Difference between revisions of "Guide (Airlock) Atmosphere to Vacuum"
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==Description== | ==Description== | ||
− | An Atmosphere to Vacuum Airlock is a [[Room|chamber]] that can evacuate and refill its internal volume with | + | An Atmosphere to Vacuum Airlock is a [[Room|chamber]] that can evacuate and refill its internal volume with the [[Atmosphere|atmosphere]] connected to it. It has two or more airtight portals which all do not open simultaneously. Thus, an Atmosphere to Vacuum Airlock allows passage between a vacuum and a pressurized environment without the loss of [[Pressure|pressure]]. |
− | An Atmosphere to Atmosphere Vacuum Airlock can be controlled automatically by an [[Circuitboard (Airlock)]] installed | + | An Atmosphere to Atmosphere Vacuum Airlock can be controlled automatically by an [[Circuitboard (Airlock)]] installed within a [[Console]]. |
− | If the "interior" door is open, then when activated the Circuitboard (Airlock) will automatically close the interior-door and evacuate the interior-atmosphere from the airlock chamber out into/through the pipe-network attached to the interior- | + | The Circuitboard (Airlock)'s settings will refer to the pressurized environment as "interior" and the vacuum environment as "exterior". |
+ | |||
+ | If the "interior" door is open, then when activated the Circuitboard (Airlock) will automatically close the interior-door and evacuate the interior-atmosphere from the airlock chamber out into/through the pipe-network attached to the interior-Vent. Once a total vacuum is achieved, the Circuitboard (Airlock) will open the exterior-door. The reverse process is executed when the system is activated with the "exterior" door open. | ||
==Materials== | ==Materials== | ||
− | Material requirements for an | + | Material requirements for an minimum Atmosphere to Vacuum Airlock are: |
− | * 2 x portals: | + | * 2 x portals: variants of either [[Kit (Airlock)]], [[Kit (Blast Door)]], [[Kit (Door)]], or [[Kit (Docking Port)]] |
* 1 x [[Kit (Consoles) Console|Kit (Consoles) Console]] | * 1 x [[Kit (Consoles) Console|Kit (Consoles) Console]] | ||
* 1 x [[Circuitboard (Advanced Airlock)]] | * 1 x [[Circuitboard (Advanced Airlock)]] | ||
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# Using the [[Labeller]], rename each door as "Interior-Door" and "Exterior-Door" appropriately. | # Using the [[Labeller]], rename each door as "Interior-Door" and "Exterior-Door" appropriately. | ||
# Enclose the six remaining sides of the airlock chamber with airtight frames, walls, or windows. | # Enclose the six remaining sides of the airlock chamber with airtight frames, walls, or windows. | ||
− | # | + | # Ensure all placed devices can be wired together on the same network including the doors' power and data ports. |
− | # Attach enough pipes to | + | # Attach enough pipes to each Active Vent to hold the volume of the airlock or pass it through to a Passive Vent placed in the "interior" environment. |
− | # Using the | + | # Using the Labeller, rename the Active Vent as "Interior Vent". |
# Ensure the airlock's wire-network is connected to an active power supply and all devices can receive power. | # Ensure the airlock's wire-network is connected to an active power supply and all devices can receive power. | ||
# Insert Circuitboard (Airlock) into the console, then place the glass sheet onto the console. | # Insert Circuitboard (Airlock) into the console, then place the glass sheet onto the console. | ||
− | # Insert Data Disk into the side slot of Console | + | # Insert Data Disk into the side slot of Console then power on the Console. |
# On the Console, scroll through the list of devices. Click to select. Click again to deselect if incorrect | # On the Console, scroll through the list of devices. Click to select. Click again to deselect if incorrect | ||
# Find and click "Exterior-Door" followed by all caps and green "EXTERIOR". NOTE: SELECT THIS FIRST! | # Find and click "Exterior-Door" followed by all caps and green "EXTERIOR". NOTE: SELECT THIS FIRST! | ||
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# Find and click "Flashing Light" followed by all caps and green "LIGHT". (optional) | # Find and click "Flashing Light" followed by all caps and green "LIGHT". (optional) | ||
# Remove Data Disk from the side slot of Console. | # Remove Data Disk from the side slot of Console. | ||
− | + | ||
− | |||
If there is an error the console screen will say so and the power light will flash yellow. | If there is an error the console screen will say so and the power light will flash yellow. | ||
==Troubleshooting== | ==Troubleshooting== | ||
− | An airlock may stall if there is not enough gas available from/through the pipe-network | + | When powered, all associated doors and vents are locked, preventing their manual use even when power is denied. This can be a problem if trapped within an airlock during a power outage. Best practise is to ensure the airlocks wire-network is connected to an emergency power supply such as a [[Battery Cell]] equipped [[Power Controller]]. |
+ | |||
+ | An airlock may stall if there is not enough gas available from/through the attached pipe-network to reach 101 kPa. Such a stalled pressurization phase can be skipped by clicking the yellow "Cancel Pressurize" button on a console. Note that a console can often be accessed through windows if needed. As a last resort, an airlock portal can be deconstructed. | ||
An airlock depressurization phase will not complete until the large grid volume in which the Gas Sensor resides is depleted of atmosphere at which time the exterior door will open. Thus in larger airlocks, ensure there is one Gas Sensor per large grid to prevent airlock doors from prematurely opening and the resulting escape of interior atmosphere. | An airlock depressurization phase will not complete until the large grid volume in which the Gas Sensor resides is depleted of atmosphere at which time the exterior door will open. Thus in larger airlocks, ensure there is one Gas Sensor per large grid to prevent airlock doors from prematurely opening and the resulting escape of interior atmosphere. |
Revision as of 15:47, 19 March 2019
Description
An Atmosphere to Vacuum Airlock is a chamber that can evacuate and refill its internal volume with the atmosphere connected to it. It has two or more airtight portals which all do not open simultaneously. Thus, an Atmosphere to Vacuum Airlock allows passage between a vacuum and a pressurized environment without the loss of pressure.
An Atmosphere to Atmosphere Vacuum Airlock can be controlled automatically by an Circuitboard (Airlock) installed within a Console.
The Circuitboard (Airlock)'s settings will refer to the pressurized environment as "interior" and the vacuum environment as "exterior".
If the "interior" door is open, then when activated the Circuitboard (Airlock) will automatically close the interior-door and evacuate the interior-atmosphere from the airlock chamber out into/through the pipe-network attached to the interior-Vent. Once a total vacuum is achieved, the Circuitboard (Airlock) will open the exterior-door. The reverse process is executed when the system is activated with the "exterior" door open.
Materials
Material requirements for an minimum Atmosphere to Vacuum Airlock are:
- 2 x portals: variants of either Kit (Airlock), Kit (Blast Door), Kit (Door), or Kit (Docking Port)
- 1 x Kit (Consoles) Console
- 1 x Circuitboard (Advanced Airlock)
- 1 x Glass Sheets
- 1 x Data Disk
- 1 x Kit (Sensors) Gas Sensor
- 1 x Kit (Active Vent)
- 1 x Kit (Passive Vent) (optional)
- 1 x Kit (Flashing Light) (optional)
- 1 x Kit (Power Controller) (optional)
- 2 x Kit (Pipe)
- ?? x Cable Coil
Construction
A minimum Atmosphere to Vacuum Airlock can be constructed using the following instructions:
- Place both doors one large grid apart with the power and data ports facing into the airlock chamber's interior.
- Using the Labeller, rename each door as "Interior-Door" and "Exterior-Door" appropriately.
- Enclose the six remaining sides of the airlock chamber with airtight frames, walls, or windows.
- Ensure all placed devices can be wired together on the same network including the doors' power and data ports.
- Attach enough pipes to each Active Vent to hold the volume of the airlock or pass it through to a Passive Vent placed in the "interior" environment.
- Using the Labeller, rename the Active Vent as "Interior Vent".
- Ensure the airlock's wire-network is connected to an active power supply and all devices can receive power.
- Insert Circuitboard (Airlock) into the console, then place the glass sheet onto the console.
- Insert Data Disk into the side slot of Console then power on the Console.
- On the Console, scroll through the list of devices. Click to select. Click again to deselect if incorrect
- Find and click "Exterior-Door" followed by all caps and green "EXTERIOR". NOTE: SELECT THIS FIRST!
- Ensure the Exterior-Door's lock-indicator has turned from green to red.
- Find and click "Interior-Door" followed by all caps and green "INTERIOR".
- Ensure the Interior-Door's lock-indicator has turned from green to red.
- Find and click "Interior-Vent" followed by all caps and green "VENT".
- Find and click "Gas Sensor" followed by all caps and green "SENSOR".
- Find and click "Flashing Light" followed by all caps and green "LIGHT". (optional)
- Remove Data Disk from the side slot of Console.
If there is an error the console screen will say so and the power light will flash yellow.
Troubleshooting
When powered, all associated doors and vents are locked, preventing their manual use even when power is denied. This can be a problem if trapped within an airlock during a power outage. Best practise is to ensure the airlocks wire-network is connected to an emergency power supply such as a Battery Cell equipped Power Controller.
An airlock may stall if there is not enough gas available from/through the attached pipe-network to reach 101 kPa. Such a stalled pressurization phase can be skipped by clicking the yellow "Cancel Pressurize" button on a console. Note that a console can often be accessed through windows if needed. As a last resort, an airlock portal can be deconstructed.
An airlock depressurization phase will not complete until the large grid volume in which the Gas Sensor resides is depleted of atmosphere at which time the exterior door will open. Thus in larger airlocks, ensure there is one Gas Sensor per large grid to prevent airlock doors from prematurely opening and the resulting escape of interior atmosphere.