Method for producing matte or crude metal in a suspension smelting furnace and suspension smelting furnace

The invention claimed is: 1. Suspension smelting furnace, comprising: a reaction shaft provided with a concentrate burner for feeding sulfidic raw material containing metal, slag-forming agent and oxygen containing reaction gas into the reaction shaft to form a jet of oxidized suspension in the reaction shaft, a settler in communication with a lower end of the reaction shaft wherein the settler has an elongated configuration, wherein the settler comprises an inner space and a first end wall structure at one end of the settler and a second end wall structure at the opposite end of the settler and wherein a landing zone for the jet of oxidized suspension is formed in the inner space of the settler below the lower end of the reaction shaft and wherein the settler is configured to receive oxidized suspension from the reaction shaft at the landing zone and to form a layer of matte or crude metal, wherein the layer of matte or crude metal extends in a horizontal dimension over the whole inner space of the settler, and a layer of slag on top of the layer of matte or crude metal in the inner space of the settler, wherein the layer of slag extends in a horizontal dimension over the whole inner space of the settler, an uptake shaft for leading process gases from the suspension smelting furnace via the uptake shaft, wherein the uptake shaft has a lower end in communication with the settler, a first taphole for discharging slag from the layer of slag in the inner space of the settler, and a second taphole for discharging matte or crude metal from the layer of matte or crude metal in the inner space of the settler, wherein the first taphole is arranged in the vertical direction at a level above the second taphole, wherein the settler extends in two opposite directions from the landing zone for the jet of oxidized suspension below the reaction shaft in the settler so that the settler comprises a first settler part on a first side of the landing zone, wherein the first settler part has a first proximal end at the landing zone and a first distal end at the opposite end of the first settler part which first distal end also is the first end wall structure of the settler, and a second settler part on an opposite second side of the landing zone, wherein the second settler part has a second proximal end at the landing zone and a second distal end at the opposite end of the second settler part which second distal end also is the second end wall structure of the settler, the settler is provided with a bottom structure that slopes continuously downwardly towards the second taphole from the first end wall structure of the settler to the second end wall structure of the settler, by the first taphole for discharging slag from the layer of slag in the settler being arranged in the first end wall structure, by the second taphole for discharging matte or crude metal from the layer of matte or crude metal in the settler being arranged in the second end wall structure, and by the lower end of the uptake shaft being in communication with the settler via the second settler part. 2. The suspension smelting furnace according to claim 1 , wherein the first settler part is provided with a partition baffle for preventing oxidized dust from entering at least a section of the first settler part, wherein the partition baffle extends from a roof of the first settler part downwards into the first settler part. 3. The suspension smelting furnace according to claim 1 , wherein the first settler part is provided with reducing agent feeding means for feeding reducing agent into at least one of the layer of matte or crude metal and the layer of slag. 4. The suspension smelting furnace according to claim 1 , wherein the first settler part is provided a burner for creating a reducing atmosphere in at least a section of the first settler part. 5. The suspension smelting furnace according to claim 1 , wherein the distance between the reaction shaft and the uptake shaft is less than 10 m. 6. The suspension smelting furnace according to claim 1 , wherein the inner space of the settler is in communication with the lower end of the reaction shaft at a point of the settler that is closer to the middle of the settler than one of the ends of the settler. 7. The suspension smelting furnace according to claim 1 , wherein an additional reaction shaft has a lower end in communication with the first settler part, and the additional reaction shaft is provided with an additional concentrate burner for feeding sulfidic raw material containing metal, slag-forming agent and oxygen containing reaction gas into the additional reaction shaft to form an additional jet of oxidized suspension in the additional reaction shaft. 8. The suspension smelting furnace according to claim 1 , wherein the reaction shaft is provided in addition to a concentrate burner with an additional concentrate burner for feeding sulfidic raw material containing metal, slag-forming agent and oxygen containing reaction gas into the reaction shaft to form an additional jet of oxidized suspension in the reaction shaft. 9. The suspension smelting furnace according to claim 8 , wherein the settler comprises an additional landing zone for additional jet of oxidized suspension, and the additional landing zone is formed closer to the first settler part than the second settler part. 10. The suspension smelting furnace according to claim 1 , wherein the first taphole is arranged in the first end wall structure of the settler. 11. The suspension smelting furnace according to claim 1 , wherein the second taphole is arranged in the second end wall structure of the settler.