CN204887830U - Heat radiator - Google Patents

Abstract

The utility model discloses a heat radiator includes a base and a thermal module. This base includes a body and a bottom, this body include a top surface, a bottom surface, a first passageway, an at least second channel, one and first appearance room and an at least second room holds, this bottom includes one and meets touch multitouch. This thermal module includes a first pipe fitting, a second pipe fitting and a plurality of cooling tube. The utility model discloses a heat radiator through relative touch multitouch and this the second pipe fitting of connecing in the position with first appearance room, makes the steam of heat energy and production concentrate on in this first appearance room and the first passageway to can according to the preface through and the corresponding cooling tube in this first appearance room, second pipe fitting and hold the corresponding cooling tube in room and cooled down with this second, is holding the corresponding cooling tube medium curing in room then with this second and is forming liquid and get back to during this second holds room and first appearance room through this second channel, so reduce steam and liquid anatrepsis's in same cooling tube situation, and then promote the radiating effect.

Description

Radiator

Technical field

The utility model is about a kind of radiator.

Background technology

Current computer due to be more and more particular about meticulous with want cube little, therefore to insert many assemblies in limited space.But in computer system, have many heat generating components, too assemble once these heat generating components, when adding that radiating effect is not good, easily cause the problem of system overheat.

Refer to shown in Fig. 6, prior art provides a kind of radiator 70 utilizing radiating tube 72 steam condensation to be become liquid, dispels the heat in order to auxiliary heat generating component 80 and avoids system overheat.In time using, this radiator 70 is installed on the end face of heat generating component 80, the liquid be placed in the pedestal 71 of this radiator 70 becomes steam after absorption comes from the heat energy of this heat generating component 80, and this steam upwards enters in this radiating tube 72, and is moved towards top by the bottom of this radiating tube 72; When in the process that this steam moves up in this radiating tube 72, by the radiating fin 95 being located at these radiating tube 72 both sides, this steam lowered the temperature gradually because of heat energy dissipation and condense into liquid, and then be back in pedestal 71 by this radiating tube 72, so reach the radiating effect of this heat generating component 80 auxiliary.

But the steam formed by the heat energy of heat generating component 80 is move in this radiating tube 72 in the opposite direction with the liquid formed because of heat energy dissipation, thus mutually disturbs, causes the radiating effect of the radiator 70 of prior art unevident.Prior art therefore the space be still improved.

Utility model content

Because the shortcoming of above-mentioned prior art, the purpose of this utility model is to provide a kind of radiator, and it effectively can avoid the mutual interference in radiating tube of steam and liquid, thus has preferably radiating effect.

For reaching aforesaid the utility model object, the technological means that the utility model adopts makes aforesaid radiator include a pedestal and a radiating module.This pedestal includes a body and a bottom; This body include an end face, in contrast to the bottom surface of this end face, a first passage, at least one second channel, first room be connected with this first passage and at least one the second room be connected with this second channel, this first passage and this at least one second channel interval recessed on this end face, this first room and this at least one second room septum recessed on this bottom surface; This bottom to be located on this bottom surface and to be included a contact block relative with the position of this first room.This radiating module includes the first pipe fitting be located on this end face, a hollow and in contrast to the second pipe fitting of this first pipe fitting and multiple radiating tube be connected to spaced reciprocally between this first pipe fitting and second pipe fitting; This first pipe fitting include a tube wall connected with this end face, defined by this tube wall in space, be always arranged in the first through hole on this tube wall and at least onely run through the second through hole be located on this tube wall, and this first through hole is connected between this interior space and this first passage, this at least one second through hole is connected to this interior space between this at least one second channel; Each radiating tube includes an inner flow passage be connected with the inside of this interior space and this second pipe fitting.

Preferably, described first pipe fitting includes a dividing plate, and this dividing plate to be convexly equipped on this tube wall and to be arranged in this space, and this dividing plate is between this first through hole and this at least one second through hole.

Preferably, described bottom includes a lid and a heat-conducting block, the bottom of this first room and this at least one second room is closed in the bottom surface that this cover cap is located at this body, this lid includes an inner and outer end, this heat-conducting block to be arranged on this inner and to connect with the first room of this body and each second room, and this contact block protrudes and takes shape on this outer end.

Preferred, this heat-conducting block be through sintering metal, there is netted metal or vittate metal; Wherein this metal is high-thermal conductive metal.

Preferably, described pedestal comprises one and is located in liquid in this first room and this at least one second room, and this liquid is water, acetone, methyl alcohol, ethanol or refrigerant.

Preferably, be equipped with axial capillary structure in this inner flow passage, wherein capillary structure comprises, plough groove type, mesh-type, fiber type or sintered type.

Preferably, described radiator includes multiple radiating fin be located at respectively on the plurality of radiating tube.

Preferably, described radiating module includes one and is fixed in linkage frame between described first pipe fitting and the second pipe fitting.

Preferably, described radiator includes one and is installed in fan on this radiating module.Preferred, this fan is adjacent to the side of this majority radiating fin.Preferred, described radiator includes one and is installed in support on this linkage frame, and this fan is installed on this support.

Preferably, this at least one second channel includes two second channels, this two second channel lays respectively at the two opposite sides of this first passage, this at least one second room includes 2 second rooms, this 2 second room lays respectively at the two opposite sides of this first room, and this 2 second room is connected with this two second channel respectively, this at least one second through hole includes 2 second through holes, and this 2 second through hole is connected with this two second channel respectively.Preferred, this at least one dividing plate includes two dividing plates, and this two dividing plate is individually at this first through hole and wherein between one second through hole.

The advantage of radiator of the present utility model is:

By the contact block relative with the position of the first room and this second pipe fitting, the steam of heat energy and generation is made comparatively to concentrate in this first room and first passage, and can sequentially via this first pipe fitting, the radiating tube corresponding with this first room, this second pipe fitting and the radiating tube corresponding with this second room and lowered the temperature, finally in the radiating tube corresponding with this second room, condense into liquid, and get back in this second room and the first room via this first pipe fitting and this second channel, reduce the situation of steam and liquid reverse movement in same radiating tube, thus improving radiating effect.

Accompanying drawing explanation

Fig. 1 is the stereo appearance figure of the preferred embodiment of radiator of the present utility model, wherein omits fan;

Fig. 2 is the stereo appearance figure of the preferred embodiment of radiator of the present utility model;

Fig. 3 is the side plan view of Fig. 2;

Fig. 4 is the profile of the 4-4 face line along Fig. 3;

Fig. 5 is the use schematic diagram of the preferred embodiment of radiator of the present utility model;

Fig. 6 is the use schematic diagram of the radiator of prior art.

Embodiment

Below coordinating accompanying drawing and preferred embodiment of the present utility model, setting forth the technological means that the utility model is taked for reaching predetermined utility model object further.

Refer to shown in Fig. 1 and 2, radiator of the present utility model includes pedestal 10 and a radiating module 20.In a preferred embodiment, described radiator also includes multiple radiating fin 30, fan 40 and a support 50, and the plurality of radiating fin 30 and fan 40 are located on this radiating module 20, and this support 50 is arranged between this radiating module 20 and fan 40.

Refer to shown in Fig. 1 to 4, aforesaid pedestal 10 includes body 11, bottom 12 and a liquid.

Refer to shown in Fig. 1 to 4, described body 11 includes an end face 111, in contrast to bottom surface 112, first passage 113 of this end face 111, at least one second channel 114,1 first room 115 and at least one second room 116; This first passage 113 and at least one second channel 114 interval indent take shape on this end face 111; This first room 115 and this at least one second room 116 interval indent take shape on this bottom surface 112, this first room 115 is connected with this first passage 113, this at least one second room 116 is connected with this at least one second channel 114, and this at least one second room 116 is connected with this first room 115.

Refer to shown in Fig. 2 to 4, described bottom 12 is located on the bottom surface 112 of this body 11, and described bottom 12 includes lid 121 and a contact block 122, the bottom of this first room 115 and this at least one second room 116 is closed in the bottom surface 112 that this lid 121 is covered on this body 11, this lid 121 includes one inner 1211 and one outer end 1212, the bottom surface 112 of this inner 1211 and this body 11 and this first room 115 and this at least one second room 116 connect, this contact block 122 protrudes and takes shape on this outer end 1212, and the position of this contact block 122 is relative with the position of this first room 115.In a preferred embodiment, described bottom 12 also includes a heat-conducting block 123, this heat-conducting block 123 to be arranged on this inner 1211 and to connect with the first room 115 of this body 11 and each second room 116, this heat-conducting block 123 be through sintering metal, there is netted metal or vittate metal, this through sintering metal there is concrete dynamic modulus; Wherein this metal is high-thermal conductive metal; Wherein this high-thermal conductive metal include, but are not limited to copper or aluminium, makes the efficiency of transferring heat energy higher.

Refer to shown in Fig. 4, aforesaid liquid is located in this first room 115 and this at least one second room 116.In a preferred embodiment, this liquid is water, but not as limit; This liquid also can be acetone, methyl alcohol, ethanol or refrigerant.

Refer to shown in Fig. 1, aforesaid radiating module 20 is installed on the end face 111 of this body 11, and its include one first pipe fitting 21, in contrast to this first pipe fitting 21 the second pipe fitting 22, be multiplely connected to radiating tube 23 between this first pipe fitting 21 and this second pipe fitting 22 and a linkage frame 24 spaced reciprocally.

Refer to shown in Fig. 1,3 and 4, described first pipe fitting 21 is laterally located on the end face 111 of this body 11, and its include a tube wall 211, defined by this tube wall 211 in space 212,1 first through hole 213, at least one second through hole 214 and at least one dividing plate 215; This tube wall 211 connects with end face 111; This first through hole 213 and this at least one second through hole 214 interval are run through and are taken shape on this tube wall 211, and this first through hole 213 is connected between this interior space 212 and this first through hole 213, this at least one second through hole 214 is connected between this interior space 212 and this at least one second channel 114; This at least one dividing plate 215 to be convexly equipped on this tube wall 211 and to be arranged in this space 212, and this at least one dividing plate 215 is between this first through hole 213 and this at least one second through hole 214.In a preferred embodiment, this at least one dividing plate 215 is taken shape in this interior space 212 to projecting inward by this tube wall 211.

Refer to shown in Fig. 1 and 4, described second pipe fitting 22 is relatively arranged on the side of this first pipe fitting 21 away from this body 11, and its inner hollow.

Refer to shown in Fig. 1 and 4, described multiple radiating tube 23 does not include a first end 231, runs through this first end 231 and the second end 232 inner flow passage 233 in contrast to second end 232 and of this first end 231; This first end 231 radial direction is arranged on this tube wall 211, and this second end 232 radial direction is arranged on this second pipe fitting 22, and this inner flow passage 233 is connected with the inside of this interior space 212 and this second pipe fitting 22.Wherein, be equipped with axial capillary structure in this inner flow passage 233, wherein capillary structure includes, but are not limited to plough groove type, mesh-type, fiber type or sintered type; Or half volume is sintered type capillary structure in this inner flow passage 233.

Refer to shown in Fig. 1 and 4, described linkage frame 24 to be fixed between described first pipe fitting 21 and the second pipe fitting 22 and to be positioned at the outside of multiple radiating tube 23 described in this.

In a preferred embodiment, refer to shown in Fig. 4, this at least one second channel 114 includes two second channels 114, this two second channel 114 lays respectively at the two opposite sides of this first passage 113, this at least one second room 116 includes 2 second rooms 116, this 2 second room 116 lays respectively at the two opposite sides of this first room 115, and this 2 second room 116 is connected with this two second channel 114 respectively.Again, this at least one second through hole 214 includes 2 second through holes 214, and this 2 second through hole 214 is connected with this two second channel 114 respectively.Separately, this at least one dividing plate 215 includes two dividing plates 215, and this two dividing plate is individually at this first through hole 213 and wherein between one second through hole 214.And, refer to shown in Fig. 1 to 4, aforesaid multiple radiating fin 30 is located on the plurality of radiating tube 23 respectively, aforesaid support 50 is installed on this linkage frame 24, aforesaid fan 40 is installed on the linkage frame 24 of this radiating module 20 through this support 50, and this fan 40 is adjacent to the side of this radiating fin 30.

Refer to shown in Fig. 2 to 5, radiator of the present utility model is in time using, be placed in by the contact block 122 of this pedestal 10 on a thermal source 60, this thermal source 60 is including but not limited to the central processing unit (centralprocessingunit, CPU) of computer main frame panel.The heat energy that thermal source can produce by this contact block 122, is passed to through this heat-conducting block 123 in the liquid of this first room 115 and the second room 116.Because the position of this contact block 122 is relative with the position of this first room 115, therefore the heat energy that contact block 122 transmits comparatively can be concentrated and be passed in this first room 115, and receive by the liquid in this first room 115, the liquid of the first room 115 easily can be evaporated compared with the liquid of the second room 116.When the liquid heat in the first room 115 is evaporated, steam can enter in interior space 212 via first passage 113 and the first through hole 213, then enters the inside of this second pipe fitting 22 via the first end 231 of the radiating tube 23 corresponding with the position of this first through hole 213, inner flow passage 233 and the second end 232; Wherein, when steam moves in this radiating tube 23, by the effect of fan 40 and radiating fin 30, the temperature of steam can tentatively decline; When steam enters in the second pipe fitting 22, second end 232 of the radiating tube 23 that the past temperature of steam meeting is lower and inner flow passage 233 move, namely move toward the second end 232 of the radiating tube 23 corresponding with second channel 114 and inner flow passage 233, in this, by the effect of fan 40 and radiating fin 30, steam can be lowered the temperature and be condensed into liquid, and to flow in this first pipe fitting 21 in space 212 via the inner flow passage 233 of the radiating tube 23 corresponding with second channel 114 and first end 231.Be subject to dividing plate 215 to stop, the liquid flowed in the interior space 212 of this first pipe fitting 21 finally can directly be back in this second room 116 and the first room 115 via this second channel 114, makes thermal source reach the effect of radiating and cooling by this phenomenon repetitive cycling.

Based on above-mentioned, radiator of the present utility model, by making the position of this contact block 122 relative with the position of this first room 115 and make this second pipe fitting 22 for hollow and be connected with radiating tube 23, the steam of heat energy and generation is made can comparatively to concentrate in this first room 115 and first passage 113, and sequentially via this first pipe fitting 21, the radiating tube 23 corresponding with this first room 115, this second pipe fitting 22 and the radiating tube 23 corresponding with this second room 116 and lowered the temperature, finally in the radiating tube 23 corresponding with this second room 116, condense into liquid, and get back in this second room 116 and the first room 115 via this first pipe fitting 21 and this second channel 114, the situation of minimizing steam like this and liquid reverse movement in same radiating tube 23, reach the advantage of improving radiating effect.

The above is only preferred embodiment of the present utility model, not any pro forma restriction is done to the utility model, although the utility model discloses as above with preferred embodiment, but and be not used to limit the utility model, any those skilled in the art, not departing from the scope of technical solutions of the utility model, the technology contents of above-mentioned announcement should be utilized to make a little change or be modified to the Equivalent embodiments of equivalent variations, in every case be the content not departing from technical solutions of the utility model, according to any simple modification that technical spirit of the present utility model is done above embodiment, equivalent variations and modification, all still belong in the scope of technical solutions of the utility model.

Claims (9)

1. a radiator, is characterized in that, wherein comprises:

One pedestal, wherein comprises

One body, it comprises

One end face;

One in contrast to the bottom surface of this end face;

One first passage and at least one second channel, this first passage and this at least one second channel interval recessed on this end face; And

One first room and at least one second room, this first room and this at least one second room septum recessed on this bottom surface, this first room is connected with this first passage, this at least one second room is connected with this at least one second channel, and this at least one second room is connected with this first room; And

One bottom, it is located on this bottom surface, and it comprises

One contact block, its position is relative with the position of this first room; And

One radiating module, it is installed on this end face, and it comprises

One first pipe fitting, it is located on this end face, and it comprises

One tube wall connected with this end face;

One to be defined by this tube wall in space;

One runs through the first through hole taken shape on this tube wall, and this first through hole is connected between this interior space and this first passage; And

At least onely run through the second through hole taken shape on this tube wall, this at least one second through hole is connected between this interior space and this second channel;

One hollow and in contrast to the second pipe fitting of this first pipe fitting; And

Multiple radiating tube be connected to spaced reciprocally between this first pipe fitting and this second pipe fitting, each radiating tube includes an inner flow passage be connected with the inside of this interior space and this second pipe fitting.

2. radiator according to claim 1, is characterized in that, wherein said first pipe fitting includes a dividing plate, and this dividing plate to be convexly equipped on this tube wall and to be arranged in this space, and this dividing plate is between this first through hole and this at least one second through hole.

3. radiator according to claim 1 and 2, it is characterized in that, wherein said bottom includes a lid and a heat-conducting block, the bottom of this first room and this at least one second room is closed in the bottom surface that this cover cap is located at this body, this lid includes an inner and outer end, this heat-conducting block to be arranged on this inner and to connect with the first room of this body and each second room, and this contact block protrudes and takes shape on this outer end.

4. radiator according to claim 3, is characterized in that, wherein this heat-conducting block be through sintering metal, there is netted metal or vittate metal; Wherein this metal is high-thermal conductive metal.

5. radiator according to claim 1 and 2, is characterized in that, described pedestal comprises one and is located in liquid in this first room and this at least one second room, and this liquid is water, acetone, methyl alcohol, ethanol or refrigerant.

6. radiator according to claim 1 and 2, is characterized in that, is equipped with axial capillary structure in this inner flow passage, and wherein capillary structure comprises plough groove type, mesh-type, fiber type or sintered type.

7. radiator according to claim 1 and 2, is characterized in that, described radiating module includes one and is fixed in linkage frame between described first pipe fitting and the second pipe fitting.

8. radiator according to claim 1, it is characterized in that, this at least one second channel includes two second channels, this two second channel lays respectively at the two opposite sides of this first passage, this at least one second room includes 2 second rooms, and this 2 second room lays respectively at the two opposite sides of this first room, and this 2 second room is connected with this two second channel respectively, this at least one second through hole includes 2 second through holes, and this 2 second through hole is connected with this two second channel respectively.

9. radiator according to claim 2, it is characterized in that, this at least one second channel includes two second channels, this two second channel lays respectively at the two opposite sides of this first passage, this at least one second room includes 2 second rooms, this 2 second room lays respectively at the two opposite sides of this first room, and this 2 second room is connected with this two second channel respectively, this at least one second through hole includes 2 second through holes, this 2 second through hole is connected with this two second channel respectively, and this at least one dividing plate includes two dividing plates, this two dividing plate is individually at this first through hole and wherein between one second through hole.