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Difference between revisions of "Hinges"

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== Summary ==
{{Otherlang2
<br>
|de=Hinges:de
<br>
|fr=Hinges/fr
[[File:Starbase_devices_hinges.png|400px]]
|zh-cn=铰链
<br>
|ru=Шарниры
<br>
|ua=Петлі
Hinges are devices used for creating turning, sliding and opening mechanisms such as doors, hatches and sliding doors.
|jp=ヒンジ
}}{{SB Infobox Begin
  |setWidth=16vw
|{{SB Infobox Header
  |image=[[Image:Starbase_devices_hinges.png]]
  |factionLogo=
  |caption=Two of the many types of hinges available
  |name=
  |border=none
}}
 
|{{SB Infobox Device General Information
  |type=Utility machinery
  |function=Joint motor
 
}}
}}<section begin=summary/>Hinges are devices used for creating turning, sliding and opening mechanisms such as doors, hatches and sliding doors.<section end=summary/>


== Basic information ==
== Basic information ==


Hinges are commonly interacted with by controlling it via a [[Buttons|button]] or [[YOLOL|YOLOL]] script.<br>
Hinges are most frequently interacted with via a [[Buttons|button]] or [[YOLOL]] script, but can also be interacted with directly via the [[Universal tool|universal tool]]. They are not especially strong, and cannot be used to mount [[Thrusters|thrusters]] to a ship; nor do any of them have provisions to transfer power or propellant beyond the joint itself.
A hinge's DoorOpenState-field can be connected to a button.<br>
 
The button can be then used to remotely open or close the hinge.
<!-- Hidden. These hinges may be added in the future, but currently are not.
There are currently 16 different hinges and they all share the same operation being either a fold/unfold or a sliding hinge. The majority of the variety is taken up by fold/unfolding hinges. A major issue with hinges when making ships is that most of them do not pass on electricity or signals. Hinges are also said to be weak to pressure, so one shouldn't mount them to thrusters. -->
 
== Gallery ==
 
{{SB Mini Infobox Wrap
|{{SB Mini Infobox Begin
  |{{SB Infobox Header
|image=[[Image:Hinge (c-profile).png]]
|name=Hinge (C-profile)
  }}
 
  |{{SB Infobox Device General Information
|size=48×144×36 cm
|mass=1,419 kg
|volume=142.7 kv
|corrosionResistance=400
  }}
 
  |{{SB Infobox Device IO
|electricIn=5 e/s
|sockets=2
|modInterfaces=2
  }}
 
  |{{SB Infobox Device Construction
|bastium=100%
  }}
}}
 
|{{SB Mini Infobox Begin
  |{{SB Infobox Header
|image=[[Image:Hinge (l-profile).png]]
|name=Hinge (L-profile)
  }}
 
  |{{SB Infobox Device General Information
|size=24×144×36 cm
|mass=1,148 kg
|volume=115.3 kv
|corrosionResistance=400
  }}
 
  |{{SB Infobox Device IO
|electricIn=5 e/s
|sockets=2
|modInterfaces=2
  }}
 
  |{{SB Infobox Device Construction
|bastium=100%
  }}
}}
 
|{{SB Mini Infobox Begin
  |{{SB Infobox Header
|image=[[Image:Hinge A (48x48).png]]
|name=Hinge (A-1)
  }}
 
  |{{SB Infobox Device General Information
|size=48×48×12 cm
|mass=331 kg
|volume=33.3 kv
|corrosionResistance=425
  }}
 
  |{{SB Infobox Device IO
|electricIn=5 e/s
|sockets=1
|modInterfaces=1
  }}
 
  |{{SB Infobox Device Construction
|ajatite=10%
|bastium=75%
|tengium=15%
  }}
}}
|{{SB Mini Infobox Begin
  |{{SB Infobox Header
|image=[[Image:Hinge A (48x144).png]]
|name=Hinge (A-2)
  }}
 
  |{{SB Infobox Device General Information
|size=48×144×12 cm
|mass=940 kg
|volume=94.4 kv
|corrosionResistance=435
  }}
 
  |{{SB Infobox Device IO
|electricIn=5 e/s
|sockets=2
|modInterfaces=2
  }}
 
  |{{SB Infobox Device Construction
|ajatite=15%
|bastium=65%
|tengium=20%
  }}
}}
|{{SB Mini Infobox Begin
  |{{SB Infobox Header
|image=[[Image:Hinge B (48x48).png]]
|name=Hinge (B-1)
  }}
 
  |{{SB Infobox Device General Information
|size=48×48×12 cm
|mass=331 kg
|volume=33.3 kv
|corrosionResistance=425
  }}
 
  |{{SB Infobox Device IO
|electricIn=5 e/s
|sockets=1
|modInterfaces=1
  }}
 
  |{{SB Infobox Device Construction
|ajatite=10%
|bastium=75%
|tengium=15%
  }}
}}
|{{SB Mini Infobox Begin
  |{{SB Infobox Header
|image=[[Image:Hinge B (48x144).png]]
|name=Hinge (B-2)
  }}
 
  |{{SB Infobox Device General Information
|size=48×144×12 cm
|mass=940 kg
|volume=94.4 kv
|corrosionResistance=435
  }}
 
  |{{SB Infobox Device IO
|electricIn=5 e/s
|sockets=2
|modInterfaces=2
  }}
 
  |{{SB Infobox Device Construction
|ajatite=15%
|bastium=65%
|tengium=20%
  }}
}}
}}


== Device fields ==
== Device fields ==
To learn more about how to use fields, consult these wiki pages:
* [[Universal tool|Universal Tool]]
* [[Data networks|Data networks]]
* [[YOLOL|YOLOL]]


{|class="wikitable"
{|class="wikitable"
Line 26: Line 191:
|-
|-
! '''DoorOpenState'''
! '''DoorOpenState'''
| Setting values to this field will move the joint target as defined by the properties and other fields of the device.
| Input field for requested door state. 0 is closed, 1 is fully open.
|  
| [0,1]
|-
|-
! '''DoorCurrentState'''
! '''DoorCurrentState'''
| This field will get updated to the latest state that the joint target is in, as defined by the  properties and other fields of the device. The value answer basically answers the question 'What input would the device need to move to it's current position'
| Reports the current position of the door, on the same scale as ''DoorOpenState''
|  
| [0,1]
|-
|-
! '''EndRotation / EndPosition'''
! '''EndAngle / EndPosition'''
| How "open" the joint will be is relative to '''RelativeDestinationRotation''' when it receives input identical or above '''FullOpenInput'''. Is measured in percents(%) for prismatic joints, and degrees in hinge joints.
| The rotation/position the joint should be at when ''DoorOpenState'' is 1. Is measured in percents(%) relative to the maximum possible open state for prismatic joints, and degrees in hinge joints.
|  
|  
|-
|-
!'''StartRotation / StartPosition'''
!'''StartAngle / StartPosition'''
| How "closed" the joint will be is relative to '''RelativeOriginalRotation''' when it receives input identical or below '''FullCloseInput'''. Is measured in percents(%) for prismatic joints, and degrees in hinge joints
| The rotation/position the joint should be at when ''DoorOpenState'' is 0. Is measured in percents(%) relative to the maximum possible open state for prismatic joints, and degrees in hinge joints.
|  
|  
|-
|-
! '''TargetVelocity'''
! '''TargetVelocity'''
| The maximum velocity the joint will reach. This cannot exceed the velocity property defined in the type, and can't be negative.
| The maximum velocity the joint will reach. Different joint devices have different velocity limits, and might not be able to reach the configured velocity.
|  
|  
|}
|}


To learn more about how to use fields, consult these wiki pages:
* [[Universal tool|Universal Tool]]
* [[Data networks|Data networks]]
* [[YOLOL|YOLOL]]


<!-- joint motors -->
[[Category:Devices and machines|Hinges]]
[[Category:Devices and machines|Hinges]]

Latest revision as of 07:15, 28 July 2021

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Starbase devices hinges.png
Two of the many types of hinges available
Hinges
Type Utility machinery
Function Joint motor

Hinges are devices used for creating turning, sliding and opening mechanisms such as doors, hatches and sliding doors.

Basic information

Hinges are most frequently interacted with via a button or YOLOL script, but can also be interacted with directly via the universal tool. They are not especially strong, and cannot be used to mount thrusters to a ship; nor do any of them have provisions to transfer power or propellant beyond the joint itself.


Gallery

Hinge (c-profile).png
Hinge (C-profile)

Size 48×144×36 cm
Mass 1,419 kg kg
Volume 142.7 kv kv
Corrosion resistance 400

Input / Output
Electric input 5 e/s

Sockets 2

Modular interfaces 2

Composition

Bastium 100%

Hinge (l-profile).png
Hinge (L-profile)

Size 24×144×36 cm
Mass 1,148 kg kg
Volume 115.3 kv kv
Corrosion resistance 400

Input / Output
Electric input 5 e/s

Sockets 2

Modular interfaces 2

Composition

Bastium 100%

Hinge A (48x48).png
Hinge (A-1)

Size 48×48×12 cm
Mass 331 kg kg
Volume 33.3 kv kv
Corrosion resistance 425

Input / Output
Electric input 5 e/s

Sockets 1

Modular interfaces 1

Composition

Ajatite 10%

Bastium 75%

Tengium 15%

Hinge A (48x144).png
Hinge (A-2)

Size 48×144×12 cm
Mass 940 kg kg
Volume 94.4 kv kv
Corrosion resistance 435

Input / Output
Electric input 5 e/s

Sockets 2

Modular interfaces 2

Composition

Ajatite 15%

Bastium 65%

Tengium 20%

Hinge B (48x48).png
Hinge (B-1)

Size 48×48×12 cm
Mass 331 kg kg
Volume 33.3 kv kv
Corrosion resistance 425

Input / Output
Electric input 5 e/s

Sockets 1

Modular interfaces 1

Composition

Ajatite 10%

Bastium 75%

Tengium 15%

Hinge B (48x144).png
Hinge (B-2)

Size 48×144×12 cm
Mass 940 kg kg
Volume 94.4 kv kv
Corrosion resistance 435

Input / Output
Electric input 5 e/s

Sockets 2

Modular interfaces 2

Composition

Ajatite 15%

Bastium 65%

Tengium 20%

Device fields

YOLOL field Description Range
DoorOpenState Input field for requested door state. 0 is closed, 1 is fully open. [0,1]
DoorCurrentState Reports the current position of the door, on the same scale as DoorOpenState [0,1]
EndAngle / EndPosition The rotation/position the joint should be at when DoorOpenState is 1. Is measured in percents(%) relative to the maximum possible open state for prismatic joints, and degrees in hinge joints.
StartAngle / StartPosition The rotation/position the joint should be at when DoorOpenState is 0. Is measured in percents(%) relative to the maximum possible open state for prismatic joints, and degrees in hinge joints.
TargetVelocity The maximum velocity the joint will reach. Different joint devices have different velocity limits, and might not be able to reach the configured velocity.

To learn more about how to use fields, consult these wiki pages:

Retrieved from "https://wiki.starbasegame.com/index.php?title=Hinges&oldid=28121"
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