@Jimbo bob: Okay, what ARE you trying to DO? Do you ride a motorcycle? If so, what is the year, make, and model? Are you disabled and incapable of foot-shifting? Are you trying to help a disabled person who wants to ride? Do you want to power-shift with the clutch engaged by interrupting the ignition? Do you race? Please tell us what the end-game is, as I see this thread going nowhere without specific hardware goals.
You posted a video showing a Kliktronic Gear Change on a Honda Deauville crotch-rocket that basically started from N, down-shifted to 1 and then ran up through the gears to 5 and then down-shifted back down to 1 before finally up-shifting into N. That last "shift" to N was accomplished with a short-pulse to up-shift from 1 to N (basically taking it out of gear) without enough impulse to push the shift lever through the N position to 2nd gear.
This is all very familiar to a rider who shifts with their left foot. You soon get a "feel" for how much boot action is required to up-shift from 1st gear into neutral. Down shifting is a similar feeling, but I usually overshot the N position and wound up in 1st gear if N was where I wanted to be... like when idling at a long stop with the clutch lever released. Or sometimes I would hit N while aiming for 1st and forget it was still in N when the light changed to green. Another embarrassing senior moment, especially if riding with friends. So, upon stopping, I would down-shift repeatedly to make sure I was in 1st gear. You can't go any lower than 1st, but there is no harm in making sure you really are there before trying to move again.
All of that applies to modern motorcycles. The earlier ones had different arrangements for clutch and shift levers. We won't go there. Modern shift levers have a spring-return to a "center position" that is moved to either side of center to shift gears up and down. The foot lever is lifted up with toe of the boot to up-shift and pressed downward to down-shift. Neutral (all gears disengaged) is between 1st gear and 2nd gear. This is why a solenoid actuator has to be free-floating when attached to the gear lever. It must allow the gear lever to return to its spring-loaded center position between shifts. Note in the video that the solenoid also pivots slightly to accommodate the arc through which the shift lever moves. It makes almost no sense to me that you would want the shift lever to ever assume and hold a half-shift position when shifting into neutral from either 1st gear or 2nd gear. What you want it to do is disengage either 1st gear or 2nd gear without moving far enough to engage the next gear whether up-shifting or down-shifting. That only requires a short impulse from the solenoid armature (what you are calling the piston) instead of a steady sustained shove which occurs if the solenoid stays energized.
I suppose you could add a third shift button, to be used only to shift from 1st to N or from 2nd to N, and you possibly could gin up something (maybe a third or fourth coil?) to make the shift lever move to a so-called half-shift point and stay there until you released the third button. Note there would be two "half-shift" positions corresponding to shift up from 1st to N and shift down from 2nd to N. Heck, we could get even more fancy and add electronics that would "find" N from any gear! But for me, that ain't what MC riding is about. Wind in your face, an open road with some spiffy curves, a friend on the back, and a full tank of gas that didn't require a second mortgage... that's what MC riding is to me. I don't spend a whole lot of time trying to find Neutral gear.
Hop
Hi,
I apologize for sounding all over the place
. Please let me know if it is still unclear what I am trying to do by the end of this post.No.
The engine of interest is a Yamaha R6 600cc engine which is off of a motorcycle. I do not know the make, model and the year of the motorcycle which it is from. The platform of interest is a car.
No.
No.
I personally do not race, but yes, the idea is to be able to use ignition cut to change gears while the car is in motion and use a mechanical clutch when the car is stationary. Meanwhile, in both cases an actuator (like a solenoid) will do the moving of the gear lever.
YES!!
I do not want the armature to hold a position, but rather disengage either 1st gear or 2nd gear without moving far enough to engage the next gear whether up-shifting or down-shifting.I will be also looking into that. But it is not the priority now. First, I just want to lock-in the actuator. Then I just want to look into the electronics to control it which we have already talked about.
The Klictronic solenoid turned out to be quite expensive, so I am looking cheaper alternatives. Based on what we have discussed (and please correct me if I am wrong), a single coil solenoid will result in unequal push/pull forces and if I am using them, I will be needing two for each direction or just find a solenoid with two coils (Any alternative and better methods or actuators in mind will be appreciated).
For finding the “half-shift” do you recon feeding back the gear sensor readings to a control circuitry of some sort and feed the current to the solenoid based on that? If I am going to do it this way I have to mindful of the solenoid’s duty cycle I believe, so I would not keep it on for longer than necessary. I would appreciate it if you let me know of any other ideas which you think might work better.
Thanks for bearing with me by the way
, I know I tend to get confused and go all over the place now and then.
