Active shock absorber device for a motor vehicle with integrated control unit

The invention claimed is: 1. A shock absorber device ( 6 ) for a motor vehicle ( 1 ), the shock absorber device ( 6 ) being configured to suspend a body ( 2 ) of the motor vehicle ( 1 ) relative to a suspension element ( 5 ) making part of the motor vehicle ( 1 ) and coupled to at least one wheel ( 3 ) of the motor vehicle ( 1 ), the shock absorber device ( 6 ) comprising a spring support ( 7 ), a spring ( 8 ) having an axis (K) and axially extending between a first axial end ( 8 a ) fixed to the spring support ( 7 ) and a second axial end ( 8 b ) to be fixed to the body ( 2 ), a damping device ( 9 ), which can be coupled to the wheel ( 3 ) and to the body ( 2 ) in order to damp a movement of the wheel ( 3 ) relative to the body ( 2 ) exerting a damping force in response to the movement of the wheel ( 3 ), a control unit ( 20 ), an electric motor ( 16 ) electrically connected to the control unit ( 20 ) and controllable by the control unit ( 20 ) through a power supply signal emitted by the control unit ( 20 ), such that the electric motor outputs a torque or a force corresponding to the power supply signal, conversion means ( 18 ) configured to control the damping device ( 9 ) turning the outputted torque or force into a further force corresponding to said torque or force and exerted by means of the damping device ( 9 ) upon the body ( 2 ), wherein the control unit ( 20 ) is configured to receive a first control signal indicative of a target value for the further force and to output the power supply signal as a function of the first control signal, such that the power supply signal corresponds to the target force for the further force, and wherein the control unit ( 20 ) is coupled to the spring support ( 7 ) in a fixed position relative to the spring support ( 7 ). 2. The shock absorber device according to claim 1 , wherein the spring support ( 7 ) is axially arranged between the spring ( 8 ) and the control unit ( 20 ) along said axis (K). 3. The shock absorber device according to claim 1 , wherein the control unit ( 20 ) is directly fixed to the spring support ( 7 ). 4. The shock absorber device according to claim 1 , wherein the control unit ( 20 ) comprises logics configured to process the first control signal, thereby outputting a second control signal as a function of the first control signal, the control unit ( 20 ) further comprising a static power converter configured to convert the second control signal into the power supply signal. 5. The shock absorber device according to claim 1 , wherein the control unit ( 20 ) comprises a printed circuit board ( 31 ). 6. The shock absorber device according to claim 5 , wherein the printed circuit board ( 31 ) comprises a first portion ( 34 ) extending according to a straight direction (A) between two opposite ends ( 34 a , 34 b ) of the first portion ( 34 ), two flexible portions ( 35 ) and two second portions ( 32 , 33 ) respectively coupled to the opposite ends ( 34 a , 34 b ) of the first portion ( 34 ) through the flexible portions ( 35 ), the second portions ( 32 , 33 ) being arranged transversally relative to the first portion ( 34 ) so as to form an empty volume between the second portions ( 32 , 33 ) according to the straight direction (A). 7. The shock absorber device according to claim 6 , wherein the second portions ( 32 , 33 ) are parallel to or face one another according to the straight direction (A). 8. The shock absorber device according to claim 6 , wherein the straight direction (A) is orthogonal to said axis (K). 9. The shock absorber device according to claim 5 , wherein the control unit ( 20 ) comprises a casing ( 40 ), in which the printed circuit board ( 31 ) is arranged, on the inside, embedded in a resin contained in the casing ( 40 ). 10. The shock absorber device according to claim 1 , wherein the control unit ( 20 ) comprises an electrical connection ( 24 , 25 , 27 ) to receive a power supply current from a power source of the motor vehicle ( 1 ), the control unit ( 20 ) being configured to limit a voltage of an input electric current coming from the electric motor ( 16 ), when the control unit ( 20 ) does not receive either the power supply current or the first control signal. 11. The shock absorber device according to claim 1 , wherein the damping device ( 9 ) comprises a casing ( 10 ) coaxial to the spring ( 8 ), the spring support ( 7 ) being fixed relative to the casing ( 10 ). 12. The shock absorber device according to claim 11 , wherein the spring support ( 7 ) has a through hole along said axis (K), the through hole being completely crossed, along said axis (K), by the casing ( 10 ). 13. A motor vehicle comprising a body ( 2 ), a wheel ( 3 ), a suspension element ( 5 ) coupled to the wheel ( 3 ) and a shock absorber device ( 6 ) according to claim 1 suspending the body ( 2 ) relative to the suspension element ( 5 ), wherein the second axial end ( 8 a ) of the spring ( 8 ) is fixed to the body, and wherein the damping device ( 9 ) is coupled to the wheel ( 3 ) and to the body ( 2 ).