Difference between revisions of "Launcher configuration"
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== Chamber-Barrel position == | == Chamber-Barrel position == | ||
| − | The possibilities are limitless, but these are the most common ways to position the chamber and barrel: | + | The possibilities are limitless, but these are the most common ways to position the [[chamber]] and [[barrel]]: |
*[[Linear]] or inline | *[[Linear]] or inline | ||
*[[over/under]] | *[[over/under]] | ||
*[[co-axial]] | *[[co-axial]] | ||
| − | * | + | *[[multiple tanks and T's]] |
Like the setup used on the [http://www.spudtech.com/images/products/mega-II-ov2.jpg megah-launcher]. However, the multiple bends results in slightly reduced flow. [[GGDT]] simulations typically don't show much improvement from the increased chamber volume. | Like the setup used on the [http://www.spudtech.com/images/products/mega-II-ov2.jpg megah-launcher]. However, the multiple bends results in slightly reduced flow. [[GGDT]] simulations typically don't show much improvement from the increased chamber volume. | ||
| Line 14: | Line 14: | ||
* [[Union]] loading | * [[Union]] loading | ||
| − | A step up. | + | A step up. Allows you to load the projectile from the breech, but requires alignment and twisting afterwards. A union can also hold a [[burst disk]]. [[Camlock coupling]]s are similar to unions, but faster to open and close. They are usually rated for less [[pressure]] than unions. |
* [[Breech loading]] | * [[Breech loading]] | ||
| − | + | Allows you to load a projectile from the breech (end of gun towards user). Mechanism and loading time varies by construction technique. | |
* [[Vogt-pattern]] | * [[Vogt-pattern]] | ||
| − | A tube holds the ammo, about around half a dozen balls. Upon firing, the balls are sucked one-by-one into the airflow, resulting in a tight grouping of balls fired a few dozen | + | A tube holds the [[ammo]], about around half a dozen balls. Upon firing, the balls are sucked one-by-one into the airflow, resulting in a tight grouping of balls fired a few dozen milliseconds apart. Suitable for large-caliber weaponry (has been tested with as large as [http://www.spudfiles.com/spudtech_archive/viewtopic.php?t=11012 tennis balls]) Named after the late [[Bill Vogt]], who came up with the design. |
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| + | [[category:Concepts]] | ||
Latest revision as of 12:37, 4 June 2008
Chamber-Barrel position
The possibilities are limitless, but these are the most common ways to position the chamber and barrel:
- Linear or inline
- over/under
- co-axial
- multiple tanks and T's
Like the setup used on the megah-launcher. However, the multiple bends results in slightly reduced flow. GGDT simulations typically don't show much improvement from the increased chamber volume.
Projectile delivery
The basic option. Projectile loads from the front, and reload time is quite slow. If there's any significant friction between the projectile and barrel, a ramrod must be used to push the projectile down the barrel.
- Union loading
A step up. Allows you to load the projectile from the breech, but requires alignment and twisting afterwards. A union can also hold a burst disk. Camlock couplings are similar to unions, but faster to open and close. They are usually rated for less pressure than unions.
Allows you to load a projectile from the breech (end of gun towards user). Mechanism and loading time varies by construction technique.
A tube holds the ammo, about around half a dozen balls. Upon firing, the balls are sucked one-by-one into the airflow, resulting in a tight grouping of balls fired a few dozen milliseconds apart. Suitable for large-caliber weaponry (has been tested with as large as tennis balls) Named after the late Bill Vogt, who came up with the design.
