Domestic appliance for drying a humid product, comprising a cooling assembly and a heating assembly

The invention claimed is: 1. A domestic appliance for drying a damp product by means of a process air stream conducted in a process air channel, the domestic appliance comprising: a treatment chamber that is configured to receive the damp product, wherein the process air channel is configured so that the process air stream flows through the treatment chamber; a cooling assembly configured to cool and condense the process air stream after the process air stream flows through the treatment chamber, the cooling assembly having a first heat exchanger to supply heat from the process air stream to a working fluid, wherein the process air stream is configured to flow through the cooling assembly; a heating assembly downstream of the cooling assembly configured to heat the process air stream before the process air stream flows through the treatment chamber, the heating assembly having a second heat exchanger configured to supply heat from the working fluid to the process air stream, wherein the process air stream is configured to flow through the heating assembly; and a heat pump configured to operate according to a Vuilleumier gas cycle process and in which the working fluid is conducted, the heat pump having a cold displacement piston and a hot displacement piston that are mechanically coupled as part of a free-piston vibrating system and at least in part define a cold working volume and hot working volume, respectively, wherein the cold displacement piston has a higher mass than the hot displacement piston and the heat pump is configured to reduce piston stroke so that drying capacity of the process air stream is reduced as temperature difference between the cold working volume and the hot working volume increases. 2. The domestic appliance of claim 1 , further comprising a spring element that couples the cold displacement piston and the hot displacement piston. 3. The domestic appliance of claim 2 , wherein the spring element has a spring constant between 3 N/mm and 15 N/mm. 4. The domestic appliance of claim 3 , wherein the spring constant is between 6 N/mm and 7 N/mm. 5. The domestic appliance of claim 2 , wherein the spring element is received in the cold displacement piston. 6. The domestic appliance of claim 5 , wherein the cold displacement piston has a weight between 3 kg and 6 kg. 7. The domestic appliance of claim 6 , wherein the weight is between 4 kg and 5 kg. 8. The domestic appliance of claim 1 , wherein the hot displacement piston has a weight between 1 kg and 2 kg. 9. The domestic appliance of claim 1 , wherein the cold displacement piston and the hot displacement piston have a respective piston diameter between 75 mm and 200 mm. 10. The domestic appliance of claim 9 , wherein the respective piston diameter is between 100 mm and 150 mm. 11. The domestic appliance of claim 1 , wherein the cold displacement piston and the hot displacement piston have a respective piston stroke between 25 mm and 75 mm. 12. The domestic appliance of claim 11 , wherein the respective piston stroke is between 30 mm and 50 mm. 13. The domestic appliance of claim 1 , wherein a respective middle pressure between the cold displacement piston and the hot displacement piston is between 20 bar and 75 bar. 14. The domestic appliance of claim 13 , wherein the respective middle pressure is between 30 bar and 50 bar. 15. The domestic appliance of claim 1 , wherein the cold displacement piston has a recess to least partially receive a body that is fixedly arranged in a working volume, the body immersing into the recess as a function of a stroke of the cold displacement piston. 16. The domestic appliance of claim 15 , wherein the body has a cylindrical shape. 17. The domestic appliance of claim 16 , wherein the body has a diameter between 25 mm and 75 mm. 18. The domestic appliance of claim 17 , wherein the diameter is between 40 mm and 50 mm. 19. The domestic appliance of claim 1 , wherein the cold displacement piston and the hot displacement piston run in a common cylinder. 20. The domestic appliance of claim 1 , wherein the cold displacement piston and the hot displacement piston run collinearly. 21. The domestic appliance of claim 1 , wherein the cold displacement piston and the hot displacement piston are arranged in a bottom group structure. 22. A method for drying a damp product by means of a process air stream conducted in a process air channel, the method comprising: conducting the process air stream through: a treatment chamber that includes the damp product, a cooling assembly that cools the process air stream and condenses moisture from the process air stream after the process air stream has passed through the treatment chamber, and a heating assembly that heats the process air stream before the process air stream flows through the treatment chamber; supplying heat from the process air stream to a working fluid in the cooling assembly; supplying heat from the working fluid to the process air stream in the heating assembly; conveying the working fluid in a regenerative gas cycle process which includes a Vuilleumier gas cycle process and which drives a cold displacement piston and a hot displacement piston that are mechanically coupled to each other as part of a free-piston vibrating system and at least in part define a cold working volume and hot working volume, respectively, wherein the cold displacement piston has a higher mass than the hot displacement piston; and reducing an amount of drying applied to the process air stream as a temperature difference between the cold working volume and the hot working volume increases. 23. The method of claim 22 , wherein the cold displacement piston and the hot displacement piston are driven in a speed-controlled manner. 24. The domestic appliance of claim 1 , further comprising a first regenerator and a second regenerator through which the working fluid is configured to flow when flowing between the cold working volume and the hot working volume, wherein a direction of the piston stroke, a portion of the process air stream through the cooling assembly, a portion of the process air stream through the heating assembly, a portion of flow through the first regenerator and a portion of flow through the second regenerator are all parallel and coplanar.