Dispenser system

The invention claimed is: 1. A dispenser system comprising a storage vessel for storing a medium with at least one outlet valve, a refillable dispenser module with a medium chamber which can be filled with a medium, with a pumping apparatus which has an inlet channel and can be actuated for discharging the medium out of the medium chamber, and with at least one inlet valve, and an actuating apparatus, wherein the medium chamber is designed as a closed chamber with a variable volume, the dispenser module can be coupled to the storage vessel for filling the medium chamber, the at least one inlet valve and the at least one outlet valve being open in a forcibly actuated or pressure-loaded manner during filling, with the result that the medium chamber communicates with the storage vessel, the at least one inlet valve and the at least one outlet valve are closed in a disconnected state of the dispenser module and the storage vessel, and a volume of the medium chamber can be enlarged by means of the actuating apparatus during or after the coupling of the dispenser module and the storage vessel in order to generate a differential pressure between the medium chamber and the storage vessel, a pressure in the storage vessel being higher than in the medium chamber, in order to convey the medium out of the storage vessel into the medium chamber, wherein the actuating apparatus has at least one magnet and at least one at least partially magnetic or magnetizable element that interacts with the at least one magnet for a volume change of the medium chamber. 2. The dispenser system as claimed in claim 1 , wherein the actuating apparatus additionally has pressure generation elements, that can generate an increased pressure in the storage vessel, in order to convey medium out of the storage vessel into the medium chamber. 3. The dispenser system as claimed in claim 1 , wherein the dispenser module and the storage vessel have coupling elements that are complementary to one another for repeatable, functional coupling that can be released without destruction, the at least one inlet valve and the at least one outlet valve being open in a forcibly actuated or pressure-loaded manner, in a coupled state, at least temporarily during an actuation of the pumping apparatus, in order to bring about conveying of the medium out of the storage vessel in the coupled state. 4. The dispenser system as claimed in claim 3 , wherein the coupling elements form a plug-in connection, a bayonet closure and/or a magnetic closure. 5. The dispenser system as claimed in claim 1 , wherein the at least one inlet valve and the at least one outlet valve have two interacting force-loaded valve pistons that are adjusted into an open position in a coupled state. 6. The dispenser system as claimed in claim 1 , wherein the medium chamber has a main chamber with a variable volume and a connector chamber with a constant volume that communicates with the main chamber and has the at least one inlet valve, the inlet channel of the pumping apparatus opening into the connector chamber. 7. The dispenser system as claimed in claim 6 , wherein, in a coupled state, a force that counteracts conveying of the medium out of the main chamber into the connector chamber is greater than a force that counteracts conveying of the medium out of the storage vessel into the connector chamber. 8. The dispenser system as claimed in claim 6 , wherein the main chamber and the connector chamber communicate with one another via a connecting section that is configured as an annular gap. 9. The dispenser system as claimed in claim 1 , wherein the medium chamber has a trailer piston. 10. The dispenser system as claimed in claim 9 , wherein the actuating apparatus has the at least one magnet that is arranged on the storage vessel and the at least one at least partially magnetic or magnetizable element that is arranged on the trailer piston or is configured in one piece with the trailer piston and interacts with the at least one magnet for a volume change of the medium chamber. 11. The dispenser system as claimed in claim 1 , wherein the storage vessel has at least one closed chamber with a variable volume that stores the medium.