Valve having a metal-bellows/piston unit

The invention claimed is: 1. A valve ( 1 ) comprising a valve housing ( 4 ) and a closing body ( 3 ) arranged in a longitudinally moveable manner in the valve housing ( 4 ), wherein at least one inlet channel ( 5 ) and at least one outlet channel ( 6 ) are arranged in the valve housing ( 4 ), wherein the closing body ( 3 ) interacts by longitudinal movement with a valve seat ( 8 ) formed in the valve housing ( 4 ) and thereby opens and closes at least one hydraulic connection between the at least one inlet channel ( 5 ) and the at least one outlet channel ( 6 ), characterized in that the closing body ( 3 ) is drivable by a metal-bellows/cylinder unit ( 2 ), wherein the metal-bellows/cylinder unit ( 2 ) has a length-variable metal bellows ( 20 ), wherein the metal bellows ( 20 ) bounds a volume-variable working chamber ( 23 ) in a sealing manner, wherein the closing body ( 3 ) comprises a first closing cylinder ( 3 a ) and a second closing cylinder ( 3 b ), wherein the first closing cylinder ( 3 a ) interacts with the valve seat ( 8 ), and wherein the second closing cylinder ( 3 b ) interacts with a further valve seat ( 8 b ) formed in the valve housing ( 4 ). 2. The valve ( 1 ) as claimed in claim 1 , characterized in that the metal-bellows/cylinder unit ( 2 ) comprises a first cylinder ( 22 ), wherein the first cylinder ( 22 ) is arranged displaceably with respect to the valve housing ( 4 ). 3. The valve ( 1 ) as claimed in claim 2 , characterized in that the metal-bellows/cylinder unit ( 2 ) comprises a second cylinder ( 21 ), wherein the second cylinder ( 21 ) is fixedly connected to the valve housing ( 4 ). 4. The valve ( 1 ) as claimed in claim 2 , characterized in that the first cylinder ( 22 ) interacts with the closing body ( 3 ). 5. The valve ( 1 ) as claimed in claim 2 , characterized in that the first cylinder ( 22 ) and the closing body ( 3 ) are a single part. 6. The valve ( 1 ) as claimed in claim 3 , characterized in that a cylinder bore ( 21 a ) is formed in the second cylinder ( 21 ), and in that a volume-variable additional volume ( 20 a ) which, together with the cylinder bore ( 21 a ), forms the working chamber ( 23 ) is formed in an interior of the metal bellows ( 20 ) between the first cylinder ( 22 ) and the second cylinder ( 21 ). 7. The valve ( 1 ) as claimed in claim 3 , characterized in that a blind hole bore ( 22 a ) is formed in the first cylinder ( 22 ), in that a cylinder bore ( 21 a ) is formed in the second cylinder ( 21 ), and in that a volume-variable additional volume ( 20 a ) is formed in an interior of the metal bellows ( 20 ) between the first cylinder ( 22 ) and the second cylinder ( 21 ), wherein the blind hole bore ( 22 a ) together with the cylinder bore ( 21 a ) and the additional volume ( 20 a ) forms the working chamber ( 23 ). 8. The valve ( 1 ) as claimed in claim 6 , characterized in that the working chamber ( 23 ) is finable by a control unit ( 50 ) with a working fluid, wherein the cylinder bore ( 21 a ) is connected to the control unit ( 50 ) by a connecting line ( 54 ). 9. The valve ( 1 ) as claimed in claim 1 , characterized in that a further outlet channel ( 6 b ) is arranged in the valve housing ( 4 ), wherein the second closing cylinder ( 3 b ) interacts with the further valve seat ( 8 b ) and thereby opens and closes a further hydraulic connection between the inlet channel ( 5 ) and the further outlet channel ( 6 b ). 10. The valve ( 1 ) as claimed in claim 9 , characterized in that, in a first valve position of the valve ( 1 ), the at least one hydraulic connection is open and the further hydraulic connection is closed, and in that, in a second valve position of the valve ( 1 ), the at least one hydraulic connection is closed and the further hydraulic connection is open. 11. A waste heat recovery system ( 100 ) comprising a circuit ( 100 a ) conducting a working medium, wherein the circuit ( 100 a ) comprises a collecting container ( 101 ), a pump ( 102 ), an evaporator ( 103 ), a bypass valve ( 1 ), an expansion machine ( 104 ) and a condenser ( 105 ) in a direction of flow of the working medium, wherein a bypass line ( 106 ) is arranged parallel to the expansion machine ( 104 ), and wherein the bypass valve ( 1 ) controls a mass flow of the working medium to the expansion machine ( 104 ) and to the bypass line ( 106 ), characterized in that the bypass valve ( 1 ) is a valve ( 1 ) as claimed in claim 9 . 12. A waste heat recovery system ( 100 ′) comprising a circuit ( 100 a ′) conducting a working medium, wherein the circuit ( 100 a ′) comprises a collecting container ( 101 ′), a pump ( 102 ′), a distributor valve ( 1 ), two evaporators ( 103 a , 103 b ) in a parallel connection, an expansion machine ( 104 ′) and a condenser ( 105 ′) in a direction of flow of the working medium, wherein the distributor valve ( 1 ) controls mass flows of the working medium to the two evaporators ( 103 a , 103 b ), characterized in that the distributor valve ( 1 ) is a valve ( 1 ) as claimed in claim 9 . 13. The valve ( 1 ) as claimed in claim 2 , characterized in that the metal-bellows/cylinder unit ( 2 ) comprises a second cylinder ( 21 ), wherein the second cylinder ( 21 ) is fixedly screwed to the valve housing ( 4 ). 14. The valve ( 1 ) as claimed in claim 7 , characterized in that the working chamber ( 23 ) is fillable by a control unit ( 50 ) with a working fluid, wherein the cylinder bore ( 21 a ) is connected to the control unit ( 50 ) by a connecting line ( 54 ).