|Morse code toy for the kids|
Well, morse code, who doesn't know those mysterious sounds that started
the era of global communication. Uhmm... kids. Kids don't know these
sounds and why does this code consists of dots and dashes?
Perhaps they might see this in a movie but never in
real life. Sure radio amateurs use it still, but I'm no radio amateur
so my kids are not familiar with Morse code. But when we went to the
a museum dedicated to everything regarding aviation) the kids
were introduced to these little rythms that describes letters.|
A kind man behind a desk filled with radio equipment, demonstrated briefly how the code itself worked and gave us a little piece of paper describing the Morse code alphabet. And also a few pieces of paper with a Morse code message, with the instructions to decode these messages on the ride home. Well the messages got decoded, not in the car but at home. The kids had so much fun with it, that I decided to build a little morse code trainer for them to play with. The idea behind it was to visualize the dots and dashes and nothing more. Because the wondered why the code consisted of dots and dashes.
Normally I would take out the microcontrollers and build a device that would do far much more then required, costing me days or weeks of tinkering. And because I'm always a little bit anoyed by the complexity of some projects on the internet that seemingly are impossible to build an arduino while the only thing the project seems to do is drive an LED and a speaker. No this project is low tech, no microcontrollers only a simple regulator and a 555 timer circuit. I also added a little time constraint to prevent me from making this project bigger then it should be, a project for a day, no longer.
A small video to demonstrate the device, the simplicity, the noises and lights make it fun for children to use.
|The key I had already lying in a box of memories from the past. I
played with it when I was a kid (and it wasn't new when I got it from
my dad), so I decided that this little old key
should be used. It was designed to play with so it shouldn't be in a
box, it should be played with and that is exactly what will happen with
it when this project is done.|
The beeper uses a simple 555-circuit to generate the beep, simply because I didn't have a beeper available that sounded the way I liked.
The output is connected to a speaker via a 10uF capacitor, the resistors are 4.7K, the capacitor is 100nF, this gives approx a 1KHz tone.
|For the real morse experience, I figured that the dots and dashes should be visible (that was the reason I started this little project). But I did not want to waste rolls of paper. and honestly using paper would result in all sorts of problems. If it doesn't runs out, it will get stuck and the pensil that does the writing will make it complicated if it has to be child proof. Not that my kids brake anything, I simply want it to last forever. Not using paper then what else can I use, an electronic display, no! But I remembered I had some unused glow-in-the-dark tape from a different project. When stuck onto a rotating cylinder, it would simulate an endless screen. The pen that writes would simply be a beam of light from a white LED (now technically UV is much better for lighting phosphorescent surfaces, but I did not have a UV LED and I did not like the idea of exposed UV in toys). With the help of 80mm PVC pipe and 2 end caps. I drilled a hole exactly in the middle of the endcaps. One endcap is used for the connection the the servo motor, the other is used to mount a small ball bearing for stabillity. The endcaps are drilled very precisely to prevent wobbling, this was in fact the most important part of the entire project|
To allow the drum to be safe and durable, the system uses a friction
coupling to the motor. Now this sound very complicated, but in fact it
isn't. The drum is glued to the endcap with the ball bearing but not to
the endcap connected to the motor. So the friction between the endcap
and the PVC pipe is the only connection between the motor and the drum.
Why, well, easy access during assembly and if there is any wobbling it
will not result in forces on the motor. But most inportantly, if
somebody decides to stop the drum by hand or move the drum while the
system is powered of then the drum can turn freely without damaged to
the motor/gears. This method of coupling prevents the motor
from being used as a generator, feeding the circuit
accidentally. Which otherwise could result in damage to the 555 or the
voltage regulator if the motor is turned in the wrong direction. Now
the drum is complete, it can be covered with the glow-in-the-dark tape
to create the display for the dots and dashes.|
|To drive the drum just a small and slow motor is required, a servo motor, without the electronics, is perfectly suited for the job. But in order to use a servo, the endstop must be removed. Also the electronics are removed as the motor is always on. To slow down the speed of the drum , the servo motor is driven by 2.5V from a LM317 regulator, because otherwise when directly connected to 5 volt, it would simply rotate too fast. The power supply, well, in 2014 every modern device seems to have a USB connector and a wall wart to go with it. So instead of searching for a spare power supply I decided to use such a USB power supply. Now a little spray of black paint to hide the color of MDF to make it more apealing and I'm done.|
|The end result is shown below.Here you see the paper containing
the morse code alphabet and the "mysterious message" the kids decoded.
I was suprised how quickly they did this and the joy it gave them. The
device below visualizes the dots and dashes of the sounds making it
easier to see what the've done and creating the illusion of the