Introduction: CleanSweep- the Floor Cleaning Robot!

CleanSweep (couldn't think of better name :P) is a smartphone controlled robot that cleans your house's floor! The rotating mops on the front of the robot along with a foam roller (used to paint walls, not here) at the back can do the job perfectly. There's also a water pump and water reservoir which can be switched on when required to throw water on the floor and make the mops moist for a proper clean. The foam roller is movable, which means you can lift it when not in use. I've also added speed controls for the driver motors.

The project uses bluetooth communication via an HC-05 bluetooth module to send the commands to the most commonly used microcontroller- Arduino UNO. The robot is powered on a 12V lead acid battery, the ideal voltage for all motors used here.. The driver motor pair are 100rpm ones while for the mops I've used 75rpm plastic ones.

The best part is that the mops used were homemade, from old CDs and rags and they clean just perfectly. This is a smaller version so might not be suitable for a large area. There can be tons of other features added, like making it completely autonomous, which I couldn't due to shortage of time.

It took me around 4-5 days to complete this thing, simultaneously making videos of the process. I hope you like it.

You can even watch this walk-through video for the building procedure:

Here's a video of the robot in action:

Subscribe to my channel for more such awesome DIY!

_______________________

I know this project is awesome xD. So please vote for it in the 'Robotics' and 'Microcontrollers' contests at it fits well in both the categories. Also, don't forget to follow me.

As always, Questions and Suggestions are always welcome in the comment box (or you could drop me a mail).

Subscribe to my YouTube channel for more such projects! ;)

Step 1: Parts and Tools

The following parts and tools are required for building this project:

Parts:

  • 2x 100rpm Geared motors
  • 2x Wheels for motors
  • 2x 75rpm Plastic geared motors w/ wheels
  • 1x Arduino UNO
  • 1x HC-05/06 bluetooth module
  • 1x L293D motor driver board
  • 1x Standard servo motor (180 degree rotation)
  • 1x 12V Sealed lead acid rechargeable battery
  • 1x 12V Water pump
  • 2x TIP31C/TIP122 NPN power transistors
  • 2x Old CDs
  • A paint roller w/ shaft
  • Wiping cloth/ napkin/ old rags
  • A needle and thread
  • Vinyl tubing
  • Rainbow wire
  • Male-male/ female-female/ male-female jumper wires
  • Male/female headers
  • Perforated board
  • Nuts and Screws
  • Plywood base
  • Paint roller w/ shaft
  • A 600ml plastic bottle

Tools:

  • Soldering iron w/ solder
  • Hot glue gun w/ glue sticks
  • Drill
  • Rotatory tool
  • Pliers
  • Wire cutter/stripper
  • Paper cutter
  • Tape
  • Safety equipment while working (Important!)


Total cost of the parts: $30 approx. (2000 rupees)

Step 2: Get the Base Ready

The first step is to prepare the base on which the parts will be placed. For this, first get a piece of plywood cut, measuring 12x9 inches. The base wasn't looking great at all, so to make it look a bit attractive, I painted it in white and orange stripes with black at the borders with acrylic paints.

After this, drill two holes each at the back for both the motor clamps. Make proper measurements such that both should be parallel to each other. Fix them in place using some screws then attach the motors to the clamps.

Step 3: Make the Floor Moppers and Attach Them to the Base

I found this idea on one of the YouTube videos (click here). To make cheap DIY circular floor moppers, you can use old compact disks along with a piece of cloth.

First mark a circle on the cloth which should be bigger than the CD. Cut it using a pair of scissors.

Take a needle and thread and start sewing and making folds to the cloth in such a way that it surrounds the entire CD. (something I am very bad at)

Refer to the images above or have a look at this video, or maybe this one.

After you're done with all the folds, make 2-3 knots at the end and cut the left over thread.

Repeat the same for the second CD.

Attach wheels to both the plastic geared motors. Hot glue the wheels to the CDs.

The moppers have to be placed in the front. Hot glue the motors in such a way that the cloth stays away from each other and the motors are at an equal distance from the sides. Make sure the cloth properly touches the floor

Step 4: The Water Supply Mechanism

This consists of a 12V water pump which carries the water from the reservoir and spills it near the mops on the floor. First mark, drill and fix your pump in place.

Take a 600ml empty plastic bottle and cut it into half using a paper cutter. Use the lower half and place it on the robot base using some hot glue.

Take two pieces of rubber tubing. One will be connected to the inlet of pump to take water from the reservoir from the pump and the second one will be used to take water from the pump to the floor. Adding straws to the outlet will be done later.

The pump can be switched on/off via your smartphone just like other controls.

Step 5: Roller Mechanism

The purpose of roller here is to stick small dust particles to itself. It will not be needed everytime the robot is moving so I decided to make a simple mechanism which can lift it up or down via a servo motor.

First you need to drill a hole on the servo attachment. Drill another hole of almost same size on the roller handle as well. Use a screw to tighten the attachment and the roller.

The motor will have to be placed at a height so the roller touches the floor and can be lifted easily. Use two 7x2.5 centimetres wooden pieces and hot glue the servo to their top.

Step 6: Solder the Circuits

For the mop geared motors and the water pump to be controlled via arduino, there has to be an external circuit as both of them need 12V to run but arduino can only provide a 5V output. I used TIP122 NPN power transistors and soldered them on to a piece of perfboard. The circuit is simple and is provided above.

Also, I soldered some male and female headers to make +5V and Gnd power rails as these pins are limited on the arduino and we need plenty of them for each component to be connected. Follow the pictures above and solder two rails, one for each +5V and Gnd.

Step 7: Connections

Now this is always the typical part. You have to be accurate. For making it a bit easier, I always use jumper wires which can be swapped or removed any time.

Before that, drill some holes and fix your arduino in place using some screws.

Start by connecting the geared motors to the driver board. Solder some wire to the motor terminals and then connect them to the screw terminals of the driver circuit. The rest of the pins have to be connecting as per the following:

  • Signal 1 ---- D6 on Arduino
  • Signal 2 ---- D9 on Arduino
  • Signal 3 ---- D10 on Arduino
  • Signal 4 ---- D11 on Arduino
  • +5V ---- +5V on Arduino
  • Gnd ---- Gnd on Arduino
  • +12V (motors will move at this voltage) ---- to be connected to battery later

Next comes the bluetooth module. Connections are:

  • Vcc ---- +5V on Arduino
  • Gnd ---- Gnd on Arduino
  • Rx ---- Tx on Arduino
  • Tx ---- Rx on Arduino

Add a voltage divider to signal pins if you're afraid that the signal pins on arduino might burn.

The two mop motors have to be connected in parallel such that the left one runs anticlockwise and the right one turns clockwise when seen from the front. Use heat shrink tubes to keep the connections safe. Solder the motor wires to the transistor circuit as per the schematic given above. Similarly connect the water pump wires as well.

We will be supplying the 12V from the battery directly to the transistor circuit and then this 12V will go to the Vcc of arduino and the motor driver circuit.

Connect the base of transistor two, controlling the mops to D5 on arduino and transistor one, controlling the pump to D4 on arduino. The common ground wire from all the motors has to be connected to the Gnd on arduino.

What remains now is the servo motor. The connections are:

  • Vcc ---- +5V on Arduino
  • Gnd ---- Gnd on Arduino
  • Signal ---- D3 on Arduino

You can always have a look at the schematic.

Step 8: Finishing

Keep all the circuit boards, wires, tubings in place with hot glue. It should look neat, the wires shouldn't entangle and the connections shouldn't break, which can be irritating.

Next, take two straws and cut them about 7cm in length. Crush and squeeze one end of both into the outlet pipe of the water pump. Bend both of them in opposite directions and glue them in place such that water flows from both the straws and falls just a little ahead of the rotating mop (look at the pictures). Don't forget to put some tape where the straws are connected so the water doesn't leak.

Step 9: Upload the Code

Remove the Rx and Tx cables from arduino before uploading!

Connect the board to a pc and program it with the code given below. You can make necessary changes.

Make sure you set the correct COM port and Board under Tools.

After it's done, replace the Rx and Tx wires. You'll need to remove them everytime you upload the code.

<p>#include <br>Servo myServo;</p><p>int r_motor_n = 10; //PWM control Right Motor +
int r_motor_p = 11; //PWM control Right Motor -
int l_motor_p = 9; //PWM control Left Motor -
int l_motor_n = 6; //PWM control Left Motor +
int pump = 4;
int mop = 5;
int serv = 3;
int speedy = 255;
int incomingByte = 0; // for incoming serial data</p><p>void setup()
{
myServo.attach(3);
myServo.write(0);  
pinMode(r_motor_n, OUTPUT); //Set control pins to be outputs
pinMode(r_motor_p, OUTPUT);
pinMode(l_motor_p, OUTPUT);
pinMode(l_motor_n, OUTPUT);
pinMode(pump, OUTPUT);
pinMode(mop, OUTPUT);
digitalWrite(r_motor_n, LOW); //set both motors off for start-up
digitalWrite(r_motor_p, LOW);
digitalWrite(l_motor_p, LOW);
digitalWrite(l_motor_n, LOW);
digitalWrite(pump, LOW);
digitalWrite(mop, LOW);
Serial.begin(9600);
}</p><p>void loop()
{</p><p>if (Serial.available() > 0) 
{
incomingByte = Serial.read();
}</p><p>switch(incomingByte)
{</p><p>case 'S': // control to stop the robot
digitalWrite(r_motor_n, LOW); 
digitalWrite(r_motor_p, LOW);
digitalWrite(l_motor_p, LOW);
digitalWrite(l_motor_n, LOW);
Serial.println("Stop");
incomingByte='*';
break;</p><p>case 'R': //control for right
analogWrite(r_motor_n, speedy); 
digitalWrite(r_motor_p, LOW);
analogWrite(l_motor_p, speedy);
digitalWrite(l_motor_n, LOW);
Serial.println("right");
incomingByte='*';
break;</p><p>case 'L': //control for left
analogWrite(r_motor_n, LOW); 
digitalWrite(r_motor_p, speedy);
analogWrite(l_motor_p, LOW);
digitalWrite(l_motor_n, speedy);
Serial.println("right");
incomingByte='*';
break;</p><p>case 'F': //control for forward
analogWrite(r_motor_n, speedy); 
digitalWrite(r_motor_p, LOW);
analogWrite(l_motor_p, LOW);
digitalWrite(l_motor_n, speedy);
Serial.println("right");
incomingByte='*';
break;</p><p>case 'B': //control for backward
analogWrite(r_motor_n, LOW); 
digitalWrite(r_motor_p, speedy);
analogWrite(l_motor_p, speedy);
digitalWrite(l_motor_n, LOW);
Serial.println("right");
incomingByte='*';
break;</p><p>case 'P': // pump on
digitalWrite(pump, HIGH);
Serial.println("pump on");
incomingByte='*';
break;</p><p>case 'p': // pump off
digitalWrite(pump, LOW); 
Serial.println("pump off");
incomingByte='*';
break;</p><p>case 'M':
digitalWrite(mop, HIGH); // mopper on
Serial.println("mopper on");
incomingByte='*';
break;</p><p>case 'm':
digitalWrite(mop, LOW); // mopper off
Serial.println("mopper off");
incomingByte='*';
break;</p><p>case 'U': // roller up
myServo.write(0);
Serial.println("roller up");
incomingByte='*';
break;</p><p>case 'u': // roller down
myServo.write(135);
Serial.println("roller down");
incomingByte='*';
break;</p><p>case '1':
speedy = 155;
Serial.println("speed= 10");
incomingByte='*';
break;</p><p>case '2':
speedy = 185;
Serial.println("speed= 25");
incomingByte='*';
break;</p><p>case '3':
speedy = 215;
Serial.println("speed= 75");
incomingByte='*';
break;</p><p>case '4':
speedy = 255;
Serial.println("speed= 100");
incomingByte='*';
break;</p><p>delay(5000);
}
}</p>

Step 10: Attach the Battery

For the power source, it's your choice about the type of battery to use. The voltage should be 12V. I would recommend a single lead acid battery or 3x Li-ion 18650, 3.7V each connected in series.

Use some double sided tape or hot glue to keep the battery pack in place. +Ve terminal will go to the transistor circuit from where it will go to Vcc on arduino and to the motor driver circuit. -Ve terminal will be connected to the common Gnd. Use proper battery connectors.

You can even add an On/Off main switch.

If the power LED on the arduino glows, it's all good. Immediately remove the source if LEDs dim rapidly and recheck all the connections. Do not use a very high voltage else the regulator on the board may overheat.

Step 11: Configure the App and Connect

Go to the google play store and get this app called 'Bluetooth Serial Controller' which lets you set your own control buttons and commands.

After opening the app, click on 'settings' and then 'visibility'

Turn off visibility for buttons 5, 9, 12 as we won't be needing them.

Next, go on the 'names' icon so set the display names for each button. Make them short, 3-4 letters.

For example, look at the names I set above.

Now under the 'commands' option, set the following commands (without quotes) for each button (they are case sensitive):

  • Button 1 (FWD): 'F'
  • Button 2 (BCK): 'B'
  • Button 3 (LFT): 'L'
  • Button 4 (RGT): 'R'
  • Button 6 (MPON): 'M'
  • Button 7 (MPOF): 'm'
  • Button 8 (PMP): 'P'
  • Button 10 (RUP): 'U'
  • Button 11 (RDWN): 'u'
  • Button 13 (S1): '1'
  • Button 14 (S2): '2'
  • Button 15 (S3): '3'
  • Button 16 (S4): '4'

Under the 'stop commands' section in 'commands' itself, you need to set the following stop commands ONLY for the buttons mentioned below:

  • Button 1: 'S'
  • Button 2: 'S'
  • Button 3: 'S'
  • Button 4: 'S'
  • Button 8: 'p'

This means that example if button 2 isn't pressed, the command 'S' will be sent which will stop the robot.

To connect the robot, first pair up the bluetooth module named 'HC-05' or other. Password will be '0000' or '1234'

Then connect the paired up module via the app.

Press and check all the buttons on the app one by one.

Step 12: The End!

So that's the end of my 29th instructable. Go ahead and and try other projects as well.

This can still have a lot of modifications. I was thinking to make it fully autonomous with ultrasonic/IR sensors but couldn't due to shortage of time. You can try this feature. Make it avoid rugged surfaces and walls. Add a vacuum cleaner or a moving wiper connected to a servo. As always, possibilities are endless.

I hope you liked this one, and if you did, please vote! Here's my YouTube channel with video tutorials of such projects.

Doubts/suggestions are welcome. Comment below or drop me a mail.

Thanks for reading! :)

Comments

author
jacinthaa made it! (author)2017-07-22

Could you tell how to simulate the aurdino ?

author
patelmausam made it! (author)2017-07-08

So i will need your warmfull help bro...

author
patelmausam made it! (author)2017-07-08

I will wish to do this project as my final year mechatronics engineering project.

author
patelmausam made it! (author)2017-07-08

Pdf for download is not free bro...☺☺☺☺

author
kavish laxkar made it! (author)2017-06-08

Estimated Cost saiyam?

author
Saiyam made it! (author)Saiyam2017-06-14

2000 rupees ☺

author
kavish laxkar made it! (author)2017-06-08

gr8 work man.:)

author
Saiyam made it! (author)Saiyam2017-06-14

Thanks!

author
Dushyanta made it! (author)2017-05-20

Great project! Add a lid to the container to prevent the spilling of water on the circuit.

author
Surajit Majumdar made it! (author)2017-05-03

awesome project bro :)

author
Saiyam made it! (author)Saiyam2017-05-03

Thanks! ☺

author
JohnN22 made it! (author)2017-05-02

This is such an interesting DIY.......

author
Saiyam made it! (author)Saiyam2017-05-02

Ohh Yes! Thank you :)

About This Instructable

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Bio: I am Saiyam, currently studying in 12th standard and soon going to complete high school. I like to make random DIY projects whenever free. I ... More »
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