Apparatus for the Continuous Hot Dip Coating of a Metal Strip and associated Method

What is claimed is: 1 - 31 . (canceled) 32 . An apparatus for the continuous hot dip coating of a metal strip, comprising: a vessel having a liquid metal bath; a bottom roller arranged in the vessel, the bottom roller for immersing in the liquid metal bath; a displacement casing for the metal strip having a lower end for immersing in the liquid metal bath to define a liquid metal seal with a surface of the liquid metal bath and an inside of the displacement casing; the displacement casing including an upper portion and a lower portion, the lower portion bearing a pouring box delimiting at least two liquid metal pouring compartments, each of the at least two liquid metal pouring compartments being inwardly delimited by an inner wall, the inner walls including an upper rim, the upper rim of each inner wall being arranged below the liquid metal seal to produce a flow from the liquid metal seal into each of the at least two liquid metal pouring compartments, the displacement casing with the pouring box being rotatable relative to the metal strip around a first rotation axis; and the pouring box being rotatable relative to the upper portion of the displacement casing around a second rotation axis, the second rotation axis being substantially parallel to the first rotation axis. 33 . The apparatus as recited in claim 32 , wherein an articulation allowing rotation of the pouring box relative to the upper portion of the displacement casing is a pivot link. 34 . The apparatus as recited in claim 32 , wherein a distance between the second rotation axis and each upper rim of each inner wall is less than or equal to 2500 mm. 35 . The apparatus as recited in claim 32 further comprising: at least one pump to extract a liquid metal from the at least two liquid metal pouring compartments; at least one suction tubing connecting each of the at least two liquid metal pouring compartments to the at least one pump; and a discharge tubing for discharging the liquid metal from the at least two liquid metal pouring compartments into the liquid metal bath, wherein the at least one pump, the at least one suction tubing and discharge tubing being mounted stationary relative to the pouring box. 36 . The apparatus as recited in claim 32 , further comprising: a first actuator for rotating the displacement casing around the first rotation axis relative to the metal strip; and a second actuator for rotating the pouring box relative to the upper portion of the displacement casing around the second rotation axis. 37 . The apparatus as recited in claim 36 , further comprising: an incline sensor to measure an incline angle of the pouring box relative to a horizontal plane. 38 . The apparatus as recited in claim 37 , further comprising: a controller for the second actuator based on the incline angle measured by the incline sensor. 39 . The apparatus as recited in claim 32 , further comprising: a viewing tool for viewing a position of each inner wall of the at least two liquid metal pouring compartments relative to the metal strip. 40 . The apparatus as recited in claim 32 , further comprising: a reservoir for viewing a level of liquid metal in the at least two liquid metal pouring compartments, the reservoir arranged outside the displacement casing and connected to a base of each of the at least two liquid metal pouring compartments by at least one connecting pipe, the reservoir is mounted stationary relative to the pouring box. 41 . The apparatus as recited in claim 32 , further comprising: an adjustment device to adjust a horizontality of the upper rims of each inner wall of the pouring boxes. 42 . The apparatus as recited in claim 32 , wherein the pouring box is stationary relative to the lower portion of the displacement casing and the lower portion of the displacement casing is mounted rotatably around the second rotation axis on the upper portion of the displacement casing. 43 . The apparatus as recited in claim 42 , wherein outer walls of the pouring box are formed by side walls of the lower portion of the displacement casing. 44 . The apparatus as recited in claim 42 , wherein the second rotation axis is located outside the liquid metal bath. 45 . The apparatus as recited in claim 42 , wherein an articulation allowing rotation of the pouring box relative to the upper portion of the displacement casing is a pivot link, the pivot link including an upper articulation arm secured to the upper portion of the displacement casing and a lower articulation arm secured to the lower portion of the displacement casing, the upper and lower articulation arms being rotatably connected via a shaft segment. 46 . The apparatus as recited in claim 32 , wherein the pouring box is rotatably mounted on the lower portion of the displacement casing. 47 . The apparatus as recited in claim 46 , wherein the pouring box is inserted into the displacement casing at the lower end thereof. 48 . The apparatus as recited in claim 46 , wherein one of the lower portion of the displacement casing or the pouring box includes rotational guide bearings, and another one of the lower portion of the displacement casing or the pouring box includes journals, each journal being received in a respective guide bearing to provide rotational guiding of the pouring box around the second rotation axis. 49 . The apparatus as recited in claim 46 , wherein the second rotation axis is configured to be immersed in the liquid metal bath. 50 . The apparatus as recited in claim 49 , further comprising: a sealing gasket arranged between the pouring box and the lower portion of the displacement casing in order to prevent liquid metal from penetrating between the pouring box and the displacement casing. 51 . The apparatus as recited in claim 46 , wherein the second rotation axis is arranged below the upper rim of each of the at least two liquid metal pouring compartments when the pouring box is horizontal. 52 . The apparatus as recited in claim 32 , wherein one of the at least two liquid metal pouring compartments is a rear pouring compartment located on a side of a face of the metal strip placed opposite the bottom roller, and the rear pouring compartment is outwardly delimited by an outer wall, the outer wall and the passage plane of the metal strip form, in a usage configuration of the apparatus, an angle greater than zero. 53 . The apparatus as recited in claim 52 , wherein the outer wall of the rear pouring compartment is vertical in the usage configuration of the apparatus. 54 . A method for continuous hot dip coating of a metal strip using a coating apparatus as recited in claim 32 , comprising: positioning the pouring box relative to the metal strip by rotating the displacement casing and the pouring box around the first rotation axis to position the metal strip relative to the upper rim of each of the at least two liquid metal pouring compartments; and rebalancing by rotating the pouring box around the second rotation axis relative to the upper portion of the displacement casing to make the pouring box horizontal. 55 . The method as recited in claim 54 , further comprising: adjusting a horizontality of the upper rims of each of the inner wall of each of the at least two liquid metal pouring compartments. 56 . The method as recited in claim 54 , further comprising: depositing a coating comprising z