CN201212972Y - Connection platform construction of memory heat radiating device - Google Patents

Abstract

The utility model discloses a connection platform structure of a memory heat abstractor. The connection platform structure tightly combined with the memory heat abstractor comprises a base and two fasteners, wherein the base is combined at the upper part of the memory heat abstractor, and is provided with a junction surface wedged with the upper part of the memory heat abstractor; the fasteners are provided with connecting parts pivoted with two sides of the base, and two lateral plates downwards extending out along the connecting parts, the free ends of the lateral plates are respectively provided with joint parts which can cause a radiating unit of the connecting platform structure to tightly combine with the memory heat abstractor for increasing the radiating efficacy of a memory. The connection platform structure of the memory heat abstractor tightly combines with the memory heat abstractor, and can increase the radiating efficacy of the memory through the radiating unit on the connection platform structure.

Description

The connection platform structure of storer heat abstractor

Technical field

The utility model refers to a kind of can combining closely with the storer heat abstractor especially about a kind of connection platform structure of storer heat abstractor, and can be by the heat-sink unit that connects on the platform structure, to increase the storer heat radiation function.

Background technology

At present, existing computer application aspect is more and more wider, except original data processing, also widespread usage is in the multimedia video amusement, therefore make memory span in the computing machine and treatment effeciency are also significantly improved, but because the chip in the storer is easy to generate high temperature under long-time high-frequency vibration, if it is do not dispel the heat in good time that easy Yin Wendu is too high and damage, the radiating mode of therefore present storer, be to constitute by clamping storer between the two symmetrical heat radiator, by the bigger area of dissipation of heat radiator, so that the heat that storer is produced when running can be rapid, conduct to heat radiator fifty-fifty and externally distribute.

The above, though known storer heat radiator can reach the effect of heat radiation, still have following shortcoming:

Under the science and technology of making rapid progress now, Computer Processing efficient significantly improves, make that relatively the temperature that storer produced is more and more higher, above-mentioned heat-dissipating structure, though can reach the heat radiation function on basis, but do not have big area of dissipation, therefore the limited storer Yin Wendu that still makes easily of radiating effect is too high and damage, if want to promote known storer heat radiator heat radiation function, way installs other heat abstractor additional exactly on known storer heat radiator the most fast, but the space on the computer memory is limited, carry out such installing additional and seem quite difficulty, so how can on known storer heat radiator, install other heat abstractor additional easily, and install the radiating efficiency that heat abstractor can be promoted known storer heat radiator effectively additional, to become the difficult problem that current industry is badly in need of solution.

The utility model content

In view of this, fundamental purpose of the present utility model is to provide a kind of connection platform structure of storer heat abstractor, this connection platform structure can be combined closely with the storer heat abstractor, and can increase the storer heat radiation function by the heat-sink unit that connects on the platform structure.

In order to achieve the above object, the technical solution of the utility model is achieved in that a kind of connection platform structure of storer heat abstractor, describedly is connected platform structure in order to what combine closely with the storer heat abstractor, includes:

Pedestal, described pedestal are combined in described storer heat abstractor top, and have the faying face that agrees with described storer heat abstractor top;

Two fasteners, described fastener has the connecting portion that articulates with described pedestal both sides, and, have respectively on the free end of described two side plates that the heat-sink unit that can make described connection platform structure and described storer heat abstractor are combined closely and the joint portion that increases the storer heat radiation function along downward extended two side plates of described connecting portion.

Beneficial effect after the employing technique scheme is: the connection platform structure of storer heat abstractor of the present utility model, can combine closely with the storer heat abstractor, and by the heat-sink unit that connects on the platform structure, increase the storer heat radiation function.

Description of drawings

Fig. 1 is the perspective exploded view of first embodiment and storer heat abstractor in the utility model;

Fig. 2 is the user mode synoptic diagram of first embodiment and storer heat abstractor in the utility model;

Fig. 3 is the perspective exploded view of second embodiment and storer heat abstractor in the utility model;

Fig. 4 is the user mode synoptic diagram of second embodiment and storer heat abstractor in the utility model;

Fig. 5 is the perspective exploded view of the 3rd embodiment and storer heat abstractor in the utility model;

Fig. 6 is the perspective exploded view of the 4th embodiment and storer heat abstractor in the utility model;

Fig. 7 is the user mode synoptic diagram of the 4th embodiment and storer heat abstractor in the utility model;

Fig. 8 is the perspective exploded view of the 5th embodiment and storer heat abstractor in the utility model;

Fig. 9 is the perspective exploded view of the 6th embodiment and storer heat abstractor in the utility model.

Description of reference numerals

Pedestal 1 connects platform structure 10

Faying face 11 pores 12

Screw 13 perforation 14

Opening 15

Fastener 2 connecting portions 21

Side plate 22 joint portions 23

Lockhole 24

Storer heat abstractor 3 colludes groove 31

Heat-sink unit 4 circular holes 41

Storer 5

Embodiment

For can be to the purpose of this utility model, feature and function, have further and understand, now enumerate preferred embodiment and conjunction with figs. is described in detail as follows:

At first see also Fig. 1, be the perspective exploded view of the utility model first embodiment and storer heat abstractor, the utility model is a kind of connection platform structure of storer heat abstractor, in order to combine closely with the storer heat abstractor, it includes pedestal 1 and two fasteners 2, wherein:

Pedestal 1, be cuboid, be combined in storer heat abstractor 3 tops, and the bottom has the faying face 11 that agrees with storer heat abstractor 3 tops, and on this pedestal 1, offer two pores 12 and be provided with two or more screws 13 at pore 12 peripheries, other sees also Fig. 3, is the perspective exploded view of the utility model second embodiment, this pedestal 1 also can be burnishing surface and does not open any pore 12, and this pedestal 1 can be done suitably to adjust according to the shape size of storer heat abstractor 3.

Fastener 2, has the connecting portion 21 that articulates with pedestal 1 both sides, and along these connecting portion 21 downward extended two side plates 22, and has joint portion 23 on the free end of these two side plates 22 respectively, wherein in the present embodiment joint portion 23 for colluding the plate form, and these storer heat abstractor 3 both sides are respectively equipped with and collude groove 31, the joint portion 23 of confession fastener 2 is buckled in respectively colludes in the groove 31, make whereby and form the heat-sink unit 4 that connects platform structure 10, can combine closely with this storer heat abstractor 3, to increase storer 5 heat radiation functions.

In aforementioned present embodiment, the connecting portion 21 of fastener 2 is a flanging, and it is one-body molded with fastener 2, and can pass through screw lock, riveted joint or bonding fixed form and firmly combine with pedestal 1, pedestal 1 both sides respectively are provided with perforation 14 in the present embodiment, then be provided with the lockhole 24 of corresponding perforation 14 on this connecting portion 21, with the fixed form of screw lock firmly in conjunction with fastener 2 and pedestal 1.

Moreover, connection platform structure 10 of the present utility model also comprises at least one heat-sink unit 4, its be installed on the pedestal 1 or the utility model the 6th embodiment shown in be interposed in and connect between platform structure 10 and the storer heat abstractor 3 (as shown in Figure 9), and this heat-sink unit 4 is a radiator fan, water-cooling type radiator, the heating radiator of aluminium extruded type heating radiator or other identity function, see also Fig. 1 to Fig. 5 this heat-sink unit 4 in the utility model first embodiment and be radiator fan, and this heat-sink unit 4 is a water-cooling type radiator in a second embodiment, be provided with circular hole 41 on the angle respectively holding of this heat-sink unit 4, then be provided with the screw 13 of corresponding circular hole 41 on this pedestal 1, with the fixed form of screw lock firmly in conjunction with this heat-sink unit 4 and this pedestal 1; In like manner, see also Fig. 5, for the utility model the 3rd is implemented illustration, this heat-sink unit 4 is the aluminium extruded type heating radiator in the 3rd embodiment, on this pedestal 1, be provided with two or more radiating fins that extrusion forms, and this pedestal 1 bottom has faying face 11, this faying face 11 just can agree with on storer heat abstractor 3 tops, conduct on the heat-sink unit 4 so as to the heat that the storer running is produced, be distributed to the outside again via convection effect, so can increase the storer heat radiation function by the heat-sink unit 4 that connects on the platform structure 10.

Continue the above, see also Fig. 2, shown in Figure 4, user mode synoptic diagram for embodiment one of the present utility model and embodiment two, when wherein the utility model uses, earlier this fastener 2 is articulated in this pedestal 1 both sides, again heat-sink unit 4 is installed on the pedestal 1, joint portion 23 with this fastener 2 is buckled in colluding on the groove 31 of storer heat abstractor 3 both sides at last, promptly finish assembling, therefore this connection platform structure 10 can be combined closely with storer heat abstractor 3, and can come to increase the storer heat radiation function by the heat-sink unit 4 that connects on the platform structure 10.

From the above, see also Fig. 6 to shown in Figure 8, perspective exploded view for the utility model the 4th embodiment and storer heat abstractor, the perspective exploded view of the user mode synoptic diagram of the utility model the 4th embodiment and storer heat abstractor and the utility model the 5th embodiment and storer heat abstractor, wherein shown in Figure 6, this fastener 2 is one-body molded with the both sides of pedestal 1, the downward extended biside plate 22 in the both sides of this pedestal 1, and has joint portion 23 on the free end of this side plate 22 respectively, wherein this joint portion 23 is for colluding the plate form, can be fastened on collude (as Fig. 7) on the groove 31 of storer heat abstractor 3 both sides, set firmly in addition the heat-sink unit 4 of at least one on this pedestal 1, but and this heat-sink unit 4 is radiator fan (as Fig. 6), water-cooling type radiator (as Fig. 8).

See also shown in Figure 9, perspective exploded view for the utility model the 6th embodiment and storer heat abstractor, wherein as shown in Figure 9, this fastener 2 is one-body molded with the both sides of pedestal 1, and on this pedestal 1, offer opening 15, and can insert and put at least one heat-sink unit 4 between this connection platform structure 10 and the storer heat abstractor 3, this heat-sink unit 4 is the aluminium extruded type heating radiator in the present embodiment, on this pedestal 1, be provided with two or more radiating fins that extrusion forms, and the radiating fin of this heat-sink unit 4 can be emerging in the outside via the opening 15 of this pedestal 1 when inserting and putting, make this heat-sink unit 4 be able to heat energy is distributed to the outside, this pedestal 1 bottom has faying face 11 in addition, this faying face 11 just can agree with on storer heat abstractor 3 tops, conduct on the heat-sink unit 4 so as to the heat that storer 5 runnings are produced, be distributed to the outside again via radiating fin, so can further increase the storer heat radiation function by the heat-sink unit 4 that connects on the platform structure 10.

The foregoing description is illustrative principle of the present utility model and effect thereof only, but not is used to limit the utility model.Any insider who has the knack of this skill all can be under the utility model spirit and category, and the foregoing description is modified and changed.

Claims (9)

1, a kind of connection platform structure of storer heat abstractor is combined closely with the storer heat abstractor, it is characterized in that, includes:

Pedestal, described pedestal are combined in described storer heat abstractor top, and have the faying face that agrees with described storer heat abstractor top;

Two fasteners, described fastener has the connecting portion that articulates with described pedestal both sides, and, have respectively on the free end of described two side plates that the heat-sink unit that can make described connection platform structure and described storer heat abstractor are combined closely and the joint portion that increases the storer heat radiation function along downward extended two side plates of described connecting portion.

2, the connection platform structure of storer heat abstractor according to claim 1 is characterized in that, it also comprises heat-sink unit, and described heat-sink unit is located on the described pedestal.

3, the connection platform structure of storer heat abstractor according to claim 2 is characterized in that, described heat-sink unit is any one of radiator fan or heating radiator.

4, the connection platform structure of storer heat abstractor according to claim 3 is characterized in that, described heating radiator is water-cooling type radiator or aluminium extruded type heating radiator.

5, the connection platform structure of storer heat abstractor according to claim 1 is characterized in that, described joint portion is for colluding plate.

6, the connection platform structure of storer heat abstractor according to claim 1 is characterized in that, described connecting portion is a flanging.

7, the connection platform structure of storer heat abstractor according to claim 1 is characterized in that, described fastener and described pedestal are one-body molded.

8, the connection platform structure of storer heat abstractor according to claim 7 is characterized in that, it also comprises heat-sink unit, and described heat-sink unit is interposed between described pedestal and the described storer heat abstractor.

9, the connection platform structure of storer heat abstractor according to claim 7 is characterized in that, has opening on the described pedestal.

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