather is provided with Gas permeable material, described gas permeable material molecular gap is little, and air molecule can be allowed to pass through, but stop hydrone and Cooling liquid steam molecule passes through, when variations in temperature in described casing 1, and the sky expanded owing to temperature raises Edema caused by disorder of QI can voluntarily through breather discharge, it is possible to maintain box house pressure be in close to or slightly above one Under the state of individual atmospheric pressure thus reduce the cabinet requirement to sealing.

The integral type liquid-cooling heat radiation computer cabinet that this utility model provides, it has the advantages that

1, the integral type liquid-cooling heat radiation computer cabinet that this utility model provides, with existing air-cooled or liquid cold charge Put and compare, have employed the form of spraying, by space in spray coolant to casing, utilize droplet coverage rate Big advantage, forms thin liquid film on heater members surface, due to droplet ejection at a high speed, impact to device surface Time still there is high flow velocities, therefore can promote liquid film flow at high speed, thus enhanced heat exchange, improve cooling heat radiation Efficiency.

2, during the Spray Way that this utility model uses forms liquid film on heater members surface, with Droplet impact meeting generating portion bubble, these bubbles become in the case of heater members surface temperature is higher The nucleus of boiling of liquid, can evaporate faster than the immersion liquid-cooled suit business device in background technology, further Enhanced heat exchange, so allows for using higher coolant temperature, thus expands device application Scope.

3, the integral type liquid-cooling heat radiation computer cabinet that this utility model provides, owing to using spray pattern, no Need to arrange structure as so complicated in liquid-cooling heat radiator in background technology, it is not required that provide substantial amounts of cold But liquid, thus greatly reduce the weight of whole cabinet, relatively costly due to coolant, subtract the most greatly Lack equipment cost, simultaneously because spray cooling only needs low discharge can obtain good radiating effect, therefore The wasted work of pump reduces further.

4, the integral type liquid-cooling heat radiation computer cabinet that this utility model provides, for the device that local pyrexia amount is big Part, such as CPU and video card, is also provided with single refrigerating module, uses topical spray or swiftly flowing side Method is to strengthen its heat exchange.

5, the integral type liquid-cooling heat radiation computer cabinet that this utility model provides, is formed after coolant is evaporated The supercool droplet that steam sprays with nozzle mixes, and cooling liquid steam more can be promoted to condense.

6, the spraying mechanism that this utility model uses, the supercool droplet utilizing steam to spray with nozzle mixes, cold But liquid steam condensation, it is not necessary to be separately provided condenser, alleviate construction weight, expands answering of this device Use scope.

7, it is provided with breather on the integral type liquid-cooling heat radiation computer cabinet that this utility model provides, it is possible to Maintain box house pressure be in close to or the state of a slightly above atmospheric pressure under thus reduce cabinet to close The requirement of envelope property.

8, the integral type liquid-cooling heat radiation computer cabinet that this utility model provides, uses integral structure design, Can effectively solve the problem that the situation that computer cabinet internal heat generation device temperature is too high, this device is easy to carry, operation Simply, reasonable in design, lightweight, exchange capability of heat is strong and cost is relatively low, has good marketing and uses It is worth.

Above disclosed only several preferred embodiments of the present utility model, can not limit with this certainly The interest field of this utility model, the equivalent variations therefore made according to this utility model claim, still belong to this The scope that utility model is contained.

Claims (10)

1. integral type liquid-cooling heat radiation computer cabinet, it is characterised in that include casing (1), mainboard (2) And liquid cooling heat radiation system, described casing (1) is the confined space being made up of polylith wallboard, described mainboard (2) It is placed in described casing (1), described mainboard (2) is provided with heater members (3), described heater members (3) including that CPU and video card, described casing (1) bottom form reservoir, described reservoir is used for storing Coolant, described coolant is non-electrically conductive liquid,

Described liquid cooling heat radiation system includes pipeline (4), cooling mechanism, pumping mechanism and spraying mechanism, described Coolant in described reservoir is pumped in described pipeline (4) by pumping mechanism, the one of described pipeline (4) End connection has described spraying mechanism, and it is interior or direct that coolant is injected in described casing (1) by described spraying mechanism Being injected on described heater members (3), described cooling mechanism is arranged on the pipeline (4) before described spraying mechanism Going up or be arranged on described casing (1) wallboard, the heat of coolant is delivered to described case by described cooling mechanism Body (1) is outside.

Integral type liquid-cooling heat radiation computer cabinet the most according to claim 1, it is characterised in that described storage Liquid bath is open-top reservoir, and the other end of described pipeline (4) is immersed in the cooling in described reservoir In liquid.

Integral type liquid-cooling heat radiation computer cabinet the most according to claim 1, it is characterised in that described pipe The other end on road (4) is connected with the described pumping mechanism being placed in described reservoir.

4. according to the integral type liquid-cooling heat radiation computer cabinet described in Claims 2 or 3, it is characterised in that institute Stating liquid cooling heat radiation system and also include filter mechanism, described filter mechanism can be by the Impurity removal in coolant.

Integral type liquid-cooling heat radiation computer cabinet the most according to claim 4, it is characterised in that described scattered Heat engine structure is heat exchanger (8), and described pumping mechanism is pump (7), and described filter mechanism is filter (6), The quantity of described heat exchanger (8), described pump (7) and described filter (6) is one or more.

6., according to the integral type liquid-cooling heat radiation computer cabinet described in claim 1,2,3 or 5, its feature exists Include catheter and the nozzle (5) connected with described catheter in, described spraying mechanism, described catheter with Described pipeline (4) is connected.

Integral type liquid-cooling heat radiation computer cabinet the most according to claim 6, it is characterised in that described in lead Liquid pipe includes main catheter and/or the bifurcated catheter connected with described main catheter, and described nozzle (5) is installed On described main catheter and/or bifurcated catheter, or it is arranged on described catheter by adaptor.

Integral type liquid-cooling heat radiation computer cabinet the most according to claim 7, it is characterised in that described spray Coolant is injected on described heater members (3) by mouth (5) with Sprayable, to described heater members (3) Lower the temperature.

Integral type liquid-cooling heat radiation computer cabinet the most according to claim 8, it is characterised in that described point The nozzle propped up on catheter is oppositely arranged with described heater members (3).

Integral type liquid-cooling heat radiation computer cabinet the most according to claim 9, it is characterised in that described It is provided with breather on casing (1), described breather is provided with gas permeable material.