Sometimes there is a room that always needs just a little help with heating or cooling during extreme days. I have one of those rooms which I use a space heater to heat during the winter months. Being on a college campus or at work the majority of the day many days it would be nice to be able to control the temperature of this room away from home. This along with an extra credit opportunity for my MEGR3171 Instrumentations class at UNCC is the inspiration for my Blynk controlled space heater.
My ideal scenario is to have the space heater come on automatically to supplement the HVAC unit once a certain temperature threshold was reached. What would be even better would be to monitor temperature and control the threshold temperature. this is where the Particle Photon (a WiFi enabled microcontroller) along the Blynk app for iPhone or android really come in handy. This was my first shot at IOT so I started with reading everything I could find. One of the most interesting and helpful projects I found was https://www.hackster.io/gusgonnet/the-minimalist-thermostat-bb0410 although it jumped way over my head very quickly it provided a lot of help to create a dummied down version.
Particles website provides a great tutorial on learning how to get started using your new photon https://docs.particle.io/guide/getting-started/start/photon/ after learning this it is time to hook up your DHT22 temperature and humidity sensor. I used a bread board for prototype purposes but will be soldering to my relay shield soon.
Dht22 Temperature sensor wired to Particle Photon on relay shield
The DHT 22 has 4 pins the farthest left is power in (3.3V-5.0V) pin to the right is data out, third pin has no function and the farthest right pin is ground. which is shown below.
pin diagram from data sheet
VDD comes from the photon and provides 3.3V, Data is writing to a digital pin of the Photon, I chose Digital Pin 2. The 4th pin is a ground and goes to the photons ground. A pullup resistor of 10K ohms connects VDD and the Data pin. as shown in the schematic below. Thankfully there is a library PietteTech_DHT available on https://build.particle.io that allows users to get temperature readings in units of their choice with little programming which was a huge plus for me since I have little prior coding experience. If you purchase the Particle relay shield the photon will sit directly in the headers and the board has pins directly connected to pins I used Relay 1 which is pin D3 to control my space heater going this option there is no need to run a jumper wire from the photon pin D3. The relay shield also has a power port that will power the photon and relays.
From here I pulled the wires apart on the space heater and cut one wire (it does not matter which one). Strip the end off the cut wire and insert one wire into the terminal marked COMM and the other in NO. Using NO instead of NC means that the circuit is normally open (off) so the relay must be receiving power in order for the heater to have power. This prevents the heater from turning on if the relay shield were to lose power or otherwise fail. After wiring this, Relay 1 will turn on and current will flow through the inserted wire whenever photon pin D3 outputs HIGH.
The coding was by far the most difficult part of this project for me but spending enough time on Hackster reading other folks code helped me figure it out. I wanted to be able to:
- read a temperature on my phone via the Blynk app
- turn on a relay for my heater from my phone
- set a temperature to turn on the heater automatically
First the Blynk App must be installed on your phone and the Blynk library must be included in your code This website is very useful http://docs.blynk.cc/ getting started with Blynk. Now that you have followed the steps and included the Blynk library the next goal is to get a temperature to the phone, the PietteTech_DHT library is included for this, the code converts readings to measurements we are used to. Line 105 in the posted code allows you to change which scale you will be given, look at the PietteTech_DHT library scroll through and you will see available options. We turn on the relay by digital writing HIGH from the photon, we can easily create a switch in the blynk app to do this manually but I really wanted this to be automated. Virtual pins are very helpful in the Blynk app read about them here http://docs.blynk.cc/#blynk-main-operations-virtual-pins, I added a slider that outputs a value 50 to 90 correlating to degrees Fahrenheit to a virtual pin. This value is inserted in an if statement argument along with the current temperature which eventually turns relay 1 on if the slider temperature is greater than the actual temperature. The video below shows the app and heater in action, to speed up the process I slid the temperature way up to turn the heater on.
I also added a temperature and humidity display and a historical graph so I could see what the temperature was doing while I was away from home. The Blynk app makes this very easy, simply add widgets and designate input/output pins.Summary and Future
I now have a thermostat for my electric space heater, not only that but I have the ability to control set the temperature from anywhere with internet access! This will come in handy when I am away from the house for a while during those cold days. This project peaked my interest in controlling things through the internet and I see myself doing many more projects during the summer when I am not so crunched for time.
The next steps on this project will be permanently solder everything up inside a housing, my plan is to wire multiple outlets to the relays so I can plug in whatever heat system I desire and clean the looks up. When this is done I will be adding more code to control a fan or portable air conditioner as well. I imagine I will also be ordering more parts to control the HVAC soon as well.