CN109189184A - A kind of big data mainframe box - Google Patents

Abstract

The present invention relates to a kind of big data mainframe boxes, including cabinet, cabinet inside has multiple hot end fins arranged side by side up and down, the cold end fin and heat-pipe radiator being placed in above multiple hot end fins, successively downward through multiple hot end fins, the upper end of heat-pipe radiator is inserted upwardly into cold end fin for the lower end of heat-pipe radiator；Cabinet inside has mini air compressor and vortex tube, and the output end of mini air compressor is connected to the input terminal of vortex tube, and the cold air of the cold air end output of vortex tube is delivered to the condensation segment of heat-pipe radiator through airflow duct；The present invention is combined with vortex tube cool-down using heat pipe heat radiation, low energy is efficient, the effective guarantee speed of service of host.

Description

A kind of big data mainframe box

Technical field

The present invention relates to computer hardware technology field, especially a kind of big data mainframe box.

Background technique

Now, big data, which calculates, is more and more in depth applied to various industries and field, and the increasing at full speed of data calculation amount It is long to face higher and higher requirement with the big data host for calculating carrier but also storing as big data；It is well known that So-called big data host is to rely on a large amount of chip and ancillary hardware to realize its major function, and chip and auxiliary are hard The calculating speed of part also has substantial connection with operating temperature when routine use in addition to related with manufacturing process, when chip or firmly When the temperature is excessively high, calculating speed can generate obvious decaying to part, be highly detrimental to normal, the continuous work of big data host.

Since chip and hardware are packaged in cabinet, the heat dissipation performance of cabinet is primarily examined when becoming chassis design The design factor of worry；Current most of cabinets are only arranged some heat dissipation channels or install radiator fan additional, and the system of not having has The heat dissipation performance of effect, or match with the heat dissipation equipment of current mainstream such as heat-pipe radiator, liquid cooling equipment etc. bad, lead to host Temperature control is bad, largely effects on host work efficiency.

Summary of the invention

For above situation, to make up technical deficiency present in the prior art, the present invention provides a kind of big data host Case, to solve the problems, such as that existing big data mainframe box heat dissipation effect is bad.

Its technical solution solved is: including the cabinet being made of cabinet, chamber door and rear cover, the box house is close The cold end fin that there are multiple hot end fins arranged side by side up and down in the side of rear cover and are placed in above multiple hot end fins, the cabinet There are heat-pipe radiator, multiple vertical heat pipe heats that the heat-pipe radiator is arranged by horizontal alignment in the internal side close to rear cover At, the lower end of heat-pipe radiator successively downward through multiple hot end fins, contacted on heat-pipe radiator with multiple hot end fins Position is evaporator section, and the upper end of heat-pipe radiator is inserted upwardly into cold end fin, the portion contacted on heat-pipe radiator with cold end fin Position is condensation segment；The box house has a mini air compressor and vortex tube, the output end of mini air compressor and vortex tube it is defeated Enter end to be connected to through hose, the hot gas end of the vortex tube stretches out cabinet and is equipped with the regulating valve being placed in outside cabinet, vortex tube Cold air end be connected with airflow duct, the cold air of the vortex tube is delivered to the condensation segment of heat-pipe radiator through airflow duct, use In the temperature for reducing the condensation segment, accelerate the condensation rate of heat-pipe radiator interior media.

Structure of the invention is exquisite, is combined using heat pipe heat radiation with vortex tube cool-down, low supplemented by vortex tube based on heat pipe It can be efficiently；The winding of airflow duct is laid out the accurate refrigeration that heating position can be achieved, and extends the effective condensation segment of heat pipe, and can realize Heat pipe segmentation condensation, accelerates steam condensation rate, quickly reduces inside heat pipe temperature and pressure, improve heat pipe heat radiation efficiency, increase Strong cooling effect；The present invention changes cooling mode according to host running temperature in due course automatically, controls host temperature always pre- Within the scope of if, the effective guarantee speed of service of host.

Detailed description of the invention

Fig. 1 is main view of the invention.

Fig. 2 is A-A cross-sectional view of the invention.

Fig. 3 is axonometric drawing of the invention.

Fig. 4 is the perspective view of internal structure of the present invention.

Fig. 5 is perspective view of the invention.

Fig. 6 is three-dimensional cutaway view of the invention.

Specific embodiment

Below in conjunction with attached drawing, specific embodiments of the present invention will be described in further detail.

It is provided by Fig. 1 to Fig. 6, the present invention includes the cabinet being made of cabinet 1, chamber door 2 and rear cover 3, inside the cabinet 1 It is preset with multilayer hardware installation position, 1 inside of cabinet there are multiple hot end fins 4 arranged side by side up and down close to the side of rear cover 3 With the cold end fin 5 for being placed in 4 top of multiple hot end fins, the position of multiple hot end fins 4 and the hardware installation position water one by one Flat to correspond to, there is heat-pipe radiator in 1 inside of cabinet close to the side of rear cover 3, and the heat-pipe radiator is set by horizontal alignment The multiple vertical heat pipes 6 set form, and the lower end of heat-pipe radiator is successively downward through multiple hot end fins 4, on heat-pipe radiator The position contacted with multiple hot end fins 4 is evaporator section, and the upper end of heat-pipe radiator is inserted upwardly into cold end fin 5, heat pipe heat radiation The position contacted on device with cold end fin 5 is condensation segment；There are mini air compressor 7 and vortex tube 8 inside the cabinet 1, it is miniature The output end of air compressor machine 7 is connected to the input terminal of vortex tube 8 through hose 9, and cabinet 1 is stretched out simultaneously in the hot gas end 801 of the vortex tube 8 The regulating valve being placed in outside cabinet 1 is installed, the cold air end 802 of vortex tube 8 is connected with airflow duct 10, the vortex tube 8 Cold air is delivered to the condensation segment of heat-pipe radiator through airflow duct 10, for reducing the temperature of the condensation segment, accelerates heat pipe and dissipates The condensation rate of hot device interior media；And due to the isothermal of heat pipe, the temperature reduction of condensation segment necessarily makes its evaporator section Temperature decreased under the continuous effect of condensing reflux, to realize the cooling control of heat pipe body, and then heat pipe can be made Internal vapor (steam) temperature and steam pressure reduces.

Preferably, 1 inside of cabinet has multiple heat-pipe radiators of horizontal alignment close to the side of rear cover 3, it is more Cold end fin 5 is inserted into simultaneously to realize the shared of cold end fin 5, convenient for by cold end fin 5 in the upper end of a heat-pipe radiator Heat dissipation intervene the unified radiating control for realizing the condensation segment of multiple heat-pipe radiators.

Preferably, the airflow duct 10 be the soft plastics or copper, aluminium etc. such as PP, PVC easily bending made of metal at Flexible pipe, airflow duct 10 are wound in the periphery of heat-pipe radiator and close to the lower section for being placed in the cold end fin 5, airflow ducts The cold air of 10 internal flows reduces the body temperature of the corresponding part heat pipe 6, a part of steam inside heat pipe 6 Start to condense in advance when reaching the winding position of airflow duct 10, to extend the condensation segment of heat-pipe radiator, be conducive to The back-flow velocity for accelerating heat-pipe radiator interior media, enhances the heat-conducting effect of heat-pipe radiator.

Preferably, the airflow duct 10 be the soft plastics or copper, aluminium etc. such as PP, PVC easily bending made of metal at Flexible pipe, the periphery that airflow duct 10 is wound in heat-pipe radiator are placed between the neighbouring hot end fin 4 of any two, The cold air of 10 internal flow of airflow duct reduces the body temperature of the corresponding part heat pipe 6, and one inside heat pipe 6 Some vapor starts to condense in advance when reaching the winding position of airflow duct 10, to realize that the segmentation of heat-pipe radiator is cold It is solidifying, be conducive to the back-flow velocity for accelerating heat-pipe radiator interior media, enhance the heat-conducting effect of heat-pipe radiator.

Preferably, the airflow duct 10 be the soft plastics or copper, aluminium etc. such as PP, PVC easily bending made of metal at Flexible pipe, airflow duct 10 are wound in the hardware peripheral being mounted on inside cabinet 1, to realize accurate, fast cooling to hardware.

Preferably, the cold air end 802 of the vortex tube 8 is connected with multiple current dividers 11 for shunting output end, The output end of current divider 11 is connected to airflow duct 10, can connect multiple airflow ducts 10 according to actual needs in order to cabinet Hardware or heat-pipe radiator inside 1 carry out partial cooling respectively.

Preferably, the inlet end of the mini air compressor 7 is connected with multiple collectors 12 for shunting input terminal, Any input terminal of the collector 12 is connected to outside cabinet 1 through air inlet pipe 13, one end of the airflow duct 10 and vortex The cold air end of pipe 8 is connected to, and the other end of airflow duct 10 is connected to the input terminal of collector 12；The cold airflow that vortex tube 8 exports It returns in mini air compressor 7 and is re-compressed after airflow duct 10, inspiratory effects, the control of mini air compressor 7 both can be improved The internal temperature rise of mini air compressor 7 processed, the cold air that vortex tube 8 can also be made to export realize interior circulation and recycling inside cabinet 1 It utilizes, helps to improve the cold air output effect of vortex tube 8, reduce the energy consumption of vortex tube 8.

Preferably, the mini air compressor 7 controls its start and stop, the heat sensing control by hot sensing controler Device processed is used to monitor the temperature of 6 tube wall of hot end fin 4 or heat pipe.

Preferably, there is air duct 14 in the cabinet 1, venthole corresponding with 14 position of air duct is offered on cabinet 1, The cold end fin 5 is placed in inside air duct 14,14 inside of the upper end of heat-pipe radiator insertion air duct and with 5 grafting of cold end fin； Exhaust fan 15 corresponding with 14 position of air duct on cabinet 1, exhaust fan 15 is for making to generate air flowing inside air duct 14 to take away The surface temperature of cold end fin 5 realizes the auxiliary temperature-reducing of cold end fin 5.

Preferably, having on the cabinet 1 and the one-to-one fin support frame 16 of hot end fin 4, fin support frame 16 are fixed on inside cabinet 1 through connectors such as screw, pins, and hot end fin 4 is placed on fin support frame 16, the fin branch The sheet metal component that the prior art is widely used can be used in support 16.

The present invention is in use, open chamber door 2, by hardware installations such as chipset, server or display equipment inside cabinet 1 On preset hardware installation position, since the position of multiple hot end fins 4 is horizontal corresponding one by one with the hardware installation position, peace The heat derives that each hardware loaded on cabinet inside generates when having a corresponding hot end fin for its work, it is not necessary to For the separately installed heat dissipation equipment of each hardware.

When host operates normally, the calorific value of each hardware is normal, and heat-pipe radiator operating alone can meet heat dissipation It is required that the heat of hot end fin 4 is conducted through heat-pipe radiator to cold end fin 5, and the air-flow generated by exhaust fan 15 is by cold end Heat on fin 5 is taken out of to cabinet 1；Mini air compressor 7 does not start at this time, and correspondingly vortex tube 8 is not also run.

When the continuous heavy-duty service of host, the calorific value of each hardware increases, and the evaporator section of heat-pipe radiator due to Having accessed multiple hot end fins 4 simultaneously causes evaporator section longer, and correspondingly its condensation segment is shorter, therefore the condensation of heat-pipe radiator is fast Degree slows down, and the steam inside heat pipe 6 constantly increases so that its internal pressure is increased sharply, although after reaching saturated vapor pressure inside it Pressure level-off, but be continuously under elevated pressures effect, the tube wall service life of opposite heat tube 6 can produce bigger effect, therefore, When the tube wall temperature of hot end fin 4 or heat pipe 6 is more than preset value, hot sensing controler control mini air compressor 7 starts, compression Gas enters inside vortex tube 8 through hose 9, and the hot gas that vortex tube 8 generates is emitted into outside cabinet through hot gas end 801, vortex tube 8 The cold air of generation enters airflow duct 10 after the shunting of current divider 11；On the one hand, due to the heat-pipe radiator near cold end fin 5 Periphery airflow duct 10 winding setting, effective condensation segment of heat pipe 6 be extended so that the condensation of 6 steam inside of heat pipe and return Flow velocity degree is accelerated, thus enhance the heat transfer efficiency of heat pipe 6, while the tube wall temperature of heat pipe 6 reduces under cold air effect, inside The temperature of reflux medium also decreases, and decreases the temperature of evaporator section also, namely reduces The body temperature of heat pipe 6, and then vapor (steam) temperature and steam pressure inside heat pipe 6 are reduced, the drop of heat pipe 6 can be effectively improved Temp effect, and extend the service life of heat pipe 6；On the other hand, due to the air-flow of the heat-pipe radiator periphery near hot end fin 4 The winding of conduit 10 is arranged, and effective condensation segment of heat pipe 6 increases so that some vapor in heat pipe 6 condenses in advance at the position, To realize segmentation condensation, steam condensation rate and back-flow velocity can equally accelerated, conducive to the cooling and decompression of heat pipe 6；This Outside, since the winding of the airflow duct of hardware peripheral 10 is arranged, the hardware such as chip cool down rapidly under cold air effect, make corresponding The heat that hot end fin 4 conducts significantly reduces, and then reduces the evaporation rate of heat pipe 6, similarly serves to favor the cooling of heat pipe 6 and subtracts Pressure.

During aforesaid operations, the cold air temperature and flow velocity that vortex tube 8 exports can be installed on the regulating valve at hot gas end into Row control, convenient for the cooling rate and effect progress manual intervention according to actual needs to host temperature.

After host restores to operate normally, the calorific value of each hardware is reduced, and hot sensing controler controls mini air compressor 7 Stop；Although vortex tube 8 has the refrigerating speed being exceedingly fast, a large amount of cold air can be manufactured rapidly in a short time, due to vortex The refrigerating efficiency of pipe 8 is bad, therefore the energy of its consumption is very big, is not suitable for long-term cooling and uses, is only applicable to emergency situations Or situations such as periodically temperature control, therefore intervene mini air compressor 7 and vortex tube 8 in due course, it is with heat-pipe radiator It is main, supplemented by vortex tube, it not only ensure that host temperature was controlled in ideal range, but also reduce unnecessary energy consumption.

To sum up, the present invention is combined using heat pipe heat radiation with vortex tube cool-down, and based on heat pipe, supplemented by vortex tube, low energy is high Effect；The winding of airflow duct is laid out the accurate refrigeration that heating position can be achieved, and enhances cooling effect；Prolonged using cold air partial cooling The long effective condensation segment of heat pipe accelerates steam condensation rate, quickly reduces inside heat pipe temperature and pressure, improves heat pipe heat radiation effect Rate；Cold air partial cooling is used to increase the effective condensation segment of heat pipe, heat pipe segmentation condensation is realized, condenses some vapor in advance, Further speed up steam condensation rate；The present invention changes cooling mode according to host running temperature in due course automatically, makes host temperature Always it controls within preset range, the effective guarantee speed of service of host.

Claims (10)

1. a kind of big data mainframe box, including the cabinet being made of cabinet (1), chamber door (2) and rear cover (3), which is characterized in that institute There are multiple hot end fins (4) arranged side by side up and down in the internal side close to rear cover (3) of the cabinet (1) stated and are placed in multiple hot end fins (4) there are heat-pipe radiator, the heat pipe in the cold end fin (5) above, the internal side close to rear cover (3) of the cabinet (1) Radiator is made of multiple vertical heat pipes (6) that horizontal alignment is arranged, and the lower end of heat-pipe radiator is successively downward through multiple heat It holds fin (4), the upper end of heat-pipe radiator is inserted upwardly into cold end fin (5)；There is mini air compressor inside the cabinet (1) (7) it is connected to the input terminal of vortex tube (8) through hose (9) with vortex tube (8), the output end of mini air compressor (7), the vortex Cabinet (1) is stretched out at the hot gas end (801) for managing (8), and the cold air end (802) of vortex tube (8) is connected with airflow duct (10), the whirlpool The cold air of flow tube (8) is delivered to the condensation segment of heat-pipe radiator through airflow duct (10).

2. a kind of big data mainframe box according to claim 1, which is characterized in that cabinet (1) internal close rear cover (3) There are multiple heat-pipe radiators of horizontal alignment in side, and cold end fin (5) are inserted into simultaneously in the upper end of multiple heat-pipe radiators.

3. a kind of big data mainframe box according to claim 1, which is characterized in that airflow duct (10) is flexible pipe, gas Conductance pipe (10) is wound in the periphery of heat-pipe radiator and close to the lower section for being placed in the cold end fin (5).

4. a kind of big data mainframe box according to claim 1, which is characterized in that airflow duct (10) is flexible pipe, gas The periphery that conductance pipe (10) is wound in heat-pipe radiator is placed between the adjacent hot end fin (4) of any two.

5. a kind of big data mainframe box according to claim 1, which is characterized in that airflow duct (10) is flexible pipe, gas Conductance pipe (10), which is wound in, is mounted on the internal hardware peripheral of cabinet (1).

6. a kind of big data mainframe box according to claim 1, which is characterized in that the cold air end (802) of vortex tube (8) is even It is connected to current divider (11), the output end of current divider (11) is connected to airflow duct (10).

7. according to a kind of any big data mainframe box of claim 3-6, which is characterized in that mini air compressor (7) into Gas end is connected with collector (12), and any input terminal of the collector (12) is connected to cabinet (1) outside through air inlet pipe (13), One end of the airflow duct (10) is connected to the cold air end of vortex tube (8), the other end and collector of airflow duct (10) (12) input terminal connection.

8. a kind of big data mainframe box according to claim 1, which is characterized in that mini air compressor 7 is by hot sensing control Device controls its start and stop.

9. a kind of big data mainframe box according to claim 1, which is characterized in that have air duct (14), cabinet in cabinet (1) (1) venthole corresponding with air duct (14) position is offered on, the cold end fin (5) is placed in air duct (14) inside, and heat pipe dissipates Upper end insertion air duct (14) of hot device it is internal and with cold end fin (5) grafting；Row corresponding with air duct (14) position on cabinet (1) Gas fans (15).

10. a kind of big data mainframe box according to claim 1, which is characterized in that have on cabinet (1) and hot end fin (4) one-to-one fin support frame (16), fin support frame (16) are fixed on cabinet (1) inside, and hot end fin (4) is placed in fin On piece support frame (16).