CN207476081U - Radiator - Google Patents

Abstract

The utility model discloses a kind of radiators, including substrate, heat pipe, heat sink assembly, turbofan, the heat pipe has heat absorption end, heat dissipation end, the heat absorption end and the substrate connection, the heat dissipation end is connect with the heat sink assembly, and the heat sink assembly is installed on the substrate by the heat pipe；The heat sink assembly is equipped with assembling through-hole, and the turbofan is mounted on the assembling through-hole of the heat sink assembly.The radiator installs turbofan in the inside of heat sink assembly, and cold wind is made to be spread around after being sucked by turbofan, so as to which the heat of cooling fin be taken away, reaches efficient heat dissipation effect.

Description

Radiator

Technical field

The utility model is related to heat dissipation equipment field more particularly to a kind of radiators.

Background technology

Electronic component such as heating element generates a large amount of heat in use, when the temperature of electronic component is more than certain value, electricity It is to destroy completely that subcomponent, which will generate failure or worse situation,；For these reasons, radiator is commonly used to be installed to hair Heat is dispersed into air on heat source.

With the development of science and technology, a variety of electronic components or element height are integrated and are minimized in recent years；Therefore, increase as far as possible The technology of heat conduction path is brought into schedule in big cooling fin area and shortening radiator；By these technologies, radiator can be reduced Size improve radiating efficiency simultaneously；However, fan is installed to improve radiating efficiency in face to traditional heat sinks on a heat sink, wind is used Fan is dried to radiator so as to cool down radiator on, although being blown a cold wind over fan to cooling fin, most of cold wind is radiated Piece reflects away, therefore only minimal amount cold wind is used to cool down；In view of the high-performance and height to generating big calorimetric in use Spend the cumulative demand of integrated electronics, it is necessary to a kind of effective dress that can fully distribute the heat that this kind of electronic component generates It puts.

Invention content

The purpose of this utility model is to provide a kind of radiator, which installs in the inside of heat sink assembly Turbofan makes cold wind be spread around after being sucked by turbofan, so as to which the heat of cooling fin be taken away, reaches efficient and dissipates Thermal effect.

Its technical solution is as follows：

Radiator, including substrate, heat pipe, heat sink assembly, turbofan, the heat pipe has heat absorption end, heat dissipation End, the heat absorption end and the substrate connection, the heat dissipation end are connect with the heat sink assembly, the groups of fins Part is installed on the substrate by the heat pipe；

The heat sink assembly is equipped with assembling through-hole, and the turbofan is mounted on the wind turbine of the heat sink assembly On installation through-hole.

Further, the heat sink assembly is two, and two heat sink assemblies are arranged side by side, and two described scattered The short side of backing component is opposite, and the turbofan is two, and two turbofans are separately mounted to two heat dissipations On the installation through-hole of piece component.

Further, the heat sink assembly includes multiple radiating fins, and multiple radiating fins are set in layered laminate, And there are gaps between adjacent radiating fin；There are gaps between the heat sink assembly and substrate.

Further, the turbofan has air inlet, and the air inlet is respectively provided at the heat dissipation with the substrate Two opposite sides of piece component.

Further, the heat pipe is U-shaped, and the heat dissipation end of the heat pipe includes the first heat dissipation end, the second radiating end Portion, the both ends of the heat absorption end are connect respectively with the described first heat dissipation end, the second heat dissipation end；

The heat sink assembly is equipped with the first heat pipe installation through-hole, the second heat pipe installation through-hole, and the first of the heat pipe dissipates Hot junction portion, the second heat dissipation end pass through the first heat pipe installation through-hole, the second heat pipe installation through-hole, and be connected thereto.

Further, the substrate is equipped with heat absorption through-hole, the heat absorption end of the heat pipe imbed in the heat absorption through-hole with The substrate connection.

Further, the heat pipe is multiple, and multiple heat pipes are arranged in parallel along the heat sink assembly length direction, The heat sink assembly is installed on the substrate by multiple heat pipes.

It should be noted that：

Aforementioned " first, second ... " does not represent specific quantity and sequence, is only used for the differentiation to title.

The advantages of below to the utility model or principle illustrate：

1st, this radiator includes turbofan, heat sink assembly, heat pipe, substrate, and the heat on electronic component passes through base Plate, hot pipe conducting to heat sink assembly install turbofan, after cold wind is made to be sucked by turbofan in the inside of heat sink assembly It spreads around, so as to which the heat on heat sink assembly be taken away, reaches efficient heat dissipation effect.

2nd, heat sink assembly is two, and turbofan is two, accelerates to take away the heat on electronic component, improves this and dissipates The heat dissipation effect of thermal.

3rd, heat sink assembly includes multiple radiating fins, and multiple radiating fins are set in layered laminate, and two adjacent heat radiations There are gaps between fin, after turbofan sucks cold wind, can make have uniform air-flow to pass through between every layer of radiating fin, no It is small or even do not have the phenomenon that wind to will appear the big upper strata wind of lower floor's wind, makes better heat-radiation effect.

4th, the air inlet of turbofan is respectively provided at two opposite sides of heat sink assembly with substrate, makes turbofan sucking cold Wind it is better.

5th, heat pipe is U-shaped, and the heat dissipation end of U-shaped heat pipe includes the first heat dissipation end, the second heat dissipation end, end of absorbing heat Both ends connects respectively with the first heat dissipation end, the second heat dissipation end, and are formed U-shaped, inhale next heat by the from heat absorption end One heat dissipation end, the second radiating end part are scattered to heat sink assembly, make heat pipe heat absorption and heat dissipation effect more preferable.

6th, the heat absorption end of heat pipe imbed heat absorption through-hole in and substrate connection, heat absorption end is enable more directly to draw The heat of electronic component.

7th, heat pipe is multiple, and heat pipe is made to absorb heat electronic component multiple spot, makes heat pipe heat absorption more abundant.

Description of the drawings

Fig. 1 is one of stereogram of the utility model embodiment radiator.

Fig. 2 is the structural exploded view of the utility model embodiment radiator.

Fig. 3 is the sectional view of the utility model embodiment radiator.

Fig. 4 is the two of the stereogram of the utility model embodiment radiator.

Reference sign：

10th, substrate, 11, heat absorption through-hole, 20, heat pipe, 21, heat absorption end, 22, heat dissipation end, 30, heat sink assembly, 31, Assembling through-hole, 40, turbofan, 41, air inlet.

Specific embodiment

The embodiment of the utility model is described in detail below.

As shown in Figures 1 to 4, radiator, including substrate 10, heat pipe 20, heat sink assembly 30, turbofan 40, heat Pipe 20 has heat absorption end 21, heat dissipation end 22, and heat absorption end 21 is connect with substrate 10, heat dissipation end 22 and heat sink assembly 30 Connection, heat sink assembly 30 are installed on the substrate 10 by heat pipe 20；

Heat sink assembly 30 is equipped with assembling through-hole 31, and turbofan 40 is mounted on the assembling of heat sink assembly 30 On through-hole 31.

Wherein, heat sink assembly 30 is two, and two heat sink assemblies 30 are arranged side by side, and two heat sink assemblies 30 Short side is opposite, and there are gaps between heat sink assembly 30 and substrate 10；Turbofan 40 is two, and two turbofans 40 are distinguished On the installation through-hole of two heat sink assemblies 30；Turbofan 40 has air inlet 41, and air inlet 41 divides with substrate 10 It is not located at two opposite sides of heat sink assembly 30；

Heat sink assembly 30 includes multiple radiating fins, and multiple radiating fins are set in layered laminate, and adjacent heat radiating fin There are gaps between piece；

Heat pipe 20 is U-shaped, and the heat dissipation end 22 of heat pipe 20 includes the first heat dissipation end, the second heat dissipation end, end of absorbing heat 21 both ends are connect respectively with the first heat dissipation end, the second heat dissipation end；It is logical that heat sink assembly 30 is equipped with the installation of the first heat pipe 20 Hole, 20 installation through-hole of the second heat pipe, the first heat dissipation end, the second heat dissipation end of heat pipe 20 pass through the installation of the first heat pipe 20 logical Hole, 20 installation through-hole of the second heat pipe, and be connected thereto；

Heat pipe 20 is multiple, and multiple heat pipes 20 are arranged in parallel along 30 length direction of heat sink assembly, and heat sink assembly 30 is logical Multiple heat pipes 20 are crossed to install on the substrate 10；Substrate 10 is equipped with heat absorption through-hole 11, and the heat absorption end 21 of heat pipe 20 is imbedded heat absorption and led to It is connect in hole 11 with substrate 10.

The advantages of the present embodiment：

1st, this radiator includes turbofan 40, heat sink assembly 30, heat pipe 20, substrate 10, the heat on electronic component Amount is transmitted to heat sink assembly 30 by substrate 10, heat pipe 20, installs turbofan 40 in the inside of heat sink assembly 30, makes cold Wind is spread around after being sucked by turbofan 40, so as to which the heat on heat sink assembly 30 be taken away, reaches efficient heat dissipation Effect.

2nd, heat sink assembly 30 is two, and turbofan 40 is two, accelerates to take away the heat on electronic component, is improved The heat dissipation effect of this radiator.

3rd, heat sink assembly 30 includes multiple radiating fins, and multiple radiating fins are set in layered laminate, and two adjacent scattered There are gaps between hot fin, after turbofan 40 sucks cold wind, can make have uniform air-flow to lead between every layer of radiating fin It crosses, is not in that the big upper strata wind of lower floor's wind is small or even do not have the phenomenon that wind, makes better heat-radiation effect.

4th, the air inlet 41 of turbofan 40 is respectively provided at two opposite sides of heat sink assembly 30 with substrate 10, makes turbine wind Machine 40 sucks the better of cold wind.

5th, heat pipe 20 is U-shaped, and the heat dissipation end 22 of U-shaped heat pipe 20 includes the first heat dissipation end, the second heat dissipation end, heat absorption The both ends of end 21 connects respectively with the first heat dissipation end, the second heat dissipation end, and are formed U-shaped, are inhaled from heat absorption end 21 next Heat is scattered to heat sink assembly 30 by the first heat dissipation end, the second radiating end part, and heat pipe 20 is made to absorb heat and heat dissipation effect More preferably.

6th, the heat absorption end 21 of heat pipe 20 is imbedded connect in heat absorption through-hole 11 with substrate 10, enables heat absorption end 21 more The heat of direct sucking up electronic components.

7th, heat pipe 20 is multiple, and heat pipe 20 is made to absorb heat electronic component multiple spot, heat pipe 20 is made to absorb heat more abundant.

The above are only specific embodiments of the present invention, does not limit the scope of protection of the utility model with this；Not Any replacement made on the basis of the utility model design is violated with improving, belongs to the scope of protection of the utility model.

Claims (7)

1. radiator, which is characterized in that including substrate, heat pipe, heat sink assembly, turbofan, the heat pipe has heat absorption End, heat dissipation end, the heat absorption end and the substrate connection, the heat dissipation end are connect with the heat sink assembly, institute Heat sink assembly is stated to install on the substrate by the heat pipe；

The heat sink assembly is equipped with assembling through-hole, and the turbofan is mounted on the assembling of the heat sink assembly On through-hole.

2. radiator as described in claim 1, which is characterized in that the heat sink assembly is two, two heat dissipations Piece component is arranged side by side, and the short side of two heat sink assemblies is opposite, and the turbofan is two, two turbines Wind turbine is separately mounted on the installation through-hole of two heat sink assemblies.

3. radiator as described in claim 1, which is characterized in that the heat sink assembly includes multiple radiating fins, more A radiating fin is set in layered laminate, and there are gaps between adjacent radiating fin；The heat sink assembly and substrate Between there are gaps.

4. radiator as described in claim 1, which is characterized in that the turbofan has air inlet, the air inlet Two opposite sides of the heat sink assembly are respectively provided at the substrate.

5. such as Claims 1-4 any one of them radiator, which is characterized in that the heat pipe is U-shaped, the heat pipe Radiate end include first heat dissipation end, second heat dissipation end, it is described heat absorption end both ends respectively with first radiating end Portion, the second heat dissipation end connection；

The heat sink assembly is equipped with the first heat pipe installation through-hole, the second heat pipe installation through-hole, the first radiating end of the heat pipe Portion, the second heat dissipation end pass through the first heat pipe installation through-hole, the second heat pipe installation through-hole, and be connected thereto.

6. radiator as claimed in claim 5, which is characterized in that the substrate is equipped with heat absorption through-hole, the suction of the heat pipe Hot junction portion is imbedded in the heat absorption through-hole and the substrate connection.

7. radiator as claimed in claim 5, which is characterized in that the heat pipe is multiple, and multiple heat pipes are described in Heat sink assembly length direction is arranged in parallel, and the heat sink assembly is installed on the substrate by multiple heat pipes.