An air-to-air heat exchanger

1 . An air-to air heat exchanger comprising: a first housing comprising a floor, a ceiling, an upstream end wall, a downstream end wall, and side walls, air channels extending in a first direction from the upstream end wall towards the downstream end wall in the first housing, a top plenum extending from the upstream end wall to the downstream end wall in an upper portion of the first housing above the air channels partition walls extending in a second direction perpendicular to the first direction and dividing a lower portion of the first housing below the top plenum into an upstream end section, a middle section, and a downstream end section, wherein: the air channels terminate at the partition wall between the middle section and the downstream end section, the downstream end section comprises at least one cone extending in the first direction and having a first upstream end at the partition wall where the air channels terminate, and a second contracted downstream end at the downstream end wall of the first housing or within the downstream end section in which case a further air channel is provided between the second contracted downstream end of the at least one cone and the downstream end wall of the first housing, the first upstream end of the at least one cone surrounds in a fluid tight manner in a circumferential direction all the air channels, which terminate at the partition wall between the middle section and the downstream end section. 2 . An air-to-air heat exchanger according to claim 1 , wherein the air channels are formed of pipes having a circular cross section. 3 . An air-to-air heat exchanger according to claim 1 , wherein the downstream end section comprises one cone, whereby all the air channels terminate into the first end of the cone. 4 . An arrangement to cool an apparatus with an air-to-air heat exchanger, said arrangement comprising the apparatus and the air-to-air heat exchanger according to claim 1 , wherein an external air circulation is directed first through the air channels and then through the at least one cone from the upstream end wall towards the downstream end wall of the first housing, and finally out from the housing, an internal air circulation is directed from the apparatus to be cooled positioned outside the first housing in the second direction through air passages in a middle portion of the floor and further across the middle section to the top plenum where the internal air circulation is divided into a first branch passing across the upstream end section through air passages in an upstream portion of the floor back to a first end of the apparatus to be cooled and a second branch passing across the downstream end section through air passages in a downstream portion of the floor back to an opposite second end of the apparatus to be cooled. 5 . An arrangement according to claim 4 , wherein the apparatus to be cooled by the air-to-air heat exchanger is an electric machine comprising a rotor on a rotatable shaft having a centre axis extending in the first direction and a stator surrounding the rotor, the electric machine being positioned within a second housing comprising a floor, a ceiling, a first end shield, a second end shield, and side walls. 6 . An arrangement according to claim 5 , wherein the floor of the first housing is positioned on the ceiling of the second housing, whereby the floor of the first housing and the ceiling of the second housing form a single separation wall between the first housing and the second housing. 7 . An air-to-air heat exchanger according to claim 2 , wherein the downstream end section comprises one cone, whereby all the air channels terminate into the first end of the cone. 8 . An air-to-air heat exchanger according to claim 4 , wherein the air channels are formed of pipes having a circular cross section. 9 . An air-to-air heat exchanger according to claim 8 , wherein the downstream end section comprises one cone, whereby all the air channels terminate into the first end of the cone. 10 . An air-to-air heat exchanger according to claim 4 , wherein the downstream end section comprises one cone, whereby all the air channels terminate into the first end of the cone.