Versatile cooling housing for an electrical motor

The invention claimed is: 1. A housing for an electrical device, the housing comprising: an interior surface configured to interface in a central portion with a laminated magnetic stack of the electrical device; an exterior surface comprising in the central portion, cooling fins, each cooling fin extending in a direction radially outward from and generally perpendicular to a rotational axis of a shaft and a cover plate having an inlet hole receiving a liquid cooling from an inlet manifold and an outlet hole delivering the liquid cooling to an outlet manifold, wherein the cooling fins are alternatively higher and smaller proximate the inlet manifold and in opposition, smaller and higher, proximate the outlet manifold, the cooling fins being spatially arranged along the rotational axis of the shaft, wherein all the higher cooling fins have a same height, wherein the cover plate rests on and is supported by the higher cooling fins, wherein the cover plate and the cooling fins create a liquid cooling path between the alternating higher cooling fins and the smaller cooling fins from the inlet hole to the outlet hole, the liquid cooling path passing the liquid cooling from a first of the cooling fins, in a pathway formed between alternating cooling fins along a length of the rotational axis to a last of the cooling fins. 2. The housing of claim 1 , wherein the cover plate is affixed to the housing by a fixing element and seals, which are fitted between the cover plate and the housing for isolating the liquid cooling. 3. The housing of claim 1 , wherein the cooling fins are realized by sand casting such that the surface roughness of the exterior surface is well adapted for heat exchanges. 4. The electrical device of claim 1 , wherein all the smaller cooling fins have a same height. 5. An electrical device, comprising: a housing having: cooling fins located in a central portion along an exterior surface of the housing, each cooling fin extending in a direction radially outward from and generally perpendicular to a rotational axis of a shaft, a cover plate having an inlet hole receiving a liquid cooling from an inlet manifold and an outlet hole delivering the liquid cooling to an outlet manifold; and a laminated magnetic stack disposed within the housing and interfacing with an interior surface of the housing at the central portion, wherein the cooling fins are alternatively higher and smaller proximate the inlet manifold and in opposition, smaller and higher, proximate the outlet manifold, the cooling fins being spatially arranged along the rotational axis of the shaft, wherein all the higher cooling fins have a same height, wherein the cover plate rests on and is supported by the higher cooling fins, wherein the cover plate and the cooling fins create a liquid cooling path between the alternating higher cooling fins and the smaller cooling fins from the inlet hole to the outlet hole, the liquid cooling path passing the liquid cooling from a first of the cooling fins, in a pathway formed between alternating cooling fins along a length of the rotational axis to a last of the cooling fins. 6. The electrical device of claim 5 , wherein said cover plate is affixed to the housing by a fixing element and seals, which are fitted between the cover plate and the housing for isolating the liquid cooling. 7. The electrical device of claim 5 , further comprising one of the following devices: a motor, a generator, a starter, and an alternator. 8. The electrical device of claim 5 , wherein all the smaller cooling fins have a same height. 9. The electrical device of claim 5 , wherein the cooling fins are realized by sand casting such that the surface roughness of the exterior surface is well adapted for heat exchanges.