Page Order Index & Product Features
P1
Suggestions to Parents & Safety Guidelines
P2
Parts List & Planetary Gear Motor Box
P3
Brief History of Robots & Brief History of Programming Languages
P4
Ultrasonic Sensor and Radars & Bluetooth
P5
How to Download the Free App
P6
Control Instructions
P7
How to Save Programs
P8
How to Program
P9-11
Write Music and Pause Program
P12
How to Adjust the Parameters of the Ultrasonic Sensor
P13-14
Notes for Assembly & Flexible Drive Shaft
P15
Model 1 Rescue Robot
P16-23
Model 2 Catapult
P24-28
Model 3 King Crocodile
P29-35
Model 4 Mechanical Dog
P36-43
Model 5 Mechanical Battle Beetle
P44-52
Model 6 Mechanical T-Rex
P53-59
Model 7 Tiltrotor Aircraft
P60-68
Model 8 Robot
P69-74
Product Features ˙ The characteristics of the blocks allow you to create a truly unique robot. ˙ Gigo's technology department has adapted to modern trends by combining smartphones and tablets that allow users to download free apps that let them design models with the automatic program. ˙ The ultrasonic sensor lets children understand the principles of radar. ˙ The specially designed battery box turns on power by lightly shaking the model. After 60 seconds of cease to operate, the power shuts off to save power.
Learning ˙ The 74 page colour instruction manual demonstrates the assembly of eight models so that kids can learn and practice the basics through joyful experimentation. ˙ Aside from detailed assembly instructions, the manual also includes principles and applications, so that children can learn about ultrasonic sensors and coding through play. ˙ This product includes machines, ultrasonic sensors, bluetooth technology, and app coding, to give children a full educational experience in becoming young coders.
Innovation ˙ From action to innovation, add in your unique experiences and thoughts to guide children to inject their unique ambi1 tion and creative thinking to develop even more models and create their own robots.
Suggestions to Parents ˙ This science experiment play set lets your children learn the concepts of gears and machinery through play. The many steps of assembly can develop a child’s thinking ability and further lead them into the realm of science. ˙ Carefully read the safety warnings in the manual. We suggest that you assemble models according to the steps in the manual. You will quickly understand how to put the components together and furthermore create the types of models that you want. ˙ This toy set is suitable for children aged 8 and above. It allows children to explore machines and gears through the process of exploration and assembly of various models. ˙ Please teach your children battery precautions before they start assembling models. ˙ Do not place wires or other items in household sockets. This is very dangerous. The models are only suitable for use with ordinary batteries (1.5-Volt, AA/LR06).
Safety Guidelines
Product Cleaning
˙ Loading and removing the battery should be carried out by an adult.
˙ Please remove the battery from the battery box before cleaning it.
˙ Pay attention to the positive and negative polarity of the battery.
˙ Use a slightly damp cloth to clean the parts. ˙ Do not use detergent.
˙ Alkaline batteries are recommended. ˙ Different types of batteries or new and used batteries are not to be mixed. ˙ Use only recommended or similar type batteries. ˙ The supply terminals are not to be short-circuited. A short-circuit can cause the wires to overheat and the batteries to explode. ˙ Exhausted batteries are to be removed from the toy. ˙ Remove the battery when you've done playing. ˙ Dispose of used batteries in accordance with environmental provisions, not in household trash.
Warning This set of toys is not suitable for children under three years old. Young children might swallow the small parts. Keep toys in a place that children can't reach.
Caution Incorrect use of batteries may cause leakage, which could damage the surrounding environment, cause a fire or result in personal injury.
2
Parts List NO
1
2
12
13
3
14
21
31
41
51
5
15
32
42
52
43
6
16
33
44
53
34
45
7
18
24
54
20
27
26
36
37
48
47
11
10
19
25
35
46
9
8
17
23
22
30
40
4
29
28
38
49
39
50
55
Planetary Gear Motor Box Aside from the 40X motor box in this set, we have also used a planetary gear shift motor box. The central transmission axis of this motor box is connected to the central gear. When the central gear turns, it moves the surrounding gears and turns them similar to a planetary orbit, hence the name.
PART NAME
MAX
1 Axle connector 2 Axle 3 Cam connector 4 3-Hole rod 5 3-Hole rod (side 2-hole) 6 Dual rod 7 3-Hole round rod 8 3-Hole round rod 9 5-Hole rod (side no hole) 10 5-Hole rod (side no hole) 11 5-Hole rod (side 2-hole) 12 5-Hole rod (side 2-hole) 13 5-Hole dual rod (no hole on the button) 14 5-Hole dual rod (side 2-hole) 15 5-Hole dual rod (side 2-hole) 16 7-Hole round rod 17 7-Hole round rod 18 7-Hole prolate rod 19 Rod 20 Square frame (side no hole) 21 Square frame 22 Dual frame (side no hole) 23 Long rod 24 Motor Axle 25 S DR. Axle 30mm 26 DR. Axle 100mm 27 90 degree converter(L) 28 90 degree converter(R) 29 90 degree converter(R) 30 S gear 31 Worm gear 32 Bar 33 O ring 34 S pulley 35 Shell side curve(L) 36 Shell side curve(R) 37 Vibro leg(L) 38 Vibro leg(R) 39 Teiangle connector 40 Hollow tube-30mm 41 Hollow tube-20mm 42 Extra loose peg 43 Peg 44 Two-in-one converter 45 Button fixer 46 Peg/Axle remover 47 Planetary gear motor box 48 M gear (4-hole) 49 40X motor 50 DR. Axle 65mm 51 Tooth upper 52 Tooth lower 53 BT Receiver (motor x2+sensor x1) 54 Ultrasonic sensor 55 Flexible drive shaft
18 8 9 1 5 2 2 6 1 4 2 2 6 2 2 2 6 3 2 2 1 2 2 4 1 1 4 4 6 8 1 1 2 2 3 3 1 1 6 4 1 6 51 4 4 1 1 10 1 3 1 1 1 1 2
The central gear is called the sun gear; the surrounding gears are planetary gears and the outer rim contains ring gears.
40X motor
Planetary gears Sun gear Ring gears
3
In this experiment module, we’ve utilized a special set of electric motor components as can be seen in the structural diagram. There are 3 sets of intermeshing gears in the EV motor: The speed ratio of gears A are 22:8 The speed ratio of gears B are 28:8 The speed ratio of gears C are 32:8
A
B
C
Brief History of Robots Robot This includes all machinery that simulates living organisms, whether it is human, cat, or dog. In industries, the manmade mechanical devices that automatically execute commands are also called robots; they are used to help or replace humans in work and are controlled by computer programs. After the industrial revolution, robotics technology greatly improved and much automatic equipment became commonplace. The first automatic robot was invented in 1984 by Englishman, William Grey Walter. He was a neurological scientist and he built a robot with two sensors and a neuron (this was the pioneer of future social robots). An American, George Devol, invented the ďŹ rst robot with programmed code (strictly speaking it was a robotic arm that could repeat functions such as "grab" and "grip"). This was a critical milestone in the history of robotics and greatly changed industrial technology. The development of robots continues and today's robots can do simple tasks. We are sure that in the near future we will be able to see robots that completely mimic human function.
Brief History of Programming Languages Anyone who has learned programming has heard of the name Ada Lovelace. She studied using machines to compute Bernoulli numbers and this is regarded as the world's ďŹ rst prototype of computer programming. Her research was an important reference for the development of future computer programming. Programming languages are basically a type of code. They existed long before computers. The Jacquard loom invented in 1801 utilized coding methods to allow hole punchers to automatically produce cloths with decorative embroidery. The rise of computers allowed for a more precise way to process the code of programming languages. In turn, this allowed programs to become more complex and machines to automatically execute more precise actions. The computer activities we are so used to, including web pages, games, and today's smartphone apps, are all built using programming languages. Writing programs was always done using text and numbers, but some programming languages are being built with graphical user interfaces to make operation easier.
4
Ultrasonic Sensor and Radars This is a common occurrence in nature. Bats, whales, and certain insects can use sonar to detect "see" the obstacles in front of them. When sound waves hit an object, they use the distance and force of the sound wave's reflection to detect the object's size, direction, and speed. Through the use of sonar detection, they can even hunt their prey in total darkness and do not require the sense of sight. Humans have discovered a way to apply these principles in technologies widely used in submarines, cruise ships, and planes, in devices we call "radar". The invention of radar allowed pilots to avoid collisions with other planes under conditions of poor visibility - such as flying through mist. Police also use radar to detect the speed at which cars travel. Using this method, they can catch speeding cars! Humans cannot hear sonar because the structure of the human ear cannot process sound waves that are too fast or at high frequencies. However, the machines humans invent can. In your assembled models, the robot's head has a ultrasonic sensor. One eye is the blaster, while the other eye is the receiver. This design allows your robot to "see" obstacles in front of it even in total darkness. Maybe you can try operating it in a completely dark room and see how it works?
Bluetooth Bluetooth is a wireless technology that allows two mobile devices to exchange data over a short distance by forming a local area network and using wireless radio waves to communicate; it was invented in 1994. Bluetooth technology is currently managed by SIG who are responsible for all technological standards. Globally, over 20,000 companies are members.
5
The term bluetooth is a derivative of ancient Nordic words Blåtand/Blåtann. The symbol for bluetooth is the combination of Hagall and Bjarkan , or basically a combination of the first letters of the words Harald Blåtand.
Downloading the Free App Before you begin assembly, please download the robot control app "Smart Machines". ˙ If you are using the iPhone or iPad series of products, you can download the app from the App Store. ˙ If you are using an Android system, connect to Google Play to download the app. ˙ iOS devices must support Bluetooth 4.0 with a suggested operating system version of iOS 8 or above. ˙ Android devices must support Bluetooth 4.0 with a suggested operating system version of 4.3 or above.
ios
Android
A
B
Follow the steps below: 1.Switch on your tablet or smartphone. 2.Scan the QR code A: This page will direct you to the App Store to download the app. Scan QR code B: This page will direct you to Google Play to download the app. 3.If you don't have a QR code reader installed, go to the website below to download the app iOs:https://goo.gl/jgaHf5,Android:https://goo.gl/pibwjx 4.After the download is complete, open the app. 5.After execution, the first page you'll see will show a control panel.
Control panel
6
Control Instructions You can now control the model.
1 The first step is to connect to the model via
Bluetooth
Menu
bluetooth. Press the top left button and when the link connection is successful, the image will flash.
2 When bluetooth has been successfully linked, the bluetooth symbol on the upper left corner will stop flashing. At this point, the model's motor will automatically spin for one second to signify that the link is successful. ※ If you press again, it will disconnect the taplet and robot. Remember to do this.
3 When bluetooth is connected, it means the ultrasonic sensor's "radar" function has been activated.
Motor 1
Radar sensor ring
Motor 2
4 When the ultrasonic senses a nearby obstacle, you'll see the radar sensor ring become smaller and when the ultrasonic sensor is held far away, the radar sensor ring expands. Use different objects or walls to experiment! Open menu
5 If you have assembled a model and successfully connected to bluetooth, use your two thumbs to control the remote and operate the two motors. ※ Left: motor 1
Forward
Right: motor 2
6 If you want to use the program design function, press the button on the upper right corner and it will display a row of windows. Select Program 8 to move on to the next step ※Programs 1-7 are default programs. You can use the blank Program 8 for the instructional steps below. .
7
Backward
How to Save Programs Next, we are going to teach you how to edit programs. Before we start, let's learn how to save files (or your hard work and programs will be for nothing).
1 When you go into Program 8, you will see the screen on the right.
2 If you want to save programs you've written, just press
and a confirmation window will appear.
※ Your saved files will overwrite the current program and cannot be saved to another program.
3 If you want to see another program, press
and
choose from these windows. ※ Similarly, when you select Program 1, your saved files will be written to Program 1.
4 If you want to exit the coding program and return to the robot controls, just press and a confirmation window (diagram) will appear; press to leave.
8
How to Program 1 You are now ready to write your first program, please press
.
2 Program windows 1-8 will appear. 3 Programs 1-7 are the default programs we have set up. After you've assembled each model, try playing with them using their programs.
4 If you want to write your own code, use Program 8 as it is empty. Now let's press it.
5 This is Program 8's editing page.
6 First step, press
.
7 The window on the right will appear with three options: 一、
Programming the motors.
二、
Design some music.
三、
Write a pause program (e.g. that means after completing an action, then pause for 3 seconds then execute the following command).
8 If you press
, the motor program editing page will appear (right diagram). Here you can change the settings below: •Motor 1 (blue) actions •Motor 2 (red) actions •The program's execution time
9
9 Press
to make the motor do a forward turn. Press multiple times for more squares, so the motor will turn at a higher speed.
Press to make the motor do a reverse turn; similarly, pressing more squares signiďŹ es the motor will turn at a higher speed.
10 You can simultaneously setup motor 2. If you only program one motor then only that one motor will operate. If you setup both, then both motors will operate. ”The numbers on the motor represent speed; the positive or negative numbers represent forward or reverse operation.
11
can be dragged with your finger to adjust the length of execution time.
12 When you have completed the settings, press
.
10
13 Next, the motor's square block will appear (as in the right diagram). Now you've completed programming the ďŹ rst motor, you can press to add operation settings for the next step.
Operating motor
Speed
Length of time (seconds)
14 If you want to modify the program you've just edited, press the motor block next page.
and you will go to the
15 Here you can make adjustments, edits, or even delete this program. Just press corner to delete.
on the lower left
16 If you want to delete a series of programs, just pess
on the right.
If you want to delete a page of programs, just press on the upper left. If you want to back to the set you saved last time, just press .
11
Write Music and Pause Program 1 If you want to write a music program, press
.
2 You will be taken to another window where you can design your music or voice program. Press the Do-Re-Mi and other musical symbols to write a piece of music. You can paste the music program into the middle of the motor operation program.
3 Use
to drag and set
the length of the musical symbols, then press to confirm.
4 The final option is to write a pause program. Press
and a new window will appear.
5 Use
to drag and set
the length of the pause. Press to confirm.
12
How to Adjust the Parameters of the Ultrasonic Sensor This program allows you to set the distance at which the model detects obstacles and how it reacts.
1 Return to the first editing page (right diagram).
2 When you press
, the upper left corner will display the sensor's read distance. ”If your loop contains an edited program, the model will complete the action before reading.
3 Afterwards, you will see the screen display (right diagram). The image has turned from 0 rotations to 18, meaning the distance between the model and obstacle is 18 cm.
13
4 Use
to set limits, such as less than 10 cm, or more than 30 cm (right diagram). You can drag the icon to decide what actions are executed at different distance conditions. In other words, you can set the sensor to detect at specific distances and to execute specific actions.
ex: ˙ Initiate the model
˙ Set the limit at a distance between 0-30 to execute these specific actions ˙ Set to execute specific actions at a distance of 31-50
※The check mark represents you want a full loop of these specific actions (not checking it means to stop after execution is complete)
5 If you want to increase the distance of the limit, simply use the icon
to setup.
6 As shown in the image on the right, the seven limits have completed setup.
※ When you have over four limits, scroll more options.
or
14
Notes for Assembly a
c
b
1. Use the "A" end of the Peg/Axle remover to pull off the peg (Fig. a). 2.Use the "B" end of the Peg/Axle remover to pull out the axle (Fig. b). 3.Use the "B" end of the Peg/Axle remover to pull off the button fixer (Fig. c).
When attaching a gear or a tire to the framework with a drive axle, be sure to keep a gap of about 1 mm between the gear or the tire and the framework to decrease the friction caused in operation so that smooth motion can be assured.
How to remove the battery
BT Receiver The centre of the BT Receiver is connected to the ultrasonic sensor The left side connects to motor 1 The right side connects to motor 2
Use the "B" end of the peg/axle remover to take out the battery.
You can label the battery box with red and blue symbols to help you keep track of which motor is operating according to your program.
Flexible Drive Shaft The transmission shaft is between the gear and gear shaft and provides power. Standard transmission shafts are as shown in diagram 1. Flexible drive shafts have the characteristic of being easily adjustable over distance and are greatly changeable, as shown in diagrams 2, 3, and 4. Another advantage is its flexibility. It can absorb impact and reduce vibrations. That is why flexible drive shafts are commonly used in transportation vehicles such as cars and scooters.
15
(diagram 1)
(diagram 2)
(diagram 3)
(diagram 4)
Monkeys Rescue Robot
模型 1
1
2
3
5
6
7
8
x1
x2
x2
x3
x2
x2
x5
19
20
x2
x2
21
22
9
10
11
x1
x2
x1
24
26
x1
x2
38
x1
13
x3
15
x2
27
28
29
30
x2
x4
x4
x5
16
17
x2
x6
18
x2
33
34
37
x2
x2
x1
x1
39
40
42
43
44
x2
x2
x6
x30
x2
x1
47
x1
48
50
49
x1
x4
53
54
x1
x1
x1
Rescue Robot The rescue robot is a genius robot. You can put a smartphone on his chest and use this smartphone to video chat with another computer; you can then use the computer to see what the robot is doing. These rescue robots are used in many rescue sites. If a collapse has made it impossible for rescuers to enter, they use rescue robots to scout ahead and gain more information about conditions. ※ Play with control instructions (p7) Motor 1: forward and reverse Motor 2: rotate and change direction
16
Rescue Robot
A
Model
1
1
2
3 03
4
17
Model
Monkeys Rescue Robot
1
6 5
7
8 08
38 37
37
37
38
18
Rescue Robot
Model
B
1
9
10
11
12
19
Model
1
Monkeys Rescue Robot
13
14
15
16
20
Rescue Robot
Model
1
18
17
20
19
2 sets
Connect to hole B
Assembly reminders Pay attention to the labels and positioning of the English letters on Hole B the gear holes as they are helpful in the assembly process.
21
21 Hole B
Model
1
Monkeys Rescue Robot
22
23
24
A 25 B
22
Rescue Robot
Model
1
54
26 26 47
47 Planetary gear motor box’s wire 47 行星齒輪馬達盒接線
54 Ultrasonic sensor’s wire 54 超音波感測器接線
COMPLETE 23
49 40X motor’s wire 49 40倍馬達盒接線
49
Model
1
3
5
8
13
x3
x4
x2
x3
x1
25
27
31
43
x1
x2
x1
x11
16
17
x1
x1
47
48
x1
x2
19
x2
49
x1
20
21
x2
x1
2
22
x2
53
54
55
x1
x21
x1
Monkeys Catapult
23
x2
24
x1
Catapult The catapult allows for a fun game. After a program is written, it can scan for intruding enemies! When the enemy draws near, aim and fire! Try it. Can you sneak in undetected? Caution Don’t aim to the eyes
※ This program is preloaded in the app under Program 1. You can edit with your own programs and music.
24
Catapult
Model
2
1
A
2
Assembly reminders Pay attention to the labels and positioning of the English letters on the gear holes as they are helpful in the assembly process.
Hole A
Hole B
Hole B
Connect to hole B
Connect to hole B Hole C
B
25
3
Model
2
Catapult Monkeys
4
5
6
7 Assembly reminders Pay attention to the labels and positioning of the English letters on the gear holes as they are helpful in the assembly process.
Hole A
Hole B
Hole B
Connect to hole B
Hole C
26
Catapult
Model
2
9
8
Connect to hole A
Assembly reminder s Pay attention to the labels and positioning of the English letters on the gear holes as they are helpful in the assembly process.
Hole A
11 10
47 Planetary gear motor box’s wire
27
54
Ultrasonic sensor’s wire
49 40X motor’s wire
Model
2
Catapult Monkeys
13
12 A
14 A
B
COMPLETE 28
King Crocodile
1
2
3
x2
x6
x6
21
x1 47
x1
Model
3
5
6
7
8
10
x5
x2
x2
x6
x2
22
23
24
25
27
x1
x4
x1
x2
x2 48
x7
13
x1 29
x4
14
16
17
x2
x1
30
35
x1
53
54
x1
x1
x5 36
20
19
x2
x5 x3
49
18
x2
x2
39
42
43
44
x6
x6
x51
x2
x3
King Crocodile This mechanical crocodile program makes it shake its tail as a warning. When an obstacle draws near, it opens its mouth to scare off enemies. Crocodiles give the impression of being scary and aggressive animals. Many movies use crocodiles as a horror theme. Few people know that crocodiles have a very strong immune system. Scientists have found that the strong immune system of crocodiles can destroy the Aids virus (HIV) and that some proteins in the blood of crocodiles can kill Staphylococcus aureus.
” This program is preloaded in the app under Program 2. You can edit with your own programs and music.
29
Model
1
3
Monkeys King Crocodile
3 2
2 sets
2 sets
4 Assembly reminders Pay attention to the labels and positioning of the English letters on the gear holes as they are helpful in the assembly process .
Hole B
Hole B
Connect to hole B
5
Connect to hole B
6
30
King Crocodile
Model
3
7
8
10
9
11
31
Model
3
Monkeys King Crocodile
12 13
14 Connect to hole C
15
Assembly reminder s Pay attention to the labels and positioning of the English letters on the gear holes as they are helpful in the assembly process. Hole C
32
King Crocodile
Model
3
16
17
2 sets
18
19
20 Assembly reminders Pay attention to the labels and positioning of the English letters on the gear holes as they are helpful in the assembly process .
Connect to hole B
Connect to hole B
Hole A
Hole B
Hole B
Hole C
33
Model
21
3
Monkeys King Crocodile
22
Connect to hole C
Assembly reminder s Pay attention to the labels and positioning of the English letters on the gear holes as they are helpful in the assembly process. Hole C
23
34
King Crocodile
Model
3
24
25
47 Planetary gear motor box’s wire
COMPLETE 35
54
Ultrasonic sensor’s wire
49 40X motor’s wire
Model
1
2
x13
x2
3
4
5
x4
x1
x3
19
20
x2
x2
7
8
x2
x6
6
x2
22
x2
9
10
x1
x4
11
12
x1
13
x1
14
x3
16
x1
24
27
28
29
30
31
33
x1
x4
x2
x1
x2
x1
x2
Monkeys Dog Mechanical
4
17
x6
x2 34
x2
18
35
x1 36
x1
x1 37
x1
38
x1
39
40
42
43
44
x4
x2
x6
x37
x4
47
48
x1
x5
49
50
51
52
x1
x1
x1
x1 53
54
55
x1
x1
x2
Mechanical Dog You can write a program to make this mechanical dog go forwards and backwards. It will go towards you and sit down in front of you. Many mechanical pet products have been trending in the world. Aside from being new and fun, many people think that mechanical pets have advantages, such as not needing to clean up after them.
” This program is preloaded in the app under Program 3. You can edit with your own programs and music.
36
Mechanical Dog
Model
4
A
2
1 2
1
3
37
4
Model
4
Monkeys Dog Mechanical
5
B
6
7
Connect to hole B
Assembly reminders Pay attention to the labels and positioning of the English letters on the gear holes as they are helpful in the assembly process.
Hole A
Hole B
Hole B
Connect to hole B Hole C
38
Mechanical Dog
Model
4
8
Side View
9
2
1
1 37
10
39
Model
Monkeys Dog Mechanical
11
C
12 Connect to hole B
4
Connect to hole B
Assembly reminders Pay attention to the labels and positioning of the English letters on the gear holes as they are helpful in the assembly process.
Hole A
Hole B
Hole B
Hole C
13
40
Mechanical Dog
Model
4
14
15
Side View
16
17 C
41
18
Model
19
4
Monkeys Dog Mechanical
A
C
20
21 Side View
B
22
42
Mechanical Dog
Model
4
23
Side View
47 Planetary gear motor box’s wire
54
Ultrasonic sensor’s wire
COMPLETE 43
49 40X motor’s wire
Model
1
2
x18
x8
3
x9
22
4
5
7
8
x1
x2
x1
x6
24
25
27
29
30
x3
x1
x2
x4
x8
48
x10
9
10
13
16
17
20
21
x1
x4
x6
x2
x3
x2
x1
35
36
x2
x2 49
x1
Monkeys Monkeys Mechanical Battle Beetle 5Model
50
53
54
x3
x1
x1
x2
37
38
x1
x1
39
42
43
44
x6
x4
x12
x2
47
x1
Mechanical Battle Beetle The battle beetle robot program will make it walk until it detects an obstacle. When it does, it will swing its claws and ap its wings to scare you off. If you continue to go near it, the beetle will back off and keep a distance from you. If you remove obstacles, it will continue to move forward.
” This program is preloaded in the app under Program 4. You can edit with your own programs and music.
44
syekn oM 5 Model Mechanical Battle Beetle
2
1 6 sets
3 4
5
45
Model
5
Monkeys Battle Beetle Mechanical
6 7
8 pull the wire through the square frame
Assembly reminders Pay attention to the labels and positioning of the English letters on the gear holes as they are helpful in the assembly process.
9
Hole A
Hole B
Hole B
Hole C
Connect to hole C
46
syekn oM 5 Model Mechanical Battle Beetle
10
12 11
13 Hole C
Hole C Hole C
Hole C Hole C
47
Hole C
Model
5
Monkeys Battle Beetle Mechanical
Assembly reminder s Pay attention to the labels and positioning of the English letters on the gear holes as they are helpful in the assembly process.
14
Hole C
Connect to hole C
Connect to hole C
Turn out
Turn out Connect to hole C
15
View from above
Connect to hole C
Connect to hole C Turn out
Connect to hole C
Turn out
48
syekn oM 5 Model Mechanical Battle Beetle
16
17
View from above
18
Assembly reminder s Pay attention to the labels and positioning of the English letters on the gear holes as they are helpful in the assembly process. Hole C
19
Side View
49
Connect to hole C
20
Connect to hole C
Model
21
5
Monkeys Battle Beetle Mechanical
Side View
22
50
syekn oM 5 Model Mechanical Battle Beetle
23
24
51
Model
Monkeys Battle Beetle Mechanical
5
25
49
54
pull the wires through the square frame
47 Planetary gear motor box’s wire
54
Ultrasonic sensor’s wire
49 40X motor’s wire
COMPLETE
52
syekn oM 6 Mechanical T-Rex
Model
1
2
3
5
6
7
8
9
10
12
13
x11
x2
x2
x5
x2
x2
x4
x1
x4
x1
x6
24
27
28
30
31
32
33
34
x2
x4
x2
x4
x1
x1
x2
x2
20
22
x2
x2
37
38
23
x2
53
x1
x2
15
16
x2
18
17
x2
x4
x1 35
39
40
x4
41
x1
42
x2
43
44
x46
x2
47
x1
x1
48
49
x3
19
x2 36
x3
x6 x1
14
50
51
x1
x1
x3 52
x1
x1 54
x1
55
x1
Mechanical T-Rex Children, have you seen mechanical dinosaurs? Modern technology is very advanced and some children's theatres use robot dinosaurs to perform. These mechanical dinosaurs move on stage and emit sounds in a lifelike manner.
53
” This program is preloaded in the app under Program 5. You can edit with your own programs and music.
Model
1
6
Monkeys T-Rex Mechanical
Connect to hole A
2 Assembly reminder s Pay attention to the labels and positioning of the English letters on the gear holes as they are helpful in the assembly process.
Hole A
3
5
4
6
41
Hollow tube-20mm
54
syekT-Rex noM 6 Mechanical
Model
7
Hole C
30
Hole C
8
55
SMALL GEAR!!
Model
6
Monkeys T-Rex Mechanical
10
9
11
12 37
38
37
37
38
56
syekT-Rex noM 6 Mechanical
Model
13
Connect 連接 to hole C 連接C孔
14
Assembly reminder s Pay attention to the labels and positioning of the English letters on the gear holes as they are helpful in the assembly process. Hole C
15 38
38
37 37
57
38
Model
6
Monkeys T-Rex Mechanical
16 17
Connect to hole C 連接C孔
49
Assembly reminder s Pay attention to the labels and positioning of the English letters on the gear holes as they are helpful in the assembly process. Hole C
18
58
syekT-Rex noM 6 Mechanical
Model
19
pull the wires through the square frame Side View
55
47 Planetary gear motor box’s wire
54
Ultrasonic sensor’s wire
49 40X motor’s wire
COMPLETE 59
Model
1
3
5
x1
x6
x4
19
x2 35
x3
36
x3
6
7
8
x1
x1
x3
20
21
22
x2
x1
x2
37
x1
38
11
10
12
13
14
x2
x4
x1
x2
x2
23
24
26
27
x2
x2
x1
x4
47
48
39
40
42
43
44
x6
x2
x6
x33
x4
x1
x1
x7
7
Monkeys Tiltrotor Aircraft
15
x2
17
18
x5
x2
30
28
x1
x5
49
x1
31
34
x1
x2
53
54
x1
x1
55
x2
Tiltrotor Aircraft This unmanned smart helicopter program can activate rotor blades. V-22 is the U.S. military's new generation transport. When on the ground, its two rotors are vertical to the ground like a helicopter. It uses the principles of a helicopter to take ight. The rotors will then turn like the propellers of a plane to propel the V-22 into ight. When writing the program, the rotation speed and angles of the helicopter's rotors can be adjusted. When landing, the sensor will detect the ground and deploy landing gear.
” This program is preloaded in the app under Program 6. You can edit with your own programs and music.
60
Tiltrotor Aircraft
Model
1
7
2
3
4
5 6
61
Model
7
Monkeys Tiltrotor Aircraft
7
8
Assembly reminders Pay attention to the labels and positioning of the English letters on the gear holes as they are helpful in the assembly process .
Hole A
Hole B
Hole B
Hole C
View from above Hole B
9 Hole B
62
Tiltrotor Aircraft
7
Model
10
Hole B
Hole B
11
12
2 sets
2 sets
13 2 sets
ct ne on
C to le
ho B
14
Connect to hole B
63
Assembly reminders Pay attention to the labels and positioning of the English letters on the gear holes as they are helpful in the assembly process .
Hole B
Hole B
Model
7
Monkeys Tiltrotor Aircraft
15
Connect to hole B
Assembly reminders Pay attention to the labels and positioning of the English letters on the gear holes as they are helpful in the assembly process .
Hole B
Hole B
16
17 18
64
Tiltrotor Aircraft
Model
19 2 sets
7 Assembly reminders Pay attention to the labels and positioning of the English letters on the gear holes as they are helpful in the assembly process.
Hole A
Hole B
Hole B
Hole C
Connect to hole B
20
21
65
Connect to hole B
Model
7
Monkeys Tiltrotor Aircraft
22
23
24
25
66
Tiltrotor Aircraft
26
Model
7
27
28
29
67
Model
7
Monkeys Tiltrotor Aircraft
30 47
47 Planetary gear motor box’s wire
54 49
54 Ultrasonic sensor’s wire
49 40X motor’s wire
COMPLETE
68
8
Model
Robot
1
2
3
4
5
6
7
8
x3
x2
x4
x1
x5
x1
x1
x6
20
21
x2
x1
22
23
x2
37
38
x1
x1
x1
39
40
x6
x2
53
54
55
x1
x1
x2
10
11
x2
24
25
27
x2
x1
x2
12
x1 28
x3
41
42
43
44
45
x1
x5
x49
x2
x4
x2
29
30
x6
x8
13
15
x4
x2
16
x1
17
18
19
x6
x1
x2
31
32
33
34
x1
x1
x2
x2
47
48
x1
x7
49
x1
35
x3
36
x3
50
51
52
x3
x1
x1
Robot This is a small robot equipped with a ultrasonic sensor so that when it moves forward it will not hit any obstacles. When it detects an obstacle, it backs up then turns before continuing on its way. It's as if he can see what's in front of him! It will always turn to the right, but you can try making it turn to the left. How would you make that adjustment?
” This program is preloaded in the app under Program 7. You can edit with your own programs and music.
69
Model
Monkeys Robot
Side View
1
Hole A
Hole A
Hole A
Hole A
Assembly reminder s Pay attention to the labels and positioning of the English letters on the gear holes as they are helpful in the assembly process.
8
Hole A
Hole A
Hole A
Front View
2 Right foot
3 Left foot
70
Robot
Model
8
Right foot
4
Connect to hole A
Hollow tube-20mm Assembly reminder s Pay attention to the labels and positioning of the English letters on the gear holes as they are helpful in the assembly process.
Hole A
Connect to hole A 41
Connect to hole A
Connect to hole A
5
Left foot
Left hand
6 Right hand
71
Model
7
8
Monkeys Robot
Right hand
8
Left hand
9 Connect to hole C
Assembly reminder s Pay attention to the labels and positioning of the English letters on the gear holes as they are helpful in the assembly process. Hole C
72
Robot
Model
8
10
1
73
2
3
Model
8
Monkeys Robot
Three wires pass through middle frame
pull the wires through the square frame
11
47
47 Planetary gear motor box’s wire 行星齒輪馬達盒接線
Ultrasonic sensor’s wire 54 54超音波感測器接線
40X motor’s wire 494940倍馬達盒接線
COMPLETE 74
REMOTE CONTROL MACHINES #7335R 20 Models to build 151 PCS
ANIMAL MACHINES #7336 8 Models to build 89 PCS
SAIL CAR #7401 6 Models to build 40 PCS
ULTRA LIGHT - PLANE #7402 5 Models to build 44 PCS
WIND TURBINE #7400 5 Models to build 77 PCS
SOLAR EVOLUTION #7346 5 Models to build 142 PCS
SPACE MACHINES #7337 10 Models to build 255 PCS
RUBBER BAND RACER #7403 5 Models to build 71 PCS
WATER POWER #7323 15 Models to build 165 PCS
MADE IN TAIWAN
201508 V02-02