2024-12-10 17:53:26|Myriagame |source:minecraft skins
This tutorial is set by the author's setting without permission.
Hello everyone, this is IAMACHANG. Here
PS: If you want to understand the following design ideas, please tutor the coverage board, the basic usage of the sensor and the smelting mechanism of the 坩埚
Fully automatic steelmaking factory design ideas
How to burn steel
6 Mel time for forging iron at a temperature of 2046K or more
供 Need KU engine energy supply and get air
Alert temperature
All the designs shared in this article are based on the temperature. Except for the design of the electric version, the remaining design needs to use a temperature sensor to be responsible for the alert temperature, and timely and timely the piston to close the burning room
The gasification temperature of the steel is 3134K, and the alert temperature is about 2700K (you can adjust according to personal conditions). If you want to achieve safe steel burning steel, please use the 坩埚 with a temperature of 3000K or more.
By avoiding the use of chromium -level burning rooms, the firing success rate is improved. The disadvantage is that there is a upper limit of speed
The design of the low -order version of this time uses chromium 坩埚 (112HU/T).Electric version uses HV power heater (512EU/T → 256Hu/T)
Feeding temperature
Tell when the fighting is told when the temperature sensor is made
The temperature of the feeding is It is recommended that the feeding temperature is 2500K, and the temperature will be reduced to about 2100K after the material is invested. Output product selection -metal plate or metal block The output product we choose will determine the difficulty of the entire set of automation design GT6 特 Special mechanism: When not satisfied with the number of metals specified by the mold, the metal of the 坩埚 will not output to the mold The steel we need to output instead of forging iron As long as the number of forging iron in the ingot is less than the number of one ingot, the forging iron cannot be output to the mold Evaluate: Output metal board: The feeding speed is greater than the steelmaking speed, resulting in the number of forging iron greater than one ingot. The refining failure will greatly improve the difficulty of automation design? Output Metal Block: As long as it is less than 9 ingots and the number of steels in the 坩埚 坩埚> When the number of forged iron, the forging iron will never output (those who are too lazy to use the brain, it is recommended to use metal blocks) Selection of the type of feeding -powder/small pile powder (one -fourth powder)/small pinch powder (one -nine -month powder) The type of powder will affect the success rate of refining. It turns out that this is a big blind area If the forging iron is not converted into steel after the KU engine is operated once, it may cause the number of forging iron to gradually accumulate in the pupa, which is greater than one ingot, which causes the forging iron output or blocking the blockage The smaller the powder, the smaller the cooling after the feeding.Can reach the feeding temperature faster Evaluate: Metal powder: The design of the output metal board is more likely to refine the failure than the design of the output metal block (the refining failure is all found by the head iron) Small pile of powder (one -fourth powder): The KU engine can produce sufficient air steelmaking in time, and will not refine the failure, but its own quality is small, and the frequency of feeding is higher than the powder, which will cause the heating rate to rise faster, but in it, but in the end ofIn the design of the output metal board, the small pile of powder is prone to refining failure when refining the tail (because it is easy to meet the conditions of a ingot) (if it is the design of the metal block, select this blood mother stable) Small pink powder (one in nine fans): The smaller quality makes it not rely on too much KU to turn into steel, which is more difficult to meet the conditions of one ingot than small piles.It will not fail, but the frequency of feeding is high, and the heating speed is fast, which means that the speed of production steel is fast. You can use more molds or simply use the pouring basin to solve it (choose this blood mother stable, whether it is plate or block)) Automatic ignition Realize fully automatic ignition requires you to enter the following stage (pure GT6 environment) There is a distillation tower and successfully manufactured plastic Enter the power era and burn out aluminum Can make basic circuit boards Activate the burning room when meeting the following conditions: When the fighting is material (the amount of the inventory number sensor) 时 When there is material inside (quality sensor) limit: When the burning room is already running, the ignition can not work (you can use the activity sensor (run)) You can ignore the ignition of the ignition at the time of the warning temperature, because the whole set of design logic is that the temperature will touch the alert temperature, indicating that the fighting is not material, and there is nothing output. 3X3X5 Full Automatic Steel Power Plant (Basic Edition) Personal Design Show Running efficiency: 3-4 steel in one minute Output product: steel block Investment requirements: greater than 9 powder Defect: There is no enough surface to place the sensor, there is a tail in the tadpole The standard configuration is as follows: Extreme temperature settings 2600K, feed temperature 2500K (chromium ravioli) Bronze KU engine+steel fuel engine stability provides 16KU Chromium -level fluid burning room (the liquid combustion room is used in the figure) Fighting settings: Out of one material each time Sieve powder bucket (output mode: small pink) Temperature sensor*2 (feed temperature+alert temperature) Inventory quantity sensor*(Responsible for detecting whether it is turned on, no installation is required when there is no automatic ignition device) The automatic ignition device that is realized through individuals*1 The low -end version configuration is as follows: The feeding temperature is 2200k, the alert temperature is 2300K (ceramic 坩埚) The burning room requires that the burning room below chromium efficiency The rest are unattended as possible 3X3X5 Full Automatic Steel Power Plant (Advanced Edition) Operating efficiency: Boil for 18-23 seconds per round, and output a steel block each time, which is about 2-3 seconds a steel (hint) Investment requirements: a powder piece/9 powder Defect: Eating electricity is equivalent to being stuck with wool, but as long as the material of the multiple of 9 is invested, there will be no output defects. The configuration is as follows: The temperature requirement does not exceed the gasification temperature of the steel and does not burn the material. Temperature sensor*1, responsible for activating the feeding+starting motor+semiconductor cooler Inventory detection sensor*1, responsible for activating the heater Quality sensor*1, responsible for activating the heater HV power heater (512eu/T → 256Hu/T), basic settings: run when there is no redstone signal HV motor (512EU/T → 256RU/T), run briefly during the feeding HV semiconductor cooler (512EU/T → 128CU/T), short run during the feeding Titanium -level gearbox+kinetic energy engine Fighting settings: Out of one material each time EV's energy supply (2048EU/T)+transformer (2048 to 512EU/T) Sieve powder bucket (output mode: small pink) The following is the version of the output metal board Fully automatic alloy smelting design ideas (take carbonized alloy as an example) How to smell alloy As long as the ratio is correct, when the alloy temperature is reached, the 坩埚 will start automatic synthesis Require output alloys, not the middle material in the middle The output temperature of some materials is lower than that of the alloy, so it cannot be output in advance? When will output alloy 1. It is a misunderstanding of inertial thinking. When you think so, your design will be greatly improved 2. Taking refining bronze as an example, instead of tangling when to output bronze, it is better to change the idea to allow the number of bronze in the pupa to meet the number of mold requirements. 3. Through the second point, take the mold mold as an example. The basic design idea is to not meet the amount of mold output requirements by investing in small piles or small powder, but the alloy after melting will always be satisfied with the material first step by step.The output conditions of the board are based on the proportion of the material, and the alloy can be automatically smelted. However, because some alloys have a ratio of more than 4 or more, small piles are not applicable. The conclusion is recommended to use small powder powder. Precautions for carbonization 金 alloy smelting The smelting temperature is 4263K, but the gasification temperature of the carbon is 4300K, which means that the setting temperature can be set very small 比:: The carbon ratio is 1: 4: 5. There is no metal ingot in carbon. If it is designed with a plate mold, it will cause the error output of 铪 钽 钽 钽 铪 铪 铪 can inhibit this problem At the beginning of the temperature, the 于 belongs to the air -burning heating. When the temperature starts to cast the temperature, the temperature is more than 4,300. The cooling speed of carbonized metal metals is slow, and there is a risk of blocking the ingredients in a timely manner. In order to compress the design size, it is recommended to output metal blocks Because the smelting temperature is very similar to the temperature and feeding temperature, the temperature decreases after the invested material, which causes the alloy to not melt it in time. In the end, the number of materials to meet the output conditions of the mold, and the refining failure. Carbonized 次 is fused and fired ten ingots. Even the casting basin can cause a ingot to stay in the cricket, which is a great probability that the 坩埚 is blocked.The solution is to use small pile or small powder How to realize the order of the material 坩埚 GT's logistics pipeline follows the principle of nearby, the closer the material will reach the earlier The GT pipe has a attribute [flow], that is, the number of items that reach the target container each time, the flow is 1, which is equivalent How to achieve accurate quantity output of the material 1. Check how to set up precise output in GT Fighting 3x3x7 Full Automatic Carbonization Aquinal Alloy Factory (Basic Edition) Personal Design Show Running efficiency: 3 minutes, 30 minutes per round Investment requirements: 铪: 碳: Carbon metal powder 1: 4: 5 Input Output: Metal block, 10 carbonized metal blocks for each round of firing Defect: Formula characteristics, there is no burning of 90 at a time, there will be excess materials and stay in 坩埚 Special configuration requirements: The queue bucket with a large capacity is as large as possible*1 (in the figure is amber gold, 9 -frame capacity) Bronze pipes+any level of GT fighting, responsible for the proportion of feeding Sieve powder funnel (Output mode: small pile powder/small powder, the total effect of the two has little effect) Redstone logic: When the queue fights have a certain material, the raw material side is not expected (when using small piles of powder, no module will have the risk of refining failure) It is recommended to connect the pipeline connection on the left for the stability of the feeding 3x3x7 Full Automatic Carbonization 钽铪 Alloy Factory (Advanced Edition) Personal Design Show Run efficiency: 10 minutes, 9-10 minutes per round Investment requirements: 铪: 碳: carbon metal powder 1: 4: 5 Input output: metal block, each round of firing and output 10 carbonized 钽铪 metal blocks defect: 1. Formula characteristics, there is no burning of 90 at a time, there will be excess materials and stay in 坩埚 2. Eating electricity Special configuration requirements: The queue bucket with a large capacity as much as possible*1 (in the figure is tungsten steel queue bucket, 27 grid capacity) Bronze pipes+any level of GT fighting, responsible for the proportion of feeding Sieve powder funnel (Output mode: small pink, because the electric version of the electric version is more frequent, small pink powder is more stable) Redstone logic: When the queue fights have a certain material, the raw material side is not expected (when using small piles of powder, no module will have the risk of refining failure) HV power heater (512EU/T → 256Hu/T) HV semiconductor cooler (512EU/T → 128CU/T) to ensure that carbonized alloy blocks are cooled in time EV's energy supply (2048EU/T)+transformer (2048 to 512EU/T) Complete construction instructions (video): https://www.bilibili.com/Video/BV1VC4Y1S7QC Follow -up supplement: none
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