Method for detecting a safe state of a valve of a hydraulic system

The invention claimed is: 1 . A method for detecting a safe state of a switchable valve of a hydraulic system of an actuator in a motor vehicle, the method comprising: delivering fluid, via a pump, to a first consumer in a first rotational direction and delivering fluid, via the pump, to at least one second consumer in a second rotational direction, the hydraulic system having at least a first switchable valve which is actuated by being energized, the pump, and a controller which controls at least the first switchable valve and the pump, the hydraulic system having a line system through which the pump is configured to be connected to the at least one second consumer with the first switchable valve being interposed, wherein the line system has a hydraulic pressure line connected to the pump, a first pressure line branch actuating a parking lock, and a second pressure line branch actuating a friction clutch, wherein the first pressure line branch and the second pressure line branch are configured to be alternately connected to the hydraulic pressure line by of the first switchable valve, wherein a pressure sensor connected to the controller is mounted in the second pressure line branch, wherein energization of the first switchable valve is deactivated by the controller and the pump is activated with an increasing speed ramp in the second rotational direction, wherein the safe state of the first switchable valve is detected when a pressure difference at the pressure sensor since a start of the increasing speed ramp reaches a predetermined limit value within a predetermined time period since the start of the increasing speed ramp. 2 . The method according to claim 1 , wherein a second switchable valve controlled by the controller and actuated by being energized is introduced into the second pressure line branch, wherein introducing the second switchable valve into the second pressure line branch causes the second pressure line branch to be alternately connected to a reservoir via a discharge line, wherein the safe state of the first switchable valve is detected and the pump is deactivated and the safe state of the second switchable valve is detected when the pressure difference at the pressure sensor falls back to a value from before the start of the increasing speed ramp. 3 . The method according to claim 1 , wherein the pump is activated from standstill with the increasing speed ramp in the second rotational direction. 4 . The method according to claim 2 , wherein the first switchable valve is a 4/2 valve and the second switchable valve is a 2/2 valve. 5 . A device for detecting a safe state of a switchable valve of a hydraulic system of an actuator in a motor vehicle comprising: a first switchable valve which is actuated by being energized; a pump; a controller which controls at least the first switchable valve and the pump, wherein the pump delivers fluid to a first consumer in a first rotational direction and delivers fluid to at least one second consumer in a second rotational direction; a line system through which the pump is configured to be connected to the at least one second consumer with the first switchable valve being interposed, wherein the line system has a hydraulic pressure line connected to the pump, a first pressure line branch actuating a parking lock, and a second pressure line branch actuating a friction clutch, wherein the first pressure line branch and the second pressure line branch are configured to be alternately connected to the hydraulic pressure line by the first switchable valve; a pressure sensor connected to the controller and mounted in the second pressure line branch, wherein energization of the first switchable valve is deactivated by the controller and the pump is activated with an increasing speed ramp in the second rotational direction, wherein the safe state of the first switchable valve is detected when a pressure difference at the pressure sensor since a start of the increasing speed ramp reaches a predetermined limit value within a predetermined time period since the start of the increasing speed ramp; and a second switchable valve controlled by the controller and actuated by being energized is introduced into the second pressure line branch, wherein introducing the second switchable valve into the second pressure line branch causes the second pressure line branch to be alternately connected to a reservoir via a discharge line. 6 . The device according to claim 5 , wherein the safe state of the first switchable valve is detected and the pump is deactivated and the safe state of the second switchable valve is detected when the pressure difference at the pressure sensor falls back to a value from before the start of the increasing speed ramp. 7 . The device according to claim 5 , wherein the pump is activated from standstill with the increasing speed ramp in the second rotational direction. 8 . The device according to claim 7 , wherein the first switchable valve is a 4/2 valve and the second switchable valve is a 2/2 valve. 9 . A hydraulic system comprising: a first switchable valve which is actuated by being energized; a pump; a first consumer; at least one second consumer comprising a parking lock and a friction clutch; a controller which controls at least the first switchable valve and the pump, wherein the pump delivers fluid to the first consumer in a first rotational direction and delivers fluid to the at least one second consumer in a second rotational direction; a line system through which the pump is configured to be connected to the at least one second consumer with the first switchable valve being interposed, wherein the line system has a hydraulic pressure line connected to the pump, a first pressure line branch actuating the parking lock, and a second pressure line branch actuating the friction clutch, wherein the first pressure line branch and the second pressure line branch are configured to be alternately connected to the hydraulic pressure line by the first switchable valve; a pressure sensor connected to the controller and mounted in the second pressure line branch, wherein energization of the first switchable valve is deactivated by the controller and the pump is activated with an increasing speed ramp in the second rotational direction, wherein a safe state of the first switchable valve is detected when a pressure difference at the pressure sensor since a start of the increasing speed ramp reaches a predetermined limit value within a predetermined time period since the start of the increasing speed ramp; and a second switchable valve controlled by the controller and actuated by being energized is introduced into the second pressure line branch, wherein introducing the second switchable valve into the second pressure line branch causes the second pressure line branch to be alternately connected to a reservoir via a discharge line. 10 . The hydraulic system according to claim 9 , wherein the safe state of the first switchable valve is detected and the pump is deactivated and the safe state of the second switchable valve is detected when the pressure difference at the pressure sensor falls back to a value from before the start of the increasing speed ramp. 11 . The hydraulic system according to claim 9 , wherein the pump is activated from standstill with the increasing speed ramp in the second rotational direction. 12 . The hydraulic system according to claim 11 , wherein the first switchable valve is a 4/2 valve and the second switchable valve is a 2/2 valve. 13 . The hydraulic system according to claim 9 , comprising an electric motor, wherein the pump is driven by the electr