CN202841796U - Radiating module - Google Patents

Abstract

The utility model discloses a radiating module and a manufacturing method thereof. The radiating module comprises a radiating fin group and a base, wherein one side of the radiating fin group is provided with at least one flanging, and the flanging is provided with at least one joint part; and the base is provided with at least one connection fixing part which is arranged corresponding to the joint part, and the connection fixing part is buckled with the flanging and produces plastic deformation through applying pressure on the connection fixing part so as to enable the radiating fin group to stably combined with the base, thereby achieving the objectives of reducing the working hour and saving the manufacturing cost.

Description

Radiating module

Technical field:

The utility model relates to a kind of radiating module, relates in particular to a kind ofly to reach quick combination by plastic deformation and reach the radiating module of saving man-hour and manufacturing cost.

Background technology:

Existing heat abstractor and radiating module be by plural radiating subassembly mutually arrange in pairs or groups the assembling form, these radiating subassemblies are to be the assemblies such as heat pipe, radiator, cooling base, these radiating subassemblies are arranged in pairs or groups each other in conjunction with being fixed by welding, if but for carrying out weld job with the made radiating subassembly of aluminium material, outside then not only need to welding in the mode of special welding work, its processing cost also increases relatively.

Other is the person, there also have the dealer with fixation kits such as screws these radiating subassemblies to be carried out combination to be fixing, but fixation kit only can carry out screw lock for the part radiating subassembly fixes (such as radiating fin group and cooling base), for heat pipe then can't be directly mode by screw lock be fixed.

Moreover, also have the dealer by the mode of close-fitting radiating fin and pedestal to be fixed, but the work progress of close-fitting make easily radiating fin or pedestal break and then promote fraction defective, so known techniques has following shortcoming:

1. cost is higher; 2. expend man-hour; 3. fraction defective is higher.

Summary of the invention:

For solving the shortcoming of above-mentioned known techniques, but main purpose of the present utility model provides the radiating module that a kind of rapid-assembling reduces production costs.

But another purpose of the utility model provides the manufacture method of the radiating module that a kind of rapid-assembling reduces production costs.

For reaching above-mentioned purpose, the utility model provides a kind of radiating module, is to comprise: a radiating fin group, a pedestal;

Described radiating fin group one side has at least one flanging, and this flanging has at least one joint portion; This pedestal has at least one connecting fixed part, corresponding setting with aforementioned joint portion, and this connecting fixed part must fasten aforementioned flanging.

For reaching above-mentioned purpose, the utility model provides a kind of radiating module, and its manufacture method is to comprise the following step:

A pedestal that provides radiating fin group that a plurality of radiating fins forms and a side plane to be provided with at least one connecting fixed part;

In this radiating fin group one side one flanging and at least one joint portion are set;

The corresponding connecting fixed part with this pedestal in the joint portion of described radiating fin group is chimeric, and by a tool described connecting fixed part is pressed, make described connecting fixed part suppress the flanging of this radiating fin group.

Can significantly reduce the assembling man-hour of radiating module by radiating module of the present utility model, and reduce production costs.

Description of drawings:

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

Fig. 2 is the three-dimensional combination figure for the first embodiment of the utility model radiating module;

Fig. 3 is the three-dimensional cutaway view for the first embodiment of the utility model radiating module;

Fig. 4 is the assembled sectional view for the second embodiment of the utility model radiating module;

Fig. 5 is the assembled sectional view for the 3rd embodiment of the utility model radiating module;

Fig. 6 is the assembled sectional view for the 4th embodiment of the utility model radiating module;

Fig. 7 is the radiating fin group schematic diagram for the 5th embodiment of the utility model radiating module;

Fig. 8 is the manufacture method flow chart of steps for the utility model radiating module.

Embodiment:

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

As shown in Figure 1, 2, 3, be stereo decomposing and combination and the assembled sectional view for the first embodiment of the utility model radiating module, as shown in the figure, described radiating module 1 is to comprise: a radiating fin group 11, a pedestal 12.

Described radiating fin group 11 1 sides have at least one flanging 111, and described flanging 111 has at least one joint portion 1111.

Described pedestal 12 has at least one connecting fixed part 121, and with the 1111 corresponding settings of aforementioned joint portion, and this connecting fixed part 121 must fasten aforementioned flanging 111.

Described pedestal 12 has one first side 122 and one second side 123, described connecting fixed part 121 is located at this first side 122, and this connecting fixed part 121 has at least one the first elongated end 1211, described the first elongated end 1211 is a free-ended end by this connecting fixed part 121 and extends institute's configuration to the direction of opposite this pedestal 12, and these first elongated end, 1211 extension fastenings compress this flanging 111.

As shown in Figure 4, it is the assembled sectional view for the second embodiment of the utility model radiating module, the present embodiment part-structure is identical with aforementioned the first embodiment, so will repeat no more at this, only present embodiment and not existing together of aforementioned the first embodiment are to have more one second elongated end 1212 for described connecting fixed part 121, described first, two elongated ends 1211,1212 respectively by this connecting fixed part 121 be a free-ended end to the direction of opposite this pedestal 12 extend formed, when producing plastic deformation when this first elongated end 1211 and this second elongated end 1212 are pressed, described the first elongated end 1211 and this second elongated end 1212 bends respectively the flanging 111 of suppressing this radiating fin group 11.

As shown in Figure 5, it is the assembled sectional view for the 3rd embodiment of the utility model radiating module, the present embodiment part-structure is identical with aforementioned the first embodiment, so will repeat no more at this, only present embodiment and not existing together of aforementioned the first embodiment are to have more a first end 124 and one second end 125 for described pedestal 12, the first elongated end 1211 of described connecting fixed part 121 be arranged at respectively this first, two ends 124,125, when producing plastic deformation when this first elongated end 1211 is pressed, the flanging 111 of the described radiating fin group 11 of described the first elongated end 1211 bendings blocking.

As shown in Figure 6, it is the three-dimensional exploded view for the 4th embodiment of the utility model radiating module, the present embodiment part-structure is identical with aforementioned the first embodiment, so will repeat no more at this, only present embodiment and not existing together of aforementioned the first embodiment are to have more at least one heat pipe 13 and a groove 126 for described radiating module 1, described heat pipe 13 has a heat absorbing end 131 and a radiating end 132, described groove 126 is located at the second side 123 of this pedestal 12, described heat absorbing end 131 is to be located in this groove 126, and described radiating end 132 is to run through this radiating fin group 11.

As shown in Figure 7, it is the radiating fin group schematic diagram for the 5th embodiment of the utility model radiating module, the present embodiment part-structure is identical with aforementioned the first embodiment, so will repeat no more at this, only not existing together of present embodiment and aforementioned the first embodiment stackingly consisted of by plurality of radiating fins 11a is mutual by described radiating fin group 11, and these radiating fins 11a both sides have respectively snapping section 112, and fasten the mutual winding of another radiating fin 11a by this snapping section 112.

As shown in Figure 8, be the manufacture method flow chart of steps for the utility model radiating module, and consult in the lump aforementioned the 1st～7 figure that as shown in the figure, the manufacture method of radiating module of the present utility model is to comprise the following step:

S1 a: pedestal that provides radiating fin group that a plurality of radiating fins forms and a side plane to be provided with at least one connecting fixed part;

Provide one by the mutual stacking radiating fin group 11 that forms of plurality of radiating fins 11a, and provide a side plane to be provided with the pedestal 12 of connecting fixed part 121 as shown in Figure 1.

S2: one flanging and at least one joint portion are set in this radiating fin group one side;

At least one side of these radiating fins 11a of described radiating fin group 11 is provided with a flanging 111, and in this flanging 111 at least one joint portion 1111 is set, and described joint portion 1111 is mutually corresponding with the connecting fixed part 121 of aforementioned pedestal 12.

S3: the corresponding connecting fixed part with this pedestal in the joint portion of described radiating fin group is chimeric, and by a tool described connecting fixed part is pressed, make described connecting fixed part suppress the flanging of this radiating fin group.

These radiating fin group 11 correspondences are arranged at the side that aforementioned pedestal 12 has this connecting fixed part 121, and with the joint portion 1111 of this radiating fin group 11 and the connecting fixed part 121 corresponding combinations of this pedestal 12, by a tool this connecting fixed part 121 is pressed again, make this connecting fixed part 121 produce plastic deformation, this connecting fixed part 121 is to suppress this flanging 111, and this radiating fin group 11 is able to and 12 combinations of this pedestal.

Described tool present embodiment is with a drift as an illustration, is not limited but do not regard it as.

Described connecting fixed part is to press by machining described connecting fixed part 121 is carried out plastic deformation, and the machining of present embodiment is with punch process as an illustration but do not regard it as and be limited.

Structure by radiating module of the present utility model with and manufacture method be can shorten the assembling man-hour of this radiating module and do not need additionally can finish assembling by welding, and then the manufacturing cost person who significantly reduces this radiating module.

The primary clustering symbol description:

Radiating module 1

Radiating fin group 11

Radiating fin 11a

Flanging 111

Joint portion 1111

Pedestal 12

Connecting fixed part 121

The first elongated end 1211

The second elongated end 1212

The first side 122

The second side 123

First end 124

The second end 125

Groove 126

Heat pipe 13

Heat absorbing end 131

Radiating end 132

Claims (6)

1. radiating module is characterized in that: be to comprise:

One radiating fin group, a side has at least one flanging, and described flanging has at least one joint portion;

One pedestal has at least one connecting fixed part, corresponding setting with aforementioned joint portion, and this connecting fixed part fastening compresses

Aforementioned flanging.

2. radiating module as claimed in claim 1, it is characterized in that: wherein said pedestal has one first side and one second side, and described connecting fixed part is located at this first side, and this connecting fixed part has at least one the first elongated end, and this first elongated end extends and fastens this flanging.

3. radiating module as claimed in claim 2, it is characterized in that: wherein said connecting fixed part has more one second elongated end, described first and second elongated end respectively by this connecting fixed part be a free-ended end to the direction of opposite this pedestal extend formed.

4. radiating module as claimed in claim 2, it is characterized in that: wherein said pedestal has more a first end and one second end, and the first elongated end of described connecting fixed part is arranged at respectively this first and second end.

5. radiating module as claimed in claim 2, it is characterized in that: wherein have more at least one heat pipe and a groove, described heat pipe has a heat absorbing end and a radiating end, described groove is located at the second side of this pedestal, described heat absorbing end is to be located in this groove, and described radiating end is to run through described radiating fin group.

6. radiating module as claimed in claim 1 is characterized in that: wherein said radiating fin group is to be made of the mutual stacking institute of plurality of radiating fins, and the both sides of described radiating fin have respectively snapping section.

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