Goal V18: Difference between revisions

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= GOAL V18 =
<span style="font-size:22px">GOAL V18</span>
 
----
{{Lock model
{{Lock model
| name          = GOAL V18
| name          = GOAL V18
| Img            = File:Goal_V18_housing_keyway_-_FXE47506.jpg  
| Img            = File:Goal_V18_housing_keyway_-_FXE47506.jpg  
| Img_size      = 150px
| Img_size      = 200px
| maker          = [[Goal |GOAL]]
| maker          = [[Goal |GOAL]]
| lock_type      = [[Cylinder]]
| lock_type      = [[Cylinder]]
| lock_design    = [[Pin_tumbler|Pin-tumbler]], [[Dimple]]
| lock_design    = [[Pin_tumbler|Pin-tumbler]], [[Dimple]]
| ratings        = [[UL 437]]
| years_produced =  
| years_produced =  
| patent =  
| patent =  
| related        = [[Goal D9 |GOAL D9]]
| related        = [[Goal D9 |GOAL D9]]
| spec_on      = yes
| spec_on      = yes
| spec_comptype = Pin-tumbler
| spec_comptype = [[Pin_tumbler|Pin-tumbler]]
| spec_comp    = 18 or 19
| spec_comp    = 19
}}
}}
__TOC__
__TOC__
<br clear=all>
<br>


The '''V18''' is a [[dimple]] lock made by [[Goal|GOAL]]. Drilled for 21 pins, it contains up to 19 active pins and two core-centering pins. Pins are arranged in rows of seven on the left, top, and right of the keyway.
The '''V18''' is a [[dimple]] lock made by [[Goal|GOAL]]. Drilled for 21 pins, it contains up to 19 active pins and two core-centering pins. Pins are arranged in rows of seven on the left, top, and right of the keyway.
'' '''Please note:''' the V18 is very similar to the GOAL GP and the smaller, nine-pin [[Goal D9 |GOAL D9]] model. The locks share the same pins, fundamental designs, and primary security features.''


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


[[Image:Goal V18 pin sizes - FXE47722.jpg|right|thumb|200px|V18 pin sizes for top and side rows.]]
[[Image:Goal V18-03 all pins - FXE47613.jpg|right|thumb|255px|V18 full pin set]]
[[Image:Goal V18 pin stack variations - FXE47726.jpg|right|thumb|200px|V18 pin stacks: standard, click bearing, dummy pins.]]
[[Image:Goal V18 pin stack variations - FXE47726.jpg|right|thumb|255px|V18 pin stacks: standard, click bearing, dummy pins for master keying]]
[[Image:Goal V18 core with bearing - FXE47712-Edit.jpg|right|thumb|200px|V18 click bearing, concave key pin.]]
<!--[[Image:Goal V18 core with bearing - FXE47712-Edit.jpg|right|thumb|255px|V18 click bearing, concave key pin]]-->


The [[Goal|GOAL]] V18 utilizes [[dimple]] keys but functions the same as a standard [[Pin_tumbler |pin-tumbler]] lock. The lock uses 21 chambers for pin-tumbler stacks. Up to nineteen of those chambers each contain a set of key pin, driver, and spring. The dimple key of the V18 has four cut depths for side pins and three, different cut depths for pins in the top row. The design offers 12 billion [[Differs|key differences]] when pinned with 18 active pins. The key is bitted on the sides and edges of the blade and is reversible. To open the lock, all active pin-tumblers -- across all three rows of pins -- must be aligned at the [[shear line]]. ''(See also [[Pin_tumbler#Principles_of_operation|Pin-tumbler, Principles of operation]])''


The [[Goal|GOAL]] V18 utilizes [[dimple]] keys but functions the same as a standard [[pin-tumbler]] lock. The lock uses 21 chambers for pin-tumbler stacks. Eighteen or nineteen of those chambers each contain a set of key pin, driver, and spring. The dimple key of the V18 has four cut depths for side pins and three, different cut depths for pins in the top row. The design offers 12 billion [[Differs|key differences]] when pinned with 18 active pins. The key is bitted on the sides and edges of the blade and is reversible. To open the lock, all active pin-tumblers -- across all three rows of pins -- must be aligned at the [[shear line]]. ''(See also [[Pin-tumbler#Principles_of_Operation|Pin-tumbler, Principles of Operation]])''
GOAL utilizes a variety of [[security pin]]s to deter picking. Active pin stacks incorporate seven total lengths of stainless steel key pins with two sizes of steel driver pins to match. The V18 uses a mix of thin and thick lipped mushroom spool drivers. Drivers are cupped to allow the spring to nest inside the pins. Key pins are a combination of t-pins and multi-section tapered spools which are torpedo shaped to create overset traps. These pin designs match overmilling of the pin chambers in the core to catch pins as they are lifted to shear. The top row of pin chambers in the bible is taller than the side rows in larger models of the V18. Brass spacer pins are placed above the spring to match the increase length of the pin chambers.


GOAL utilizes a variety of [[security pin]]s to deter picking. Active pin stacks incorporate seven total lengths of stainless steel key pins with two sizes of steel driver pins to match. The V18 uses a mix of thin and thick lipped mushroom spool drivers. Drivers are cupped to allow the spring to nest inside the pins. Key pins are a combination of t-pins and multi-section tapered spools which are torpedo shaped to create overset traps. These pin designs match overmilling of the pin chambers in the core to catch pins as they are lifted to shear. The top row of pin chambers in the bible is taller than the side rows in larger models of the V18. Brass spacer pins are placed above the spring to match the increase length of the pin chambers.
{| class="wikitable"
!colspan="5"| V18 pin sizes (mm)
|-
| Top row pins || 4.20 || 4.75 || 5.20 ||
|-
| Side row pins || 5.15 || 5.65 || 6.15 || 6.50
|}


Two of the chambers, one on each side, contain a sprung bearing or "click ball" to bias the core. This core-centering mechanism consists of a pin with a concave top which sits in the core without entering the keyway and a ball bearing which sits in the bible. This click device acts as a detent when the key aligns the core to the locked position. <!-- when a key is present in the lock --> Centering pin stacks are also distinguishable by their shorter and wider springs. The core-biasing bearings are always located one each on the left and right side of the lock, but the location within each row can vary.  
Two of the chambers, one on each side, contain a sprung bearing or "click ball" to bias the core. This core-centering mechanism consists of a pin with a concave top which sits in the core without entering the keyway and a ball bearing which sits in the bible. This click device acts as a detent when the key aligns the core to the locked position. <!-- when a key is present in the lock --> Centering pin stacks are also distinguishable by their shorter and wider springs. The core-biasing bearings are always located one each on the left and right side of the lock, but the location within each row can vary.  
Line 36: Line 45:
Additionally, the V18 uses two, smaller "ward pins" to restrict access to the keyway. These pins are situated in holes in the core and do not interact with the bitting of the key.
Additionally, the V18 uses two, smaller "ward pins" to restrict access to the keyway. These pins are situated in holes in the core and do not interact with the bitting of the key.


[[Master keying]] the V18 involves strategically removing one or more pins to create one or more mastered versions. <!--[what is the correct term?]--> GOAL uses inactive, dummy key pins and drivers made of brass. They take the place of active pin stacks and do not interact with the key. Master key systems thus reduce the number of active pins.
[[Master_key |Master keying]] the V18 involves strategically removing one or more pins to create one or more mastered versions. <!--[what is the correct term?]--> GOAL uses inactive, dummy key pins and drivers made of brass. They take the place of active pin stacks and do not interact with the key. Master key systems thus reduce the number of active pins.
 
<gallery>
File:GOALv18_concave_click_pin-Reinder.png |The concave surface of a GOAL V18 click pin.
File:GOALv18_plug_chambers_top-Reinder.png |Pin chambers in a GOAL V18 plug, narrowing at the bottom.
</gallery>
<br clear="all>


== Model variations ==
== Model variations ==
[[Image:Goal V18 rim v compact - FXE47636.jpg|right|thumb|200px|Comparison of V18 compact and standard cylinders.]]
[[Image:Goal V18 rim v compact - FXE47636.jpg|right|thumb|255px|Comparison of V18 compact and standard cylinders]]


Two V18 cylinders are shown here:
Two V18 cylinders are shown here:
Line 54: Line 57:


The V18 system is available in a [[UL 437]] rated cylinder.
The V18 system is available in a [[UL 437]] rated cylinder.
== Disassembly instructions ==
The GOAL V18 is disassembled in the same way as a traditional pin-tumbler cylinder.
# Remove the rear plate (standard cylinder) or C-clip (compact cylinder)
# Insert the key and turn the [[plug]] 30-45 degrees.
# Withdraw the plug from the cylinder. (A [[plug follower]] and [[Plug_follower#Core_shim |core shims]] are strongly recommended)
:''Note: the three bible covers of the compact cylinder can be removed easily and non-destructively.''
:''This makes gutting and re-pinning possible without removing the plug.''
<br clear="all">
<br clear="all">


== Gallery ==
== Gallery ==
<gallery align="center">
<div align="center"><gallery align="center">
File:Goal V18 cylinder front - FXE47507.jpg | Front view of a GOAL V18 rim cylinder
File:Goal V18 cylinder front - FXE47507.jpg | Front view of a GOAL V18 rim cylinder
File:Goal_V18_cylinder_top_-_FXE47513.jpg |Exterior of a V18 rim cylinder
File:Goal_V18_cylinder_top_-_FXE47513.jpg |Exterior of a V18 rim cylinder
Line 74: Line 89:


File:Goal V18 pin stack variations - FXE47726.jpg | Pin stack variations
File:Goal V18 pin stack variations - FXE47726.jpg | Pin stack variations
File:Goal V18-03 all pins - FXE47613.jpg | V18 all pins
File:GOALv18_pins_01_edit-Reinder.jpg|Pins and springs from a V18
File:GOALv18_pins_01_edit-Reinder.jpg|Pins and springs from a V18
File:GOALv18_concave_click_pin-Reinder.png |The concave surface of a V18 click pin


File:Goal V18 core with bearing - FXE47712-Edit.jpg | V18 core with bearing
File:Goal V18 core with bearing - FXE47712-Edit.jpg | V18 core with bearing
File:Goal V18 ward pins - FXE47665-Edit-Edit.jpg | V18 ward pins
File:Goal V18 ward pins - FXE47665-Edit-Edit.jpg | V18 ward pins
File:Goal_V18-05_front_-_lit_glowing_-_FXE47828.jpg‎ | V18 keyway, glow-in-the-dark


<!-- File:GOALv18_tray_of_pins_edit-Reinder.jpg|Pins and springs. -->
<!-- File:GOALv18_tray_of_pins_edit-Reinder.jpg|Pins and springs. -->
 
File:GOALv18_plug_chambers_top-Reinder.png |Pin chambers in a V18 plug, narrowing at the bottom
File:GOALv18_plug_01_color-Reinder.png|Right side of a V18 plug
File:GOALv18_plug_01_color-Reinder.png|Right side of a V18 plug
File:GOALv18_plug_bottom-Reinder.png|Bottom of a V18 plug
File:GOALv18_plug_bottom-Reinder.png|Bottom of a V18 plug
File:GOALv18_plug_top-Reinder.png |Top of a V18 plug
File:GOALv18_plug_top-Reinder.png |Top of a V18 plug
File:GOALv18_plug_chambers_top-Reinder.png |Pin chambers in a V18 plug, top row
<!-- File:GOALv18_plug_chambers_top-Reinder.png |Pin chambers in a V18 plug, top row *DUPLICATE* -->
File:GOALv18_plug_03_edit-Reinder.jpg|Keyway without "warding" pins
File:GOALv18_plug_03_edit-Reinder.jpg|Keyway without "warding" pins
File:GOALv18_plug_04_edit-Reinder.jpg|Keyway with "warding" pins
File:GOALv18_plug_04_edit-Reinder.jpg|Keyway with "warding" pins
File:GOALv18_ward_pins_edit-Reinder.jpg|Ward pins
File:GOALv18_ward_pins_edit-Reinder.jpg|Ward pins
File:Goal_V18_keyway_wrench-Reinder.jpg |Two tension tools combined to fit the wide keyway of the V18
File:Goal_V18_keyway_wrench-Reinder.jpg |Two tension tools combined to fit the wide keyway of the V18
</gallery>
</gallery></div>


== See also ==
== See also ==


* [[Dimple Lock]]
* [[Goal|GOAL]]
* [[Goal |GOAL]]
* [[Dimple|Dimple locks]]
 
* [[:Category:Lock_models|List of lock model articles]]


[[Category:Lock models]]
[[Category:Lock models]]
[[Category:Goal]]
[[Category:Dimple_locks]]
[[Category:Dimple_locks]]
[[Category:Pin-tumbler_locks]]
[[Category:Pin-tumbler_locks]]
[[Category:Goal]]
[[Category:UL_437_locks]]
[[Category:UL_437_locks]]
{{Stub}}

Latest revision as of 14:10, 2 February 2023

GOAL V18



GOAL V18
Goal V18 housing keyway - FXE47506.jpg
Name GOAL V18
Manufacturer GOAL
Lock Type Cylinder
Lock Design Pin-tumbler, Dimple
Security Rating(s) UL 437
Specifications
# of Components 19
Component Type Pin-tumbler
Related Locks
GOAL D9


The V18 is a dimple lock made by GOAL. Drilled for 21 pins, it contains up to 19 active pins and two core-centering pins. Pins are arranged in rows of seven on the left, top, and right of the keyway.

Please note: the V18 is very similar to the GOAL GP and the smaller, nine-pin GOAL D9 model. The locks share the same pins, fundamental designs, and primary security features.

Principles of operation

V18 full pin set
V18 pin stacks: standard, click bearing, dummy pins for master keying

The GOAL V18 utilizes dimple keys but functions the same as a standard pin-tumbler lock. The lock uses 21 chambers for pin-tumbler stacks. Up to nineteen of those chambers each contain a set of key pin, driver, and spring. The dimple key of the V18 has four cut depths for side pins and three, different cut depths for pins in the top row. The design offers 12 billion key differences when pinned with 18 active pins. The key is bitted on the sides and edges of the blade and is reversible. To open the lock, all active pin-tumblers -- across all three rows of pins -- must be aligned at the shear line. (See also Pin-tumbler, Principles of operation)

GOAL utilizes a variety of security pins to deter picking. Active pin stacks incorporate seven total lengths of stainless steel key pins with two sizes of steel driver pins to match. The V18 uses a mix of thin and thick lipped mushroom spool drivers. Drivers are cupped to allow the spring to nest inside the pins. Key pins are a combination of t-pins and multi-section tapered spools which are torpedo shaped to create overset traps. These pin designs match overmilling of the pin chambers in the core to catch pins as they are lifted to shear. The top row of pin chambers in the bible is taller than the side rows in larger models of the V18. Brass spacer pins are placed above the spring to match the increase length of the pin chambers.

V18 pin sizes (mm)
Top row pins 4.20 4.75 5.20
Side row pins 5.15 5.65 6.15 6.50

Two of the chambers, one on each side, contain a sprung bearing or "click ball" to bias the core. This core-centering mechanism consists of a pin with a concave top which sits in the core without entering the keyway and a ball bearing which sits in the bible. This click device acts as a detent when the key aligns the core to the locked position. Centering pin stacks are also distinguishable by their shorter and wider springs. The core-biasing bearings are always located one each on the left and right side of the lock, but the location within each row can vary.

Additionally, the V18 uses two, smaller "ward pins" to restrict access to the keyway. These pins are situated in holes in the core and do not interact with the bitting of the key.

Master keying the V18 involves strategically removing one or more pins to create one or more mastered versions. GOAL uses inactive, dummy key pins and drivers made of brass. They take the place of active pin stacks and do not interact with the key. Master key systems thus reduce the number of active pins.

Model variations

Comparison of V18 compact and standard cylinders

Two V18 cylinders are shown here:

  • A standard cylinder, model V-LX 5
  • A compact cylinder, V-TX

Both utilize the same components and general security features. The rim cylinder is larger, more robust, and incorporates steel ball bearings for drill protection. The compact cylinder features easy-to-remove bible covers and is much easier to re-pin.

The V18 system is available in a UL 437 rated cylinder.

Disassembly instructions

The GOAL V18 is disassembled in the same way as a traditional pin-tumbler cylinder.

  1. Remove the rear plate (standard cylinder) or C-clip (compact cylinder)
  2. Insert the key and turn the plug 30-45 degrees.
  3. Withdraw the plug from the cylinder. (A plug follower and core shims are strongly recommended)
Note: the three bible covers of the compact cylinder can be removed easily and non-destructively.
This makes gutting and re-pinning possible without removing the plug.


Gallery

See also