Terminal block for an electronic device

The invention claimed is: 1. A terminal block for an electronic device, in which the block can be attached to an electronics housing of the electronic device, the terminal block comprising: at least one base strip comprising a plurality of connector sockets; a plurality of connector modules configured to be attached to the connector sockets in at least one insertion direction, to be held on the connector sockets in an inserted position, and to be released from the connector sockets to be removed from the at least one base strip; and a locking device, the locking device comprising: an actuating part configured to be moved relative to the at least one base strip in an actuation direction; and a plurality of locking elements that are engaged in a locking manner in mating elements of the connector modules in a locked position such that the connector modules are locked relative to the at least one base strip, counter to the insertion direction, wherein the actuating part is actuable in the actuation direction to remove the connector modules from the at least one base strip such that the locking of the connector modules relative to the at least one base strip is released when in an actuated state, wherein at least one of the locking elements of the actuating part or the mating elements of the connector modules each comprise an ejection chamfer that extends obliquely to the insertion direction and which the other element is configured to strike when the actuating part is actuated in the actuation direction, generating an ejection force counter to the insertion direction on the connector modules, and wherein at least one of the ejection chamfers of the locking elements or of the mating elements are arranged relative to the other elements such that at least some of the ejection chamfers are configured to come into contact with the associated other elements at different times when the actuating part is actuated in the actuation direction. 2. The terminal block according to claim 1 , wherein the actuating part comprises an actuation slide that is arranged on the at least one base strip or on a housing so as to be movable in the actuation direction. 3. The terminal block according to claim 1 , wherein a plurality of locking elements of the actuating part are mutually spaced in the actuation direction. 4. The terminal block according to claim 1 , wherein each connector module comprises at least one mating element which, in the locked position, is engaged in a locking manner in an associated locking element of the actuating part. 5. The terminal block according to claim 1 , wherein the actuating part comprises two arms that each comprise a plurality of locking elements. 6. The terminal block according to claim 5 , wherein the two arms extend in parallel with one another in the actuation direction. 7. The terminal block according to claim 5 , wherein the arms extend on either side of the at least one base strip such that the at least one base strip is arranged between the arms. 8. The terminal block according to claim 5 , wherein the arms are longitudinally guided on the at least one base strip in the actuation direction. 9. The terminal block according to claim 5 , wherein the locking elements of the arms are opposite one another in pairs when viewed in a transverse direction transverse to the actuation direction in which the arms are mutually spaced. 10. The terminal block according to claim 5 , wherein the connector modules each comprise a pair of mating elements which, in the locked state, are engaged in a locking manner in a pair of locking elements of the arms of the actuating part. 11. The terminal block according to claim 1 , wherein at least one of the locking elements of the actuating part or the mating elements of the connector modules are in each case formed in the shape of a hook, comprising a head which, when the actuating part is in the locked position, is configured to engage in an associated engagement opening in the other element. 12. The terminal block according to claim 11 , wherein the head comprises an unlocking chamfer that extends obliquely to the insertion direction, the chamfer being configured to interact with the other element when force counter to the insertion direction is applied to an associated connector module not by the actuating part, and generates a force on the actuating part in the actuation direction. 13. The terminal block according to claim 1 , wherein the locking elements of the actuating part and the mating elements of the connector modules each comprise an ejection chamfer that extends obliquely to the insertion direction, the ejection chamfers of the locking elements and the ejection chamfers of the mating elements being configured to strike one another when the actuating part is actuated in the actuation direction, so as to cause the connector modules to be ejected counter to the insertion direction. 14. The terminal block according to claim 1 , wherein the ejection chamfers are arranged and formed on at least one of the locking elements or on the mating elements such that, when the actuating part is actuated in the actuation direction, the locking is first released and an ejection force is not generated on the connector modules counter to the insertion direction until the locking has been released. 15. The terminal block according to claim 1 , wherein the ejection chamfers of a plurality of locking elements of the actuating part are mutually spaced in the actuation direction, the spacings between ejection chamfers that are adjacent in the actuation direction differing. 16. The terminal block according to claim 1 , wherein the actuating part is spring-loaded towards its locked position, relative to the at least one base strip. 17. The terminal block according to claim 1 , wherein the connector modules each comprise at least one plug-in portion for insertion into a connector socket of the at least one base strip, the at least one plug-in portion comprising an ejection projection which interacts with a securing portion of the connector socket when the actuating part is actuated to eject the connector module, and therefore the connector module is prevented from falling out of the connector socket following actuation of the actuating part. 18. The terminal block according to claim 1 , wherein the at least one base strip extends in a row direction and, when in the inserted position, the connector modules are arranged side-by-side in the row direction. 19. The terminal block according to claim 18 , wherein the at least one base strip comprises a plurality of base strip modules that are attached side-by-side in the row direction in order to form the at least one base strip. 20. The terminal block according to claim 19 , wherein at least one connector module is configured to be attached to each base strip module. 21. The terminal block according to claim 1 , wherein the at least one base strip is configured to be connected to an electronic component and a predetermined number of single electrical conductors or connectors are configured to be connected to the connector modules. 22. An electronics housing comprising a terminal block according to claim 1 , wherein the terminal block is attached to the electronics housing in the at least one insertion direction. 23. An electronic device comprising an electronics housing according to claim 22 , wherein an electronic component is arranged in the electronics housing and the at least one base strip