FR2607911A1 - Fluid-circulating heat sink and metal section enabling it to be produced - Google Patents

Abstract

Heat sink for installations including electronic and/or electrical power components. It is exhibited in the form of a sealed (fluid-tight) chamber 1 including parallel channels 2 inside which the coolant circulates, the said chamber 1 being constituted by joining two metal sections 3 which have: - two edges 4, 5, the surfaces of which have complementary profiles enabling them to be juxtaposed against each other, sealing (fluid-tightness) being achieved by welding along these edges; - in the central portion lying between the two aforementioned edges 4, 5, at least one of the sections has parallel angled edges (ridges) 6 in relief, the height and cross-section of which are such that, when the two sections are juxtaposed in order to form the sink 1, the end of each angled edge (ridge) 6 bears against the surface of the other section.

Description

FLUID CIRCULATION AND PROFILE HEAT DISSIPATOR
METALLIC ALLOWING ITS REALIZATION.

 The present invention relates to a new type of device for ensuring the cooling of various installations, device which, in the following description, will be designated by the expression "heat sink"; it also relates to a new type of profile. metallic allowing the realization of such a dissipator.

 Many industrial installations include electrical and / or electronic power components which give off heat and which therefore require the use of means allowing them to be cooled. To do this, these installations are combined with assemblies called "heat sinks" which are essentially in the form of a block, based on a material that is a good conductor of heat (aluminum for example) and inside which circulates a refrigerant such as that marketed under the name "FREON".

 To date, in order to have a good heat exchange and especially taking into account sealing problems, such blocks are generally made in one piece, the conduits in which the refrigerant circulates being machined in the mass of the block. . Consequently, it is easily understood that such assemblies are complex to produce and above all that their length is limited.

 The present invention aims to overcome these drawbacks and relates to a new type of dissipator which not only has great efficiency, but also is easy and economical to produce and above all can have any length depending on the application envisaged.

In general, the invention therefore relates to a new type of heat sink with fluid circulation, usable in particular on installations comprising electronic and / or electrical power components, this sink being in the form of a chamber watertight comprising parallel channels inside which the refrigerant circulates and it is characterized in that said chamber is constituted by the assembly of two metal profiles, good conductors of heat, said profiles having a structure such that they are present
- two edges whose surfaces have complementary profiles making it possible to juxtapose them one against the other, the sealing being produced by welding along these edges
- In the central part between the two aforementioned edges, at least one of the profiles has parallel ridges in relief, the height and section of which are such that when the two profiles are juxtaposed to constitute the dissipator, the end of each edge comes to rest against the surface of the other profile.

If, in accordance with the invention, the dissipator can be constituted by the assembly of two metal sections, only one of which has parallel edges defining the channels, the other having a flat surface which comes to bear against the ends of the edges when the profiles are juxtaposed, according to a preferred embodiment of the invention, the dissipator is made from two identical metal profiles, each comprising identical parallel ridges in relief, the structure of said edges being such
. that the volume they occupy is less than
volume of vacuum remaining between two edges
consecutive,
. that the lateral faces of said edges are
flat,
. and that these edges have a section and a height
such as when two identical profiles are
juxtaposed to constitute the conformal dissipator
to the invention, they can be joined by
res, the end of each edge coming to bear
in the corner of the base of the other edge which
is associated.

According to such an embodiment from identical profiles, advantageously and in practice
- the elementary metal sections intended to form the heat sink have a section such that, after juxtaposition of two sections, the block thus formed has a parallelepiped section
the surfaces of the lateral edges of said profiles have complementary profiles in the form of plane bearings at two different levels
- the edges provided in the central part have a triangular section which makes it possible to obtain channels between the pairs of juxtaposed edges having a parallelepipedic section
- the end of said edges comes, when the assembly is formed, to fit into a complementary recess provided at the base of the edge which is associated with it, which allows hooking at the end of each edge ensuring a better distribution of the load thereby avoiding any slipping or buckling
- side rails can be provided along the edges to facilitate the mounting and fixing of the dissipator as well as the carrying out of the welding operation ensuring the assembly and sealing between two sections.

The invention and the advantages which it brings will however be better understood thanks to the exemplary embodiments given below by way of indication but not limitation and which are illustrated by the appended diagrams in which:
- Figures la and lb are cross-sectional views of heat sinks made in accordance with the invention from two profiles, only one of which has edges for making the fluid circulation channels
- Figure 2 illustrates, also in cross section, a heat sink made by assembling two identical sections, each having edges in its central part
- Figure 3 illustrates, in perspective, an elementary profile allowing the production of such a sink according to Figure 2
- Figure 4 is an enlarged view of the circled area and referenced A in Figure.2 showing a detail of embodiment of such a sink.

 In the various embodiments which will be given below in the following description, the same references will be used to designate the same elements.

 Figures la, lb and 2 illustrate, seen in cross section, different types of heat sinks with fluid circulation according to the invention. If we refer to these figures, these dissipators are in the form of a sealed chamber, designated by the general reference (1) and which comprises, along its length, parallel channels (2) for the circulation of the fluid refrigerant. At each end of this chamber, are of course arranged means for ensuring the distribution and the supply of the fluid inside the channels (2).

 According to the invention, such a heat sink (1) is produced by the assembly of two elementary sections, obtained by extrusion, and which are made of metal which is a good conductor of heat, for example aluminum.

These elementary sections can be either identical as illustrated in the example illustrated by FIGS. 2 to 4 (in which case they will be designated by the same reference 3)), or possibly, as illustrated in the two modes of embodiment which is the subject of Figures la and lb, have a section different from each other (in which case they will be designated respectively by the references (3a, 3b)).

 In both cases (identical or different elementary profiles), said profiles have a structure such that they can form, without any prior machining, a chamber open on two opposite sides (end of channels 2) and sealed after welding on the other two sides, this being obtained by giving them a configuration such that their two edges (4,5) have surfaces having complementary profiles making it possible to juxtapose them one against the other in a sealed manner, the sealing being ensured by welding the along said edges.

 Furthermore, at least one of the profiles (profile 3a in the case of FIGS. 1a and 1b) have in the central part between the two edges (4.5) mentioned above parallel ridges (6) (or fins) in relief and whose height and section are such that when said sections are juxtaposed to form the dissipator, the end (7) of said edges comes to bear against the surface (8) of the other section.

 In the embodiments according to which two different types of profiles (3a, 3b) are used to make the dissipator, the edges (6) that the profile (1) has can have sections of different shapes (rectangular, sinusoidal in shape) , triangle ..).

The lateral faces of the edges (6) can be either smooth or have reliefs increasing the exchange surface. Finally, if the edges are preferably regularly spaced and have identical sections, it can be envisaged to produce profiles comprising edges more or less spaced from each other and / or of different sections making it possible to produce fluid circulation channels. smaller.

 Figures 2, 3 and 4 illustrate a preferred embodiment of a heat sink according to the invention, sink made from two identical sections (3).

 In such an embodiment, the profile (3 ') has two lateral edges (4,5) whose surfaces intended to come into contact with each other, have complementary profiles allowing them to be juxtaposed in a sealed manner. In this embodiment, in order to have a very good seal, the edge (4) is located at a level higher than the plane XX (plane of symmetry of the dissipator after production), while the edge (5) is, as for him, located at a corresponding lower level. The bearing surfaces of the edges (4) and (5) are in the form of two bearings respectively (9,10,11,12), interconnected by inclined faces (13,14). By assembling two elementary sections (3), a chamber (1) of parallelepipedal shape is therefore formed. Furthermore, if necessary, as shown in the example illustrated, a side cage or slide (15) can be provided in one of the edges. Such a cage not only makes it easier to assemble and fix the dissipator during its use but also promotes the production of the welds (16) along the junction line between the two elementary profiles (3).

 In this embodiment, in order to be able to produce inside the said sealed chamber thus formed the channels (2) allowing the circulation of the refrigerant, in the central part of the profile comprised between the edges (4) and (5) are provided with parallel parallel edges (6). These edges, in the present case, have a triangular section and the volume they occupy is less than the volume of the free space (17) provided between two consecutive edges (see FIG. 3). The height of these edges is such that they can, when two identical sections (3) are juxtaposed to form the chamber (1), come to bear against each other in pairs as illustrated in Figure 1 and, by elsewhere, take support in the angle (18) at the base of the edge associated with it. If it can be envisaged to have a flat bottom (n) between the free spaces (17), it is however preferable , as shown in FIG. 4, to provide at the junction angle between the end of one edge and the base of the other edge with a continuous groove which allows hooking at the end of each edge and, in addition, improves the distribution of the loads which such an assembly can undergo and avoids by the same any risk of slipping or buckling of a tooth. In general, a groove having a radius between -0.5 and 1 mm, for example of the order of 0.8 mm is perfectly suitable.

 Compared to previous heat sinks, the heatsinks according to the invention have very many advantages by the fact that they are perfectly sealed and above all that they can be obtained from profiles which can have very long lengths and which do not require no prior machining during the production of the assembly.

 Of course, the invention is not limited to the exemplary embodiments described above, but it covers all the variants produced in the same spirit. Thus, the dimensions of the profile will be adapted according to the applications. Furthermore, if it is advantageous when making a dissipator from two identical profiles to have edges of triangular shape as described above, it could be envisaged to have other types of profile, for example edges of parallelepiped section. It is imperative that in all cases, the end of an edge can bear against the bottom of the edge associated with it. Furthermore, it is advantageous for the lateral faces of said edges to be flat in order to have perfect contact between them to ensure sealing.

Claims (7)

 1 / Fluid circulation heat sink usable in particular on installations comprising electronic and / or electrical power components, this sink being in the form of a sealed chamber (1) comprising parallel channels (2) to the inside of which the refrigerant circulates, characterized in that said chamber (.1) is constituted by the assembly of two identical (3) or different metal sections (3a, 3b), good conductors of heat, said sections having a structure as they present  - two edges (4,5) whose surfaces have complementary profiles making it possible to juxtapose them one against the other, the sealing being produced by welding along these edges  - In the central part between the two edges (4,5) above, at least one of the profiles has edges (6) parallel in relief, whose height and section are such that when the two profiles are juxtaposed to form the sink (1), the end (7) of each edge (6) comes to bear against the surface (8) of the other profile.  2 / heat sink according to claim 1, characterized in that it consists of two identical sections (3), each having identical edges (6) in parallel relief, the structure of said edges (6) being such  . that the volume they occupy is less than  volume of vacuum remaining between two edges  consecutive #,  . that the lateral faces of said edges are  flat,  and that these edges (6) have a section and a  height such as when two identi profiles  that (3) are juxtaposed to constitute the  heatsink according to the invention, they can  join in pairs, the end of each edge  coming to rest in the corner of the base of  the other edge associated with it.  3 / heat sink according to one of claims 1 and 2, characterized in that the elementary metal profiles (3a, 3b) or (3) which compose it have a section such that after juxtaposition, the block thus formed has a section of parallelepiped shape.  4 / heat sink according to one of claims 2 and 3, characterized in that the edges (6) provided in the central part of the profiles (3) have a triangular cross section for obtaining channels (2) between the pairs of juxtaposed edges having a parallelepiped section.  5 / A heat sink according to claim 4, characterized in that the end of the edges fits into a complementary recess provided at the base of the edge associated with it.  6 / Heatsink. according to one of claims 1 to 5, characterized in that side rails are provided along the edges in order to facilitate mounting and fixing.  7 / metal profile allowing the production of a heat sink according to one of claims 1 to 6, characterized in that it is obtained by extrusion and that it has two lateral edges (4,5), the on faces have complementary profiles, parallel edges (6) being provided between the edges (4,5), the height of these edges being such that they can, when two identical profiles (3) or different (3a, 3b ) are juxtaposed to bear against the surface of the other profile.