Installation for treating biological liquid

The invention claimed is: 1. An installation for treating a biological liquid by chromatography, generally extending in a longitudinal direction of extension and comprising: at least one supply valve ( 20 b ) for supplying the biological liquid to treat, configured to be connected to at least one biological liquid supply container ( 130 ); at least one supply pump ( 30 ) disposed downstream of and connected to said at least one supply valve ( 20 b ); a plurality of instrument members disposed downstream of said at least one supply pump ( 30 ), including distribution valves ( 81 a - c , 82 a - c , 83 a - c ) and devices ( 78 a - c , 85 a - c , 86 a - c ) for measuring physico-chemical parameters of the biological liquid, and which are connected to said at least one supply pump ( 30 ); a plurality of chromatography columns ( 99 a - c ) disposed downstream of said plurality of instrument members, each of said plurality of chromatography columns ( 99 a - c ) being directly associated with and connected to at least some of said plurality of instrument members, and being configured to be supplied with the biological liquid by said at least one supply pump ( 30 ); a plurality of single-use pipes configured to be connected to said at least one supply valve, to said at least one supply pump, to said plurality of instrument members and to said plurality of chromatography columns, so as to form at least one supply line ( 200 ) for supplying the biological liquid to a treatment circuit of said installation; characterized in that said plurality of single-use pipes forming said at least one supply line ( 200 ) is arranged such that said plurality of chromatography columns ( 99 a - c ) may be mounted in parallel in said treatment circuit, depending on a first optional processing step implemented in the installation; a plurality of inlet valves ( 18 a - e ) configured to be connected to containers ( 138 - 142 ) for buffer products and to supply said treatment circuit for preparing, cleaning, elution and/or regeneration of said plurality of chromatography columns ( 99 a - c ); and at least one additional pump ( 32 ) disposed downstream of said plurality of inlet valves ( 18 a - e ) and upstream of, and connected to, said plurality of chromatography columns ( 99 a - c ), wherein pipes of said plurality of single-use pipes being configured to be connected to said plurality of inlet valves ( 18 a - e ) and to said at least one additional pump ( 32 ), so as to form at least one additional line ( 210 ), which extends substantially longitudinally, and in parallel to said at least one supply line ( 200 ), from respectively said plurality of inlet valves ( 18 a - e ) and said at least one supply valve ( 20 b ) to said plurality of instrument members disposed downstream of said at least one supply pump ( 30 ) and upstream of said plurality of chromatography columns ( 99 a - c ); characterized in that said plurality of chromatography columns ( 99 a - c ) are disposed relative to each other in a direction of extension generally transverse to said generally longitudinal direction of extension of said installation, and said plurality of instrument members are disposed along said direction of extension generally transverse to said generally longitudinal direction, and characterized in that the installation further comprises additional instrument supports ( 111 a - c ) disposed downstream of said plurality of chromatography columns ( 99 a - c ) and on which are mounted one or more additional measuring devices chosen from a conductivity sensor ( 113 a - c ), a pH sensor ( 114 a - c ), an air presence sensor, and a UV radiation sensor ( 115 a - c ), wherein a reduced length of said plurality of single-use pipes of the treatment circuit and said at least one supply line ( 200 ) minimizes a volume of the biological liquid inside the treatment circuit, promoting an equilibration between different steps of treatment by chromatography and a successive use of the plurality of chromatography columns ( 99 a - c ), and wherein said at least one additional pump ( 32 ) is configured to facilitate a recovery and preparation phase of at least one chromatography column of said plurality of chromatography columns ( 99 a - c ) in parallel to said at least one supply pump ( 30 ) facilitating a loading phase of said at least one chromatography column of said plurality of chromatography columns ( 99 a - c ). 2. An installation according to claim 1 , characterized in that said plurality of chromatography columns ( 99 a - c ) are arranged in a triangle. 3. An installation according to claim 1 , characterized in that said plurality of single-use pipes forming said at least one supply line ( 200 ) is arranged such that said plurality of chromatography columns ( 99 a - c ) may be mounted in series in said treatment circuit, depending on a second optional processing step implemented in the installation. 4. An installation according to claim 3 , characterized in that the installation further comprises at least one outlet valve ( 121 a - c , 122 a - c , 123 a - c ) disposed downstream of and connected to each of said plurality of chromatography columns ( 99 a - c ), said at least one outlet valve being connected, via a portion of said at least one supply line ( 200 ), to said distribution valves ( 81 a - c , 82 a - c , 83 a - c ) disposed upstream of and connected to another of said plurality of chromatography columns ( 99 a - c ). 5. An installation according to claim 4 , characterized in that at least one of said distribution valves and said at least one outlet valve are each provided with a valve body and with a valve head which extends from said valve body and which is provided to receive at least portions of said plurality of single-use pipes of said at least one supply line ( 200 ). 6. An installation according to claim 5 , characterized in that at least one of said distribution valves and/or said at least one outlet valve are three-way valves, wherein each three-way valve has two inlets and one outlet or one inlet and two outlets, and each three-way valve is provided with two channels ( 91 , 92 ) for receiving portions of said plurality of single-use pipes formed in said valve head, and a pinch mechanism configured to allow or prevent flow of said biological liquid in said portions of said plurality of single-use pipes received in said two channels ( 91 , 92 ). 7. An installation according to claim 1 , characterized in that some of said plurality of instrument members associated with said plurality of chromatography columns ( 99 a - c ) are mounted on dedicated control and actuation platforms ( 80 a - c ) which are disposed in the direction of extension generally transverse to the generally longitudinal direction of extension of the installation and which are above said plurality of chromatography columns. 8. An installation according to claim 7 , characterized in that said dedicated control and actuation platforms ( 80 a - c ) each comprise a support block ( 84 a - c ) which houses bodies of said distribution valves and from which heads of the distribution valves project laterally, as well as a support plate ( 89 a - c ) fastened on said support block and on which are mounted said one or more additional measuring devices, wherein said one or more additional measuring devices are chosen from a conductivity sensor ( 78 a - c ), a UV radiation sensor, a pH sensor ( 85 a - c ) and an air presence sensor ( 86 a - c ). 9. An installation according to claim 8 , characterized in that said dedicated control and actuation platforms ( 80 a - c ) are mounted on a first cart ( 2 ) and said plurality of chromatograph