Spring-operated mechanism having delay circuit

What is claimed is: 1. An electromechanical actuator for operating a close-open (CO) delay circuit configured to delay triggering of a switching process of a circuit breaker, the electromechanical actuator comprising: a control unit; a timer unit; a locking unit; and a signaling unit, wherein: the control, timer, locking and signaling units are configured to interact mechanically with one another; the control unit includes a driver disk which is configured to be acted on by an electrical drive and is provided with an operating cam integrally formed on the circumference of the driver disk, which is configured to determine a delay for a correspondingly delayed operation of the timer unit; the timer unit includes a flywheel which is provided with a local slotted-guide-like recess, the driver disk and the flywheel each being mounted on a common first axis and being rotatable about the first axis such that the driver disk and the flywheel are both mounted on and rotatable about the same first axis; the driver disk is configured to act on the flywheel by means of a pin which is arranged on and extends from the driver disk for engagement in the slotted-guide-like recess, the pin extending between the driver disk and the slotted-guide-like recess of the timer unit along a second axis different from the common first axis on which both the driver disk and the flywheel are mounted and rotatable about; the locking unit is configured to be operated by the control unit and to interact with a latching device which is provided on the timer unit and which is formed by a series of latching notches on the circumference of the flywheel, the locking unit being configured to lock or unlock the flywheel of the timer unit; the locking unit is formed by a pivotable detent which is configured to interact with both the control unit and the latching device provided on the timer unit; the timer unit includes a cam-like integral feature on its circumference, the cam-like integral feature being configured to operate the signaling unit; the control unit is configured to receive a rotary stimulus as an input actuating variable; the operating cam of the control unit is configured to operate the locking unit at a predefined rotation angle of the driver disk so that the pivotable detent of the locking unit disengages from the latching device of the timer unit, leading to the flywheel of the timer unit being released; when the flywheel is in a suitable angular position, the pin of the driver disk which is engaged in the slotted-guide-like recess of the flywheel of the timer unit, transmits the rotary stimulus which was picked up by the driver disk of the control unit, and accordingly acts on the flywheel, so that the rotary stimulus acts on the timer unit and thereby on the signaling unit; the signaling unit is configured to activate the circuit breaker via an interface and trigger the switching process of the circuit breaker; and wherein the pivotable detent is configured to disengage from one of the series of latching notches of the latching device and then engage with a sequential next one of the latching notches after the driver disk has completed a full revolution, such that the amount of delay is defined by a rotational speed of the driver disk and the number of latching notches. 2. The electromechanical actuator as claimed in claim 1 , wherein the control unit and the timer unit are configured to rotate independently of one another on the common first axis. 3. The hydromechanical stored-energy spring mechanism as claimed in claim 2 , wherein the flywheel of the timer unit is configured to be operated by the driver disk of the control unit by the pin which is arranged on the driver disk engaging in the slotted-guide-like recess which is provided on the flywheel and thereby acting on the flywheel. 4. The electromechanical actuator as claimed in claim 1 , wherein the flywheel of the timer unit is configured to be operated by the driver disk of the control unit by the pin which is arranged on the driver disk engaging in the slotted-guide-like recess which is provided on the flywheel and thereby acting on the flywheel. 5. The electromechanical actuator as claimed in claim 4 , comprising: an energy unit configured to act on the timer unit. 6. The electromechanical actuator as claimed in claim 5 , wherein the energy unit includes a spring device which is operatively connected to the flywheel and which is configured to act on the flywheel in a rotation direction. 7. The electromechanical actuator as claimed in claim 6 , wherein the signaling unit includes at least one switching element which is in the form of one of a normally closed contact and a normally open contact, wherein the contact is coupled to a switching rod to be operated, wherein the switching rod is configured to be acted on by the timer unit, and wherein the signaling unit includes an interface which serves to activate the circuit breaker. 8. The electromechanical actuator as claimed in claim 7 , wherein the at least one switching element which is in the form of one of a normally closed contact and a normally open contact is formed by a spring contact which assumes a switching position, counter to the spring action, when the cam-like integral feature of the flywheel of the timer unit acts on the switching element. 9. The electromechanical actuator as claimed in claim 1 , comprising: an energy unit configured to act on the timer unit. 10. The electromechanical actuator as claimed in claim 9 , wherein the energy unit includes a spring device which is operatively connected to the flywheel and which is configured to act on the flywheel in a rotation direction. 11. The electromechanical actuator as claimed in claim 1 , wherein the signaling unit includes at least one switching element which is in the form of one of a normally closed contact and a normally open contact, wherein the contact is coupled to a switching rod to be operated, wherein the switching rod is configured to be acted on by the timer unit, and wherein the signaling unit includes an interface which serves to activate the circuit breaker. 12. The electromechanical actuator as claimed in claim 11 , wherein the at least one switching element which is in the form of one of a normally closed contact and a normally open contact is formed by a spring contact which assumes a switching position, counter to the spring action, when the cam-like integral feature of the flywheel of the timer unit acts on the switching element. 13. The electromechanical actuator as claimed in claim 1 , wherein the circuit breaker is comprised in a high-voltage switching system. 14. The electromechanical actuator as claimed in claim 1 , wherein the pin arranged on the driver disk is configured to interact with a slotted recess in the flywheel of the timer unit such that when the flywheel is in a particular angular position, a rotary stimulus of the driver disk acts on the flywheel.