Many automatic air fresheners are wasteful in that they either ceaselessly spritz the room, and manual ones need to be — well — manually operated. This will not do in an era of smart products, so Instructables user [IgorF2] has put together an air freshener that does more than check if you’re around before freshening things up.
The air freshener uses a NodeMCU LoLin and an MG 995 servomotor, with a NeoPixel ring acting as a status light. Be aware — when the servo is triggered there is a significant spike in current, so be sure you aren’t powering the air freshener from a PC USB port or another device. After modeling the air freshener’s case in Fusion 360 — files available here — [IgorF2] wired the components together and mounted them inside the 3D printed case.
Hardware work completed, [IgorF2] has detailed how to set up the Arduino IDE and ESP8266 support for a first-time-user, as well as adding a few libraries to his sketch. A combination of an Adafruit.IO feed and ITTT — once again, showing the setup steps — handles how the air freshener operates: location detection, time specific spritzing, and after tapping a software button on your phone for those particularly lazy moments.
Continue reading “The Smartest Air Freshener In The Room”
[Avidan Ross] has an unyielding passion for coffee. Brewing a proper espresso is more than measuring fluid ounces, and to that end, his office’s current espresso machine was not making the cut. What’s a maker to do but enlist his skills to brew some high-tech coffee.
For a proper espresso, the mass of the grounds and the brewed output need to be precisely measured. So, the office La Marzocco GS3 has been transformed into a closed-loop espresso machine with a Particle Photon and an Acaia Lunar waterproof scale at its heart.
Continue reading “Will Hack For Espresso”
[Will Donaldson] has whipped up a quick hack for anyone thinking of dipping their toe into home automation — or otherwise detest flicking off the bedroom light before navigating their way to their bed: a remote control light switch!
This remote switch uses a sg90 servo, an Arduino Uno, and pairs of ATtiny85s with HC-05 Bluetooth modules assembled on protoboards. The 3D printed mount screws easily on top of a standard light switch cover while still allowing the switch to be flipped the old-fashioned way. It’s also perfect as a temporary solution — [Donaldson] is presently renting his apartment — or for those unwilling to mess with the mains power of their abode.
Continue reading “Light Switch For The Lazy”
Here’s a slightly different way to check on the status of your laundry. Instead of checking if the machine is vibrating, or listening for sound, or pulling everything apart and hacking an ESP8266 into it, check the power that the machine is drawing. This is what [Scrand] did in his IoT dryer build.
The secret behind the hack is the Sonoff POW, a small device that sits in between the wall and the dryer. It has a relay in it that controls it, but, importantly for this hack, it’s able to measure the power consumption used by what’s plugged into it. By installing the ESPurna firmware on it, he can now use all the power of the firmware to control and monitor what’s connected to the POW. He wrote a PowerShell script to monitor the http server now running on the POW checking on how much power is being drawn by the dryer. When that power drops, the laundry is done, and in the case of [Scrand], a text is sent saying so.
When you’re sitting on the couch relaxing, why get up every five minutes to check your laundry when you can have it text you when you know it’s done? Then you can decide whether to get up and deal with it or just leave it until later. The whole reason ESPurna exists to begin with is to check on the status of the laundry. Or, you can go a bit overboard with this laundry room monitor.
Feeding the cat should be a moment of magic, in which you bond with your adorable pet as she rubs seductively against your ankles. As you place the saucer of tender and moist meaty chunks on the floor, she bounds the length of your kitchen, excited expression on her little kitty face, and tail in the air.
If Hackaday made television adverts for cat food, we’d have it nailed. But our everyday reality involves the cute-as-heck Hackaday moggy turning into a persistent little pest when she decides it’s feeding time. [ThinkSilicon]’s friends had exactly this problem, with their furry friend’s preferred timing coming early in the morning. His solution? An automated cat feeder (translated) that dispenses kibbles from a hopper into the lucky mouser’s feeding dish.
The mechanical part of this endeavour is pretty straightforward, a servo moves a sliding piece of plywood with a hole cut in it across the bottom of a hopper full of cat food. Move the slide, dispense food down a chute to the waiting happy cat. Behind the scenes is an ESP8266 and a NodeMCU web service, through which feeding time can be either scheduled, or dispensed at will.
A happy cat means a happy owner, especially in the very early morning. Until that is the newly-sated creature decides to spread the love, jumping onto the owner’s bed in thanks and breathing cat-food-breath into their face. You really do have to love ’em!
We’ve shown you many cat food related projects in the past, including this Arduino take on the same idea. But why take the effort to trigger it yourself, when the cat can do it for you.
What would you do with a pair of oil drums and a craving for delicious food? Like any sane person, redditor [Kilgore_nrw] made the logical choice and built a smoker.
To make the build easier, he picked up a double barrel stove kit which came with a door, hinges, legs and flue connectors. While fixing the legs and mounting the stove door — high enough for a bed of bricks in the fire barrel — went as planned, he had to improvise the installation of the smoke flue. It ended up being the exact same diameter as the flue connectors, but notching it enough to slide into place made a satisfactory seal.
Not liking the look of having the stack at the ‘front’ of the smoker, he mounted it above the flue at the rear and added two sandstone slabs in the smoking chamber to evenly distribute the heat. Finishing touches included heavy duty drawer slides for the cooking rack — ensuring easy access to deliciousness — and painstakingly grinding off the old paint to apply a new heat resistant coating. For any fans out there, the finished pictures are a sight to behold.
Continue reading “Oil Barrel Smoker”
More than once a maker has wanted a thing, only to find it more economical to build it themselves. When your domicile has massive windows, closing what can feel like a mile of blinds becomes a trial every afternoon — or every time you sit down for a movie. [Kyle Stewart-Frantz] had enough of that and automated his blinds.
After taking down and dismantling his existing roller blinds, he rebuilt it using 1-1/4 in EMT conduit for the blinds’ roll to mount a 12V electric shade kit within — the key part: the motor is remote controlled. Fitting it inside the conduit takes a bit of hacking and smashing if you don’t want to or can’t 3D print specific parts. Reattaching the roller blind also takes a fair bit of precision lest they unroll crooked every time. He advises a quick test and fit to the window before moving on to calibrating and linking all your blinds to one remote — unless you want a different headache.
Now, to get Alexa to do your bidding.
Continue reading “Let There Be Automated Blinds!”