If you have a particular layout or guide you’d be interested in sharing with the community, we’d gladly give We look forward to updating the site weekly with new guides and layouts. We’re very proud to have launched this website and hope you have found the guide both helpful and enjoyable. We will finally add a merging line for the assembler outputs which shall send the encased industrial beams to a storage area or onto further manufacturing such as in our follow up guide for building heavy modular frames. One assembler should be set to 50% clock speed and the other two at 100%. Set all three assemblers to encased industrial beams. At this point we shall feed the front output of each splitter into the first assembler and we shall run two more splitters on both the top and bottom manifold feeding into the two neighbouring assemblers. On top of one splitter stack a second splitter, delete the splitter beneath. They should be parallel to the previous merging lines for the concrete and steel beams. In the sixth row we shall now place a double manifold, start by placing two splitters flowing forwards just in front of the closest edge of the sixth row. If done correctly the middle assembler’s inputs should align with the two merging lines we constructed previously. Now we shall place three assemblers facing forwards in the seventh row, start by placing the first assembler so that it spans the first and second column, the two assemblers following should be placed next to this assembler. Part 3 – Encased Industrial Beam Assemblers From here ensure these four constructors are set to steel beams. At this point we can connect all the manifolds with conveyors, the steel ingot manifold will require a MK3 belt. We will also place splitters in front of the first three constructors’ inputs. Then place a merging line along the outputs, the three mergers should be flowing forwards and flush against the first three mergers of the concrete line. In the fourth column place four constructors facing towards the centre of the grid from the first, to the fourth row. Next we shall place the four constructors that are producing steel beams. Finish this section by setting all constructors to concrete. My mergers are placed spanning the border of the second and third column. On the output side of the constructors place a merging manifold flowing forward. Once done connect the conveyors to the manifold and the five constructors, as we have over 120 items on the belt per minute you will need at least a MK3 conveyor along this manifold. Note that with the constructor flush against the splitter, our constructors should be spanning both the first and second column. Next place a constructor flush against each splitter as well as a fifth constructor in the fifth row. Place four splitters in the middle of the first four foundations along the first column's border edge. Our first priority is to place down the five constructors used to produce concrete. In order to build this factory layout you will need the following requirements:Įncased Industrial Beams Super-Efficient Build Guide This build will be clean and compact with screenshots included for each step of the way. The aim of this layout is to produce a total of 15 encased industrial beams per minute, which shall be used in a follow up guide for heavy modular frames. Encased Industrial Beams Super-Efficient Factory Layout
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