DE202010009891U1 - Heat sink and cooling module with this heat sink - Google Patents

Abstract

Heatsink, which can be connected to a fan and a plurality of cooling fins (31), which are spaced apart and form air ducts (32), wherein the cooling fins (31) have an air inlet side (311) via the air ducts (32) is connected to a first air outlet side (312) and a second air outlet side (313), wherein the first and second air outlet side (312, 313) on two opposite sides of the heat sink (3) are located, and wherein the other two opposite sides of the heat sink ( 3) form a first air outlet opening (314) and a second air outlet opening (315), which are connected via the air channels (32) with the air inlet side (311).

Description

Technical area

The The invention relates to a heat sink and a cooling module with this heat sink, where the air can escape from several sides of the cooling fins.

State of the art

With The development of semiconductor technology is the size of the integrated circuit getting smaller and the capacity the integrated circuit getting bigger. At the same time it is increasing the operating heat of electronic components of the integrated circuit, such as central processing unit. This operating heat must be timely dissipated be to damage to avoid the electronic components.

1 shows a conventional cooling module 1 that has a fan 11 and a heat sink 12 includes. The ventilator 11 is on one side of the heat sink 12 arranged. The heat sink 12 has a variety of cooling fins 121 on, the air ducts 122 form. The ventilator 11 has an air outlet side 111 on that with the air ducts 122 connected is.

• 1. kleinere Luftaustrittsmenge,
• 2. langsame Wärmeableitung,
• 3. niedrigere Kühlwirkung.

The air channels 122 between the cooling fins 121 are continuous. When the fan 11 an airflow 2 generated, the airflow occurs 2 from the air inlet side 111 of the heat sink 12 in the air channels 122 and flows through the two ends of the air channels 122 from the heat sink 12 , whereby the heat is dissipated. Because the air flow 2 only from the two sides of the heat sink 12 can escape, the cooling effect is limited, so that the heat can not be dissipated in time. Therefore, the conventional solution has the following disadvantages:

• 1. smaller amount of air leakage,
• 2. slow heat dissipation,
• 3. lower cooling effect.

Object of the invention

Of the Invention is the object of the invention to provide a heat sink, wherein the Air from several sides of the cooling fins can escape.

Of the Invention is based on a further object, a cooling module to create with this heat sink.

These Tasks are solved by the heat sink according to the invention, which has a plurality of cooling fins which are spaced apart and form air channels, the cooling fins have an air inlet side, which via the air ducts with a first air outlet side and a second air outlet side connected is, wherein the first and second air outlet side at two opposite Sides of the heatsink are located and the other two are opposite Sides of the heat sink one first air outlet opening and a second air outlet opening form over the air channels connected to the air inlet side.

The The invention further relates to a cooling module that comprising: a heat sink, the a variety of cooling fins which are spaced apart and form air channels, the cooling fins have an air inlet side, which via the air ducts with a first air outlet side and a second air outlet side connected is, wherein the first and second air outlet side at two opposite Sides of the heatsink are located and the other two are opposite Sides of the heat sink one first air outlet opening and a second air outlet opening form over the air channels connected to the air inlet side; and a fan, which is connected to the air inlet side of the heat sink.

Therefore the invention has the following advantages:

• 1. larger air outlet quantity,
• 2nd higher Cooling effect
• 3. fast heat dissipation.

Brief description of the drawings

1 a perspective view of the conventional solution,

2a a perspective view of the first embodiment of the heat sink according to the invention,

2 B a sectional view of the first embodiment of the heat sink according to the invention,

2c a perspective view of the second embodiment of the heat sink according to the invention,

3 an exploded view of the first embodiment of the cooling module according to the invention,

4 a perspective view of the first embodiment of the cooling module according to the invention,

5 a sectional view of the first embodiment of the cooling module according to the invention,

6 a sectional view of the second embodiment of the cooling module according to the invention,

7 a representation of the second embodiment of the cooling module according to the invention in use,

8th a perspective view of the third embodiment of the cooling module according to the invention.

Ways to execute the invention

Further Details, features and advantages of the invention will become apparent the following detailed description in conjunction with the adjacent drawings.

The 2a and 2 B show the first embodiment of the heat sink according to the invention 3 that has a variety of cooling fins 31 which are spaced apart and air ducts 32 form. The cooling fins 31 have an air inlet side 311 passing through the air ducts 32 with a first air outlet side 312 and a second air outlet side 313 connected is. The first and second air outlet side 312 . 313 are located on two opposite sides of the heat sink 3 , The other two opposite sides of the heat sink 3 form a first air outlet opening 314 and a second air outlet opening 315 passing through the air ducts 32 with the air inlet side 311 are connected. The cooling fins 31 are stacked and thus form the heat sink 3 ,

2c shows the second embodiment of the heat sink according to the invention, which differs from the first embodiment only in that the heat sink 3 is formed by a block.

The 3 . 4 and 5 show the first embodiment of the cooling module according to the invention 4 that a heat sink 3 and a fan 5 includes. The heat sink 3 has a plurality of cooling fins as in the first and second embodiments. Here is the heat sink 3 formed by a block.

Like from the 6 . 7 and 8th can be seen, the fan generates 5 an airflow 51 coming from the air intake side 311 in the air channels 32 enters and then through the first and second air outlet side 311 . 312 as well as the first and second air outlet opening 314 . 315 from the heat sink 3 exit. In this embodiment are in the first and second air outlet opening 314 . 315 a first and second closed page 3142 . 3152 formed, reducing the hot air 32 from the first and second closed side 3142 . 3152 is deflected and through the first and second air outlet opening 314 . 315 from the heat sink 3 exit. Therefore, the heat of the heat sink 3 be quickly dissipated, leaving the heat sink 3 a heat source 6 can cool.

Claims (12)

Heatsink, which can be connected to a fan and a variety of cooling fins ( 31 ), which are spaced apart and air ducts ( 32 ), wherein the cooling fins ( 31 ) an air inlet side ( 311 ), which via the air channels ( 32 ) with a first air outlet side ( 312 ) and a second air outlet side ( 313 ), wherein the first and second air outlet side ( 312 . 313 ) on two opposite sides of the heat sink ( 3 ) and the other two opposite sides of the heat sink ( 3 ) a first air outlet opening ( 314 ) and a second air outlet opening ( 315 ), which via the air channels ( 32 ) with the air inlet side ( 311 ) are connected. Heat sink according to claim 1, characterized in that the first air outlet opening ( 314 ) in the direction of the second air outlet opening ( 315 ) and has a first side which communicates with the air channels ( 32 ) connected is. Heat sink according to claim 1, characterized in that the second air outlet opening ( 315 ) in the direction of the first air outlet opening ( 314 ) and has a second side which communicates with the air channels ( 32 ) connected is. Heat sink according to claim 1, characterized in that the first air outlet opening ( 314 ) a first closed page ( 3142 ) and the second air outlet opening ( 315 ) a second closed page ( 3152 ), which does not interfere with the air channels ( 32 ) are connected. Heat sink according to claim 1, characterized in that the cooling fins ( 31 ) and the heat sink ( 3 ) form. Heat sink according to claim 1, characterized in that the heat sink ( 3 ) is formed by a block. Cooling module comprising a heat sink ( 3 ), which has a plurality of cooling fins ( 31 ), which are spaced apart and air ducts ( 32 ), wherein the cooling fins ( 31 ) an air inlet side ( 311 ), which via the air channels ( 32 ) with a first air outlet side ( 312 ) and a second air outlet side ( 313 ), wherein the first and second air outlet side ( 312 . 313 ) on two opposite sides of the heat sink ( 3 ) and the other two opposite sides of the heat sink ( 3 ) a first air outlet opening ( 314 ) and a second air outlet opening ( 315 ), which via the air channels ( 32 ) with the air inlet side ( 311 ) and a fan ( 5 ), with the air inlet side ( 311 ) of the heat sink ( 3 ) connected is. Heat sink according to claim 7, characterized in that the first air outlet opening ( 314 ) in the direction of the second air outlet opening ( 315 ) and has a first side which communicates with the air channels ( 32 ) connected is. Heat sink according to claim 7, characterized in that the second air outlet opening ( 315 ) in the direction of the first air outlet opening ( 314 ) and has a second side which communicates with the air channels ( 32 ) connected is. Heat sink according to claim 7, characterized in that the first air outlet opening ( 314 ) a first closed page ( 3142 ) and the second air outlet opening ( 315 ) a second closed page ( 3152 ), which does not interfere with the air channels ( 32 ) are connected. Heat sink according to claim 7, characterized in that the cooling fins ( 31 ) and the heat sink ( 3 ) form. Heat sink according to claim 7, characterized in that the heat sink ( 3 ) is formed by a block.