Electropneumatic positioner and a field device having an electro-pneumatic positioner

What is claimed is: 1. An electropneumatic positioner for a pneumatic actuator to operate a control device of a processing plant, comprising: two modular pneumatic slots configured to engage with a respective modular pneumatic component, the two pneumatic slots and the pneumatic components being modularly matched to one another such that their respective pneumatic interfaces merge into one another when a pneumatic slot is engaged, and a pneumatic control output configured to output a pneumatic control pressure signal to the pneumatic actuator, the two modular pneumatic slots and the pneumatic control output forming a pneumatic series connection, wherein a downstream pneumatic slot of the two pneumatic slots is engaged with a pneumatic switching device that is configured to operate in either a release state, in which the pneumatic switching device provides a pneumatic connection to transmit the pneumatic control pressure signal between at least one upstream pneumatic slot of the two pneumatic slots and the pneumatic control output, and a locked state in which the pneumatic switching device is configured to seal off the pneumatic connection. 2. The electropneumatic positioner according to claim 1 , wherein the pneumatic switching device is configured to operate in the locked state in response to an error state or alarm state of a field device, the electropneumatic positioner, the actuator and/or the actuator part. 3. The electropneumatic positioner according to claim 1 , characterized in that the pneumatic switching device includes a pressure relieving slider or a poppet valve for achieving the locked state or the release state and/or in that the pneumatic switching device includes at least one soft-sealing sealing component such as an elastomer seal or a thermoplastic seal for realizing the locked state. 4. The electropneumatic positioner according to claim 1 , wherein the pneumatic switching device is configured such that in the release state, the pneumatic connection is released such that in the pneumatic switching device, a connection channel with a cross section is provided to allow the pneumatic control pressure signal to pass un-throttled, the cross section being not more than 20%, 10%, or 5% larger than necessary to allow the pneumatic control pressure signal to pass un-throttled. 5. The electropneumatic positioner according to claim 1 , wherein the pneumatic switching device is configured to continuously detect the actual position of a blocking element of the switching device. 6. The electropneumatic positioner according to claim 5 , wherein the blocking element is a slider or a valve member. 7. The electropneumatic positioner according to claim 5 , wherein the pneumatic switching device is configured to continuously detect the actual position of the blocking element with a position sensor. 8. The electropneumatic positioner according to claim 1 , wherein the pneumatic series connection upstream of the pneumatic control output is ventable exclusively at an upstream pneumatic slot of the two pneumatic slots. 9. The electropneumatic positioner according to claim 1 , wherein an upstream pneumatic slot of the two pneumatic slots is occupied with an electropneumatic signal transducer that is configured to emit the pneumatic control signal to control the actuator. 10. The electropneumatic positioner according to claim 1 , further comprising: a pneumatic supply input configured to provide a pneumatic supply pressure signal to the pneumatic series connection to control an electropneumatic signal transducer; and/or an electric field input configured to receive a supply current and/or an electric positioning signal to control the electropneumatic signal transducer. 11. The electropneumatic positioner according to claim 1 , further comprising: a modular electronics slot configured to engage with a respective modular electronic component, the modular electronics slot and the respective modular electronic component being modularly matched to one another such that their respective electronic interfaces merge into one another when the modular electronics slot is occupied. 12. The electropneumatic positioner according to claim 1 , further comprising a pressure sensor configured to: detect at least one pressure value in the pneumatic series connection of: the pneumatic control pressure signal at the control output of the pneumatic series connection, and/or the pneumatic control pressure signal in the pneumatic series connection between an upstream pneumatic slot and a downstream pneumatic slot of the two pneumatic slots; and a generate pressure signal at the pneumatic supply input of the pneumatic series connection based on the detection of the at least one pressure value. 13. The electropneumatic positioner according to claim 1 , further comprising: a housing that includes the pneumatic control output, and in which the series connection including the two modular pneumatic slots is accommodated. 14. The electropneumatic positioner according to claim 13 , wherein the housing further comprises the electrical field input and/or the pneumatic supply input. 15. The electropneumatic positioner according to claim 1 , wherein the modular pneumatic component includes an electropneumatic transducer. 16. The electropneumatic positioner according to claim 1 , wherein the pneumatic switching device is an open/close valve. 17. An electropneumatic field device, comprising: an electropneumatic positioner according to claim 1 , wherein the pneumatic actuator is connected to the control output. 18. The electropneumatic field device according to claim 17 , wherein the pneumatic field device upstream from the pneumatic actuator is operationally ventable exclusively at an upstream pneumatic slot of the two pneumatic slots. 19. The electropneumatic field device according to claim 17 , wherein the pneumatic actuator is a single-acting or double-acting pneumatic actuator.