Method and arrangement for adjusting characteristics of a furnace process in a furnace space and injection unit

1 - 16 . (canceled) 17 . A method for adjusting characteristics of a furnace process in a furnace space limited by a furnace shell of a metallurgical furnace comprising: a first providing step for providing a furnace aperture extending through the furnace shell, a second providing step for providing an injection unit comprising a frame , at least one linearly movable injection device that is configured to move linearly with respect to the frame and that is configured to inject additives, mounting means for mounting the injection unit on the metallurgical furnace outside the furnace space, first moving means for linearly moving said at least one linearly movable injection device with respect to the frame, and second moving means for moving said at least one linearly movable injection device between a first position and a second position with respect to the mounting means, a mounting step for mounting the injection unit by means of the mounting means on the metallurgical furnace outside the furnace space, a first moving step for moving the first moving means by means of the second moving means with respect to the mounting means from the first position into the second position, where the first moving means is able to move said at least one linearly movable injection device linearly through the furnace aperture in the furnace shell, a second moving step for moving said at least one linearly movable injection device by means of the first moving means in said second position linearly through the furnace aperture in the furnace shell at least partly into the furnace space, and an injection step for injecting additives into the furnace space by means of said at least one linearly movable injection device that is at least partly inside the furnace space, a third moving step for moving said at least one linearly movable injection device by means of the first moving means in said second position linearly through the furnace aperture in the furnace shell out of the furnace space, a fourth moving step for moving the first moving means by means of the second moving means with respect to the mounting means from the second position into a third position, where the first moving means is unable to linearly move said at least one linearly movable injection device linearly through the furnace aperture in the furnace shell, and mounting the injection unit by means of the mounting means on at least one of a furnace roof or a furnace steel structure above the furnace roof of the furnace shell. 18 . The method according to claim 17 , further comprising a third providing step for providing a hatch mechanism for closing the furnace aperture, and a first connecting step for functionally connecting the hatch mechanism with the injection unit so that the hatch mechanism is configured to open the furnace aperture when the second moving means of the injection unit moves the first moving means into the second position and so that the hatch mechanism is configured to close the furnace aperture when the second moving means of the injection unit moves the first moving means from the second position. 19 . The method according to claim 17 , wherein moving the second moving means between the first position and the second position is by rotating. 20 . The method according to claim 17 , wherein the injection unit that is provided in the second providing step comprises a linearly movable monitoring device comprising at least one of a measuring device, a sampling device or an observing device for monitoring characteristics of the furnace process in the furnace space, third moving means for linearly moving said at least one linearly movable monitoring device with respect to the frame, and fourth moving means for moving said at least one linearly movable monitoring device between a fourth position and a fifth position with respect to the mounting means, and wherein the method further comprises: a fifth moving step for moving the third moving means by means of the fourth moving means with respect to the mounting means from the fourth position into the fifth position, where the third moving means is able to move said at least one linearly movable monitoring device linearly through the furnace aperture in the furnace shell, a sixth moving step for moving said at least one linearly movable monitoring device by means of the third moving means in said fifth position linearly through the furnace aperture in the furnace shell at least partly into the furnace space, and a monitoring step for monitoring characteristics of the furnace process in the furnace space by means of said at least one linearly movable monitoring device that is at least partly inside the furnace space, a seventh moving step for moving said at least one linearly movable monitoring device by means of the third moving means in said fifth position linearly through the furnace aperture in the furnace shell out of the furnace space, and an eighth moving step for moving the third moving means by means of the fourth moving means with respect to the mounting means from the fifth position into a sixth position, where the third moving means is unable to linearly move said at least one linearly movable monitoring device linearly through the furnace aperture in the furnace shell. 21 . The method according to claim 17 , wherein said at least one linearly movable injection device comprising an injection nozzle is configured to inject at least one additive selected from the group consisting of coke, pulverized coal, concentrate mixture, silica, lime, and limestone into the furnace melt inside the furnace space. 22 . An arrangement for adjusting characteristics of a furnace process in a furnace space limited by a furnace shell of a metallurgical furnace comprising: an injection unit having a frame mounted by means of a mounting means on the metallurgical furnace outside the furnace space of the furnace shell, and a furnace aperture extending through the furnace shell, wherein the injection unit comprises at least one linearly movable injection device that is configured to move linearly with respect to the frame and a first moving means for moving said at least one linearly movable injection device with respect to the frame, the injection unit comprises second moving means for moving the first moving means with respect to the mounting means between a first position, where said at least one linearly movable injection device is able linearly move through the furnace aperture in the furnace shell, and a second position, where said at least one linearly movable injection device in unable to linearly move through the furnace aperture in the furnace shell, and the injection unit is mounted on at least one of a furnace roof of the furnace shell or a furnace steel structure above a furnace roof of the furnace shell. 23 . The arrangement according to claim 22 , wherein the arrangement further comprises a hatch mechanism for closing the furnace aperture, and the hatch mechanism is functionally connected with the injection unit so that the hatch mechanism is configured to open the furnace aperture in connection with moving the second moving means of the injection unit with the first moving means into the second position and so that the hatch mechanism is configured to close the furnace aperture in connection with moving the second moving means of the injection unit with the first moving means from the second position. 24 . The arrangement according to claim 22 , wherein the second moving means is configured to move the first moving means between the first position and the second position by rotating. 25 . The arrangement according to claim 22 , wherein the injection unit comprises at least one line