Motor Factory - 10 / Minute [SATISFACTORY GUIDE]

Video Statistics and Information

Video

Captions Word Cloud

Reddit Comments

Captions

hello everyone my name is scalty and today we're going to be looking at a factory creating 10 motors per minute i hope you enjoy all right before we start building the factory let's go for what we're going to need for it on the right you can see our list we're going to need 11 smelters 2 foundries 37 constructors and 11 assemblers in addition the power draw for this factory shown here is going to be 345.2 megawatts some of the machines will not be running at maximum capacity but we will have all the ore being utilized at 100 efficiency and the or we're going to need for this is going to be 315 iron ore 90 coal and 80 copper ore in addition the space that we're going to need for the main footprint is going to be 3 by 11. in this example we have our area set to 5 by 13. regarding how i have the raw material coming into the factory i figured i'd touch on it just based on how i'll be load balancing the delivery of all of the ore to the smelters boundaries so on one of the belts i have 270 iron ore coming from a mark ii minor on a pure iron node i have an additional 45 iron ore coming from an underclocked mark 1 miner on a normal node and then i have 80 copper coming from an overclocked mark 1 miner on a normal node and then on the opposite side of the factory coming in i have a mark 1 miner on a normal node or coal bringing in the 90 coal per minute and the reason why i wanted to go over that is based on how we're going to be load balancing the iron ore coming in to make things a little easier but before we get to that let's go ahead and cover where we're going to be placing all of our smelters and boundaries so on the side that has the three inputs should you be mimicking this build exactly we're going to take our single conveyor walls and put three of them on a far end and then on the opposite side of that we're going to take our two conveyor wall and place those on the first and third essentially with a normal wall in between so that way we have no clearance issue and then on the far end on the opposite side we're going to be placing four single conveyor walls on either side and the reason why i'm setting it up like this these eight smelters here will be processing the iron ingots that we need for the rods and screws to make rotors and then on the opposite end here we need steel pipes and wire to make our stators and so i'm compartmentalizing and keeping things organized right from the bat and then all the other walls in between can be normal and also i've begun using the smart foundation mod this is a pretty great mod i'm not going to go too into detail on how to use it but essentially it allows you to build walls foundations and machines and potentially a few other things all in one fell swoop essentially and it is a huge time saver and the other benefit is that it actually it actually uses the material cost so it's not inherently cheating it's just saving you some time so i've started using those in these guide videos i will have a link to this mod in the description below but to get back to it let's go ahead and get our boundaries in place and you want these hanging off a fair bit where these little back legs are essentially right at the edge of the wall here and the reason why we want to do this is so that way when we place our lifts you can hear the beep that means the lifts are snapping and everything looks nice and clean let's go ahead and get the rest of our smelters in place and again you want these hanging off by just a little bit like so for the same reason as the boundaries just like that now when it comes to bringing in our material to cover how i have this coming in and this is somewhat specific pardon the glitching sound of the water the right side here is going to be our normal 45 iron ore the middle is going to be the 270 iron ore and the left will be r80 copper oh i don't have no clip on that's kind of funny there we go so in front of this middle conveyor hole here we're going to take a splitter and split this off and then to the right i guess facing in from the edge of the factory to the right we're going to have a splitter heading off or i'm sorry a merger heading off into the middle and so effectively this will be a mark iii belt and then we will have uh mark ii belt mark two and then a mark ii heading off in this direction i'm gonna hold off on building that though but the reason why we do it like this is so we have the 270 iron ore coming in off of this belt and this is getting split into three different lines so we have 90 coming off in this direction 90 in this direction and 90 in this direction this 90 and this 90 merge together for a line of 180 but we need 225 iron ore for our rotors that's where this 45 line comes into play and so we will merge that 45 iron ore into the merger as well and then this gives us a line of 200 and 25 iron ore for the eight smelters this is a pretty simple load balancing system here so essentially we're going to take a splitter and against the foundation line where these walls are located we're going to split it directly in the middle of each one and then we can take our mark 1 lifts and bring them right down into the splitters repeat the process on the other side and then directly in the middle here we're going to go ahead and take a splitter and then off on the side we will split it again like so and then we would just get all of this connected so this would be a mark three these will be mark two and these will be mark one if you want to moon max your belting otherwise you can just use mark three for literally everything in this factory coming back over to here so we're going to have our 90 iron ore coming off for our foundries over here and so what we can do is take a splitter let's put it right here in the middle bring our mark one lift down and then we're going to bring it up and into the middle here because we want to leave some clearance for the copper ore that'll be coming into the system so that's our 90 ore divided up there then we have our copper ore coming into these three smelters here and so on the essentially the opposite side of how we did our splitters over here where the wall is just going to come to the inside here and place a splitter in the middle in line with the smelter above bring our mark 1 lift down and get it all connected up just like that so that's our copper ore all taken care of now it's just time to bring our coal in and so essentially you can just take a splitter place it right next to the other one bring our lifts down and that's our coal so we have all of our base ore materials load balanced so let's go ahead up above so the copper ingots can all go onto a singular line we're going to have this facing off in the to the short end of the factory and we'll do the exact same with our steel ingots oops so we have the three smelters here but this will only be making 80 copper ingots per minute not 90. so these this side is now ready to go up to the next floor and for this side we're going to take all of the iron ingots and bring it onto a singular line it's going to be 225 so we'll be using a mark iii to bring everything up should i stand corrected this should be a mark iii built so that is essentially the load balancing and the belt configuration we need to bring everything up to the next floor we're now ready to get our first sandwich layer in place and so what we want to do is take an 8x4 foundation and build this up four times and then next to the fourth foundation that we build we want to bring four eight by one foundations next to it mimicking the same height and then once that is built we can go ahead and get rid of the middle two and the eight by four foundations that we previously had constructed and then we just want to build this out to match the same floor area that we had below where all of our smelters and boundaries are located and it's important to get both top and bottom parts of the sandwich layer complete before doing any belting because if you place any of these splitters or mergers that we're going to be using for load balancing you will not be able to build the top part of the layer as a result of a clearance issue so in terms of what we're going to be placing on this top part of the sandwich layer we're going to be starting with our screws i'm sorry we're going to be starting with our rods and our steel pipes so over on this side here we have our steel ingots coming up to this floor and so these three foundations here will be constructors to make our steel pipes and so before we place any of the constructors we want to get our walls in place so we'll do the single conveyor wall and then for our rods since we have the iron ingots coming up we're essentially going to be building 15 constructors to process the iron rods and so what we're going to do on this edge here we're going to be building essentially seven i'm sorry six right next to each other we're going to have a gap in between so we'll do a normal wall and then we'll do another single conveyor wall and we'll have an additional constructor down here and i will show you why in a little bit on the opposite end here we want to go ahead and take our single conveyor walls and we want to build these out seven times i'm sorry eight times and these will all be constructors over here as well so now that we have our walls placed let's go ahead and get the constructors in place then we'll get our mark one lifts to get these all belted in now for the material coming up over on this side where we have our steel ingots and our copper ingots we want to actually take a three conveyor wall and essentially the way this is going to work is we're going to have our mark ii lift bringing up the 90 steel ingots and then again a mark ii bringing up our 80 copper and what we're going to have for the copper is the copper is just simply going to come up onto a belt and loop back in to this middle wall here and then from here this will be brought up to the next floor above all of this where we'll be making the copper ingots into our wire bringing our ironing gets up will just be a simple mark iii belt helps to get the wall in place first before the constructors like so let's go and get this back in place and now we can bring up our iron ingots and so for this based on the amount of constructors we would attempt to be load balancing this out to would be a little uh too much for the tight space that we have here so we're just going to use an overflow method and so essentially in front of each pairing we're going to place a splitter right took me a moment the offset is a little confusing at times we can just run our mark 1 belts to everything and in between i would recommend using our mark 3s just to keep things moving along also if you haven't noticed i am using noclip to make this a little easier in terms of time spent making the video but it is possible without utilizing it if you do find yourself stuck you can most definitely utilize uh running and sliding sorry just making sure this is all correct so we have our mark ones leading out and again don't forget this is our technically rod designated constructor which i'll get to here after we get all this belted up but it will be possible to run and slide under most of these belts but i would always recommend that you build your way out as to not keep yourself locked in or make it too tedious to leave the middle of the sandwich layer so essentially you want to place the belts furthest away from the entrance first so that way you can leave without any issue so we have all of this belted up let's go ahead and get our steel pipes sorted out and this will be pretty simple since we're just taking a single line to three constructors just be the single splitter series of mark one belts that'll take care of the steel pipes we can go ahead and get all of this closed up double check over here just like that now when it comes to the rods going up to the next floor we need to save a hundred of them for the assemblers that will be making our rotors and then we will need 125 for our screws on this side we have eight constructors making 120 and on this side we have seven constructors making 105 so we need to take five rods from this side and merge it in with these 120 so that way we have a dedicated line of 125 for our screws they dedicate the line of 100 rods for the assemblers making the rotors so when it comes to balancing these out and the reason why we have this gap here is in front of the free stand-alone constructor that will be making our iron rods we want to take a splitter and place that in front of it the merger in front of this constructor will be facing toward the short end over there and then opposite or where this gap is essentially we want a merger in place or in line with this splitter here and then the rest of these will get mergers facing off towards the short end coming back down here so we have 15 iron rods coming out of this constructor we're going to have one line connecting with the merger on the opposite end we're going to be putting a mark one lift facing toward the short end or where this merger is located and on this merger on the input where the gap is located we're going to put a mark one lift as well and we're going to connect these with a mark one belt so i have this raised up a little bit one second and then we're going to take another mark one belt off of the splitter in front of the freestanding constructor connect that with the merger next to the gap and the reason why we want to do this is because essentially now we have three belts coming out of this splitter which means the 15 is going to be split into three different lines that means we're going to have five rods coming off on this belt five rods going across to the merger and five rods going up this lift over down the lift and into this merger here so that way we effectively are only transporting five rods into the line of 120 giving us 125 iron rods for the screws now we can go ahead and get all this connected together if you want to min max we can go ahead and count so we're going to have essentially the 15 plus the five coming from this splitter autosave so it'll give us 20 plus 15 is 35 plus 15 is going to be 50. so we can use another mark one belt plus 15 at this point is going to be a mark ii this is essentially going to be one two three four constructors in after the fourth constructor on the side for our screws is going to be a mark ii belt so again this is 65 coming in with another 15 is going to be 80 mark 2 95 mark 2 plus 15 is going to be 110 mark 2 and then last but not least a mark iii since we will be going over the 120 item limit for the mark ii belt coming all the way back down so we have our five coming off in this direction and here so we have 10 meeting up with this constructor which means we're going to have 25 here we mark one this would be 40 mark 1 55 mark 1 70 mark 2 all the way to the end for mark ii belts and that's essentially how we have that all load balanced going back down to the constructors making these steel pipes all we need to do is just take our mergers and have them located in line with this row here because again we're going to have our copper ingots coming up this lift back through that little loop and then up to the next floor so essentially we're going to have 60 steel pipes in total so we can use mark 1 for all of these just like that we're now ready to build our next floor so again we're going to take our 8x4 foundations but this time we're going to build it up three times in total to get our clearance over the top of the constructors and then four foundations next to the third and get our sandwich layer built out now for this floor we're going to be making the wire and our screws so starting with these screws we're going to have our 125 screw our iron rods coming up from here and so what we can go ahead and do is place a three conveyor wall similar to what we did with the wire or i'm sorry the copper ingots coming up so we will have our 100 100 iron rods coming up here so we're going to use our mark ii lift and again that's going to just be coming up and back down and around like so we will use our mark 3 for the 125 iron rods coming up to actually be utilized on the floor for our screws and the way we're going to divvy this up is on the ledge where we have the copper and iron coming in we're going to be placing seven constructors so before we get those in place let's go ahead and get the walls built out on the opposite edge we're going to be having six constructors placed for a total of 13 making our screws and then next up on the opposite end we're going to be building six constructors so we're going to do three on one side three on the other and we'll have our copper ingots coming up from the center so we're going to take a single wall conveyor and bring up with a mark ii lift get our constructors in place and then everything else can just be normal walls and so for the distribution of the iron rods to be used for the screws again we have 13 constructors and load balancing that's going to be quite hectic for this small space and additionally one of the constructors will be running at 50 so again with these similar to what we did with the floor below we are just going to be splitting everything up and so i will start essentially here where these two are located but we still need to make sure that we have a splitter for these two back here so i'll just put these next to each other and essentially do three in a line and then everything else can just be placed traditionally and so in between we're going to use our mark iii belts just to keep things moving down the line as quickly as possible and they just have our mark one belts coming off for everything else just like that now heading back down to the opposite end here this is where we're going to be having our copper ingots come up to make our wire so what we can go ahead and do it's a simple one to six just take our splitter place it in the middle here and then on each side in the middle of the foundation we want to place our belt or our splitter and get this connected up with our mark one belt and then i'm mark two to the left for the wire that we have being made we are going to have this funnel off into a single line since we're going to be having 160 wire and the reason why we want it off in one line is because again we have our steel pipes being brought out here that will need to go up to the floor where we will be making our stators and so we want on the opposite side our wire coming together so we're going to be placing a merger coming off towards the short end here and on this side we're going to take our merger and we're going to have it actually lead into the merger opposite of it and then we can bring everything back where the output of the merger is facing the short side mark two on these ones here actually i stand corrected you can use mark ones on those four constructors and then right in between the two mergers you want to use a mark ii and then a mark iii coming off just like that for the screws that we have being made it would be beneficial to take the total of 500 screws and separate it into two lines of 225 to ease the balancing on the next floor up where we'll be making our rotors and so what we're going to do in front of the last or i'm sorry in front of the essential the standalone constructor at the edge of the side that has seven we're going to take a splitter facing away from it and then in front of the rest of the constructors we're going to have our mergers facing off toward the short end coming back down to where we have our splitter essentially this is going to be the constructor that will be operating at 50 so we can go ahead and set that now it'll be making 20 items per minute and we want this splitter connecting off into both lines like so so that way we have 10 screws coming onto this belt and 10 onto this belt because we have six constructors here making 40 screws per minute so that's 240 screws on each side for these six and then this constructor making 20 is going to be putting 10 onto each line of 240 giving us 250 screws essentially on each belt for this floor so getting all of these connected together we'll go ahead and go back and count up so that way those who want to min max their belts can do so so we have the 10 coming out here merging with 40 so that's going to be 50 plus 40 is 90 so mark 2 130 mark 3 all the way to the edge and again ten plus forty is going to be fifty so that's a mark one plus forty is ninety so that's a mark two plus another 40 is 130 so it's mark 3 to the very end and this is essentially this floor complete and for our next floor we will start the process of making our rotors and so we'll go ahead and get our next sandwich layer built and so on the side where we have our coal being created or coal coming into the factory rather we're going to start with the second foundation in from either edge and we'll place our two conveyor wall and then a normal wall in between and repeat the alternating process until we have a total of five two a wall or two conveyor wall like so i'm going to get our assemblers in place hanging off the edge by just a little bit like so and then for these assemblers here we want to make sure that we have at least a mark ii lift on one of the points coming up and so in this instance i will go ahead and use the uh closest side to where we have the rods and screws coming up for our mark ii lifts like so and then over where we have the screws and rods coming up we're going to use a three conveyor wall and then for these screws they mark three lift on each side and then for the rods they mark two now an interesting point to note for the rods coming up we don't need to do a one to five load balancer in this instance it's quite convenient so each of these assemblers is going to need 20 rods per minute we can actually utilize the mark one belt with a 60 item per minute limit as a means to load balance without over complicating the process so in front of the middle lift coming up which is our rods and in line with the mark one lift that we have over here for the first assembler we're going to place a splitter and then we're going to place at its diagonal looking in from the short edge a merger like so connect it up twice like this and the reason being is that we're going to have a mark one belt coming all the way off and down here to uh middle way through the second to last assembler and because this belt is now limiting the items to 60 per minute we have 100 rods coming up into this splitter here and this is splitting off into what will eventually be three lines one off of here as well which means 100 divided by three is 33.3 that means this belt is going to have 33.3 this belt will have 33.3 and this will have 33.3 these two lines of 33.3 totaling 66.6 is going to be merging into a mark 1 belt the belt is going to be limiting these essentially bringing 60 items onto here so these effectively turn into 30 items per minute and then this belt here will have 40 coming on to it and now we can take this 40 and divide this once into two lines of 20. so we're going to take our splitter right next to it connect this with a mark one and have this mark one lead into this assembler here and this mark one will lead into the assembler over here coming back down this mark one belt we will have this split in line with the merger or with the assembler here and we will have our rods being broken out from one line of 60 to 3 lines of 20 now for these screws coming up let's go ahead and get this connected to before we forget now for the screws coming up we're going to have 250 per belt we have the five assemblers so what we're going to do to ease or to speed up the overflow process as fast as possible we're going to have a splitter off in front of the first assembler in line with the lift a splitter again in line with the second and then for the third or the middle assembler we're going to take a merger with the output leading into the assembler and then on the opposite side we're going to mirror what we just did so we're going to have a splitter facing toward the merger in the middle and then again over here use your mark ii belts so that way we can properly transfer the 100 screws per minute and then in between we'll go ahead and use some work three belts and then this splitter over here is going to receive essentially the right side so go ahead and bring our belt looping all the way around like so and then the opposite or the other lifts coming up we would just simply merge into or bring into this splitter here so essentially we're going to have 120 feeding off into this one i'm sorry 120 120 leading off into this one the remaining 130 will effectively go down here into here and it will all eventually overflow nice and neat giving us 100 screws per minute to each assembler so now we can go ahead and get the rest of this all closed up just like that to bring the rotors up to our next floor we're just going to simply take our mergers and bring them off to the short end where all of the iron related components are being transported and for the entire floor we can just use our mark 1 belts because we just have 20 rotors being made and we'll just bring this off to meet here in the middle and that'll go up to our next floor so we can essentially get that underway so we'll go ahead and take our 8x4 foundation build that up three times it is the minimum but it will clip into the indicators you can see here for the assemblers if you don't want it to clip just go ahead and build another 8x4 foundation and then you can go ahead and take your eight by ones build it next to it we'll get the sandwich layer built out so for the wire and steel pipes that we have coming up this is the wire here and our pipes are down here so we're going to use a two conveyor wall to receive those and we're going to use our whoops oops if i have the right hop bar we're going to use our mark 3 lift and bring that up for the wire and we can use a mark one lift to bring that up for the steel pipes now in terms of the assembler placement this is actually going to be our final floor we only need four assemblers to make our stators and we need two assemblers to make our motors so for the motors on the side where the coal is coming into the factory here on the far end is where we're going to be placing our first assembler so we're going to use a two two conveyor wall any normal and then another two conveyor wall go ahead and get these in place and we can just simply use mark one lifts for these coming back down to the short edge over here we just have our rotors coming up so we can just use a single conveyor wall with a mark one lift and then on the opposite end both short end and long end is where we're going to be placing our assemblers making our stators so starting with the very edge foundation we'll do our tube and bare wall normal and repeat the process until we have four available and for these we can also use mark 1 lifts heading inside we're going to go ahead and leave our rotors for now or if you want to get those done first you can in terms of how this is all going to be organized but i like to get the wire and pipes organized first just based on how we're going to be looping the stators back into this sandwich layer to divvy up to these assemblers here for our motors to be made so starting with the wire coming up over here essentially on the right we're going to run a splitter in line with that and place it in front of the first assembler and first lift and then in front of that we're going to place a splitter and then a diagonal from this in line with the other lift on the first assembler we will place a splitter and then in front of the second splitter we made we're going to place another splitter and essentially what we're doing is we need to split this one into four so this is our first splitter splitting it off into two for our steel pipes so this will get connected here and then to connect this splitter down to the other two we're going to take a splitter and place it in front of the second to last and this essentially will split off into each assembler like so and then from the first splitter in line with the steel pipes we'll bring this all the way down and connect with the splitter down here so essentially we have our 60 pipes coming up splitting into a line of 30 and 30. this 30 goes down and gets split into two lines of 15. this comes to this splitter here this splitter then feeds into one line of 15 and then a second line of 15. for our steel pipes for the wire that we have coming up let's go ahead and get this connected as well for the wire that we have coming up we're going to use our mark iii belt and bring it into this first splitter in line with it and then a mark ii to split here and then for this splitter we're going to bring another one down in front of this splitter i'm sorry in front of this merger here and this will divvy up into here and then also into the last there we go assembler left over here and coming all the way back down a mark ii belt will connect to that splitter all the way down there so we effectively have our 180 wire coming up into a line of 90 and a line of 90. i'm sorry 160 so it's 160 into a line of 80 a line of 80. that 80 gets split up twice into two lines of 40 and then this will get split up into two lines of 40 as well and it does get tricky with how we are running all the belting in here but you can slide like run and slide under all of these belts should you not have any mods to provide ease of access like the no clip in the pack utility mod but essentially that's all the load balancing to make our stators and so before we close all this up let's go ahead and get our stator sorted out and so the way we're going to run this is over here on the opposite end of this assembler on the far edge we can go ahead and get a single conveyor wall in place and this will be receiving our stators so we can go ahead and head back in here and so we will have our stators splitting one in front of this merger we're in front of this assembler i keep doing that backward and then from this splitter over into this assembler here and then from down here where we have our rotors coming up we're essentially going to be beating this all the way down and so we will place a splitter in front of the assembler here in line with that belt we just made and get this connected up like so and so to get our stators all together similar to what we did with the rotors we can go ahead and just bring our mergers into play and we can use mark one belts for all of this here because we only have 20 stators being produced and essentially we're going to run this as close as we can to the assembler here we want to leave space here open so we can actually bring our motors down at the very end so you'll see that here shortly let's be leaning off into that conveyor wall and then for our motors we'll essentially be merging them together onto a single line using mark 1 as we're only making 10 motors per minute and this belt will head off toward this edge here before we take care of this let's go ahead and get all these walls closed in and so now we have a clean straight line of access down the side of the factory here and so we can go ahead and run our mark one conveyor essentially as far as you can if you so choose but rather and go all the way down i'm going to bring the lift to this floor here below our assemblers where the rotors are being made we're going to bring it in and then back out and this will essentially feed into a single conveyor wall down here like so and then heading inside we do have plenty of room to kind of determine where you want the output to be i'm going to run the output over to this side here and so let's go ahead and get this replaced with a single conveyor wall and then i'm going to place the storage right next to it and we'll get this connected up with a mark one belt and then from the back into the lift we're gonna bring this up pretty much in line vertically with the motors that are coming down and then bring over some foundations so that way we can bring our belt over look brings back one just to get that nice 90 degree bend go ahead and get rid of the foundations and this little conveyor pull and so effectively we have our motors coming out the side of the factory and from the outside on the floor you can have access to everything that is inside of it but that is effectively build complete so i'm going to get all the power cables connected to it put some walls on the outside get all the belts connected from the miners get this factory up and running i'll see you guys on the other side all right that'll wrap up our guide i hope you found the guide helpful if you did feel free to leave a like it does help out the channel if you want to see more content in the future be sure to subscribe if you're not already and if you have any questions about this build leave a comment below and i'll get back to you as soon as i can additionally i'm excited to announce that i will be streaming every thursday from 9 00 pm eastern on twitch where you can catch me playing through the game normally hopping into creative mode and designing new factories that you'll see in guide format here and it's an opportunity to just kick back talk about the game and have some fun so thank you guys for watching and hope to see you there you

Info

Channel: Scalti

Views: 88,993

Rating: undefined out of 5

Keywords: satisfactory game, satisfactory guide, coffee stain, Satisfactory, Satisfactory Game, update 3, Guide, Tutorial, Satisfactory Guide, Satisfactory Tutorial, Factory, Modular, Clean, Efficient, 100%, satisfactory gameplay, satisfactory update 3, how to, build guide, factory, setup, Scalti, Layout, How to, Motors, Motor Factory, scalti, Motor Guide, Motor How to, Motor layout, motor setup, motor build, motor design, motor factory design, motor factory guide, satisfactory motor factory

Id: hngiNx0BVBA

Channel Id: undefined

Length: 50min 22sec (3022 seconds)

Published: Tue Jan 19 2021