Tubar: Difference between revisions

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{{Lock model
{{Lock model
| name=TuBAR
| name=TuBAR
| Img=
| Img= File:Tubar_cylinder.jpg
| maker = [[CompX]]
| maker = [[CompX]]
| years_produced = 1981 - Present
| years_produced = 1981 - Present
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The '''TuBAR''' is a [[sidebar|dual-sidebar]] lock made by [[CompX|CompX Chicago]]. It is distinguished for being one of the few [[cam lock]]s to use a [[sidebar]] without major modifications to the sidebar mechanism. The TuBAR was originally produced by Chicago Lock Co., which has since become CompX Chicago.
The '''TuBAR''' is a [[sidebar|dual-sidebar]] lock made by [[CompX|CompX Chicago]]. It is distinguished for being one of the few [[cam lock]]s to use a [[sidebar]] without major modifications to the sidebar mechanism. The TuBAR was originally produced by Chicago Lock Co., which has since become CompX Chicago.
The TuBAR is easy to identify because of the visible pins arranged in two rows of four in the center of the plug. The TuBAR is commonly mistaken for an oddly arranged [[tubular]] [[pin-tumbler]] lock.


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== Principles of operation ==
== Principles of operation ==


The TuBAR uses eight pins arranged in two rows of four down the vertical length of the keyway. Each pin has a tapered end surrounded by a spring at the bottom of the pin chamber. Two sidebars are used at 3 and 9 o'clock in the [[plug]], and each set of four pins uses a different sidebar. When the correct key is used, each pin is moved so that it's true gate is lined up with the sidebar, allowing the sidebar to retract and the plug to rotate.
The TuBAR uses eight pins arranged in two rows of four down the vertical length of the keyway. Each pin has a tapered end surrounded by a spring at the bottom of the pin chamber. Two sidebars are used at 3 and 9 o'clock in the [[plug]], and each set of four pins uses a different sidebar. When the correct key is used, each pin is moved so that it's true gate is lined up with the sidebar, allowing the sidebar to retract and the plug to rotate. The sidebar is a two piece assembly of a bar and a crescent. The flat part of the crescent enters the gates on the pins while the bar restricts plug movement until the sidebar is retracted.


There are seven positions for true gates, at 0.025" increments between 0.175" and 0.325" from the tip of the pin. Each pin has one or more false gates which are too shallow to allow the sidebar to retract. The false gates provide resistance to [[lockpicking]] attacks.
There are seven positions for true gates, at 0.025" increments between 0.175" and 0.325" from the tip of the pin. Each pin has one or more false gates which are too shallow to allow the sidebar to retract. The false gates provide resistance to [[lockpicking]] attacks. The high spring tension on pins pushes each sidebar into the cylinder walls; the sidebars have no independent spring mechanism.


Above the plug a profiling cap is used to make sure the key is inserted properly. The TuBAR is warded so that the key can only be inserted in one orientation. The profile cap is free-spinning and helps provide resistance to drilling attacks, too. <ref>Pulford, Graham. ''High Security Mechanical Locks: An Encylopedic Reference.'' (2007)</ref> When the plug is rotated the key is held in place by a protrusion that goes through a hole in the blade.
Above the plug a profiling cap is used to make sure the key is inserted properly. The TuBAR is warded so that the key can only be inserted in one orientation. The profile cap is free-spinning and helps provide resistance to drilling attacks, too. <ref>Pulford, Graham. ''High Security Mechanical Locks: An Encylopedic Reference.'' (2007)</ref> When the plug is rotated the key is held in place by a protrusion that goes through a hole in the blade.
<div align="center"><gallery>
File:Tubar_key.jpg|The TuBAR key
File:Tubar_plug_sidebar.jpg|TuBAR plug and one [[sidebar]].
File:Tubar_plug.jpg|The TuBAR plug with sidebars and profile cap.
File:Tubar_sidebar_aligned.jpg|True gates of each pin properly aligned.
</gallery></div>


== Construction ==
== Construction ==
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== Gallery ==
== Gallery ==


Add to me!
<div align="center"><gallery>
<div align="center"><gallery>
File:Tubar_pins.jpg|Pins used in the TuBAR.
File:Tubar_pins_close.jpg|Closeup of false and true gates on each pin.
File:Tubar_pins_plug.jpg|Pins in the plug, note the false gates.
File:Tubar sidebar.jpg|Assembled and disassembled sidebars.
</gallery></div>
</gallery></div>



Revision as of 17:48, 20 November 2009

TuBAR

TuBAR
Tubar cylinder.jpg
Name TuBAR
Manufacturer CompX
Lock Type Cam lock
Lock Design Sidebar
Year(s) Produced 1981 - Present
Patent US #4,446,709


The TuBAR is a dual-sidebar lock made by CompX Chicago. It is distinguished for being one of the few cam locks to use a sidebar without major modifications to the sidebar mechanism. The TuBAR was originally produced by Chicago Lock Co., which has since become CompX Chicago.

The TuBAR is easy to identify because of the visible pins arranged in two rows of four in the center of the plug. The TuBAR is commonly mistaken for an oddly arranged tubular pin-tumbler lock.

Principles of operation

The TuBAR uses eight pins arranged in two rows of four down the vertical length of the keyway. Each pin has a tapered end surrounded by a spring at the bottom of the pin chamber. Two sidebars are used at 3 and 9 o'clock in the plug, and each set of four pins uses a different sidebar. When the correct key is used, each pin is moved so that it's true gate is lined up with the sidebar, allowing the sidebar to retract and the plug to rotate. The sidebar is a two piece assembly of a bar and a crescent. The flat part of the crescent enters the gates on the pins while the bar restricts plug movement until the sidebar is retracted.

There are seven positions for true gates, at 0.025" increments between 0.175" and 0.325" from the tip of the pin. Each pin has one or more false gates which are too shallow to allow the sidebar to retract. The false gates provide resistance to lockpicking attacks. The high spring tension on pins pushes each sidebar into the cylinder walls; the sidebars have no independent spring mechanism.

Above the plug a profiling cap is used to make sure the key is inserted properly. The TuBAR is warded so that the key can only be inserted in one orientation. The profile cap is free-spinning and helps provide resistance to drilling attacks, too. [1] When the plug is rotated the key is held in place by a protrusion that goes through a hole in the blade.

Construction

The cylinder is sintered steel, and the plug brass. The pins, sidebar components, and profile cap are made of hardened steel. The key is made of steel with a plastic bow.

Disassembly instructions

The TuBar is relatively easy to disassemble.

  1. Tap out and remove the retaining rod at the rear of the cylinder.
  2. Push the plug and profile cap out of the cylinder.

Vulnerabilities

The TuBAR may be vulnerable to the following attacks:

Notes

  • Visual decoding of the true gates of deep-setting pins can be done with the naked eye.

Gallery

References

  1. Pulford, Graham. High Security Mechanical Locks: An Encylopedic Reference. (2007)

See also