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Will gyros replace "fin" stabilizers on larger boats?
On Wed, 7 Nov 2007 16:48:27 -0500, "Eisboch"
wrote: "Eisboch" wrote in message ... "Short Wave Sportfishing" wrote in message ... Interesting video. I wonder how it affects bow-to-stern movement? It is a gyro - seems to me that if it has that much of an effect on side-to-side roll, it would have the same effect on bow-to-stern movement.. The gyro vacuum enclosure appears to be mechanically restricted to fore and aft gimble movement, so I suspect it stabilizes on one axis only. How the fore and aft movement translates to stabilizing beam to beam I think has something to do with the principles of gyroscopic progression, similar to helecopter controls of blade pitch. But, I might be wrong. I've been studying the drawing of the system and thinking about it. I think I know how it works. Pretty clever. When the boat starts to rock, the spinning gyro exerts a force opposite to the boat's rocking direction. That force is coupled to the beam located in the boat (probably a stringer) that either lifts or pushes on it to counteract the direction of the "rock". Sound like it might work that way. I wish I knew more about how gyroscopes work. Can they be mounted such that the output axis is fixed rather than three dimensional? |
Will gyros replace "fin" stabilizers on larger boats?
On Wed, 7 Nov 2007 17:08:34 -0500, "Eisboch"
wrote: It seems to me the big "breakthrough" in this product is the vacuum enclosure of the high speed gyro. I'd be interested in how they handled the issue I've described. Good questions. They were talking about using signicant power to spin it, something like 1.5 KW even though it's in a vacuum. That would imply that it has a fair amount of friction and quite a bit of heat to dissipate. It will generate a lot of side loading on the bearings as it resists the boats rolling motion. Imagine the chaos on board if it ever jumped loose from its cage! This has all been tried before if my memory is correct. As I recall, the problem with the older systems was that the gyro had to be quite large, probably because they were running it at a lower speed. |
Will gyros replace "fin" stabilizers on larger boats?
On Wed, 07 Nov 2007 19:05:03 -0500, Wayne.B
wrote: On Wed, 7 Nov 2007 17:08:34 -0500, "Eisboch" wrote: It seems to me the big "breakthrough" in this product is the vacuum enclosure of the high speed gyro. I'd be interested in how they handled the issue I've described. Good questions. They were talking about using signicant power to spin it, something like 1.5 KW even though it's in a vacuum. That would imply that it has a fair amount of friction and quite a bit of heat to dissipate. It will generate a lot of side loading on the bearings as it resists the boats rolling motion. Imagine the chaos on board if it ever jumped loose from its cage! When I was on the fire department, we responded to an injury call where a building collapsed. I went direct to the scene and when I got there, the whole saw mill had collapsed. After we got the workers out, the Fire Marshall began looking and found what happened. The fly wheel came loose from the 30 hp two lung jug engine and just ripped the place apart. Max rpm on that thing was only 40 rpm. Of course it weighed 900 pounds, but still... :) This has all been tried before if my memory is correct. As I recall, the problem with the older systems was that the gyro had to be quite large, probably because they were running it at a lower speed. I'm still confused about how it actually stops the mass of the boat from moving in only one direction. Then again, I'm not the brightest guy on the face of the planet. |
Will gyros replace "fin" stabilizers on larger boats?
On Thu, 08 Nov 2007 00:39:04 GMT, Short Wave Sportfishing
wrote: I'm still confused about how it actually stops the mass of the boat from moving in only one direction. Probably the best way to get an intuitive grasp is to go out and buy a toy gyro. Get it spinning and hold on to it by each end while you try to turn it 90 degrees to its spin axis. It will try to fight back, same effect that you sometimes get with a high powered electric drill. I couldn't even begin to describe it mathematically but the reason it resists is because of angular momentum. It wants to continue spinning in the same direction, and it takes force to change it. That is why a gyro will balance on one end while spinning, or suspend itself horizontally if held on one end by a string. On a boat all you have to do is securely fasten each end of the spin axis, and the whole hull structure becomes an extension of the gyro itself, which will consequently resist any force perpendicular to the spin plane. |
Will gyros replace "fin" stabilizers on larger boats?
Wayne.B wrote:
On Thu, 08 Nov 2007 00:39:04 GMT, Short Wave Sportfishing wrote: I'm still confused about how it actually stops the mass of the boat from moving in only one direction. Probably the best way to get an intuitive grasp is to go out and buy a toy gyro. Get it spinning and hold on to it by each end while you try to turn it 90 degrees to its spin axis. It will try to fight back, same effect that you sometimes get with a high powered electric drill. I couldn't even begin to describe it mathematically but the reason it resists is because of angular momentum. It wants to continue spinning in the same direction, and it takes force to change it. That is why a gyro will balance on one end while spinning, or suspend itself horizontally if held on one end by a string. On a boat all you have to do is securely fasten each end of the spin axis, and the whole hull structure becomes an extension of the gyro itself, which will consequently resist any force perpendicular to the spin plane. Try "inertial space." The angular momentum of the spinning rotor causes the gyro to maintain its attitude even when its gimbal is tilted. |
Will gyros replace "fin" stabilizers on larger boats?
"Short Wave Sportfishing" wrote in message ... I'm still confused about how it actually stops the mass of the boat from moving in only one direction. Study the little graphic they have of the gyro enclosure and how it is mounted. When the boat rocks, the spinning gyro imparts a force on the enclosure. The enclosure, which is attached via telescoping arms to a beam or stinger in the boat, is gimbaled to only move on one axis (fore and aft which is 90 degrees retarded from the boat's rocking movement (gyroscopic progression). I think. Eisboch |
Will gyros replace "fin" stabilizers on larger boats?
"Eisboch" wrote in message ... "Eisboch" wrote in message ... "Short Wave Sportfishing" wrote in message ... Interesting video. I wonder how it affects bow-to-stern movement? It is a gyro - seems to me that if it has that much of an effect on side-to-side roll, it would have the same effect on bow-to-stern movement.. The gyro vacuum enclosure appears to be mechanically restricted to fore and aft gimble movement, so I suspect it stabilizes on one axis only. How the fore and aft movement translates to stabilizing beam to beam I think has something to do with the principles of gyroscopic progression, similar to helecopter controls of blade pitch. But, I might be wrong. Eisboch I've been studying the drawing of the system and thinking about it. I think I know how it works. Pretty clever. When the boat starts to rock, the spinning gyro exerts a force opposite to the boat's rocking direction. That force is coupled to the beam located in the boat (probably a stringer) that either lifts or pushes on it to counteract the direction of the "rock". Eisboch http://www.patentstorm.us/patents/72...scription.html |
Will gyros replace "fin" stabilizers on larger boats?
"D.Duck" wrote in message ... "Eisboch" wrote in message ... "Eisboch" wrote in message ... "Short Wave Sportfishing" wrote in message ... Interesting video. I wonder how it affects bow-to-stern movement? It is a gyro - seems to me that if it has that much of an effect on side-to-side roll, it would have the same effect on bow-to-stern movement.. The gyro vacuum enclosure appears to be mechanically restricted to fore and aft gimble movement, so I suspect it stabilizes on one axis only. How the fore and aft movement translates to stabilizing beam to beam I think has something to do with the principles of gyroscopic progression, similar to helecopter controls of blade pitch. But, I might be wrong. Eisboch I've been studying the drawing of the system and thinking about it. I think I know how it works. Pretty clever. When the boat starts to rock, the spinning gyro exerts a force opposite to the boat's rocking direction. That force is coupled to the beam located in the boat (probably a stringer) that either lifts or pushes on it to counteract the direction of the "rock". Eisboch http://www.patentstorm.us/patents/72...scription.html Hey, I was pretty close! Not bad for an electrical guy. Eisboch |
Will gyros replace "fin" stabilizers on larger boats?
"Eisboch" wrote in message ... "D.Duck" wrote in message ... "Eisboch" wrote in message ... "Eisboch" wrote in message ... "Short Wave Sportfishing" wrote in message ... Interesting video. I wonder how it affects bow-to-stern movement? It is a gyro - seems to me that if it has that much of an effect on side-to-side roll, it would have the same effect on bow-to-stern movement.. The gyro vacuum enclosure appears to be mechanically restricted to fore and aft gimble movement, so I suspect it stabilizes on one axis only. How the fore and aft movement translates to stabilizing beam to beam I think has something to do with the principles of gyroscopic progression, similar to helecopter controls of blade pitch. But, I might be wrong. Eisboch I've been studying the drawing of the system and thinking about it. I think I know how it works. Pretty clever. When the boat starts to rock, the spinning gyro exerts a force opposite to the boat's rocking direction. That force is coupled to the beam located in the boat (probably a stringer) that either lifts or pushes on it to counteract the direction of the "rock". Eisboch http://www.patentstorm.us/patents/72...scription.html Hey, I was pretty close! Not bad for an electrical guy. Eisboch US Patent Office listing: http://www.uspto.gov/web/patents/pat...ical/Maine.htm |
Will gyros replace "fin" stabilizers on larger boats?
On Wed, 07 Nov 2007 20:26:53 -0500, HK wrote:
Try "inertial space." The angular momentum of the spinning rotor causes the gyro to maintain its attitude even when its gimbal is tilted. Yes, but if you are trying to stabilize a boat I don't think you use a gimballed mount. |
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