DE202008010976U1 - Cooling fin and cooling module from these cooling fins - Google Patents

Abstract

Cooling fin which consists of a plate (31) having a first side (311), a second side (312) and at least one protruding portion (313) having, the supernatant Section (313) on the first or second side (311, 312) attached is not continuous and has a recess (314) forms.

Description

Technical area

The The invention relates to a cooling fin and a cooling module from these cooling fins, which can reduce the air resistance, so that the heat is dissipated quickly can.

State of the art

With the slope of the performance of the electronic components is the Requirement on the heatsink too elevated. The heat sink is usually from a variety of cooling fins. A high cooling effect is the most important task of the development of the heat sink.

The CPU of the computer generates a high heat during operation, the dissipated must become, about damage the central unit by this heat to avoid. In order to escape the electromagnetic waves prevent the computer case is common closed, so that the exhaustion the heat a problem is.

1 shows a conventional cooling module, which is a set of cooling fins 1 having. The finsink set 1 contains a variety of cooling fins 11 , which are made of sheets and on both sides in each case a fold edge 111 exhibit. The cooling fins 11 are stacked, creating between the adjacent cooling fins 11 one air channel each 112 is formed. On one side of the finset set 1 is a cooling fan 2 attached to the air ducts 112 has. When the cooling fan 2 is rotated, the air flow flows through the air channels 112 of the finsink set 1 to dissipate the heat. Because the air channels 112 are very tight, the air resistance is high, so that the air flow can not flow smoothly, so that the cooling effect is limited.

• 1. enge Luftkanäle,
• 2. höherer Luftwiderstand,
• 3. schlechtere Kühlwirkung.

Therefore, the conventional cooling module has the following disadvantages:

• 1. narrow air channels,
• 2. higher air resistance,
• 3. worse cooling effect.

Out For this reason, in view of the disadvantages of the present inventor Solutions, based on longtime Experience in this area, after a long study, numerous experiments and unceasing improvements to the present invention.

Object of the invention

Of the Invention has for its object to provide a cooling fin, at least has non-continuous protruding portions on one side, the cooling fins be superimposed so that the protruding portions offset are arranged, whereby the air ducts are increased, so that the air resistance is reduced.

These Task is solved by the inventive cooling fin, which consists of a plate, the a first page, a second page, and at least one protruding one Section, wherein the protruding Section is attached to the first or second side, not is continuous and forms a recess with each other. The cooling fins can lie on one another and thus a set of cooling fins form, the supernatant Section of an upper fin with the recess of a lower fin is aligned, whereby between the supernatant Sections of the upper and lower fin at least a first refrigerator is formed.

These The object is further achieved by the cooling module according to the invention, which has a base plate, at least a cooling tube, a cooling fan and a cooling fins set comprises the Grundkplatte can lie on an object to be cooled, for his warmth to absorb, with the cooling tube the heat the base plate on the cooling fins set can conduct, with the cooling fan can generate an air flow through which the heat of the finset set can be dissipated inevitably. Because the supernatant Sections of the finsink set are arranged offset, the air channels are increased, so that the Luftwidertand can be reduced. Therefore, the air flow can heat up quickly dissipate, so the cooling effect of the cooling module elevated becomes.

• 1. reibungslose Luftströmung,
• 2. größere Kühlfläche
• 3. niedrigerer Luftwiderstand,
• 4. bessere Kühlwirkung

The advantages of the invention are described below:

• 1. smooth air flow,
• 2. larger cooling area
• 3. lower air resistance,
• 4. better cooling effect

Brief description of the drawings

1 a perspective view of the conventional solution,

2 a perspective view of the cooling fin according to the invention,

3a an exploded view of the cooling fins set according to the invention,

3b a perspective view of the cooling fins set according to the invention,

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

5 a perspective view of another embodiment of the cooling module according to the invention,

6 a perspective view of yet another embodiment of the cooling module according to the invention.

Ways to execute the invention

in the Following, the invention will be explained in more detail with reference to the accompanying drawings.

Like from the 2 . 3a and 3b it can be seen, there is the cooling fin of the invention 3a from a plate 31 that a first page 311 , a second page 312 and at least one protruding section 313 having. The protruding section 313 can be on the first and / or second page 311 . 312 to be appropriate. The protruding sections 313 are not continuous and together form a recess 314 ,

The plate 31 has two sides on the other 315 . 316 a first fold edge 3151 and a second fold edge 3161 , The plate 31 is with at least one through hole 317 for a cooling tube (not shown) provided.

The cooling fins 3a can lie on top of each other and thus a set of cooling fins 3 form, being between the adjacent cooling fins 3a one air channel each 3b is formed.

The finsink set 3 is by a variety of first fins rib sets 3c and a plurality of second finset sets 3d formed, which are alternately stacked. The first cooling rib sets 3c each contain a plurality of superposed cooling fins 3a (the protruding sections 313 and the recesses 314 the cooling fins 3a are the same). The second finset sets 3d each contain a variety of other superposed cooling fins 3a (the number and position of protruding sections 313 and the recesses 314 are designed differently than in the first cooling fins 3c ).

By the combination of the first cooling fins 3c and the second finset sets 3d the protruding sections are aligned 313 the first finset sets 3c with the recesses 314 the second finset sets 3d , whereby between the protruding sections 313 a first set of cooling fins 3c and the protruding sections 313 another first set of cooling fins 3c at least a first refrigerator 318 is formed. Because the first finset sets 3c and the second finset sets 3d are arranged alternately, the air passages of the fins cooling set 3 increased.

How out 4 it can be seen comprises the cooling module according to the invention 4 a base plate 41 , at least one cooling pipe 42 , a cooling fan 43 and a finsink set 3 , The finsink set 3 is through a variety of cooling fins 3a educated. The cooling tube 42 is with one end through the base plate 41 and with the other end through the cooling fins 3a guided. The cooling fan 43 is on one side of the finset pack 3 attached. Through the air flow of the cooling fan 43 gets the heat of the finset set 3 inevitably dissipated. The Grundkplatte 41 may be on an object to be cooled (not shown) to absorb its heat.

When the cooling fan 43 generates an airflow, the airflow can flow more smoothly through the air ducts 3b of the finsink set 3 flow as the protruding sections 313 of the finsink set 3 are offset, whereby the air passages are increased, so that the air resistance is reduced. Therefore, the air flow can dissipate the heat quickly, so that the cooling effect of the cooling module 4 is increased.

5 and 6 show the other embodiments of the protruding sections 313 and the recesses 314 the cooling fins 3a the cooling module according to the invention. In 5 Aligns the protruding section 313 a cooling fin 3a with the recess 314 the other cooling fin 3a , where the number of the protruding section 313 a cooling fin 3a with the number of recess 314 the other cooling fin 3a is identical.

In 6 Aligns the protruding section 313 a cooling fin 3a with two recesses 314 and a protruding section 313 the other cooling fin 3a , whereby the air ducts are also increased, so that the air resistance is reduced.

The The above description represents only the preferred embodiments of the invention and should not be used as a definition of boundaries and serve the scope of the invention. All equivalent changes and modifications are included to the scope of this invention.

by virtue of the above facts, the invention corresponds in its availability, Progressiveness and novelty fully on the requirements for a utility model.

Claims (10)

Cooling fin made from a plate ( 31 ), which is a first page ( 311 ), a second page ( 312 ) and at least one protruding section ( 313 ), wherein the projecting portion ( 313 ) on the first or second page ( 311 . 312 ) is not continuous and has a recess ( 314 ). Cooling fin according to claim 1, characterized in that the projecting portion ( 313 ) on the first and second pages ( 311 . 312 ) of the plate ( 31 ) is attached. Cooling fin according to claim 1, characterized in that the plate ( 31 ) with at least one through hole ( 317 ) is provided. Cooling fin according to claim 1, characterized in that the plate ( 31 ) on the other two sides ( 315 . 316 ) a first folding edge ( 3151 ) and a second folding edge ( 3161 ) owns. Cooling module comprising a base plate ( 41 ), a cooling tube ( 42 ) having at least a heat receiving portion and a heat releasing portion, wherein the heat receiving portion through the base plate ( 41 ) and the heat dissipation section through the following finset set ( 3 ), and a cooling fins ( 3 ), which has a plurality of cooling fins ( 3a ), each containing a first page ( 311 ), a second page ( 312 ) and at least one protruding section ( 313 ), wherein the projecting portion ( 313 ) on the first or second page ( 311 . 312 ) is not continuous and has a recess ( 314 ), the projecting portion ( 313 ) an upper fin ( 3a ) with the recess ( 314 ) a lower fin ( 3a ), whereby between the protruding sections ( 313 ) of the upper and lower cooling ribs ( 3a ) at least one first cold room ( 318 ) is formed. Cooling module according to claim 5, characterized in that the projecting portion ( 313 ) on the first and second pages ( 311 . 312 ) of the plate ( 31 ) is attached. Cooling module according to claim 5, characterized in that the plate ( 31 ) with at least one through hole ( 317 ) is provided. Cooling module according to claim 5, characterized in that between the adjacent cooling ribs ( 3a ) each an air duct ( 3b ) is formed. Cooling module according to claim 5, characterized in that the plate ( 31 ) on the other two sides ( 315 . 316 ) a first folding edge ( 3151 ) and a second folding edge ( 3161 ) owns. Cooling module according to claim 5, characterized by a cooling fan ( 43 ) on the first or second page ( 311 . 312 ) of the plate ( 41 ) is attached.