Pin tumbler: Difference between revisions

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A [[Cylinder|cylinder]] based [[Lock|lock]] design that uses movable pins to prevent rotation of the [[Plug|plug]]. A [[Key|key]] is used to properly elevate pins to allow the plug to rotate and the locking [[Bolt|bolt]] to be retracted.
A [[Cylinder|cylinder]] based [[Lock|lock]] design that uses movable pins to prevent rotation of the [[Plug|plug]]. A [[Key|key]] is used to properly elevate pins to allow the plug to rotate and the locking [[Bolt|bolt]] to be retracted.


The pin-tumbler is currently one of the most widely used lock designs in the world. Minor changes to the positions of pin-tumbler components is the basis for [[Dimple|dimple]] and [[Axial|axial/tubular]] lock designs.
The pin-tumbler is currently one of the most widely used lock designs in the world. Minor changes to the positions of pin-tumbler components are the basis for [[Dimple|dimple]] and [[Axial|axial/tubular]] lock designs.


==History==
==History==
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Linus Yale Sr. improved the Egyptian design with the idea of pin pairs. In the original lock pins were required to be raised high enough to clear the bolt, but were not checked to make sure they weren't raised higher than necessary. The addition of a second pin in each chamber allowed for [[Positive_locking|positive locking]] when components were raised too high. In this design, the key had to properly raise the pin pairs so that they could separate at the shear line, allowing the locking bolt to be retracted. Yale Sr. also added springs above the pin pairs to force them down to their locked position when no key is inserted.
Linus Yale Sr. improved the Egyptian design with the idea of pin pairs. In the original lock pins were required to be raised high enough to clear the bolt, but were not checked to make sure they weren't raised higher than necessary. The addition of a second pin in each chamber allowed for [[Positive_locking|positive locking]] when components were raised too high. In this design, the key had to properly raise the pin pairs so that they could separate at the shear line, allowing the locking bolt to be retracted. Yale Sr. also added springs above the pin pairs to force them down to their locked position when no key is inserted.
Linus Yale Jr. continued his father's work by improving the design of the pin-tumbler. He made it smaller, more reliable, and changed the design of the key to be flat instead of fluted. This type of key is still used by modern pin-tumbler locks.
The design of the pin-tumbler lock has remained virtually unchanged since the Yale familys' contributions. [[Master_Key|Master keying]] allows the addition of addition pins in each chamber to provide various methods of keying a particular lock or group of locks. Other additions have mostly been in the form of auxilliary security mechanisms to prevent various forms of compromise. [[Security_Pin|Security pins]], [[Sidebar|sidebars]], and [[Side_Pin|side pins]] were created to frustrated [[lockpicking]]. Various other anti-picking modifications exist, such as top pins that provide [[Axial_rotation|rotation]] or [[Telescoping_pin|telescoping]]. Finally, ball bearings are now inserted into the plug or cylinder to protect the pin stacks and prevent [[Destructive_Entry|destructive entry]].


== Principles of Operation ==
== Principles of Operation ==

Revision as of 18:51, 4 February 2009

Pin-tumbler

A cylinder based lock design that uses movable pins to prevent rotation of the plug. A key is used to properly elevate pins to allow the plug to rotate and the locking bolt to be retracted.

The pin-tumbler is currently one of the most widely used lock designs in the world. Minor changes to the positions of pin-tumbler components are the basis for dimple and axial/tubular lock designs.

History

Pin-tumbler locks were originally invented in ancient Egypt. The design used a series of single pins that, when locked, would prevent movement of a bolt by resting inside the bolt itself. The key was used to raise pins out of the bolt, allowing it to retract. This was the first use of a shear line, a major discovery that is the basis for all cylinder based locks in modern use. Early pin tumbler locks, bolts, and keys were all made with wood, but eventually brass and iron were used. Many cultures adopted the design throughout history, but it would not be widely used until Linus Yale Sr. and Linus Yale, Jr. modified the pin-tumbler design in the mid 1800s.

Linus Yale Sr. improved the Egyptian design with the idea of pin pairs. In the original lock pins were required to be raised high enough to clear the bolt, but were not checked to make sure they weren't raised higher than necessary. The addition of a second pin in each chamber allowed for positive locking when components were raised too high. In this design, the key had to properly raise the pin pairs so that they could separate at the shear line, allowing the locking bolt to be retracted. Yale Sr. also added springs above the pin pairs to force them down to their locked position when no key is inserted.

Linus Yale Jr. continued his father's work by improving the design of the pin-tumbler. He made it smaller, more reliable, and changed the design of the key to be flat instead of fluted. This type of key is still used by modern pin-tumbler locks.

The design of the pin-tumbler lock has remained virtually unchanged since the Yale familys' contributions. Master keying allows the addition of addition pins in each chamber to provide various methods of keying a particular lock or group of locks. Other additions have mostly been in the form of auxilliary security mechanisms to prevent various forms of compromise. Security pins, sidebars, and side pins were created to frustrated lockpicking. Various other anti-picking modifications exist, such as top pins that provide rotation or telescoping. Finally, ball bearings are now inserted into the plug or cylinder to protect the pin stacks and prevent destructive entry.

Principles of Operation

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Vulnerabilities

Pin-tumblers are vulnerable to a wide variety of attacks. The specifics of the pin-tumbler design and manufacturing tolerances will determine the exact vulnerabilities present, but most pin-tumblers are vulnerable to at least one or more of the following:

See also