Electromechanical brake actuator for electromechanical brake arrangement

1 . Electromechanical brake actuator ( 100 , 200 , 300 ), comprising: a service-brake unit ( 102 ) including: a service-brake rod ( 104 ), for applying a variable braking force (F) to an external caliper ( 502 ); a service-actuation unit ( 106 ) that receives receive a service-brake signal (SS) and, in dependence thereof, moves the service-brake rod ( 104 ) to a position (P) between a full braking position (BP), at which a maximum braking force (Fmax) is applied to the caliper ( 502 ), and a drive position (DP), at which no braking force (F) is applied to the caliper ( 502 ); wherein the electromechanical brake actuator ( 100 , 200 , 300 ) further comprises: a parking-brake unit ( 110 ), including: a parking-brake rod ( 112 ) operatively coupled to the service-brake rod ( 104 ) and movable between a first position (P 1 ), in which the parking-brake rod ( 112 ) is arranged to lock the service-brake rod ( 104 ) in a braking position (BP), and a second position (P 2 ) in which the service-brake rod ( 104 ) is released from the braking position (BP) and free to be moved by the service-actuation unit ( 106 ); and a parking-actuation unit ( 114 ) comprising a spring element ( 116 ) operatively coupled to the parking-brake rod ( 112 ) and arranged so that in a fully-compressed state (CS) of the spring element ( 116 ) the parking-brake rod ( 112 ) is in the second position (P 2 ), and in a fully-released state (RS) of the spring element ( 116 ) the parking-brake rod ( 112 ) is in the first position (P 1 ), the parking-actuation unit ( 114 ) further comprising a hydraulic unit ( 118 ) that is operatively coupled to the parking-brake rod ( 112 ) and that receives a parking-brake signal (PS) and, in dependence thereof, locks the parking-brake rod ( 112 ) at a given position, and further allows a release of the spring element ( 116 ) to the fully-released state (RS). 2 . The electromechanical brake actuator ( 100 , 200 , 300 ) of claim 1 , wherein the hydraulic unit ( 118 ) includes a hydraulic cylinder ( 120 ) including a piston chamber ( 121 ) and a piston ( 122 ) arranged inside the piston chamber ( 121 ), the piston ( 122 ) being operatively coupled to the parking-brake rod ( 112 ), wherein the hydraulic unit ( 118 ) further includes a first chamber ( 124 ) and a second chamber ( 126 a , 126 b ) in fluid communication with the first chamber ( 124 ) via a fluid passage ( 128 ), and wherein an electrically controlled valve unit ( 132 ) that receives the parking-brake signal (PS) is arranged and operates to selectively block and enable a flow (f) of an hydraulic fluid ( 130 ) via the fluid passage between the first chamber ( 124 ) and the second chamber ( 126 a , 126 b ). 3 . The electromechanical brake actuator ( 200 ) of claim 2 , wherein the hydraulic cylinder ( 120 ) is a double acting cylinder ( 220 ), wherein the first chamber ( 124 ) and the second chamber ( 126 a ) are located inside the double acting cylinder ( 220 ) and separated by the piston ( 122 ). 4 . The electromechanical brake actuator ( 300 ) of claim 2 , wherein the hydraulic cylinder ( 120 ) is a single-acting cylinder ( 320 ), wherein the first chamber ( 124 ) is located inside the hydraulic cylinder ( 120 ) and the second chamber ( 126 b ) is a reservoir ( 126 b ) arranged outside the hydraulic cylinder ( 120 ). 5 . The electromechanical brake actuator ( 100 ) of claim 2 , wherein the electrically controlled valve unit ( 132 ) includes a manifold valve ( 134 ), in particular a 2/2-way solenoid valve ( 134 ) being operable in a first state ( 134 . 1 ) in which a first port ( 134 a ) of the manifold valve ( 134 ) in fluid communication with the first chamber ( 124 ) is connected to a second port ( 134 b ) of the manifold valve ( 134 ) in fluid communication with the second chamber ( 126 a , 126 b ) and therefore a movement of the piston ( 122 ) inside the hydraulic cylinder ( 120 ) is enabled, and a second state ( 134 . 2 ) in which the first port ( 134 a ) is disconnected from the second port ( 134 b ) and therefore a movement of the piston ( 122 ) inside the hydraulic cylinder ( 120 ) is hindered. 6 . The electromechanical brake actuator of claim 5 , wherein the first state ( 134 . 1 ) is an unactuated state of the manifold valve ( 134 ) and the second state ( 134 . 2 ) is an actuated state of the manifold valve ( 134 ). 7 . The electromechanical brake actuator ( 100 ) of claim 2 , wherein the hydraulic unit ( 118 ) further includes a flow-control unit ( 136 , 138 ) arranged between the electrically controlled valve unit ( 132 ) and the hydraulic cylinder ( 120 ) for controlling a flow amount (f) between the first chamber ( 124 ) and the second chamber ( 126 a , 126 b ). 8 . The electromechanical brake actuator ( 100 ) of claim 7 , wherein the flow-control unit ( 138 ) is further configured to switch between two flow resistances values (R 1 , R 2 ). 9 . The electromechanical brake actuator ( 100 ) of claim 8 , wherein the flow-control unit ( 138 ) is configured to set a first flow resistance value (R 1 ) to a first flow path (f 1 ) from the first chamber ( 124 ) to the second chamber ( 126 a , 126 b ) and a second flow resistance value (R 2 ) to a second flow path (f 2 ) from the second chamber ( 126 a , 126 b ) to the first chamber ( 124 ). 10 . The electromechanical brake actuator ( 100 ) of claim 1 , wherein the service-actuation unit ( 106 ) is further arranged and configured to compress the spring element ( 116 ) and to drive the parking-brake rod ( 112 ) to the second position (P 2 ). 11 . The electromechanical brake actuator ( 100 ) of claim 1 , wherein the hydraulic unit ( 118 ) further comprises an emergency-release unit ( 140 , 140 a , 140 b ) that is operatively coupled to the parking-brake rod ( 112 ) and configured to drive the parking-brake rod ( 112 ) to the second position (P 2 ) independently of the service-actuation unit ( 106 ). 12 . The electromechanical brake actuator ( 100 ) of claim 11 , wherein the emergency-release unit ( 140 , 140 a , 140 b ) comprises an emergency-release screw ( 140 a ) for moving the parking-brake rod ( 112 ). 13 . The electromechanical brake actuator ( 100 ) of claim 12 , wherein the emergency-release unit ( 140 , 140 a , 140 b ) further comprises a manual valve actuator ( 140 b ) for controlling the hydraulic unit ( 118 ) independently of the electric parking-brake signal (PS). 14 . The electromechanical brake actuator ( 100 ) of claim 1 , wherein the braking position (BP) parking-brake rod ( 112 ) is arranged to lock the service-brake rod ( 104 ) in a braking position (BP) corresponding to the full braking position. 15 . The electromechanical brake actuator ( 100 , 200 , 300 ) of claim 1 , wherein the hydraulic unit ( 118 ) locks the parking-brake rod ( 112 ) at a given position when a hydraulic valve ( 132 ) of the hydraulic unit ( 118 ) is switched to a “close” state, and the hydraulic unit ( 118 ) allows a release of the spring element ( 116 ) when a hydraulic valve ( 132 ) of the hydraulic unit ( 118 ) is in an “open” state. 16 . The electromechanical brake actuator ( 100 , 200 , 300 ) of claim 15 , wherein to operate the service-brake unit, the hydraulic valve ( 132 ) is switched to the “open” state and the service-brake actuator unit ( 106 ) drives the service-brake rod ( 104 ) to the drive position (DP), the parking-brake rod ( 112 ) to the second position, and the spring element ( 116 ) to the compressed state, and thereafter the hydraulic valve ( 132 ) is switched to the “close” state, whereby the