Build Your Own 54 Super Scientific Set Instruction Manual
This set allows you to:
- Engineer 54 science and play-based activities
- Engineer a challenging game with your friends
Age Recommendation: 8+ years
Features: STEM (Science, Technology, Engineering, Maths), Battery Powered
Safety Warnings
⚠️ WARNING: CHOKING HAZARD - SMALL PARTS AND SMALL BALLS. NOT FOR CHILDREN UNDER 3 YEARS.
WARNING: FOR SAFETY REASONS, REMOVE ALL TAGS, LABELS AND PLASTIC FASTENERS BEFORE GIVING THIS TOY TO YOUR CHILD.
WARNING: DO NOT AIM AT EYES OR FACE. DO NOT USE PROJECTILES OTHER THAN THOSE SUPPLIED BY MANUFACTURER.
WARNING: BATTERIES ARE TO BE INSERTED WITH THE CORRECT POLARITY (+ AND -). DO NOT MIX DIFFERENT TYPES OF BATTERIES OR NEW AND USED BATTERIES. NON-RECHARGEABLE BATTERIES ARE NOT TO BE CHARGED. RECHARGEABLE BATTERIES ARE ONLY TO BE CHARGED BY AN ADULT. THE SUPPLY TERMINALS ARE NOT TO BE SHORT-CIRCUITED. REMOVE BATTERY FROM THE TOY WHEN NOT IN USE FOR AN EXTENDED TIME OR WHEN BATTERIES BECOME EXHAUSTED. BATTERY INSTALLATION BY AN ADULT IS REQUIRED. DISPOSE OF BATTERIES RESPONSIBLY. DO NOT DISPOSE OF IN FIRE.
WARNING: CONTAINS FUNCTIONAL SHARP POINT ON LEADS.
WARNING: HAIR ENTANGLEMENT MAY OCCUR IF THE CHILD'S HEAD IS TOO CLOSE TO THE MOTORISED UNIT OF THIS TOY. ADULT SUPERVISION AND ASSISTANCE REQUIRED.
PRODUCT MAY VARY SLIGHTLY FROM IMAGE SHOWN. PLEASE KEEP THE PACKAGING FOR FUTURE REFERENCE.
This unit is only for use by children aged 8 years and older.
Not suitable for children under the age of 3 years due to small part(s) and component(s) – CHOKING HAZARD.
Read and follow all instructions in the manual before use.
This toy contains small parts and functional sharp points on components. Keep away from children under the age of 3 years.
6 x AA size batteries are required (not included).
Please retain the information and this manual for future reference.
Instructions for parents are included and have to be observed.
This product contains small ball which may break off and cause a choking hazard. Not suitable for children under 36 months.
Do not aim at eyes and face. Do not use improvised projectiles.
Warning. Do not use close to the ear! Misuse may cause damage to hearing.
Battery Information
To insert batteries, please unscrew the battery cover with a screwdriver. Insert the required batteries in accordance with battery polarity, with the + and - ends in the right position, and then fix the screw on the battery cover to close the battery compartment case.
Diagram Description:
Step 1: Shows a battery compartment with a cover and screw. A screwdriver is shown near the screw.
Step 2: Shows the battery compartment cover removed, with batteries being inserted, indicating correct polarity (+ and -).
Step 3: Shows the batteries correctly inserted, and the cover being replaced and screwed shut.
Insert batteries only after assembling and wires are connected.
Use 6 x AA size batteries (not included).
Remove batteries when not in use.
Batteries must be inserted with the correct polarity.
Non-rechargeable batteries are not to be recharged.
Rechargeable batteries are only to be charged under adult supervision.
Rechargeable batteries are to be removed from the toy before being charged.
Different types of batteries or new and used batteries are not to be mixed.
Exhausted batteries are to be removed from the toy.
The supply terminals are not to be short-circuited.
Only batteries of the same or equivalent types are to be used.
Do not dispose of the batteries in fire.
Do not mix old and new batteries.
Do not mix alkaline, carbon zinc and re-chargeable batteries.
Warning! Do not short-circuit the battery terminals and spring connectors as this may cause overheating. Do not lock the motor or other moving parts as this may cause overheating.
Maze Challenge
Introduction
There are three basic individual units in this kit: MAZE CHALLENGE, TURBO AIR, and FLYING DISC. By changing different circuit connections and combinations, it can establish play sets of diverse functions.
To ensure the success of the ASSEMBLY, be sure to read these instructions and review the diagrams thoroughly before starting.
A Practice of Basic Circuit Connection
Below is a demonstration of connecting a simple circuit. You can start with this simple circuit as a practice before moving to other advanced circuits.
First of all, take out the components shown in the diagram from your connection kit. They may be packed in different bags. Then install them like the pictures shown.
Diagram Description:
A diagram shows a 3V battery compartment, an ON/OFF switch, a striking bell, and spring connectors connected to a box base with holes. The circuit is depicted as a loop where current flows from the battery, through the switch, to the bell, and back to the battery via spring connectors.
Components:
- a) 1 x bell module
- b) 1 x motor module
- c) 1 x box base with holes
- d) 1 x 3V battery compartment
- e) 1 x ON/OFF switch
- f) 1 x wand
- g) 6 x spring connector
- h) 1 x metal wire
- i) 1 x spring pole
- j) 1 x C-shape plastic lock
- k) 1 x colour filter
Basic Assembly
STEP 1: Place the bell module (a) onto the box base with holes (c).
STEP 2: Attach the spring pole (i) to the box base (c) and connect it to the bell module (a) using a spring connector (G1).
STEP 3: Mount the motor module (b) onto the box base (c).
STEP 4: Connect the motor module (b) to the box base (c) using spring connectors (G2 and G3).
STEP 5: Connect the 3V battery compartment (d) to the motor module (b) using spring connectors.
STEP 6: Connect the ON/OFF switch (e) to the box base (c) using spring connectors (G4 and G5).
STEP 7: Connect the ON/OFF switch (e) to the motor module (b) using spring connectors (G2 and G3).
STEP 8: Connect the ON/OFF switch (e) to the battery compartment (d) using spring connectors (G4 and G5).
STEP 9: Connect the metal wire (h) to the spring connectors on the box base.
STEP 10: Fix the metal wire (h) on the spring connectors (G4) and (G5).
STEP 11: Connect the wand (f) to the spring connector (G1).
Basic Connection Principle
| Wire connections | Spring (G1) | Spring (G2) | Spring (G3) | Spring (G4) | Spring (G5) |
| 3V battery compartment (d) | black | red | red | ||
| ON/OFF switch (e) | red | red | red | ||
| motor module (b) | red | black | |||
| metal wire (h) | silver | silver | |||
| wand (f) | red |
How to Play
Insert 2 x AA size batteries to the 3V battery compartment. Turn the switch on and put the ring of the wand around the metal wire via the open area of the ring. Keep your hand steady and carefully move the ring of the wand through the metal wire. If the ring touches the metal wire, the bell will ring and you lose!
Complete the maze to achieve the fastest time against your friends. Bend the metal wire to create different levels of difficulty.
Please ensure the switch is off and batteries are removed from the battery compartment before bending the metal wire.
You can switch to use other functions by replacing the spring pole with the flying disc or colour filter.
Turbo Air
Introduction
This section details the Turbo Air module.
Contents:
- a) 1 x box base with holes
- b) 1 x blower
- c) 1 x blow-nozzle
- d) 1 x 3V battery compartment
- e) 1 x ON/OFF switch
- f) 4 x spring connector
- g) 1 x foam ball
- h) 1 x plastic tube
- i) 1 x sleeve
- j) 1 x filter
- k) 1 x bubble blower nozzle
- l) 1 x wand
- m) 2 x connecting bridge
Basic Assembly
STEP 1: Place the blower (b) onto the box base with holes (a).
STEP 2: Connect the blower (b) to the box base (a) using spring connectors.
STEP 3: Attach the blow-nozzle (c) to the blower (b).
STEP 4: Connect the 3V battery compartment (d) to the box base (a) and the ON/OFF switch (e) to the box base (a).
STEP 5: Connect the battery compartment (d) and ON/OFF switch (e) to the blower (b) using spring connectors (F1, F2, F3).
STEP 6: Wire the components: Battery compartment (d) to ON/OFF switch (e) via spring connector (F1), ON/OFF switch (e) to blower (b) via spring connector (F2), and blower (b) back to battery compartment (d) via spring connector (F3).
STEP 7: Final wiring check for the basic Turbo Air setup.
STEP 8: Final wiring check for the basic Turbo Air setup.
Basic Connection Principle
| Wire connections | Spring (F1) | Spring (F2) | Spring (F3) |
| 3V battery compartment (d) | black | red | |
| ON/OFF switch (e) | red | red | |
| blower (b) | black | red |
How to Play
Insert 2pcs AA (LR6) size batteries to the 3V battery compartment. Turn the switch on and put the foam ball (g) above the blow-nozzle (c). You can see the ball floating in the air!
To Switch to Bubble Blower:
- Remove foam ball (g) and blow-nozzle (c) from the blower (b).
- Install the bubble blower nozzle (k) onto the blower (b).
- Dip the wand (l) into soap solution (not supplied).
- Place the wand (l) above the bubble blower nozzle (k). The air flow will blow the film into a bubble.
Note: The distance between the wand (l) and bubble blower nozzle (k) will affect the size of the bubble and the effect.
To Switch to Vacuum Cleaner:
- Remove foam ball (g) and blow-nozzle (c) from the blower (b).
- Install the filter (j) to the blower (b).
- Attach the sleeve (i) onto the filter (j).
- Connect the plastic tube (h) onto the sleeve (i).
- Switch on the unit; the plastic tube (h) will suck dirt into the filter (j)!
Remember to take out the filter (j) and clean the dirt on it after using. This is the same as the maintenance of a real vacuum cleaner!
Flying Disc
Introduction
This section details the Flying Disc module.
Contents:
- a) 1 x motor module
- b) 1 x box base with holes
- c) 1 x 3V battery compartment
- d) 1 x ON/OFF switch
- e) 4 x spring connectors
- f) 1 x flying disc
- g) 2 x connecting bridges
Basic Assembly
STEP 1: Place the motor module (a) onto the box base with holes (b).
STEP 2: Connect the motor module (a) to the box base (b) using spring connectors.
STEP 3: Attach the ON/OFF switch (d) to the box base (b).
STEP 4: Connect the ON/OFF switch (d) to the box base (b) using spring connectors (E1, E2).
STEP 5: Connect the 3V battery compartment (c) to the box base (b).
STEP 6: Connect the battery compartment (c) and ON/OFF switch (d) to the motor module (a) using spring connectors (E1, E2, E3).
STEP 7: Wire the components: Battery compartment (c) to ON/OFF switch (d) via spring connector (E1), ON/OFF switch (d) to motor module (a) via spring connector (E2), and motor module (a) back to battery compartment (c) via spring connector (E3).
STEP 8: Attach the flying disc (f) to the motor module (a).
Basic Connection Principle
| Wire connections | Spring (E1) | Spring (E2) | Spring (E3) |
| 3V battery compartment (c) | black | red | |
| ON/OFF switch (d) | red | red | |
| motor module (a) | black | red |
How to Play
Insert 2pcs AA size batteries to the battery compartment. Turn on the switch and wait for a few seconds then turn off the switch. You can now see the disc fly up in the air.
For More Connecting Fun!
Combining Modules
After you have successfully assembled the basic individual units, you can create more exciting interactions with the AMAZING MAZE CHALLENGE, AMAZING TURBO AIR, and AMAZING FLYING DISC together! Here are some basic things to note when using connecting bridges to connect these units together:
If needed, you can adjust the position of the assembled parts on the box base with holes to suit the 2-in-1 or 3-in-1 connections. There's no need to keep their position exactly as the basic assembly. You can adjust their positions so long as the circuit connection is correct as per the instructions.
There are 3 holes on each connecting bridge. Therefore the switch or spring or other things can be installed onto the connecting bridges. This is useful when you find the box base with holes is crowded and hard to find room on it. These diagrams are examples:
Connection Symbols
- Motor module with spring pole
- Bell module
- Motor module with flying disc
- Motor module with colour filter
- Turbo Air (mini vacuum)
- Turbo Air (floating ball)
- Turbo Air (blowing bubbles)
- Spring
- Metal wire
- Wand
- ON/OFF switch
- 3V battery compartment
How to Connect
Put the 2 or 3 box bases together. Use connecting bridges to connect them firmly. Then follow below connecting diagrams to connect!
Connection Diagrams
The document includes numerous connection diagrams illustrating various 2-in-1 and 3-in-1 circuit configurations. These diagrams show how to combine the Maze Challenge, Turbo Air, and Flying Disc modules using connecting bridges to create more complex experiments and play patterns. They detail the wiring between battery compartments, switches, motors, blowers, bells, and other components, often showing different arrangements of these modules on the baseboard.
Educational Hints
Alternate Circuit Examples
When you have skilled through this set, you can even design your own circuit to have different play patterns! Below is an example of creating an alternate 2-in-1 circuit for an alternate play effect:
Alternate 2-in-1 Circuit Example:
Diagram Description: A circuit diagram shows a Turbo Air unit and a Striking Bell unit connected to two separate 3V battery compartments via an ON/OFF switch and metal wire. The diagram details specific spring connector assignments for each component.
| Wire connections | Spring (1) | Spring (2) | Spring (3) | Spring (4) | Spring (5) | Spring (6) |
| 3V battery compartment (1) | black | red | ||||
| 3V battery compartment (2) | black | red | ||||
| ON/OFF switch | red | red | ||||
| turbo air | black | red | ||||
| striking bell | black | red | ||||
| wand | red | |||||
| metal wire | silver | silver |
Insert 4pcs AA batteries and switch on the ON/OFF switch. The Turbo Air will blow immediately! Now challenge yourself with the maze challenge. Keep your hand steady and carefully move the ring of the wand through the metal wire. If the ring touches the metal wire, the bell will be triggered and you fail! Start over to test out your hand skills and challenge yourself to complete the maze challenge!
Alternate 3-in-1 Circuit Example:
Diagram Description: A circuit diagram illustrates a 3-in-1 connection involving a Turbo Air unit, a Striking Bell unit, and a Flying Disc unit. These are connected to three separate 3V battery compartments via an ON/OFF switch and metal wire. The diagram specifies spring connector assignments for each component and connection.
| Wire connections | Spring (1) | Spring (2) | Spring (3) | Spring (4) | Spring (5) | Spring (6) | Spring (7) |
| 3V battery compartment (1) | black | red | |||||
| 3V battery compartment (2) | black | red | |||||
| 3V battery compartment (3) | black | red | |||||
| ON/OFF switch | red | red | |||||
| turbo air | black | red | |||||
| striking bell | black | red | |||||
| flying disc | black | red | |||||
| wand | red | ||||||
| metal wire | silver | silver |
Note: Only batteries of the same or equivalent types are to be used. Different types of batteries are not to be mixed, and do not mix old and new batteries. Otherwise batteries may get overheated.
Series and Parallel Connection
FIG.1 (Series Circuit):
Diagram Description: A simple series circuit diagram shows a 'Electrical Power Source' connected to a 'Gearbox', then to a 'Light Bulb', and finally to a 'Speaker'. All components are connected in a single loop.
In a series circuit, electricity flows in a single path. If any part of the circuit is broken, the entire circuit stops working.
FIG.2 (Parallel Circuit):
Diagram Description: A parallel circuit diagram shows an 'Electrical Power Source' connected to multiple branches. One branch contains a 'Gearbox', another a 'Light Bulb', and a third a 'Speaker'. Each component is on its own path, connected back to the power source.
In a parallel circuit, each electrical device is connected on its own separate path. If one device is broken, the other devices can still work.
Product Information
Disposal
If at any time in the future you should need to dispose of this product, please note that waste electrical products should not be disposed of with household waste. Please recycle where facilities exist. Check with your local authority or retailer for recycling advice. (Waste Electrical and Electronic Equipment Directive)
Details
Model Number: 43-340-101
COLOURS AND CONTENTS MAY VARY
MADE IN CHINA
FOR AU / NZ: IMPORTED FOR KMART STORES IN AUSTRALIA AND NEW ZEALAND.
