Valve housing and valve

What is claimed is: 1 . A housing for fluidically connecting an exhaust gas line to an exhaust gas heat exchanger, comprising: a) a main flow channel of the housing that extends in a direction of a central axis (X) from an inlet opening to an outlet opening, with an average flow cross section (SQ); b) in the housing there is provided at least one opening which is arranged coaxially to a valve axis (Z) for a valve shaft, c) on the housing ( 1 ) there is provided at least one bypass opening, formed by a connecting piece with an average bypass cross section (BQ) for connecting an exhaust gas heat exchanger between the inlet opening and the outlet opening, wherein the connecting piece is formed circumferentially around a bypass axis (Y), d) the housing is formed by a maximum of two deep-drawn sub-shells made of sheet metal, executed as an upper shell and a lower shell, which respectively form one of two parts of a main flow channel which complement one another to form a whole, said main flow channel extending in the main direction of flow (S) from the inlet opening to the outlet opening, e) the two sub-shells made up of a one-piece, deep-drawn sheet metal part form a single-piece housing f) there is arranged in the bypass opening at least one intermediate wall, by which the bypass opening is divided into an intake opening and into a discharge opening, and is thus configured with a double flow. 2 . The housing according to claim 1 , wherein the connecting piece, made up partially of the upper shell and partially of the lower shell, complementarily form(s) an entire circumferential connecting piece around the bypass axis. 3 . The housing according to claim 1 , wherein the entire connecting piece in one of the two sub-shells is deep-drawn. 4 . (canceled) 5 . A valve having a housing according to claim 1 , wherein the housing comprises two openings which are aligned in the direction of the valve axis (Z), in which the valve shaft is rotatably arranged around the valve axis (Z), wherein the opening for the valve bearing is configured as a passage or as a bore and/or comprises a circumferential collar around the valve axis (Z), wherein a valve flap is arranged on the valve shaft. 6 . The valve according to claim 5 , wherein there is arranged on the valve flap a sealing element which is fixed to the valve shaft, projects from the valve shaft in a radial direction to the valve axis (Z) and which can be positioned in the direction of flow (S) in front of the intermediate wall. 7 . The valve according to claim 5 , wherein the valve shaft is configured as a hollow shaft and is rotatably supported on a valve pin, wherein the valve pin is fixed to the housing. 8 . The valve according to claim 5 , wherein the valve flap is configured profiled in a direction at right angles to the valve axis (Z) in such a way that at least one edge area forms a step which diverts a filament of flow (SN) of the exhaust gas stream received on the valve flap about an angle (α) between 5° and 45° in the direction of a central plane (M) of the housing. 9 . The valve according to claim 5 , wherein the valve flap can be brought to bear directly against the upper shell and directly against the lower shell. 10 . The valve according to claim 5 , wherein the valve axis (Z) is arranged on the housing in a radial direction to the valve axis (Z) offset from the central axis (X) by a dimension which corresponds to at least 30% of the average diameter of the main flow channel. 11 . A method according to claim 5 including the step of: firmly bonding the valve for positively connection and/or connection to an exhaust gas heat exchanger. 12 . A method for manufacturing a housing according to claim 1 , including the step of manufacturing the main flow channel and the bypass opening at the same time as one another by deep-drawing. 13 . A method for operating a valve according to claim 5 , including the step of: in which, in order to open the main flow channel completely and to the maximum extent, only the intake opening or the first bypass opening in the direction of flow (S) is sealed by means of the valve flap. 14 . A system consisting of a valve according to claim 5 and at least one converter as well as at least one exhaust pipe for an exhaust gas system for an internal combustion engine. 15 . The housing according to claim 2 , wherein the entire connecting piece in one of the two sub-shells is deep-drawn. 16 . The housing according to claim 15 , wherein the housing comprises two openings which are aligned in the direction of the valve axis (Z), in which the valve shaft is rotatably arranged around the valve axis (Z), wherein the opening for the valve bearing is configured as a passage or as a bore and/or comprises a circumferential collar around the valve axis (Z), wherein a valve flap is arranged on the valve shaft. 17 . The valve according to claim 16 , wherein there is arranged on the valve flap a sealing element which is fixed to the valve shaft, projects from the valve shaft in a radial direction to the valve axis (Z) and which can be positioned in the direction of flow (S) in front of the intermediate wall, and wherein the valve shaft is configured as a hollow shaft and is rotatably supported on a valve pin, wherein the valve pin is fixed to the housing. 18 . The valve according to claim 17 , wherein the valve flap is configured profiled in a direction at right angles to the valve axis (Z) in such a way that at least one edge area forms a step which diverts a filament of flow (SN) of the exhaust gas stream received on the valve flap about an angle (α) between 5° and 45° in the direction of a central plane (M) of the housing, and wherein the valve flap can be brought to bear directly against the upper shell and directly against the lower shell. 19 . The valve according to claim 18 , the valve axis (Z) is arranged on the housing in a radial direction to the valve axis (Z) offset from the central axis (X) by a dimension which corresponds to at least 30% of the average diameter of the main flow channel.