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While I continue to noodle over the design of my steam powered vehicle with attendant boiler and motor, I decided to tackle another project on my bucket list. One of the weaknesses of my slave exhaust valve compressed air engines is the spring. It's always a struggle to find the right size and the right "springiness". Ideally, the spring should be stronger at higher speeds to return the valve faster. At idle speeds, where the input air pressure is much lower, the spring needs to be much weaker so the engine will still fire.
Early on I figured that using the input air pressure to return the slave valve between power strokes would be the ideal solution. But I never got around to designing one. Well, here it is. Since I've discovered o-rings, a whole new world has opened up to me. By the way, I see I forgot to annotate the exhaust hole in the left drawing. You can see it properly annotated in the right drawing.
On the left, the inlet valve is closed. High pressure air in front of the valve is directed around to the back of the slave valve stem. It's 1/8" diameter, rides inside two sleeves, and is sealed with an o-ring.
When the inlet valve opens, high pressure air is directed against the face of the slave valve which is 3/16" diameter. This will cause the slave valve to be pushed to the right, sealing off the exhaust hole in the side of the head and opening up the hole into the cylinder to the high pressure air. When the inlet valve closes, the pressure behind the valve (and in front of the slave valve) will drop which will allow the higher pressure air behind the slave valve to once again close it.
Here are a few pictures of the head so far. I will be using my trusty old single cylinder vertical engine to test the prototype. I've used this engine on every new valve prototype I've built and it has served well.
The upper, smaller hole will be the high pressure passage to the back of the slave valve. The lower, larger hole will be the passage to the front of the slave valve and into the cylinder. The two holes on the outer edge will be drilled larger and tapped for set screws which will hold the inlet valve assembly in place.
Here is the back of the head. You can see the small, diagonal hole that leads up to the smaller high pressure passage leading to the air source. I can see I also need to clean this hole out. I drilled all the holes first, while the blank was still rectangular. Then I cut and ground the head to it's current shape, dunking it in water periodically to cool it off. Obviously some of the steel dust got into the passage and rusted a bit.
Next, I'll need to build the valve assembly. Or I might borrow the assembly from my horizontal single engine since it should be the same size...
Chuck
Early on I figured that using the input air pressure to return the slave valve between power strokes would be the ideal solution. But I never got around to designing one. Well, here it is. Since I've discovered o-rings, a whole new world has opened up to me. By the way, I see I forgot to annotate the exhaust hole in the left drawing. You can see it properly annotated in the right drawing.
On the left, the inlet valve is closed. High pressure air in front of the valve is directed around to the back of the slave valve stem. It's 1/8" diameter, rides inside two sleeves, and is sealed with an o-ring.
When the inlet valve opens, high pressure air is directed against the face of the slave valve which is 3/16" diameter. This will cause the slave valve to be pushed to the right, sealing off the exhaust hole in the side of the head and opening up the hole into the cylinder to the high pressure air. When the inlet valve closes, the pressure behind the valve (and in front of the slave valve) will drop which will allow the higher pressure air behind the slave valve to once again close it.
Here are a few pictures of the head so far. I will be using my trusty old single cylinder vertical engine to test the prototype. I've used this engine on every new valve prototype I've built and it has served well.
The upper, smaller hole will be the high pressure passage to the back of the slave valve. The lower, larger hole will be the passage to the front of the slave valve and into the cylinder. The two holes on the outer edge will be drilled larger and tapped for set screws which will hold the inlet valve assembly in place.
Here is the back of the head. You can see the small, diagonal hole that leads up to the smaller high pressure passage leading to the air source. I can see I also need to clean this hole out. I drilled all the holes first, while the blank was still rectangular. Then I cut and ground the head to it's current shape, dunking it in water periodically to cool it off. Obviously some of the steel dust got into the passage and rusted a bit.
Next, I'll need to build the valve assembly. Or I might borrow the assembly from my horizontal single engine since it should be the same size...
Chuck
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