DE202007008908U1 - cooling module - Google Patents

Abstract

Cooling module, that from a flat tube heat exchanger (10) and a heat sink (20) consists, wherein the heat sink (20) a connection side (21) for connection to the flat tube heat exchanger (10) and open sides (22), and the flat tube heat exchanger (10) several independent Heat exchange tubes (11).

Description

technical area

The Invention relates to a cooling module, a flat tube heat exchanger which has several independent Heat exchange tubes contains through the cooling effect elevated becomes.

State of technology

Devices, like Fridge, Air conditioning, display, electronic components, etc., which when operating a high heat usually produces one Cooling module, for the heat dissipate. The cooling module usually contains a cooling element with high thermal conductivity, such as copper plate, aluminum plate or heat exchange tube. The cooling element is stationary with the to be cooled Subject in contact and can heat the heat to be cooled Transport the object away.

In the cooling module with a heat exchange tube, the heat exchange tube with the heat-receiving end receives the heat of the object to be cooled and transports this heat to the heat-emitting end. 1 shows this cooling module, which consists of a heat sink 20 and a heat exchange tube 30 consists. The heat sink 20 has a connection page 21 for connection to the heat exchange tube 30 and open pages 22 on. Here is the heat sink 20 formed by a plurality of cooling fins. How out 2 can be seen has the heat exchange tube 30 a round cross-section. Therefore, the heat of the heat exchange tube 30 through the connection side 21 of the heat sink 20 radially from the open sides 22 issued.

3 shows another conventional cooling module, wherein the heat sink 20 formed by a metal block having a plurality of channels 23 and with the connection side 21 on a curved heat exchange tube 30 rests. How out 4 it can be seen, the heat of the heat exchange tube 30 also radially from the open sides 22 of the heat sink 20 issued. Since the contact between the heat exchange tube 30 and the heat sink 20 is linear, the cooling effect is low.

As mentioned above, the heat in the 2 and 4 because of the round cross section of the heat exchange tube 30 radially distributed, causing the heat only in the vicinity of the heat exchange tube 30 concentrated so that of the heat exchange tube 30 wegentfernte area of the heat sink 20 as the four corners, only a little heat can aufnemen. Therefore, the cooling effect is low.

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.

Task of invention

Of the Invention is the object of the invention to provide a cooling module, the one higher cooling effect having.

These The object is achieved by the cooling module according to the invention, which consists of a flat tube heat exchanger and a heat sink, wherein the heat sink a Connection side for connection to the flat tube heat exchanger and having open sides, and the flat tube heat exchanger includes a plurality of independent heat exchange tubes. Thereby can the flat tube heat exchanger the Heat quickly transport to the heat sink, so the cooling effect elevated becomes.

Short description the drawings

1 a perspective view of the conventional solution (1),

2 a sectional view according to 1 .

3 a perspective view of the conventional solution (2)

4 a sectional view according to 3 .

5 a perspective view of the invention,

6 a sectional view according to 5 .

7 a perspective view of another embodiment of the invention,

8th a sectional view according to 7 .

9 a schematic representation of the application of the invention.

Ways to execute the invention

5 shows a preferred embodiment of the invention, which consists of a flat tube heat exchanger 10 and a heat sink 20 consists. The flat tube heat exchanger 10 lies with one end on the object to be cooled 40 ( 9 ) and serves to absorb the heat of the object to be cooled 40 , The heat sink 20 has a connection page 21 for connection to the flat tube heat exchanger 10 and open pages 22 on. In the present embodiment, the heat sink 20 formed by a plurality of cooling fins. The flat tube heat exchanger 10 contains several independent heat exchange tubes 11 and can transport the heat quickly and evenly.

How out 6 it can be seen that the heat exchange tubes 11 of the flat tube heat exchanger 10 arranged parallel to each other and work independently. In the heat exchange tubes 11 a phase-change medium is filled, such as water, coolant, organic solution or their combination. In comparison with the cooling module, which contains only one heat exchange tube, the cooling effect is considerably increased. In the present embodiment, the heat of the flat tube heat exchanger 10 gleichmäßg on the connection side 22 of the heat sink 20 distributed and from the open sides 22 discharged into the ambient air.

The 7 and 8th show a further embodiment of the invention, wherein the heat sink 20 formed by a metal block having a plurality of channels 23 having. The connection side 21 of the heat sink 20 contacted with a larger area the flat tube heat exchanger 10 , which reduces the heat of the flat tube heat exchanger 10 fast and even from the open sides 22 of the heat sink 20 is discharged into the ambient air.

9 shows the application of the invention, wherein the flat tube heat exchanger 10 with one end directly or indirectly (via a cooling plate or a thermocouple) on the object to be cooled 40 (Central unit) rests. The heat exchange tubes 11 The heat can move quickly in the direction of the arrow on the heat sink 20 transport. If one of the heat exchange tubes 11 damaged, the heat transfer is not affected. Therefore, the reliability is higher in comparison with the conventional solutions.

In summary, it should be noted that the invention by the flat tube heat exchanger 10 , which has several independent heat exchange tubes 11 contains the heat quickly on the heat sink 20 can transport, so that a higher cooling effect is achieved.

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.

Claims (25)

Cooling module, which consists of a flat-tube heat exchanger ( 10 ) and a heat sink ( 20 ), wherein the heat sink ( 20 ) a connection page ( 21 ) for connection to the flat tube heat exchanger ( 10 ) and open pages ( 22 ), and the flat tube heat exchanger ( 10 ) several independent heat exchange tubes ( 11 ) contains. Cooling module according to claim 1, characterized in that the heat exchange tubes ( 11 ) of the flat tube heat exchanger ( 10 ) are arranged parallel to each other. Cooling module according to claim 1 or 2, characterized in that in the heat exchange tubes ( 11 ) a phase-change medium is filled. cooling module according to claim 3, characterized in that the phase-variable Medium water, coolant, organic solution or their combination. Cooling module according to claim 1 or 2, characterized in that the heat sink ( 20 ) is formed by a plurality of cooling fins. Cooling module according to claim 3, characterized in that the heat sink ( 20 ) is formed by a plurality of cooling fins. Cooling module according to claim 4, characterized in that the heat sink ( 20 ) is formed by a plurality of cooling fins. Cooling module according to claim 1 or 2, characterized in that the heat sink ( 20 ) is formed by a metal block having a plurality of channels ( 23 ) having. Cooling module according to claim 3, characterized in that the heat sink ( 20 ) is formed by a metal block having a plurality of channels ( 23 ) having. Cooling module according to claim 4, characterized in that the heat sink ( 20 ) is formed by a metal block having a plurality of channels ( 23 ) having. Cooling module according to claim 5, characterized in that the heat sink ( 20 ) is formed by a metal block having a plurality of channels ( 23 ) having. Cooling module according to claim 6, characterized in that the heat sink ( 20 ) is formed by a metal block having a plurality of channels ( 23 ) having. Cooling module according to claim 7, characterized in that the heat sink ( 20 ) is formed by a metal block having a plurality of channels ( 23 ) having. Cooling module according to claim 1 or 2, characterized in that the flat-tube heat exchanger ( 10 ) with one end directly or indirectly on an object to be cooled ( 40 ) rests. Cooling module according to claim 3, characterized in that the flat tube heat exchanger ( 10 ) with one end directly or indirectly on an object to be cooled ( 40 ) rests. Cooling module according to claim 4, characterized in that the flat tube heat exchanger ( 10 ) with one end directly or indirectly on an object to be cooled ( 40 ) rests. Cooling module according to claim 5, characterized in that the flat tube heat exchanger ( 10 ) with one end directly or indirectly on an object to be cooled ( 40 ) rests. Cooling module according to claim 6, characterized in that the flat tube heat exchanger ( 10 ) with one end directly or indirectly on an object to be cooled ( 40 ) rests. Cooling module according to claim 7, characterized in that the flat tube heat exchanger ( 10 ) with one end directly or indirectly on an object to be cooled ( 40 ) rests. Cooling module according to claim 8, characterized in that the flat tube heat exchanger ( 10 ) with one end directly or indirectly on an object to be cooled ( 40 ) rests. Cooling module according to claim 9, characterized in that the flat tube heat exchanger ( 10 ) with one end directly or indirectly on an object to be cooled ( 40 ) rests. Cooling module according to claim 10, characterized in that the flat tube heat exchanger ( 10 ) with one end directly or indirectly on an object to be cooled ( 40 ) rests. Cooling module according to claim 11, characterized in that the flat tube heat exchanger ( 10 ) with one end directly or indirectly on an object to be cooled ( 40 ) rests. Cooling module according to claim 12, characterized in that the flat tube heat exchanger ( 10 ) with one end directly or indirectly on an object to be cooled ( 40 ) rests. Cooling module according to claim 13, characterized in that the flat tube heat exchanger ( 10 ) with one end directly or indirectly on an object to be cooled ( 40 ) rests.