your current location：首页 > news>(1.20.1) a MEK five -time automation universal mineral treatment plan based on SFM (super factory management) [MEK] MEKA

(1.20.1) a MEK five -time automation universal mineral treatment plan based on SFM (super factory management) [MEK] MEKA

2024-12-10 17:52:02|Myriagame |source：minecraft skins

This tutorial is set by the author's setting without permission.

Foreword

Recently, I am playing ATM9 (All the MOD 9) integrated package. When completing the task of MEK, I suddenly try to do five times the line. Try it.Less, so do not touch it), then try to use Mek's own device. No accident is a headache because of the distribution problem between the cleaning machine to the crystal device.The XNET line completes MEK automation and uses XNET to achieve a high -speed line.

But when I actually set up, I found the flaws under the default configuration of XNET -the rate was too low.The main reason for the bottleneck of the rate bottleneck is that after 1.18, the original version was added with coarse and coarse mine blocks, and a coarse mine can be converted into a 6000MB of dirty mineral slurry in a working cycle in the chemical solubility room. For chemical crystal device, work, workThe cycle is twice the solubility room. If you are full, you need to match 60 crystal device. 6000MB is unable to do if the 6000MB is distributed to 30/60 crystal device in 10tick.The distribution of multiple controller has further increased the complexity of the plan.

When I was about to give up the plan for handling crude mine, a group friend asked me to try the SFM (Super Factory Manager) module. Its former life was Steve's Factory Manager. I used to 1.7.The 10 part of the integrated package has seen, but I did not do a related understanding, so this time I tried the mentality and learned to try it. In the end, I was involved in a set of best solutions that made me very confident.EssenceAfter recently, I finally installed the mineral production processing line after survival, I thought about writing my first tutorial here.

The picture below shows some of the device display of my survival archive MEK:

Use module

[Mek] General Machinery

[SFM] Super Factory Management

RF toolbox (optional)

[CB] Lazy Kitchen (optional)

The module version is subject to the integrated package version of ATM9 0.2.48.

Learn about SFM Super Factory Management

Super Factory Manager is generally consistent with its predecessor Steve's Factory Manager function, but the latter is a graphical interface, which may be easier to get started than the former.Here I recommend going to the station to become a master of factory management in practice to understand the detailed content and working principles. The following is only some simple description.

The left side of the Factory Manager on the left is the core device of the entire module. On the right is the Inventory Cable that is used to expand the range of Factory Manager. It needs to be connected to the six side of the Factory Manager or Inventory Cable.Restrictions can be played at will.

In addition, we also need Label Gun and Factory Manager Program Disk. Label Gun is used to mark devices connected to Factory Manager. Factory Manager Program Disk is used to record code.

As shown in the Factory Manager, place two boxes next to the Factory Manager, and use Label Gun to make two boxes on different labels, and place a set of items in box A

Open the GUI of Factory Manager, put it in the Factory Manager Program Disk, and then click on the edit on the left of the Gui to enter the code editing interface, enter the code in the input diagram

Click to complete, at this time, you can find that the state of the Factory Manager is running, indicating that the code has begun to run, and then right -click Factory Manager with Label Gun to pass the information of the tag device, and you can find that the items in the box A have been transferred to the box B.

However, the top 20ticks in this code refers to the cycle of the running code. 20ticks is already the minimum value, and then small will turn the State into Invalid Program. In some cases, 20tick is too long. There will be many restrictions. At this timeWhat should I do?The answer is to change 20 ticks to Redstone Pulse, so that the Factory Manager decides the running cycle according to the received redstone pulse, as shown in the figure

At this time, according to the original feature, 2 games engraved = 1 red stone carvings, and the shortest working cycle of Factory Manager can reach 2ticks.This is what the tutorial needs to be used next.

Five -time line basic correlation

There are a lot of tutorials on the five -line line. I believe that many people's headaches are the three machines that were initially entered, especially the distribution of slurry between the cleaning machine to the crystal device. Mek itself does not seem to be perfect.For the scheme, I used to do the dedicated line treatment of minerals to avoid the problem of the slurry, but the cure is not cured.The working cycles of these three machines are 10ticks, 1Tick, 20ticks, and the actual processing speed. After the 1.18 original version is more coarse and coarse, there are three types of output per cycle of the chemical solubility room, 1000MB of raw ore, 3 rough ore 2000MB 2000MB, 3 rough ore 2000MB 2000MB, Rough minerals 6000MB, chemical cleaning machine at full speed upgrade per cycle is 256MB processing, consumes 5x256 = 1280MB of water, chemical crystallizer full speed upgrade per cycle consumption of 200MB output 1 corresponding mineral crystal, and if you let cleaning cleanWhen the machine and the solubility room are supported, the solubility room can only be equipped with a cleaning machine when dealing with raw and coarse ore, but for the coarse mine, the 2.3 cleaning machine is required to support it. Therefore, I decided to use 3 units in the design plan.Cleaning machine to handle mineral slurry.At the same time, according to the output volume of the dissolved room, the number of crystal device required for the processing speed is 10, 20, and 60, respectively.So the crystallizer decides to use 60 units.

The equipment for processing mineral crystals is relatively simple. The working cycle of these equipment is also 20ticks. To match the output speed of 60 crystal device, it is necessary to correspond to 7 end -end poles each (but there will be a free 3 plaid) or 3 plaids) or or one free) or one free) or 3 plaids) or or 3 pieces of plaids) or or.12 high -end factories.

Incidentally, the chemical dissolving room, the pressure and purity equipment can be added with the gas upgrade. When the gas upgrade is full, the consumption value that can be found in JEI will float around (for floating is not a fixed value).

Set up SFM five -time cable automation

The beginning of this part is to explain the specific operation. The sulfuric acid, hydrofluoric acid, and oxygen system used in the five -time line are directly used to use the corresponding creation storage tank instead. When survival and installation, you need to calculate the consumption to match it yourself.The theoretical consumption of the schemes involved in the tutorial is about 20MB/T (200MB 10ticks one cycle) is floating value, and the consumption of hydrofluoric acid and oxygen theory is about 600MB/T (12000MB 20ticks one cycle).The time to take is slightly larger to prevent accidents.And please ensure that the power supply to the production line is sufficient. It does not include a simple five -time line treatment of gas systems such as sulfuric acid, hydrogen chloride, and oxygen. Please leave no less than 892kfe/T.

Preparation and chemical solubility room and cleaning machine part

As shown in the figure, because the device only needs to stick to the Factory Manager or Inventory Cable, it can be regarded as a connection, which can be placed at will. You can write in the Factory Manager program to access the device from. You only need to set the input and output surface of the MEK device.EssenceSince most of the Factory Manager access MEK device needs to designate access surfaces. In order to facilitate uniform management and code writing, the device is set up uniformly to go up and down. Label Gun label the discussion room to the chemical dissolved room.The energy supply equipment is Energy, the chemical cleaning machine is WASHER, and the cleaning jar that is cleaned is WASHER_BUFFER.

The energy supply part is set to the output above due to personal obsessive -compulsive disorder (欸 x XD), and the popory manager can actually transmit FE energy, but this is because the energy consumption of the cleaning machine is too high (204.8kfe/t) and the energy cache is the energy cache as320kfe, even the full load of 2Tick can not be supported, so the cleaning machine is powered by independent power. In the same reason, the liquid cache of the internal liquid cache of the cleaning machine is 10000MB.It also exceeded the cache, so the independent supply of cleaning water.The water sink of a lazy kitchen is used in the water supply here. You can also use the water source in other mods to replace it, or use the mek quantum transmission device to lose the water transportation of the MEK pump from other places.

PS: If the energy supply part is used, the Factory Manager cannot directly obtain the FE from its energy access point, but you can get the internal FE of the cable from the direction of the cable connected to the cable corresponding to the cache cable connection to the direction of the cache cable.Other equipment supply.

Here I use the timer (Timer) of RFTools to output red stone pulse. It is also possible to use the method of the original or other modules. HoweverEssence

The code of the chemical solubility room and the cleaning machine in SFM

The meaning of this code is: enter the sulfate gas of mek from the bottom surface of H2SO4, and output the sulfate gas to the top surface of the disology, and then input the dirty mineral slurry from the DISSOLUTION bottom surface, output to each Washer's top surface and try to keep 2000MB of dirty mineral mineralsPurching, then enter pure mineral slurry from each Washer bottom surface, and output pure mineral slurry to the top surface of Washer_buffer.At this time, you can try to add minerals to the chemical solubility room to test whether there are problems during the test process. If there is no accident, the corresponding amount of pure mineral slurry will eventually get in the Washer_buffer.

Crystal part

So I came to this big part. According to the previous article, it is necessary to match the chemical solubility room of the coarse mine. It requires 60 chemical crystal device to place it as shown in the figure below.

Then, for testing, you can also give a container as the cache Crystallizer_buffer of the crystal output product

Next is one of the core parts of this tutorial: the distribution of slurry

Mineral slurry distribution part

As shown in the figure, the red box is the code for the crystal device. The first two lines of the input/output is used to supply the crystal device. The crystallizer itself has enough cache and the power consumption is not high.能量供能，而中间对于浆液分配，我用了sfm的if循环去判断，washer_buffer has >= 1000是考虑到如果这个产线输入了单个原矿，最少的浆液产出单位数量则是1000，然后当When you meet this condition, input the pulp in the WASHER_BUFFER, and then the IF judgment again. Each crystal device can be output and try to keep the input pulp and try to keep 200 to a single crystal device.Crystallizer_buffer storage.

Regarding this part, the initial design was to keep 400MB of pulp in each crystal device, and the opening of the code does not use the redstone pulse to directly use the 20ticks cycle to control it.The scaling slurry in the crystal is unevenly allocated. Finally, the code running cycle of the Factory Manager code was set to be consistent with the chemical solubility room, so as to run the speed to adjust other devices as the benchmark.

Crystal treatment and final output section

The problem of the distribution of slurry is solved, so it came to the last paragraph, as shown in the figure, the labels of firing, pure, crushing, enrichment, and melting factory are injecting, Purifying, Crushing, Enriching, SMELTING; supplying and purifying plants to supply hydrogen hydrogen chloride hydrogen chloride hydrogen chloride.The equipment label of oxygen is HCL, Oxygen; the final output product is final_output.Its code is as follows

First of all, you need to add the labels of these factories behind the code supply of the crystal device, just separate it with a comma.

Then this is the code for the supply of gas supplies for the voltage and purification factories

Finally, here is the code that enters the transistor into the factory processing line. After Output, the Retain 9 is to ensure that each factory corresponds to one item processing to achieve maximum efficiency.

At this point, the five -time line automation is completed.

However, the overall occupation can be optimized, and the volume of this five -time scheme can be achieved in the end, as shown in the figure below

The code for finishing the complete set of schemes is as follows:

----------- Remarks -------------

-All device uses the setting method of up and down and close the pop-up. Only Energy is the exception of the up and down to open the pop-up.

-The timer part needs to be set to 10 tick once a pulse

-Thiers can be replaced in other mods, but this solution still requires 10tick one-cycle red stone pulse

-Pestance to ensure that the power supply is sufficient and then run the scheme. Except for the energy consumption of the working gas system, this part is at least not less than 892kfe/T

-The cleaning machine is independent of power supply and water supply because its cache capacity is less than 10Tick's work, so independent power supply and water supply

-For the position of the power supply room of the chemical solubility room, you can choose to add the controller to the use of the controller to supply the power to the code

-The following is a label list:

-Working equipment tags: DISSOLUTION, WASHER, CRYSTALLIZER, Injecting, Purifying, Crushing, Enriching, SMELTING

-A energy supply label: Energy

-W buffer device label: Washer_buffer, Crystallizer_buffer

-Working gas equipment label: H2SO4, HCL, Oxygen

-The final product output cache device label: final_output -----------------------------

Every Redstone Pulse Do

-A energy transmission

Input forge_nergy:*:*From Energy Top Side

Output Forge_nergy:*:*to Each Crystallizer, Injecting, Purifying, Crushing, Enriching, SMELTING TOP SIDE

--sulfuric acid

Input Gas: Mekanism: Sulfuric_acid from H2SO4 Bottom Side

Output Gas: Mekanism: Sulfuric_acid to DISSOLUTION TOP SIDE

-Wlywed liquid

Input Slurry:*: DIRTY_*From DISSOLUTION BOTTOM SIDE

Output Retain 2000 Slurry:*: Dirty_*to Each Washer Top Side

Input Slurry:*: Clean_*From Each Washer Bottom Side

Output Slurry:*: Clean_*to Washer_Buffer Top Side

-Pleraize the slurry

If Washer_buffer Has> = 1000 Slurry:*: Clean_*Then

Input Slurry:*: Clean_*From Washer_buffer Bottom Side

If Every Crystallizer Has <200 Slurry:*: Clean_*THEN

OUTPUT 200 Retain 200 Slurry:*: Clean_*to Each Crystallizer Top Side

End

END-Crystal Cache

Input*Crystal*from Each Crystallizer Bottom Side

Output*Crystal*to Crystallizer_buffer

-Thien loading hydrogen chloride

Input Gas: Mekanism: Hydrogen_chloride from HCL Bottom Side

Output Gas: Mekanism: Hydrogen_chloride to Each Injecting Top Side

-Werer oxygen loading oxygen

Input Gas: Mekanism: Oxygen from Oxygen Bottom Side

Output Gas: Mekanism: Oxygen to Each Purifying Top Side

-The shooting

Input*Crystal*From Crystallizer_buffer

Output Retain 9*Crystal*to Each Injecting Top Side

-The pure

Input*Shard*from Each Injecting Bottom Side

Output Retain 9*Shard*to Each Purifying Top Side

-Crushed

Input*Clump*from Each Purifying Bottom Side

Output Retain 9*Clump*to Each Crushing Top Side

-Com

Input*Dirty*from Each Crushing Bottom Side

Output Retain 9*: Dirty*to Each Enriching Top Side

-Mel melting

Input*Dust*from Each Enriching Bottom Side

Output Retain 9*Dust*to Each SMELTING TOP SIDE-Product Output

Input*Ingot*from Each SMELTING BOTTOM SIDE

Output*Ingot*To Final_output

end

other

There are some issues that have not been mentioned earlier. During the test, I also found that SFM's Input and Output may not be transmitted down in the corresponding position if there is no specified filter, and I can always find that I can enter it and enter it.So far, it will cause crystal transmission to the final output position when testing multiple mineral hybrid treatment, and the corresponding solution is that the position that may be transmitted by mistake is limited.The crystals output by the device can use*Crystal*to blur all the corresponding items.In fact, this problem often occurs in other automated design. This is a shortcoming of SFM.Because of this, the mineral input of the chemical solubility room has not been said before. I personally recommend it to directly enter the production line from the outside classification and process it, and then wait for the product output.

Regarding the energy, gas supply, cache and other parts in the scheme, in fact, you can also use Mek's own quantum transmission device to replace it. It can be separated from different parts to modularize. The only thing to pay attention to is to use SFM control.It is necessary to designate the access surface of MEK's device to take effect.The label with Label Gun is actually okay. As long as the code corresponds to the code, it can be cleared.

And after this plan was made, I had another idea to be able to do full load treatment when the rough and raw ore were sufficient, that is, increasing the number of chemical solubility rooms to match the non -coarse mine blocksIn the case, there are idle leisure crystal device, but the personal time is limited and the general ore can be entered. There will also be a corresponding coarse mine that can be processed, so there is no study to study the improvement plan for the time being.

Finally, because this is my first tutorial. If you are not rigorous/wrong, you are welcome to correct me, and you are welcome to ask questions about and improve the design of this solution. Thank you!

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