This application claims priority to Italian Patent Application No. 102021000017504 filed on Jul. 2, 2021, the contents of which are incorporated by reference in their entirety.
The present invention relates generally to the field of heat exchangers for automotive applications and more specifically to heat exchangers comprising manifolds formed from metal tubular vessels.
In said type of heat exchanger, it has been noted that the manufacturing process causes the side plates, which serve to reinforce the pack forming the heat exchanger, to generally have ends that are separated from the manifolds by gaps of varying sizes. This fact is undesirable from a structural point of view.
One object of the present invention is to provide a device to compensate for tolerances of the heat exchanger and ensure proper contact between the side plate and the manifold.
For this object, according to the present invention, a corner assembly arrangement for a heat exchanger is provided, comprising
a manifold comprising a tubular metal vessel, and
a side plate consisting of a flat metal plate that extends orthogonally to the manifold and is attached to an end thereof,
wherein the side plate comprises an end tab having a width that is less than the width of the remaining part of the side plate, wherein the end tab extends in a zigzag pattern from a respective end of the side plate and comprises a support end that is in contact with a wall of the manifold, the support end having, according to a plan view, a concavity configured to fit the wall of the manifold, wherein the end tab comprises a descending part extending from the side plate and an ascending part that is connected to the descending part by a bend and provides the support end.
With the arrangement according to the present invention, the end tab acts as an adapter for the tolerance of the pack in press-fit. Moreover, the contour on the circumference of the manifold, cooperating with the support end of the end tab, prevents the side plate from moving during the production process. Advantageously, the arrangement according to the present invention is also an improvement for bursting pressures.
Preferred embodiments of the present invention are also described.
Other features and advantages of the arrangement according to the present invention will become clearer from the following detailed description of an embodiment of the invention, made with reference to the accompanying drawings, provided purely for illustrative and non-limiting purposes, in which:
With reference to
The heat exchanger 1 comprises a plurality of parallel tubes 11 extending between two opposite sides of the heat exchanger (shown in
In
Each manifold 13, 15 comprises a tubular metal vessel 13a, 15a extending along a respective longitudinal axis z, and an end closure element 13b, also made of metal material, arranged at each end of the tubular metal vessel 13a, 15a (for convenience only one end of the manifolds is shown in the figures).
The heat exchanger 1 further comprises a first side plate and second side plate 19 (“panel”) each arranged at a respective further side of the heat exchanger, orthogonal to the two opposite sides of the heat exchanger at which the manifolds 13, 15 are arranged. Only one side plate 19 is shown in the figures, but it is to be understood that the one not shown has a similar structure to the one shown in the drawings.
Each side plate 19 consists of a flat metal plate that extends orthogonally to the manifolds 13, 15, and has at each of its ends an end tab 21 having a width less than the width of the remaining part of the side plate 19.
In general, the structural union between the various metal components of the exchanger described above is achieved by material coupling, such as by welding and/or brazing.
Specifically, with reference to
Each end tab 21 extends in a zigzag pattern from the respective end of the side plate 19 and comprises a support end 21a in contact with the wall of the tubular metal vessel 13a, 15a. As shown in particular in
Specifically, the end tab 21 comprises a descending part 21′, which extends from the side plate 19, and an ascending part 21″, which is connected to the descending part 21′ by a bend 21″′ and provides the support end 21a. For the purposes of the present description, “descending” means that the relevant part of the end tab 21 extends from the elevation of the side plate 19 to approach the bundle of tubes 11 of the heat exchanger 1, ending in the bend 21′″, while “ascending” means that the relevant part of the end tab 21 extends from the bend 21′″ so as to move away from the bundle of tubes 11. The zigzag pattern, therefore, refers to a direction parallel to the longitudinal axis z of the manifold 13, 15, that is, to the direction of the thickness of the side plate 19.
With the arrangement described above, the end tab 21 acts as an adapter for the tolerance in the distances between the side plate and the manifold. Further, the curved shape of the manifold, cooperating with the support end 21a of the end tab 21 prevents the side plate 19 from moving during the production process.
Number | Date | Country | Kind |
---|---|---|---|
102021000017504 | Jul 2021 | IT | national |