Thank you so much for taking the time to view the guide. Once fully connected your build should look something like this, ready to move on to become turbo motors at a later date. This line will flow to the left and upon reaching the end of the Stator assembler line, we will route it to the front of the last two assemblers in the 4th and 2nd column where we will now use a splitter to distribute the 20 stators per minute into the assemblers where they will now produce motors, providing you feed them with 20 rotors per minute which we covered previously here. We will now place a merging manifold on the output side of the Assemblers. Connect these together with conveyors and then use elevators to feed the assemblers. I recommend placing the splitters two steps from the assembler and then stacking one line three splitters high and the second four splitters high. Next we will place a double manifold, start by stacking splitters heading to the right on one level and steel pipes running across the manifold flowing left. They should be placed with a foundation gap between the two. We shall then skip two columns and place a further two assemblers along the same row for the motors, again running at 100% clock-speed. These assemblers will be running stators at 100% clock-speed. The edge of the assembler should be flush against the front of the foundation. In order to do this, leave the next row of foundations free (we will be placing the manifold along here.)Īlong the next foundation place four assemblers in the 13th, 11th, 9th and 7th column. This manifold should flow to the constructor in the 13th column and also flow forwards.įor this next part we will be placing the assemblers for the stators and then the motors. The second manifold will be placed in-front of the three constructors running steel pipes. One in-front of the first six constructors with the mergers all flowing towards the third constructors’ merger (This should be facing forward) You will also need to connect the 8th and 10th constructor to the two remaining splitter outputs.Īt this point build two merging manifolds in-front of the constructors. Note these constructors will all be running at 100% clock-speed with the exception of one constructor which will be set at 33% clock-speed.Ĭonnect the six constructors with elevators, as well as the 9th constructor. Your second line of constructors will be six long, producing wire and in-front of the splitters along the manifold line you just placed. These will produce steel pipes at 100% clockspeed. You should now have three constructors in-front of the steel foundries. At this point we will delete the 7th constructor. For this stage, we will place 10 constructors in a row two steps in-front of the first splitter and running all the way to the end of the 13th column. We need to place a total of 9 constructors. Start by placing a splitter directly after the last merger, the splitter should be bridging the gap of two foundations, repeat this on each of the following foundations heading to the right. We shall now place six splitters along this row. Place elevators after the smelters and then run the conveyor line to the mergers, do this for all three smelters. From here place a splitter in-front of the merger (done by stacking three stackers, and deleting the bottom two.) Make sure the merger and splitter are connected by a conveyor.Īlong the same row as the splitter you will want to place mergers in a row facing towards the right of the grid, place these mergers in-front of the smelters. Once done connect the elevator from the foundry output to the top merger, then delete the two mergers beneath. The merger should be two steps in-front of the chosen output and stacked three mergers high. Note for a perfect merger connection, place the merger first. In-front of the foundry outputs place down elevators, this will feed into a merger. Note we shall use overhead merging and splitting manifolds in this guide. Iron ore and coal for the steel foundries. Next you will need to build a manifold for the three inputs. I recommend that you keep the smelter outputs in line with the foundry outputs, although this is not necessary. Next place the three smelters in the centre of the first, second and third columns foundations. You can now delete the constructor, should you wish. From here place the second foundry flush against the first one on the left-hand side. Directly in-front of this place a foundry bridging the two foundations in-front of it. To begin, place down a constructor against the edge of the thirteenth (last) foundation. Stator & Motor Super-Efficient Build Guide In order to construct this layout we will require: The aim of this layout is to reach 20 stators per minute, going on to create 10 motors per minute. Stator & Motor Super-Efficient Factory Layout
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