Shear line: Difference between revisions
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=Shear Line= | =Shear Line= | ||
The shear line is the physical point at which the [[Plug|plug]] meets the [[Cylinder|cylinder]] inside a cylinder-based [[Lock|lock]]. This point is where components must be | The shear line is the physical point at which the [[Plug|plug]] meets the [[Cylinder|cylinder]] inside a cylinder-based [[Lock|lock]]. This point is where components must be properly aligned to allow the plug to rotate freely to lock or unlock the lock. | ||
In [[Pin_tumbler|pin-tumbler]] locks: | In [[Pin_tumbler|pin-tumbler]] locks: | ||
| Line 14: | Line 14: | ||
== Virtual Shear Lines == | == Virtual Shear Lines == | ||
The use of [[Master_Key|master keying]] creates virtual shear lines. | The use of [[Master_Key|master keying]] creates virtual shear lines. The number of virtual shear lines is a count of possible arrangements of components that allow the lock to be opened. In a normal pin-tumbler mechanism with no master keying, there is only one possible combination of components. As additional pins are added to chambers the number of possible shear lines increases exponentially. A higher number of virtual shear lines reduces the pick resistance of the lock cylinder. | ||
A higher number of virtual shear lines | |||
== See also == | == See also == | ||
Revision as of 23:25, 16 January 2009
Shear Line
The shear line is the physical point at which the plug meets the cylinder inside a cylinder-based lock. This point is where components must be properly aligned to allow the plug to rotate freely to lock or unlock the lock.
In pin-tumbler locks:
- The lock opens once all top and bottom pins are separated at the shear line.
- Lockpicking exploits tolerance errors in the lock to allow pin pairs to be individually separated at the shear line until the lock opens.
- Comb picks attempts to move all pin stacks above the shear line to allow free rotation of the plug.
- Key bumping attempts to momentarily separate pin pairs at the shear line to allow free rotation of the plug.
In wafer locks:
- The lock opens once wafers do not obstruct the shear line.
Virtual Shear Lines
The use of master keying creates virtual shear lines. The number of virtual shear lines is a count of possible arrangements of components that allow the lock to be opened. In a normal pin-tumbler mechanism with no master keying, there is only one possible combination of components. As additional pins are added to chambers the number of possible shear lines increases exponentially. A higher number of virtual shear lines reduces the pick resistance of the lock cylinder.
