This is the third week of our robotic project, and we are almost done with building the robot. Everything goes ok so far.
We have our picaxe chip board with two motor chips; we have finished making the two motors, the battery pack (with 3 batteries, 1.5 volt for each one, 4.5V total) and the sensor(link with a 9V battery). After connecting the motor, sensor and the battery to the board, the sensor will allow the picaxe chip to send our program source code into the motor chip and makes the motor run as we program. Next thing we need to do is to fix and improve the program source code of the picaxe so that the robot would move as we expected.
Now we are trying to build the body of the robot: we have the a piece of wood plate, and we want to cut it in a suitable shape that can fix the robot. We must make sure it will be able to contain the board, motor and battery pack so that the whole system will work effectively. Also, we're thinking about what shape we should make, in order to make the body more solid and hard to be crushed, or what shape will make the robot lighter and move faster. All of these are the question we need to concern about right now.
Thursday, January 29, 2009
Thursday, January 22, 2009
Killer Max Version 2 Part I
For the first part of the alteration, I wish to change the chassis of the robot.
Prof Mason have suggest me that my tank tread can change so my tank can have more traction.
So I plan to change the design of the wheels. Instead having the ability to climb up opponent's robot, it will have more traction with the ground.
Also, one of my weakness with the vers 1 is the weight of the robot is too light and the additional weight is position on the top which will affect the center of the mass and leads to tilt over and fall to the side.
As for right now, the chassis will be alter so the front wheels and the back wheels can be horizontal. Also, I wish to add additional twin engine gear box to the front two wheels, so the tank will be four wheel drive.
The new gear box has been already assemble to the same gear ratio as the old one. However, they will have different motor engine, which I wish to test it out to see if it will affect the overall performance.
My biggest problem now is to fit both gear box on my chassis and still within the restricted size of the robot.
Prof Mason have suggest me that my tank tread can change so my tank can have more traction.
So I plan to change the design of the wheels. Instead having the ability to climb up opponent's robot, it will have more traction with the ground.
Also, one of my weakness with the vers 1 is the weight of the robot is too light and the additional weight is position on the top which will affect the center of the mass and leads to tilt over and fall to the side.
As for right now, the chassis will be alter so the front wheels and the back wheels can be horizontal. Also, I wish to add additional twin engine gear box to the front two wheels, so the tank will be four wheel drive.
The new gear box has been already assemble to the same gear ratio as the old one. However, they will have different motor engine, which I wish to test it out to see if it will affect the overall performance.
My biggest problem now is to fit both gear box on my chassis and still within the restricted size of the robot.
The Robot
Right now we are in the second part of making the robot.
We had finished build up the PicAXE dev board with two motor chips.
The serial cable connect to the input and output of the PicAXE, allow us to link to the computer and put our program into the PicAXE chip.
The dev board also contain voltage regulator that can regulate the voltage to 5V, prevent the PicAXE chip from brunout.
Each of the motor chips we set up has seven pins on it: pin 1 and pin 2 connect to the 2 output of the PicAXE; pin 4 and 5 connect to the motor; pin 3 goes to ground and pin 7 goes to the power.
When we connect the board with power and run our input program, the PicAXE will send signal to the motor chip, and control the motors to work as we want.
That's what we have done so far.
We had finished build up the PicAXE dev board with two motor chips.
The serial cable connect to the input and output of the PicAXE, allow us to link to the computer and put our program into the PicAXE chip.
The dev board also contain voltage regulator that can regulate the voltage to 5V, prevent the PicAXE chip from brunout.
Each of the motor chips we set up has seven pins on it: pin 1 and pin 2 connect to the 2 output of the PicAXE; pin 4 and 5 connect to the motor; pin 3 goes to ground and pin 7 goes to the power.
When we connect the board with power and run our input program, the PicAXE will send signal to the motor chip, and control the motors to work as we want.
That's what we have done so far.
Friday, January 16, 2009
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