Is there a way I can get my pneumatic pistons to extend faster? Were trying to use a pneumatic kicker to kick balls this year and a teemmate is afraid it won't extend fast enough. I read that we don't have a CV limit this year if we get solenoids with higher CV will that help? Any ideas are welcome please

Yep, higher CV solenoids will definitely help.

Alternatively, you may want to consider using smaller, thinner sliders and just using more them paired with solenoids.

As I recall, the AndyMark crew tested this with six cylinders/solneoids and didn't find the success they were looking for, but you may see similar results with pre-charging.

- Sunny G.

These solenoids from Mcmaster look decent, they have a .75 Cv, which is a lot more than the ones you get from Andymark or Vex. http://www.mcmaster.com/#6124k511/=q621ve

There are ways to use pistons you have and sort of 'trick physics' to get them to extend faster. If you had two pistons that were somehow connected so that one side was facing one way and another side was facing the other, you could get the pistons to extend or retract at the same time and therefore theoretically get twice the retraction or extension speed from two pistons than from one. It was an idea I got from 1986 last year and our team probably won't be doing this, but I would love to see a prototype of this:D

There are ways to use pistons you have and sort of 'trick physics' to get them to extend faster. If you had two pistons that were somehow connected so that one side was facing one way and another side was facing the other, you could get the pistons to extend or retract at the same time and therefore theoretically get twice the retraction or extension speed from two pistons than from one. It was an idea I got from 1986 last year and our team probably won't be doing this, but I would love to see a prototype of this:D

I don't believe that Titanium did that for speed, I believe it was done so they could have more than 2 positions for their shots to be angled at...The problem with connecting them in the way you envision is that I don't see a method to secure the cylinders in the middle in any particular way. You would have to find a method to securely mount the rod to one end, and the other rod for the "punch" as well as have the bulk of the system moving.

The problem with connecting them in the way you envision is that I don't see a method to secure the cylinders in the middle in any particular way. You would have to find a method to securely mount the rod to one end, and the other rod for the "punch" as well as have the bulk of the system moving.

Yo dude, they have threads on both ends.

I don't believe that Titanium did that for speed, I believe it was done so they could have more than 2 positions for their shots to be angled at...The problem with connecting them in the way you envision is that I don't see a method to secure the cylinders in the middle in any particular way. You would have to find a method to securely mount the rod to one end, and the other rod for the "punch" as well as have the bulk of the system moving.

Who said the pistons had to punch the ball or even apply force directly. Also I know Titanium did not use this for speed. I'm just saying this was the other useful option I can see in the design.

Yo dude, they have threads on both ends.

I believe CalTran meant that if they were suspended say in the air, the extending shafts could easily bend or break under their own weight or momentum. Thanks for standing up for my idea though. Appreciate it:D

To "help" the cylinder's piston extend much faster, perhaps something like a spring or latex tubing can be used to 'pull' it out...

Gee, you don't even need to supply air to it, just release it somehow to extend (under spring power) and let the air out of the other end. Then pressurize the other end to retract it and stretch the spring agai for the next shot.

To "help" the cylinder's piston extend much faster, perhaps something like a spring or latex tubing can be used to 'pull' it out...

Gee, you don't even need to supply air to it, just release it somehow to extend (under spring power) and let the air out of the other end. Then pressurize the other end to retract it and stretch the spring agai for the next shot.

You mean like a spring piston? I believe Bimba sells them.

You mean like a spring piston? I believe Bimba sells them.

Do the spring pistons have the same power and speed as the air ones? I'm not as familiar with the spring as I am the regular ones

Review the principles behind a trebuchet

Here's a link that has a good explanation.

http://www.gearseds.com/files/construction%20manual_rev5.pdf

You probably won't find a spring piston that's as strong as springs you can buy. This is mainly because the spring tension is reset by the compressor pushing air into the other end. Air pressure can only cause so much force. You can honestly find springs a lot stronger. Also spring pistons take up a lot of space for a small stroke length. The stroke lengths are shorter because about a third of the room in the cylinder houses the spring. The final problem is that spring pistons don't really shoot out much faster than a normal piston. This is mainly because the spring still has to push out the air that pushed it to its stored energy state. Basically the only thing I think they're good for is that it saves air pressure because only one side of the piston releases air.
Then again you should check to see yourself. Don't believe everything you see on Chief Delphi. Though its a good resource, you should do your own research to make sure. I'm pretty sure I'm right but you may find a spring piston that works awesome for this game. See if you can shut me up :D

don't mean to give away my team's ideas, but all you need to do to get an air cylinder to move faster is resist it--latch it or hold the ball down or something--until it has more pressure in it. Then you let go.

Lots of ways to hold it down for a little while.

don't mean to give away my team's ideas, but all you need to do to get an air cylinder to move faster is resist it--latch it or hold the ball down or something--until it has more pressure in it. Then you let go.

Lots of ways to hold it down for a little while.

...so you're saying overpressure the pneumatic? ::safety::

...so you're saying over-pressure the pneumatic? ::safety::

Not over-pressurizing it, but giving it time to reach full pressure.

For people who don't understand this: A pneumatic cylinder will normally start moving as soon as air starts to flow into it, If you lock a pneumatic cylinder in a slightly extended position and allow it to reach working psi, it will throw with a lot more force than just turning on air to it and having it extend slowly as air flows into it.

Not over-pressurizing it, but giving it time to reach full pressure.

For people who don't understand this: A pneumatic cylinder will normally start moving as soon as air starts to flow into it, If you lock a pneumatic cylinder in a slightly extended position and allow it to reach working psi, it will throw with a lot more force than just turning on air to it and having it extend slowly as air flows into it.

This is correct. The physics don't allow my 60psi working air pressure to magically become higher when valve is opened and movement of the piston is mechanically restricted. It simply allows for a more instantaneous punching action

Not over-pressurizing it, but giving it time to reach full pressure.

For people who don't understand this: A pneumatic cylinder will normally start moving as soon as air starts to flow into it, If you lock a pneumatic cylinder in a slightly extended position and allow it to reach working psi, it will throw with a lot more force than just turning on air to it and having it extend slowly as air flows into it.

Actually the piston is receiving 60psi the instant the solenoid switches. The reason it shoots slower in normal function is because the air on the other side of the cylinder has to be pushed out by the new air coming in. It takes time to do this and force. If you stall the piston's extension in the manner you're talking about then this allows for the air on the other side of the cylinder to be released. Pressure does build up on the other side, but all the air technically doesn't go into the piston. After the shaft is released does the remaining air enter the cylinder.

Another option that 225 has been experimenting with is using exhaust valves on the cylinders themselves. This allows the pressure to vent directly out of the cylinder, and not have to flow back through the solenoid.

To "help" the cylinder's piston extend much faster, perhaps something like a spring or latex tubing can be used to 'pull' it out...

Gee, you don't even need to supply air to it, just release it somehow to extend (under spring power) and let the air out of the other end. Then pressurize the other end to retract it and stretch the spring agai for the next shot.

Sounds like 3138's 2010 kicker, which could kick a soccer ball cross-field with ease.

Actually the piston is receiving 60psi the instant the solenoid switches. The reason it shoots slower in normal function is because the air on the other side of the cylinder has to be pushed out by the new air coming in. It takes time to do this and force. If you stall the piston's extension in the manner you're talking about then this allows for the air on the other side of the cylinder to be released. Pressure does build up on the other side, but all the air technically doesn't go into the piston. After the shaft is released does the remaining air enter the cylinder.

no, the cylinder receives only 'flow' from a 60 psi reservior. the pressure in the cylinder will only be what is required to move the piston forward until the piston becomes either obstructed or fully extended. This pressure may be as low as one psi delta.

What I'm saying is that if you just hold the piston in place for a short bit, the pressure will be able to build up. The business about the air getting out of the back side of the cylinder is so not-important. If you build-up 60 psi on one side and have effectively zero on the other side, it will move very fast. Our prototype can shoot across the room. But accuracy and repeatibility are still in question.

don't mean to give away my team's ideas, but all you need to do to get an air cylinder to move faster is resist it--latch it or hold the ball down or something--until it has more pressure in it. Then you let go.

Lots of ways to hold it down for a little while.

You're talking about building up pressure in the lines to the air cylinder, essentially. There is little volume in those lines (or, at least there shouldn't be!) and thus it won't help the cylinder deploy a whole lot faster.

The 'right' way to solve this problem IMO is to increase flow to your mechanism (better valves, shorter tube runs, multiple storage tank taps, multiple norgren regulators, multiple smaller cylinders to utilize more valves) rather than adding a whole other mechanism to restrain a cylinder.

You're talking about building up pressure in the lines to the air cylinder, essentially. There is little volume in those lines (or, at least there shouldn't be!) and thus it won't help the cylinder deploy a whole lot faster.

You can actually build up pressure in the cylinder itself if it isn't contracted all of the way when you start filling. In 2008 lots of teams did this to allow the cylinders to expand faster. I posted a picture of one such catapult in this post (http://www.chiefdelphi.com/forums/showthread.php?p=1323089#post1323089).

You can actually build up pressure in the cylinder itself if it isn't contracted all of the way when you start filling. In 2008 lots of teams did this to allow the cylinders to expand faster. I posted a picture of one such catapult in this post (http://www.chiefdelphi.com/forums/showthread.php?p=1323089#post1323089).

Well, clearly it works, so there's not arguing against success. It still doesn't seem like a great solution to me, I would prefer to have single-step mechanism actuation for reliability reasons.

Here is a post with 95's 2008 shooter. (http://www.chiefdelphi.com/forums/showpost.php?p=1323023&postcount=4) Just lots of pistons and valves!

The reason the cylinder is slow is because it is pushing a lot of air through the vent, the fittings, the tubing, and finally the solenoid block (the same is true for the air flowing into the cylinder). So you can increase the psi and the size of the solenoid, but this will always be the main limiting factor.

The solution is to precharge the cylinder before firing it, and only plumb it in the firing direction (leaving the vent wide open). This method requires a locking mechanism (like a gate latch) to hold the cylinder back when precharged, and something to retract the cylinder (like a smaller diameter cylinder that gets out of the way). You can even directly plumb an air tank to the cylinder to decrease the psi drop during extension.

I'm sure you could improve upon this idea, but it's at least a starting point.

So you can increase the psi and the size of the solenoid, but this will always be the main limiting factor.

The solution is to precharge the cylinder before firing it, and only plumb it in the firing direction (leaving the vent wide open).

I'm sure you could improve upon this idea, but it's at least a starting point.

Marc S. was very close to the idea that my team 1108 used to win the Crossroads regional.

If you only retract the piston partially, you leave a reservior right in the cylinder to fill with air. Fill that to 60 psi while you hold down the catapult (we use an electromagnet) and then let go.

Also, yes, you don't want anything at all on the outputs of the cylinders. We simply use gravity to retract.

Of special note, the two robots that finished Crossroads as top seeds both ended up in the finals were both fully pneumatic.

Our 1108 has the system described above, where 1024, Kil-A-Bytes, has a circle of six very small diameter cylinders with very big valves and they shoot very well too, without a failure as far as I know.

I'd be curious to know how many other robots out there are full-pneumatic and how they've done.