Archive for the ‘maker’ Category

Build your own Covid Stop Lights or Better Lüften like a German

16. Oktober 2020
While building your own Co2 Sensor and Warning Lights

More an more Germany are more and more concerned with Lüften. Lüften means to open the Windows of the room you are in and then venilate it properly. It’s done best, by opening two windows on walls opposing each other, thus letting air blow through.

Because Germans are masters in „Lüften“ and because many people wanted to know, how to build these little warning lights, in order to know when they should open the Windows and let fresh air in, I wrote a lot of articles on my blog. But these were all in German. So Miska Knapek translated one article into English and I did some editing.

During the Corona Crisis venting has become even more important. Corona spreads through droplets but also through aerosoles.  Since it’s considered very likely that aerosol can also be a carrier of the SARS-CoV-2 virus, in addition to exhaled (humidity) droplets, we need a way to measure them. However the problem is this:

Whereas the comparatively larger droplets fall to the ground relatively quickly, aerosol can stay in the air longer and may disperse and distribute itself within a closed space” (My translation of a Robert Koch Institute (RKI) statement (RKI is a  German Institute for disease control and prevention).

As aerosol is difficult to measure, but it roughly correlates with CO2 concentration in the air of an enclosed space, clever people like Guido Burger and the Umweltcampus Birkenfeld have devised a way to easily measure CO2 concentrations.

Building instructions for the  CO2 Ampel / CO2 Light, by Guido Burger, published in Make Magazine’s website (in German).

Fortunately, Sensirion makes a CO2 sensor and Guido Burger has ready to tinker microcontroller, the Octopus Board, which can interface and control the CO2 sensor. It is possible to use a Node MCU as well.

The microcontroller can be programmed using the ArduBlocks visual Arduino programming language. Of course you can still do text based programming, if you want it. See the ArduBlocks equivalent code towards the bottom of this article.

With ArduBlocks, using visual ‘programming blocks’, one can do the essential bits of a programming language – loops, conditional statements (if/then), and send/receive signals from various sensors, or send and receive data via MQTT, Thingsspeak or Blynk. (Sorry the Articles are in German, but you may use Google Translate)

The Campus Birkenfeld of Technische Hochschule Trier has more material about this CO2 measuring device, including relevant considerations, background, as well assembled a bit of a building instruction (but it’s all in German).
While I enjoy tinkering, in the end I was mostly interested in having a working measuring device. Thus I’ve assembled a quick assembly guide here, below.

Parts list

I have provided links to the Mouser Onlineshop and to Tindie. You may find the parts elsewhere and they are not affiliate links. 

  • Ocotopus Board – which you can get via Tindie. Even if it says it’s sold out, you can still try ordering one. In the worst case, send its inventor Guido Burger a message, to ask if they’re available. Ca. 30 EUR
  • CO2 sensor SCD30 – these are available with different interfaces. Eg. With a Grove connector – although often sold out – as well as without. In the case of the CO2 sensors without a grove connector, one needs to solder or otherwise connect it to the microcontroller. Slightly cumbersome but manageable. Ca. 45 EUR
  • Grove cabelconnecting straight to the Octopus Platine, one can use this to attach sensors, displays and other electronics with Grove interfaces. Ca. 3 EUR
  • LCD panel – To display the data from the CO2 sensor. There are several variants, also with Grove connectors. From 6 EUR. from Mouser.
  • A power source Likely you already have one – a USB charger. Just make sure you  have  a Micro-USB cable. Powerbanks are an alternative, especially if you want to carry the device around. 
  • A case There are many ideas around. From Ikea picture frames, to Bird houses.
  • A Data ready USB cable You probably have one at home, but may have to try several USB cables before you find one that can transmit data as well as power. Very often Electronics come with a cheap cable that can only carry power.

In total, this makes for ca 90 EUR in parts.

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Türe aufmachen ohne Klinke anzufassen

24. März 2020

Tür mit Ellenbogen runterdrücken

Eine der Übertragungsmöglichkeiten für Krankheiten – nicht nur den Covid19 Erreger – sind Türklinken. Die fasst man an um Türen aufzumachen. Während man eine Tür, die sich von einem Weg öffnet, leicht mit dem Ellenbogen runterdrücken kann und dann nach vorne wegstoßen, geht das bei Türen, die sich zu einem öffnen leider nicht. Meistens rutscht dabei der Ellenbogen von der Klinke und man hat auch gar nicht genug „Grip“ um die Tür aufzumachen.

Adapter mit Beschriftung

Geniale belgische Designer haben nun eine ganze Reihe von Adaptern entwickelt, die es erlauben Türen eben nicht anfassen zu müßen. Ich habe bei mir im Mehrfamilienhaus nun an den Türen an denen viele Menschen vorbeikommen: Eingang, Tiefgarage, Treppenhaus, jeweils solche Adapter angebracht.

Noch bin ich am Lernen, was man beachten sollte. Man braucht:

  • Schrauben M4 16mm oder 20 mm
  • Muttern für die M4 Schrauben
  • Gummi: Entweder einen Fahrradschlauch den man zerschneidet oder die Gummis von Einweckgläsern.
  • Druckdatei von Materialise

Noch haben ja die Baumärkte geöffnet, auch wenn nur noch ein paar Menschen hereindürfen.

Einige Tipps:

Zum Anbringen, am besten die Muttern mit Kreppband festkleben, dann fallen sie nicht raus und man hat es einfacher:

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