CN207816066U - Temperature-uniforming plate heat radiation module - Google Patents

Abstract

The utility model provides a kind of temperature-uniforming plate heat radiation module, a cooling plate including a temperature-uniforming plate and on one surface of temperature-uniforming plate, and cooling plate includes a plate portion and half pipe portion, plate portion has a faying face and a cooling surface, plate portion is amplexiformed with its faying face on temperature-uniforming plate, and half pipe portion is then shaped on the cooling surface of plate portion, and half pipe portion is recessed by the faying face of plate portion and protrudes from cooling surface.Whereby, in addition to can by half pipe portion by improve heat dissipation effect other than, also can by the contact that plate portion and temperature-uniforming plate are face with face easy to manufacture with improve adaptation etc..

Description

Temperature-uniforming plate heat radiation module

Technical field

The utility model is related with a kind of radiating subassembly, especially a kind of to can be applied to as equal on water-cooled cooling system Warm plate heat radiation module.

Background technology

Nowadays, heat dissipation is provided by coolant liquids such as such as water coolings, for now as computer etc. has the occasion institute of heater element One of indispensable technological means, but often also derive the technical problems such as coolant liquid leakage and need to overcome.

And in previous water-cooled cooling system, it is anti-to connect setting such as rubber in the group of each element for more typical mode Hydrosphere, to achieve the effect that waterproof leaks by higher leakproofness；Secondly, then reached by the sealings mode such as such as welding. However, the limitations such as the contact area of each interelement are limited to, the previous component applied in water-cooled cooling system, though it can meet Improve the demand of heat dissipation effect, but or have because that by water proof ring or can not weld and the factors such as be more not easy, and cause to cool down Liquid is easy the problems such as leakage, while the also opposite fraction defective for being not easy and improving product in manufacture in use.

Utility model content

The main purpose of the utility model is that a kind of temperature-uniforming plate heat radiation module can be provided, in addition to heat dissipation effect can be improved Outside fruit, it also can further meet the coolant liquid anti-leak result of water-cooled cooling system, to take into account product easy to manufacture and raising Its yield, in use also can due to preferably closely sealed more stability.

In order to reach above-mentioned purpose, the utility model provides a kind of temperature-uniforming plate heat radiation module, including a temperature-uniforming plate and One cooling plate；Wherein, there are two surfaces for temperature-uniforming plate tool, and cool down plate on a wherein surface for temperature-uniforming plate, and include One plate portion and half pipe portion, plate portion have a faying face and a cooling surface, and plate portion is amplexiformed with faying face on temperature-uniforming plate, and semicanal Portion is then shaped on the cooling surface of plate portion, and half pipe portion is recessed by the faying face of plate portion and protrudes from cooling surface.

Preferably, one of faying face with the temperature-uniforming plate of the plate portion surface are tied for face and amplexiforming for face It closes.

Preferably, half pipe portion in the plate portion be in detour shape be distributed.

Preferably, a runner is formed between one of half pipe portion and the temperature-uniforming plate surface.

Preferably, the runner has a first port and a second port, and the first port is between the second port Half pipe portion is coordinated to extend in the cooling surface and be connected.

Preferably, the first port, second port are set to the same side, opposite side or the sides adjacent of the plate portion.

Preferably, the first port, be separately connected a pipe fitting in second port.

Preferably, which has one first plate body and one second plate body, and first plate body, the second plate body are stacked and set And in forming an accommodating space to each other, the accommodating space is closed by first plate body, the second plate body and is in vacuum state.

Preferably, wherein one surface of the temperature-uniforming plate is formed in outside first plate body, and another surface then shape At in outside second plate body.

Preferably, in the accommodating space capillary structure is pasted with filled with working fluid and in the inner on wall.

Whereby, in addition to can by half pipe portion by improve heat dissipation effect other than, also can be face and face by plate portion and temperature-uniforming plate It contacts and easy to manufacture and raising adaptation etc..

Description of the drawings

Fig. 1 is the perspective exploded view of the utility model first embodiment.

Fig. 2 is the Three-dimensional combination diagram of the utility model first embodiment.

Fig. 3 is the internal structure schematic diagram of the utility model first embodiment.

Fig. 4 is the use state diagram of the utility model first embodiment.

Fig. 5 is the perspective exploded view of the utility model second embodiment.

In figure：

Temperature-uniforming plate 1；First plate body 10；Surface 100；Surface 110；Second plate body 11；Accommodating space 12；Capillary structure 13；Cooling plate 2；Plate portion 20；Faying face 200；Cooling surface 201；Half pipe portion, 21 runner 210；First port 211；Second Port 212；Pipe fitting 3；Pipeline 30.

Specific implementation mode

The utility model is described in further detail in the following with reference to the drawings and specific embodiments, so that those skilled in the art The utility model can be better understood from and can be practiced, but illustrated embodiment is not as the restriction to the utility model.

It please refers to Fig.1 and Fig. 2, the respectively perspective exploded view of the utility model first embodiment and three-dimensional combination is shown It is intended to.The utility model provides a kind of temperature-uniforming plate heat radiation module, can be applied to as on water-cooled cooling system, for water-cooled Coolant liquid in cooling system by when, can further pass through temperature-uniforming plate（Vapor Chamber）Cool down to coolant liquid.It should Temperature-uniforming plate heat radiation module includes the cooling plate 2 that a temperature-uniforming plate 1 and one is laminated in the temperature-uniforming plate 1 and is combined；Wherein：

The temperature-uniforming plate 1 has one first plate body 10 and one second plate body 11, and first plate body 10, the second plate body 11 are stacked And if in forming an accommodating space 12 to each other（I.e. as shown in Figure 3）, the accommodating space 12 is by the first plate body 10, the second plate body It is in vacuum state after 11 closings, and is filled with working fluid in the inner（Figure omits）And on wall it is pasted with capillary structure in the inner 13.As shown in figure 3, the temperature-uniforming plate mainly has, there are two surfaces 100,110, wherein a surface 100 is formed in above-mentioned first plate body Outside 10, and another surface 110 is then formed in outside above-mentioned second plate body 11；It implies that when first plate body 10,11 phase of the second plate body It is folded when setting and constituting the temperature-uniforming plate 1, described two surfaces 100,110 be the temperature-uniforming plate 1 it is plate-like and with maximum surface Long-pending two surfaces 100,110.

The cooling plate 2 is stacked on above-mentioned temperature-uniforming plate 1, so as to the coolant liquid for being connected in aforementioned water-cooled cooling system Pass through, so as to absorb the heat in coolant liquid by the temperature-uniforming plate 1, to reduce the temperature of coolant liquid.The cooling plate 2 includes One plate portion 20 and half pipe portion 21, which has a faying face 200 and a cooling surface 201, and the plate portion 20 is with the combination Face 200 is amplexiformed on the temperature-uniforming plate 1, and half pipe portion 21 is then shaped on the cooling surface 201 of the plate portion 20, and the semicanal Portion 21 is recessed by the faying face 200 of the plate portion 20 and protrudes from the cooling surface 201 and constitutes the cooling plate 2.Wherein, this is cold But plate 2 is amplexiformed with the faying face 200 of its plate portion 20 on wherein one surface 100 of the temperature-uniforming plate 1, and can be passed through and such as be welded The heat such as connect and pass bonding mode and the cooling plate 2 is incorporated on the temperature-uniforming plate 1, and half pipe portion 21 can also the plate portion 20 pass through Such as punching press mode and integrated molding person, can make the cooling plate 2 and temperature-uniforming plate 1 to ensure its flatness by the plate portion 20 That makees face and face amplexiforms combination.

In more detail, half pipe portion 21 by the faying face 200 of the plate portion 20 after the recessed and surface of the temperature-uniforming plate 1 A runner 210 can be formed between 100, the runner 210 has a first port 211 and a second port 212, the first port 211 are connected to coordinating half pipe portion 21 to extend in cooling surface 201 between the second port 212, and half pipe portion 21 can have It is distributed in detour shape in the case of imitating using its 201 area of cooling surface thereon, so as to extending 210 length of runner.

Therefore passing through above-mentioned contexture, you can obtain the utility model temperature-uniforming plate heat radiation module.

Accordingly, as shown in figure 4, the utility model temperature-uniforming plate heat radiation module can pass through such as components such as pipe fitting 3 and water-cooled The pipeline 30 of cooling system connects, and implies that and is separately connected a pipe fitting 3 in above-mentioned first port 211 and second port 212 Afterwards, make the pipeline 30 of water-cooled cooling system that the temperature-uniforming plate heat radiation module can be concatenated into the part in its circuit.Therefore, water After the coolant liquid of cooling radiation system can enter half pipe portion 21 by the first port 211, pass through this in runner 210 in the inner Temperature-uniforming plate 1 and achieve the effect that cooling, be finally connected in water-cooled cooling system by the second port 212 again and be used to dissipate Heat.

Furthermore as shown in figure 5, for the perspective exploded view of the utility model second embodiment.Wherein, the cooling plate 2 half pipe portion 21 increases detour shape number in addition to its visual 201 area of cooling surface, to reach the effects that extending 210 length of runner With outside effect, also the configuration of visual water-cooled cooling system and by above-mentioned first port 211, second port 212 be set to plate portion 20 The same side（As shown in Figure 5）Or opposite side（As shown in Figures 1 and 2）, sides adjacent（Figure omits）Deng.

Therefore, by the utility model temperature-uniforming plate heat radiation module, since it passes through the plate portion 20 and samming of the cooling plate 2 Plate 1 combines, and plate portion 20 can reach good sealing property with 1 surface of temperature-uniforming plate by contact of the face with face, so that One bodily form type can be easier to be incorporated on the surface 100 of temperature-uniforming plate 1 in half pipe portion 21 in the plate portion 20, to ensure its interior institute's shape At runner 210 leakproofness, so that the coolant liquid to circulate in it will not leak, and then improve easiness of the product in manufacture And fraction defective and stability etc. in use are reduced, while the cooling surface 201 of the plate portion 20 also contributes to increase radiating surface Product.

Embodiment described above is only the preferred embodiment lifted to absolutely prove the utility model, the utility model Protection domain it is without being limited thereto.Those skilled in the art on the basis of the utility model made by equivalent substitute or change It changes, both is within the protection scope of the present invention.The scope of protection of the utility model is subject to claims.

Claims (10)

1. a kind of temperature-uniforming plate heat radiation module, which is characterized in that including：

One temperature-uniforming plate, there are two surfaces for tool；And

One cooling plate, is set on one of the temperature-uniforming plate surface, and cooling plate includes a plate portion and half pipe portion, The plate portion has a faying face and a cooling surface, which is amplexiformed with the faying face on the temperature-uniforming plate, and half pipe portion then one It is body formed on the cooling surface of the plate portion, and half pipe portion is recessed by the faying face of the plate portion and protrudes from the cooling surface.

2. temperature-uniforming plate heat radiation module as described in claim 1, which is characterized in that the faying face of the plate portion and the temperature-uniforming plate its In a surface combined for face and amplexiforming for face.

3. temperature-uniforming plate heat radiation module as described in claim 1, which is characterized in that half pipe portion is in being in detour shape point in the plate portion Cloth.

4. temperature-uniforming plate heat radiation module as described in claim 1, which is characterized in that one of half pipe portion and the temperature-uniforming plate A runner is formed between the surface.

5. temperature-uniforming plate heat radiation module as claimed in claim 4, which is characterized in that the runner has a first port and one the Two-port netwerk, and the first port to coordinate between the second port half pipe portion in the cooling surface extend and be connected.

6. temperature-uniforming plate heat radiation module as claimed in claim 5, which is characterized in that the first port, second port are set to the plate The same side, opposite side or the sides adjacent in portion.

7. temperature-uniforming plate heat radiation module as claimed in claim 5, which is characterized in that connect respectively in the first port, second port Connect a pipe fitting.

8. the temperature-uniforming plate heat radiation module as described in any one of claim 1 to 7, which is characterized in that the temperature-uniforming plate has one the One plate body and one second plate body, and first plate body, the second plate body are stacked and set and in forming an accommodating space, the appearance to each other It is closed by first plate body, the second plate body between emptying and is in vacuum state.

9. temperature-uniforming plate heat radiation module as claimed in claim 8, which is characterized in that wherein one surface of the temperature-uniforming plate is formed In outside first plate body, and another surface is then formed in outside second plate body.

10. temperature-uniforming plate heat radiation module as claimed in claim 9, which is characterized in that in the accommodating space filled with working fluid, And on wall it is pasted with capillary structure in the inner.