Plug-in system and apparatus comprising a plug-in system

The invention claimed is: 1. A plug-in system, comprising: a docking device having a first plug-in module that is bidirectionally displaceable parallel to a connection direction and having at least one spring arm; and a second plug-in module that can be connected to the first plug-in module in the connection direction, wherein the first plug-in module and the second plug-in module each have at least one line end portion of a data transmission line that are in contact with each other after the first plug-in module and the second plug-in module are connected, wherein the first plug-in module and the second plug-in module can be changed over between a separated state, in which the second plug-in module and the docking device are separated from each other and the spring arm delimits a displacement of the first plug-in module at least in the connection direction, and a docked state, in which the first plug-in module and the second plug-in module are connected to each other and the first plug-in module assumes a position that can be attained by a displacement of the first plug-in module that exceeds the delimitation in the connection direction, and wherein, when the plug-in system is being changed over from the separated state to the docked state, the second plug-in module moves in the connection direction and elastically deforms the spring arm while the first plug-in module initially remains stationary, as a result of which the spring arm releases the first plug-in module for a displacement beyond the delimitation in the connection direction. 2. The plug-in system as claimed in claim 1 , in which, in the docked state, the spring arm blocks a displacement of the first plug-in module and/or of the second plug-in module in the connection direction. 3. The plug-in system as claimed in claim 1 , in which, in the separated state, the spring arm delimits a displacement of the first plug-in module contrary to the connection direction. 4. The plug-in system as claimed in claim 1 , which is designed to assume at least one intermediate state, between the separated state and the docked state, in which the first plug-in module and the second plug-in module are connected to each other, and the first plug-in module is displaced farther, relative to its position when the plug-in system is in the separated state, and is displaced less far in the connection direction relative to its position when the plug-in system is in the docked state. 5. A facility having a receiver, at least one element that is displaceable with respect to the receiver, and at least one plug-in system as claimed in claim 1 , wherein either the docking device or the second plug-in module is connected to the displaceable element, and the plug-in system can be changed over between the separated state and the docked state by displacement of the element relative to the receiver. 6. The facility as claimed in claim 5 , which has at least one current contact that can be contacted to the displaceable element, wherein the displaceable element contacts the current contact when the plug-in system is in the docked state. 7. The plug-in system as claimed in claim 1 , wherein the spring arm is a cantilevered arm structure that extends in a direction opposite to the connection direction. 8. The plug-in system as claimed in claim 1 , wherein the spring arm is an elongate structure with a free end. 9. The plug-in system as claimed in claim 1 , wherein the spring arm is configured to flex away from the first plug-in module in response to direct contact by the second plug-in module when the plug-in system is being changed over from the separated state to the docked state. 10. The plug-in system as claimed in claim 1 , wherein the docking device comprises opposing spring arms with diverging ends that are configured to insertably receive the second plug-in module in the connection direction. 11. A plug-in system, comprising: a docking device having a first plug-in module that is bidirectionally displaceable parallel to a connection direction, and having opposing spring arms located on opposite sides of the first plug-in module; and a second plug-in module that can be connected to the first plug-in module in the connection direction, wherein the first plug-in module and the second plug-in module can be changed over between a separated state, in which the second plug-in module and the docking device are separated from each other and the opposing spring arms delimit a displacement of the first plug-in module in the connection direction, and a docked state, in which the first plug-in module and the second plug-in module are connected to each other and the first plug-in module assumes a position in which the first plug-in module exceeds the delimitation in the connection direction, and wherein, when the plug-in system is changed over from the separated state to the docked state, the second plug-in module moves in the connection direction and elastically deforms the opposing spring arms while the first plug-in module initially remains stationary, as a result of which the opposing spring arms release the first plug-in module for a displacement beyond the delimitation in the connection direction. 12. The plug-in system as claimed in claim 11 , wherein the first plug-in module and the second plug-in module each have at least one line end portion of a data transmission line that are in contact with each other after the first plug-in module and the second plug-in module are connected. 13. The plug-in system as claimed in claim 11 , wherein each of the opposing spring arms is a cantilevered arm structure that extends in a direction opposite to the connection direction. 14. The plug-in system as claimed in claim 11 , wherein each of the opposing spring arms is an elongate structure with a free end. 15. The plug-in system as claimed in claim 11 , wherein each of the opposing spring arms is configured to flex away from the first plug-in module in response to direct contact by the second plug-in module when the plug-in system is being changed over from the separated state to the docked state. 16. The plug-in system as claimed in claim 11 , wherein the opposing spring arms have diverging ends that are configured to insertably receive the second plug-in module in the connection direction.