Grove Smart Plant Kit Demo

Dilan Tuff-Overes
March 15, 2018

Grove Plant Care Kit is a smart automated solution for making sure the plant stays alive and well. The electronics monitor 4 different parameters necessary for the plant being happy and healthy: humidity, temperature, UV levels, and soil moisture.

From these variables it creates a watering schedule that will keep the plant at its optimal soil moisture levels. It will provide warnings on its display when UV levels are too high or when temperature is out of bounds between it's cold and hot set points. With its built in pump and flow sensor, it can water the plant autonomously down to the milliliter.

These set points can be modified in the code which uses the Arduino environment to suit any plants needs. This kit is very much focused on the DIY maker rather than being an out of the box solution. It will require users to do some coding to optimize the functionality to suit their environments specific climate and the plant's needs. Here is some sample code to start with:  Gardening-Code-Grove-Plant-Care-Kit-1.zip

Once dialed in, the Grove Smart Plant Care Kit will happily spend its existence keeping your plants at the perfect moisture levels as long as you remember to keep its water reservoir full.

This project was built in a very short time frame for the Calgary City Teacher's Convention. It reuses the enclosure design from one of our previous projects. You know what they always say, right? Reduce, Reuse, Recycle!

Here is a breakdown of our build as well as the design files so you can make your own. Make sure to program your Arduino before you start this process! This box is meant to care for a small to medium plant and the firmware has been designed as such.

First we start out by attaching clear tubing to the pump and flow meter. Since we are using a custom pump for our build, we recommend that you measure the diameter of tubing you will need that works with your own pump. You will need about 3 feet of flexible PVC tubing, 1.5 feet for each side of the pump, and about 3 inches between the pump and flow meter.

Next, we will mount the pump, flow meter, and Arduino onto the base plate. We have used 3mm tall standoffs to keep the Arduino raised so no pins touch the MDF.

We've placed the double-sided sticky tape here which will hold the flow meter in place.

Here is the result once everything is attached to the base plate!

Since we want to run power to both the pump and the Arduino, but also control when the pump is on and off, we use this little wiring harness. The two red wires will be connected to the relay so the Arduino can control when water is fed to the plant.

Next we connect the Grove/Arduino shield and power plug to the Arduino. This shield makes it easy for us to connect the host of sensors and controller we use to feed the plant.

Port Item
I2C_1 (closest to power plug) Light/UV Sensor
I2C_2 OLED Display
D2 Set Button
D3 Rotary Switch
D5 Flow Meter
D6 Relay
A0 Temperature/Humidity Sensor
A1 Moisture Sensor

We use some M2 screws and nuts to hold all the sensors in place on the faceplate. We connected the cables first though as the faceplate doesn't allow for them to be connected afterwards.

 

Now that the relay is in place, we can go ahead and connect the pump wires to the screw terminals. Make sure to fish the wires through the hole where the cable is connected.

Once the face plate and relay are ready, we can continue by connecting each of the cables to their designated ports. We can use the table above as reference.

At this point, the guts of the plant care kit are ready, and it is now time to attach the shroud to the base. Each of the small square holes has a corresponding peg on the shroud. We must use care when pushing each peg into the hole as they are fairly delicate.

Before we push all of the pegs into their holes, we can break off a piece of the shroud, so that there is room to run the power cable into the back of the box. We can then tie the power cable around the pump to add some strain relief.

Now that the shroud is fully seated in the base, we can add the top plate. We need to repeat the same process as we did for the base, making sure to fish the output water tube and moisture sensor through their respective holes.

We can also take this opportunity to run the input water tube through the small triangular gap between the shroud and face plate.

With both the base and top connected, we can add the sides to the face plate. We use the handy t-nut faceting technique to hold everything in place. Make sure to fish the input water hose through the required hole.

This is what it looks like once everything is tightened.

Now that everything is complete, we can add our plant and start the automatic plant care process!

MORE POSTS

December 15, 2014
Monday New Product: Sound, Powerboost an...

The alien flying badgers invaded the office, so the Friday product release was postponed. It is Monday, and the badgers are tamed and put to work to bring you more product than ever: A4988 Stepper Motor Driver Carrier, Black $7.49 It's an upgraded version of the standard A4988 stepper driver module from Pololu. Adafruit Audio […]

August 12, 2016
New Product: SeeedStudio

Seeed One Wire Temperature Sensor $7.97 For simple and easy temperature measurement using the 1-wire protocol with a prepared DS18B20 sensor. Adjustable IR Reflection Sensor (3-80cm) $9.32 This panel/plate mount IR reflection sensor has a 3-80cm threshold detection range. Grove - High Temperature Sensor $12.02 This isn't a plain outdoor thermometer - it has a […]

February 18, 2010
Mark Tilden's 600 foot workbench

Well, it's more like a workbench 600 feet in the air. In his apartment. In Hong Kong. Nice view... Dig around the large image to see what cool stuff you can pick out. Gareth @ Make Magazine (where it was first posted last week) already found a "teacup Stirling Engine" at 10 o'clock (near the […]

March 10, 2014
Project Monday: Laser Monitoring with Sy...

I'm Dilan, a relatively new hire here at Solarbotics, and I am in charge of product development and R&D support. I've got tons of experience with many things, and have seen Arduino as a staple in many projects here at Solarbotics. With its ease of use, powerful programming language, and vast online community, it has […]

Solarbotics Ltd Logo
Solarbotics has been operating for more than 25 years, bringing electronics know-how and supplies to both the electronics professional and hobbyist. We'll be happy to help you too!

Solarbotics, Ltd. is not responsible for misprints or errors on product prices or information. For more information, please see our Terms and Conditions.

Warning: This product contains chemicals known to the State of California to cause cancer and birth defects or other reproductive harm.
Please visit www.P65Warnings.ca.gov for more information. This item was manufactured prior to August 31, 2018.

cart