DE202011050698U1 - Heat pipe assembly - Google Patents

Abstract

A heat pipe assembly comprising: a heat transfer block (1) having a surface on which at least one heat pipe groove (12) is concave, with at least one attachment ridge (120) protruding from the at least one heat pipe groove; and a heat pipe (2) which is pressed into the at least one heat pipe groove, the heat pipe being pressed in from the fastening ridge to form a suitable indentation.

Description

The present invention relates to a heat dissipation structure, and more particularly to a heat pipe assembly.

A heat transfer block is often used heat pipes to improve the heat transfer performance. A soldering material is often used for fixing heat pipes to respective heat pipe grooves of the heat transfer block. Alternatively, heat pipes may be fixed to respective heat pipe grooves of the heat transfer block by a solderless press-fitting method. These heat pipe grooves can be configured to give arcuate or oval cross sections. When the heat pipes are pushed into respective heat pipe grooves, the heat pipes are press fit to prevent accidental disconnection. However, since the heat pipe grooves have arcuate or oval cross sections, the heat pipes tend to disengage or, in the absence of solder or adhesives, are inadvertently forced out of position. Further, when more than one heat pipe is used, oval heat pipe grooves cause these heat pipes to be spaced further apart. Due to this limitation, heat pipes can not be arranged close to each other. On the other hand, when soldering material or paste is used to fix the heat pipes, the following problems may occur. If not enough soldering material or paste is used, the heat pipes may be loosely attached. However, if too much solder or paste is used, then the excess amount may overflow the grooves, causing visible blemishes for the users. Another disadvantage is z. For example, increasing the cost of materials and manufacturing.

In order to address the above problems, the inventor, through his industrial experience and academic research, endeavors to develop the present invention which can effectively improve the above-described limitations.

The present invention has been made in view of the above circumstances. It is an object of the present invention to provide a heat pipe assembly without the use of solder material, in which heat pipes can be pressed into respective heat pipe grooves to avoid displacements. The heat pipe grooves may be bent in a semicircle to effectively group the heat pipes.

To accomplish these and other objects of the present invention, the heat pipe assembly includes a heat transfer block and at least one heat pipe press fit therein. The heat transfer block has a surface in which a heat pipe groove is concave. A mounting ridge protrudes from the heat pipe groove and the heat pipe is pressed into the heat pipe groove. The mounting ridge presses into the surface of the heat pipe and creates a dent in it, thereby securing the heat pipe.

1 is an assembly view of the present invention.

2 Fig. 10 is an assembly view of a heat pipe assembly for a first embodiment of the present invention.

3 Figure 11 is an assembled view of heat pipes with a heat transfer block for the first embodiment of the present invention prior to flattening.

4 FIG. 13 is an assembled view of the heat pipes with the heat transfer block for the first embodiment of the present invention after flattening. FIG.

5 Fig. 13 is a schematic view of heat pipes with a heat transfer block before mounting for a second embodiment of the present invention.

6 Fig. 12 is a schematic view of heat pipes having a heat transfer block after mounting for the second embodiment of the present invention.

7 Fig. 10 is a schematic view of heat pipes with a heat transfer block before mounting for a third embodiment of the present invention.

8th Fig. 12 is a schematic view of heat pipes having a heat transfer block after mounting for the third embodiment of the present invention.

9 Fig. 10 is a schematic view of heat pipes having a heat transfer block after mounting for a fourth embodiment of the present invention.

The various objects and advantages of the present invention will become more apparent from the following detailed description when taken in conjunction with the accompanying drawings. However, the accompanying drawings are for reference and explanation only and are not intended to limit the scope of the present invention.

First, it will open 1 Reference is made showing a heat pipe assembly of the present invention. The heat pipe assembly includes a heat transfer block 1 and at least one heat pipe pressed into it 2 for improving the heat transfer.

The heat transfer block 1 Can be made of copper, aluminum or other materials with good thermal conductivity. The heat transfer block 1 , the at least one underside 10 for attachment to a heat source and an upper side formed opposite thereto 11 has, can serve as the basis for a heat sink. According to this embodiment, the heat pipe 2 on the bottom 10 of the heat transfer block 1 attached and the top 11 of the heat transfer block 1 is also with multiple heat dissipation fins 3 provided to form a heat sink.

Now it will open 2 combined with 1 Referenced. There are several heat pipe grooves 12 concave on the bottom 10 of the heat transfer block 1 educated. Their number is the same as that of the heat pipes 2 , However, it should be understood that the construction of the heat pipe grooves 12 at the bottom surface 10 of the heat transfer block 1 is only a non-limiting example. The cross section of each heat pipe groove 12 is arcuately shaped so that it is slightly larger than a semicircle around the heat pipe 2 to press. At least one fastening ridge 120 stands by every heat pipe groove 12 in front. The fastening ridge 120 runs longitudinally along the length of the heat pipe groove 12 ,

Now on the 3 and 4 and again on the 1 and 2 Referenced. When the heat pipes 2 into the respective heat pipe grooves 12 be pressed, then the fastening ridge 120 to the concern to the appropriate heat pipe 2 forced and impressed, so an impression 20 to train it. Due to the fastening ridge 120 is the original contact surface of each arcuate heat pipe groove 12 no longer round, causing a displacement or a loosening of the heat pipes 2 from the heat pipe grooves 2 is prevented. If no soldering material is used, then leave it the fixing burrs 120 to, the heat pipes 2 in a solderless manner, press-fitted firmly directly on the heat transfer block 1 to arrange. Further, the exposed part of each heat pipe becomes 2 when forming a heat absorbing surface 21 flattened. The heat absorbing surfaces 21 can coplanar with the bottom 10 of the heat transfer block 1 be formed for a smooth contact with the heat source.

It will now be on the 5 and 6 Reference is made to show a second embodiment of the present disclosure. This second embodiment is substantially similar to the above-mentioned first embodiment, except that the second embodiment has a plurality of spaced-apart fastening ridges 120 includes. The respective number of fixing burrs 120 is evenly distributed. Due to a higher number of fastening ridges 120 Can the connection stability between the heat pipes 2 and the heat transfer block 1 be improved.

It will now be on the 7 and 8th Reference is made, which illustrate a third embodiment of the present invention. This third embodiment is substantially similar to the above-mentioned second embodiment, except that the fixing ridges 120 in this third embodiment closer to the corner or at two opposite corners of the heat pipe grooves 12 to maintain the connection stability between the heat pipes 2 and the heat transfer block 1 to improve, with the fastening burrs 120 inside against the heat pipes 2 to press.

The 9 illustrates a heat pipe assembly according to a fourth embodiment of the present invention. This fourth embodiment is a combination of the above-mentioned second and third embodiments and has the advantages of both embodiments.

The heat pipe assembly of the present invention is obtained on the basis of the foregoing constructions.

In summary, a heat pipe assembly having a heat transfer block and at least one heat pipe pressed thereon is disclosed. The heat transfer block has a surface. A heat pipe groove is concave on the surface. A mounting ridge protrudes from the heat pipe groove. The heat pipe is pressed into the heat pipe groove and the mounting ridge presses into the heat pipe and forms a depression on it. Thus, the heat pipe is tightly attached to the heat transfer block. With the present invention, the above-mentioned objects can be achieved and problems associated with conventional heat pipe assemblies can be solved. The present invention is novel and not obvious and meets the requirements for utility model applications. Therefore, the present utility model application is filed for obtaining a utility model for the purpose of protecting the intellectual property rights of the inventor.

The description above illustrates only the preferred embodiments of the present invention; however, the characteristics of the present invention are by no means limited thereto. Any changes or modifications that occur to those skilled in the art are deemed to be within the scope of the present invention and as described by the following claims.

Claims (10)

Heat pipe assembly comprising: a heat transfer block ( 1 ) with a surface on which at least one heat pipe groove ( 12 ) is concave, wherein at least one fastening ridge ( 120 ) projects from the at least one heat pipe groove; and a heat pipe ( 2 ) which is pressed into the at least one heat pipe groove, wherein the heat pipe from the mounting ridge is pressed to form a matching indentation. A heat pipe assembly according to claim 1, wherein the surface is a floor surface ( 10 ) of the heat transfer block. A heat pipe assembly according to claim 1, wherein said at least one heat pipe groove ( 12 ) of the heat transfer block is bent slightly larger than semicircular. A heat pipe assembly according to claim 1, wherein on the at least one heat pipe groove ( 12 ) more than a fastening ridge ( 120 ) is trained. A heat pipe assembly according to claim 4, wherein the mounting ridges ( 120 ) are spaced apart on the heat pipe groove. A heat pipe assembly according to claim 1, 4 or 5, wherein the mounting ridge ( 120 ) extends longitudinally along the length of the corresponding heat pipe groove. A heat pipe assembly according to claim 1, 4 or 5, wherein the mounting ridge ( 120 ) is disposed adjacent to a corner of the corresponding heat pipe groove. Heat pipe assembly according to claim 4 or 5, wherein the fastening ridges ( 120 ) are arranged near respective corners of the heat pipe groove. Heat pipe assembly according to claim 1, wherein the number of at least one heat pipe ( 12 ) is increased to more than one and wherein an equal number of heat pipe grooves is formed on the heat transfer block. A heat pipe assembly according to claim 1, wherein the at least one heat pipe ( 12 ) and the heat transfer block are held in direct contact.

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