CN2773902Y - Symmetric radiating module structure with heat collecting tube - Google Patents

Abstract

The utility model discloses a symmetric radiating module structure with a heat collecting pipe, which comprises a first radiating part, a second radiating part, a first fin group, a second fin group, a heat conducting pipe and a base part, wherein the first and the second fin groups are provided with concave parts which are mutually in butt joint the heat conducting pipe is arranged in a concave part, one end of the heat conducting pipe is convexly arranged at the bottom s of the first and the second fin groups, and the base is arranged at the convex place of the heat conducting pipe. Thereby, the first and the second fin groups form a pair of symmetrical state, a radiating module has a larger radiating area and a double surface radiating function, thereby, the better radiating efficiency can be achieved.

Description

The symmetrical expression radiating module structure of tool heat pipe

Technical field:

The utility model relates to a kind of symmetrical expression radiating module structure of tool heat pipe.

Background technology:

Existing radiator as Republic of China's patent gazette, is announced No. 471657 " central processing unit heat pipe radiator ", and it includes:

The one metallic base that can contact with the end face of computer-internal central processing unit, on base, set firmly several heat pipes, several pieces are flat metallic fin to be connected in series storehouse between each heat pipe respectively, be provided with a metallic radiating seat in the outside of base, heat pipe, fin, side end in radiating seat, fin and base is provided with a small-sized fans, and the wind that this small-sized fans blew out can blow to base, heat pipe, fin and radiating seat;

Be formed with a hole respectively in bottom, the two sides of radiating seat, on the base and be positioned between two holes of radiating seat and can laterally wear for a fastener, and can be by fastener with firm being fastened on the central processing unit holder of computer-internal of radiator.

Above-mentioned though " central processing unit heat pipe radiator " can be by a small-sized fans with the wind that blown out to base, heat pipe, fin and radiating seat, reach heat radiation function; But because the monomer that is formed in one of this radiator, so its area of dissipation is limited, and because this fin is unidirectional setting, thus when this fan in blowing when drawing the short circulation that can between fin, produce hot blast, and the effect that influence is dispelled the heat.Therefore, it is required when reality is used generally can't to meet the user.

The utility model content:

Technical problem to be solved in the utility model is: at the deficiencies in the prior art, providing a kind of makes this first and second fins group shape be a symmetrical state, and make this radiating module have the bigger area of dissipation and the function of bilateral heat radiation, and then reach the symmetrical expression radiating module structure of the tool heat pipe of preferable heat radiation function.

For solving the problems of the technologies described above, the technical scheme that the utility model adopted is: a kind of symmetrical expression radiating module structure of tool heat pipe, it includes: one first fins group, the bottom of this first fins group has one first radiating part, and having one second radiating part in the one side of this first fins group and the position that is adjacent to first radiating part, the another side in this first fins group is provided with two adjacent depressed parts in addition; One second fins group, the bottom of this second fins group has one first radiating part, and has one second radiating part in the one side of this second fins group and the position that is adjacent to first radiating part, another side in this second fins group is provided with two adjacent depressed parts in addition, and this first and second fins group is docked mutually by the one side that it has depressed part; One heat pipe, this heat pipe is arranged in the depressed part of described first and second fins group, and an end of this heat pipe is convexly set in the bottom of first and second fins group; One base, this base are arranged at the place that is convexly equipped with of described heat pipe one end, and this bottom have one with the place corresponding engagement portion that is convexly equipped with of this heat pipe one end.

Described second fins group becomes symmetry status and made by the heat radiation material with first fins group.First radiating part of described first and second fins group by the bottom of this first and second fins group to an end vertical extent.Second radiating part of described first and second fins group is extended laterally by the one side of this first and second fins group.Described first and second radiating part is made of most radiating fins.One end of described first and second fins group is respectively arranged with a group connecting part that is corresponding joint.The ora terminalis of described first and second fins group bottom surface has a breach that is the corresponding heat pipe that is convexly equipped with ccontaining this end respectively.Described heat pipe can be a U-shaped body.Described heat pipe can be a body that can produce capillarity, and the inside of this heat pipe is filled with liquid.Described heat pipe can be a loop-type body.Described base is made by the heat radiation material.

Compared with prior art, the utility model has the advantages that: because this first and second fins group shape is a symmetrical state, and make this radiating module have the bigger area of dissipation and the function of bilateral heat radiation, and then reach preferable heat radiation function.

Description of drawings:

Fig. 1 is a three-dimensional appearance schematic diagram of the present utility model.

Fig. 2 is a perspective exploded view of the present utility model.

Fig. 3 is a side-looking view of the present utility model.

Fig. 4 is a user mode schematic diagram of the present utility model.

Fig. 5 is a user mode generalized section of the present utility model.

The figure number explanation:

First fins group, 1 first radiating part 11

Radiating fin 111,121 second radiating parts 12

Depressed part 13 group connecting parts 14

Breach 15 second fins group 2

First radiating part, 21 radiating fins 211,221

Second radiating part, 22 depressed parts 23

Group connecting part 24 breach 25

Riveted spare 26 heat pipes 3

Base 4 junction surfaces 41

Motherboard 5 heat generating components 51

Fan 6

Embodiment:

See also Fig. 1-shown in Figure 3, the utility model is made of one first fins group 1, one second fins group 2, a heat pipe 3 and a base 4, and this first and second fins group (1,2) is made by the preferable material of heat radiations such as aluminium, copper or aluminium alloy, copper alloy, can make this first and second fins group be a symmetrical state, and make this radiating module have the bigger area of dissipation and the function of bilateral heat radiation, and then reach preferable heat radiation function.

The bottom of above-mentioned first fins group 1 has one first radiating part 11, this first radiating part 11 by the bottom of this first fins group 1 to an end vertical extent, and has one second radiating part 12 in the one side of this first fins group 1 and the position that is adjacent to first radiating part 11, this second radiating part 12 is extended laterally by the one side of this first fins group 1, and this is first years old, two radiating parts (11,12) by most radiating fins (111,121) constitute, another side in this first fins group 1 is provided with two adjacent depressed parts 13 in addition, an end of this first fins group 1 is provided with a group connecting part 14 again, and the ora terminalis in this first fins group, 1 bottom surface has a breach 15;

1 one-tenth symmetry status of this second fins group 2 and first fins group, and the bottom of this second fins group 2 has one first radiating part 21, this first radiating part 21 by the bottom of this second fins group 2 to an end vertical extent, and has one second radiating part 22 in the one side of this second fins group 2 and the position that is adjacent to first radiating part 21, this second radiating part 21 is extended laterally by the one side of this second fins group 2, and this is first years old, two radiating parts (21,22) by most radiating fins (211,22 1) constitute, another side in this second fins group 2 is provided with two adjacent depressed parts 23 in addition, make this first, two fins group (1,2) has depressed part (13 by it, 23) one side is docked mutually, be provided with one in an end of this second fins group 2 again and be another group connecting part 24 of corresponding engagement state with the group connecting part 14 of above-mentioned first fins group, 1 one ends, can be by a riveted spare 26 combinations in addition, and the breach 15 that the ora terminalis in these second fins group, 2 bottom surfaces has with above-mentioned first fins group 1 is corresponding another breach 25.

This heat pipe 3 is arranged in the depressed part (13,2 3) of above-mentioned first and second fins group (1,2), and an end of this heat pipe 3 is convexly set in first and second fins group (1,2) bottom and is in the corresponding breach (15,25), and this heat pipe 3 can be a U-shaped body, and this heat pipe 3 can be a body that can produce capillarity, and the inside of this heat pipe 3 is filled with liquid, or is a loop-type body.

This base 4 is made by the preferable material of heat radiation such as aluminium, copper or aluminium alloy, copper alloy, and is arranged at the place that is convexly equipped with of above-mentioned heat pipe 3 one ends in this base 4, and this bottom has one and locates corresponding engagement portion 41 with being convexly equipped with of these heat pipe 3 one ends.In this way, constitute the symmetrical expression radiating module structure of a brand-new tool heat pipe by said structure.

See also Fig. 4-shown in Figure 5, when using, can be arranged on the heat generating component 51 by base 4, and this heat generating component 51 can be the central processing unit (CPU) on the motherboard 5, and can be provided with a fan 6 in a side of fins group, make this fan 6 be the state of a side-blown, and when the heat generating component 51 on this motherboard 5 when activating, can constantly produce thermal source, this moment, this base 4 began to absorb this thermal source, make this a part of thermal source earlier by first, two fins group (1,2) conduct to first radiating part (11 on it, 21) carry out the dissipation of thermal source, the thermal source of another part then sees through this base 4 and conducts on the heat pipe 3, and thermal source is reached first by this heat pipe 3, two fins group (1,2) second radiating part (12 of a side, 22), make this second radiating part (12,22) cooperate this fan 6 to carry out the dissipation of thermal source, and when this fan 6 blows out this thermal source with side blown type, this hot blast can be toward the end guiding of host shell (not shown), at this moment, can should discharge by hot device by fan set on this host shell, and can not make this hot blast in host shell, produce the thermal cycle phenomenon; By this, can make this first and second fins group be a symmetrical state, and make this radiating module have big area of dissipation and bilateral heat sinking function, and then reach preferable heat radiation function.

Claims (12)

1, a kind of symmetrical expression radiating module structure of tool heat pipe, it is characterized in that: it includes: one first fins group, the bottom of this first fins group has one first radiating part, and having one second radiating part in the one side of this first fins group and the position that is adjacent to first radiating part, the another side in this first fins group is provided with two adjacent depressed parts in addition;

One second fins group, the bottom of this second fins group has one first radiating part, and has one second radiating part in the one side of this second fins group and the position that is adjacent to first radiating part, another side in this second fins group is provided with two adjacent depressed parts in addition, and this first and second fins group is docked mutually by the one side that it has depressed part;

One heat pipe, this heat pipe is arranged in the depressed part of described first and second fins group, and an end of this heat pipe is convexly set in the bottom of first and second fins group;

One base, this base are arranged at the place that is convexly equipped with of described heat pipe one end, and this bottom have one with the place corresponding engagement portion that is convexly equipped with of this heat pipe one end.

2, the symmetrical expression radiating module structure of tool heat pipe as claimed in claim 1 is characterized in that: described second fins group becomes symmetry status with first fins group.

3, the symmetrical expression radiating module structure of tool heat pipe as claimed in claim 1 is characterized in that: first radiating part of described first and second fins group by the bottom of this first and second fins group to an end vertical extent.

4, the symmetrical expression radiating module structure of tool heat pipe as claimed in claim 1 is characterized in that: second radiating part of described first and second fins group is extended laterally by the one side of this first and second fins group.

5, the symmetrical expression radiating module structure of tool heat pipe as claimed in claim 1 is characterized in that: described first and second fins group is made by the heat radiation material.

6, the symmetrical expression radiating module structure of tool heat pipe as claimed in claim 1 is characterized in that: described first and second radiating part is made of most radiating fins.

7, the symmetrical expression radiating module structure of tool heat pipe as claimed in claim 1 is characterized in that: an end of described first and second fins group is respectively arranged with a group connecting part that is corresponding joint.

8, the symmetrical expression radiating module structure of tool heat pipe as claimed in claim 1 is characterized in that: the ora terminalis of described first and second fins group bottom surface has a breach that is the corresponding heat pipe that is convexly equipped with ccontaining this end respectively.

9, the symmetrical expression radiating module structure of tool heat pipe as claimed in claim 1 is characterized in that: described heat pipe can be a U-shaped body.

10, the symmetrical expression radiating module structure of tool heat pipe as claimed in claim 1 is characterized in that: described heat pipe can be a body that can produce capillarity, and the inside of this heat pipe is filled with liquid.

11, the symmetrical expression radiating module structure of tool heat pipe as claimed in claim 1 is characterized in that: described heat pipe can be a loop-type body.

12, the symmetrical expression radiating module structure of tool heat pipe as claimed in claim 1 is characterized in that: described base is made by the heat radiation material.

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