Four-wheel drive car

The invention claimed is: 1. A car ( 1 ) comprising: a first axle having two first drive wheels ( 2 ); a second axle having two second drive wheels ( 3 ); a passenger compartment ( 5 ); an internal combustion engine ( 4 ), which is provided with a plurality of cylinders ( 8 ), where respective pistons ( 9 ) slide on the inside, and with a drive shaft ( 10 ) connected to the pistons ( 9 ) and oriented longitudinally, namely parallel to a driving direction of the car ( 1 ); a transmission shaft ( 25 ), which is oriented longitudinally and is configured to transmit the motion from the internal combustion engine ( 4 ) to the first wheels ( 2 ); a gearbox ( 16 ) provided with at least one primary shaft ( 18 ), which receives the motion from the drive shaft ( 10 ), and with at least one secondary shaft ( 19 ); a first epicyclic differential ( 22 ), which receives the motion from the secondary shaft ( 19 ) of the gearbox ( 16 ) and transmits the motion to the first wheels ( 2 ) through the transmission shaft ( 25 ) and to the second wheels ( 3 ); and a second epicyclic differential ( 23 ), which is coaxial to the two second wheels ( 3 ), is interposed between the first epicyclic differential ( 22 ) and the second wheels ( 3 ), receives the motion from the first epicyclic differential ( 22 ) and transmits the motion to the second wheels ( 3 ); wherein the two differentials ( 22 , 23 ) are coaxial to one another and are arranged side by side. 2. The car ( 1 ) according to claim 1 , wherein the first epicyclic differential ( 22 ) comprises: a first ring gear ( 32 ), which receives the motion from the secondary shaft ( 19 ) of the gearbox ( 16 ); a first carrier ( 33 ), which supports at least two first planet gears ( 34 ) and transmits the motion to the second epicyclic differential ( 23 ); and a first sun gear ( 35 ), which transmits the motion to the transmission shaft ( 25 ). 3. The car ( 1 ) according to claim 2 , wherein the second epicyclic differential ( 23 ) comprises: a second ring gear ( 36 ), which is integral to the first carrier ( 33 ) to receive the motion from the first carrier ( 33 ); a second carrier ( 37 ), which supports at least two second planet gears ( 38 ) and is integral to a first axle shaft ( 24 ) to transmit the motion to a second wheel ( 3 ); and a second sun gear ( 39 ), which is integral to a second axle shaft ( 24 ) to transmit the motion to the other second wheel ( 3 ). 4. The car ( 1 ) according to claim 3 , wherein the first epicyclic differential ( 22 ) is centrally hollow and is crossed, from side to side, by the second axle shaft ( 24 ). 5. The car ( 1 ) according to claim 3 , wherein a hollow connection shaft ( 40 ) is provided, which, at an end, is integral to the first carrier ( 33 ) and, at the opposite end, is integral to the second ring gear ( 36 ). 6. The car ( 1 ) according to claim 2 , wherein the first ring gear ( 32 ) has an outer toothing ( 41 ), which meshes with an intermediate gear wheel ( 42 ), which receives the motion from the secondary shaft ( 19 ) of the gearbox ( 16 ). 7. The car ( 1 ) according to claim 6 , wherein the outer toothing ( 41 ) of the first ring gear ( 32 ) is a bevel toothing and the intermediate gear wheel ( 42 ) is a bevel wheel and rotates around a rotation axis ( 43 ), which is perpendicular to the rotation axis ( 31 ) of the first ring gear ( 32 ). 8. The car ( 1 ) according to claim 2 and comprising: a first transmission gear wheel ( 46 ), which is coaxial and integral to the first sun gear ( 35 ); and a second transmission gear wheel ( 47 ), which meshes with the first transmission gear wheel ( 46 ). 9. The car ( 1 ) according to claim 8 and comprising a first bevel gear ( 48 ), which connects the second transmission gear wheel ( 47 ) to the transmission shaft ( 25 ). 10. The car ( 1 ) according to claim 1 , wherein the two epicyclic differentials ( 22 , 23 ) rotate around a rotation axis ( 31 ), which is oriented transversely and is perpendicular to the secondary shaft ( 19 ) of the gearbox ( 16 ). 11. The car ( 1 ) according to claim 1 and comprising a second bevel gear ( 27 ), which is interposed between the transmission shaft ( 25 ) and the first wheels ( 2 ). 12. The car ( 1 ) according to claim 1 wherein: the internal combustion engine ( 4 ) is arranged behind the passenger compartment ( 5 ), is “V”-shaped, has two banks ( 11 ) of cylinders ( 8 ), which are separate from one another, and is oriented with the drive shaft ( 10 ) arranged higher than the cylinders ( 8 ); and the transmission shaft ( 25 ) is arranged under the internal combustion engine ( 4 ). 13. The car ( 1 ) according to claim 12 , wherein the transmission shaft ( 25 ) is arranged between the two banks ( 11 ) of cylinders ( 8 ), namely is located in a space that is laterally delimited by the two banks ( 11 ) of cylinders ( 8 ). 14. The car ( 1 ) according to claim 1 , wherein the first axle is in a front position and the second axle is in a rear position. 15. The car ( 1 ) according to claim 1 , wherein: the gearbox ( 16 ) is longitudinally arranged behind a crankcase ( 7 ) of the internal combustion engine ( 4 ); and the primary shaft ( 18 ) of the gearbox ( 16 ) is oriented longitudinally and is coaxial to the drive shaft ( 10 ) of the internal combustion engine ( 4 ).