![]() ![]() Insert the M3x4mm threaded inserts in the lid using a soldering iron. Stick the control panel to the control box using superglue as shown in the picture. The two clamps should be in a straight line or else the tube won't fit.Ĭover the inside portion of the enclosure using aluminum tape. Stick the clamps on the inside of the lid. I figured out how the code works and modified it to suit my need. Thanks to Henry Mane all the hard work of creating a menu was already done. The menu can be controlled using a rotary controller. A menu will be created and displayed on an OLED display. The second one will be a Timer Mode wherein the lamp will be turned ON for a set amount of time. First will be Manual Mode wherein you have to manually turn OFF the lamp. A magnetic reed switch will be used as an extra step to safety such that the lamp will turn/remain ON only when/till the door is closed.Įverything will be controlled using an Arduino Nano. This will also help in reflecting the light evenly. I will be using aluminum tape to cover the inside of the enclosure where the light will hit. I'm not an expert on this so it is better to be safe. Since the lamp will be in an enclosure made up of plastic which may absorb most of the radiation and prevent it from reaching us, there is a slight chance of radiation leaking through it. ![]() One part is the region where the radiation will occur and the last part is the drawer which will hold the objects to be sterilized.Īs already stated, it is not a good idea for us to get exposed to UVC radiation frequently. The uppermost part houses all the electronics and a UVC lamp. ![]() Build a box of some kind and put the UVC lamp in it. Proceed only if you know what you are doing! This project involves working with AC mains electricity as well which can be lethal. Disclaimer: Overexposure to UVC radiation can cause permanent damage to skin and eyes. ![]()
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