https://spudfiles.com/spud_wiki/api.php?action=feedcontributions&feedformat=atom&user=SchmanmanSpudFiles Wiki - User contributions [en]2026-05-12T12:15:13ZUser contributionsMediaWiki 1.44.3https://spudfiles.com/spud_wiki/index.php?title=Multiple_tanks_and_T%27s&diff=3279Multiple tanks and T's2007-05-22T22:22:36Z<p>Schmanman: </p>
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<div>[[Image:http://www.spudfiles.com/spud_wiki/images/f/f2/HPIM0718.jpg]]<br />
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[[Image:http://i118.photobucket.com/albums/o82/schmanman/HPIM0721.jpg]]</div>Schmanmanhttps://spudfiles.com/spud_wiki/index.php?title=File:HPIM0718.jpg&diff=3278File:HPIM0718.jpg2007-05-22T22:17:17Z<p>Schmanman: </p>
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<div></div>Schmanmanhttps://spudfiles.com/spud_wiki/index.php?title=Multiple_tanks_and_T%27s&diff=3277Multiple tanks and T's2007-05-22T22:13:47Z<p>Schmanman: New page: Image:http://i118.photobucket.com/albums/o82/schmanman/HPIM0718.jpg Image:http://i118.photobucket.com/albums/o82/schmanman/HPIM0721.jpg</p>
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<div>[[Image:http://i118.photobucket.com/albums/o82/schmanman/HPIM0718.jpg]]<br />
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[[Image:http://i118.photobucket.com/albums/o82/schmanman/HPIM0721.jpg]]</div>Schmanmanhttps://spudfiles.com/spud_wiki/index.php?title=Launcher_configuration&diff=3276Launcher configuration2007-05-22T22:11:03Z<p>Schmanman: </p>
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<div>== Chamber-Barrel position ==<br />
The possibilities are limitless, but these are the most common ways to position the chamber and barrel:<br />
<br />
*[[Linear]] or inline<br />
*[[over/under]]<br />
*[[co-axial]]<br />
*[[multiple tanks and T's]]<br />
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.<br />
<br />
== Projectile delivery ==<br />
<br />
* [[Muzzle loading]]<br />
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.<br />
<br />
* [[Union]] loading<br />
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]]. [[Cam lever coupling]]s are similar to unions, but faster to open and close. They are usually rated for less pressure than unions.<br />
<br />
* [[Breech loading]]<br />
Allows you to load a projectile from the breech (end of gun towards user). Mechanism and loading time varies by construction technique.<br />
<br />
* [[Vogt-pattern]]<br />
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.<br />
<br />
[[category:Concepts]]</div>Schmanmanhttps://spudfiles.com/spud_wiki/index.php?title=Spark_strip&diff=3169Spark strip2007-03-04T21:19:57Z<p>Schmanman: /* metalic dust field */</p>
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<div>[[Image:Spark_strip.jpg|frame|An etched copper spark strip]]A '''spark strip''' is used to provide multiple sparks to ignite the fuel/air mix in a [[combustion launcher]]. It is differs from multiple [[spark gap]]s in that a spark strip is mounted using two or even one [http://www.advancedspuds.com/his.htm (temp link)] hole. This is done primarily to ensure the integrity of the launcher, as drilling multiple holes weakens the chamber. Spark strips can also be used in [[coaxial]] launchers, where chamber space is more cramped.<br />
<br />
A spark strip consists of several conductive objects in a row with a short gap in between, effectively forming a line of spark gaps. As with other spark gaps, the combined width of the gaps must be small enough for the [[ignition source]] to overcome.<br />
<br />
There are several ways to achieve this:<br />
===scratched conductive film===<br />
By scratching thin lines across a conductive film (metallic paints, CDs) it is possible to get very large numbers of sparks out of a meager scource. A more sophisticated method consists of etching a spark strip pattern in a printed circuit board.<br />
<br />
===wire method===<br />
Small pieces of wire, BBs, nuts or other metallic objects are attached to the chamber wall. (either directly or indirectly).<br />
<br />
===veroboard===<br />
Veroboard is a ready-made circuit board with multiple copper strips or dots, a piece cut perpendicular to the copper strips will function as a spark strip.</div>Schmanmanhttps://spudfiles.com/spud_wiki/index.php?title=Piston_valve&diff=2989Piston valve2006-09-14T20:16:31Z<p>Schmanman: </p>
<hr />
<div>A '''piston valve''' is a [[pilot valve|pilot]] operated valve. It is very similar to a [[diaphragm valve]] in theory, but replaces it's flexible diaphragm with a rigid cylinder. There are 2 varieties; barrel sealing and chamber sealing.<br />
<br />
== Construction, barrel sealing ==<br />
<br />
The piston is often a well fitting cup-shaped object, such as a end cap. To provide a sealing face, a piece of rubber is attached, typically with a bolt. Equalization is accomplished by simply allowing the air to leak past the piston and into the chamber. Some people will machine their own pistons, in which case they often build [[O-ring]]s into them. With the O-rings, you need to make a small equalization hole; sometimes this is fancied up to be a homemade [[check valve]].<br />
<br />
Because a piston is heavier and harder than a diaphragm, and PVC is somewhat brittle, it is recommended that a bumper of sorts is built into your pilot volume. Common bumpers include heavy-duty rubber hose, and such. This is labeled "'''F'''" in the "use, barrel sealing" diagram.<br />
<br />
These valves are often used on [[coaxial]]s and [[over/under]]s. In an over/under, the valve is built in a "T" fitting. The barrel is put co-axially through one end, the pilot and piston are put in the opposite one, and a chamber is connected to the perpendicular opening with a 90° elbow.<br />
<br />
== Use, barrel sealing ==<br />
[[Image:Wpiston.PNG|frame|top=pressurized, bottom=firing]]<br />
Operation:<br />
#Air is added by filling behind the piston (C).<br />
#The piston (E) slides forwards, and seals against the barrel (A). (Alternatively, one can use a spring to move the piston forwards, which allows one to fill [slowly at first, to allow the pressure to equalize] from the chamber.)<br />
#More air is added, and leaks around the piston (or through a small equalization hole) and into the chamber (B), filling it to the desired pressure.<br />
#The pilot valve (D) behind the piston is opened, the pressure in the [[pilot|pilot volume]] (C) drops, and the higher pressure in the chamber area pushes the piston away from the barrel.<br />
#The air flows around from the chamber, and into the barrel, propelling the projectile.<br />
<br />
The performance of these valves can be calculated with the [[GGDT]].<br />
If your valve [[honking|honks]], it is probably a good idea to invest in a better [[pilot valve]].<br />
[[category:valves]]<br />
<br />
<br />
<br />
== Barrel sealing tee piston valve explanation and plans==<br />
<br />
[[Image:<br />
Image:http://www.magooffl.com/images/diagram.jpg]]<br />
the air is put into the gun from behind the piston. the piston is pushed into the rubber coupler, and it seals so no air can go out the barrel. <br />
<br />
but air goes between the piston and pipe, and goes through the bottom of the tee, into the chambers. Okay, this is where the sprinkler valve comes in. Since there is air pressing on the front and back of the piston, but there is less surface on the front, the pressure on the back keeps it seated. <br />
<br />
to fire, activate the solenoid, which vents the back of the piston, so there is much more more pressure pushing it on the front. This causes it to slam backwards, unseating the valve, and dumping huge amounts of air out the barrel at once. <br />
<br />
this all actually happens instantaneously(instantly) at the near instant you hit the button.<br />
<br />
NOTE:the 3 inch sch 40 end cap piston was sanded around the back, where you will find small ridges of extra PVC from when it was injection molded. buy the smoothest end cap and rubber coupler you can find, and it will seal</div>Schmanmanhttps://spudfiles.com/spud_wiki/index.php?title=Barrel&diff=2986Barrel2006-09-14T10:32:14Z<p>Schmanman: </p>
<hr />
<div>The '''barrel''' is the pipe used to launch the projectile, and is, along with the [[chamber]], the only component found in all launchers. The diameter determines what projectiles will fit in the launcher, and the length affects how much energy is transferred to the projectile.<br />
<br />
Modifications and improvements to the basic barrel include [[sleeving]], [[rifled barrel|rifling]], [[hop-up]]s and flatline barrels.<br />
<br />
There are many diameters of barrels popular in spudding, below are some that fit certain ammo:<br />
<br />
* 4.5mm brakeline - fits bbs, good for [[BBMGs]]<br />
* 6mm brakeline - fits [[airsoft bb]]s, a commonly used ammo in BBMGs.<br />
* 3/4" CPVC, 3/4" sch 80 PVC (looser fit), or 3/4" sch 120 PVC - fits .68" [[paintball]]s<br />
* 1/2" sch 40 PVC (.602" id) - fits "AA" batteries, marbles.<br />
* 3/4" sch 40 PVC (.804" id) - fits 12g [[CO2 cartridge]]s, C batteries.<br />
* 1" sch 40 PVC (1.029" id) - size [[C cell|"C" batteries]], smaller sized [[bouncy balls]].<br />
* 1.25" sch 40 PVC (1.360" id) - Fits size [[D cell|"D" batteries]], [[film canister]]s<br />
* 1.5" sch 40 PVC (1.590" id) - a common size, good trade-off between power and [[potato]] usage. [http://www.spudtech.com/components.asp Available rifled from the [[SGTC]]]<br />
* 1.5" sdr 21 PVC (1.700" id) - fits [[golf ball]]s. Traditionally [[sleeving|sleeved]] within SCH-80 PVC.<br />
* 1.5" sdr 26 PVC (1.734" id)- fits golfballs, but it is thinner than sdr 21, so the golfballs fit a little looser. Traditionally sleeved within 2" SCH-80 PVC.<br />
* 2" sch 40 PVC (2.047" id) - fits caulk tubes and (large) potatoes.<br />
* 2" sch 80 PVC (1.913" id) - fits 1.5" nominal pipe well, making it ideal for [[sleeving]] Also used as a golf ball barrel by itself, with the golf ball held in place by a rag patch, or other wadding. Also fits normal light bulbs! [http://advancedspuds.com/concreteballs.htm (Details)].<br />
* 2.5" sch 40 PVC (2.445" id) - fits [[tennis ball]]s well.<br />
* 3" sch 80 PVC (2.864" id) - fits many drink bottles well.<br />
* 3" sch 40 PVC (3.042" id) - fits normal [[steel can|cans]], empty propane torch tanks,oh,and gadorade bottles. perfectly<br />
* 4" sch 40 PVC (3.998" id) - fits 29 oz. cans<br />
<br />
Inside diameter (id) data from harvel.com<br />
[[Category:Components]]</div>Schmanmanhttps://spudfiles.com/spud_wiki/index.php?title=Barrel&diff=2985Barrel2006-09-14T10:31:38Z<p>Schmanman: </p>
<hr />
<div>The '''barrel''' is the pipe used to launch the projectile, and is, along with the [[chamber]], the only component found in all launchers. The diameter determines what projectiles will fit in the launcher, and the length affects how much energy is transferred to the projectile.<br />
<br />
Modifications and improvements to the basic barrel include [[sleeving]], [[rifled barrel|rifling]], [[hop-up]]s and flatline barrels.<br />
<br />
There are many diameters of barrels popular in spudding, below are some that fit certain ammo:<br />
<br />
* 4.5mm brakeline - fits bbs, good for [[BBMGs]]<br />
* 6mm brakeline - fits [[airsoft bb]]s, a commonly used ammo in BBMGs.<br />
* 3/4" CPVC, 3/4" sch 80 PVC (looser fit), or 3/4" sch 120 PVC - fits .68" [[paintball]]s<br />
* 1/2" sch 40 PVC (.602" id) - fits "AA" batteries, marbles.<br />
* 3/4" sch 40 PVC (.804" id) - fits 12g [[CO2 cartridge]]s, C batteries.<br />
* 1" sch 40 PVC (1.029" id) - size [[C cell|"C" batteries]], smaller sized [[bouncy balls]].<br />
* 1.25" sch 40 PVC (1.360" id) - Fits size [[D cell|"D" batteries]], [[film canister]]s<br />
* 1.5" sch 40 PVC (1.590" id) - a common size, good trade-off between power and [[potato]] usage. [http://www.spudtech.com/components.asp Available rifled from the [[SGTC]]]<br />
* 1.5" sdr 21 PVC (1.700" id) - fits [[golf ball]]s. Traditionally [[sleeving|sleeved]] within SCH-80 PVC.<br />
* 1.5" sdr 26 PVC (1.734" id)- fits golfballs, but it is thinner than sdr 21, so the golfballs fit a little looser. Traditionally sleeved within 2" SCH-80 PVC.<br />
* 2" sch 40 PVC (2.047" id) - fits caulk tubes and (large) potatoes.<br />
* 2" sch 80 PVC (1.913" id) - fits 1.5" nominal pipe well, making it ideal for [[sleeving]] Also used as a golf ball barrel by itself, with the golf ball held in place by a rag patch, or other wadding. Also fits normal light bulbs! [http://advancedspuds.com/concreteballs.htm (Details)].<br />
* 2.5" sch 40 PVC (2.445" id) - fits [[tennis ball]]s well.<br />
* 3" sch 80 PVC (2.864" id) - fits many drink bottles well.<br />
* 3" sch 40 PVC (3.042" id) - fits normal [[steel can|cans]], and empty propane torch tanks,oh,and gadorade bottles. perfectly<br />
* 4" sch 40 PVC (3.998" id) - fits 29 oz. cans<br />
<br />
Inside diameter (id) data from harvel.com<br />
[[Category:Components]]</div>Schmanmanhttps://spudfiles.com/spud_wiki/index.php?title=Piston_valve&diff=2984Piston valve2006-09-14T10:28:56Z<p>Schmanman: </p>
<hr />
<div>A '''piston valve''' is a [[pilot valve|pilot]] operated valve. It is very similar to a [[diaphragm valve]] in theory, but replaces it's flexible diaphragm with a rigid cylinder. There are 2 varieties; barrel sealing and chamber sealing.<br />
<br />
== Construction, barrel sealing ==<br />
<br />
The piston is often a well fitting cup-shaped object, such as a endcap. To provide a sealing face, a piece of rubber is attached, typically with a bolt. Equalization is accomplished by simply allowing the air to leak past the piston and into the chamber. Some people will machine their own pistons, in which case they often build [[O-ring]]s into them. With the O-rings, you need to make a small equalization hole; sometimes this is fancied up to be a homemade [[check valve]].<br />
<br />
Because a piston is heavier and harder than a diaphragm, and PVC is somewhat brittle, it is recommended that a bumper of sorts is built into your pilot volume. Common bumpers include heavy-duty rubber hose, and such. This is labeled "'''F'''" in the "use, barrel sealing" diagram.<br />
<br />
These valves are often used on [[coaxial]]s and [[over/under]]s. In an over/under, the valve is built in a "T" fitting. The barrel is put coaxially through one end, the pilot and piston are put in the opposite one, and a chamber is connected to the perpendicular opening with a 90° elbow.<br />
<br />
== Use, barrel sealing ==<br />
[[Image:Wpiston.PNG|frame|top=pressurized, bottom=firing]]<br />
Operation:<br />
#Air is added by filling behind the piston (C).<br />
#The piston (E) slides forwards, and seals against the barrel (A). (Alternatively, one can use a spring to move the piston forwards, which allows one to fill [slowly at first, to allow the pressure to equalize] from the chamber.)<br />
#More air is added, and leaks around the piston (or through a small equalization hole) and into the chamber (B), filling it to the desired pressure.<br />
#The pilot valve (D) behind the piston is opened, the pressure in the [[pilot|pilot volume]] (C) drops, and the higher pressure in the chamber area pushes the piston away from the barrel.<br />
#The air flows around from the chamber, and into the barrel, propelling the projectile.<br />
<br />
The performance of these valves can be calculated with the [[GGDT]].<br />
If your valve [[honking|honks]], it is probably a good idea to invest in a better [[pilot valve]].<br />
[[category:valves]]<br />
<br />
<br />
<br />
== Barrel sealing tee piston valve ==<br />
<br />
[[Image:<br />
Image:http://www.magooffl.com/images/diagram.jpg]]<br />
the air is put into the gun from behind the piston. the piston is pushed into the rubber coupler, and it seals so no air can go out the barrel. <br />
<br />
but air goes between the piston and pipe, and goes through the bottom of the tee, into the chambers. Okay, this is where the sprinkler valve comes in. Since there is air pressing on the front and back of the piston, but there is less surface on the front, the pressure on the back keeps it seated. <br />
<br />
to fire, activate the solenoid, which vents the back of the piston, so there is much more more pressure pushing it on the front. This causes it to slam backwards, unseating the valve, and dumping huge amounts of air out the barrel at once. <br />
<br />
this all actually happens instantaneously(instantly) at the near instant you hit the button.</div>Schmanmanhttps://spudfiles.com/spud_wiki/index.php?title=Piston_valve&diff=2983Piston valve2006-09-14T10:27:12Z<p>Schmanman: </p>
<hr />
<div>A '''piston valve''' is a [[pilot valve|pilot]] operated valve. It is very similar to a [[diaphragm valve]] in theory, but replaces it's flexible diaphragm with a rigid cylinder. There are 2 varieties; barrel sealing and chamber sealing.<br />
<br />
== Construction, barrel sealing ==<br />
<br />
The piston is often a well fitting cup-shaped object, such as a endcap. To provide a sealing face, a piece of rubber is attached, typically with a bolt. Equalization is accomplished by simply allowing the air to leak past the piston and into the chamber. Some people will machine their own pistons, in which case they often build [[O-ring]]s into them. With the O-rings, you need to make a small equalization hole; sometimes this is fancied up to be a homemade [[check valve]].<br />
<br />
Because a piston is heavier and harder than a diaphragm, and PVC is somewhat brittle, it is recommended that a bumper of sorts is built into your pilot volume. Common bumpers include heavy-duty rubber hose, and such. This is labeled "'''F'''" in the "use, barrel sealing" diagram.<br />
<br />
These valves are often used on [[coaxial]]s and [[over/under]]s. In an over/under, the valve is built in a "T" fitting. The barrel is put coaxially through one end, the pilot and piston are put in the opposite one, and a chamber is connected to the perpendicular opening with a 90° elbow.<br />
<br />
== Use, barrel sealing ==<br />
[[Image:Wpiston.PNG|frame|top=pressurized, bottom=firing]]<br />
Operation:<br />
#Air is added by filling behind the piston (C).<br />
#The piston (E) slides forwards, and seals against the barrel (A). (Alternatively, one can use a spring to move the piston forwards, which allows one to fill [slowly at first, to allow the pressure to equalize] from the chamber.)<br />
#More air is added, and leaks around the piston (or through a small equalization hole) and into the chamber (B), filling it to the desired pressure.<br />
#The pilot valve (D) behind the piston is opened, the pressure in the [[pilot|pilot volume]] (C) drops, and the higher pressure in the chamber area pushes the piston away from the barrel.<br />
#The air flows around from the chamber, and into the barrel, propelling the projectile.<br />
<br />
The performance of these valves can be calculated with the [[GGDT]].<br />
If your valve [[honking|honks]], it is probably a good idea to invest in a better [[pilot valve]].<br />
[[category:valves]]<br />
<br />
<br />
<br />
== Barrel sealing tee piston valve ==<br />
<br />
<br />
[[Image:http://www.magooffl.com/images/diagram.jpg]]<br />
the air is put into the gun from behind the piston. the piston is pushed into the rubber coupler, and it seals so no air can go out the barrel. <br />
<br />
but air goes between the piston and pipe, and goes through the bottom of the tee, into the chambers. Okay, this is where the sprinkler valve comes in. Since there is air pressing on the front and back of the piston, but there is less surface on the front, the pressure on the back keeps it seated. <br />
<br />
to fire, activate the solenoid, which vents the back of the piston, so there is much more more pressure pushing it on the front. This causes it to slam backwards, unseating the valve, and dumping huge amounts of air out the barrel at once. <br />
<br />
this all actually happens instantaneously(instantly) at the near instant you hit the button.</div>Schmanmanhttps://spudfiles.com/spud_wiki/index.php?title=Piston_valve&diff=2982Piston valve2006-09-14T00:22:41Z<p>Schmanman: </p>
<hr />
<div>A '''piston valve''' is a [[pilot valve|pilot]] operated valve. It is very similar to a [[diaphragm valve]] in theory, but replaces it's flexible diaphragm with a rigid cylinder. There are 2 varieties; barrel sealing and chamber sealing.<br />
<br />
== Construction, barrel sealing ==<br />
<br />
The piston is often a well fitting cup-shaped object, such as a endcap. To provide a sealing face, a piece of rubber is attached, typically with a bolt. Equalization is accomplished by simply allowing the air to leak past the piston and into the chamber. Some people will machine their own pistons, in which case they often build [[O-ring]]s into them. With the O-rings, you need to make a small equalization hole; sometimes this is fancied up to be a homemade [[check valve]].<br />
<br />
Because a piston is heavier and harder than a diaphragm, and PVC is somewhat brittle, it is recommended that a bumper of sorts is built into your pilot volume. Common bumpers include heavy-duty rubber hose, and such. This is labeled "'''F'''" in the "use, barrel sealing" diagram.<br />
<br />
These valves are often used on [[coaxial]]s and [[over/under]]s. In an over/under, the valve is built in a "T" fitting. The barrel is put coaxially through one end, the pilot and piston are put in the opposite one, and a chamber is connected to the perpendicular opening with a 90° elbow.<br />
<br />
== Use, barrel sealing ==<br />
[[Image:Wpiston.PNG|frame|top=pressurized, bottom=firing]]<br />
Operation:<br />
#Air is added by filling behind the piston (C).<br />
#The piston (E) slides forwards, and seals against the barrel (A). (Alternatively, one can use a spring to move the piston forwards, which allows one to fill [slowly at first, to allow the pressure to equalize] from the chamber.)<br />
#More air is added, and leaks around the piston (or through a small equalization hole) and into the chamber (B), filling it to the desired pressure.<br />
#The pilot valve (D) behind the piston is opened, the pressure in the [[pilot|pilot volume]] (C) drops, and the higher pressure in the chamber area pushes the piston away from the barrel.<br />
#The air flows around from the chamber, and into the barrel, propelling the projectile.<br />
<br />
The performance of these valves can be calculated with the [[GGDT]].<br />
If your valve [[honking|honks]], it is probably a good idea to invest in a better [[pilot valve]].<br />
[[category:valves]]<br />
<br />
<br />
<br />
== Barrel sealing tee piston valve ==<br />
<br />
<br />
[[Image:http://www.magooffl.com/images/diagram.jpg]]<br />
the air is put into the gun from behind the piston. the piston is pushed into the rubber coupler, and it seals so no air can go out the barrel. <br />
<br />
but air goes between the piston and pipe, and goes through the bottom of the tee, into the chambers. Okay, this is where the sprinkler valve comes in. Since there is air pressing on the front and back of the piston, but there is less surface on the front because of the seated barrel, the pressure on the back keeps it seated. <br />
<br />
to fire, activate the solenoid, which vents the back of the piston, so there is much more more pressure pushing it on the front. This causes it to slam backwards, unseating the valve, and dumping huge amounts of air out the barrel at once. <br />
<br />
this all actually happens instantaneously(instantly) at the near instant you hit the button.</div>Schmanmanhttps://spudfiles.com/spud_wiki/index.php?title=Piston_valve&diff=2981Piston valve2006-09-14T00:20:46Z<p>Schmanman: </p>
<hr />
<div>A '''piston valve''' is a [[pilot valve|pilot]] operated valve. It is very similar to a [[diaphragm valve]] in theory, but replaces it's flexible diaphragm with a rigid cylinder. There are 2 varieties; barrel sealing and chamber sealing.<br />
<br />
== Construction, barrel sealing ==<br />
<br />
The piston is often a well fitting cup-shaped object, such as a endcap. To provide a sealing face, a piece of rubber is attached, typically with a bolt. Equalization is accomplished by simply allowing the air to leak past the piston and into the chamber. Some people will machine their own pistons, in which case they often build [[O-ring]]s into them. With the O-rings, you need to make a small equalization hole; sometimes this is fancied up to be a homemade [[check valve]].<br />
<br />
Because a piston is heavier and harder than a diaphragm, and PVC is somewhat brittle, it is recommended that a bumper of sorts is built into your pilot volume. Common bumpers include heavy-duty rubber hose, and such. This is labeled "'''F'''" in the "use, barrel sealing" diagram.<br />
<br />
These valves are often used on [[coaxial]]s and [[over/under]]s. In an over/under, the valve is built in a "T" fitting. The barrel is put coaxially through one end, the pilot and piston are put in the opposite one, and a chamber is connected to the perpendicular opening with a 90° elbow.<br />
<br />
== Use, barrel sealing ==<br />
[[Image:Wpiston.PNG|frame|top=pressurized, bottom=firing]]<br />
Operation:<br />
#Air is added by filling behind the piston (C).<br />
#The piston (E) slides forwards, and seals against the barrel (A). (Alternatively, one can use a spring to move the piston forwards, which allows one to fill [slowly at first, to allow the pressure to equalize] from the chamber.)<br />
#More air is added, and leaks around the piston (or through a small equalization hole) and into the chamber (B), filling it to the desired pressure.<br />
#The pilot valve (D) behind the piston is opened, the pressure in the [[pilot|pilot volume]] (C) drops, and the higher pressure in the chamber area pushes the piston away from the barrel.<br />
#The air flows around from the chamber, and into the barrel, propelling the projectile.<br />
<br />
The performance of these valves can be calculated with the [[GGDT]].<br />
If your valve [[honking|honks]], it is probably a good idea to invest in a better [[pilot valve]].<br />
[[category:valves]]<br />
<br />
<br />
<br />
== Barrel sealing tee piston valve ==<br />
<br />
<br />
[[[Image:http://www.magooffl.com/images/diagram.jpg]]]<br />
the air is put into the gun from behind the piston. the piston is pushed into the rubber coupler, and it seals so no air can go out the barrel. <br />
<br />
but air goes between the piston and pipe, and goes through the bottom of the tee, into the chambers. Okay, this is where the sprinkler valve comes in. Since there is air pressing on the front and back of the piston, but there is less surface on the front because of the seated barrel, the pressure on the back keeps it seated. <br />
<br />
to fire, activate the solenoid, which vents the back of the piston, so there is much more more pressure pushing it on the front. This causes it to slam backwards, unseating the valve, and dumping huge amounts of air out the barrel at once. <br />
<br />
this all actually happens instantaneously(instantly) at the near instant you hit the button.</div>Schmanmanhttps://spudfiles.com/spud_wiki/index.php?title=Piston_valve&diff=2980Piston valve2006-09-14T00:18:33Z<p>Schmanman: </p>
<hr />
<div>A '''piston valve''' is a [[pilot valve|pilot]] operated valve. It is very similar to a [[diaphragm valve]] in theory, but replaces it's flexible diaphragm with a rigid cylinder. There are 2 varieties; barrel sealing and chamber sealing.<br />
<br />
== Construction, barrel sealing ==<br />
<br />
The piston is often a well fitting cup-shaped object, such as a endcap. To provide a sealing face, a piece of rubber is attached, typically with a bolt. Equalization is accomplished by simply allowing the air to leak past the piston and into the chamber. Some people will machine their own pistons, in which case they often build [[O-ring]]s into them. With the O-rings, you need to make a small equalization hole; sometimes this is fancied up to be a homemade [[check valve]].<br />
<br />
Because a piston is heavier and harder than a diaphragm, and PVC is somewhat brittle, it is recommended that a bumper of sorts is built into your pilot volume. Common bumpers include heavy-duty rubber hose, and such. This is labeled "'''F'''" in the "use, barrel sealing" diagram.<br />
<br />
These valves are often used on [[coaxial]]s and [[over/under]]s. In an over/under, the valve is built in a "T" fitting. The barrel is put coaxially through one end, the pilot and piston are put in the opposite one, and a chamber is connected to the perpendicular opening with a 90° elbow.<br />
<br />
== Use, barrel sealing ==<br />
[[Image:Wpiston.PNG|frame|top=pressurized, bottom=firing]]<br />
Operation:<br />
#Air is added by filling behind the piston (C).<br />
#The piston (E) slides forwards, and seals against the barrel (A). (Alternatively, one can use a spring to move the piston forwards, which allows one to fill [slowly at first, to allow the pressure to equalize] from the chamber.)<br />
#More air is added, and leaks around the piston (or through a small equalization hole) and into the chamber (B), filling it to the desired pressure.<br />
#The pilot valve (D) behind the piston is opened, the pressure in the [[pilot|pilot volume]] (C) drops, and the higher pressure in the chamber area pushes the piston away from the barrel.<br />
#The air flows around from the chamber, and into the barrel, propelling the projectile.<br />
<br />
The performance of these valves can be calculated with the [[GGDT]].<br />
If your valve [[honking|honks]], it is probably a good idea to invest in a better [[pilot valve]].<br />
[[category:valves]]<br />
<br />
<br />
<br />
== Barrel sealing tee piston valve ==<br />
<br />
<br />
[[Image:http://www.magooffl.com/images/diagram.jpg]]<br />
the air is put into the gun from behind the piston. the piston is pushed into the rubber coupler, and it seals so no air can go out the barrel. <br />
<br />
but air goes between the piston and pipe, and goes through the bottom of the tee, into the chambers. Okay, this is where the sprinkler valve comes in. Since there is air pressing on the front and back of the piston, but there is less surface on the front because of the seated barrel, the pressure on the back keeps it seated. <br />
<br />
to fire, activate the solenoid, which vents the back of the piston, so there is much more more pressure pushing it on the front. This causes it to slam backwards, unseating the valve, and dumping huge amounts of air out the barrel at once. <br />
<br />
this all actually happens instantaneously(instantly) at the near instant you hit the button.</div>Schmanmanhttps://spudfiles.com/spud_wiki/index.php?title=Piston_valve&diff=2979Piston valve2006-09-14T00:17:50Z<p>Schmanman: </p>
<hr />
<div>A '''piston valve''' is a [[pilot valve|pilot]] operated valve. It is very similar to a [[diaphragm valve]] in theory, but replaces it's flexible diaphragm with a rigid cylinder. There are 2 varieties; barrel sealing and chamber sealing.<br />
<br />
== Construction, barrel sealing ==<br />
<br />
The piston is often a well fitting cup-shaped object, such as a endcap. To provide a sealing face, a piece of rubber is attached, typically with a bolt. Equalization is accomplished by simply allowing the air to leak past the piston and into the chamber. Some people will machine their own pistons, in which case they often build [[O-ring]]s into them. With the O-rings, you need to make a small equalization hole; sometimes this is fancied up to be a homemade [[check valve]].<br />
<br />
Because a piston is heavier and harder than a diaphragm, and PVC is somewhat brittle, it is recommended that a bumper of sorts is built into your pilot volume. Common bumpers include heavy-duty rubber hose, and such. This is labeled "'''F'''" in the "use, barrel sealing" diagram.<br />
<br />
These valves are often used on [[coaxial]]s and [[over/under]]s. In an over/under, the valve is built in a "T" fitting. The barrel is put coaxially through one end, the pilot and piston are put in the opposite one, and a chamber is connected to the perpendicular opening with a 90° elbow.<br />
<br />
== Use, barrel sealing ==<br />
[[Image:Wpiston.PNG|frame|top=pressurized, bottom=firing]]<br />
Operation:<br />
#Air is added by filling behind the piston (C).<br />
#The piston (E) slides forwards, and seals against the barrel (A). (Alternatively, one can use a spring to move the piston forwards, which allows one to fill [slowly at first, to allow the pressure to equalize] from the chamber.)<br />
#More air is added, and leaks around the piston (or through a small equalization hole) and into the chamber (B), filling it to the desired pressure.<br />
#The pilot valve (D) behind the piston is opened, the pressure in the [[pilot|pilot volume]] (C) drops, and the higher pressure in the chamber area pushes the piston away from the barrel.<br />
#The air flows around from the chamber, and into the barrel, propelling the projectile.<br />
<br />
The performance of these valves can be calculated with the [[GGDT]].<br />
If your valve [[honking|honks]], it is probably a good idea to invest in a better [[pilot valve]].<br />
[[category:valves]]<br />
<br />
__________________________________________________________________________________________________________________<br />
<br />
== '''Barrel sealing tee piston valve''' ==<br />
<br />
<br />
http://www.magooffl.com/images/diagram.jpg<br />
the air is put into the gun from behind the piston. the piston is pushed into the rubber coupler, and it seals so no air can go out the barrel. <br />
<br />
but air goes between the piston and pipe, and goes through the bottom of the tee, into the chambers. Okay, this is where the sprinkler valve comes in. Since there is air pressing on the front and back of the piston, but there is less surface on the front because of the seated barrel, the pressure on the back keeps it seated. <br />
<br />
to fire, activate the solenoid, which vents the back of the piston, so there is much more more pressure pushing it on the front. This causes it to slam backwards, unseating the valve, and dumping huge amounts of air out the barrel at once. <br />
<br />
this all actually happens instantaneously(instantly) at the near instant you hit the button.</div>Schmanmanhttps://spudfiles.com/spud_wiki/index.php?title=Piston_valve&diff=2978Piston valve2006-09-14T00:17:24Z<p>Schmanman: </p>
<hr />
<div>A '''piston valve''' is a [[pilot valve|pilot]] operated valve. It is very similar to a [[diaphragm valve]] in theory, but replaces it's flexible diaphragm with a rigid cylinder. There are 2 varieties; barrel sealing and chamber sealing.<br />
<br />
== Construction, barrel sealing ==<br />
<br />
The piston is often a well fitting cup-shaped object, such as a endcap. To provide a sealing face, a piece of rubber is attached, typically with a bolt. Equalization is accomplished by simply allowing the air to leak past the piston and into the chamber. Some people will machine their own pistons, in which case they often build [[O-ring]]s into them. With the O-rings, you need to make a small equalization hole; sometimes this is fancied up to be a homemade [[check valve]].<br />
<br />
Because a piston is heavier and harder than a diaphragm, and PVC is somewhat brittle, it is recommended that a bumper of sorts is built into your pilot volume. Common bumpers include heavy-duty rubber hose, and such. This is labeled "'''F'''" in the "use, barrel sealing" diagram.<br />
<br />
These valves are often used on [[coaxial]]s and [[over/under]]s. In an over/under, the valve is built in a "T" fitting. The barrel is put coaxially through one end, the pilot and piston are put in the opposite one, and a chamber is connected to the perpendicular opening with a 90° elbow.<br />
<br />
== Use, barrel sealing ==<br />
[[Image:Wpiston.PNG|frame|top=pressurized, bottom=firing]]<br />
Operation:<br />
#Air is added by filling behind the piston (C).<br />
#The piston (E) slides forwards, and seals against the barrel (A). (Alternatively, one can use a spring to move the piston forwards, which allows one to fill [slowly at first, to allow the pressure to equalize] from the chamber.)<br />
#More air is added, and leaks around the piston (or through a small equalization hole) and into the chamber (B), filling it to the desired pressure.<br />
#The pilot valve (D) behind the piston is opened, the pressure in the [[pilot|pilot volume]] (C) drops, and the higher pressure in the chamber area pushes the piston away from the barrel.<br />
#The air flows around from the chamber, and into the barrel, propelling the projectile.<br />
<br />
The performance of these valves can be calculated with the [[GGDT]].<br />
If your valve [[honking|honks]], it is probably a good idea to invest in a better [[pilot valve]].<br />
[[category:valves]]<br />
<br />
__________________________________________________________________________________________________________________<br />
'''Barrel sealing tee piston valve'''<br />
<br />
http://www.magooffl.com/images/diagram.jpg<br />
the air is put into the gun from behind the piston. the piston is pushed into the rubber coupler, and it seals so no air can go out the barrel. <br />
<br />
but air goes between the piston and pipe, and goes through the bottom of the tee, into the chambers. Okay, this is where the sprinkler valve comes in. Since there is air pressing on the front and back of the piston, but there is less surface on the front because of the seated barrel, the pressure on the back keeps it seated. <br />
<br />
to fire, activate the solenoid, which vents the back of the piston, so there is much more more pressure pushing it on the front. This causes it to slam backwards, unseating the valve, and dumping huge amounts of air out the barrel at once. <br />
<br />
this all actually happens instantaneously(instantly) at the near instant you hit the button.</div>Schmanmanhttps://spudfiles.com/spud_wiki/index.php?title=Piston_valve&diff=2977Piston valve2006-09-14T00:15:27Z<p>Schmanman: </p>
<hr />
<div>A '''piston valve''' is a [[pilot valve|pilot]] operated valve. It is very similar to a [[diaphragm valve]] in theory, but replaces it's flexible diaphragm with a rigid cylinder. There are 2 varieties; barrel sealing and chamber sealing.<br />
<br />
== Construction, barrel sealing ==<br />
<br />
The piston is often a well fitting cup-shaped object, such as a endcap. To provide a sealing face, a piece of rubber is attached, typically with a bolt. Equalization is accomplished by simply allowing the air to leak past the piston and into the chamber. Some people will machine their own pistons, in which case they often build [[O-ring]]s into them. With the O-rings, you need to make a small equalization hole; sometimes this is fancied up to be a homemade [[check valve]].<br />
<br />
Because a piston is heavier and harder than a diaphragm, and PVC is somewhat brittle, it is recommended that a bumper of sorts is built into your pilot volume. Common bumpers include heavy-duty rubber hose, and such. This is labeled "'''F'''" in the "use, barrel sealing" diagram.<br />
<br />
These valves are often used on [[coaxial]]s and [[over/under]]s. In an over/under, the valve is built in a "T" fitting. The barrel is put coaxially through one end, the pilot and piston are put in the opposite one, and a chamber is connected to the perpendicular opening with a 90° elbow.<br />
<br />
== Use, barrel sealing ==<br />
[[Image:Wpiston.PNG|frame|top=pressurized, bottom=firing]]<br />
Operation:<br />
#Air is added by filling behind the piston (C).<br />
#The piston (E) slides forwards, and seals against the barrel (A). (Alternatively, one can use a spring to move the piston forwards, which allows one to fill [slowly at first, to allow the pressure to equalize] from the chamber.)<br />
#More air is added, and leaks around the piston (or through a small equalization hole) and into the chamber (B), filling it to the desired pressure.<br />
#The pilot valve (D) behind the piston is opened, the pressure in the [[pilot|pilot volume]] (C) drops, and the higher pressure in the chamber area pushes the piston away from the barrel.<br />
#The air flows around from the chamber, and into the barrel, propelling the projectile.<br />
<br />
The performance of these valves can be calculated with the [[GGDT]].<br />
If your valve [[honking|honks]], it is probably a good idea to invest in a better [[pilot valve]].<br />
[[category:valves]]<br />
<br />
__________________________________________________________________________________________________________________<br />
BARREL SEALING TEE PISTON VALVE <br />
<br />
http://www.magooffl.com/images/diagram.jpg<br />
the air is put into the gun from behind the piston. the piston is pushed into the rubber coupler, and it seals so no air can go out the barrel. <br />
<br />
but air goes between the piston and pipe, and goes through the bottom of the tee, into the chambers. Okay, this is where the sprinkler valve comes in. Since there is air pressing on the front and back of the piston, but there is less surface on the front because of the seated barrel, the pressure on the back keeps it seated. <br />
<br />
to fire, activate the solenoid, which vents the back of the piston, so there is much more more pressure pushing it on the front. This causes it to slam backwards, unseating the valve, and dumping huge amounts of air out the barrel at once. <br />
<br />
this all actually happens instantaneously(instantly) at the near instant you hit the button.</div>Schmanmanhttps://spudfiles.com/spud_wiki/index.php?title=Piston_valve&diff=2976Piston valve2006-09-14T00:14:20Z<p>Schmanman: </p>
<hr />
<div>A '''piston valve''' is a [[pilot valve|pilot]] operated valve. It is very similar to a [[diaphragm valve]] in theory, but replaces it's flexible diaphragm with a rigid cylinder. There are 2 varieties; barrel sealing and chamber sealing.<br />
<br />
== Construction, barrel sealing ==<br />
<br />
The piston is often a well fitting cup-shaped object, such as a endcap. To provide a sealing face, a piece of rubber is attached, typically with a bolt. Equalization is accomplished by simply allowing the air to leak past the piston and into the chamber. Some people will machine their own pistons, in which case they often build [[O-ring]]s into them. With the O-rings, you need to make a small equalization hole; sometimes this is fancied up to be a homemade [[check valve]].<br />
<br />
Because a piston is heavier and harder than a diaphragm, and PVC is somewhat brittle, it is recommended that a bumper of sorts is built into your pilot volume. Common bumpers include heavy-duty rubber hose, and such. This is labeled "'''F'''" in the "use, barrel sealing" diagram.<br />
<br />
These valves are often used on [[coaxial]]s and [[over/under]]s. In an over/under, the valve is built in a "T" fitting. The barrel is put coaxially through one end, the pilot and piston are put in the opposite one, and a chamber is connected to the perpendicular opening with a 90° elbow.<br />
<br />
== Use, barrel sealing ==<br />
[[Image:Wpiston.PNG|frame|top=pressurized, bottom=firing]]<br />
Operation:<br />
#Air is added by filling behind the piston (C).<br />
#The piston (E) slides forwards, and seals against the barrel (A). (Alternatively, one can use a spring to move the piston forwards, which allows one to fill [slowly at first, to allow the pressure to equalize] from the chamber.)<br />
#More air is added, and leaks around the piston (or through a small equalization hole) and into the chamber (B), filling it to the desired pressure.<br />
#The pilot valve (D) behind the piston is opened, the pressure in the [[pilot|pilot volume]] (C) drops, and the higher pressure in the chamber area pushes the piston away from the barrel.<br />
#The air flows around from the chamber, and into the barrel, propelling the projectile.<br />
<br />
The performance of these valves can be calculated with the [[GGDT]].<br />
If your valve [[honking|honks]], it is probably a good idea to invest in a better [[pilot valve]].<br />
[[category:valves]]<br />
<br />
______________________________________________________________________________________________<br />
BARREL SEALING TEE PISTON VALVE <br />
<br />
http://www.magooffl.com/images/diagram.jpg<br />
the air is put into the gun from behind the piston. the piston is pushed into the rubber coupler, and it seals so no air can go out the barrel. <br />
<br />
but air goes between the piston and pipe, and goes through the bottom of the tee, into the chambers. Okay, this is where the sprinkler valve comes in. Since there is air pressing on the front and back of the piston, but there is less surface on the front because of the seated barrel, the pressure on the back keeps it seated. <br />
<br />
to fire, activate the solenoid, which vents the back of the piston, so there is much more more pressure pushing it on the front. This causes it to slam backwards, unseating the valve, and dumping huge amounts of air out the barrel at once. <br />
<br />
this all actually happens instantaneously(instantly) at the near instant you hit the button.</div>Schmanmanhttps://spudfiles.com/spud_wiki/index.php?title=Piston_valve&diff=2975Piston valve2006-09-13T23:27:47Z<p>Schmanman: </p>
<hr />
<div>A '''piston valve''' is a [[pilot valve|pilot]] operated valve. It is very similar to a [[diaphragm valve]] in theory, but replaces it's flexible diaphragm with a rigid cylinder. There are 2 varieties; barrel sealing and chamber sealing.<br />
<br />
== Construction, barrel sealing ==<br />
<br />
The piston is often a well fitting cup-shaped object, such as a endcap. To provide a sealing face, a piece of rubber is attached, typically with a bolt. Equalization is accomplished by simply allowing the air to leak past the piston and into the chamber. Some people will machine their own pistons, in which case they often build [[O-ring]]s into them. With the O-rings, you need to make a small equalization hole; sometimes this is fancied up to be a homemade [[check valve]].<br />
<br />
Because a piston is heavier and harder than a diaphragm, and PVC is somewhat brittle, it is recommended that a bumper of sorts is built into your pilot volume. Common bumpers include heavy-duty rubber hose, and such. This is labeled "'''F'''" in the "use, barrel sealing" diagram.<br />
<br />
These valves are often used on [[coaxial]]s and [[over/under]]s. In an over/under, the valve is built in a "T" fitting. The barrel is put coaxially through one end, the pilot and piston are put in the opposite one, and a chamber is connected to the perpendicular opening with a 90° elbow.<br />
<br />
== Use, barrel sealing ==<br />
[[Image:Wpiston.PNG|frame|top=pressurized, bottom=firing]]<br />
Operation:<br />
#Air is added by filling behind the piston (C).<br />
#The piston (E) slides forwards, and seals against the barrel (A). (Alternatively, one can use a spring to move the piston forwards, which allows one to fill [slowly at first, to allow the pressure to equalize] from the chamber.)<br />
#More air is added, and leaks around the piston (or through a small equalization hole) and into the chamber (B), filling it to the desired pressure.<br />
#The pilot valve (D) behind the piston is opened, the pressure in the [[pilot|pilot volume]] (C) drops, and the higher pressure in the chamber area pushes the piston away from the barrel.<br />
#The air flows around from the chamber, and into the barrel, propelling the projectile.<br />
<br />
The performance of these valves can be calculated with the [[GGDT]].<br />
If your valve [[honking|honks]], it is probably a good idea to invest in a better [[pilot valve]].<br />
[[category:valves]]<br />
<br />
barrel sealing piston ________________________________________________________________________<br />
<br />
http://www.magooffl.com/images/diagram.jpg<br />
the air is put into the gun from behind the piston. the piston is pushed into the rubber coupler, and it seals so no air can go out the barrel. <br />
<br />
but air goes between the piston and pipe, and goes through the bottom of the tee, into the chambers. Okay, this is where the sprinkler valve comes in. Since there is air pressing on the front and back of the piston, but there is less surface on the front because of the seated barrel, the pressure on the back keeps it seated. <br />
<br />
to fire, activate the solenoid, which vents the back of the piston, so there is much more more pressure pushing it on the front. This causes it to slam backwards, unseating the valve, and dumping huge amounts of air out the barrel at once. <br />
<br />
this all actually happens instantaneously(instantly) at the near instant you hit the button.</div>Schmanmanhttps://spudfiles.com/spud_wiki/index.php?title=Piston_valve&diff=2974Piston valve2006-09-13T23:25:01Z<p>Schmanman: barrel sealing piston valve</p>
<hr />
<div>A '''piston valve''' is a [[pilot valve|pilot]] operated valve. It is very similar to a [[diaphragm valve]] in theory, but replaces it's flexible diaphragm with a rigid cylinder. There are 2 varieties; barrel sealing and chamber sealing.<br />
<br />
== Construction, barrel sealing ==<br />
<br />
The piston is often a well fitting cup-shaped object, such as a endcap. To provide a sealing face, a piece of rubber is attached, typically with a bolt. Equalization is accomplished by simply allowing the air to leak past the piston and into the chamber. Some people will machine their own pistons, in which case they often build [[O-ring]]s into them. With the O-rings, you need to make a small equalization hole; sometimes this is fancied up to be a homemade [[check valve]].<br />
<br />
Because a piston is heavier and harder than a diaphragm, and PVC is somewhat brittle, it is recommended that a bumper of sorts is built into your pilot volume. Common bumpers include heavy-duty rubber hose, and such. This is labeled "'''F'''" in the "use, barrel sealing" diagram.<br />
<br />
These valves are often used on [[coaxial]]s and [[over/under]]s. In an over/under, the valve is built in a "T" fitting. The barrel is put coaxially through one end, the pilot and piston are put in the opposite one, and a chamber is connected to the perpendicular opening with a 90° elbow.<br />
<br />
== Use, barrel sealing ==<br />
[[Image:Wpiston.PNG|frame|top=pressurized, bottom=firing]]<br />
Operation:<br />
#Air is added by filling behind the piston (C).<br />
#The piston (E) slides forwards, and seals against the barrel (A). (Alternatively, one can use a spring to move the piston forwards, which allows one to fill [slowly at first, to allow the pressure to equalize] from the chamber.)<br />
#More air is added, and leaks around the piston (or through a small equalization hole) and into the chamber (B), filling it to the desired pressure.<br />
#The pilot valve (D) behind the piston is opened, the pressure in the [[pilot|pilot volume]] (C) drops, and the higher pressure in the chamber area pushes the piston away from the barrel.<br />
#The air flows around from the chamber, and into the barrel, propelling the projectile.<br />
<br />
The performance of these valves can be calculated with the [[GGDT]].<br />
If your valve [[honking|honks]], it is probably a good idea to invest in a better [[pilot valve]].<br />
[[category:valves]]<br />
<br />
[img]http://www.magooffl.com/images/diagram.jpg[/img]<br />
the air is put into the gun from behind the piston. the piston is pushed into the rubber coupler, and it seals so no air can go out the barrel. <br />
<br />
but air goes between the piston and pipe, and goes through the bottom of the tee, into the chambers. Okay, this is where the sprinkler valve comes in. Since there is air pressing on the front and back of the piston, but there is less surface on the front because of the seated barrel, the pressure on the back keeps it seated. <br />
<br />
to fire, activate the solenoid, which vents the back of the piston, so there is much more more pressure pushing it on the front. This causes it to slam backwards, unseating the valve, and dumping huge amounts of air out the barrel at once. <br />
<br />
this all actually happens instantaneously(instantly) at the near instant you hit the button.</div>Schmanmanhttps://spudfiles.com/spud_wiki/index.php?title=Piston_valve&diff=2973Piston valve2006-09-13T23:23:35Z<p>Schmanman: </p>
<hr />
<div>A '''piston valve''' is a [[pilot valve|pilot]] operated valve. It is very similar to a [[diaphragm valve]] in theory, but replaces it's flexible diaphragm with a rigid cylinder. There are 2 varieties; barrel sealing and chamber sealing.<br />
<br />
== Construction, barrel sealing ==<br />
<br />
The piston is often a well fitting cup-shaped object, such as a endcap. To provide a sealing face, a piece of rubber is attached, typically with a bolt. Equalization is accomplished by simply allowing the air to leak past the piston and into the chamber. Some people will machine their own pistons, in which case they often build [[O-ring]]s into them. With the O-rings, you need to make a small equalization hole; sometimes this is fancied up to be a homemade [[check valve]].<br />
<br />
Because a piston is heavier and harder than a diaphragm, and PVC is somewhat brittle, it is recommended that a bumper of sorts is built into your pilot volume. Common bumpers include heavy-duty rubber hose, and such. This is labeled "'''F'''" in the "use, barrel sealing" diagram.<br />
<br />
These valves are often used on [[coaxial]]s and [[over/under]]s. In an over/under, the valve is built in a "T" fitting. The barrel is put coaxially through one end, the pilot and piston are put in the opposite one, and a chamber is connected to the perpendicular opening with a 90° elbow.<br />
<br />
== Use, barrel sealing ==<br />
[[Image:Wpiston.PNG|frame|top=pressurized, bottom=firing]]<br />
Operation:<br />
#Air is added by filling behind the piston (C).<br />
#The piston (E) slides forwards, and seals against the barrel (A). (Alternatively, one can use a spring to move the piston forwards, which allows one to fill [slowly at first, to allow the pressure to equalize] from the chamber.)<br />
#More air is added, and leaks around the piston (or through a small equalization hole) and into the chamber (B), filling it to the desired pressure.<br />
#The pilot valve (D) behind the piston is opened, the pressure in the [[pilot|pilot volume]] (C) drops, and the higher pressure in the chamber area pushes the piston away from the barrel.<br />
#The air flows around from the chamber, and into the barrel, propelling the projectile.<br />
<br />
The performance of these valves can be calculated with the [[GGDT]].<br />
If your valve [[honking|honks]], it is probably a good idea to invest in a better [[pilot valve]].<br />
[[category:valves]]<br />
<br />
[imghttp://www.magooffl.com/images/diagram.jpg[/img]<br />
the air is put into the gun from behind the piston. the piston is pushed into the rubber coupler, and it seals so no air can go out the barrel. <br />
<br />
but air goes between the piston and pipe, and goes through the bottom of the tee, into the chambers. Okay, this is where the sprinkler valve comes in. Since there is air pressing on the front and back of the piston, but there is less surface on the front because of the seated barrel, the pressure on the back keeps it seated. <br />
<br />
to fire, activate the solenoid, which vents the back of the piston, so there is much more more pressure pushing it on the front. This causes it to slam backwards, unseating the valve, and dumping huge amounts of air out the barrel at once. <br />
<br />
this all actually happens instantaneously(instantly) at the near instant you hit the button.</div>Schmanmanhttps://spudfiles.com/spud_wiki/index.php?title=Piston_valve&diff=2972Piston valve2006-09-13T23:22:56Z<p>Schmanman: </p>
<hr />
<div>A '''piston valve''' is a [[pilot valve|pilot]] operated valve. It is very similar to a [[diaphragm valve]] in theory, but replaces it's flexible diaphragm with a rigid cylinder. There are 2 varieties; barrel sealing and chamber sealing.<br />
<br />
== Construction, barrel sealing ==<br />
<br />
The piston is often a well fitting cup-shaped object, such as a endcap. To provide a sealing face, a piece of rubber is attached, typically with a bolt. Equalization is accomplished by simply allowing the air to leak past the piston and into the chamber. Some people will machine their own pistons, in which case they often build [[O-ring]]s into them. With the O-rings, you need to make a small equalization hole; sometimes this is fancied up to be a homemade [[check valve]].<br />
<br />
Because a piston is heavier and harder than a diaphragm, and PVC is somewhat brittle, it is recommended that a bumper of sorts is built into your pilot volume. Common bumpers include heavy-duty rubber hose, and such. This is labeled "'''F'''" in the "use, barrel sealing" diagram.<br />
<br />
These valves are often used on [[coaxial]]s and [[over/under]]s. In an over/under, the valve is built in a "T" fitting. The barrel is put coaxially through one end, the pilot and piston are put in the opposite one, and a chamber is connected to the perpendicular opening with a 90° elbow.<br />
<br />
== Use, barrel sealing ==<br />
[[Image:Wpiston.PNG|frame|top=pressurized, bottom=firing]]<br />
Operation:<br />
#Air is added by filling behind the piston (C).<br />
#The piston (E) slides forwards, and seals against the barrel (A). (Alternatively, one can use a spring to move the piston forwards, which allows one to fill [slowly at first, to allow the pressure to equalize] from the chamber.)<br />
#More air is added, and leaks around the piston (or through a small equalization hole) and into the chamber (B), filling it to the desired pressure.<br />
#The pilot valve (D) behind the piston is opened, the pressure in the [[pilot|pilot volume]] (C) drops, and the higher pressure in the chamber area pushes the piston away from the barrel.<br />
#The air flows around from the chamber, and into the barrel, propelling the projectile.<br />
<br />
The performance of these valves can be calculated with the [[GGDT]].<br />
If your valve [[honking|honks]], it is probably a good idea to invest in a better [[pilot valve]].<br />
[[category:valves]]<br />
<br />
[img]http://www.magooffl.com/images/diagram.jpg[/img]<br />
the air is put into the gun from behind the piston. the piston is pushed into the rubber coupler, and it seals so no air can go out the barrel. <br />
<br />
but air goes between the piston and pipe, and goes through the bottom of the tee, into the chambers. Okay, this is where the sprinkler valve comes in. Since there is air pressing on the front and back of the piston, but there is less surface on the front because of the seated barrel, the pressure on the back keeps it seated. <br />
<br />
to fire, activate the solenoid, which vents the back of the piston, so there is much more more pressure pushing it on the front. This causes it to slam backwards, unseating the valve, and dumping huge amounts of air out the barrel at once. <br />
<br />
this all actually happens instantaneously(instantly) at the near instant you hit the button.</div>Schmanmanhttps://spudfiles.com/spud_wiki/index.php?title=Piston_valve&diff=2971Piston valve2006-09-13T23:19:48Z<p>Schmanman: </p>
<hr />
<div>A '''piston valve''' is a [[pilot valve|pilot]] operated valve. It is very similar to a [[diaphragm valve]] in theory, but replaces it's flexible diaphragm with a rigid cylinder. There are 2 varieties; barrel sealing and chamber sealing.<br />
<br />
== Construction, barrel sealing ==<br />
<br />
The piston is often a well fitting cup-shaped object, such as a endcap. To provide a sealing face, a piece of rubber is attached, typically with a bolt. Equalization is accomplished by simply allowing the air to leak past the piston and into the chamber. Some people will machine their own pistons, in which case they often build [[O-ring]]s into them. With the O-rings, you need to make a small equalization hole; sometimes this is fancied up to be a homemade [[check valve]].<br />
<br />
Because a piston is heavier and harder than a diaphragm, and PVC is somewhat brittle, it is recommended that a bumper of sorts is built into your pilot volume. Common bumpers include heavy-duty rubber hose, and such. This is labeled "'''F'''" in the "use, barrel sealing" diagram.<br />
<br />
These valves are often used on [[coaxial]]s and [[over/under]]s. In an over/under, the valve is built in a "T" fitting. The barrel is put coaxially through one end, the pilot and piston are put in the opposite one, and a chamber is connected to the perpendicular opening with a 90° elbow.<br />
<br />
== Use, barrel sealing ==<br />
[[Image:Wpiston.PNG|frame|top=pressurized, bottom=firing]]<br />
Operation:<br />
#Air is added by filling behind the piston (C).<br />
#The piston (E) slides forwards, and seals against the barrel (A). (Alternatively, one can use a spring to move the piston forwards, which allows one to fill [slowly at first, to allow the pressure to equalize] from the chamber.)<br />
#More air is added, and leaks around the piston (or through a small equalization hole) and into the chamber (B), filling it to the desired pressure.<br />
#The pilot valve (D) behind the piston is opened, the pressure in the [[pilot|pilot volume]] (C) drops, and the higher pressure in the chamber area pushes the piston away from the barrel.<br />
#The air flows around from the chamber, and into the barrel, propelling the projectile.<br />
<br />
The performance of these valves can be calculated with the [[GGDT]].<br />
If your valve [[honking|honks]], it is probably a good idea to invest in a better [[pilot valve]].<br />
[[category:valves]]<br />
<br />
<br />
the air is put into the gun from behind the piston. the piston is pushed into the rubber coupler, and it seals so no air can go out the barrel. <br />
<br />
but air goes between the piston and pipe, and goes through the bottom of the tee, into the chambers. Okay, this is where the sprinkler valve comes in. Since there is air pressing on the front and back of the piston, but there is less surface on the front because of the seated barrel, the pressure on the back keeps it seated. <br />
<br />
to fire, activate the solenoid, which vents the back of the piston, so there is much more more pressure pushing it on the front. This causes it to slam backwards, unseating the valve, and dumping huge amounts of air out the barrel at once. <br />
<br />
this all actually happens instantaneously(instantly) at the instant you hit the button. This sprinkler valve vents</div>Schmanman