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Makeblock Maker Laboratuvar Seti

Ürün Kodu
Marka / Menşei
Stok Adedi
39.800,32 TL + KDV
KDV Dahil Fiyat
67.091,97 TL
İndirimli Fiyat
46.964,38 TL KDV
Aynı Gün Kargo
Saat 15:00’a kadar yapılan alımlarda aynı gün kargo imkanı
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Bu ürünü listenize ekleyerek daha sonra inceleyebilirsiniz.
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  • MakerSpace Kits

    1 About the Kits

    Makeblock MakerSpace Kits include more than 300 different types of mechanical and electronic parts,with over 1700 parts in total.

    Makeblock also provides collections of courses that are designed for the MakerSpace Kits, including Mechanical Maker and Electronic Inventor.

    In this way, makeblock provides schools with strong support of STEAM education.

    Parts List

    Serial No.SKUNameQuantity
    199050MakerSpace Kits-Beam0824 Structural Parts1
    299051MakerSpace Kits-Beam0808 Structural Parts1
    399052MakerSpace Kits-Connecting Fittings1
    499060MakerSpace Kits-Expansion Packs for Large Parts(2 boxes)1
    5P1020003MakerSpace Kits-Beam 0808&0412 Add-on Pack1
    669003360x256mm Aluminium Sheet1
    799053MakerSpace Kits-Basic Drive Parts1
    899054MakerSpace Kits-Hardwares and Tools1
    999059MakerSpace Kits-Advanced Drive parts(2 boxes)1
    1099056MakerSpace Kits-Electronic Modules(3 boxes)1
    1199057MakerSpace Kits-Motor Modules(2 boxes)1
    12P1010016MakerSpace Kits-Add-on Pack-X11
    1399058MakerSpace Kits-Motion Parts(2 boxes)1
    1499055MakerSpace Kits-Hardware and Tools1

    2 About the courses

    Makeblock also provides collections of courses that are designed for the MakerSpace Kits, including Mechanical Maker and Electronic Inventor.

    With an integration of STEAM teaching approaches and project-based learning, the courses aim to help students build their own projects and spark students’ interest and confidence in creating. With the courses, students can develop their skills and abilities without losing the fun.

    2.1 Mechanical Maker

    Mechanical Maker includes 11 projects: Oriental Crown, Birdcage, Stone Mill, Toy Car, Movie Projector, Clock, Lifting Platform, Windmill, Automatic Windows, Vacuum Cleaner and Self-driving Car.

    Course Outline of Mechanical Maker

    Serial No.TopicsClass HourTeaching Objectives
    Lesson 1Oriental Crown90 min/classStudents gain a preliminary understanding of basic equipment, becoming familiar with the link between structure members and the method of fixing screws, learning the structural characteristics of the Oriental Crown, and the representative structure of traditional Chinese architecture.
    Lesson 2Birdcage (1)90 min/classStudents grasp the concepts of rigid and hinge connections including their application cases, and learn the use of the transmission part – “shaft” and connectors.
    Lesson 3Birdcage (2)90 min/classStudents grasp the concepts of rigid and hinge connections including their application cases, and learn the use of the transmission part – “shaft” and connectors.
    Lesson 4Stone Mill90 min/classStudents master the use of universal joint parts, and the concept and application of lever and rotation.
    Lesson 5Toy Car90 min/classStudents master the principle and application of universal joint, and learn tips to use shaft clamp.
    Lesson 6Movie Projector90 min/classStudents recognize different synchronous pulleys and belts, learn how to connect the synchronous pulley to the catch, and become familiar with the working principle of a movie projector.
    Lesson 7Clock90 min/classStudents learn how to use gear tools, distinguishing between driving gear and driven gear, and master the influence of gear ratio on speed.
    Lesson 8Lifting Platform90 min/classStudents master the use of various connectors and the method of fixing locknuts, learning about the mechanical linkage mechanism and applying it in model building.
    Lesson 9Windmill90 min/classStudents learn the connection between device module and main control panel, and master basic mBlock graphic programming.
    Lesson 10Automatic Windows (1)90 min/classStudents learn the usage of sliding rails in matching with V-groove bearings, as well as the origin of the track and its main application.
    Lesson 11Automatic Windows (2)90 min/classStudents master the construction method of a stepper motor and corresponding programming control method, and learn to perform basic input and output control operations through touch modules.
    Lesson 12Vacuum Cleaner90 min/classStudents learn the program control method of potentiometer, and understand the use of the power unit – “air pump motor.”
    Lesson 13Self-driving Car (1)90 min/classStudents learn high-order programming logic and algorithms, and understand how the Mecanum wheel works.
    Lesson 14Self-driving Car (2)90 min/classStudents learn the working principle of ultrasonic sensors and line-tracking sensors, and master high-order programming logic and algorithms.
    Lesson 15Self-driving Car (3)90 min/classStudents learn the structure principle of robot arms, understanding how to build basic robot arms, and mastering high-order programming logic and algorithms.

    2.2 Electronic Inventor

    Electronic Inventor includes 12 projects: Christmas Tree, Piano, Smart Lamp, Game Machine, Self Balancing Robot Car, Fire Alarm, Automatic Door, Mini Weather Station, Electric Screwdriver, Forklift, Cart and Tower Crane.

    Course Outline of Electronic Inventor

    Serial No.TopicsClass HourTeaching Objectives
    Lesson 1Christmas Tree90 min/classStudents learn how to control colored strip light with program and understand how to use square beams.
    Lesson 2Piano90 min/classStudents are able to master the combination of multiple electronic modules as well as the basics of voice.
    Lesson 3Smart Lamp90 min/classStudents learn the principle of how a gyroscope reads position information and how to read gyroscope data. Students master the logical operation in the program and learn to control the lamp for changes in the environment.
    Lesson 4Game Machine90 min/classStudents master the interaction between voice sensors and modules, and how to control the sensor for good human-computer interaction.
    Lesson 5Self Balancing Robot Car (1)90 min/classStudents learn about center of gravity and how to use it to master the polygon, and how it changes in a balance car in order to grasp the principle of balancing the car body.
    Lesson 6Self Balancing Robot Car (2)90 min/classStudents learn how a gyroscope works, how to calculate its parameters, to understand the process of the changing center of a balance car, and to grasp the positional relationship between the gyroscope and the balance car.
    Lesson 7Fire Alarm90 min/classStudents learn how a fire extinguisher works, fire safety theory, how to control a water pump, and how to write an automated control program.
    Lesson 8Automatic Door90 min/classStudents grasp the working principle of human infrared sensors and master their detection mode, recognize different kinds of doors and become familiar with their structural and functional characteristics.
    Lesson 9Mini Weather Station90 min/classStudents master the connection mode and program control method of the nixie tube module, light sensor, temperature and humidity sensors and gas detection module.
    Lesson 10Electric Screwdriver90 min/classStudents learn how a touch sensor works and master its control methods, improve their understanding of the “judgment” statement, and enhance program logic.
    Lesson 11Forklift90 min/classStudents learn how to use linear guides and their sliders, and master the program control method of a rocker module.
    Lesson 12Cart (1)90 min/classStudents review the construction of multi-link structures, learning theories related to mechanical efficiency.
    Lesson 13Cart (2)90 min/classStudents master the control program and working characteristics of an encoder motor, and grasp the application of simple rotating structures in mechanism.
    Lesson 14Tower Crane (1)90 min/classStudents develop a preliminary understanding of systematic engineering projects, and how to design and build large complex models independently.
    Lesson 15Tower Crane (2)90 min/classStudents are able to write control programs independently for tower crane models.


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