CN201112379Y - Modified internal memory radiator construction - Google Patents

Abstract

The utility model relates to a modified structure of a memory radiator, which comprises a pair of symmetrical cooling fins, a memory is held between the cooling fins, the inner side walls of the cooling fins are attached to the two sides of the memory, the cooling fins respectively extend inwards corresponding inner folding parts, the inner folding parts respectively form a mutually corresponding semicircle-shaped pivot groove and a pivot so as to combine and form a rotating shaft part. The cooling fins can be unfolded outwards through the rotating shaft part to quickly disconnect the memory in disassembly, and be folded inwards through the rotating shaft part to quickly hold the memory in assembly, so as to achieve the aim of quick assembly and disassembly.

Description

EMS memory heat radiating device improvement structure

Technical field

The utility model is relevant for a kind of EMS memory heat radiating device improvement structure, refers to especially a kind ofly can reach the EMS memory heat radiating device of disassembling fast or assembling.

Background technology

Known EMS memory heat radiating device 30, as shown in Figure 8, by two heat conduction films 301, two fin 302 and two clamp jaws 303 are formed, wherein this heat conduction film 301 is sticked respectively at the medial surface of fin 302, and the last ora terminalis both sides of fin 302 are respectively equipped with snapping hook 302a and snapping hole 302b and hold Button Block 302c, two fin 302 are fastened mutually, make the space that its inboard formation can ccontaining internal memory 2, this holds the middle spacer 302d that is provided with downward backfin of Button Block 302c, the stopper slot 304 of proper corresponding fin 302 set ㄩ shape convex-shaped below its sheet body lateral surface, these stopper slot 304 upper ends have button hole 305, and be provided with guide hole 306 on button hole 305 tops, for the clamp jaws 303 that is the ㄇ type spacer 302d that bridges, and the set barb 303a of the both sides inner face that makes two clamp jaws 303, comply with guide hole 306 downslides and embedding button hole 305, barb 303a left-hand thread is fixed, and two fin 302 are fitted tightly coating with internal memory 2, so that the heat that internal memory 2 is produced when running can be rapid, average conduct to fin and distribute.

As mentioned above, after the winding of known EMS memory heat radiating device 30 is finished,, still have the following points shortcoming though can reach the effect of heat radiation:

1, for making two fin 302 and internal memory 2 fit tightly coating, known EMS memory heat radiating device 30 is provided with stopper slot 304, button hole 305 and guide hole 306 on fin 302, and labyrinths such as the barb 303a design that cooperates clamp jaws 303, make the very loaded down with trivial details inconvenience in combination of known EMS memory heat radiating device 30.

2, must disassemble when maintenance when running into fault, but disassemble quite difficulty because of clip layer by layer makes, and also easily in disassembling process, because of carelessness with the damage of members such as anchor clamps or fin, so further improved necessity is arranged really.

The utility model content

Therefore, main purpose of the present utility model is to provide a kind of can making to reach the EMS memory heat radiating device improvement structure of disassembling fast or assembling between internal memory and the fin.

In order to achieve the above object, the utility model provides a kind of EMS memory heat radiating device improvement structure, fin by two symmetries is formed, clamping internal memory therebetween, this is attached to the both sides of internal memory to the fin medial surface, wherein this is to the fin corresponding inflexed part that extends internally respectively, this is to being formed with the semicircle shape pivot groove and the pivot of mutual correspondence respectively on the inflexed part, form shaft so as to combination, this can break away from internal memory by outside expansion of shaft fast to fin when disassembling, maybe when assembling, can make it reach the purpose of disassembling fast or assembling by the inwardly quick clipping internal memory of shaft.This is provided with extension to fin in addition, and this extension extends upward respectively fin from this, and is formed between shaft and the fin, so as to making this EMS memory heat radiating device can effectively increase heat-conducting area and promoting heat dissipation.

Continue the above, this extension is provided with two or more heat radiation spacing bodies, so that form two or more heat radiation through holes on this extension.And can be provided with the bend towards the internal memory bending on the described heat radiation spacing body, this bend is interlaced to form two or more heat dissipation channels.

Since adopted above structure, EMS memory heat radiating device improvement structure of the present utility model, and EMS memory heat radiating device is easier disassembles fast or assembles than having now, therefore has practicality and economy.

Description of drawings

Fig. 1 is the exploded perspective schematic diagram of the utility model EMS memory heat radiating device;

Fig. 2 is the combination schematic perspective view of the utility model EMS memory heat radiating device;

Fig. 3 is a clipping internal memory action schematic diagram of the present utility model;

Fig. 4 is the exploded perspective schematic diagram of the utility model second embodiment;

Fig. 5 is the combination schematic perspective view of the utility model second embodiment;

Fig. 6 is the exploded perspective schematic diagram of the utility model the 3rd embodiment;

Fig. 7 is the combination schematic perspective view of the utility model the 3rd embodiment;

Fig. 8 is the combination schematic perspective view of known EMS memory heat radiating device.

Description of reference numerals:

1 fin, 11 inflexed parts

111 semicircle shape pivot grooves, 112 pivots

12 extensions, 121 heat radiation spacing bodies

122 heat radiation through holes, 123 bends

124 heat dissipation channels, 2 internal memories

3 shafts, 30 known EMS memory heat radiating device

301 heat conduction films, 302 fin

302a snapping hook 302b snapping hole

302c holds Button Block 302d spacer

303 clamp jaws 303a barbs

304 stopper slots, 305 button holes

306 guide holes

Embodiment

For those skilled in the art can be had further and understand the purpose of this utility model, feature, and function, lift preferred embodiment and conjunction with figs. and be described in detail as follows:

At first see also Fig. 1 to Fig. 2, combination schematic perspective view for the structurally improved exploded perspective schematic diagram of the utility model EMS memory heat radiating device and the utility model EMS memory heat radiating device, as shown in Figures 1 and 2, the utility model is a kind of EMS memory heat radiating device improvement structure, fin 1 by two symmetries is formed, the clamping internal memory 2 therebetween, and this is attached to the both sides of internal memory 2 to fin 1 medial surface, wherein this is to the fin 1 corresponding inflexed part 11 that extends internally respectively, this is to being formed with the semicircle shape pivot groove 111 and the pivot 112 of mutual correspondence respectively on the inflexed part 11, form shaft 3 so as to combination, this can break away from internal memory 2 by shaft 3 outside expansion fast to fin 1 when disassembling, maybe when assembling, can make it reach the purpose of disassembling or assembling EMS memory heat radiating device fast by shaft 3 inwardly quick clipping internal memories 2.

See also Fig. 3 and cooperate Figure 1 and Figure 2, when the utility model is assembled, earlier this is combined to the semicircle shape pivot groove 111 on the fin 1 and pivot 112 and form shaft 3, again will in conjunction with after this to fin 1 cross-over connection on required internal memory 2, and inwardly this internal memory 2 of clipping makes this be attached to the both sides of internal memory 2 to fin 1 medial surface, and reaches quick assembling EMS memory heat radiating device.When the utility model is disassembled, by shaft 3 this is outwards launched fin 1, make this fail this internal memory 2 of clipping and it is extracted disengaging to fin 1.So, reach the EMS memory heat radiating device of disassembling fast or assembling by above-mentioned structure.

See also Fig. 4 and shown in Figure 5, be respectively the exploded perspective schematic diagram of the utility model second embodiment and the combination schematic perspective view of the utility model second embodiment, as Fig. 4 and shown in Figure 5, of the present utility model this is provided with extension 12 to fin 1, this extension 12 extends upward respectively fin 1 from this, and be formed between shaft 3 and the fin 1, and this extension 12 is provided with a plurality of heat radiation spacing bodies 121, so that form a plurality of heat radiation through holes 122 on this extension 12.Dispel the heat in this example spacing body 121 and heat radiation through hole 122 do not limit to a number or amount and can be provided with according to actual demand increase and decrease, make this EMS memory heat radiating device can effectively increase heat-conducting area and promotes heat dissipation.

Continuous the above, what present embodiment was same is forming shafts 3 with semicircle shape pivot groove 111 and pivot 112 in conjunction with the back, equally can cross-over connection on required internal memory 2, and inside this internal memory 2 of clipping, and reach the purpose of quick assembling.When disassembling, by shaft 3 this is outwards launched fin 1, make this fail this internal memory 2 of clipping and it is extracted disengaging, and reach the purpose of disassembling fast fin 1.

See also Figure 6 and Figure 7, be respectively the exploded perspective schematic diagram of the utility model the 3rd embodiment and the combination schematic perspective view of the utility model the 3rd embodiment, as Figure 6 and Figure 7, the heat radiation spacing body 121 of this extension 12 of the utility model is provided with the bend 123 towards internal memory 2 bendings, these bends 123 are interlaced to form a plurality of heat dissipation channels 124, so, make this EMS memory heat radiating device can effectively increase heat-conducting area and enhancement heat dissipation by above-mentioned structure.What present embodiment was same is forming shafts 3 with semicircle shape pivot groove 111 and pivot 112 in conjunction with the back, but equally also cross-over connection on required internal memory 2, and inside this internal memory 2 of clipping, and reach the purpose of quick assembling.When disassembling, by shaft 3 this is outwards launched fin 1, make this fail this internal memory 2 of clipping and it is extracted disengaging, and reach the purpose of disassembling EMS memory heat radiating device fast fin 1.

To sum up institute is old, EMS memory heat radiating device of the present utility model improvement structure, and obviously existing EMS memory heat radiating device is easier disassembles fast or assemble, and therefore has practicality and economy.

The foregoing description is exemplary illustration principle of the present utility model and effect thereof only, but not is used to limit the utility model.Any those skilled in the art all can be under spirit of the present utility model and category, and the foregoing description is modified and changed.Therefore, rights protection scope of the present utility model, claim is listed as the aforementioned.

Claims (4)

1. an EMS memory heat radiating device improvement is constructed, fin by two symmetries is formed, clamping internal memory therebetween, this is attached to the both sides of internal memory to the fin medial surface, it is characterized in that, this is to the fin corresponding inflexed part that extends internally respectively, this is to being formed with the semicircle shape pivot groove and the pivot of mutual correspondence respectively on the inflexed part, form shaft so as to combination, this can and break away from internal memory by the outside expansion of shaft fast to fin when disassembling, maybe can be by the inwardly quick clipping internal memory of shaft when assembling.

2. EMS memory heat radiating device improvement structure according to claim 1 is characterized in that further comprise extension, this extension extends upward respectively fin from this, and is formed between shaft and the fin.

3. EMS memory heat radiating device improvement structure according to claim 2 is characterized in that described extension is provided with two or more heat radiation spacing bodies, so that form two or more heat radiation through holes on this extension.

4. EMS memory heat radiating device improvement structure according to claim 3 is characterized in that described heat radiation spacing body is provided with two or more bends towards the internal memory bending, and described bend is interlaced to form two or more heat dissipation channels.

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