Linear actuator and method for operating such a linear actuator

The invention claimed is: 1. A linear actuator comprising: a solenoid pump having: a housing; at least two pump coils, each pump coil having a pump coil yoke; a multi-way valve; at least one pump armature positioned within the housing of the solenoid pump, wherein the at least one pump armature is movable by energizing one pump coil of the at least two pump coils; at least one flow-conducting device by which the pump coil yokes of the at least two pump coils are connected to one another in a flow-conducting manner; and a switching armature positioned within the housing of the solenoid pump between the at least two pump coils, wherein the switching armature is movable by energizing one pump coil of the at least two pump coils, wherein the multi-way valve is switchable by movement of the switching armature. 2. The linear actuator of claim 1 , wherein the multi-way valve is or exhibits a 4/2-way valve. 3. The linear actuator of claim 1 , wherein in the solenoid pump, the at least one pump armature is connected with a magnetic flow to a pump coil yoke, wherein the switching armature is connected with the magnetic flow to the pump coil yoke, and wherein the magnetic flow is configured to operate the solenoid pump and, at a same time, switch the multi-way valve. 4. The linear actuator of claim 1 , wherein the at least one pump armature is movable between the pump coil yokes. 5. The linear actuator of claim 1 , wherein the at least one flow-conducting device and the pump coil yokes are configured in one piece with one another. 6. The linear actuator of claim 1 , wherein the at least one flow-conducting device or at least one pump coil yoke of the pump coil yokes comprises a permanent magnet, or wherein the permanent magnet is arranged on the at least one flow-conducting device or the at least one pump coil yoke. 7. The linear actuator of claim 6 , wherein the permanent magnet is configured to generate a magnetic flow for the switching armature. 8. The linear actuator of claim 7 , wherein the at least two pump coils are electrically switched, or wherein the at least two pump coils are arranged such that a magnetic flow generated by the at least two pump coils counteracts the magnetic flow generated by the permanent magnet at least in a region of the flow-conducting device, at least one pump coil yoke of the pump coil yokes, or both the flow-conducting device and the at least one pump coil yoke of the pump coil yokes. 9. The linear actuator of claim 1 , wherein the solenoid pump exhibits only a single pair of conductors, by which the solenoid pump is connected electrically. 10. The linear actuator of claim 9 , wherein the single pair of conductors is in electrical contact with the at least two pump coils. 11. The linear actuator of claim 9 , wherein the solenoid pump comprises diodes, by which positive signal portions of a signal that is present on the single pair of conductors or a pair of conductor terminations is transmittable to a first pump coil of the at least two pump coils, and negative signal portions are transmittable to a second pump coil of the at least two pump coils. 12. A method for operating a linear actuator, the method comprising: providing the linear actuator comprising a solenoid pump, the solenoid pump having: a housing; at least two pump coils, each pump coil having a pump coil yoke; a multi-way valve; at least one pump armature positioned within the housing of the solenoid pump, wherein the at least one pump armature is movable by energizing one pump coil of the at least two pump coils; at least one flow-conducting device by which the pump coil yokes of the at least two pump coils are connected to one another in a flow-conducting manner; and a switching armature positioned within the housing of the solenoid pump between the at least two pump coils; wherein the switching armature is movable by energizing one pump coil of the at least two pump coils, and wherein the multi-way valve is switchable by movement of the switching armature; setting the switching armature in a predetermined position in relation to a position of the multi-way valve, the setting comprising the energization of the at least two pump coils; and moving the pump armature while maintaining the predetermined position, the moving of the pump armature while maintaining the predetermined position comprising energizing the at least two pump coils. 13. The method of claim 12 , wherein the at least two pump coils are energized to a lesser degree for the movement of the pump armature than for the movement of the switching armature. 14. The linear actuator of claim 1 , wherein the solenoid pump is a dual-chamber solenoid pump. 15. The linear actuator of claim 7 , wherein the magnetic flow is configured to be conducted through the flow-conducting device. 16. A linear actuator comprising: a solenoid pump having: at least two pump coils; a multi-way valve; at least one pump armature integrated within the solenoid pump, wherein the at least one pump armature is movable by energizing one pump coil of the at least two pump coils; a switching armature integrated within the solenoid pump, by which the multi-way valve is switchable, wherein the switching armature is movable by energizing one pump coil of the at least two pump coils; and at least one flow-conducting device, wherein a magnetic flow is configured to be conducted through the at least one flow-conducting device, and wherein the magnetic flow is configured to operate the solenoid pump and, at a same time, switch the multi-way valve.