![]() Do not bother you about the fly that joined the scan. Here I have attached the circuit diagram. If not the painting will not stick there. Be sure to remove all wood glue on the plates and the corners before paintng. Three holes in the back plate on the lower part, two to assemble the steel structure to the box and one between them so the cables have a way to get inside the squere steel, to the top for lighting and humidity sensorĪnd one hole in the front.,where the sanded plexiglas and RGB led will be placed.Īs paint i used som dark brown stain. Two holes in the middleplate, one where the hose comes through and one where the cable to the moisture sensor is coming through. The last thing before painting was to drill some holes. I also glued and screwed the middleplate. This made it easier to screw together the box. I used some small woodtrim that I glued in the corners of the box. To assemble the box I used wood glue and screws. The reason you see in picture No.1 where I use one part of the back plate and the bottom plate to make a tray. Then i made a bottom plate that fits within the box and a middle plate that will be separate the soil from the electronics. When you put together these plates it becomes a box. There I also made a 45-degree angle on the ends. The first thing I did was to cut plates on 2 lengths of 40cm, with 45 degree angles at the ends. In this step we will do some simple woodworking.įor this case, I just used an old hobby plate that I had lying around. ![]() I will definitely forget some, so just ask me if you have any questions. Here I will try name all the parts and tools You may not need all the parts and tools, but this is what i used. I'm also Norwegian, so my English may not be the best. Everything is self-taught and I can therefore understand that others have easier and better solutions. It is possible that i'm also going to add a color for air humidity as well.īefore I start I want to say that i neither am a carpenter, welder, electrician, programmer or gardener. Here is it possible to add more codes and the RGB has many color left for use. I will set up a code that light the RGB when something is wrong or everything is OK. RGB led that is mounted in front of the box is an important part to monitor the plants and the box. These lights are controlled by a timer that will activate the light at 06:30 to 22:30 on Mon-Fri and 10:00 to 23:00 on Sat-Sun. I know that I could have use red and blue light to boost the plant growth, but didn't think it looked just as nice. ![]() I'm not sure that this will work the same in practice as in theory. Since I use a DHT11 that have both humidity and temperature sensor inside it is also possibility to monitor humidity.Īs everyone know, plants need light.(most of them) Therefore, I have used LED light to simulate daylight. To ensure that the plants have a good environment, it is important to have the right temperature. It can also be adjusted so if I'm planting other plants that need drier or wetter soil. ![]() It shall ensure that the earth constantly keeps perfect moisture. This is maybe more like a ''look what I made'' instead of a Instructable, but i will try to make it like a Instructable so others can make this or steal some ideas. Therefore i decided to make this grow box. With an Arduino Nano at its core this project uses a water level sensor to let you know when to refill the concealed tank and a solid moisture sensor to figure out when to water your plant based on its needs.I've always wanted to make a little larger Arduino project from scratch. With a hidden water reservoir, pump and sensors why not make your plant care easy. Print, assemble and program your own intelligent Smart Plant Pot. Automatic Smart Plant Pot - (DIY, 3d Printed, Arduino, Self Watering, Project) ![]()
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