CN101466244A - Radiator - Google Patents

Abstract

The invention relates to a heat radiator, comprising a first radiating fin group and a second radiating fin group, wherein, each radiating fin group comprises a side plate arranged at one side of the radiating fin group and a plurality of radiating fins connected with the side plate; the side plate of the first radiating fin group is jointed with the side plate of the second radiating fin group; at least one side plate is sagged downwards to form a containing part used for containing a direct-insertion heating electronic component; and the electronic component is contained in the containing space between the two radiating fins. The contact area between the electronic component and the radiator is large, and the heat transfer rate is high, so as to improve the heat radiating effect.

Description

Radiator

Technical field

The present invention relates to a kind of radiator, refer to a kind of radiator that is applicable to direct insertion electronic element radiating especially.

Background technology

Along with large scale integrated circuit continuous advancement in technology and extensive use, computer is widely used in all trades and professions, for adapting to the development trend that data processing amount constantly increases and the promptness requirement improves constantly, the function of all kinds of electronic components also from strength to strength, make the unit interval produce a large amount of heats, to cause the rising of electronic component self temperature as these heats of untimely eliminating, the safety and the performance of system made a big impact.

Usually industry is installed auxiliary its heat radiation of radiator in a side of electronic component, simultaneously, fan is installed on radiator, impels the heat of radiator to distribute fast so that forced draft to be provided, thereby heat-generating electronic elements is carried out more efficiently heat radiation.This radiator comprises a base and the some radiating fins that are arranged in parallel that extend to form from this base, when using this radiator to those direct insertion electronic element radiatings, by a fastener with a plurality of radiators be fixed on make around the electronic component its with electronic component between hot the contact, yet, there is the air gap easily between fixing back of this radiator and the electronic component, radiating effect is not good, and this kind fixed pattern structure complexity, assembling inconvenience.

Summary of the invention

In view of this, be necessary to provide a kind of radiator that has than high cooling efficiency in fact.

A kind of radiator, be applicable to direct insertion electronic element radiating, this radiator comprises at least two radiating fin groups, each radiating fin group comprises a base and is positioned at some radiating fins on this base, in every two adjacent radiating fin groups, wherein a radiating fin group is provided with fixing hole, and another radiating fin group is provided with the fixed leg corresponding with this fixing hole, is formed with a receiving space of accommodating described electronic component between these two adjacent radiating fin groups.

A kind of radiator, comprise the first radiating fin group and the second radiating fin group, each radiating fin group comprise the side plate that is positioned at a side wherein and with the hot linked some radiating fins of this side plate, corresponding being fitted and connected together of side plate of the side plate of the described first radiating fin group and the described second radiating fin group, and at least one side plate is recessed to form the receiving space of accommodating a direct insertion heat-generating electronic elements downwards.

A kind of radiator, comprise a radiating fin group, this radiating fin group comprises that being positioned at outermost at least one side plate reaches and the hot linked some radiating fins of this side plate, and the side plate of described radiating fin group is recessed to form the receiving space of accommodating a direct insertion heat-generating electronic elements downwards.

Compared with prior art, be formed with on this radiator and electronic component can be contained in its inner receiving space, therefore, electronic component is contained in this receiving space, whole outer surfaces of electronic component all contact with the radiator heat conduction, this thermocontact area is big, the heat transfer rate height, thereby radiating effect promotes.

Description of drawings

Fig. 1 is the schematic perspective view of radiator first embodiment of the present invention.

Fig. 2 is the decomposing schematic representation of radiator among Fig. 1.

Fig. 3 be among Fig. 2 radiator from the schematic diagram of another angle.

Fig. 4 is the schematic perspective view of radiator second embodiment of the present invention.

Embodiment

With reference to the accompanying drawings, be described further in conjunction with the embodiments.

As shown in Figure 1, be the first embodiment of the present invention, this radiator comprises one first radiating fin group 20, second a radiating fin group 40 and is connected in one the 3rd radiating fin group 30 between described first, second radiating fin group 20,40.

Please also refer to Fig. 2 and Fig. 3, this first radiating fin group 20 comprise a plate base 21, be located at the fixed mount 22 of these base 21 belows, from these base 21 upwardly extending some radiating fins 23, from the upwardly extending side plate 24 in the edge of this base 21 and be connected in one between these some radiating fins 23 heat radiations wall 25.This base 21 has relative upper surface and lower surface, and these some radiating fins 23 extend vertically upward from the upper surface of base 21, and vertically being arranged in parallel along this base 21.This heat radiation wall 25 extends vertically upward from the upper surface of this base 21, and along the horizontally set of this base 21, arbitrary radiating fin 23 in this heat radiation wall 25 and described radiating fin 23 is mutual vertical, and be connected in the roughly position intermediate of each radiating fin 23, the both sides that make each radiating fin 23 are axis and symmetry with this heat radiation wall 25.In different execution modes, this heat radiation wall 25 can be obliquely installed along the different directions of base 21, thus with described radiating fin 23 between become different angles.

This fixed mount 22 is arranged at the outside of the lower surface of this base 21, and this fixed mount 22 comprises the rectangular wall 221 of a level and two connecting pins 222 that extend vertically downward from the two ends of the outer ledge of this rectangular wall 221 respectively.The lower surface of this base 21 is formed with a square groove 211 and is positioned at two fastening arms 212 of these square groove 211 both sides.The shape of this square groove 211, size and location are corresponding mutually with shape, the size and location of the rectangular wall 221 of this fixed mount 22 respectively.This fastens arm 212 and extends from two side direction central horizontal of square groove 211 respectively, it is equal with the lower surface of this base 21 that each fastens arm 212, when the rectangular wall 221 of fixed mount 22 is inserted in this square groove 211, two fasten arm 212 is fastened on the outer surface of this rectangular wall 221, thereby this rectangular wall 221 is housed in regularly the inside of square groove 211.

This side plate 24 is parallel with described radiating fin 23, and by base 21 and the heat radiation wall 25 be connected with described radiating fin 23, the thickness of this side plate 24 is greater than the thickness of each radiating fin 23, and is positioned at the outermost of this first radiating fin group 20 near the second radiating fin groups 30.The position of the substantial middle of the outer surface of this side plate 24 forms a receiving space 2312.The shape of this receiving space 2312 and size are roughly the same with the shape and the size of the electronic component that uses this radiating fin group 20 to be used to dispel the heat (figure does not show) respectively.In the present embodiment, this electronic component is a direct insertion electronic component, comprise that an encapsulation main body and two extend the leg that is connected with the external circuit board (figure does not show) downwards from the encapsulation main body bottom, therefore, this receiving space 2312 comprises the accepting groove 2312a in this encapsulation main body can being housed in accordingly, and be positioned at this accepting groove 2312a below and this leg can be located in accordingly wear groove 2312b.The thickness of this side plate 24 is slightly larger than half thickness of this electronic package body, the degree of depth of this receiving space 2312 equals half thickness of this electronic package body, and this wears the below that groove 2312b is positioned at side plate 24, and be connected with the lower surface of the base 21 of this radiating fin group 20, when electronic component is contained in these receiving space 2312 inside, the leg of its bottom can be via the lower surface that groove 2312b stretches out this radiating fin group 20 that wears of these receiving space 2312 bottoms, is convenient to it and circuit board electrically connects.The top of the outer surface of this side plate 24 and bottom are around the fixing hole 2314 of three circles of these receiving space 2312 formation, and described three fixing holes 2314 are Chinese character pin-shaped distribution.

The structure of this second radiating fin group 40 and the structure of the first radiating fin group 20 are roughly the same, comprise base 41, fixed mount 42, some radiating fins 43, side plate 44 and heat radiation wall 45.This fixed mount 42 comprises the rectangular wall 421 of level and the connecting pin 422 that extends vertically downward from the two ends of the outer ledge of this rectangular wall 421 respectively.The lower surface of this base 41 forms the square groove 411 in this rectangular wall 421 can being housed in, and auxiliary this rectangular wall 421 is contained in the fastening arm 412 of square groove 411 inside regularly.Its difference is: the side plate 44 in this second radiating fin group 40 and this fixed mount 42 towards respectively with these first radiating fin group, 20 latus inframediums 24 and fixed mount 22 towards opposite, and form three fixed legs 4313 being Chinese character pin-shaped distribution on this side plate 44.This fixed leg 4313 is cylindric, its shape, position and size are corresponding with shape, position and the size of fixing hole 2312 in this first radiating fin group 20 respectively, each fixed leg 4313 extends to these first radiating fin group, 20 positions from the outer surface of this side plate 44, and the position of the substantial middle of the outer surface of this side plate 44 is formed with a receiving space 4312.

The 3rd radiating fin group 30 comprises a plate base 31, from these base 31 upwardly extending some radiating fins 33, respectively from upwardly extending two side plates 34 in the relative both sides of the edge of this base 21 and be connected in the heat radiation of one between these some radiating fins 33 wall 35.Wherein, the structure of base 21, radiating fin 23 and the wall 25 that dispels the heat is identical in the structure of base 31 in the 3rd radiating fin group 30, radiating fin 33 and heat radiation wall 35 and the first radiating fin group 20.Described two side plates 24 lay respectively at two relative outermost of the 3rd radiating fin group 30, the position of the substantial middle of the outer surface of each side plate 24 is formed with a receiving space 3312, and the shape of this receiving space 3312, size and the degree of depth are identical with shape, size and the degree of depth of receiving space 2312 in the first radiating fin group 20 respectively.The side that the 3rd radiating fin group 30 is relative with the first radiating fin group 20, promptly near the fixed leg 3313 that forms the three cylindrical shape on the side plate 34 of the first radiating fin group, 20 1 sides respectively, described three fixed legs 3313 are Chinese character pin-shaped distribution, each fixed leg 3313 can be contained in the fixing hole 2314 in the first corresponding radiating fin group 20 by friction tight mode, thereby described the first, the 3rd radiating fin group 20,30 is connected to form an integral body.The side that the 3rd radiating fin group 30 is relative with the second radiating fin group 40, promptly the same with side plate 24 in the first radiating fin group 20 near the side plate 34 of these second radiating fin group, 40 1 sides, Chinese character pin-shaped distribution fixing hole 3314 is formed on top and bottom in its outer surface, in each fixing hole 3314 also can be housed in the fixed leg 4313 in the second radiating fin group 40 of correspondence by friction tight mode, thereby described the 3rd, the second radiating fin group 30,40 is connected into an integral body.

During assembling, in the receiving space that is positioned over the first radiating fin group 20 2312 with an electronic component correspondence, fixed leg 3313 with the 3rd radiating fin group 30 inserts and is contained in just in the fixing hole 2314 corresponding in this first radiating fin group 20 then, the receiving space 2312 of this first radiating fin group 20 and the receiving space 3312 of the 3rd radiating fin group 30 are interconnected and form a degree of depth and equal the space of electronic component thickness just, thereby this first, the 3rd radiating fin group 20,30 is linked together.In like manner, three, the receiving space 3312,4312 of the second radiating fin group 30,40 is interconnected and forms the space that another degree of depth equals one second electronic component thickness just, this second electronic component is located between the 3rd, the second radiating fin group 30,40, and the fixed leg by this second radiating fin group 40 4313 inserts and is contained in just in the fixing hole 3314 corresponding in the 3rd radiating fin group 30, and then the second radiating fin group 40 is linked together with this first, the 3rd radiating fin group 20,30.This first, second and third radiating fin group 20,30,40 forms a radiator integral by the assembling that cooperatively interacts of fixing hole 2312,3312 and fixed leg 3313,4313 respectively, this first, second electronic component is contained in the inside of radiator, the outer surface of this first, second electronic component can apply heat-conducting glue or other hot interface conductive material, to fill the air gap between itself and the radiator, therefore, whole outer surfaces of this first, second electronic component all contact with the radiator heat conduction, its thermocontact area is big, the heat transfer rate height, radiating effect promotes.The rectangular wall 221,421 of this fixed mount 22,42 is inserted respectively and is contained in the square groove 211,411 of this first, second radiating fin group 20,40, when being fixed in radiator on the circuit board, only need to get final product in the slot that is inserted in corresponding position on this circuit board with connecting pin 222,422 correspondences on this fixed mount 22,42, thereby localization method is simple, and is easy to assembly.

Radiator is combined in twos by three radiating fin groups 20,30,40 among this first embodiment, therefore can be simultaneously to two electronic element radiatings, in the different execution modes, the number of radiating fin group 20,30,40 can be done suitable adjustment according to the quantity and the relative position of electronic component.Be illustrated in figure 4 as the second embodiment of the present invention, this radiator is applicable to an electronic component is dispelled the heat, and connected to form by fixed leg 4313 and fixing hole 2314 correspondences by one first radiating fin group 20 and one the second radiating fin group 40 among above-mentioned first embodiment.When need be to more a plurality of such electronic element radiating, can be by realizing in inner the 3rd radiating fin group 30 that increases corresponding number of radiator.

In addition, those skilled in the art also can do other and change in spirit of the present invention, as change shape, quantity and the arrangement mode of this fixed leg 3313,4313 and fixing hole 2312,3312; This receiving space 2312,3312,4312 is arranged on the side plate 24,34,44 in the radiating fin group 20,30,40 wherein, and the degree of depth that changes this receiving space 2312,3312,4312 equates with the thickness of electronic component, as long as perhaps other can form the design that a degree of depth equals the receiving space of this electronic component thickness in adjacent two radiating fin groups 20,30,40, only otherwise departing from technique effect of the present invention all can.The variation that these are done according to spirit of the present invention all should be included within the present invention's scope required for protection.

Claims (14)

1. [claim 1] a kind of radiator, be applicable to direct insertion electronic element radiating, this radiator comprises at least two radiating fin groups, each radiating fin group comprises a base and is positioned at some radiating fins on this base, it is characterized in that: in every two adjacent radiating fin groups, wherein a radiating fin group is provided with fixing hole, and another radiating fin group is provided with the fixed leg corresponding with this fixing hole, is formed with a receiving space of accommodating described electronic component between these two adjacent radiating fin groups.
2. [claim 2] radiator as claimed in claim 1 is characterized in that: each radiating fin group is formed with side plate in the outermost near another radiating fin group, and this receiving space is formed on this side plate.
3. [claim 3] radiator as claimed in claim 2 is characterized in that: this receiving space comprises that an accepting groove that is positioned at this side plate centre position reaches one of close base and wears groove, and this wears groove and is connected with the lower surface of base.
4. [claim 4] radiator as claimed in claim 1 is characterized in that: each radiating fin group also comprises a heat radiation wall, and this heat radiation wall is connected between described some radiating fins.
5. [claim 5] radiator as claimed in claim 1, it is characterized in that: this radiator also comprises at least one fixed mount, at least one connecting pin that this at least one fixed mount comprises a rectangular wall and extends under the side direction of this rectangular wall, the lower surface of this radiator are formed with the corresponding position of the rectangular wall of this at least one fixed mount can be housed in this rectangular wall interior square groove.
6. [claim 6] radiator as claimed in claim 5 is characterized in that: the both sides of this square groove are formed with the fastening arm respectively, and this fastens arm and extends from the two side direction central authorities of square groove respectively.
7. [claim 7] a kind of radiator, comprise the first radiating fin group and the second radiating fin group, each radiating fin group comprise the side plate that is positioned at a side wherein and with the hot linked some radiating fins of this side plate, it is characterized in that: corresponding being fitted and connected together of side plate of the side plate of the described first radiating fin group and the described second radiating fin group, and at least one side plate is recessed to form the receiving space of accommodating a direct insertion heat-generating electronic elements downwards.
8. [claim 8] radiator as claimed in claim 7, it is characterized in that: also comprise at least one the 3rd radiating fin group, the 3rd radiating fin group string is located between described first radiating fin group and the described second radiating fin group, the 3rd radiating fin group comprises at two outermost relatively biside plates and the some radiating fins between described biside plate, the wherein side plate of the 3rd radiating fin group is fitted and connected together with the side plate of the described first radiating fin group is corresponding, corresponding being fitted and connected together of side plate of another side plate of the 3rd radiating fin group and the described second radiating fin group.
9. [claim 9] is characterized in that as claim 7 or 8 described radiators: all be recessed to form described receiving space on the adjacent biside plate that is fitted and connected downwards, to accommodate described heat-generating electronic elements jointly.
10. [claim 10] as claim 7 or 8 described radiators, it is characterized in that: the thickness of described each side plate is greater than the thickness of each radiating fin.
11. [claim 11] is as claim 7 or 8 described radiators, it is characterized in that: this receiving space comprise an accepting groove in the centre position that is positioned at side plate and be positioned at side plate lower position one wear groove, this accepting groove is used to accommodate the package main body of described heat-generating electronic elements, and this wears groove and is used for wearing downwards for the leg of described heat-generating electronic elements.
12. [claim 12] a kind of radiator, comprise a radiating fin group, this radiating fin group comprises that being positioned at outermost at least one side plate reaches and the hot linked some radiating fins of this side plate, and it is characterized in that: the side plate of described radiating fin group is recessed to form the receiving space of accommodating a direct insertion heat-generating electronic elements downwards.
13. [claim 13] radiator as claimed in claim 12, it is characterized in that: this radiating fin group comprises and is positioned at two outermost relatively biside plates, described some radiating fins are between described biside plate, and each side plate all is recessed to form described receiving space downwards.
14. [claim 14] radiator as claimed in claim 12, it is characterized in that: this receiving space comprise an accepting groove in the centre position that is positioned at side plate and be positioned at side plate lower position one wear groove, this accepting groove is used to accommodate the package main body of described heat-generating electronic elements, and this wears groove and is used for wearing downwards for the leg of described heat-generating electronic elements.

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