Do you prefer 4 CIMs or two CIMs with the two Bike Motors for your drivetrain?
Whereâs the option for the less crazy teams that are just using 2 motors for the drivetrain?
Weâre ordering the two extra CIMs that weâre allowed to, because weâre probably going to be using one of the bigger ones for our arm, because we need to keep it spinned up and the big one is supposed to be pretty efficient.
Weâre using the four cims again.
Hmm, I donât know why there isnât much enthusiasm about the bike motors. Our team is really excited about using the bike motors for drive. Is there something that we are not considering?
I would order the 2 extra sims for the drive train. It offers redundancy especially when used in similar designed transmission as the kit bot. Our team built our on own gear box last year and used 2 motors per gearbox. We ended up loosing a pinion on one motor and it saved us.
this year we use the bike motor because he have more power but less speed and the exactly what we need more power less speed 
Thatâs more torque but less speed. They also have a lower peak power rating than the smaller CIMs. But greater efficiency. So as with most engineering decisions, there are tradeoffs to be considered.
If Iâm not mistaken the information we have seen so far shows the new bike motors have less power than the âold reliableâ CIMs. Include the significant weight penalty and I canât see a use for the new motors ⌠I guess if you need more power than the FP and your CIMs are committed elsewhere âŚ
Or alternately, if you need 8 powerful motors instead of 6.
FIRST has added 2 new âhigh-powerâ motors to the fray, while leaving all the high-power motors from last year. That is how it is.
Yes, there is.
- Are you sure that you want your drivetrain to weigh 10 pounds for just the motors? (Itâs 5 pounds per motor, almost twice the weight of one small one.)
- Can you get the belt stuff off? Or are you just going to design around that?
The main problem i could see is that just 2 motors isnt enough for the full drivetrain. They wouldnt work too well matched with 2 smaller motors, wierd ratios. Now, if we had 4 bike motors, then it would be a different story. Vroom Vroom.
You donât need to have two identical motors with identical amounts of âpowerâ in the same transmission. Think of it this way: you have a train full of 100 cars that you need to move. Locomotive A has thousands of horsepower and can move 80 cars. Locomotive B can only move 30 cars. Neither Locomotive A nor B can get the 100-car train moving by themselves. But if you couple the locomotive together, you get a combined pulling power of 110 cars. You can now move the train, even though Locomotive A and Locomotive B are sharing the load âunequallyâ.
This works the same way for the different CIM motors. The two different CIM motors should work the same way, in that they âcombineâ together and act as basically one motor.
Oh the belt pinion comes off rather easily. The interesting part is getting something on that shaft⌠its an 8mm shaft with a flattened side. Set screws, I would not trust. I would make a broach for it. But thats just me. An interesting problem: how to do it cheap.
Has anyone used flattened shafts like this and know of a way to easily cut that into a gear? Or attach a gear to it some other way�
A set screw is probably the simplest method (use two or three set screws if you want). I donât have numbers on it, but I think you can get sufficient torque transfer with it. But, if you insist, another simple method that many teams have used succesfully in the past is clamping to the shaft. Shaft collars with screws through the side fixing it to the sprocket or other component of your choice. Alternately, some sprockets and gears come with a clamp hub (essentially a hub with an OD only slightly greater than an ID and with slots to cut it into 4 pieces) that you place a collar over to clamp it to the shaft.
An idea on how to mount stuff to the big CIM shaft:
Get some one piece clamping shaft collars for an 8 mm shaft from mcmaster.
Get whatever gear or sprocket you want to stick onto the shaft, and line up their centers.
Cut two or three 0.125" pin holes through both of them on the mill, and insert pins with retaining compound.
Hence, you can easily make your own pinions with shaft collars on them, without having to buy expensive custom ones. Just an idea.
Pardon my stupidity, but what is the bike motor? Is it the bigger CIM?
This may be a stupid question, but does this provide sufficient clamping force to prevent slippage despite the flat face of the D NOT making contact with the shaft collar?
yes, theyâre normally used to power those pocket bikes.