CN203399460U

CN203399460U - Water-cooled radiator

Info

Publication number: CN203399460U
Application number: CN201320317467.XU
Authority: CN
Inventors: 黄君平
Original assignee: CHIA CHERNE INDUSTRY Co Ltd
Current assignee: CHIA CHERNE INDUSTRY Co Ltd
Priority date: 2013-06-04
Filing date: 2013-06-04
Publication date: 2014-01-15
Anticipated expiration: 2023-06-04

Abstract

The utility model discloses a water-cooled radiator, comprising a heat radiation block, an upper heat exchange fin group and a lower heat exchange fin group. The heat radiation block has a water current channel, the water current has an upper wall and a lower wall which are oppositely arranged, the upper heat exchange fin group is arranged on the upper wall of the water current channel, the lower heat exchange fin group is arranged on the lower wall of the water current channel, and the upper heat exchange fin group and the lower heat exchange fin group are mutually inserted alternately, thereby cooling water passing through the water current channel is contacted with the upper heat exchange fin group and the lower heat exchange fin group in large area, the heat exchange efficiency is increased, and rapid heat radiation is available.

Description

Water-cooling type radiator

Technical field

The utility model relates to a kind of radiator, relates in particular to a kind of water-filled radiator.

Background technology

Radiator can be derived the used heat that electronic component produces fast, increase stability and the life-span of electronic component, be widely used, in order to increase the radiating efficiency of radiator, also can install air cooling system or water-cooling system additional, the difference of air cooling system or water-cooling system is that the medium of taking away heat is for being used air or refrigerant (water), and wherein the good radiating effect of water-cooling system tool, is mainly the heat radiation that is used in high power electronic element.

Refer to shown in Fig. 1, it is the water-cooling type radiator for existing water-cooling system, it comprises a radiating block 1, this radiating block 1 has an outer contacting face 2, this outer contacting face 2 is for contacting for high power electronic element (not shown), and this radiating block 1 has a water stream channel 3, one sidewall 4 of this water stream channel 3 arranges a heat-exchanging fin group 5, accordingly when the cooling water flow of water-cooling system (not shown) is during through this water stream channel 3, can carry out heat exchange with this heat-exchanging fin group 5, and take away the heat of this radiating block 1, that is take away the heat that high power electronic element produces, to reach the object of heat radiation.

Yet, can use the high power electronic element of water-cooling system, suitable surprising of the heat of its generation, when therefore if the exchange efficiency of this heat-exchanging fin group 5 and cooling water is not enough, obviously cannot effectively take away the heat that high power electronic element produces, that is high power electronic element cannot effectively dispel the heat, still have heat when and the problem in impairment life-span.

Utility model content

Main purpose of the present utility model, is to disclose a kind of water-cooling type radiator, so that efficient heat exchange to be provided, meets the demand of high power electronic element.

For reaching above-mentioned purpose, the utility model provides a kind of water-cooling type radiator, and it comprises:

One radiating block, this radiating block has a water stream channel, and this water stream channel has a upper wall and the lower wall being oppositely arranged;

Heat-exchanging fin group on one, on this, heat-exchanging fin group is arranged at this upper wall of this water stream channel; And

Heat-exchanging fin group once, this lower heat-exchanging fin group is arranged at this lower wall of this water stream channel, and on this heat-exchanging fin group and this lower heat-exchanging fin group for putting plugging alternately.

Above-mentioned water-cooling type radiator, wherein this radiating block, on this, heat-exchanging fin group and this lower heat-exchanging fin group Qie Yu two ends that are formed in one respectively form a peristome, two peristomes seal respectively an eliminator plate are set, two eliminator plates have respectively a gutter, and this gutter is provided with the perforation being communicated with this water stream channel.

Above-mentioned water-cooling type radiator, wherein this radiating block has side's ring body, a upper plate and a lower plate, and the party's ring body, this upper plate and this lower plate form this water stream channel, and on this, heat-exchanging fin group is arranged at this upper plate, and this lower heat-exchanging fin group is arranged at this lower plate.

Above-mentioned water-cooling type radiator, wherein on this, heat-exchanging fin group and this lower heat-exchanging fin group arrange respectively at least one groove of laterally wearing.

Above-mentioned water-cooling type radiator, a minor face of the party's ring body heat-exchanging fin group and this lower heat-exchanging fin group bearing of trend on this wherein, a minor face perforation that is communicated with this water stream channel is set, and the party's ring body is in the Yi Chang limit of adjacent this minor face, and the Yi Chang limit perforation that is communicated with this water stream channel is set.

Above-mentioned water-cooling type radiator, wherein on this between heat-exchanging fin group and this lower heat-exchanging fin Zu two ends and the party's ring body, arranges respectively a backwater space.

Above-mentioned water-cooling type radiator, wherein four corners of the party's ring body arrange respectively a backwater guide block.

Accordingly, because heat-exchanging fin group on this and this lower heat-exchanging fin group are for alternately to this water stream channel that is arranged at of inserting, the cooling water of this water stream channel therefore flow through, can large area contact heat-exchanging fin group and this lower heat-exchanging fin group on this, in other words, can increase heat exchanger effectiveness by large-area contact, to take away heat fast, meet the demand of quick heat radiating.

Below in conjunction with the drawings and specific embodiments, the utility model is described in detail, but not as to restriction of the present utility model.

Accompanying drawing explanation

Fig. 1 is existing water-cooled radiator structure figure;

Fig. 2 is the utility model the first example structure cutaway view;

Fig. 3 is the utility model the first example structure exploded view;

Fig. 4 is the utility model the second example structure figure;

Fig. 5 is the utility model the second example structure exploded view;

Fig. 6 is the utility model the second example structure cutaway view.

Embodiment

Relevant this novel detailed description and technology contents, now just coordinates accompanying drawing to be described as follows:

Refer to shown in Fig. 2 and Fig. 3, for the first execution mode of the present utility model, it comprises a radiating block 20A, heat-exchanging fin group 30A and heat-exchanging fin group 40A once on one, wherein this radiating block 20A has a water stream channel 50A, this water stream channel 50A has a upper wall 51A and a lower wall 52A who is oppositely arranged, on this, heat-exchanging fin group 30A is arranged at this upper wall 51A of this water stream channel 50A, this lower heat-exchanging fin group 40A is arranged at this lower wall 52A of this water stream channel 50A, and on this heat-exchanging fin group 30A and this lower heat-exchanging fin group 40A for putting plugging alternately, and this radiating block 20A, on this, heat-exchanging fin group 30A and this lower heat-exchanging fin group 40A Qie Yu two ends that are formed in one respectively form a peristome 60, this two peristome 60 seals respectively an eliminator plate 61 is set, and this two eliminator plate 61 has respectively a gutter 63, and this gutter 63 arranges the perforation 62 being communicated with this water stream channel 50A, this two perforation 62 can link water-cooling system, to allow the cooling water flow of water-cooling system through this water stream channel 50A, and contact heat-exchanging fin group 30A and this lower heat-exchanging fin group 40A on this.

Refer to shown in Fig. 4, Fig. 5 and Fig. 6, for the second execution mode of the present utility model, in the present embodiment, this radiating block 20B has side's ring body 70, a upper plate 71 and a lower plate 72, the party's ring body 70, this upper plate 71 form this water stream channel 50B with this lower plate 72, on this, heat-exchanging fin group 30B is arranged at this upper plate 71, and this lower heat-exchanging fin group 40B is arranged at this lower plate 72.

And on this, heat-exchanging fin group 30B and this lower heat-exchanging fin group 40B can be respectively provided to few one and laterally wear groove 73, and the party's ring body 70 in this on a minor face 701 of heat-exchanging fin group 30B and this lower heat-exchanging fin group 40B bearing of trend, a minor face perforation 702 that is communicated with this water stream channel 50B is set, and the party's ring body 70 is in adjacent this minor face 701Yi Chang limit 703, arrange and be communicated with this water stream channel 50BYi Chang limit perforation 704, this minor face perforation 702Yu Gaichang limit perforation 704 can link water-cooling system, to allow the cooling water flow of water-cooling system through this water stream channel 50B, and contact heat-exchanging fin group 30B and this lower heat-exchanging fin group 40B on this.

In addition, on this between two ends and the party's ring body 70 of heat-exchanging fin group 30B and this lower heat-exchanging fin group 40B, one backwater space 74 can be set respectively, with allow cooling water can more disperse through heat-exchanging fin group 30B and this lower heat-exchanging fin group 40B on this, to improve radiating effect.And four corners of the party's ring body 70, a backwater guide block 75 can be set respectively, to guide the direction of current, avoid producing flowing water dead angle.

As mentioned above, the utility model is by allowing on this heat-exchanging fin group and this lower heat-exchanging fin group alternately to inserting, thereby can increase the contact area with cooling water, the cooling water of this water stream channel therefore flow through, can large area contact heat-exchanging fin group and this lower heat-exchanging fin group on this, in other words, the utility model is compared existing, can increase heat exchanger effectiveness by large-area contact, to take away heat fast, meet the demand of quick heat radiating.

Certainly; the utility model also can have other various embodiments; in the situation that not deviating from the utility model spirit and essence thereof; those of ordinary skill in the art are when making various corresponding changes and distortion according to the utility model, but these corresponding changes and distortion all should belong to the protection range of the appended claim of the utility model.

Claims

1. a water-cooling type radiator, is characterized in that, comprises:

2. water-cooling type radiator according to claim 1, it is characterized in that, this radiating block, on this, heat-exchanging fin group and this lower heat-exchanging fin group Qie Yu two ends that are formed in one respectively form a peristome, two peristomes seal respectively an eliminator plate are set, two eliminator plates have respectively a gutter, and this gutter is provided with the perforation being communicated with this water stream channel.

3. water-cooling type radiator according to claim 1, it is characterized in that, this radiating block has side's ring body, a upper plate and a lower plate, the party's ring body, this upper plate and this lower plate form this water stream channel, on this, heat-exchanging fin group is arranged at this upper plate, and this lower heat-exchanging fin group is arranged at this lower plate.

4. water-cooling type radiator according to claim 3, is characterized in that, on this, heat-exchanging fin group and this lower heat-exchanging fin group arrange respectively at least one groove of laterally wearing.

5. water-cooling type radiator according to claim 4, it is characterized in that, one minor face of the party's ring body heat-exchanging fin group and this lower heat-exchanging fin group bearing of trend on this, a minor face perforation that is communicated with this water stream channel is set, and the party's ring body, in the Yi Chang limit of adjacent this minor face, arranges the Yi Chang limit perforation that is communicated with this water stream channel.

6. water-cooling type radiator according to claim 5, is characterized in that, on this, between heat-exchanging fin group and this lower heat-exchanging fin Zu two ends and the party's ring body, a backwater space is set respectively.

7. water-cooling type radiator according to claim 6, is characterized in that, four corners of the party's ring body arrange respectively a backwater guide block.