CN204288108U - Heat spreader module and heating radiator - Google Patents

Abstract

The utility model is about a kind of heat spreader module and heating radiator, this heating radiator comprises a pedestal and a removable air guide member, pedestal comprises a heat-conducting plate and is fixed in two wind deflectors of the relative both sides of heat-conducting plate, an air-guiding aisle is formed between heat-conducting plate and two wind deflectors, heat-conducting plate is connected with plural fin, each wind deflector one end outwardly lateral buckling is extended with a deep bead, and the other end has a junction; Removable air guide member can be connected to pedestal by assemble or disassemble, and removable air guide member comprises two directly to plate, and be often interconnected to plate one end and connecting portion, the other end outwardly lateral buckling extends a transverse plate always.With this, heat spreader module and heating radiator can be arranged on the motherboard of electronic package dense arrangement, and it is maximum distinguished and admirable that heat spreader module and heating radiator can be obtained.

Description

Heat spreader module and heating radiator

Technical field

The utility model has about a kind of heating radiator, espespecially a kind of heat spreader module and heating radiator.

Background technology

Along with scientific-technical progress, the electronic package quantity that motherboard is installed is also more much more intensive, for industrial computer, its motherboard be provided with the plural central processing unit (CPU) of arranged in parallel and be configured in the plurality memory groups of slots of each central processing unit (CPU) both sides, and then increasing usefulness and the expansion capacity of motherboard.

But, because of the object of the volume-diminished of motherboard many pursuits now, cause the arrangement more crypto set of central processing unit (CPU) and memory bank group, but cause central processing unit (CPU) easily heat history problem to occur, and affect the running of central processing unit (CPU).Therefore, how installation of heat radiator on the motherboard of electronic package dense arrangement is one of main research topic of dealer.

Utility model content

The purpose of this utility model, be to provide a kind of heat spreader module and heating radiator, it utilizes pedestal and removable air guide member mutually group to connect or to dismantle, make heat spreader module and heating radiator can be arranged on the motherboard of electronic package dense arrangement, and pedestal and removable air guide member effectively can be guided and distinguished and admirablely entered wind-guiding channel, make heat spreader module and heating radiator obtain maximum distinguished and admirable.

In order to solve the problems of the technologies described above, the utility model provides a kind of heating radiator, comprising:

One pedestal, comprise a heat-conducting plate and be fixed in two wind deflectors of the relative both sides of this heat-conducting plate, an air-guiding aisle is formed between this heat-conducting plate and two these wind deflectors, this heat-conducting plate is connected with a plurality of fin, one end of each this wind deflector outwardly lateral buckling is extended with a deep bead, and the other end of each this wind deflector has a junction; And

One removable air guide member, can be connected to this pedestal by assemble or disassemble, and this removable air guide member comprises two directly to plate, and each is directly interconnected to plate one end and this connecting portion, and the other end outwardly lateral buckling extends a transverse plate.

Further, wherein each this connecting portion comprises the draw-in groove offered on this wind deflector, each this directly to extend to the top of plate and reflexed has a shell fragment, each this shell fragment has a protuberance, and respectively this protuberance engages mutually with each this draw-in groove.

Further, wherein this removable air guide member more comprises a cross bar, two this be directly fixed in the two ends of this cross bar to plate.

Further, the angle wherein between each this wind deflector and this deep bead is between 90 ° ~ 150 °.

Further, wherein each this directly to the angle between plate and this transverse plate be 90 °.

Further, it more comprises a heat pipe, and this heat-conducting plate has an end face, and this end face is provided with a groove, and this heat pipe build-in is in this groove.

Further, it more comprises a heat pipe, and this heat-conducting plate has a bottom surface, and this bottom surface is provided with a groove, and this heat pipe build-in is in this groove.

Further, it more comprises a heat pipe, and this heat-conducting plate has an end face and a bottom surface, and this heat-conducting plate is provided with a transmission groove of this end face through and this bottom surface, and this heat pipe build-in is in this transmission groove.

Further, it more comprises a temperature-uniforming plate, and this heat-conducting plate has an end face, and this end face is provided with a groove, and this temperature-uniforming plate build-in is in this groove.

Further, it more comprises a temperature-uniforming plate, and this heat-conducting plate has a bottom surface, and this bottom surface is provided with a groove, and this temperature-uniforming plate build-in is in this groove.

Further, it more comprises a temperature-uniforming plate, and this heat-conducting plate has an end face and a bottom surface, and this heat-conducting plate is provided with a transmission groove of this end face through and this bottom surface, and this temperature-uniforming plate build-in is in this transmission groove.

Further, wherein each this connecting portion comprises the caulking groove offered from this wind deflector apical margin downwards, each this directly to extend to the top of plate and reflexed has an overhead kick, respectively this overhead kick is with respectively this caulking groove is mutually chimeric.

Further, it more comprises a fixation kit, and this cross bar is extended with a lug, and this lug is provided with a perforation, and this heat-conducting plate is provided with a fixed orifice, and this fixation kit wears and is fixed on this perforation and this fixed orifice.

Further, wherein this pedestal more comprises two auxiliary wind deflectors, two these auxiliary wind deflectors are fixed in the relative both sides of this heat-conducting plate, and two these auxiliary wind deflectors and two these wind deflectors are that spacing parallel arranging arranges, this removable air guide member is arranged between two these wind deflectors and two these auxiliary wind deflectors.

The utility model also provides a kind of heat spreader module, comprising:

Two pedestals, each this pedestal comprises a heat-conducting plate and is fixed in two wind deflectors of the relative both sides of this heat-conducting plate, an air-guiding aisle is formed between this heat-conducting plate and two these wind deflectors, this heat-conducting plate of one is connected with a plurality of first fin, another this heat-conducting plate is connected with a plurality of second fin, each this wind deflector one end outwardly lateral buckling is extended with a deep bead, and two these wind deflector other ends that one is relative have a junction; And

One removable air guide member, is arranged between two these pedestals, and this removable air guide member comprises two directly to plate, and each is directly interconnected to plate one end and this connecting portion, and the other end outwardly lateral buckling extends a transverse plate.

Further, wherein each this connecting portion comprises the draw-in groove offered on this wind deflector, each this directly to extend to the top of plate and reflexed has a shell fragment, each this shell fragment has a protuberance, and respectively this protuberance engages mutually with each this draw-in groove.

Further, wherein this removable air guide member more comprises a cross bar, two this be directly fixed in the two ends of this cross bar to plate.

Further, the angle wherein between each this wind deflector and this deep bead is between 90 ° ~ 150 °.

Further, wherein each this directly to the angle between plate and this transverse plate be 90 °.

Further, wherein this heat-conducting plate of one has one first end face, respectively this first fin connects the part being this first end face, this first end face is respectively forming one without fin district between this first fin and this wind deflector of one, another this heat-conducting plate has one second end face, and respectively the connection of this second fin is that this second end face is whole.

Further, wherein this heat-conducting plate of one has one first end face, respectively this first fin connects the both sides being this first end face, this first end face is respectively forming one without fin district between this first fin, another this heat-conducting plate has one second end face, and respectively the connection of this second fin is that this second end face is whole.

Further, wherein this heat-conducting plate of one has one first end face, respectively this first fin is spaced to connect and is the whole of this first end face, another this heat-conducting plate has one second end face, respectively this second fin is spaced connection and is that this second end face is whole, and the spacing between adjacent two these the first fins is greater than the spacing between adjacent two these the second fins.

The utility model utilizes pedestal and removable air guide member mutually group to connect or to dismantle, make heat spreader module and heating radiator can be arranged on the motherboard of electronic package dense arrangement, and pedestal and removable air guide member effectively can be guided and distinguished and admirablely be entered wind-guiding channel, make heat spreader module and heating radiator obtain maximum distinguished and admirable.

Accompanying drawing explanation

The three-dimensional exploded view of Fig. 1 the utility model heating radiator first embodiment.

The three-dimensional combination figure of Fig. 2 the utility model heating radiator first embodiment.

The combination vertical view of Fig. 3 the utility model heating radiator first embodiment.

The diagrammatic cross-section of Fig. 4 the utility model heating radiator second embodiment.

The diagrammatic cross-section of Fig. 5 the utility model heating radiator the 3rd embodiment.

The diagrammatic cross-section of Fig. 6 the utility model heating radiator the 4th embodiment.

The diagrammatic cross-section of Fig. 7 the utility model heating radiator the 5th embodiment.

The diagrammatic cross-section of Fig. 8 the utility model heating radiator the 6th embodiment.

The diagrammatic cross-section of Fig. 9 the utility model heating radiator the 7th embodiment.

The three-dimensional exploded view of Figure 10 the utility model heat spreader module first embodiment.

The three-dimensional combination figure of Figure 11 the utility model heat spreader module first embodiment.

The using state schematic diagram of Figure 12 the utility model heat spreader module first embodiment.

Another using state schematic diagram of Figure 13 the utility model heat spreader module first embodiment.

The another using state schematic diagram of Figure 14 the utility model heat spreader module first embodiment.

The using state schematic diagram of Figure 15 the utility model heat spreader module second embodiment.

The using state schematic diagram of Figure 16 the utility model heat spreader module the 3rd embodiment.

The three-dimensional exploded view of Figure 17 the utility model heat spreader module the 8th embodiment.

The three-dimensional combination figure of Figure 18 the utility model heat spreader module the 8th embodiment.

The three-dimensional exploded view of Figure 19 the utility model heat spreader module the 9th embodiment.

The three-dimensional combination figure of Figure 20 the utility model heat spreader module the 9th embodiment.

In figure, 100 ... heat spreader module

10 ... heating radiator

1 ... pedestal

11 ... heat-conducting plate

111 ... fin

111 ' ... first fin

111 " ... the second fin

112 ... end face

112 ' ... first end face

112 " ... the second end face

113 ... bottom surface

114 ... fixed orifice

12 ... wind deflector

121 ... deep bead

122 ... connecting portion

123 ... draw-in groove

124 ... apical margin

125 ... caulking groove

13 ... air-guiding aisle

14,14 ' ... groove

15 ... transmission groove

16,16 ' ... without fin district

17 ... auxiliary wind deflector

2 ... removable air guide member

21 ... straight to plate

211 ... top

212 ... shell fragment

213 ... protuberance

214 ... overhead kick

22 ... transverse plate

23 ... cross bar

231 ... lug

232 ... perforation

3 ... heat pipe

4 ... temperature-uniforming plate

5 ... fixation kit

200 ... motherboard

201 ... circuit board

202 ... central processing unit

203 ... memory bank group

204 ... block

300 ... fan

θ 1, θ 2 ... angle

A, b ... spacing.

Embodiment

Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail, and to make those skilled in the art better can understand the utility model being implemented, but illustrated embodiment is not as to restriction of the present utility model.

Relevant detailed description of the present utility model and technology contents, be described as follows graphic for cooperation, but institute's accompanying drawings is only as illustrative purposes, not for limiting to the utility model.

Please refer to shown in Fig. 1 to Fig. 3, the utility model provides a kind of heating radiator, and this heating radiator 10 mainly comprises pedestal 1 and a removable air guide member 2.

Pedestal 1 comprises a heat-conducting plate 11 and fixes and be connected to two wind deflectors 12 of the relative both sides of heat-conducting plate 11, an air-guiding aisle 13 is formed between heat-conducting plate 11 and two wind deflectors 12, heat-conducting plate 11 is connected with plural fin 111, each wind deflector 12 one end outwardly lateral buckling is extended with a deep bead 121, and the other end has a junction 122.

Be described in detail as follows, every a junction 122 comprises the draw-in groove 123 offered on wind deflector 12, and each fin 111 is arranged in air-guiding aisle 13.Wherein, the angle theta 1 between each wind deflector 12 and deep bead 121 is between 90 ° ~ 150 °, and angle theta 1 the best between each wind deflector 12 and deep bead 121 of the present embodiment is 90 °, but not as restriction.

Removable air guide member 2 can be connected to pedestal 1 by assemble or disassemble, and removable air guide member 2 comprises two directly to plate 21, and be often interconnected to plate 21 one end and connecting portion 122, the other end outwardly lateral buckling extends a transverse plate 22 always.

Further illustrate as follows, removable air guide member 2 more comprises that a cross bar 23, two is straight fix to plate 21 and to be connected to the two ends of cross bar 23, and often extends also reflexed to the top 211 of plate 21 always and have a shell fragment 212, each shell fragment 212 has a protuberance 213, and each protuberance 213 engages mutually with each draw-in groove 123.Wherein, often always to the angle theta 2 between plate 21 and transverse plate 22 be 90 °.

The combination of the utility model heating radiator 10, it utilizes pedestal 1 to comprise heat-conducting plate 11 and is fixed in the wind deflector 12 of the relative both sides of heat-conducting plate 11, air-guiding aisle 13 is formed between heat-conducting plate 11 and each wind deflector 12, heat-conducting plate 11 is connected with plural fin 111, each wind deflector 12 one end outwardly lateral buckling is extended with deep bead 121, and the other end has connecting portion 122; Removable air guide member 2 can be connected to pedestal 1 by assemble or disassemble, and removable air guide member 2 comprises two directly to plate 21, is often interconnected to plate 21 one end and connecting portion 122 always, and the other end outwardly lateral buckling extends transverse plate 22.With this, pedestal 1 and removable air guide member 2 can mutually group connect or dismantle, make heating radiator 10 can be arranged on the motherboard of electronic package dense arrangement, and pedestal 1 and removable air guide member 2 effectively can be guided and distinguished and admirablely entered air-guiding aisle 13, heating radiator 10 can be obtained maximum distinguished and admirable, with the radiating efficiency of heat radiation device 10.

In addition, heating radiator 10, in platy structure, makes the thickness of heating radiator 10 frivolous and can be fixed on Anywhere, such as: on motherboard or casing.

Please refer to shown in Fig. 3 to Fig. 6, the utility model heating radiator 10 second and third, four embodiments, second and third, four embodiments are roughly the same with the first embodiment, but second and third, four embodiments and the first embodiment difference be that heating radiator 10 more comprises a heat pipe 3.

Be described in detail as follows, as shown in Figure 4, the utility model heating radiator 10 second embodiment, heat-conducting plate 11 has end face 112, and end face 112 is provided with groove 14, and heat pipe 3 build-in is in groove 14; As shown in Figure 5, the utility model heating radiator 10 the 3rd embodiment, heat-conducting plate 11 has bottom surface 113, and bottom surface 113 is provided with groove 14 ', and heat pipe 3 build-in is in groove 14 '; As shown in Figure 6, the utility model heating radiator 10 the 4th embodiment, heat-conducting plate 11 has end face 112 and bottom surface 113, and heat-conducting plate 11 is provided with the transmission groove 15 of through end face 112 and bottom surface 113, and heat pipe 3 build-in is in transmission groove 15.With this, heat-conducting plate 11 build-in has heat pipe 3, and then more strengthens the radiating efficiency of heating radiator 10.

Please refer to shown in Fig. 7 to Fig. 9, the utility model heating radiator 10 the 5th, six, seven embodiments, five, six, seven embodiments are roughly the same with the first embodiment, but the 5th, six, seven embodiments and the first embodiment difference be that heating radiator 10 more comprises a temperature-uniforming plate 4.

Further illustrate as follows, as shown in Figure 7, the utility model heating radiator 10 the 5th embodiment, heat-conducting plate 11 has end face 112, and end face 112 is provided with groove 14, and temperature-uniforming plate 4 build-in is in groove 14; As shown in Figure 8, the utility model heating radiator 10 the 6th embodiment, heat-conducting plate 11 has bottom surface 113, and bottom surface 113 is provided with groove 14 ', and temperature-uniforming plate 4 build-in is in groove 14 '; As shown in Figure 9, the utility model heating radiator 10 the 7th embodiment, heat-conducting plate 11 has end face 112 and bottom surface 113, and heat-conducting plate 11 is provided with the transmission groove 15 of through end face 112 and bottom surface 113, and temperature-uniforming plate 4 build-in is in transmission groove 15.With this, heat-conducting plate 11 build-in has temperature-uniforming plate 4, and then more strengthens the radiating efficiency of heating radiator 10.

Please refer to shown in Figure 10 to Figure 14, the utility model provides a kind of heat spreader module, and this heat spreader module 100 mainly comprises two pedestal 1 and removable air guide members 2.

Each pedestal 1 comprises heat-conducting plate 11 and fixes and be connected to two wind deflectors 12 of the relative both sides of heat-conducting plate 11, air-guiding aisle 13 is formed between heat-conducting plate 11 and two wind deflectors 12, one heat-conducting plate 11 is connected with plural first fin 111 ', another heat-conducting plate 11 is connected with plural second fin 111 "; each wind deflector 12 one end outwardly lateral buckling is extended with deep bead 121, and two wind deflector 12 other ends that one is relative have connecting portion 122.

Be described in detail as follows, every a junction 122 comprises the draw-in groove 123 offered on wind deflector 12, and each first fin 111 ' and each second fin 111 " be separately positioned in air-guiding aisle 13.Wherein, the angle theta 1 between each wind deflector 12 and deep bead 121 is between 90 ° ~ 150 °, and angle theta 1 the best between each wind deflector 12 and deep bead 121 of the present embodiment is 90 °, but not as restriction.

In addition, one heat-conducting plate 11 has one first end face 112 ', each first fin 111 ' connects the part being the first end face 112 ', first end face 112 ' forms one without fin district 16 between each first fin 111 ' and one wind deflector 12, another heat-conducting plate 11 has one second end face 112 ", each second fin 111 " connect be the second end face 112 " all.

Removable air guide member 2 is arranged between two pedestals 1, and removable air guide member 2 comprises two directly to plate 21, and be often interconnected to plate 21 one end and connecting portion 122, the other end outwardly lateral buckling extends a transverse plate 22 always.

Further illustrate as follows, removable air guide member 2 more comprises that a cross bar 23, two is straight fix to plate 21 and to be connected to the two ends of cross bar 23, and often extends also reflexed to the top 211 of plate 21 always and have a shell fragment 212, each shell fragment 212 has a protuberance 213, and each protuberance 213 engages mutually with each draw-in groove 123.Wherein, often always to the angle theta 2 between plate 21 and transverse plate 22 be 90 °.

The combination of the utility model heat spreader module 100, it utilizes each pedestal 1 to comprise heat-conducting plate 11 and is fixed in the wind deflector 12 of the relative both sides of heat-conducting plate 11, air-guiding aisle 13 is formed between heat-conducting plate 11 and two wind deflectors 12, one heat-conducting plate 11 is connected with each first fin 111 ', another heat-conducting plate 11 is connected with each second fin 111 "; each wind deflector 12 one end outwardly lateral buckling is extended with deep bead 121, and two wind deflector 12 other ends that one is relative have connecting portion 122; Removable air guide member 2 is arranged between two pedestals 1, and removable air guide member 2 comprises directly to plate 21, is often interconnected to plate 21 one end and connecting portion 122 always, and the other end outwardly lateral buckling extends transverse plate 22.With this, pedestal 1 and removable air guide member 2 can mutually group connect or dismantle, make heat spreader module 100 can be arranged on the motherboard 200 of electronic package dense arrangement, and pedestal 1 and removable air guide member 2 effectively can be guided and distinguished and admirablely entered air-guiding aisle 13, heat spreader module 100 can be obtained maximum distinguished and admirable, with the radiating efficiency of heat radiation device module 100.

The using state of the utility model heat spreader module 100, it is for motherboard 200 and a fan 300, motherboard 200 comprises two central processing units (CPU) 202 on circuit board 201 of a circuit board 201, arranged in parallel and is arranged on four memory bank groups 203 of each central processing unit 202 both sides, each memory bank group 203 two ends has two blocks 204, and fan 300 respective hosts plate 200 configures.

First, as shown in Figure 10, be fixed on by two pedestals 1 above each central processing unit 202 and between two memory bank groups 203, deep bead 121 configures along the outside of memory bank group 203.

Moreover, as shown in Figure 10 to Figure 11, be arranged on by removable air guide member 2 between two pedestals 1, each protuberance 213 engages mutually with each draw-in groove 123, and order often can be connected to connecting portion 122 by assemble or disassemble to plate 21 always, and two transverse plates 22 are arranged between each two memory bank groups 203.

Finally, as shown in figure 12, fan 300 and wind-guiding channel 13 are in being oppositely disposed, and deep bead 121 and removable air guide member 2 have filled up the gap of each memory bank group 203, distinguished and admirablely positively enter air-guiding aisle 13 to guide, recycle and distinguished and admirablely central processing unit 202 is delivered to the first fin 111 ' and the second fin 111 " carry heat to external environment condition.

In addition, as shown in figure 13, because the object of volume-diminished pursued by motherboard more than 200 now, the arrangement more crypto set of central processing unit 202 and memory bank group 203 is caused, the thickness making the gap between memory bank group 203 only reach transverse plate 22 stretches into, and but causes block 204 normally cannot pull use; But as shown in figure 14, removable air guide member 2 can mutually group connect or dismantle in pedestal 1, so disassembled on pedestal 1 by removable air guide member 2, block 204 normally can pull use.

Moreover, as shown in figure 12, fan 300 can be close to the first fin 111 ' and configure or contiguous second fin 111 " configuration, it is not restriction with the present embodiment, but no matter contiguous first fin 111 ' of fan 300 or the second fin 111 " configuration, fan 300 all can produce and blow to the second fin 111 from the first fin 111 ' " distinguished and admirable, therefore the first end face 112 ' is formed without fin district 16 between each first fin 111 ' and one wind deflector 12, distinguished and admirablely successfully the second fin 111 is blowed to by the first fin 111 ' " really to allow, and then improve wind-guiding ability and the heat radiation function of heat spreader module 100.

In like manner, if fan 300 produces from the second fin 111 " blow to the distinguished and admirable of the first fin 111 '; then the second end face 112 " at each second fin 111 " and one wind deflector 12 between also can be formed without fin district, distinguished and admirable successfully by the second fin 111 really to allow " blow to the first fin 111 '.

Please refer to shown in Figure 15, the second embodiment of the utility model heat spreader module 100, the second embodiment is roughly the same with the first embodiment, but from the first embodiment difference, the second embodiment is that the position without fin district 16 ' is different.

Be described in detail as follows, fan 300 produces and blows to the second fin 111 from the first fin 111 ' " distinguished and admirable; therefore each first fin 111 ' connects and is the both sides of the first end face 112 '; the first end face 112 ' is formed without fin district 16 ' between each first fin 111 ', each second fin 111 " connection is the second end face 112 " whole.With this, distinguished and admirablely successfully blow to the second fin 111 by the first fin 111 ' really to allow ".

In like manner, if fan 300 produces from the second fin 111 " blow to the distinguished and admirable of the first fin 111 '; then the second end face 112 " at each second fin 111 " between also can be formed without fin district, distinguished and admirable successfully by the second fin 111 really to allow " blow to the first fin 111 '.

Please refer to shown in Figure 16,3rd embodiment of the utility model heat spreader module 100,3rd embodiment is roughly the same with the first embodiment, but the 3rd embodiment and the first embodiment difference are that the spacing a between each first fin 111 ' is greater than each second fin 111 " between spacing b.

Further illustrate as follows, fan 300 produces and blows to the second fin 111 from the first fin 111 ' " distinguished and admirable; therefore each first fin 111 ' is spaced connection and is the whole of the first end face 112 '; each second fin 111 " be spaced connection and be the second end face 112 " all, the spacing a between adjacent 2 first fins 111 ' is greater than adjacent 2 second fins 111 " and between spacing b.With this, distinguished and admirablely successfully blow to the second fin 111 by the first fin 111 ' really to allow ".

In like manner, if fan 300 produces from the second fin 111 " blow to the distinguished and admirable of the first fin 111 '; the spacing a then between adjacent 2 first fins 111 ' can be less than adjacent 2 second fins 111 " between spacing b, distinguished and admirable successfully by the second fin 111 really to allow " blow to the first fin 111 '.

Please refer to shown in Figure 17 to Figure 18, the 8th embodiment of the utility model heating radiator 10, the 8th embodiment is roughly the same with the first embodiment, but the 8th embodiment and the first embodiment difference are that removable air guide member 2 is more fixed on pedestal 1 in locking mode.

Be described in detail as follows, heating radiator 10 more comprises a fixation kit 5(such as: screw, fastener etc.), cross bar 23 is extended with a lug 231, lug 231 is provided with a perforation 232, heat-conducting plate 11 is provided with a fixed orifice 114, fixation kit 5 wears and is fixed on perforation 232 and fixed orifice 114, and makes removable air guide member 2 be fixed on pedestal 1 in locking mode.

In addition, as shown in Figure 1 to Figure 3, every a junction 122 can be the draw-in groove 123 comprising and offer on wind deflector 12; As shown in Figure 17 to Figure 18, every a junction 122 also can be the caulking groove 125 comprising and offer from wind deflector 12 apical margin 124 downwards, often always to plate 21 top 211 extend and reflexed have overhead kick 214, each overhead kick 214 is mutually chimeric with each caulking groove 125.

Please refer to shown in Figure 19 to Figure 20, the 9th embodiment of the utility model heating radiator 10, the 9th embodiment is roughly the same with the first embodiment, but the 9th embodiment and the first embodiment difference are that pedestal 1 more comprises two auxiliary wind deflectors 17.

Further illustrate as follows, two auxiliary wind deflectors 17 are fixed in heat-conducting plate 11 both sides relatively, and two auxiliary wind deflectors 17 arrange in spacing parallel arranging with two wind deflectors 12, allow two to assist wind deflectors 17 and two wind deflectors 12 and are listed in the side, front, rear, left and right of heat-conducting plate 11.Because two auxiliary wind deflectors 17 and two wind deflectors 12 are in spacing parallel arranging, make that there is a breach between the two, removable air guide member 2 is arranged between two wind deflectors 12 and this two auxiliary wind deflector 17, to cover two auxiliary breach between wind deflector 17 and two wind deflectors 12, pedestal 1 and removable air guide member 2 can effectively be guided and distinguished and admirablely enters air-guiding aisle 13, heating radiator 10 can be obtained maximum distinguished and admirable, with the radiating efficiency of heat radiation device 10.

The above embodiment is only for absolutely proving the preferred embodiment that the utility model is lifted, and protection domain of the present utility model is not limited thereto.The equivalent alternative or conversion that those skilled in the art do on the utility model basis, all within protection domain of the present utility model.Protection domain of the present utility model is as the criterion with claims.

Claims (22)

1. a heating radiator, is characterized in that, comprising:

One pedestal, comprise a heat-conducting plate and be fixed in two wind deflectors of the relative both sides of this heat-conducting plate, an air-guiding aisle is formed between this heat-conducting plate and two these wind deflectors, this heat-conducting plate is connected with a plurality of fin, one end of each this wind deflector outwardly lateral buckling is extended with a deep bead, and the other end of each this wind deflector has a junction; And

One removable air guide member, can be connected to this pedestal by assemble or disassemble, and this removable air guide member comprises two directly to plate, and each is directly interconnected to plate one end and this connecting portion, and the other end outwardly lateral buckling extends a transverse plate.

2. heating radiator as claimed in claim 1, it is characterized in that, wherein each this connecting portion comprises the draw-in groove offered on this wind deflector, each this directly to extend to the top of plate and reflexed has a shell fragment, each this shell fragment has a protuberance, and respectively this protuberance engages mutually with each this draw-in groove.

3. heating radiator as claimed in claim 1, it is characterized in that, wherein this removable air guide member more comprises a cross bar, two this be directly fixed in the two ends of this cross bar to plate.

4. heating radiator as claimed in claim 1, it is characterized in that, the angle wherein between each this wind deflector and this deep bead is between 90 ° ~ 150 °.

5. heating radiator as claimed in claim 1, is characterized in that, wherein each this directly to the angle between plate and this transverse plate be 90 °.

6. heating radiator as claimed in claim 1, it is characterized in that, it more comprises a heat pipe, and this heat-conducting plate has an end face, and this end face is provided with a groove, and this heat pipe build-in is in this groove.

7. heating radiator as claimed in claim 1, it is characterized in that, it more comprises a heat pipe, and this heat-conducting plate has a bottom surface, and this bottom surface is provided with a groove, and this heat pipe build-in is in this groove.

8. heating radiator as claimed in claim 1, it is characterized in that, it more comprises a heat pipe, and this heat-conducting plate has an end face and a bottom surface, and this heat-conducting plate is provided with a transmission groove of this end face through and this bottom surface, and this heat pipe build-in is in this transmission groove.

9. heating radiator as claimed in claim 1, it is characterized in that, it more comprises a temperature-uniforming plate, and this heat-conducting plate has an end face, and this end face is provided with a groove, and this temperature-uniforming plate build-in is in this groove.

10. heating radiator as claimed in claim 1, it is characterized in that, it more comprises a temperature-uniforming plate, and this heat-conducting plate has a bottom surface, and this bottom surface is provided with a groove, and this temperature-uniforming plate build-in is in this groove.

11. heating radiators as claimed in claim 1, it is characterized in that, it more comprises a temperature-uniforming plate, and this heat-conducting plate has an end face and a bottom surface, and this heat-conducting plate is provided with a transmission groove of this end face through and this bottom surface, and this temperature-uniforming plate build-in is in this transmission groove.

12. heating radiators as claimed in claim 3, it is characterized in that, wherein each this connecting portion comprises the caulking groove offered from this wind deflector apical margin downwards, each this directly to extend to the top of plate and reflexed has an overhead kick, respectively this overhead kick is with respectively this caulking groove is mutually chimeric.

13. heating radiators as claimed in claim 3, it is characterized in that, it more comprises a fixation kit, and this cross bar is extended with a lug, and this lug is provided with a perforation, and this heat-conducting plate is provided with a fixed orifice, and this fixation kit wears and is fixed on this perforation and this fixed orifice.

14. heating radiators as described in claim 1,3 or 13, it is characterized in that, wherein this pedestal more comprises two auxiliary wind deflectors, two these auxiliary wind deflectors are fixed in the relative both sides of this heat-conducting plate, and two these auxiliary wind deflectors and two these wind deflectors are that spacing parallel arranging arranges, this removable air guide member is arranged between two these wind deflectors and two these auxiliary wind deflectors.

15. 1 kinds of heat spreader modules, is characterized in that, comprising:

Two pedestals, each this pedestal comprises a heat-conducting plate and is fixed in two wind deflectors of the relative both sides of this heat-conducting plate, an air-guiding aisle is formed between this heat-conducting plate and two these wind deflectors, this heat-conducting plate of one is connected with a plurality of first fin, another this heat-conducting plate is connected with a plurality of second fin, each this wind deflector one end outwardly lateral buckling is extended with a deep bead, and two these wind deflector other ends that one is relative have a junction; And

One removable air guide member, is arranged between two these pedestals, and this removable air guide member comprises two directly to plate, and each is directly interconnected to plate one end and this connecting portion, and the other end outwardly lateral buckling extends a transverse plate.

16. heat spreader modules as claimed in claim 15, it is characterized in that, wherein each this connecting portion comprises the draw-in groove offered on this wind deflector, each this directly to extend to the top of plate and reflexed has a shell fragment, each this shell fragment has a protuberance, and respectively this protuberance engages mutually with each this draw-in groove.

17. heat spreader modules as claimed in claim 15, it is characterized in that, wherein this removable air guide member more comprises a cross bar, two this be directly fixed in the two ends of this cross bar to plate.

18. heat spreader modules as claimed in claim 15, it is characterized in that, the angle wherein between each this wind deflector and this deep bead is between 90 ° ~ 150 °.

19. heat spreader modules as claimed in claim 15, is characterized in that, wherein each this directly to the angle between plate and this transverse plate be 90 °.

20. heat spreader modules as claimed in claim 15, it is characterized in that, wherein this heat-conducting plate of one has one first end face, respectively this first fin connects the part being this first end face, this first end face is respectively forming one without fin district between this first fin and this wind deflector of one, another this heat-conducting plate has one second end face, and respectively the connection of this second fin is that this second end face is whole.

21. heat spreader modules as claimed in claim 15, it is characterized in that, wherein this heat-conducting plate of one has one first end face, respectively this first fin connects the both sides being this first end face, this first end face is respectively forming one without fin district between this first fin, another this heat-conducting plate has one second end face, and respectively the connection of this second fin is that this second end face is whole.

22. heat spreader modules as claimed in claim 15, it is characterized in that, wherein this heat-conducting plate of one has one first end face, respectively this first fin is spaced to connect and is the whole of this first end face, another this heat-conducting plate has one second end face, respectively this second fin is spaced connection and is that this second end face is whole, and the spacing between adjacent two these the first fins is greater than the spacing between adjacent two these the second fins.