![]() ![]() With automation, a Mechanized Airlock in a vacuum can be used as a "heat switch" to regulate heat transfer between two solid objects. When open, a Mechanized Airlock does not transfer heat.The sequencer automation for airlock pumps can be simplified with the pipe-loop.Keeping airlocks unpowered and slow in this case can help minimize gas-leakage, as pump will have more time to catch and vent-out incoming gasses.A proper airlock can be constructed by combing two Airlocks and some pumps. Gases and liquids pass through it when opened. Despite the name, the Airlock is not a fully-functional airlock, but rather an airtight door.Manual Airlocks and Mechanized Airlocks do not get damaged by high liquid pressure, which makes them, alongside with Airflow Tiles, perfect for building large liquid tanks or liquid compressors.This allows the automation of some buildings that do not have Automation inputs. Since Mechanized Airlocks can be opened and closed with Automation, buildings placed atop them can be effectively disabled/enabled without Duplicant intervention.Manual and Mechanized Airlocks count as floor tiles when closed, but not when open.This airlock, and all other doors can be built horizontally by rotating the blueprint.It is recommended to add an extra bit of time to each of these values for reliability in critical designs (such as a high pressure door pump.) Decreasing the wavelength below 1.4 seconds will cause hiccups at faster game speed. ![]() As long as the above minimums are maintained you can vary the duty cycle so as to have the door spend more time in the open position or the closed position. Minimum Red Signal time to reliably trigger a close: 0.6 Secondsįastest stable oscilation wavelength: 1.4 Seconds. Minimum Green Signal time to reliably trigger an open: 0.4 Seconds All tests & values found were done for the "Fast" simulation speed as any speed slower should be more reliable. It appears the simulation speed isn't perfectly deterministic and will change the required signal durations for which the door reliably triggers. Matter will be destroyed if there is nowhere for it to go, however. This can be used to compress gasses and liquids beyond the densities allowed by Vents. Mechanized Airlocks can also be used to push around gasses, liquids and items through a sequencer automation grid. This property can be combined with automation to control thermal conductivity between areas. They have a single input port a green signal will open the door, while a red signal will close (and lock) the door.Īn opened mechanized airlock will not transfer heat if there is no liquid or gas to occupy the space. Mechanized Airlocks have a wide variety of uses outside of traffic control. If the airlock is leading to an unbreathable area, its fast opening speed can be a safety measure in order to not have Duplicants suffocating while the door opens. ![]() Upgrading manual airlocks to these in high traffic areas can help save some time opening the door. Mechanized Airlocks are an upgrade to Manual Airlocks. ![]()
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