Patent Grant
9297594
This application claims priority to and all the advantages of International Patent Application No. PCT/EP2009/064475, filed on Nov. 2, 2009, which claims priority to French Patent Application No. FR 08/06185, filed on Nov. 6, 2008.
The invention relates to a collector plate for a heat exchanger and to a heat exchanger equipped with such a plate.
It relates more particularly to a collector plate for a heat exchanger comprising a web equipped with openings for the passage of tubes of the heat exchanger and a groove, known as a receiving groove, to accept a header tank cover, able to accept a gasket and part of the cover and having a base and two flanges, respectively an inner flange and an outer flange which are connected to the base.
Heat exchangers comprising a core of tubes and of inserts, two collector plates and two covers are known.
During the manufacture of the heat exchanger, the core of tubes and inserts is first of all assembled. Next, the two collector plates are assembled on the ends of the tubes of the core. This assembly is then placed in a brazing furnace where these various components will be brazed together. Finally, using crimping and with the interposition of a gasket positioned in the groove, a cover is secured to each collector plate to define a header tank capable of collecting the fluid that is circulated through the tubes of the heat exchanger. In a collector plate according to the prior art, the receiving groove is present around the entire periphery of the collector plate.
The fitting of the gasket into this groove is particularly awkward for an operator to perform because of the narrowness of the groove. Such a collector plate leads to a significant loss of time upon assembly, and may even lead to the gasket being incorrectly positioned.
The invention aims to improve the situation.
To this end, it proposes a collector plate like the one defined hereinabove, in which the inner flange is connected to the web and is subdivided into at least two disjointed sections, said two disjointed sections being separated by at least one recess, and the recess between two disjointed portions of the inner flange being at least in the region of a site of the collector plate that is intended to accept a bent part of the gasket.
Such a collector plate therefore does not have an inner flange at least in the region of a bend (or corner) of the outer flange. In other words, the inner flange is provided partially along the edges of the collector plate. Thus, a collector plate according to the invention has more space at least in the region of its corners, so that a gasket can be fitted more easily by an operator.
Particular embodiments of the invention propose that:
The invention also proposes that:
The invention also relates to a header tank for a heat exchanger, comprising at least one cover fixed to a collector plate as described hereinabove.
Particular embodiments of the invention propose that:
The invention also relates to a heat exchanger comprising a collector plate as described above. More particularly, the heat exchanger may comprise a heat exchange core for the exchange of heat between at least two fluids.
One particular embodiment proposes that the heat exchanger comprises at least one cover, said cover comprising an end, known as the foot of the cover, that is introduced into the receiving groove and comprises a protrusion that faces the recess of the inner flange, the protrusion filling the recess of the inner flange so as to create a junction between the two disjointed sections located on each side of the recess.
Further advantages and features of the invention will become more evident from reading the illustrative and nonlimiting description of examples taken from the figures of the attached drawings in which:
As has been illustrated, the invention relates to a collector plate 10 for a heat exchanger. The collector plate 10 comprises a web 12 equipped with openings for the passage of tubes 100 of the heat exchanger and a groove 14, known as the receiving groove for accepting a header tank cover 102, able to accept a gasket 104 and part of the cover known as the foot of the cover. In other words, the groove 14 allows a gasket 104 or the like to be positioned and held relatively securely, once it has been fitted, until it is fixed in position with a cover, more particularly the foot of the cover.
The collector plate 10 has a periphery which here is of substantially rectangular shape having two sides 22 known as long sides and two sides 24 known as short sides.
The body of the collector plate 10 is made of metal, for example aluminum or an aluminum alloy. In other words, the collector plate 10 comes from a strip of sheet metal.
Moreover, all the operations performed on the collector plate of the invention are performed using known industrial processes, particularly pressing, cutting, bending, stamping.
Thus, the collector plate 10 can be viewed as comprising at least two sides situated facing one another, namely respectively the two long sides 22 and the two short sides 24. The two short sides 24 may hereafter be denoted by the term “ends of the collector plate”.
As already indicated above, the web 12 comprises holes (or orifices) to accept the ends of tubes 100 of the heat exchanger and matched to the shape of their ends.
Here, and as may be seen in
In this embodiment, the flanges face toward the inside of the collector plate or, more precisely, toward the inside of the header tank. In other words, once the cover 102 has been mounted on the collector plate 10, the flanges will extend into the volume defined by the collector plate 10 and the cover 102.
One embodiment that has not been depicted makes provision for the flanges to be able to extend not toward the inside of the header tank but toward the body of the tubes 100. In other words, in such a situation, the flanges will be directed toward a heat exchange core comprising tubes and inserts.
These flanges may be formed by punching and turning up the plate or by lancing the plate.
The receiving groove 14 here is in the shape of a U over at least part of the periphery of the collector plate 10 and comprises a base 18 and two flanges 16 and 20 these respectively being an inner flange 16 and an outer flange 20 both of which are connected to the base 18.
In other words, the shape of the groove can be seen as a three-sided structure with a base 18 extending in a first plane and two flanges 16 and 20 substantially perpendicular to said first plane.
The outer flange 20 (which could also be termed the peripheral flange 20) is itself that part of the receiving groove 14 that is furthest away from the holes for the passage of the tubes 100. The outer flange 20 is continuous around the periphery of the collector plate and has a shape comprising substantially straight portions opposite one another in pairs and connected by bends.
The substantially straight portions correspond, in the embodiments illustrated here, to the sides of the collector plate, that is to say the long sides 22 and the short sides 24. The bends themselves coincide with the corners 26 of the collector plate 10.
In other words, the collector plate has an outer flange 20 that comprises four straight portions 20-1 and/or 20-2 that are opposite one another in pairs, each straight portion 20-1 and/or 20-2 being connected to an adjacent straight portion 20-1 and/or 20-2 by a bend 26. The collector plate 10 also has an inner flange 16 positioned at least partially facing said four straight portions 20-1 and/or 20-2 so as to define four recesses 30 facing each bend 26.
One particular embodiment proposes for the inner flange 16 to be connected to the base 18 by a connecting zone comprising a rounded and inclined edge 17 so as not to damage a gasket fitted in the groove 14.
In this embodiment, the outer flange 20 comprises crimping teeth or crenellations 28. These teeth 28 are distributed along the outer flange 20. In other words, the collector plate comprises crimping teeth 28 which are situated at least over part of the end edges of the collector plate, these teeth being able to secure part of the cover by crimping. The crimping teeth 28 may be obtained by cutting out. Other modes of attachment of the cover to the collector plate 10 could be considered.
The inner flange 16 is connected to the web 12. In other words, here, the web 12 and the inner flange are in continuity of material. Put differently, it is that part of the receiving groove 14 which is the closest to the holes for the passage of the tubes 100.
According to the invention, the inner flange 16 is subdivided into at least two disjointed sections, said two disjointed sections being separated by at least one recess 30 and the recess 30 between two disjointed portions of the inner flange 16 being at least in the region of a site of the collector plate 10 that is intended to accept a bent part of a gasket.
In other words, the recess 30 between two disjointed portions of the inner flange 16 is at least positioned facing a bend 26 of the outer flange 20.
Thus, the inner flange 16 can be seen as being formed as an alternation of crenellations spaced apart by gaps. In other words, the inner flange 16 is interrupted at points and, according to the invention, at least at one corner of the collector plate 10.
In the embodiments illustrated here, the disjointed sections of the inner flange 16 are situated facing at least two of said opposing straight portions of the outer flange 20.
In the embodiment illustrated in
The upper level 12-1 can also be dubbed the protruding part or even the “inset” part. The inset part of the collector plate is obtained, for example, by pressing.
The lower level 12-2 may for its part be known as the “flat zone”. What is meant by the expression “flat zone” is that one of the orifices 108 (or openings 108 for the passage of the tubes) is at the lower level of the collector plate (as opposed to the protruding part), that is to say level with the base 18 of the peripheral groove 14 of the collector plate. Put in yet another way, the flat zone is a zone without reliefs, therefore with no groove and no protrusion of any kind, except for the flanges around the tube passage orifices/openings.
The intermediate portion 12-3 may for its part be denoted by the term “inclined-plane part”.
The inclined-plane part may also be obtained by pressing, preferably at the same time as the protruding part (or upper level) that forms the inset is formed.
In other words, in the embodiment illustrated in
In this embodiment, the base 18 of the receiving groove and the lower level 12-2 both extend in the first plane. In other words, the base 18 of the receiving groove and the lower level 12-2 extend in one and the same plane (here, this is the first plane).
The upper level 12-1 itself extends in a plane parallel to the first plane.
Here, the recess 30 is positioned at the end of the collector plate 10. In other words, the recess 30 is situated near the short side 24 of the collector plate 10.
In other words, this recess is positioned facing two bends 26 and a short side 24 of the outer flange, said short side 24 being contiguous with said two bends 26. Put in yet another way, the interrupted portion of the inner flange 16 is in the shape of a U.
According to this embodiment, one of said levels (in this instance the lower level 12-2) is situated level with the recess 30 between two disjointed portions of the inner flange 16.
In this example, the recess of the outer flange 16 is contiguous with the lower level 12-2. In other words, here, the lower level 12-2 and the base 18 are not distinct and form a single level situated in one and the same plane (here, this is the first plane).
The lower level 12-2 comprises, in this embodiment, a passage hole for a tube surrounded by a flange. The flange and/or a tube will allow the gasket 104 to be held in position while the heat exchanger is being assembled. In other words, here, one of said orifices designed for the fixing of the tubes, and situated at the end of the collector plate, is situated in the flat zone. Put in yet another different way, an opening for the passage of an end tube is situated level with the lower level 12-2, the tube and/or the flange of the collector plate surrounding the end tube being capable of holding a gasket in position.
The intermediate portion 12-3 here has a slightly rounded shape and is equipped with two holes for the passage of tubes. In other words, the inclined-plane part 12-3 in this example comprises a plurality of orifices.
Further, and still in this embodiment, this inclined-plane part 12-3 has an inclination that makes an angle β of between 0 and 35° with respect to the horizontal, preferably of between 15° and 25°. Here, in the example chosen for illustrating the invention, the angle is equal to 22°.
Thus, thanks to the presence, at least at one of the ends (or short side 24) of the collector plate, of a flat zone (or a lower level 12-2), there is far more space available than in a collector plate according to the prior art, which means that a gasket can be fitted easily by an operator.
An unillustrated embodiment suggests that the collector plate 10 comprise two lower levels 12-2 each connected to the upper level 12-1 by an intermediate portion 12-3, said lower levels 12-1 being situated respectively at the two opposite ends of the collector plate 10 (or, in other words, in the region of the two short sides 24 of the collector plate 10).
Finally, as
Moreover, the gasket 104 ideally, at least at one of its ends, or else on at least one of its short sides, comprises an end stop 106 intended to come into abutment or contact with the protruding end of the end tube. For preference, this end stop 106 exists on both opposite short sides of the gasket 106. The gasket can be mounted stretched around the end tubes.
Thus, the idea underpinning the invention is that of adapting a collector plate 10 with an inset, or of the type said to have a peripheral groove, retaining all of its advantageous features and reducing its shortcomings, in the region of the ends of the collector plate. Thus, the collector plate according to the invention consists of an inset-type collector plate the ends of which are of the flat collector type.
According to a second embodiment, illustrated in
Here, the inner flange 16 comprises four disjointed portions, each positioned on one of the sides of the collector plate 10. The disjointed portions 34-1, situated each on a short side 24 of the collector plate 10, are situated facing one another. Likewise, the disjointed portions 34-2, each situated on a long side 22 of the collector plate 10, are situated facing one another.
In this embodiment, the web 12 and the receiving groove 14 may be produced in two different components. The two parts will be assembled during the assembly of the heat exchanger.
In other words, in this embodiment, the outer flange 20 comprises four straight portions 20-1 and 20-2 which are opposite one another in pairs, each straight portion being connected to an adjacent straight portion by a bend 26. The inner flange 16 at least partially faces the four straight portions 20-1 and 20-2 so as to define four recesses 30 facing each bend 26 of the collector plate.
The invention also relates to a heat exchanger comprising at least one collector plate as previously described.
In the example illustrated in
The invention is not restricted to the embodiments described hereinabove merely by way of example but encompasses all alternative forms conceivable to a person skilled in the art within the scope of the claims which follow. The alternative forms described hereinabove can be considered separately or in combination with one another.
| Number | Date | Country | Kind |
|---|---|---|---|
| 08 06185 | Nov 2008 | FR | national |
| Filing Document | Filing Date | Country | Kind | 371c Date |
|---|---|---|---|---|
| PCT/EP2009/064475 | 11/2/2009 | WO | 00 | 12/23/2011 |
| Publishing Document | Publishing Date | Country | Kind |
|---|---|---|---|
| WO2010/052194 | 5/14/2010 | WO | A |
| Number | Name | Date | Kind |
|---|---|---|---|
| 4023618 | Kun et al. | May 1977 | A |
| 4159062 | Levenhagen | Jun 1979 | A |
| 5664625 | Letrange et al. | Sep 1997 | A |
| 5758721 | Letrange et al. | Jun 1998 | A |
| 6988544 | Ozaki et al. | Jan 2006 | B2 |
| 7156401 | Merklein et al. | Jan 2007 | B2 |
| 7237605 | Ozaki | Jul 2007 | B2 |
| 20070187277 | Furlong | Aug 2007 | A1 |
| 20080000626 | Sugito et al. | Jan 2008 | A1 |
| 20080121386 | Hakamata et al. | May 2008 | A1 |
| Number | Date | Country |
|---|---|---|
| 2875593 | Mar 2006 | FR |
| 2005326124 | Nov 2005 | JP |
| Entry |
|---|
| English language abstract for FR 2875593 extracted from the EPO machine translation on Dec. 28, 2011, 27 pages. |
| English language abstract for JP 2005326124 extracted from the espacenet.com database on Dec. 28, 2011, 9 pages. |
| International Search Report for Application No. PCT/EP2009/064475 dated Sep. 12, 2009, 5 pages. |
| Number | Date | Country | |
|---|---|---|---|
| 20120097379 A1 | Apr 2012 | US |
