The present invention relates to the field of seals.
More particularly, it relates to an annular seal intended to be located in a motor vehicle heat exchanger.
A motor vehicle heat exchanger generally comprises a collector box, the collector plate whereof is connected to heat exchanger tubes of a bundle of tubes.
The collector plate is most commonly provided with a channel delimited by two concentric annular edges in which an annular seal is located.
When the plate does not have a channel of this kind, the seal is configured to be stretched between two opposite supports, generally the ends of the outermost tubes of the tube bundle or also of the flanges positioned at the two ends of the bundle.
In the two cases, the seal finds a support, channel, tube or flange on either side of the tube bundle.
This seal therefore comprises two opposite support parts intended to cooperate with the supports, and two connecting parts joining the support parts together.
The seal generally comprises an annular bead extending in the support and connecting parts. This annular bead, having a circular cross section, is intended to be elastically deformed radially by axial compression which is substantially perpendicular to a plane parallel to the annular shape of the seal.
The presence of the deformable joint between the cover of the collector box and the collector plate allows the seal to be made between the cover and the collector plate, between which the seal is compressed.
It will be noted, as specified above, that a circular rather than an oval cross section is generally chosen for the bead.
In fact, when the seal is compressed, the oval section is less stable because it has a tendency to pivot locally in an undesirable manner, something that may lead to sealing defects.
The material from which the seal is made (most commonly a polymer) can be deformed, while still being relatively non-compressible. The capacity of the bead to be flattened is therefore limited by the space assigned to it, in particular by the dimensions of the channel when the seal is placed in it. If the space is not large enough, the seal cannot flatten sufficiently at certain points to balance them out. This may result in sealing defects.
The aim of the invention is therefore to avoid these sealing defects and to limit the dimensions of the space assigned to the seal, in particular the dimensions of the channel, in order to limit the size of the heat exchanger.
To this end, the object of the invention is an annular seal for a motor vehicle heat exchanger, intended to be stretched between two opposite supports that it surrounds, comprising:
As the seal comprises a bead, the cross section whereof has a smaller radial dimension in the support parts, its radial size in the median plane following compression will be smaller.
This allows the width of the channel in which the seal is to be located to be limited; in fact it allows the creep of the bead extending in the connecting parts towards the smaller support parts.
Hence, a seal of this kind therefore allows the manufacturing tolerances of the collector box and of the collector plate to be more effectively balanced and the sealing defects of the heat exchanger thereby to be reduced without having to increase the dimensions thereof, while it remains stable.
Advantageously, each support part comprises a radial extension of the bead forming a support heel on the corresponding support.
The support heel allows the stability of the annular bead in the support parts to be improved still further.
According to a particular embodiment, the annular bead has a circular cross section in the connecting parts.
According to a particular embodiment, the annular bead has an oval cross section in the support parts.
The oval shape provides the bead with available space for the greatest compression, whereas the circular shape gives the bead greater stability.
Moreover, the choice of these sections has the advantage that the transition between these two shapes is easy to achieve and can be done continuously.
Ultimately, it will be noted that in the support parts the bead with the oval section is stabilized by the supports and has less of a tendency to pivot than in the connecting parts.
According to a particular embodiment, whereas the seal is stretched between the two supports:
According to a particular embodiment, in the transitional sub-parts the cross section of the bead changes from the adjacent end of the adjacent connecting part up to the adjacent end of the support sub-part.
The invention likewise relates to an exchanger comprising a collector box connected to heat exchange tubes and comprising a cover, a collector plate, and a seal, as previously described, inserted between the cover and the collector plate.
According to a particular embodiment, the complementary member of the exchanger is a collector plate and comprises two channels delimited by an annular external edge common to the two channels and two separate internal edges delimiting the two channels, respectively, the annular seal being disposed in the two channels.
According to a particular embodiment, the support associated with a support part of the seal is formed by the external contour of a first support tube of the heat exchanger, the support part surrounding said first support tube.
In a particular embodiment, each support part rests against a secondary support formed by a second adjacent support tube of the first support tube, in such a manner that said support part comprises a reinforcing part extending between the first and the second support tubes.
The reinforcing part makes it possible to prevent the material of the bead from creeping outside the support parts when the seal is stretched between the two supports. In effect, as the reinforcing part bears against the second support tube, it exerts reactive forces to the stress towards the support parts and allows the creep of the material in the direction of the connecting parties to be resisted.
Advantageously, the collector plate comprises a channel delimited by two substantially concentric annular edges, the annular seal being disposed in the channel.
The invention will be better understood on reading the following description provided simply by way of example and given with reference to the drawings in which:
A first embodiment of a heat exchanger 1 according to the invention is depicted in
The heat exchanger 1 comprises a collector box, or water box, connected to flat heat exchange tubes 2 which are parallel to one another. This collector box comprises a collector plate 4 and a cover. The collector plate 4 is substantially rectangular in shape.
The heat exchanger 1 comprises two seal paths 5 extending along the periphery of the collector plate 4, delimited by an annular outer edge 6, generally substantially rectangular in shape, shared by the two paths 5. Towards the inside, the paths 5 are delimited by the tubes 2.
An annular seal 10 according to a first embodiment of the invention is disposed along two paths 5 in such a manner as to be inserted between the cover foot 11 (partially represented in
The annular joint 10 is represented in
In this stretched position, the annular seal 10 has an annular general shape similar to that of the periphery of the collector plate 4, and is therefore substantially rectangular.
The annular seal 10 comprises an annular bead 14 intended to be elastically deformed by axial compression substantially perpendicular to a plane parallel to the annular form of the seal 10, in other words perpendicular to the plane of the collector plate 4.
The annular seal 10 comprises two opposite support parts 16 each intended to cooperate with the support tubes 12, and two connecting parts 18 linking the support parts 16 together, respectively.
In this stretched position between the two support tubes 12, the connecting parts 18 are substantially straight due to the fact that the seal 10 is substantially rectangular in shape.
Moreover, each support part 16 comprises a support sub-part 20 which is substantially straight and curved transitional sub-parts 22 between the connecting parts 18 and the support sub-part 20.
The cross section of the bead 14 between each support part 16 and the connecting parts 18 to which it is joined changes in such a manner that its dimension measured in a median plane of the seal 10 parallel to the annular form of the seal 10, in other words the radial dimension, is smaller in the support part 16 than in the connecting parts 18.
Hence, in the support parts 16 the bead 14 requires less space to spread out under the effects of compression than in the connecting parts 18.
The bead 14 therefore has space to spread out under the effects of compression in the centrifugal direction indicated by the arrows C, taking account of the annular shape of the seal 10. This allows the seal 10 to create the seal between the collector plate 4 and the cover foot 11 of the collector box (see
Moreover, the bead 14 remains stable in the support parts 16 as it is held by the support tubes 7 and therefore there is little tendency for it to pivot.
The cross section of the bead 1 changes in the transitional sub-parts 22.
Hence, in the first embodiment represented in
In a second embodiment of the annular seal 10 depicted in
In the two embodiments illustrated in
When the annular seal 10 is stretched between the support tubes 12, as shown in
An exemplary change in the cross section of the bead 14 can be seen (in the non-flattened state) in
In the support sub-part 20, the bead 14, as represented in
When the seal 10 is compressed, this oval shape leaves the bead 14 of the support sub-parts 20 a larger deformation space 27 than if it had been circular in section, as is the case with the bead 14 in the connecting parts 18 and, to a lesser extent, the transitional sub-parts 22.
Preferably in each support part 16 and, more particularly, in each support sub-part 20, the seal 10 comprises a radial extension of the bead 14 forming a support heel 28 on the corresponding support tube 12. It will be noted that, in the example illustrated in
In the connecting parts 18, the bead 14, as represented in
And in these connecting parts 18, the bead 14 is stable thanks to its circular section.
When the seal is flattened by the cover foot 21, it may extend towards the tube 2 and, in particular, towards the collar 29.
In the transitional sub-parts 22, the bead 14, as represented in
When the seal 10 is compressed, this allows the bead 14 of the transitional sub-parts 22 to be left a larger deformation space 27 than the bead 14 of the connecting parts 18.
In these transitional sub-parts 22, the bead 14 has a deformation space 27 which is likewise larger than in the support sub-parts 20, as the seal does not have a support heel.
According to a variant of the embodiment, the section of the seal in the connecting parts 18 may exhibit another shape, in particular it may be oval with an intermediate shape between the oval of the transitional parts and the circular section.
According to another variant of the embodiment depicted in
In a second embodiment of the heat exchanger 1 according to the invention, as represented in
An annular seal 10 according to a third embodiment of the invention is disposed in the channel 30.
The annular seal 10 is similar to the seal according to the first or the second embodiment, except for the presence of the reinforcing sub-part 26.
In effect, since the channel 30 extends over the entire contour of the collector plate 4 and has a generally annular shape, it allows the material creep imbalances between the connecting parts 18 and the supporting parts 16 to be limited when the seal 10 is compressed.
According to another embodiment which is not shown, the support of the annular seal is created only on the tube. According to another embodiment, the annular seal rests only on the collar.
The invention is not restricted to the embodiments shown and other embodiments will appear clear to the person skilled in the art.
Hence, in variants which are not shown, the cross section of the annular bead changes from a square shape in the connecting parts into a rectangular shape in the support parts.
Number | Date | Country | Kind |
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1553744 | Apr 2015 | FR | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2016/058973 | 4/22/2016 | WO | 00 |