Valve switching system for selectively interconnecting components of a bioprocess installation

The invention claimed is: 1. A valve switching system for selectively interconnecting components of a bioprocess installation, comprising a valve switching cassette and an actuator block, wherein the valve switching cassette comprises a cassette manifold with at least one fluid flow system of ports and fluid lines, which includes primary ports, communicating with primary fluid lines, and secondary ports, communicating with secondary fluid lines, wherein the valve switching cassette comprises an array of switchable valve units for selectively interconnecting the primary fluid lines with the secondary fluid lines via transfer fluid lines, wherein the valve units each comprise a valve seat, wherein the valve switching cassette comprises a valve membrane structure, that can selectively engage the valve seats as to switch the valve units, wherein the actuator block comprises an actuator block body with an actuator for each valve unit, wherein the valve switching cassette comprises a perforated sandwich plate with perforation holes, which sandwich plate is placed between the cassette manifold and the actuator block body, that the valve membrane structure is placed between the cassette manifold and the sandwich plate and wherein a gasket membrane structure is placed between the actuator block body and the sandwich plate and that for selectively switching the valve units, an actuator of the actuator block can act on the valve membrane structure through the perforation holes as to selectively engage the valve seats and that the valve membrane structure comprises at least one valve membrane, which is composed of a first material and that the gasket membrane structure comprises at least one gasket membrane, which is composed of a second material different from the first material. 2. The valve switching system according to claim 1 , wherein the first material comprises a higher degree of hardness than the second material, and/or, that the second material has a higher degree of porosity than the first material, and/or, that at least one valve membrane is thinner than at least one gasket membrane. 3. The valve switching system according to claim 1 , wherein the first material is a first elastomer and the second material is a second elastomer different from the first elastomer. 4. The valve switching system according to claim 1 , wherein at least one valve membrane of the valve membrane structure is composed of a fluorocarbon-based fluoroelastomer material, and/or, that at least one gasket membrane of the gasket membrane structure is composed of a thermoplastic polyester or a thermoplastic vulcanizate or polychloroprene. 5. The valve switching system according to claim 1 , wherein the gasket membrane structure is perforated with perforation holes and that at least part of the perforation holes of the gasket membrane structure are aligned to at least part of the perforation holes of the sandwich plate. 6. The valve switching system according to claim 1 , wherein that the cassette manifold and/or the sandwich plate comprise(s) grooves for inserting the valve membrane structure and/or the gasket membrane structure. 7. The valve switching system according to claim 1 , wherein at least part of the perforation holes of the sandwich plate and of the perforation holes of the gasket membrane structure are aligned to the valve seats of the valve units. 8. The valve switching system according to claim 1 , wherein the valve membrane and/or the gasket membrane comprise(s) membrane stripes. 9. The valve switching system according to claim 1 , wherein the sandwich plate is sealingly engaged with the cassette manifold, encapsulating and/or securing the valve membrane structure. 10. The valve switching system according to claim 1 , wherein the valve membrane structure and/or the gasket membrane structure is/are secured to the sandwich plate. 11. The valve switching system according to claim 1 , wherein each actuator of the actuator block comprises an actuation outlet communicating with an assigned valve seat through a perforation hole of the sandwich plate. 12. A bioprocess installation, comprising a chromatography arrangement with multiple chromatography columns, that are connected to a valve switching system according to claim 1 for performing a simulated bed chromatography process. 13. A method comprising switching chromatography columns of a chromatography arrangement for performing a simulated bed chromatography process with the valve switching system according to claim 1 . 14. The valve switching system according to claim 1 , wherein the valve membrane structure and/or the gasket membrane structure is/are secured to the sandwich plate by an adhesive. 15. The valve switching system according to claim 11 , wherein the actuation outlet is a gas pressure outlet or a liquid pressure outlet.