Fin heat exchanger comprising improved louvres

The invention claimed is: 1. A heat exchanger comprising: at least one row of tubes; fins disposed transversely to said row of tubes; the tubes being connected to the fins by clamping the tubes in a collar formed in the fins; and at least one row of louvers, said row being formed in the fins and interposed between two tubes in the row of tubes, wherein, with the fins having a flat rectangular overall shape, a ratio between a number of louvers and a width of the fin is between 0.73 and 1.13 louvers/mm; and a first fin and a second fin of the fins superposed together, the first fin comprising an oblong hole for a tube to pass through and at least one spacer for spacing apart from the second fin, wherein a length of each row of louvers of each of the first fin and the second fin is equal to a length of the oblong hole, and each row of louvers of each of the first fin and the second fin comprises a narrow end, extending between the oblong hole and the spacer, wherein the spacer is only at the narrow end, wherein each row of louvers of each of the first fin and the second fin comprises, and wherein the narrow ends of two consecutive rows of louvers are arranged in each case close to opposite edges of the fins. 2. The heat exchanger as claimed in claim 1 , wherein the ratio between the number of louvers and the width of the fins is between 0.87 and 1 louvers/mm. 3. The heat exchanger as claimed in claim 1 , wherein at least one spacer comprises two mutually parallel flat tabs. 4. The heat exchanger as claimed in claim 3 , further comprising: an orientation vector directed substantially parallel to the tabs and substantially parallel to the fins and directed from the narrow end toward a second end referred to as a wide end; and a reference vector directed substantially transverse to the fins and directed from the narrow end toward the wide end, wherein an angle between the orientation vector and the reference vector is between −10 degrees and 20 degrees, and wherein the angle is negative when an air flow, which is initially flowing in the same direction as the reference vector, is diverted by the at least one spacer toward a tube closest to the at least one spacer, and is positive in the opposite case. 5. A heat exchanger comprising: at least one row of tubes, the tubes comprising an elongate shape overall and a substantially oblong cross section; a plurality of fins, each fin comprising a substantially flat rectangular overall shape, arranged substantially parallel to one another and substantially perpendicular to a longitudinal direction of the tubes, and connected to the at least one row of tubes; at least one row of louvers formed in each fin and interposed between two of the tubes; at least one spacer formed in each fin, each spacer comprising two mutually parallel flat tabs, wherein a ratio of a number of louvers in each fin to a width of each fin is greater than or equal to 0.73 louvers/mm and less than or equal to 1.13 louvers/mm, wherein the spacer is only at a narrow end of each row of louvers of each fin, wherein each row of louvers of fin comprises a wide end at an end opposite the narrow ends, wherein the wide end is wider than the narrow end, and wherein the narrow ends of two consecutive rows of louvers are arranged in each case close to opposite edges of the fins. 6. The heat exchanger as claimed in claim 5 , wherein each tab is in the overall shape of a half-disk. 7. The heat exchanger as claimed in claim 5 , wherein each fin comprises a plurality of oblong through-holes, each through-hole shaped to receive one tube, and wherein a length of the at least one row of louvers is equal to a length of the oblong through-hole. 8. A method of heat exchange comprising: flowing a first fluid through at least one row of tubes; flowing a second fluid substantially parallel to a plurality of fins, each fin connected to each tube in the at least one row of tubes and disposed substantially perpendicular to each tube, wherein each fin comprises a flat rectangular overall shape, wherein at least one row of louvers is formed in each fin and is interposed between two of the tubes, wherein a ratio of a number of louvers in each fin to a width of each fin is greater than or equal to 0.73 louvers/mm and less than or equal to 1.13 louvers/mm, wherein at least one spacer formed in each fin is only positioned at a narrow end of each row of louvers of each fin, wherein a wide end of each row of louvers of each fin is at an end opposite the narrow end, wherein the wide end is wider than the narrow end, and wherein the narrow ends of two consecutive rows of louvers are arranged in each case close to opposite edges of the fins. 9. The method of heat exchange as claimed in claim 8 , wherein the first fluid is a heat transfer fluid and the second fluid is air.