CN209343288U - A kind of giant scale integration server central water-cooling pedestal - Google Patents

Abstract

The utility model discloses a kind of giant scale integration server central water-cooling pedestals, including water tank, absorber plate is connected by pillar on water tank, installation water cooling tube is embedded on absorber plate, water cooling tube connects micro pump, and the input terminal of micro pump connects the intracavity bottom of water tank by water pipe, and the water cooling tube other end connects outlet pipe, outlet pipe connects cooling mechanism, and cooling mechanism and water inlet pipe install multiple fans.The heat that absorber plate generates server carries out at Assimilation and conductivity to water cooling tube, cold water in water tank is sent into water cooling tube by micro pump, cold water in water cooling tube is flowed through heat absorption, outlet pipe imports hot water in cooling mechanism, hot water is shunted and is increased and air contact area by cooling mechanism, fan is dried to cooling mechanism simultaneously, accelerates air velocity to accelerate hot water cooling, after hot water is cooling in reflow tank.

Description

A kind of giant scale integration server central water-cooling pedestal

Technical field

The utility model relates to field of computer technology, specially a kind of giant scale integration server central water-cooling Pedestal.

Background technique

Giant scale integration server is usually used in larger communication facility, existing giant scale integration server is all It is only blown by fan and realizes that airflow radiates, radiating rate is slow, thus it is proposed that a kind of giant scale integration takes Business device center water cooling heat dissipation base is for solving the above problems.

Utility model content

The purpose of this utility model is to provide a kind of giant scale integration server central water-cooling pedestals, to solve The problems mentioned above in the background art.

To achieve the above object, the utility model provides the following technical solutions: a kind of giant scale integration server central Water-cooling pedestal, including water tank are fixedly connected with one end of more pillars on the water tank, and the other end of the pillar is fixed to be connected The bottom of absorber plate is connect, installation water cooling tube is embedded on the absorber plate, one end of the water cooling tube is through absorber plate and fixed company One end of water pipe, the output end of the other end connection micro pump of the water inlet pipe are tapped into, the micro pump is fixedly mounted on Outside water tank, and the input terminal of micro pump connects the intracavity bottom of water tank by water pipe, and the other end of the water cooling tube is through suction Hot plate and the one end for being fixedly connected with outlet pipe, one end of the other end connection cooling mechanism of the outlet pipe, the cooling mechanism The fixed top plate for running through water tank of the other end, mounting plate is fixedly mounted on the water tank between the cooling mechanism and water inlet pipe, it is described Multiple fans are installed on mounting plate.

Preferably, the absorber plate is copper rectangular parallelepiped structure, and the water cooling tube is in bending serpentine configuration, and water cooling tube Top and absorber plate upper surface are tangent, and multiple perforative heat release holes are provided on the absorber plate outside the water cooling tube.

Preferably, frame is fixedly mounted on three outer walls of the absorber plate, another outer wall of the absorber plate is hinged Cover board, and the buckle matched is installed between the both ends of cover board and frame outer wall, the water tank bottom is equipped with configuration brake knot The universal wheel of structure.

Preferably, the cooling mechanism includes diversion box, and the diversion box top center is fixedly attached outlet pipe, institute One end that diversion box bottom is fixedly attached multiple heat-dissipating pipes is stated, the fixed top plate for running through water tank of the other end of the heat-dissipating pipe is more It is fixed between heat-dissipating pipe described in root to run through heat conducting bar.

Preferably, the quantity of the heat-dissipating pipe is seven, one of them described heat-dissipating pipe is located at diversion box bottom center, Other six heat-dissipating pipes are uniformly distributed into hexagon along diversion box lower circumference direction, and the diversion box circumferencial direction is adjacent It is fixed between two heat-dissipating pipes to run through three heat conducting bars, two opposite heat-dissipating pipes of the heat-dissipating pipe and two sides in the middle part of the diversion box Between run through three heat conducting bars, and heat conducting bar along heat dissipation tube axis direction arrange three layers.

Preferably, the diversion box intracavity bottom is pyramidal structure, and taper axis is overlapped with the axis of diversion box, more The internal diameter of the heat-dissipating pipe is identical and is less than the internal diameter of outlet pipe.

Compared with prior art, the utility model has the beneficial effects that by absorber plate by server heat absorption, it is miniature Cold water in water tank is sent into water cooling tube by water pump, and water cooling tube comes into full contact in bending serpentine configuration with absorber plate, thus quickly Heat is absorbed, server radiating speed is improved；Hot water is flowed into diversion box by outlet pipe and branches to more heat-dissipating pipes, hot water It is flowed in more heat-dissipating pipes after being divided into multiply, more heat-dissipating pipes are bigger than the surface area of single outlet pipe, to increase heat dissipation Area accelerates hot water radiator, and more heat conducting bars run through heat-dissipating pipe, increases flow-disturbing effect and that the heat of hot water is transferred to is thermally conductive On bar, the heat of hot water is transferred in air by heat conducting bar, further increases heat dissipation area, accelerates hot water cooling；In diversion box Bottom of chamber portion is pyramidal structure, and taper axis is overlapped with diversion box, and the internal diameter of more heat-dissipating pipes is identical and is less than the interior of outlet pipe Diameter, after hot water flows out of the water outlet pipe, a part is flowed directly into the heat-dissipating pipe of tapered middle, and another part passes through tapered slope stream In the heat-dissipating pipe for entering diversion box circumferencial direction, convenient for shunting hot water, increase the surface area of hot water, convenient for heat dissipation.

Detailed description of the invention

FIG. 1 is a schematic structural view of the utility model；

Fig. 2 is structural schematic diagram at the utility model cooling mechanism；

Fig. 3 is main view the schematic diagram of the section structure at the utility model diversion box；

Fig. 4 is top view cross section structural schematic diagram at the utility model heat-dissipating pipe.

In figure: 1 water tank, 2 pillars, 3 absorber plates, 4 water cooling tubes, 5 water inlet pipes, 6 micro pumps, 7 outlet pipes, 8 cooling mechanisms, 81 diversion boxs, 82 heat-dissipating pipes, 83 heat conducting bars, 9 mounting plates, 10 fans, 11 frames, 12 cover boards, 13 heat release holes, 14 universal wheels.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

Fig. 1-4 is please referred to, the utility model provides a kind of technical solution: a kind of giant scale integration server central water cooling Heat dissipation base, including water tank 1, one end of more pillars 2 is fixedly connected on water tank 1, and the other end of pillar 2 is fixedly connected with absorber plate 3 bottom, installation water cooling tube 4 is embedded on absorber plate 3, and one end of water cooling tube 4 through absorber plate 3 and is fixedly connected with water inlet pipe 5 One end, the output end of the other end connection micro pump 6 of water inlet pipe 5, micro pump 6 is fixedly mounted on outside water tank 1, and Miniature water The input terminal of pump 6 connects the intracavity bottom of water tank 1 by water pipe, and the other end of water cooling tube 4 through absorber plate 3 and is fixedly connected out One end of water pipe 7, one end of the other end connection cooling mechanism 8 of outlet pipe 7, the other end of cooling mechanism 8 is fixed to run through water tank 1 Top plate, mounting plate 9 is fixedly mounted on the water tank 1 between cooling mechanism 8 and water inlet pipe 5, multiple fans 10 are installed on mounting plate 9. Micro pump 6 connects external power supply by conducting wire with fan 10, and server is placed on absorber plate 3, and absorber plate 3 produces server Raw heat carries out at Assimilation and conductivity to water cooling tube 4, and the cold water in water tank 1 is extracted out and pass through water inlet pipe 5 and is sent by micro pump 6 In water cooling tube 4, the cold water in water cooling tube 4, which flows through, to heat up after heat absorption, and outlet pipe 7 imports hot water in cooling mechanism 8, dissipates Hot water is shunted and is increased and air contact area by heat engine structure 8, accelerates hot water radiator cooling, while fan 10 is to cooling mechanism 8 Blowing accelerates air velocity to further speed up hot water cooling, after hot water is cooling in reflow tank 1.

Absorber plate 3 is copper rectangular parallelepiped structure, and water cooling tube 4 is in bending serpentine configuration, and the top of water cooling tube 4 and absorber plate 3 upper surfaces are tangent, so that water cooling tube 4 comes into full contact with absorber plate 3, to quickly absorb heat；Absorber plate outside water cooling tube 4 Multiple perforative heat release holes 13 are provided on 3, a part of heat is radiated by heat release hole 13, accelerates heat dissipation.

Frame 11, another outer wall hinged closures 12 of absorber plate 3 are fixedly mounted on three outer walls of absorber plate 3, and cover The buckle matched is installed between 11 outer wall of both ends and frame of plate 12, convenient for fixing absorber plate 3 and server；1 bottom of water tank Portion is equipped with the universal wheel 14 of configuration brake structure, easy to remove, and can brake and be fixed on certain.

Cooling mechanism 8 includes diversion box 81, and 81 top center of diversion box is fixedly attached outlet pipe 7,81 bottom of diversion box Portion is fixedly attached one end of multiple heat-dissipating pipes 82, the fixed top plate for running through water tank 1 of the other end of heat-dissipating pipe 82, more heat-dissipating pipes 82 Between it is fixed run through heat conducting bar 83, hot water is flowed into diversion box 81 by outlet pipe 7 and branches to more heat-dissipating pipes 82, and hot water is divided into It is flowed in more heat-dissipating pipes 82 after multiply, more heat-dissipating pipes 82 are bigger than the surface area of single outlet pipe 7, to increase heat dissipation Area accelerates hot water radiator, and more heat conducting bars 83 run through heat-dissipating pipe 82, so that hot water internal heat is transferred to heat conducting bar 83 On, hot water internal heat is transferred in air by heat conducting bar 83, further increases heat dissipation area, accelerates hot water cooling.

The quantity of heat-dissipating pipe 82 is seven, and one of heat-dissipating pipe 82 is located at 81 bottom center of diversion box, in addition six Heat-dissipating pipe 82 is uniformly distributed into hexagon, the two neighboring heat-dissipating pipe of 81 circumferencial direction of diversion box along 81 lower circumference direction of diversion box It is fixed between 82 to run through three heat conducting bars 83, it is passed through between two opposite heat-dissipating pipes 82 of the heat-dissipating pipe 82 and two sides in the middle part of diversion box 81 Three heat conducting bars 83 are worn, so that running through three heat conducting bars 83 in every heat-dissipating pipe 82, accelerate hot water cooling velocity, so that every Run through three heat conducting bars 83 in heat-dissipating pipe 82 in same level, and heat conducting bar 83 is along 82 axis direction of heat-dissipating pipe arrangement three Layer, setting heat conducting bar 83 increase heat transfer area, so that convection current water is generated flow-disturbing effect, improve heat transfer efficiency.

81 intracavity bottom of diversion box is pyramidal structure, and taper axis is overlapped with the axis of diversion box 81, more heat-dissipating pipes 82 internal diameter is identical and is less than the internal diameter of outlet pipe 7, and for hot water after the outflow of outlet pipe 7, a part flows directly into tapered middle In heat-dissipating pipe 82, another part is flowed by tapered slope in the heat-dissipating pipe 82 of 81 circumferencial direction of diversion box, convenient for dividing hot water Stream.

Working principle: when the utility model is used, micro pump 6 connects server power supply by conducting wire with fan 10, clothes Business device is placed in the frame 11 on absorber plate 3, closes cover board 12, so that server and absorber plate 3 is fixed, absorber plate 3 will Server generate heat carry out Assimilation and conductivity to water cooling tube 4 at, micro pump 6 by water tank 1 cold water extraction and by into Water pipe 5 is sent into water cooling tube 4, and the cold water in water cooling tube 4, which flows through, to heat up after heat absorption, thus accelerate server radiating, heat Water is flowed into diversion box 81 by outlet pipe 7 and branches to more heat-dissipating pipes 82, and hot water is divided into after multiply in more heat-dissipating pipes 82 Interior flowing, more heat-dissipating pipes 82 are bigger than the surface area of single outlet pipe 7, to increase heat dissipation area, accelerate hot water radiator, and More heat conducting bars 83 run through heat-dissipating pipe 82, so that heat conducting bar 83 will be inside hot water in hot water section heat transfer to heat conducting bar 83 Heat transfer further increases heat dissipation area into air, while fan 10 is dried to heat-dissipating pipe 82 and heat conducting bar 83, accelerates Hot water is cooling, after hot water is cooling in reflow tank 1, forms circulation.

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.

Claims (6)

1. a kind of giant scale integration server central water-cooling pedestal, including water tank (1), it is characterised in that: the water tank (1) one end of more pillars (2) is fixedly connected on, the other end of the pillar (2) is fixedly connected with the bottom of absorber plate (3), institute It states and embeds installation water cooling tube (4) on absorber plate (3), one end of the water cooling tube (4) through absorber plate (3) and is fixedly connected into water The one end of (5), the output end of other end connection micro pump (6) of the water inlet pipe (5) are managed, the micro pump (6) is fixed It is mounted on water tank (1) outside, and the input terminal of micro pump (6) passes through the intracavity bottom of water pipe connection water tank (1), the water cooling tube (4) the other end runs through absorber plate (3) and is fixedly connected with one end of outlet pipe (7), and the other end connection of the outlet pipe (7) dissipates One end of heat engine structure (8), the fixed top plate for running through water tank (1) of the other end of the cooling mechanism (8), the cooling mechanism (8) Mounting plate (9) are fixedly mounted on water tank (1) between water inlet pipe (5), multiple fans (10) are installed on the mounting plate (9).

2. a kind of giant scale integration server central water-cooling pedestal according to claim 1, it is characterised in that: institute Stating absorber plate (3) is copper rectangular parallelepiped structure, and the water cooling tube (4) is in bending serpentine configuration, and the top of water cooling tube (4) and suction Hot plate (3) upper surface is tangent, is provided with multiple perforative heat release holes (13) on the external absorber plate (3) of the water cooling tube (4).

3. a kind of giant scale integration server central water-cooling pedestal according to claim 1, it is characterised in that: institute State fixed installation frame (11), another outer wall hinged closures of the absorber plate (3) on three outer walls of absorber plate (3) (12), and between the both ends of cover board (12) and frame (11) outer wall the buckle matched is installed, water tank (1) bottom is equipped with Configure the universal wheel (14) of brake structure.

4. a kind of giant scale integration server central water-cooling pedestal according to claim 1, it is characterised in that: institute Stating cooling mechanism (8) includes diversion box (81), and diversion box (81) top center is fixedly attached outlet pipe (7), described Diversion box (81) bottom is fixedly attached one end of multiple heat-dissipating pipes (82), and the other end of the heat-dissipating pipe (82) is fixed to run through water tank (1) top plate, it is fixed between the more heat-dissipating pipes (82) to run through heat conducting bar (83).

5. a kind of giant scale integration server central water-cooling pedestal according to claim 4, it is characterised in that: institute The quantity for stating heat-dissipating pipe (82) is seven, one of them described heat-dissipating pipe (82) is located at diversion box (81) bottom center, in addition Six heat-dissipating pipes (82) are uniformly distributed into hexagon, diversion box (81) circumference along diversion box (81) lower circumference direction It is fixed between the two neighboring heat-dissipating pipe in direction (82) to run through three heat conducting bars (83), the heat-dissipating pipe in the middle part of the diversion box (81) (82) run through three heat conducting bars (83) between opposite two heat-dissipating pipes (82) in two sides, and heat conducting bar (83) is along heat-dissipating pipe (82) axis Line direction arranges three layers.

6. a kind of giant scale integration server central water-cooling pedestal according to claim 5, it is characterised in that: institute Stating diversion box (81) intracavity bottom is pyramidal structure, and taper axis is overlapped with the axis of diversion box (81), the more heat dissipations The internal diameter of pipe (82) is identical and is less than the internal diameter of outlet pipe (7).