Wouldn’t it be great to be able to just glance at your doors and tell if they were locked or unlocked. This Automated home reader has done just that and can tell the status of each door from the colour of the LED. read on for the photos and the circuit details…
Submission by Martin Howell Why do it? – When I built my new house, I used the euro style door locks in preference to the a lot more normal Yale type. These locks require you to either turn a crucial (from the outside) or a knob (inside) to lock the door, they don’t slam lock like a Yale and can’t lock you out if the door blows shut while you are outside.
They work great, but its impossible to tell if the door is locked or not without trying the knob. When locking the house it is as a result needed to physically check each door, a bit of a pain especially when all the lights are out. The garage is attached to the house and has a remote-controlled door, and again the only way to check if the door is locked is to go and look. I needed a way to easily see if the doors were locked, so I ended up fitting a set of LED lights to each door. using the basic Red = bad, green = good logic, I fitted a pair of LEDs into the door frame operated by a micro-switch hidden in the lock plate.
How did I do it? – The switch is a conventional micro switch, mounted on to an aluminium plate which is screwed to the inside of the opening in the door frame where the lock tongue goes in. The plate has slots to allow the switch to be adjusted back and forth so that it engages appropriately with the lock tongue – too close and the tongue fouls on the switch and the door won’t lock – too far away and the switch fails to operate. The wooden doors and frame expand and contract with the weather, and the lock mechanism is not very precise, so trial and error is the only way to get the adjustment right. I fitted a small piece of thin rubber over the switch operating button with incredibly glue to cushion the switch a bit.
The switches have to be the type that have three connections, common (COM), usually open (NO) and usually closed (NC) and a single plastic button that operates it. Mine came from one of the lots of photocopiers and printers that I’ve cannibalized for parts over the years. There are all sorts of lever attachments for these switches which would make the adjustment less critical, but there isn’t room inside the hole
The lights are fed from CAT5 which carries power from a central 12v power supply located in the ‘engine room’ where the server and network stuff lives. Although CAT5 has 8 wires, I only used 4 of them and stripped away the spares to save space. I wanted to be able to simulate the lights to some central point, so the connections that operate the LEDs at the door are also carried back to the engine room.
The CAT5 terminates on a wall plate close to the door, then the cord is run behind the skirting to the base of the door frame. I machined a slot in the frame of the door and fed the wires up through that, then glued a strip of wood back into the slot to conceal them. The LEDs are mounted to a small piece of aluminium angle, recessed into the door frame, this also conceals the screws that hold the switch and the hole that the wires come through. The LEDs are conventional 5mm types, so I drilled 5 mm holes in the plate and super-glued the LEDs into the holes, then fixed the plate into the frame using a couple of dabs of ‘No a lot more Nails’. There’s very little space in the hole, so it was needed to chisel out a bit of the frame to fit the switch and make room for the wires.
The switches and LEDs are wired as follows:-
+12v connects to ‘COM’ on the switch
One leg of the red LED connects to NC
One leg of the green LED connects to NO
The remaining legs of both LEDs are connected together, then to a 150 ohm resistor, and then to the 0v wire
To be able to simulate the lights elsewhere in the house, I also connected wires to the NO and NC connections
The switches will allow for push-on connectors, but thereís not much space so I soldered them all. The LEDs will only work when wired one way round, if they donít light up, just reverse the connections. because only one LED is live at any one time, only a single resistor is needed. The LEDs can be run from from 5v, but they will be less bright and harder to see in daylight, and I had a spare 12v power supply.
The garage door has a similar arrangement, but because there’s no need to conceal the switch its just mounted on an aluminium bracket screwed to the door frame. The door itself carries another bracket with a rod which engages with the switch, the rod is threaded to allow for adjustment
Other related stuff – The same 12v feed will also supply power to the water detectors mounted under the washing maker and dishwasher, with solenoid valves to shut off the water and sound an audible alarm in the event of a leak (this is still work in progress). Ialso plan to simulate the status lights on the boiler which lives in the garage inside the house so that I can see if its working appropriately (more work in progress)
Conclusion – This is one of the most beneficial and least expensive features in the house, with a very high WAF. When going to bed, just walking through the house I can see quickly if the doors are locked and with all the house lights off the LEDs supply just enough light to navigate around without tripping over things. It was easy to do, cost nothing (already had the parts in my junk box) and works remarkably well.
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The next step is to connect the outputs from the door switches into my server where a small application will monitor them and display their status on a web page. The same web page will also display the image from the cam that covers the front door. A spare pocket PC mounted centrally in the house will view the web page over wi-fi. I just need to find a way to interface the ‘mimic’ connections into the PC, any ideas for this will be gratefully received.
Thanks – Martin Howell
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Last update on 2021-10-04 / affiliate links / images from Amazon product advertising API