CN206611696U - A kind of improved radiating structure - Google Patents

Abstract

The utility model discloses a kind of improved radiating structure, including substrate and some radiating fins；The length of the substrate is less than the length of the radiating fin；One end of all radiating fins is fixedly connected with the substrate, and the length direction of radiating fin is parallel with the length direction of the substrate.The utility model not only can be used alone, when coordinating fan assembly to strengthen radiating, the back side that fan is arranged on to radiator structure can be allowed, so that the fan that most of radiating fin of radiator structure can be installed in the back side is blown to, remaining part radiating fin can be strengthened radiating by the fan of sidepiece, realize comprehensive enhancing radiating of radiator structure.

Description

A kind of improved radiating structure

Technical field

The utility model is related to technical field of heat dissipation, and in particular to a kind of improved radiating structure.

Background technology

Current radiator is usually that some radiating fins are set on substrate, by heat generating components in the way of heat transfer Heat transfer, so as to be transferred to radiating fin, then transfers heat to sky to substrate via the heat exchange of radiating fin and air In gas.But normally, in some larger devices, it is inadequate only to carry out radiating by radiator, generally requires to coordinate wind Fan accelerates air in the speed that cooling fin surfaces flow to strengthen the effect of radiating.Because the back side of radiator structure is substrate, Wind can not be blown on radiating fin when fan to be arranged on to the rear of radiator structure, therefore fan can only be arranged on radiator structure Both sides.And because the front of radiator structure（That is the one side of radiating fin）Often need to be close to the thermovent of shell, because The positive area very little that can be relative of this outlet air surface for being arranged on the fan of side and cooling mechanism, wind energy gets at the radiating reached The positive area of structure also very little, often some radiating fin can not blow to wind, it is impossible to realize the complete of radiator structure The enhancing radiating in face.

Utility model content

In view of the shortcomings of the prior art, the utility model aims to provide a kind of improved radiating structure so that cooling mechanism It not only can be used alone, when coordinating fan assembly to strengthen radiating, the back side that fan is arranged on to radiator structure can be allowed, made Most of radiating fin of radiator structure can be installed in the fan at the back side and blow to, remaining part radiating fin can be with Radiating is strengthened by the fan of sidepiece, comprehensive enhancing radiating of radiator structure is realized.

To achieve these goals, the utility model is adopted the following technical scheme that：

A kind of improved radiating structure, including substrate and some radiating fins；The length of the substrate is less than the radiating The length of fin；One end of all radiating fins is fixedly connected with the substrate, and length direction and the institute of radiating fin The length direction for stating substrate is parallel.

Further, one end of all radiating fins is fixedly connected with the front of the substrate.

Further, one end of the radiating fin is connected to length of the positive length equal to substrate of substrate.

Further, the length of the substrate is the 1/3-1/2 of the length of the radiating fin.

Further, the substrate and radiating fin are integrally formed.

Further, it is mutually isolated between each radiating fin, and be parallel to each other.

The application method of above-mentioned improved radiating structure, comprises the following steps：

The improved radiating structure is arranged on inside the device for needing to radiate by S1, and the radiating of front facing device Mouthful；

The back side that S2 is longer than the part of the substrate in radiating fin sets fan assembly, and the improved radiating structure is leaned on The side of the nearly substrate sets another fan assembly, and the outlet air surface of another fan assembly towards the radiating fin Piece.

The beneficial effects of the utility model are：, can be with by making the length of radiating fin be more than the length of the substrate So that a part for radiating fin is fixed on substrate, the structure of many fins of a substrate is remained in that, while can allow dissipating The reinforcement that the back side of hot fin sets fan assembly to carry out the part is radiated, and is coordinated in improved radiating structure close to substrate Side sets the mode of another fan, it is possible to carry out reinforcement radiating to radiating fin comprehensively.In addition, of the present utility model improve Type radiator structure can also be used alone.

Brief description of the drawings

Fig. 1 is the positive visual angle schematic diagram of the utility model embodiment；

Fig. 2 is the back side visual angle schematic diagram of the utility model embodiment；

Fig. 3 and Fig. 4 are respectively the schematic diagram of the different visual angles of the application example of the utility model embodiment.

Embodiment

Below with reference to accompanying drawing, the utility model will be further described, it is necessary to which explanation, the present embodiment is with this skill Premised on art scheme, detailed embodiment and specific operating process are given, but protection domain of the present utility model is not It is limited to the present embodiment.

As shown in Figure 1 and Figure 2, a kind of improved radiating structure, including substrate 1 and some radiating fins 2；The substrate 1 Length is less than the length of the radiating fin 2；One end of all radiating fins 2 is fixedly connected with the plate of base 1, and is radiated The length direction of fin 2 is parallel with the length direction of the substrate 1.

In the present embodiment, by the way that the length of radiating fin to be set to be longer than to the length of the substrate, then it can radiate A part for fin can exceed the substrate, and front and back is all directly contacted with outside so that radiator structure is being remained in that While the structure of many radiating fins, also allow to set fan assembly at the back side of radiating fin the reinforcement to carry out the part to dissipate Heat, coordinates the mode for setting another fan assembly close to the side of substrate in improved radiating structure, contributes to more comprehensively to dissipating Hot fin carries out reinforcement radiating, strengthens the effect of radiating, overcomes existing radiator structure to be difficult to set fan in actual applications Device causes the shortcoming of enhancing radiating comprehensively.

Further, one end of all radiating fins 2 is fixedly connected with the front of the substrate 1.Further, One end of the radiating fin 2 is connected to length of the positive length equal to substrate 1 of substrate 1.It is big in the length of radiating fin On the basis of zig, one end of radiating fin is made to be arranged on the front of substrate and be allowed to be connected to the length of substrate front side Degree be exactly substrate length, fan assembly can be maximally utilised, be not in the wind of the fan of sidepiece reached one Portion does not have radiating fin, and rear will then set bigger fan assembly to cover the radiating fin being all exposed to outside substrate The problem of piece position.

Further, since substrate has certain thickness, when one end of radiating fin is connected to the front of substrate, then exceed A depressed area 101 can be formed between the back side of the part of the substrate and substrate, then the fan assembly located at rear can With in the embedded depressed area（As shown in Figure 3, Figure 4）, be conducive to reducing the space shared by whole cooling system.

Further, the length of the substrate is the 1/3-1/2 of the length of the radiating fin.

Further, the substrate 1 and radiating fin 2 are integrally formed.

Further, it is mutually isolated between each radiating fin 2, and be parallel to each other.

The application method of above-mentioned improved radiating structure, comprises the following steps：

The improved radiating structure is arranged on inside the device for needing to radiate by S1, and the radiating of front facing device Mouth 102；

The back side that S2 is longer than the part of the substrate in radiating fin 2 sets fan assembly 103（In the present embodiment, wind The outlet air surface of fan device 103 just embedded in depressed area 101）, the improved radiating structure is close to the side of the substrate 1 Another fan assembly 104 is set, and the outlet air surface of another fan assembly 104 towards the radiating fin 2.

Usually, in order to preferably be communicated with extraneous air, radiator structure needs to be close to dissipating for the device that needs radiate Hot mouth.In the case, the angle for being arranged on the outlet air surface of the fan assembly 104 of radiator structure side is adjusted according to actual conditions To the limit towards radiating fin.

After installing, it would be desirable to the part 105 of radiating（Such as LED lamp）It is connected on substrate 1.

In the present embodiment, after the improved radiating structure combination fan assembly is installed as shown in Figure 3, Figure 4.

In addition, the improved radiating structure can also be used separately as radiator structure, dissipating for device is arranged at it The position of hot mouth, and the part for needing to radiate is connected to substrate.

For those skilled in the art, technical scheme that can be more than and design, make various corresponding Change and deform, and all these change and deformation should be construed as being included in the utility model scope of the claims it It is interior.

Claims (6)

1. a kind of improved radiating structure, including substrate and some radiating fins；Characterized in that, the length of the substrate is less than The length of the radiating fin；One end of all radiating fins is fixedly connected with the substrate, and the length of radiating fin Direction is parallel with the length direction of the substrate.

2. improved radiating structure according to claim 1, it is characterised in that one end of all radiating fins is fixed It is connected to the front of the substrate.

3. improved radiating structure according to claim 2, it is characterised in that one end of the radiating fin is connected to base The positive length of plate is equal to the length of substrate.

4. improved radiating structure according to claim 1, it is characterised in that the length of the substrate is the radiating fin The 1/3-1/2 of the length of piece.

5. improved radiating structure according to claim 1, it is characterised in that substrate and the radiating fin one into Type.

6. improved radiating structure according to claim 1, it is characterised in that mutually isolated between each radiating fin, and And be parallel to each other.