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RoboBuilder RQ PLUS 110 Manual

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Summary of Contents for RoboBuilder RQ PLUS 110

  • Page 2: Table Of Contents

    List BASICS Punching Bot Cultivator Swing Bot Fish Bot Rolling Bot...
  • Page 3 Imagine Robot 1 Bumper Car Bowling Bot Puppy Bot Fencing Bot Helicopter Imagine Robot 2 # !#...
  • Page 4 RQ + 110 Robot Ch1. Punching Bot Ch2. Cultivator LED1 LED2 LED3 LED1 LED2 LED3 Ch3. Swing Bot Ch4. Fish Bot LED1 LED2 LED3 LED1 LED2 LED3 Ch5. Rolling Bot Ch6. My own Robot #1 LED1 LED2 LED3...
  • Page 5 Ch7. Bumper Car Ch8. Bowling Bot LED1 LED2 LED3 LED1 LED2 LED3 Ch9. Puppy Bot Ch10. Fencing Bot LED1 LED2 LED3 LED1 LED2 LED3 Ch11. Helicopter Ch12. My own Robot #2 LED1 LED2 LED3...
  • Page 6 RQ + 110 Part Frame 1×3 frame X4 1×5 frame X4 1×8 frame X4 1×12 frame X4 2×5 frame X4 2×7 frame X4 2×9 frame X4 2×15 frame X4 3×3 frame X2 3×5 frame X4 3×7 frame X4 3×9 frame X4 3×8 slide frame X2 5×5 frame X2 2×4 L frame X4 2×5 L frame X4...
  • Page 7 Frame Ball frame X2 Wheel X4 Rubber ring X2 Spacer X4 Electronics Part Smart controller X1 Battery case X1 Rotation motor X2 IR remote controller X1 LED X1 Touch sensor X1 Rivet Tool / Rivets Rivet tool X1 2s rivet 3s rivet Double rivet Joints and others...
  • Page 8 Rivet and Rivet tool Science factors are included in rivet tool! A lever is a handle or bar that is attached to a piece of machinery and which you push or pull in order to operate the machinery. Point of action, fulcrum and point of force are required to operate this principle.
  • Page 9 Rivet Rivet sets are divided into 2s rivet, 3s rivet and double rivet. - 2s rivet is white. - 3s rivet is gray. - Double rivet is gray. - Connect two frames in a row. - Connect three frames in a row. - Connect frames on both side.
  • Page 10 Insert rivet clack Applicable rivet types: 2s rivet, 3s rivet, Double rivet. How to insert rivet #1 5×5 frame 5×5 frame 3×5 frame 3×5 frame Prepare two frames. Match holes of Insert rivets where the two frames. the red circles are. clack Done! Insert 2s rivet one by one.
  • Page 11 How to insert rivet #2 5×5 frame 5×5 frame 5×5 frame clack clack clack Prepare two frames. Insert 4 rivets. Match holes of the Push and two frames. connect. clack Insert 4 rivets in one frame. Match holes of the two frames. clack clack Done!
  • Page 12 take-out rivet part Use the U-shaped part of rivet tool Applicable rivet type: 2s rivet, 3s rivet. Use the longer axis of rivet tool ※ Be careful not to bounce off. clack clack Applicable rivet type: 2s rivet, 3s rivet, Double rivet.
  • Page 13 How to take out rivet safety Hold the rivet tool as shown on the left. Use your thumb to fix the rivet. Take out 4 rivets. Separate two frames. Fix rivet with clack your thumb. Push the end part of rivet tool with your Lean rivet tool backward as pushing with thumb.
  • Page 14 How to register IR remote controller You can register IR remote controller into smart controller as below. ① Turn of the smart controller. ② Power on as you press button 2 You can see LED2 (green, blue, red) light on. Button 2 Power ③...
  • Page 15 How to use IR remote controller You can select mode A or mode B. In mode A, the robot goes forward in speed 1, speed 2 and speed 3 whenever you press forward button, In mode B, the robot goes forward continuously when forward button is pressed. The robot stops if button is released.
  • Page 16 → In RQ + 110~130 robot models, pre-programmed robot motions are included in A, B, direction button and button 1, 2, 3 on the IR remote controller. Robot motion of each robot is different depending on the robot model. → In RQ + 110~130 robot models, a robot motion is saved from button 4 to button 0. motions can be downloaded at maximum.
  • Page 17 Warnings • Power S/W is built in the smart controller. Insert power device (AAA battery) and connect to power connector of smart controller. Power off smart controller while your robot is not in use. • Use the given electronic parts in RQ + to connect with smart controller. Check the cable insert port carefully again not to misconnect.
  • Page 18 1. Punching Bot Play a robot fight. Hi, I am Taekwon Ro! Head! waist! I have a yellow belt, and I beat anyone using the I can do the turning kick! bamboo sword. I accept your challenge. Hi yah! How about a punch game with me? Get nervous! Taekwondo is one of fighting sports,...

  • Page 19: Step

    Today's Robot Class Punching Bot is using two rotation motors to go forward and backward. Also, rotation motors are connected with frames for robot arm so that robot movement and punching at the same time. Punching Bot includes touch sensor to detect opposite robot punch and indicates hit numbers by LED light.

  • Page 20: Step

    Robot Assembly Prepare robot parts. Smart controller X1 R. motor (ID29,30) X2 Battery case X1 LED X1 Touch sensor X1 1×5 frame X4 1×8 frame X3 1×12 frame X2 2×5 frame X2 3×5 frame X4 3×7 frame X4 3×9 frame X1 5×5 frame X2 3×8 slide frame X2 2×4 L frame X4 2×5 L frame X2...

  • Page 21: Step

    Step 1 Assemble rotation motor (ID30) same as ID29 R. motor (ID29) X1 Wheel X1 Rubber ring X1 Double rivet X2 Step 2 3×7 frame X2 R. motor (ID29) Double rivet X12 R. motor (ID30)
  • Page 22 Step 3 1×8 frame X1 3×7 frame X1 Ball frame X1 Double rivet X8 Step 4 2×4 L frame X2 3×5 L frame X1 Ball frame X1 Double rivet X6...
  • Page 23 Step 5 Step 3 Double rivet X4 Step 6 3×5 frame X1 2×5 L frame X1 3×6 L frame X1 Double rivet X6...
  • Page 24 Step 7 Smart controller X1 Battery case X1 Double rivet X6 Step 8 3×5 frame X1 2×5 L frame X1 3×6 L frame X1 Double rivet X6...
  • Page 25 Step 9 Step 7 Double rivet X2 Step 10 Double rivet X8 Step 8...
  • Page 26 Step 11 1×8 frame X1 2×5 frame X1 5×5 frame X1 3×8 slide frame X1 2×4 L frame X1 3×5 L frame X1 3×6 L frame X1 2s rivet X3 Double rivet X10 Step 12 Double rivet X2 Step 10...

  • Page 27: Step

    Step 13 1×8 frame X1 2×5 frame X1 5×5 frame X1 3×8 slide frame X1 2×4 L frame X1 3×5 L frame X1 3×6 L frame X1 2s rivet X3 Step 12 Double rivet X10 Step 14 Double rivet X2...
  • Page 28 Step 15 1×5 frame X2 1×12 frame X1 Spacer X1 2s rivet X4 3s rivet X1 Step 16 1×5 frame X2 1×12 frame X1 Spacer X1 2s rivet X4 3s rivet X1...

  • Page 29: Step

    Step 17 LED X1 Touch sensor X1 3×7 frame X1 3×5 L frame X1 2s rivet X2 Double rivet X4 Step 18 3×5 frame X2 3×9 frame X1 Double rivet X6...

  • Page 30: Step

    Step 19 Step 16 Be careful with the position (Step 18) and direction of each cable Power device Touch sensor when connecting R. motor (ID29) R. motor (ID30) (Step 18) Step 20 Double rivet X2 Step 18...

  • Page 31: Punching Bot

    ★ 'Punching Bot' ready! ★ completion...
  • Page 32 Robot Experience Select Punching Bot model. There are various LEDs and buttons in smart controller. LED indicates input or output value like monitor while buttons work as the keyboard for PC. Button P LED1, LED2, LED3 from left side Button 1, 2, 3 from left side First : Turn on the smart controller to enter <set-up mode>.
  • Page 33 Check movement and assembly. 1. Press button 1, 2 or 3 or IR remote controller, and choose from the below example. ★ Example ★ ⓐ Stop slowly. ⓑ Go forward with left and right movement. ⓒ Go backward with left and right movement.

  • Page 34: Basics

    Robot Play Punch Punch Let's play 'Punching Bot' with other friend. • Check the punching behavior and whether it properly moved forward, backward and rotates. • Touch sensor detects opposite robot's punch while LED detects the number of hits. • Whoever punches the opposite robot's chest (touch sensor part) first wins.
  • Page 35 < Detect with touch sensor > ◈ Check before Coding Mission •Check if Scratch Builder is installed before Coding Mission. •Download Scratch Builder from the Robobuilder site and install. (Download the most recent version in Support-Software at www.robobuilder.net.) •Download other detailed explanation at the website.
  • Page 36 (press # + 4 button on the remote to run the uploaded code). ◈ Any questions about Coding Mission? •For any questions about robot coding mission, visit Support-Technical support at www.robobuilder.net. •Download the 'Scratch Builder' manual on the website. (Download the Scratch Builder manual in Support-Manual at www.robobuilder.net.)
  • Page 38 2. Cultivator Change in energy! It's all about energy - how Mong Whoa whoa~ Save your energy! jumps and how the roller coaster Otherwise, you'll get tired. moves so fast. Wow, it's been a while since Huh? Energy? I've came to an amusement park! Energy for roller coaster? Right.
  • Page 39 Today's Robot Class RQ + 's second robot! We are going to build 'Cultivator' robot. How does a cultivator robot move? And by what power? Energy. Electric energy from battery transformed to kinetic energy makes the cultivator robot go forward and backward like a real cultivator.
  • Page 40 Robot Assembly Prepare robot parts. R. motor (ID30) X1 Battery case X1 1×5 frame X2 2×5 frame X3 Smart controller X1 2×7 frame X3 3×5 frame X2 3×9 frame X4 5×5 frame X1 2×4 L frame X4 2×5 L frame X2 3×5 L frame X4 3×6 L frame X4 Wheel X4...
  • Page 41 Step 1 Use an ID30 rotation motor. R. motor (ID30) X1 Wheel X1 Rubber ring X1 Double rivet X2 Step 2 Wheel X1 Rubber ring X1 Front horn X1 Double rivet X2...
  • Page 42 Step 3 Battery case X1 3×9 frame X1 3×6 L frame X1 Double rivet X8 Step 4 3×6 L frame X1 Step 2 3s rivet X3 Double rivet X2...
  • Page 43 Step 5 2×5 frame X1 2×7 frame X1 2×4 L frame X3 2s rivet X2 Double rivet X6 Step 6 1×5 frame X1 2×5 frame X1 2s rivet X2 Double rivet X2...
  • Page 44 Step 7 2×7 frame X1 2×4 L frame X1 2s rivet X2 Double rivet X2 Step 8 1×5 frame X1 2×5 frame X1 2s rivet X2 Double rivet X2...
  • Page 45 Step 9 Smart controller X1 3×5 frame X1 3×9 frame X1 Double rivet X6 Step 10 2×5 L frame X2 3×5 L frame X1 Double rivet X7...
  • Page 46 Step 11 2×7 frame X1 3×5 L frame X1 Double rivet X4 Step 12 3×9 frame X1 Insert rivets in the correct position. 3×5 L frame X1 3×6 L frame X1 Wheel X1 2s rivet X2 Double rivet X3...
  • Page 47 Step 13 Double rivet X2 Step 14 3×9 frame X1 3×5 L frame X1 3×6 L frame X1 Wheel X1 2s rivet X2 Double rivet X3...
  • Page 48 Step 15 Double rivet X2 Step 16 3×5 frame X1 5×5 frame X1 3s rivet X4 Double rivet X4...

  • Page 49: Tip Step

    Step 17 Step 8 Step 4 Double rivet X6 Step 18 Check the cable position and direction. Power device R. motor (ID30)
  • Page 50 ★ 'Cultivator' robot ready! ★ completion...

  • Page 51: Cultivator

    Robot Experience Program for 'Cultivator' robot model set-up. There are various LEDs and buttons in smart controller. LED indicates input or output value like monitor while buttons do as keyboards in PC. Button P LED1, LED2, LED3 from left side Button 1, 2, 3 from left side First : Turn on the smart controller to enter (set-up mode).
  • Page 52 Check movement and assembly. 1. Press button 1, 2 or 3 of IR remote controller, then, write your answer from examples below. ★ Examples ★ ① 'Batabata….' go forward. ② 'Batabata….' go backward. ③ Stop slowly. Clap! ④ 'Batabata….' go backward when sound is detected. Clap! ⑤...
  • Page 53 Robot Play Who comes closer …. Use 'Cultivator' robot and 3×7 frame to play 'Who comes closer' game. • As below, overlap two 3×7 frames, and have them sit on the 'END' point. • Start from 'START', then go towards the 3×7 frames. •...
  • Page 54 < Move straight and stop > ◈ Check before Coding Mission •Check if Scratch Builder is installed before Coding Mission. •Download Scratch Builder from the Robobuilder site and install. (Download the most recent version in Support-Software at www.robobuilder.net.) •Download other detailed explanation at the website.
  • Page 55 (press # + 4 button on the remote to run the uploaded code). ◈ Any questions about Coding Mission? •For any questions about robot coding mission, visit Support-Technical support at www.robobuilder.net. •Download the 'Scratch Builder' manual on the website. (Download the Scratch Builder manual in Support-Manual at www.robobuilder.net.)
  • Page 56 3. Swing Bot Come-and-go, ride swing Oh, come to think of it, the viking ship is also repeated come-and-go. Come-and-go, it makes me feel like I'm riding Higher and higher a viking ship in amusement park. Swing and viking ship use same principle of pendulum movement.
  • Page 57 Today's Robot Class What principle is applied in come-and-go swing? Swing uses the principle of the pendulum of a clock. It has a weight at the end and swings from side to side in order to make the clock work. We are going to build a twin 'Swing Bot' in this chapter. RQ + rotation motor has two axes to allow two different motions at once.
  • Page 58 Robot Assembly Prepare robot parts. Smart controller X1 R. motor (ID30) X1 Battery case X1 Touch sensor X1 1×8 frame X2 1×12 frame X4 2×7 frame X3 2×9 frame X3 2×15 frame X4 3×5 frame X2 3×7 frame X1 3×9 frame X4 5×5 frame X2 2×4 L frame X4 2×5 L frame X4...
  • Page 59 Step 1 Use (ID30) rotation motor. R. motor (ID30) X1 2×7 frame X1 Front horn X1 Double rivet X2 Match two home marks of both side of rotation motor ID30. Step 2 2×9 frame X1 Double rivet X2...
  • Page 60 Step 3 2×9 frame X2 3×9 frame X4 5×5 frame X2 Double rivet X10 Step 4 3×7 frame X1 3×5 L frame X1 3×6 L frame X1 Double rivet X8...
  • Page 61 Step 5 Smart controller X1 Battery case X1 Touch sensor X1 Double rivet X10 Step 2 Step 6 Double rivet X4...
  • Page 62 Step 7 Make two parts in Step 7 and Step 8! 2×7 frame X1 2×4 L frame X2 Double rivet X4 Step 8 Hinge A and Hinge B are different Be careful! 1×12 frame X2 3×5 frame X1 Hinge B Hinge A 3×6 L frame X1 Hinge A X1...
  • Page 63 Step 9 1×8 frame X1 2×15 frame X2 2×5 L frame X2 Spacer X2 Step 8 3s rivet X2 Double rivet X5 Step 7 Step 10 2s rivet X4...
  • Page 64 Step 11 1×8 frame X1 2×15 frame X2 2×5 L frame X2 Spacer X2 3s rivet X2 Step 8 Double rivet X5 Step 7 Step 12 2s rivet X4...
  • Page 65 Step 13 Step 10 Double rivet X8 Step 12 Step 6 See carefully for double rivet Step 14 insert position! Double rivet X2...
  • Page 66 Step 15 Be careful for the cable position and direction. Touch sensor Power device R. motor (ID30) ★ 'Swing Bot' ready! ★ completion...
  • Page 67 Robot Experience Set-up for 'Swing Bot' model There are various LEDs and buttons in smart controller. LED indicates input or output value like monitor while buttons works as the keyboard for PC. Button P LED1, LED2, LED3 from left side Button 1, 2, 3 from left side First : Turn on the smart controller to enter (set-up mode).
  • Page 68 Check movement and assembly. 1. Press button 1, 2 or 3, and then write your answer on how a robot moves. 2. Connect lines for corresponding motions and actions with the IR remote controller buttons. Swing moves slowly when button touch sensor is pressed.

  • Page 69: Swing Bot

    Robot Play Swing board game Play a board game as you control the 'Swing Bot'. Make game rules or design your board panel for fun. • Start from 'START' position and come back to the original start point. • Prepare your own token to use as a maker. •...
  • Page 70 < Swing motion > ◈ Check before Coding Mission •Check if Scratch Builder is installed before Coding Mission. •Download Scratch Builder from the Robobuilder site and install. (Download the most recent version in Support-Software at www.robobuilder.net.) •Download other detailed explanation at the website.
  • Page 71 (press # + 4 button on the remote to run the uploaded code). ◈ Any questions about Coding Mission? •For any questions about robot coding mission, visit Support-Technical support at www.robobuilder.net. •Download the 'Scratch Builder' manual on the website. (Download the Scratch Builder manual in Support-Manual at www.robobuilder.net.)
  • Page 72 4. Fish Bot Living under water - fish...
  • Page 73 Today's Robot Class Mudskipper is an amphibious fish - fish that can use their pectoral fins to walk on land. Being amphibious, they are uniquely adapted to intertidal habitats unlike most fish in such habitats which survive the retreat of the tide by hiding under wet seaweed or in tidal pools.
  • Page 74 Robot Assembly Prepare robot parts. Smart controller X1 R. motor (ID30) X1 Battery case X1 1×3 frame X3 1×8 frame X2 2×5 frame X3 2×7 frame X1 3×3 frame X2 3×5 frame X4 3×7 frame X3 3×9 frame X4 5×5 frame X2 2×4 L frame X3 3×5 L frame X4 3×6 L frame X1 2s rivet...
  • Page 75 Step 1 Smart controller X1 1×3 frame X1 3×9 frame X2 Ball frame X1 Double rivet X8 Step 2 3×3 frame X1 3×5 frame X1 5×5 frame X1 2s rivet X1 Double rivet X9...
  • Page 76 Step 3 3×3 frame X1 3×5 frame X1 5×5 frame X1 2s rivet X1 Double rivet X9 Step 4 3×9 frame X1 2×4 L frame X2 3×5 L frame X1 2s rivet X6...
  • Page 77 Step 5 3×7 frame X3 3×9 frame X1 2s rivet X2 Double rivet X10 Step 6 Double rivet X1 Step 3...
  • Page 78 Step 7 Match 'home' marks R. motor (ID30) X1 on both side of ID30. Battery case X1 3×5 frame X1 3×6 L frame X1 Front horn X1 2s rivet X2 Double rivet X6 Step 8 3s rivet X2 Step 6...
  • Page 79 Step 9 1×3 frame X1 2×5 frame X2 2×4 L frame X1 3×5 L frame X1 3s rivet X1 Double rivet X10 Step 10 1×8 frame X1 Hinge B Hinge A X1 Hinge A Hinge B X1 3s rivet X1 Double rivet X3...
  • Page 80 Step 11 1×3 frame X1 2×5 frame X1 2×7 frame X1 3×5 L frame X1 3s rivet X1 Double rivet X8 Step 12 1×8 frame X1 Hinge A X1 Hinge B X1 Hinge A 3s rivet X1 Hinge B Double rivet X3...
  • Page 81 Step 13 See the position and direction carefully when you connect cables! Power device Step 14 R. motor(ID30) 3×5 frame X1 3×5 L frame X1 2s rivet X1 Double rivet X4...
  • Page 82 ★ 'Fish Bot' ready! ★ completion The head part of Fish Bot is detachable so that you can operate power S/W or connect cables easily.
  • Page 83 Robot Experience Set-up for 'Fish Bot' model. There are various LEDs and buttons in smart controller. LED indicates input output value like monitor while buttons works as the keyboard for PC. Button P LED1, LED2, LED3 from left side Button 1, 2, 3 from left side First : Turn on the smart controller to enter (set-up mode).
  • Page 84 Check movement and assembly. 1. Press button 1, 2 or 3 of IR remote controller, and then draw a line to the corresponding motion of Fish Bot. Fish Bot goes pit-a-pat, button and stops when sound is detected, then moves again. Fish Bot goes pit-a-pat button and stop.

  • Page 85: Fish Bot

    Robot Play Escape game Make a team and play the escape game with your friend. Sum up all the scores and the one with the higher score wins. • Place the Fish Bot in the center (10 point). The direction does not matter. •...
  • Page 86 < Detect voice and stop > ◈ Check before Coding Mission •Check if Scratch Builder is installed before Coding Mission. •Download Scratch Builder from the Robobuilder site and install. (Download the most recent version in Support-Software at www.robobuilder.net.) •Download other detailed explanation at the website.
  • Page 87 (press # + 4 button on the remote to run the uploaded code). ◈ Any questions about Coding Mission? •For any questions about robot coding mission, visit Support-Technical support at www.robobuilder.net. •Download the 'Scratch Builder' manual on the website. (Download the Scratch Builder manual in Support-Manual at www.robobuilder.net.)
  • Page 88 5. Rolling Bot Wheels are round. Roll over and over~ I wondered why car wheels Oh! The round wheel rolls are round. so well! So, I experimented. Huh! Triangular and rectangular It's a toy car! wheels cannot roll well... Triangle wheel, rectangular wheel...? Why is that? Since round ball has no sharp corners, it can roll well.
  • Page 89 Today's Robot Class Cart has wheels so that it can transport heavy objects with little power. Wheels make our life more comfortable in various ways, used in cars, bicycles, trains, luggage, wheel chair, vacuum cleaner and more. In this chapter, we will build a 'Rolling Bot' and learn about wheels.
  • Page 90 Robot Assembly Prepare robot parts. Smart controller X1 R. motor (ID29,30) X2 Battery case X1 2×5 frame X4 2×15 frame X2 3×5 frame X4 3×7 frame X2 5×5 frame X2 2×4 L frame X4 2×5 L frame X2 3×5 L frame X4 3×6 L frame X4 Wheel X4 2s rivet X16...
  • Page 91 Step 1 When you see X2 mark, you need to assemble two sets. 2×15 frame X1 2×4 L frame X2 Wheel X2 Double rivet X6 Step 2 3×7 frame X1 Double rivet X4...
  • Page 92 Step 3 3×7 frame X1 2×5 L frame X2 Double rivet X4 Step 4 Smart controller X1 Double rivet X4...
  • Page 93 Step 5 R. motor (ID29) R. motor X2 R. motor (ID30) Battery case X1 Double rivet X4 Step 6 2×5 frame X1 3×5 frame X1 3×5 L frame X1 3×6 L frame X1 2s rivet X2 Double rivet X2...
  • Page 94 Step 7 5×5 frame X1 Double rivet X8 Step 8 2s rivet X4...
  • Page 95 Step 9 Check ID29/ID30 connection position. Double rivet X6 Step 5 Step 2 Step 10 Step 4 Double rivet X4...
  • Page 96 Step 11 Double rivet X4 Step 8 Step 12 Double rivet X4 Step 8...
  • Page 97 Step 13 Carefully look at the cable position and direction! ★ 'Rolling Bot' ready! ★ completion Power device R. motor (ID30) R. motor (ID29)
  • Page 98 Robot Experience Set-up for Rolling Bot robot model. There are various LEDs and buttons in smart controller. LED indicates input or output value like monitor while buttons work as the keyboard for PC. Button P LED1, LED2, LED3 from left side Button 1, 2, 3 from left side First : Turn on the smart controller to enter <set-up mode>.
  • Page 99 Check movement and assembly. 1. Press button 1, 2 or 3 of IR remote controller, and write your answer below. 2. Who answered correctly in your class? ① button, Move forward if sound is detected. button, ② Move forward and backward repeatedly.
  • Page 100 Robot Play Zigzag track game Use your Rolling Bot and play a track game with your friend. Control your robot to follow the line and try cornering in this zigzag track field. • Start from 'START' position and move to 'END' point. •...

  • Page 101: Rolling Bot

    < Detect voice > ◈ Check before Coding Mission •Check if Scratch Builder is installed before Coding Mission. •Download Scratch Builder from the Robobuilder site and install. (Download the most recent version in Support-Software at www.robobuilder.net.) •Download other detailed explanation at the website.
  • Page 102 (press # + 4 button on the remote to run the uploaded code). ◈ Any questions about Coding Mission? •For any questions about robot coding mission, visit Support-Technical support at www.robobuilder.net. •Download the 'Scratch Builder' manual on the website. (Download the Scratch Builder manual in Support-Manual at www.robobuilder.net.)

  • Page 104: Imagine Robot 1

    6. Imagine Robot. My own robot PART 1 Build a wing by using frames and rivets~ Hey, friends~ What were you doing? I was in the middle of building my Connect the wing to the rotation own robot. Actually, I was thinking motor and make it rotate...
  • Page 105 Creative Robot Class Write a report on <My own robot PART1>. My robot is called ★ Why did you build this robot? How did you build your robot? What kind of function does it have? Problem / Solution Something you learned while building the robot...
  • Page 106 Post the picture of your own robot below. ◈ Describe your own robot. Very Very easy Easy Average Difficult difficult • Robot level? • What was the most fun about it? • What was the most difficult thing? • Check your robot with your teacher.
  • Page 108 7. Bumper Car Clack clack~ Touch sensor Oh, dear... My legs fell asleep because I've been Robot can? knelt down for a long time... It's not a human! I feel like a robot. How can it be??? Just like human has sensory organ, robots have a touch sensor Oh! Robot can feel when...
  • Page 109 Today's Robot Class Bumper car is like a regular car, freely moving forward and backward and turning left and right. Two rear wheels use two rotation motors and two front wheels are auxiliary wheels. 'Clack clack' bumper car has a special function. It avoid obstacles when touch sensor detects them.
  • Page 110 Robot Assembly Prepare robot parts. Smart controller X1 R. motor (ID29,30) X2 Battery case X1 LED X1 Touch sensor X1 2×7 frame X3 2×9 frame X3 2×15 frame X2 3×5 frame X4 3×7 frame X2 3×9 frame X4 2×4 L frame X2 2×15 L frame X4 3×5 L frame X2 3×6 L frame X3...
  • Page 111 Step 1 Assemble ID30 rotation motor the same way. R. motor(ID29) X1 Wheel X1 Rubber ring X1 Double rivet X2 Step 2 2×9 frame X2 3×7 frame X1 3×9 frame X1 Double rivet X5 第十步...
  • Page 112 Step 3 Step 2 R. motor R. motor 3×7 frame X1 (ID30) (ID29) Double rivet X2 Step 4 Smart controller X1 2×7 frame X1 3×5 frame X2 Wheel X1 Double rivet X7...
  • Page 113 Step 5 2×7 frame X1 3×5 frame X2 Wheel X1 Double rivet X7 Step 6 Step 5 Double rivet X6...
  • Page 114 Step 7 2×4 L frame X2 2s rivet X4 Double rivet X2 Step 8 LED X1 2×9 frame X1 3×5 L frame X2 3×6 L frame X1 Double rivet X10...
  • Page 115 Step 9 2×15 frame X1 3×9 frame X1 2×5 L frame X2 2s rivet X2 Double rivet X4 Step 10 Double rivet X8 Step 7...
  • Page 116 Step 11 Step 8 Double rivet X2 Step 12 Battery case X1 Double rivet X4...
  • Page 117 Step 13 Touch sensor X1 2×7 frame X1 3×9 frame X1 3×6 L frame X2 2s rivet X7 Double rivet X2 Connect all the cables to the smart controller, then Step 14 assemble the bumper. Refer to STEP15 for bumper assembly. Step 12 Power R.
  • Page 118 Step 15 《Cable connection status》 Double rivet X4 ★ 'Bumper car' ready! ★ completion...
  • Page 119 Robot Experience Set-up 'Bumper car' robot model. There are various LEDs and buttons in smart controller. LED indicates input or output value like monitor while buttons work as the keyboard for PC. Button P LED1, LED2, LED3 from left side Button 1, 2, 3 from left side First : Turn on the smart controller to enter <set-up mode>.
  • Page 120 Check movement and assembly. 1. Write 'O' for true and 'X' for false. button : Move forward towards the left. ( button : Move forward fast and stop fast. ( button : Move forward towards the right. ( button : Move forward/backward if touch sensor detects an object.

  • Page 121: Bumper Car

    Robot Play Avoid obstacles. Play 'avoid obstacles' game as by controlling the bumper car robot. • Start from 'START' point, and move to 'END' point. • Whoever arrives to 'END' point by avoiding obstacles wins game. • If the bumper car gets out of the road, stop for 2 seconds. •...
  • Page 122 < Move straight and stop > ◈ Check before Coding Mission •Check if Scratch Builder is installed before Coding Mission. •Download Scratch Builder from the Robobuilder site and install. (Download the most recent version in Support-Software at www.robobuilder.net.) •Download other detailed explanation at the website.
  • Page 123 (press # + 4 button on the remote to run the uploaded code). ◈ Any questions about Coding Mission? •For any questions about robot coding mission, visit Support-Technical support at www.robobuilder.net. •Download the 'Scratch Builder' manual on the website. (Download the Scratch Builder manual in Support-Manual at www.robobuilder.net.)
  • Page 124 8. Bowling Bot Stretch-and-shrink I guess a jumper who has the Wow, jump higher Let's see who better elastic force spring can jumps higher! and higher! jump higher! Elastic force? If spring is pressed and released, it returns back. There are many things that use elastic force in our life.
  • Page 125 Today's Robot Classs Rubber band can stretch and shrink because of elastic force. We see various household items with elastic force such as rubber balloon, rubber gloves, spring, ballpoint pen, scales and bows. Bowling Bot can fire objects by utilizing elastic force. Let's bowl after we build a Bowling Bot robot.
  • Page 126 Robot Assembly Prepare robot parts. Smart controller X1 R. motor (ID29,30) X2 Battery case X1 Touch sensor X1 1×3 frame X2 1×5 frame X2 2×7 frame X2 2×9 frame X2 2×15 frame X4 3×3 frame X1 3×5 frame X4 3×7 frame X4 3×9 frame X3 5×5 frame X1 3×8 slide frame X1...
  • Page 127 Step 1 2×9 frame X2 3×9 frame X1 5×5 frame X1 Double rivet X6 Step 2 2×15 frame X3 Double rivet X10...
  • Page 128 Step 3 2×15 frame X1 Double rivet X10 3×6 L frame has two different sides. Step 4 R. motor (ID30) X1 Touch sensor X1 3×6 L frame X1 Double rivet X6 Use a rotation motor.
  • Page 129 Step 5 3×7 frame X1 3×9 frame X1 3×5 L frame X1 Double rivet X4 Step 6 Step 4 3×7 frame X1 3s rivet X2...
  • Page 130 Step 7 3×7 frame X1 3×9 frame X1 3×5 L frame X1 Double rivet X4 Step 8 Step 6 3×7 frame X1 3s rivet X2...
  • Page 131 Step 9 Use a rotation motor ID29. R. motor (ID29) X1 3×5 frame X3 Double rivet X8 Step 10 1×5 frame X2 2×7 frame X2 2×5 L frame X2 2s rivet X2 3s rivet X4 Double rivet X4 Use 2s rivet for 2×7 frame connection. Hang rubber ring in STEP17.
  • Page 132 Step 11 1×3 frame X2 3×3 frame X1 3×5 frame X1 Insert 2s rivet to slide frame. 3×8 slide frame X1 2s rivet X3 Double rivet X4 Step 8 Step 12 Double rivet X4 Step 10...
  • Page 133 Step 13 Battery case X1 3s rivet X1 Double rivet X4 Step 14 Smart controller X1 3s rivet X1 Double rivet X2...
  • Page 134 Step 15 Double rivet X5 Step 11 Step 16 Check out the cable position and direction. R. motor (ID29) Power device Touch sensor R. motor (ID30)
  • Page 135 Step 17 Rubber ring X1 Rubber ring should be placed as below Step 18 Double rivet X4 Step 3...
  • Page 136 ★ 'Bowling Bot' ready! ★ completion Select mode A when you control the Bowling Bot! In order to change from mode B to mode A, turn off and on the RQC, then press button '#' and button 'A' together. 'Do, Re, Mi' sound is played when it switches into mode A. Tips.

  • Page 137: Bowling Bot

    Robot Experience Set-up 'Rolling Bot' robot model. There are various LEDs and buttons in smart controller. LED indicates input or output value like monitor while buttons work as the keyboard for PC. Button P LED1, LED2, LED3 from left side Button 1, 2, 3 from left side First : Turn on the smart controller to enter <set-up mode>.
  • Page 138 Check movement and assembly. 1. Write which button on the IR remote controller to press in order to command the Bowling Bot. Which button should I press? (1) Bowling Bot turns right. button (2) Bowling Bot turns left. button (3) Bowling Bot turns round slowly and stops slowly. button (4) Shoot wheel when sound is detected.
  • Page 139 Robot Play Mini bowling game Shoot out to target objects as you control the Bowling Bot. Discuss with your friends to make new rules to make the game more exciting. Bring more friends to play with as you can make teams. •...
  • Page 140 < Detect with touch sensor > ◈ Check before Coding Mission •Check if Scratch Builder is installed before Coding Mission. •Download Scratch Builder from the Robobuilder site and install. (Download the most recent version in Support-Software at www.robobuilder.net.) •Download other detailed explanation at the website.
  • Page 141 (press # + 4 button on the remote to run the uploaded code). ◈ Any questions about Coding Mission? •For any questions about robot coding mission, visit Support-Technical support at www.robobuilder.net. •Download the 'Scratch Builder' manual on the website. (Download the Scratch Builder manual in Support-Manual at www.robobuilder.net.)
  • Page 142 9. Puppy Bot Walk with four legs. What? It's walking with 4 legs, Oh, it walks! but you used 2 motors. My puppy bot walks! Haha, it's so cute to see The 'link' structure makes your robot waddle. it possible. Link structure changes rotation motor spin force into straight line force.
  • Page 143 Today's Robot Class Puppy Bot can walk with four legs. It only uses two rotation motors, but the link structure makes it possible to move four legs. Link structure changes the motor spin power to walk device, such as bicycle, sewing machine and wiper for cars.
  • Page 144 Robot Assembly Prepare robot parts. Smart controller X1 R. motor (ID29,30) X2 Battery case X1 LED X1 1×3 frame X4 1×5 frame X3 1×12 frame X2 2×7 frame X3 2×9 frame X4 3×5 frame X4 3×7 frame X1 2×4 L frame X4 3×5 L frame X3 3×6 L frame X1 Hinge A X2...
  • Page 145 R. motor (ID30) Step 1 R. motor (ID29) R. motor X2 3×5 frame X1 Double rivet X2 Step 2 2×7 frame X2 3×7 frame X1 2×4 L frame X2 Double rivet X12...
  • Page 146 Step 3 Smart controller X1 Battery case X1 Double rivet X4 Step 4 2×7 frame X1 3×5 L frame X1 3×6 L frame X1 2s rivet X3...
  • Page 147 Step 5 1×3 frame X4 3×5 frame X1 3s rivet X2 Step 6 LED X1 Hinge A X1 Hinge A Hinge B X1 Hinge B Double rivet X2 Step 7 Step 4 3s rivet X2 Step 5...
  • Page 148 Step 8 1×5 frame X1 Step 2 Hinge A X1 Double rivet X10 Step 3 Step 9 3×5 frame X1 3×5 L frame X1 Double rivet X4 Build two sets.
  • Page 149 Step 10 2×4 L frame X2 3s rivet X8 Step 8 Step 11 1×5 frame X1 1×12 frame X1 2×9 frame X2 2s rivet X2 Double rivet X1...
  • Page 150 Step 12 Step 10 2s rivet X3 Step 13 1×5 frame X1 1×12 frame X1 2×9 frame X2 2s rivet X2 Double rivet X1...
  • Page 151 Step 14 Step 12 2s rivet X3 Step 15 Carefully look at the cable insert position and direction. Power R. motor (ID29) R. motor (ID30)
  • Page 152 ★ 'Puppy Bot' ready! ★ completion...
  • Page 153 Robot Experience Set-up 'Puppy Bot' robot model. There are various LEDs and buttons in smart controller. LED indicates input or output value like monitor while buttons work as the keyboard for PC. Button P LED1, LED2, LED3 from left side Button 1, 2, 3 from left side First : Turn on the smart controller to enter <set-up mode>.
  • Page 154 Check movement and assembly. 1. Who has the correct information on Puppy Bot's movement? : Button : It walks from right leg to left leg in order to go forward. : Button : It repeatedly goes forward and backward. : Button : It walks from left leg to right leg in order to go backward.

  • Page 155: Puppy Bot

    Robot Play Yo-ho~ Yo-ho~ Push it out. Play 'Push' game as you control the Puppy Bot. On the game board, play 2 vs. 2 with your friends. If you push your friend's robot out of the board, you win. • Play 2 vs.
  • Page 156 < Detect voice > ◈ Check before Coding Mission •Check if Scratch Builder is installed before Coding Mission. •Download Scratch Builder from the Robobuilder site and install. (Download the most recent version in Support-Software at www.robobuilder.net.) •Download other detailed explanation at the website.
  • Page 157 (press # + 4 button on the remote to run the uploaded code). ◈ Any questions about Coding Mission? •For any questions about robot coding mission, visit Support-Technical support at www.robobuilder.net. •Download the 'Scratch Builder' manual on the website. (Download the Scratch Builder manual in Support-Manual at www.robobuilder.net.)
  • Page 158 10. Fencing Bot Twinkle, twinkle. Oh, great source of light. Accept my challenge, I will show Sun! Help me!~ you my fencing bot attack motion! Source of light? Sun? Alright! Come on! Yes, the sun emits light. We call an object that emits light a What about the moon? light source.
  • Page 159 Today's Robot Class Fencing Bot moves forward, backward and moves its sword with two rotation motors. One rotation motor makes it move forward and backward, and the other rotation motor makes the sword move by using the link structure. Fencing bot goes backward and the LED turns on when the touch sensor is pressed.
  • Page 160 Robot Assembly Prepare robot parts. Smart controller X1 R. motor (ID29,30) X2 Battery case X1 LED X1 Touch sensor X1 1×3 frame X3 1×8 frame X3 1×12 frame X1 2×5 frame X1 2×7 frame X1 2×9 frame X1 3×5 frame X4 3×7 frame X3 3×9 frame X3 5×5 frame X1...
  • Page 161 Step 1 R. motor (ID30) X1 Use a rotation motor ID30. 3×5 frame X1 3×7 frame X1 Ball frame X1 Wheel X1 Rubber ring X1 Insert a rubber ring into the wheel. Double rivet X10 Step 2 3×5 frame X1 Wheel X1 Rubber ring X1 Front horn X1...
  • Page 162 Step 3 1×3 frame X2 3×9 frame X1 3×8 slide frame X1 2s rivet X2 Insert 2s rivet into the slide frame. Double rivet X4 Step 4 1×12 frame X1 2×5 frame X1 Hinge A X1 Double rivet X6...
  • Page 163 Step 5 1×3 frame X1 2×9 frame X1 3×5 frame X1 3×9 frame X1 2×5 L frame X1 3×5 L frame X1 2s rivet X4 Carefully look at the frame Step 4 part's position and direction! Double rivet X6 Step 6 1×8 frame X1 2s rivet X2 It becomes the sword...
  • Page 164 Step 7 Touch sensor X1 2×7 frame X1 3×5 frame X1 5×5 frame X1 2×5 L frame X1 Double rivet X12 Step 8 Step 6 Double rivet X8 Step 2...
  • Page 165 Step 9 Battery case X1 LED X1 2×5 L frame X1 3×5 L frame X1 Double rivet X6 Step 10 3×7 frame X1 3×6 L frame X2 Double rivet X8...
  • Page 166 Step 11 2×5 L frame X1 3×5 L frame X1 Double rivet X4 Step 12 Double rivet X2 Step 8...
  • Page 167 Step 13 R. motor (ID29) Smart controller X1 R. motor (ID29) X1 3×7 frame X1 3×9 frame X1 3×6 L frame X1 Ball frame X1 2s rivet X2 Step 12 Double rivet X10 Step 14 Double rivet X6 Carefully look at the frame's direction.
  • Page 168 Step 15 1×8 frame X2 2s rivet X1 Double rivet X3 Step 16 ① Separate the 3×9 frame from the rotation motor (ID29) ② Connect the cables of electronic parts to the smart controller. Refer to STEP17.
  • Page 169 Step 17 Carefully look at the cable connection position! Power R. motor (ID29) Touch sensor R. motor (ID30) Refer to STEP16 after connecting all cables to the smart controller. ★ 'Fencing Bot' ready! ★ completion...
  • Page 170 Robot Experience Set-up 'Fencing Bot' robot model. There are various LEDs and buttons in smart controller. LED indicates input or output value like monitor while buttons work as the keyboard for PC. Button P LED1, LED2, LED3 from left side Button 1, 2, 3 from left side First : Turn on the smart controller to enter <set-up mode>.

  • Page 171: Fencing Bot

    Check movement and assembly. 1. What button on the IR remote controller should be pressed to make the Fencing Bot attack? ① ② ③ ④ 2. Circle the correct button that matches the command. ▶ Press ( ) button for move forward. ▶...
  • Page 172 Robot Play Fencing game Place two Fencing Bots facing each other, and play a fencing game. Whoever touches the opponent's touch sensor first wins. • Place two Fencing Bots in 'START' position facing each other. • Control the robots to move forward, backward and attack to get 3 points first. •...
  • Page 173 > ◈ Check before Coding Mission •Check if Scratch Builder is installed before Coding Mission. •Download Scratch Builder from the Robobuilder site and install. (Download the most recent version in Support-Software at www.robobuilder.net.) •Download other detailed explanation at the website.
  • Page 174 (press # + 4 button on the remote to run the uploaded code). ◈ Any questions about Coding Mission? •For any questions about robot coding mission, visit Support-Technical support at www.robobuilder.net. •Download the 'Scratch Builder' manual on the website. (Download the Scratch Builder manual in Support-Manual at www.robobuilder.net.)
  • Page 176 11. Helicopter Fly to the sky. What? Leonardo da vinci? Dubdubdub~ my helicopter coming out! He was the first one My helicopter robot is to invent the shape of called Leonardo da vinci helicopter! helicopter! What does the first air vehicle look like? After that, flight vehicle with two wings First air vehicle is hot-air were developed.
  • Page 177 Today's Robot Class A helicopter is an aircraft with long blades on top that go round very fast, but the speed is a bit slower than regular airplanes. It can stay still in the air and move straight upwards or downwards.
  • Page 178 Robot Assembly Prepare robot parts. Smart controller X1 R. motor (ID29, 30) X2 Battery case X1 LED X1 1×3 frame X2 1×5 frame X3 1×8 frame X2 1×12 frame X2 2×5 frame X2 2×7 frame X3 2×9 frame X4 2×15 frame X4 3×5 frame X1 3×7 frame X1 3×9 frame X4...
  • Page 179 Step 1 2×15 frame X4 5×5 frame X1 Double rivet X4 Step 2 R. motor (ID30) X1 3×5 L frame X1 2s rivet X3 3s rivet X4 Use a rotation motor (ID30).
  • Page 180 Step 3 2×7 frame X2 3×5 frame X1 3×7 frame X1 Double rivet X8 Step 4 R. motor (ID29) X1 1×3 frame X2 1×5 frame X1 Use a rotation 3×5 L frame X1 motor (ID29). 2s rivet X3 3s rivet X2 Double rivet X6...
  • Page 181 Step 5 Assemble two sets. 1×12 frame X1 2×5 L frame X2 Double rivet X4 Step 6 Smart controller X1 Battery case X1 3×9 frame X1 5×5 frame X1 2s rivet X5 Double rivet X6...
  • Page 182 Step 7 Step 5 LED X1 3×9 frame X1 2s rivet X2 Double rivet X4 Step 8 2×9 frame X2 3×9 frame X1 2×4 L frame X1 3×6 L frame X2 2s rivet X4 3s rivet X1 Double rivet X4...
  • Page 183 Step 9 2×9 frame X2 3×9 frame X1 2×4 L frame X1 3×6 L frame X2 2s rivet X4 3s rivet X1 Double rivet X4 Step 7 Step 10 1×5 frame X1 1×8 frame X1 2×5 frame X1 Double rivet X10...
  • Page 184 Step 11 1×5 frame X1 1×8 frame X1 2×5 frame X1 Double rivet X10 Step 8 Step 12 2×7 frame X1 3×5 L frame X2 Double rivet X4...
  • Page 185 Step 13 Hinge A Hinge B Hinge B Hinge A Hinge A X2 Hinge B X2 Step 12 Double rivet X10 Step 11 Step 14 3s rivet X2 Step 2 Double rivet X4 Step 4...
  • Page 186 Step 15 Carefully look at the cable position and direction! Power R. motor (ID30) R. motor (ID29) ★ 'Helicopter' ready! ★ completion...
  • Page 187 Robot Experience Set-up 'Helicopter' robot model. There are various LEDs and buttons in smart controller. LED indicates input or output value like monitor while buttons work as the keyboard for PC. Button P LED1, LED2, LED3 from left side Button 1, 2, 3 from left side First : Turn on the smart controller to enter <set-up mode>.
  • Page 188 Check movement and assembly. 1. Press button, or button, to see how it moves. How are the movements similar or different? (1) Similarity : (2) Difference : 2. Match the buttons on the IR remote controller to corresponding motions. Helicopter wing rotates to the right and the left repeatedly.

  • Page 189: Helicopter

    Robot Play Helicopter game Place 'Helicopter' robot on the center. Put the arrow symbol on one side of Helicopter wing as below, then control the helipcopter to attack or defend. Stop the helicopter wing, and attack or defense according to the •...
  • Page 190 < Rotate and stop > ◈ Check before Coding Mission •Check if Scratch Builder is installed before Coding Mission. •Download Scratch Builder from the Robobuilder site and install. (Download the most recent version in Support-Software at www.robobuilder.net.) •Download other detailed explanation at the website.
  • Page 191 (press # + 4 button on the remote to run the uploaded code). ◈ Any questions about Coding Mission? •For any questions about robot coding mission, visit Support-Technical support at www.robobuilder.net. •Download the 'Scratch Builder' manual on the website. (Download the Scratch Builder manual in Support-Manual at www.robobuilder.net.)

  • Page 192: Imagine Robot 2

    12. Imagine Robot. My own robot PART 2 Yes! Robot that can light What kind of robot should I build today? up and can move itself would be great. What about a car with What about a robot that lights light or a walking street lamp? up in the dark?
  • Page 193 Creative Robot Class Write a report on <My own robot PART 2>. My robot is called ★ Why did you build this robot? How did you build your robot? What kind of function does it have? Problem / Solution Something you learned while building the robot...
  • Page 194 Post the picture of your own robot below. ◈ Describe your own robot. Very Very easy Easy Average Difficult • difficult Robot level? • What was the most fun about it? • What was the most difficult thing? • Check your robot with your teacher.
  • Page 195 Set-up RQ + robot project model Smart controller mode becomes <set-up mode> when you turn on the power. You can select a robot model and sensors. Smart controller mode becomes <standby mode> when you press button P. LED light stops blinking in set-up mode (some excluded) while LED blinks in standby mode.
  • Page 196 Set-up RQ + robot sensor As you have done for RQ + robot model set-up, select <set-up mode> in smart controller. Connect your senor (IR sensor or touch sensor) to the sensor port. Sensor port 1, Sensor port 2. Sensor port 3, Microphone Sensor port 4.
  • Page 197 Sensor port 3 LED off Each LED light color IR sensor, Mic (Sound sensor), Touch sensor Light sensor, Distance sensor ON (Lowest sensitivity) ON (Low sensitivity) ON (Medium sensitivity) ON (High sensitivity) ON (Highest sensitivity) Sensor port 4 LED off Each LED light color IR sensor, Mic (Sound sensor), Touch sensor...
  • Page 198 Set-up RQ + robot output device As you have done for RQ + robot sensor set-up, select <set-up mode>. Connect output device (rotation motor, smart servo, LED, Buzzer) as below. R. motor 29, Buzzer R. motor 30. LED 1, LED 1, R.
  • Page 199 LED1 LED off Each LED light color LED OFF LED red ON LED blue ON LED red and blue ON LED2 LED off Each LED light color LED OFF LED red ON LED blue ON LED red and blue ON Buzzer (Melody) LED off Each LED light color...
  • Page 200 TEL : +82-2-3141-5101 E-mail: sales@robobuilder.net Copyright by ROBOBUILDER CO., LTD. All rights reserved. Printed in Korea. No part of this publication may be reproduced or distributed in any form or by any means, without the prior written permission of the publisher.

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