Sliding Door 自動門 @STEM II 12 models

single micro:bit model from pack

fischertechnik

Product Description

 

A sliding door consists of one or more door leaves. They are guided at the top or bottom and open to the side. But don't think that this is an invention of the modern age – sliding doors existed even in the First Century A.D. in Roman buildings. This is shown by excavations in the Italian city of Pompeii.

 

Task 1
Create a program, which closes the sliding door, regardless of where it is when the programs starts. Try out various door positions.

Task 2
There is a light barrier at the entrance to the sliding door. If the light beam is interrupted, which means that someone wants to enter the business, then the entrance door is opened and it closes automatically after at time of 10 seconds.

 

Task 3
So that nobody is caught in the door when it closes, the door is to immediately open when someone interrupts the light barrier. Change the program accordingly. Expand the program with a time delay of five seconds before the door closes.

 

See online guide with micro:bit coding samples for the Sliding Door model.

See micro:bit coding with input and output guides here.

 

This is a specially discounted package - delivered in a clear plastic bag.  

Each pack comes with the bonus fischertechik storage base (box 250 x 186

I/O board for micro:bit 

micro:bit pins extension board, designed specially to take advantage of  fischertechnik's unique,  flexible red and green round plug cable connections. By design, the I/O board rubber legs slot into the fischertechnik black base-plate grid securely.

 

 

 

The price below is for 1 model out of the 12 models STEM II pack.  If you want to build all 12 models, order the full STEM II pack instead.

 

  • All model parts can be reused and recycled for other projects and student's creative pieces.    fischertechnik is made in Germany with quality and precision.
  • No soldering.  Ideal for all ages, promote problem solving, changes on the fly as debugging and adjustment can be done instantly.    All works can be done to perfection as even the smallest adjustment can be accommodated, thanks to the complete range of mechanical/structural and electronic blocks offered by fischertechnik.
  • One of the 12 models of STEM 2.   You can now order it on its own for easy whole class lesson, without needing to pick and sort building blocks every time.  

 

Part 1 - micro:bit block commands used in the Sliding Door Model

To achieve fluency and competency in micro:bit coding, you really need to get a thorough understanding of each of the block catagories to be used in the Sliding Door Model (see part 2 below for the full code).    Fortunately, all the reference guides are available on the BBC micro:bit web site for you to get a deeper and more comprehensive understanding and mastery.

Through every fischertechnik STEM II models (12 of them), you can learn, practise, build fluency and confidence in coding.

The Sliding Door Model used the following micro:bit blocks.  You can click to lean more about each of the block catagories.  The links bring you directly to the respective part of the BBC micro:bit reference document site, where live codes are included for you to understand, try, and download:

 

Part 2   The "live" Sliding Door Code  - Understand, Edit and Download

  The following code has used all the mentioned blocks in Part 1 above.    

 

Comments In English, click the " ? " on block to find out the comment (meaning) of the block code.

  • If you read this page on a computer with wider screen size, you will be able to see the micro:bit simulator that is fully clickable.
  • If you cannot see the code, such as on a mobile phone, please  click this link instead.
  • Click   to open the code on the micro:bit website for further editing and modification.
  • Click   to download this code to your micro:bit for immediate use or to save on your computer.     

 

Connector No. Description
Outputs 8

8 x light/LED

4 x DC motor

- 600mA per output
- 6 - 9 V
    Inputs 6

    5 x analog/ digital

    1 x digital

    - signal up to 5V

     

    I2C 1 1 x connector (SCL, SDA)
    5V 1

    1 x sensor power supply connection

    (6-9V power supply)

    3.3 V 1 1 x sensor power supply connection
    Battery 1 1 x battery (6 - 9 V) min 4.5 V
    Power Supply 1 1 x universal power adaptor ( 6 - 9 V) min 4.5 v