CN205249673U - Heat radiation module combination structure - Google Patents

Abstract

The utility model provides a heat radiation module combination structure, includes a radiator, an at least shell fragment, an at least holder and an axostylus axostyle, the radiator have a base and plural heat radiation fins set up in on the base, the relative both sides of base are formed with an at least perforation respectively, the group that corresponds of radiator locates on the shell fragment, just the shell fragment corresponds the perforation sets up an at least buckle post, the buckle post inlays with being the slidable and locates it has a first end and second end on the holder, second end department sets up the inside accommodation space that forms of a slotted hole and its, a convex part formed at the holder is relative in the accommodation space, the buckle post inlays to be located in the accommodation space, the axostylus axostyle runs through the radiator the axostylus axostyle both ends respectively with the buckle post is connected, through the utility model discloses a structure can be reduced work hours by a wide margin to increase the effect of equipment convenience.

Description

Radiating module combining structure

Technical field

The utility model relates to a kind of radiating module combining structure, more particularly, relates to a kind of radiating module combining structure that can significantly reduce work hours and increase assembling convenience.

Background technology

Along with the advancing by leaps and bounds of computer science and technology, the running speed of computer is constantly improved in recent years, and the heating power of the electronic building brick of computer mainframe internal is also constantly soaring. In order to prevent the electronic building brick problems of excessive heat of computer mainframe internal, and cause electronic building brick occur temporary or permanently lost efficacy, so provide enough heat dissipation to electronic building bricks of computer-internal will become extremely important.

Taking central processing unit (CPU) as example, CPU is under running, and when the temperature of central processing unit is once exceed its normal operating temperature range, operation mistake very likely can occur central processing unit, or temporarily lost efficacy, so will cause the main frame machine of delaying. In addition, when the temperature of central processing unit is during considerably beyond its normal operating temperature range, even very likely damage the transistor within central processor core, thereby cause CPU permanently to lose efficacy, just must change thus central processing unit, the beginning can be recovered the normal operation of main frame.

The radiating module structure of knowing consists predominantly of radiator and radiator fan two parts, and radiator has two heat contact-making surfaces, first heat contact-making surface is the hot conducting surface between heating electronic package and radiator bottom, the thermal convection current face between radiating fin and radiator fan that second heat contact-making surface is radiator; Wherein, in order to bring into play heat conducting maximum efficiency, hot conducting surface between radiator bottom and heating electronic package must be to be the state of fitting tightly, otherwise, no matter the usefulness of radiating module is high again, have space once the hot conducting surface between radiator bottom and heating electronic package, its heat dissipation all can be had a greatly reduced quality.

The effect of fastener, is for by firm radiating module being fixed on heating electronic package on the one hand, is in order to make close contact between radiator bottom and heating electronic package, to bring into play heat conducting maximum efficiency on the other hand; But know the not only structure kenel complexity of fastener of radiating module structure, and all part assemblies all must assemble separately, the time that spent therebetween and personnel costs are very high; In addition, in assembling, be also numerous and diverse, user or setter must first first be placed in heat-sink unit (device) on heating electronic package in the time of assembling, divide other clasp heat-sink unit by the assembly of fastener or other tool clasp functions one by one again, and use heat-sink unit is combined with heat generating component, when dismounting in,, at reverse operating one by one, is therefore caused inconvenience and the puzzlement of essence on using and assembling.

In sum, the radiating module structure of knowing has following shortcoming:

1. dismounting is complicated and very inconvenient;

2. significantly increase man-hour.

So, how to solve problem and the disappearance of above-mentioned conventional techniques means, the utility model people who is this case and the relevant manufacturer that is engaged in the industry desire most ardently the direction place of research improvement.

Utility model content

Therefore,, for effectively solving above-mentioned problem, main purpose of the present utility model is to provide a kind of radiating module combining structure that can significantly reduce work hours.

Secondary objective of the present utility model, is to provide a kind of radiating module combining structure that can significantly increase assembling convenience.

For achieving the above object, the utility model provides a kind of radiating module combining structure, comprising: a radiator, and there is a pedestal and plurality of radiating fins and be arranged on described pedestal, the relative both sides of described pedestal are formed with respectively at least one perforation; At least one shell fragment, the correspondence of described radiator is mounted on described shell fragment, and the corresponding described perforation of described shell fragment arranges at least one buckle post; At least one holder, described buckle post is and is embedded at slidably on described holder, described holder has a first end and one second end, described the second end place offers a slotted eye, and the inner accommodation space that forms of described slotted eye, one protuberance is formed in the relatively described accommodation space of described holder, and described buckle post is embedded in described accommodation space; And an axostylus axostyle, it runs through described radiator, and described axostylus axostyle two ends are connected with described buckle post respectively.

Also include a fixture, described shell fragment is arranged on the both sides of described fixture.

The corresponding described perforation of described shell fragment forms at least one hole, and described buckle post correspondence wears described perforation and hole.

Described buckle post has a body, and described body two ends have respectively a stiff end and a free end, described stiff end correspondence wears described hole and combines with a sub-assembly, and described free end correspondence wears described perforation and described free end and is and is embedded at slidably on described holder.

The relative both sides of described radiator are respectively equipped with a depression, and described perforation correspondence is formed at the relatively described recess of described pedestal.

Have more the first end that a connection piece connects described holder, described connector is ㄩ font or U font.

Described connector centre has a grip part, two ends, described grip part stretch out respectively one first connecting portion and one second connecting portion, and described first and second connecting portion is connected with the first end of described holder respectively.

Described radiator has more an axis hole and is formed on described radiating fin, and described axostylus axostyle runs through described axis hole and its two ends are connected with described buckle post respectively.

Described fixture is installed on a substrate.

By the design of aforementioned structure, described radiating module has more a substrate, its centre arranges a thermal source, described radiator correspondence is mounted on described shell fragment, and described radiator bottom contacts with described thermal source, in the time that an external force is pulled the first end of described holder downwards, because being, described buckle post is embedded at slidably on described holder, the protuberance that sees through described holder contacts with described buckle post and rotates after described holder, now described buckle post can be pulled upwardly through the drive of the protuberance of described holder, and and then drive described shell fragment to be pulled upwardly simultaneously, make described shell fragment to described radiator produce one upwards active force with inconsistent with described radiator, thus, see through the setting that is mutually slidably matched of described holder and described buckle post, when having improved the radiating module of knowing fastener being fixedly arranged on radiating module, need see through time and cost that complicated part and step spend, the utility model has the advantages that can hand operation and complete the combination of described radiating module, enter significantly to reduce work hours, and increase assembling convenience.

Brief description of the drawings

Fig. 1 is the three-dimensional exploded view of the embodiment 1 of the utility model radiating module combining structure;

Fig. 2 A is the solid combination schematic diagram of the embodiment 1 of the utility model radiating module combining structure;

Fig. 2 B is the solid combination schematic diagram of the embodiment 1 of the utility model radiating module combining structure;

Fig. 3 is the cutaway view of the embodiment 1 of the utility model radiating module combining structure;

Fig. 4 is the schematic side view of the embodiment 1 of the utility model radiating module combining structure;

Fig. 5 is the schematic side view of the embodiment 1 of the utility model radiating module combining structure;

Fig. 6 is the cutaway view of the embodiment 1 of the utility model radiating module combining structure;

Fig. 7 is the three-dimensional exploded view of the embodiment 2 of the utility model radiating module combining structure;

Fig. 8 is the three-dimensional exploded view of the embodiment 3 of the utility model radiating module combining structure;

Fig. 9 A is the solid combination schematic diagram of the embodiment 3 of the utility model radiating module combining structure;

Fig. 9 B is the solid combination schematic diagram of the embodiment 3 of the utility model radiating module combining structure;

Figure 10 A is the three-dimensional exploded view of the embodiment 4 of the utility model radiating module combining structure;

Figure 10 B is the solid combination schematic diagram of the embodiment 4 of the utility model radiating module combining structure.

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model is described in further detail, to make those skilled in the art can implement according to this with reference to description word.

Characteristic in above-mentioned purpose of the present utility model and structure thereof and function, will be explained according to appended graphic preferred embodiment.

Embodiment 1

Consult Fig. 1, 2A, 2B, 3, for three-dimensional exploded view and three-dimensional combination schematic diagram and the cutaway view of the embodiment 1 of the utility model radiating module combining structure, as shown in the figure, a kind of radiating module 2 combining structures, comprise a radiator 21, at least one shell fragment 23, at least one holder 25 and an axostylus axostyle 26, described radiator 21 has a pedestal 211 and plurality of radiating fins 213 is arranged on described pedestal 211, the relative both sides of described radiator 21 are respectively equipped with a depression 214, at least one perforation 212 correspondences are formed at the relatively described depression of described pedestal 211 214 places, the opposite side of the relatively described radiating fin 213 of described pedestal 211 contacts with a thermal source 4,

Described shell fragment 23 is installed on a substrate 3, described radiator 21 correspondences are mounted on described shell fragment 23, and the corresponding described perforation 212 of described shell fragment 23 arranges at least one buckle post 24, and described radiator 21 has an axis hole 215 and is formed on described radiating fin 213, described axostylus axostyle 26 runs through described axis hole 215 and combines with described radiator 21, and described axostylus axostyle 26 two ends are connected with described buckle post 24 respectively;

Described buckle post 24 tops are and are embedded at slidably on described holder 25, described holder 25 has a first end 251 and one second end 252, described the second end 252 places offer a slotted eye 253, and the inner accommodation space 254 that forms of described slotted eye 253, one protuberance 255 is formed in the relatively described accommodation space 254 of described holder 25, and described buckle post 24 is embedded in described accommodation space 254.

Consult Fig. 4, 5, 6 also consult Fig. 1 in the lump, for schematic side view and the cutaway view of the utility model radiating module combining structure embodiment 1, see through the design of this structure of the utility model, in the time that an external force is pulled the first end of described holder 25 251 downwards, because being, described buckle post 24 tops are embedded at slidably on described holder 25, the protuberance 255 that sees through described holder 25 contacts with described buckle post 24 and rotates after described holder 25, now described buckle post 24 can be pulled upwardly through the drive of described protuberance 255, and then drive described shell fragment 23 to be pulled upwardly simultaneously, make described shell fragment 23 to described radiator 21 produce one upwards active force with inconsistent with described radiator 21, thus, see through the setting that is mutually slidably matched of described holder 25 and buckle post 24, when being fixedly arranged on radiating module by fastener, the radiating module that improvement is known must see through time and cost that complicated part and step spend, the advantage of the utility model can make user or Assembling personnel, only need to see through that hand operation can be dismantled described radiating module 2 or the work of combination, enter significantly to reduce work hours, and increase assembling convenience.

Embodiment 2

Consult Fig. 7, for the three-dimensional exploded view of the embodiment 2 of the utility model radiating module combining structure, the corresponding relation of described radiating module combining structure part assembly and inter-module is identical with aforementioned radiating module combining structure, therefore do not repeat them here, this radiating module combining structure and aforementioned main difference are, the corresponding described perforation 212 of described shell fragment 23 forms at least one hole 231, described buckle post 24 has a body 241, and described body 241 two ends have respectively a stiff end 242 and a free end 243, described stiff end 242 correspondences wear the hole 231 of described shell fragment 23 and combine with a sub-assembly 28, described free end 243 correspondences wear the perforation 212 of described pedestal 211, and described free end 243 is and is embedded at slidably on described holder 25.

In the time that an external force is pulled the first end of described holder 25 251 downwards, because being, described free end 243 is embedded at slidably on described holder 25, the protuberance 255 that sees through described holder 25 contacts with described free end 243 and rotates after described holder 25, the drive that now described free end 243 can see through described protuberance 255 is by upper pull-up, and then drive described shell fragment 23 to be pulled upwardly simultaneously, with make described shell fragment 23 to described radiator 21 produce one upwards active force with inconsistent with described radiator 21, so by crossing the setting that is in contact with one another and is slidably matched of described protuberance 255 and described free end 243, when having improved the radiating module of knowing fastener being fixedly arranged on radiating module, must see through time and cost that complicated part and step spend, the utility model has the advantages that can hand operation and complete the combination of described radiating module 2, enter significantly to reduce work hours, and increase assembling convenience.

Embodiment 3

Consult Fig. 8, 9A, 9B, for three-dimensional exploded view and the three-dimensional combination schematic diagram of the embodiment 3 of the utility model radiating module combining structure, the corresponding relation of described radiating module combining structure part assembly and inter-module is identical with aforementioned radiating module combining structure, therefore do not repeat them here, this radiating module combining structure and aforementioned main difference are, described radiating module 2 has more the first end 251 that a connection piece 27 connects described holder 25, in the present embodiment, described connector 27 is ㄩ font, but do not regard it as and be limited, in the time that reality is implemented, the structure that any first end 251 that reaches two holders 25 that make the setting of described radiator both sides is connected, as as described in connector 27 be U font or other arbitrary shapes all can reach identical effect.

Wherein, described connector 27 centre have a grip part 271,271 two ends, described grip part stretch out respectively one first connecting portion 272 and one second connecting portion 273, described first and second connecting portion 272,273 is connected with the first end 251 of the holder 25 of described radiator 21 both sides respectively.

Therefore see through the structure of the present embodiment, user can free-handly hold described grip part 271 and see through an external force described connector 27 is pulled downwards, because described buckle post 24 is with described holder 25 setting that is slidably matched, protuberance 255 by described holder 25 contacts with described buckle post 24 and rotates after described holder 25, now described buckle post 24 can be pulled upwardly by the drive of described protuberance 255, and then drive described shell fragment 23 to be pulled upwardly simultaneously, with make described shell fragment 23 to described radiator 21 produce one upwards active force with inconsistent with described radiator 21, can reach equally hand operation and complete the combination of described radiating module 2, enter significantly to reduce work hours, and increase assembling convenience.

Embodiment 4

Finally, consult Figure 10 A, 10B, for three-dimensional exploded view and the three-dimensional combination figure of the embodiment 4 of the utility model radiating module combining structure, the corresponding relation of described radiating module combining structure part assembly and inter-module is identical with aforementioned radiating module combining structure, therefore do not repeat them here, this radiating module combining structure and aforementioned main difference are, on described substrate 3, be also provided with a fixture 22, described shell fragment 23 is arranged on the both sides of described fixture 22, described radiator 21 correspondences are mounted on described shell fragment 23, and the corresponding described perforation 212 of described shell fragment 23 arranges described buckle post 24, see through the structural design of the present embodiment, equally also can reach aforementioned effect.

In sum, the utility model has a following advantages compared to known:

1. significantly reduce work hours;

2. increase assembling convenience.

Although embodiment of the present utility model is open as above, but it is not restricted to listed utilization in description and embodiment, it can be applied to the various fields of the present utility model that are applicable to completely, for those skilled in the art, can easily realize other amendment, therefore do not deviating under the universal that claim and equivalency range limit, the utility model is not limited to specific details and illustrates here and the legend of describing.

Claims (9)

1. a radiating module combining structure, comprising:

One radiator, has a pedestal and plurality of radiating fins and is arranged on described pedestal, and the relative both sides of described pedestal are formed with respectively at least one perforation;

At least one shell fragment, described radiator is that correspondence is mounted on described shell fragment, and the corresponding described perforation of described shell fragment arranges at least one buckle post;

At least one holder, described buckle post is to be to be embedded at slidably on described holder, described holder has a first end and one second end, described the second end place offers a slotted eye, and the inner accommodation space that forms of described slotted eye, one protuberance is formed in the relatively described accommodation space of described holder, and described buckle post is to be embedded in described accommodation space; And

One axostylus axostyle, it is to run through described radiator, described axostylus axostyle two ends are connected with described buckle post respectively.

2. radiating module combining structure as claimed in claim 1, also includes a fixture, and described shell fragment is arranged on the both sides of described fixture.

3. radiating module combining structure as claimed in claim 1, the corresponding described perforation of wherein said shell fragment forms at least one hole, and described buckle post correspondence wears described perforation and hole.

4. radiating module combining structure as claimed in claim 3, wherein said buckle post has a body, and described body two ends have respectively a stiff end and a free end, described stiff end correspondence wears described hole and combines with a sub-assembly, and described free end correspondence wears described perforation and described free end and is and is embedded at slidably on described holder.

5. radiating module combining structure as claimed in claim 1, the relative both sides of wherein said radiator are respectively equipped with a depression, and described perforation correspondence is formed at the relatively described recess of described pedestal.

6. radiating module combining structure as claimed in claim 1, also includes the first end that a connection piece connects described holder, and described connector is ㄩ font or U font.

7. radiating module combining structure as claimed in claim 6, wherein said connector centre has a grip part, two ends, described grip part stretch out respectively one first connecting portion and one second connecting portion, described first and second connecting portion is connected with the first end of described holder respectively.

8. radiating module combining structure as claimed in claim 1, wherein said radiator has more an axis hole and is formed on described radiating fin, and described axostylus axostyle runs through described axis hole and its two ends are connected with described buckle post respectively.

9. radiating module combining structure as claimed in claim 2, wherein said fixture is installed on a substrate.