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Reassemble Motor
It is now time to reassemble your motor. Before you do this, check the end bell retaining plate to see if it is bent (due to overtightening your end bell or a collision). If it is bent, remove it from the end bell, and use a hammer to flatten it out against a cement floor or other solid object. Slap that sucker back onto the end bell, and continue the reassembly. Ensure that the armature shims are in the correct spots on the top and bottom of the motor shaft and that they don’t fall off while inserting the armature back into the motor can. Check and match the polarity of the motor can to the end bell, and match up the timing marks that you scribed earlier. Once everything is back together and matched up, tighten the end bell retaining screws (be careful not to overtighten, or you may bend the plate again), and double-check the armature endplay to be sure that you installed the shims correctly.
STEP 7
Solder On New Brushes
It is time to install some new brushes. You will first need to tin the end of the brush shunt with solder, but be careful not to use too much, as the brush shunt can “wick” the solder into it and greatly reduce flexibility. Bend the end of the tinned brush shunt, and solder it into the corner of the brush hood. Be quick with the soldering to again prevent the brush shunt from soaking up the solder and preventing it from flexing. Let the brushes cool down slightly from the hot soldering iron, and then slide them into the brush hoods and install the motor springs. As a precautionary measure to ensure you don’t get a “hung brush,” gently pull back the brush by the shunt, and let the spring snap it back against the commutator. If the movement of the brush is sluggish or bound up in any way, remove the brush from the hood, and determine why the brush can’t travel freely through the hood.
Maintenance Frequency
A common question about electric motors is, “How often should one rebuild?” The simple answer is the more often you rebuild, the better. Constant motor maintenance means that there will not be much maintenance necessary to bring the motor back to optimal performance. For example, if you cut your commutator every battery or two, you will only need to make one or two small passes with the lathe. If you wait for 10 batteries or so, the poor conduction and arcing between the brushes and the commutator will have caused excessive damage, and many more cuts will be necessary. Long periods between rebuilds also mean that performance is progressively getting lower as the 10 batteries are passing through the motor. If you are running low-turn motors in the seven- to 10-turn range, you should be cutting them after every battery pack or two. Higher-turn motors can wait longer, but keep an eye on the commutator for wear, and also use the brushes as indication (as mentioned in the other sidebar to this article).
STEP 8
Break In New Brushes
Brand new brushes have to be seated against the new diameter of the commutator to provide the best performance, but you don’t need to go overboard. Simply run the motor without any load for 30 to 45 seconds on a 3-volt supply. Shake the motor back and forth slightly during the break-in to help remove some of the debris developed during the seating process. Now is also a good time to check the rotation of the motor shaft to ensure you marked and assembled the motor properly. You will look pretty silly on the driver’s stand when you grab a handful of throttle and send your car in reverse into the guy behind you once the buzzer sounds. When looking at the bottom of the motor with the output shaft facing you, the shaft should be spinning counterclockwise.
STEP 9
Install Motor in Car
It is time to stuff the motor back where you found it before this article started. Install your pinion gear, and be sure that it lines up with the spur gear. Take some extra time to set your gear mesh, and once you are happy with it, double-check that you tightened both mounting screws securely. Install your heat sinks or any other external peripherals, and solder or connect your motor connections while again being careful to match the polarity.
Brush Hoods And Alignment
It is always wise to align your brush hoods to ensure that both brushes are making contact with the commutator at a 90-degree angle. There are many hood alignment tools available on the market that work well, and when shopping for one, make sure it is suited for the style of brush your motor uses (for example, standup, lay down, P-94, etc.). Once you have aligned the hoods perfectly, you should solder the hood screw to the hood to prevent it from shifting. This is one of the reasons it is recommended that you solder your brushes onto your motor instead of screwing them with the eyelets. If you attach your brushes to your motor with the screws, you will shift the hood alignment when you remove the brushes.. Aligning the brush hoods, soldering the screw to the hood, and using solder to mount the brushes will prevent shifted brush hoods and help to reduce resistance in this area.
Ready to Race
You are now race ready. These simple steps will keep your electric motor running in top condition all the time. The more maintenance you do to your electric motor, the longer it will last you and the better the performance will be, so don’t be afraid to take 10 minutes out of your race day for some simple electric motor wrenching.
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