Tachometer Made From a Bicycle Speedometer (cyclocomputer)
by josie in Circuits > Sensors
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Tachometer Made From a Bicycle Speedometer (cyclocomputer)
Sometimes you just have to know how fast a wheel or shaft or motor is turning.
The measuring device for rotational speed is a tachometer. But they are expensive and not easy to find.
Its cheap and easy to make one using a bicycle speedometer (cyclocomputer). In fact, the only thing you need is a functional cyclocomputer that reads speed in miles per hour. You won't damage it, so you can even 'borrow' one from your bike, or add it to your bike once your done!
You will only need 1 thing:
A cyclocomputer that reads in MPH and that lets you enter a wheel size in millimeters. Almost all of them do.
You will have to mount a magnet to your spinning wheel, engine shaft or what not.
And you will have to mount the speed sensor near the path of the spinning magnet.
Thats it!
The measuring device for rotational speed is a tachometer. But they are expensive and not easy to find.
Its cheap and easy to make one using a bicycle speedometer (cyclocomputer). In fact, the only thing you need is a functional cyclocomputer that reads speed in miles per hour. You won't damage it, so you can even 'borrow' one from your bike, or add it to your bike once your done!
You will only need 1 thing:
A cyclocomputer that reads in MPH and that lets you enter a wheel size in millimeters. Almost all of them do.
You will have to mount a magnet to your spinning wheel, engine shaft or what not.
And you will have to mount the speed sensor near the path of the spinning magnet.
Thats it!
Theory and Numbers - Skip If You Don't Care!
A cyclocomputer calculates the speed your bicycle is traveling by sensing how fast the wheels of the bike are spinning. It senses wheel speed through a magnetic switch that is mounted on the bicycle frame or fork, near the path of a spinning wheel. There is a magnet attached to a spoke of the wheel and when it goes by the magnetic switch, the switch closes for a moment, which is recorded by the cyclocomputer. By timing how much time goes by between switch closings, it can compute how fast the wheel is spinning.
When you first install a cyclocomputer on a bicycle, you have to enter the circumference of the wheel in millimeters. With that information, it can compute how far and how fast you've gone with every turn of the wheel.
In this instructable, we are going to enter a special number into the cyclocomputer for the wheel circumference that will trick it to report speed in rpm.
If the cyclocomputer is reporting speed in mph, enter 268 mm for the wheel circumference.
If the cyclocomputer is reporting speed in kph, enter 167 mm for the wheel circumference.
Here is the calculation...
1 mph = 1.61 kph.
1.61 kph / 60 minutes in an hour = .026833 kilometers per minute
.026833 kpm* 1,000,000 millimeters per kilometer = 26,833 millimeters per minute
26,833 mmpm / 100 (scale factor) = 268 mm
268 / 1.61 mph-kph conversion = 167 mm
Note: some cyclocomputers might not be able to accept a number below 200, so use the 268 mm number, reporting in mph might be better.
If you ride, you may know that some cyclocomputers also record cadence, which is how fast you are pedaling - and that number is in RPM! So the cyclocomputer already is a tachometer! But they can only read to a maximum of 199 RPM, which is way faster than a person can pedal anyway. I guess if you needed to measure a really slow speed it could work, but this instructable lets you measure a much wider range of speeds.
When you first install a cyclocomputer on a bicycle, you have to enter the circumference of the wheel in millimeters. With that information, it can compute how far and how fast you've gone with every turn of the wheel.
In this instructable, we are going to enter a special number into the cyclocomputer for the wheel circumference that will trick it to report speed in rpm.
If the cyclocomputer is reporting speed in mph, enter 268 mm for the wheel circumference.
If the cyclocomputer is reporting speed in kph, enter 167 mm for the wheel circumference.
Here is the calculation...
1 mph = 1.61 kph.
1.61 kph / 60 minutes in an hour = .026833 kilometers per minute
.026833 kpm* 1,000,000 millimeters per kilometer = 26,833 millimeters per minute
26,833 mmpm / 100 (scale factor) = 268 mm
268 / 1.61 mph-kph conversion = 167 mm
Note: some cyclocomputers might not be able to accept a number below 200, so use the 268 mm number, reporting in mph might be better.
If you ride, you may know that some cyclocomputers also record cadence, which is how fast you are pedaling - and that number is in RPM! So the cyclocomputer already is a tachometer! But they can only read to a maximum of 199 RPM, which is way faster than a person can pedal anyway. I guess if you needed to measure a really slow speed it could work, but this instructable lets you measure a much wider range of speeds.
Set This Thing Up!
Program the cyclocomputer by entering 268mm for the wheel circumference, and make sure that it reads speed in miles per hour.
Mount your magnet on the spinning part.
Mount your speed sensor near its spinning path - no more than 1/2 inch away.
Mount your magnet on the spinning part.
Mount your speed sensor near its spinning path - no more than 1/2 inch away.
Fire It Up!
As soon as your device starts spinning, the cyclocomputer should read the speed.
The big numbers are its speed in hundred of rpm. In the picture, it is spinning at 2810 RPM.
The best part about using a cyclocomputer is that it automatically records how much time the device has been spinning. In the picture, it has been running for 0 hours, 13 minutes, 21 seconds. This could be useful if you wanted to (for example) change the oil on an engine every 100 hours of operation.
The cyclocomputer also records maximum and average speeds, which could be useful in some situations.
Troubleshooting:
If no speed shows up, try moving the sensor closer to the magnet, and make sure that the cyclocomputer is set to display speed. If it still reads nothing, move a magnet back and forth past the sensor by hand. Numbers should appear. If they don't, the wire could be broken. They are pretty flimsy.
The big numbers are its speed in hundred of rpm. In the picture, it is spinning at 2810 RPM.
The best part about using a cyclocomputer is that it automatically records how much time the device has been spinning. In the picture, it has been running for 0 hours, 13 minutes, 21 seconds. This could be useful if you wanted to (for example) change the oil on an engine every 100 hours of operation.
The cyclocomputer also records maximum and average speeds, which could be useful in some situations.
Troubleshooting:
If no speed shows up, try moving the sensor closer to the magnet, and make sure that the cyclocomputer is set to display speed. If it still reads nothing, move a magnet back and forth past the sensor by hand. Numbers should appear. If they don't, the wire could be broken. They are pretty flimsy.