A kind of information interaction processing system
Technical field
The utility model belongs to information interaction processing system technical field, and in particular to a kind of information interaction processing system.
Background technology
Information interaction processing system is widely used in each enterprise and carries out data receiver, operation, processing, storage and transmission,
It is the hinge of the work that crosses of enterprise.
But in office building of handling official business, since unspecial computer room is used to place central processing unit, or even part is write
Building is due to the defect in terms of architectural design, and space is than narrow between leading to the placement of central processing unit, and permeability is poor.
In the environment of sealing, due to lacking the heat exchange with outside, cause the temperature between placing can be with the work of central processing system
Make the time and gradually rise, although central processing system is equipped with radiator fan, due to integrated environment temperature drift, causes
The gas flow temperature of radiator fan sucking is higher, poor so as to cause heat dissipation effect.
Simultaneously in the prior art since the outlet air surface of radiator fan is smaller, cause in cooling procedure, each position in babinet
The cooling air quantity that the electronic component set receives is inconsistent, cooling wind cause not of uniform size, so as to cause rotation is formed in babinet
Stream, it is poor to eventually lead to heat dissipation effect.
Utility model content
The utility model provides to solve the problems, such as existing building since heat exchange effect difference and heat dissipation are non-uniform
A kind of information interaction processing system can lower the temperature of radiator fan suction airflow even if in more closed space, from
And heat dissipation effect is improved, ensure the normal operation of interactive data information processing system, while air-flow can be uniformly dispersed in
In babinet, the uniformity of heat dissipation is improved.
To solve technical problem, technical solution used by the utility model is:
The side of a kind of information interaction processing system, including babinet, babinet offers air inlet, the other side setting of babinet
There are several thermal vias, radiator fan is installed on position corresponding with air inlet on the inner wall of babinet, which is characterized in that described
Position corresponding with air inlet is equipped with cooling device on the outer wall of babinet, and the cooling device includes rotating cylinder, rotating cylinder
Inside offers intake antrum and water chamber, and one end of rotating cylinder is provided with the water inlet pipe being interconnected with intake antrum, rotating cylinder
The other end is provided with the outlet pipe being connected to water chamber, multiple fins is provided on the outer wall of rotating cylinder, each fin is helically
Shape is distributed on the outer wall of rotating cylinder, and the hand of spiral of each fin is identical as the rotation direction of rotating cylinder, each
The inside of fin offers microchannel;The air outlet that radiator fan is corresponded in babinet is connected with deflection cone, the deflection cone
On the same line, and the tip of deflection cone, close to radiator fan, deflection cone uniformly opens up for center and the center of radiator fan
There are multiple water conservancy diversion through-holes, water conservancy diversion through-hole to be distributed on deflection cone in dispersion shape.
The internal diameter of water conservancy diversion through-hole gradually increases along tip to the end of deflection cone of deflection cone.
The end of deflection cone is also associated with kuppe, and kuppe is in horn-like, and the miner diameter end and deflection cone of kuppe
Connection, the kuppe end far from deflection cone are horizontal.
The microchannel includes the first microchannel being connected to intake antrum and the second microchannel being connected to water chamber, and first
Microchannel and the second microchannel include multiple runners, each runner head and the tail both ends difference of the first microchannel and the second microchannel
It is joined together to form Y-shaped structure, is interconnected through Y-shaped structure between the first microchannel and the second microchannel.
The width that the fin extends rotating cylinder is gradually increased along close to air inlet to the direction far from air inlet.
It is arranged with bearing on the excircle of water inlet pipe and outlet pipe, the end sleeve of water inlet pipe and outlet pipe is equipped with connection method
The center setting of orchid, connecting flange is fluted, and the end of water inlet pipe and outlet pipe is connected with the connection cover being mutually clamped with groove,
It is provided with hard sealing ring between connection cover and the bottom surface of groove.
Compared with prior art, the utility model has the advantages that:
The utility model in use, can be cooled down the air-flow of entrance by the way that cooling device is arranged, to
Achieve the purpose that improve cooling effect.The structure of the cooling device of the utility model passes through the turning effort energy of rotating cylinder first
Air pressure is enough generated, the throughput in the unit interval can be increased, further increase heat dissipation effect;Secondly, it is cooled down by fin
Mode cools down air-flow, has the characteristics that cooling effect is fast, while fin is compared existing by the structure design of microchannel
Fin structure in technology can greatly improve the uniformity of the heat exchange of the cooling effect and fin of air-flow.And this reality
The air-flow of radiator fan can uniformly be spread out by deflection cone with novel so that cooling wind can be urged uniformly to case
The uniformity of heat dissipation is improved in internal portion.
The internal diameter of the water conservancy diversion through-hole of the utility model gradually increases along tip to the end of deflection cone of deflection cone, can
The uniformity for further increasing air-flow dispersion, prevents most of air-flow from being blown away from the outer surface of deflection cone.
The end of the deflection cone of the utility model is also associated with kuppe, and kuppe is in horn-like, and kuppe is small
Diameter end is connect with deflection cone, is enabled to air-flow to be blown finally along horizontal direction by kuppe, is further increased
The uniformity of heat exchange.
The structure of the microchannel of the utility model forms a Y-shaped structure, can reduce the temperature of input terminal and output end
Spend gradient so that the temperature on each position in the first microchannel and the second microchannel is more uniform, further increases heat exchange
Uniformity.
The fin of the utility model extend the width of rotating cylinder along close to air inlet to the direction far from air inlet by
It is cumulative to add so that when air-flow passes through rotating cylinder, due to being gradually reduced for the flow cross-sectional product after entrance, to reach raising wind
The effect of pressure, and then improve cooling effect.
The water inlet pipe of the utility model and the structure design of outlet pipe so that can either ensure rotating cylinder in use
Normal rotation, while can ensure the inlet and outlet of cooling water again.
Description of the drawings
Fig. 1 is the structural schematic diagram of the utility model;
Fig. 2 is the structural schematic diagram of the cooling device of the utility model;
Fig. 3 is first microchannel of the utility model or the structural schematic diagram of the second microchannel;
It is marked in figure:1, babinet, 2, air inlet, 3, radiator fan, 4, cooling device, 41, rotating cylinder, 42, intake antrum,
43, water chamber, 44, water inlet pipe, 45, outlet pipe, 46, fin, 47, microchannel, 48, bearing, 49, connecting flange, 410, groove,
411, connection cover, 412, hard sealing ring, the 413, first microchannel, 414, runner, 5, deflection cone, 6, water conservancy diversion through-hole, 7, fixed
Piece, 8, kuppe.
Specific implementation mode
With reference to embodiment, the utility model will be further described, and described embodiment is only that this practicality is new
Type a part of the embodiment is not whole embodiment.Based on the embodiments of the present invention, the ordinary skill people of this field
Other embodiments used that member is obtained without making creative work, belong to the protection model of the utility model
It encloses.
In conjunction with attached drawing, the side of the information interaction processing system of the utility model, including babinet 1, babinet 1 offers air inlet
Mouth 2, the other side of babinet 1 is provided with several thermal vias, and thermal vias is not drawn in the accompanying drawings, those skilled in the art
It can be appreciated and understood that, details are not described herein, and radiator fan is equipped on position corresponding with air inlet 2 on the inner wall of babinet 1
3, position corresponding with air inlet 2 is equipped with cooling device on the outer wall of the babinet 1, and the cooling device includes rotating cylinder
41, the rotation of rotating cylinder 41 belongs to ordinary skill in the art means, and those skilled in the art can be appreciated and understood that, such as
By the rotation of micromotor, micromotor is to drive rotating cylinder to be rotated, as long as the rotation of rotating cylinder 41 can be realized
.The inside of rotating cylinder 41 offers intake antrum 42 and water chamber 43, and one end of rotating cylinder 41 is provided with and 42 phase of intake antrum
Intercommunicated water inlet pipe 44, the other end of rotating cylinder 41 are provided with the outlet pipe 45 being connected to water chamber 43, rotating cylinder 41 it is outer
Multiple fins 46 are provided on wall, each fin 46 is spiral to be distributed on the outer wall of rotating cylinder 41, and each fin
46 hand of spiral is identical as the rotation direction of rotating cylinder 41, and the inside of each fin 41 offers microchannel 47, wherein micro-
The both ends in channel 47 are connected to intake antrum 42 and water chamber 43 respectively;The air outlet that radiator fan 3 is corresponded in babinet 1 is connected with
Deflection cone 5, on the same line, and the tip of deflection cone 5 is close for the center of the deflection cone 5 and the center of radiator fan 3
Radiator fan 3, deflection cone 5 are uniformly provided with multiple water conservancy diversion through-holes 6, and water conservancy diversion through-hole 6 is distributed in dispersion shape on deflection cone 5.
The air-flow of entrance in use, can be cooled down by the way that cooling device is arranged, improved to reach by the utility model
The purpose of cooling effect.The structure of the cooling device of the utility model can generate gas by the turning effort of rotating cylinder first
Pressure, can increase the throughput in the unit interval, further increase heat dissipation effect;Secondly, to gas by way of fin cooling
Stream is cooled down, and has the characteristics that cooling effect is fast, while fin is by the structure design of microchannel, compared with prior art in fin
Chip architecture can greatly improve the uniformity of the heat exchange of the cooling effect and fin of air-flow.And the utility model is logical
Crossing deflection cone can uniformly spread out the air-flow of radiator fan so that and cooling wind can uniformly be urged to box house,
Improve the uniformity of heat dissipation.
The internal diameter of the water conservancy diversion through-hole 6 of the utility model gradually increases along tip to the end of deflection cone of deflection cone 5, energy
The uniformity for enough further increasing air-flow dispersion, prevents most of air-flow from being blown away from the outer surface of deflection cone.
The end of the deflection cone 5 of the utility model is also associated with kuppe 8, and kuppe 8 is in horn-like, and kuppe 8
Miner diameter end connect with deflection cone 5,8 end of kuppe far from deflection cone 5 is horizontal;Gas is enabled to by kuppe 5
It flows and is blown finally along horizontal direction, further increase the uniformity of heat exchange.
As a kind of preferred mode of the utility model, the microchannel 47 include be connected to intake antrum 42 it is first micro- logical
Road 413 and the second microchannel being connected to water chamber 43, the first microchannel 413 and the second microchannel include multiple runners 414,
The 414 head and the tail both ends of each runner of first microchannel 413 and the second microchannel are respectively connected together to form Y-shaped structure, the
It is interconnected through Y-shaped structure between one microchannel 413 and the second microchannel.
The structure of the microchannel of the utility model forms a Y-shaped structure, can reduce the temperature of input terminal and output end
Spend gradient so that the temperature on each position in the first microchannel and the second microchannel is more uniform, further increases heat exchange
Uniformity.
In actual use, the runner 414 in 414 quantity of runner and the second microchannel in the first microchannel 413
Quantity can be identical, can not also be identical.
In order to further increase heat exchanger effectiveness, the surface of each runner 414 in the first microchannel and the second microchannel
It can be sintered metal powder layer, quick and uniform heat exchange is rapidly performed by by metal powder layer.
The fin 47 extends the width of rotating cylinder 41 along gradual to the direction far from air inlet 2 close to air inlet 2
Increase so that when air-flow passes through rotating cylinder, due to being gradually reduced for the flow cross-sectional product after entrance, to reach raising wind pressure
Effect, and then improve cooling effect.
As a kind of preferred mode of the utility model, bearing is arranged on the excircle of water inlet pipe 44 and outlet pipe 45
48, the end sleeve of water inlet pipe 44 and outlet pipe 45 is equipped with connecting flange 49, the center setting fluted 410 of connecting flange 49, into
The end of water pipe 44 and outlet pipe 45 is connected with the connection cover 411 being mutually clamped with groove 410, connection cover 411 and groove 410
Hard sealing ring 412, the water inlet pipe of the utility model and the structure design of outlet pipe are provided between bottom surface so that using
It can either ensure the normal rotation of rotating cylinder in journey, while can ensure the inlet and outlet of cooling water again.Wherein water inlet pipe and
Outlet pipe is connected to external inlet and outlet pipes respectively, is convenient for recirculated water cooling.
For the ease of cooperating with driving motor, rack gear is arranged in the excircle of water inlet pipe 44 or outlet pipe 45, in turn
It drives rotating cylinder to work, belongs to conventional technical means, details are not described herein.