Finding Pitch Circle & Teeth for Amplitude Movement

AI Thread Summary
To determine the pitch circle and number of teeth for a mechanism to achieve a specific amplitude, the calculations involve the pitch diameter and the number of original pinion teeth. The mechanism's design may require an even number of teeth before any are removed, with the suggestion that removing one more than half of the original teeth is necessary for proper function. The total shift of the rack can be calculated using the pitch diameter multiplied by pi divided by two or the rack tooth pitch times the number of original pinion teeth divided by two. Concerns are raised about the mechanism's violent motion and infinite acceleration at the end of each stroke, despite appearing smooth in animation. Clarification is sought regarding whether the calculated distance is in meters or meters per second, specifically questioning the interpretation of the pitch circle versus the distance the rack moves per revolution.
Jones1987
Messages
74
Reaction score
0
How would I work out the pitch circle and number of teeth required to move the mechanism a certain amplitude? Looked over 4-5 sources for pitch circle, but cannot make sense of it..
 
Last edited by a moderator:
Engineering news on Phys.org
In the animation, if the pinion had all its teeth, there would be 12. 7 of those teeth have been removed (5 remaining). Not absolutely sure, but based on the model, it may only work with an even number of pinion teeth (prior to removal). 1 more than half of the original number of teeth likely have to be removed.
The rack shifts a total (from left to right say, before returning) of:
(pitch diameter) x (pi) / 2
or
(rack tooth pitch) x (number of original pinion teeth) / 2

This mechanism is really not very nice. Although it appears to be simple, its motion is quite violent. At the end of each stroke there is infinite acceleration. In the animation, it looks smooth, but that's only because the rack has no mass.
 
tvavanasd said:
In the animation, if the pinion had all its teeth, there would be 12. 7 of those teeth have been removed (5 remaining). Not absolutely sure, but based on the model, it may only work with an even number of pinion teeth (prior to removal). 1 more than half of the original number of teeth likely have to be removed.
The rack shifts a total (from left to right say, before returning) of:
(pitch diameter) x (pi) / 2
or
(rack tooth pitch) x (number of original pinion teeth) / 2

This mechanism is really not very nice. Although it appears to be simple, its motion is quite violent. At the end of each stroke there is infinite acceleration. In the animation, it looks smooth, but that's only because the rack has no mass.

So if I had a pitch diameter of (0.1m) x (pi) / 2 = 0.1571 m/s? Is this correct?
 
Last edited:
Jones1987 said:
So if I had a pitch diameter of (0.1m) x (pi) / 2 = 0.1571 m/s? Is this correct?

I expect that travel should be 0.157 m.
Why are you suggesting the answer is in m/s?
 
So does it mean the pitch circle is 0.157m or the distance the rack moves is 0.157m per revolution?
 
Thread 'Turbocharging carbureted petrol 2 stroke engines'

Thread 'Turbocharging carbureted petrol 2 stroke engines'

Hi everyone, online I ve seen some images about 2 stroke carbureted turbo (motorcycle derivation engine). Now.. In the past in this forum some members spoke about turbocharging 2 stroke but not in sufficient detail. The intake and the exhaust are open at the same time and there are no valves like a 4 stroke. But if you search online you can find carbureted 2stroke turbo sled or the Am6 turbo. The question is: Is really possible turbocharge a 2 stroke carburated(NOT EFI)petrol engine and...
View full post »

Thread 'HP Required to move a robot 10meters at 1.5m/sec'

I need some assistance with calculating hp requirements for moving a load. - The 4000lb load is resting on ball bearing rails so friction is effectively zero and will be covered by my added power contingencies. Load: 4000lbs Distance to travel: 10 meters. Time to Travel: 7.5 seconds Need to accelerate the load from a stop to a nominal speed then decelerate coming to a stop. My power delivery method will be a gearmotor driving a gear rack. - I suspect the pinion gear to be about 3-4in in...
View full post »

Similar threads

Gear and gearbox design - circular pitch
Replies
15
Views
5K
A novel compound epicyclic gear system I can't seem to understand
Replies
1
Views
1K
Finding coincident angle between 2 equally spaced sets
Replies
1
Views
1K
Designing a spiral with a certain angle relative to movement direction
Replies
5
Views
2K
Circle approximation of a wave pulse on a string or spring
Replies
29
Views
1K
Analyzing the Mechanics of a Wobble Plate in a Cranked Axle Mechanism
Replies
10
Views
3K
My weird geneva mechanism doesn't work. Looking for suggestions
Replies
3
Views
2K
Helix Angle or Pitch Angle for this Solenoid carring Current?
Replies
4
Views
2K
How can I design a gear train to meet specific torque and RPM requirements?
Replies
2
Views
2K
Number of Teeth for Planetary Gear Train Question
Replies
5
Views
12K

Hot Threads

Recent Insights

Back
Top