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{{ {{tntn|Introduction}} | {{ {{tntn|Introduction}} | ||
| − | |Introduction= | + | |Introduction=You will learn to build a small robot controlled by remote control. This robot is made of wood with an electronic board (arduino uno) and a control extension for both motors. |
}} | }} | ||
{{ {{tntn|TutoVideo}} | {{ {{tntn|TutoVideo}} | ||
| Ligne 23 : | Ligne 23 : | ||
}} | }} | ||
{{ {{tntn|Materials}} | {{ {{tntn|Materials}} | ||
| − | |Material= | + | |Material=1x wooden board thickness 5mm (13/64 inch) - 610mm (2 ft 1/64 inch) - 407mm (1 ft 4 1/32 inch) |
| − | |Tools= | + | |
| + | 1x Arduino Uno | ||
| + | |||
| + | http://www.robotshop.com/en/arduino-uno-r3-usb-microcontroller.html | ||
| + | |||
| + | Product Code : RB-Ard-34 | ||
| + | |||
| + | 1x Green LED Strip Flexible https://www.banggood.com/50CM-Waterproof-USB-SMD3528-TV-Background-Computer-LED-Strip-Tape-Flexible-Light-DC5V-p-1102998.html?rmmds=search | ||
| + | |||
| + | 1x power supply battery (for LED strip) http://www.robotshop.com/en/waterproof-3xaa-battery-case-switch.html | ||
| + | |||
| + | 2x Motors DC | ||
| + | http://www.robotshop.com/en/makeblock-25mm-dc-motor-kit-blue.html | ||
| + | |||
| + | 1x Motor Shield | ||
| + | http://www.robotshop.com/en/arduino-motor-shield-rev3.html | ||
| + | |||
| + | 1x infrared sensor | ||
| + | 1x Infrared Remote Control | ||
| + | http://www.robotshop.com/en/dfrobot-ir-remote-kit-arduino.html | ||
| + | |||
| + | 2x battery holders (6 x 1,5 Volt LR6 batteries) (Arduino Uno main power supply) | ||
| + | |||
| + | 4x Batteries 4,5Volts (2 pack mounted in parallel, each pack includes 2 4.5V batteries mounted in series) - (it makes a power supply under 9V for the power supply I paralleled to have a longer battery life ) | ||
| + | |||
| + | 8x M4 Nuts | ||
| + | http://www.screwfix.com/p/easyfix-hex-nuts-a2-stainless-steel-m4-100-pack/8398t | ||
| + | |||
| + | 8x Screw M4 - 50 | ||
| + | http://uk.farnell.com/tr-fastenings/m450-psstmcz100/screw-slt-pan-steel-bzp-m4x50/dp/1419307 | ||
| + | |||
| + | 4x M4 Spacer | ||
| + | http://uk.farnell.com/c/fasteners-mechanical/fasteners-fixings/spacers-feet/standoffs?thread-size-metric=m4 | ||
| + | |||
| + | 1x swivel caster wheel | ||
| + | http://www.robotshop.com/en/2-swivel-caster-wheel.html | ||
| + | |Tools=*Cruciform screwdriver | ||
| + | *Alen wrench 1.5 mm (screw tightening M3) | ||
| + | *Clamping pliers (maintain spacers and nuts) | ||
|Tuto_Attachments={{ {{tntn|Tuto Attachments}} | |Tuto_Attachments={{ {{tntn|Tuto Attachments}} | ||
|Attachment=Robot-1.ino.pdf | |Attachment=Robot-1.ino.pdf | ||
| Ligne 34 : | Ligne 72 : | ||
{{ {{tntn|Separator}}}} | {{ {{tntn|Separator}}}} | ||
{{ {{tntn|Tuto Step}} | {{ {{tntn|Tuto Step}} | ||
| + | |Step_Picture_00=RobotTelecommande 02b.jpg | ||
|Step_Title=blueprint | |Step_Title=blueprint | ||
| − | |Step_Content= | + | |Step_Content=Here are the plans of each piece to make the robot with dimension (in mm) |
| + | |||
| + | Downloading files: https://framadrive.org/index.php/s/oHlHOqSsc18I4U1 | ||
| + | |||
| + | To use a laser cutter see the list of FabLab to find the nearest to you: http://www.makery.info/map-labs/ | ||
}} | }} | ||
{{ {{tntn|Tuto Step}} | {{ {{tntn|Tuto Step}} | ||
| Ligne 42 : | Ligne 85 : | ||
|Step_Picture_02=RobotTelecommande 04c.jpg | |Step_Picture_02=RobotTelecommande 04c.jpg | ||
|Step_Title=Base | |Step_Title=Base | ||
| − | |Step_Content= | + | |Step_Content=Let's start with the base by adding support with it's stack connected to the 3 green LEDs. |
| + | |||
| + | Take 4 screws M4 insert them in the 4 holes then fix 1 nut on each screws. | ||
}} | }} | ||
{{ {{tntn|Tuto Step}} | {{ {{tntn|Tuto Step}} | ||
| Ligne 48 : | Ligne 93 : | ||
|Step_Picture_01=RobotTelecommande 05b.jpg | |Step_Picture_01=RobotTelecommande 05b.jpg | ||
|Step_Title=Bottom | |Step_Title=Bottom | ||
| − | |Step_Content= | + | |Step_Content=Insert 4 M4 screws 50 mm with their nuts and spacers, then turn the assembly to secure the swivel caster wheel. |
}} | }} | ||
{{ {{tntn|Tuto Step}} | {{ {{tntn|Tuto Step}} | ||
|Step_Picture_00=RobotTelecommande 06a.jpg | |Step_Picture_00=RobotTelecommande 06a.jpg | ||
|Step_Title=Assembly Base + Bottom | |Step_Title=Assembly Base + Bottom | ||
| − | |Step_Content= | + | |Step_Content=Assemble the base and the underside by screwing each screw. |
}} | }} | ||
{{ {{tntn|Tuto Step}} | {{ {{tntn|Tuto Step}} | ||
|Step_Picture_00=RobotTelecommande 07a.jpg | |Step_Picture_00=RobotTelecommande 07a.jpg | ||
|Step_Title=Electronic | |Step_Title=Electronic | ||
| − | |Step_Content= | + | |Step_Content=Attach the motor to the wooden sides. |
}} | }} | ||
{{ {{tntn|Tuto Step}} | {{ {{tntn|Tuto Step}} | ||
|Step_Picture_00=RobotTelecommande 08.jpg | |Step_Picture_00=RobotTelecommande 08.jpg | ||
|Step_Title=Final assembly | |Step_Title=Final assembly | ||
| − | |Step_Content= | + | |Step_Content=Assemble the roundings and the sides with motor in the illustration seen in step 4. |
}} | }} | ||
{{ {{tntn|Tuto Step}} | {{ {{tntn|Tuto Step}} | ||
| Ligne 75 : | Ligne 120 : | ||
{{ {{tntn|Tuto Step}} | {{ {{tntn|Tuto Step}} | ||
|Step_Title=Code | |Step_Title=Code | ||
| − | |Step_Content= | + | |Step_Content=Here is the code to put in the arduino software. |
| + | |||
| + | [[Fichier:Robot-1.ino.pdf|Download the code]] | ||
}} | }} | ||
{{ {{tntn|Tuto Step}} | {{ {{tntn|Tuto Step}} | ||
|Step_Title=Changes envisaged | |Step_Title=Changes envisaged | ||
| − | |Step_Content= | + | |Step_Content=Next evolution put an ultrasonic sensor for obstacle detection and avoidance and a line follower. |
}} | }} | ||
{{ {{tntn|Notes}} | {{ {{tntn|Notes}} | ||
Version du 7 novembre 2017 à 09:13
This robot is made of wood.
Difficulté
Moyen
Durée
2 heure(s)
Catégories
Robotique
Coût
100 EUR (€)
Introduction
You will learn to build a small robot controlled by remote control. This robot is made of wood with an electronic board (arduino uno) and a control extension for both motors.
Matériaux
1x wooden board thickness 5mm (13/64 inch) - 610mm (2 ft 1/64 inch) - 407mm (1 ft 4 1/32 inch)
1x Arduino Uno
http://www.robotshop.com/en/arduino-uno-r3-usb-microcontroller.html
Product Code : RB-Ard-34
1x Green LED Strip Flexible https://www.banggood.com/50CM-Waterproof-USB-SMD3528-TV-Background-Computer-LED-Strip-Tape-Flexible-Light-DC5V-p-1102998.html?rmmds=search
1x power supply battery (for LED strip) http://www.robotshop.com/en/waterproof-3xaa-battery-case-switch.html
2x Motors DC http://www.robotshop.com/en/makeblock-25mm-dc-motor-kit-blue.html
1x Motor Shield http://www.robotshop.com/en/arduino-motor-shield-rev3.html
1x infrared sensor 1x Infrared Remote Control http://www.robotshop.com/en/dfrobot-ir-remote-kit-arduino.html
2x battery holders (6 x 1,5 Volt LR6 batteries) (Arduino Uno main power supply)
4x Batteries 4,5Volts (2 pack mounted in parallel, each pack includes 2 4.5V batteries mounted in series) - (it makes a power supply under 9V for the power supply I paralleled to have a longer battery life )
8x M4 Nuts http://www.screwfix.com/p/easyfix-hex-nuts-a2-stainless-steel-m4-100-pack/8398t
8x Screw M4 - 50 http://uk.farnell.com/tr-fastenings/m450-psstmcz100/screw-slt-pan-steel-bzp-m4x50/dp/1419307
4x M4 Spacer http://uk.farnell.com/c/fasteners-mechanical/fasteners-fixings/spacers-feet/standoffs?thread-size-metric=m4
1x swivel caster wheel http://www.robotshop.com/en/2-swivel-caster-wheel.html
Outils
- Cruciform screwdriver
- Alen wrench 1.5 mm (screw tightening M3)
- Clamping pliers (maintain spacers and nuts)
Étape 1 - blueprint
Here are the plans of each piece to make the robot with dimension (in mm)
Downloading files: https://framadrive.org/index.php/s/oHlHOqSsc18I4U1
To use a laser cutter see the list of FabLab to find the nearest to you: http://www.makery.info/map-labs/
Étape 2 - Base
Let's start with the base by adding support with it's stack connected to the 3 green LEDs.
Take 4 screws M4 insert them in the 4 holes then fix 1 nut on each screws.
Étape 3 - Bottom
Insert 4 M4 screws 50 mm with their nuts and spacers, then turn the assembly to secure the swivel caster wheel.
Étape 4 - Assembly Base + Bottom
Assemble the base and the underside by screwing each screw.
Étape 5 - Electronic
Attach the motor to the wooden sides.
Étape 6 - Final assembly
Assemble the roundings and the sides with motor in the illustration seen in step 4.
Étape 7 - Overview of the robot
Étape 9 - Changes envisaged
Next evolution put an ultrasonic sensor for obstacle detection and avoidance and a line follower.
Yes
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