Let's Make Robots!

6DOF robot arm controlled by speech recognition or EMG

Listen to spoken commands or EMG and move accordingly

Construction of the arm

The arm is made from 2mm ABS sheet. This material is very easy to cut with a carpet knife, can be very well glued with superglue and be easily bent by warming it up with a hot air gun, so you can make your own brackets, etc.

As the Tower Pro SG90 is a little bit weak to act as a joint to the gripper I increased the locating surface to stabilize the servo horn:

 

Gripper design:

 

Forearm: 


Parts assembled: 


Complete upper part assambled:  


Turn table using casters for furniture as support : 


Robot arm mounted on the base. The base is made from a piece of floor panel and then "coated" with 1mm ABS sheet. Floor panels are heavy, easy to cut and do not deform:

 

Power supply

Power supply design for the arm. The LM138 will need a heatsink. It is important to use 6V for the servos to squeeze out the biggest torque. At some movements the current consumption can easily exceed 3A, so it is not recommanded to use batteries.

Power supply, built on a perfboard:

Servo movements

Servos moving pretty fast (too fast) for a robot arm, which leads to big forces on some joints and parts, especially if the arm is fully extended. It seems to be a good approach to slow down the servo movements. Here is a simple code example how to do that:

servo 1,150
let w1=150
servopos 1,150
pause 100
main:
for b0=1 to 50
let w1=w1+1
servopos 1,w1
pause 10
next b0
for b0=1 to 100
let w1=w1-1
servopos 1,w1
pause 10
next b0
for b0=1 to 50
let w1=w1+1
servopos 1,w1
pause 10
next b0
goto main


Electromyography

For first electromyography experiments I will use this circuit:

The schematic diagram of the electromyographic (EMG) amplifier is borrowed from this site.

The electrodes are made from 0.5 RMB coins, using common sticking plaster to attach them on my biceps and elbow:

 

Joystick control

Two joysticks from an old, damaged RC RX added to control the robot arm manually (see first video). I am planning to store different trained movements in an eeprom.

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All the DNS issues should be resolved now.  I answered all of your posts.  Should be good to go.  Let me know if you have more questions.

Thx, GroG, I'll look into it. So far Java is not my language, but I am always willing to learn...

Nice gripper design. I plan to make something like the first one, but is the second one better/bigger/something? Looks harder to make and not so good at grabbing small things.

I recommend PC for voice recognition, seems cheaper and easier to program.

Hi Weirdo,

Second gripper I made is for bigger objects, but can also lift up a pencil etc.

For speech recognition I wanted a stand alone kit, but if not possible I will use Microsoft Speech SDK 6 and transfer the data to Picaxe via serial.

I had tried to buy the voice recognition module previously from various companies. They either never replied, told me it was discontinued or told me it was being shipped. Nothing ever arrived. I will be surprised if you get it.

I suspect the kit was discontinued several years ago.

Have you also ordered at http://www.imagesco.com?

I cannot remember the shops. It was 2 years ago. The reason I think the kit was discontinued over 2 years ago is because not only was I unable to get one from any country (I tried America, England and Europe) but I have not seen one on any robot ever!

Ok, then I hope I will be the first one or I kick this vendor's ass.

 cool, can't wait to automate my house through IRIS.

 Cool! tell me how it works out, i was planing on ordering that same kit! (and do you think a wireless headset would work?)