Model |
specification |
Standard configuration |
Optional |
QT-01F-
N/L/G |
Power supply |
DC 5V 2A(solar panel+18650 battery 1pcs or 2pcs) |
smart valve controller+1 inch valve*1 |
18650 rechargeable batteries 1pcs or 2pcs |
communication protocol |
Lora4G |
Flow Meter--DN25 |
protection level |
IP67 |
Working Temp |
-20~75ºC |
Media Temp |
0~70ºC |
valve caliber |
DN25 |
4G Lora Wireless Irrigation System Solenoid Valve Controller
The electric valve base remote irrigation system can be applied in residential, commercial, agricultural irrigation. Using 4G GSM remote control or Lora local internet makes irrigation a more science and intelligent program to save more water and labor.
1,remote control by Mobile phone or PC computer
2,irrigation water capacity setting, to control water consumption
3,Wireless installation: powered by solar panel+18650 batteries
4. As a Lora actuator supplier, we develop and manufacture the actuator by our own technology, we can provide free API for further intergration.
How To Set up QOTO Smart Irrigation Controllers And A Simple Drip irrigation system
Step 1: Set up the Irrigation Controller
Attach the controller inlet to the outdoor faucet/spigot turning clockwise - hand tighten only. From the controller outlet connect a drip irrigation system or a garden hose.
Step 2: Filter
Install a filter so your emitters or drippers don't become clogged.
Step 3: Reduce Pressure
Most household water systems are at 40-80 pounds of pressure, but you would need the pressure for your drip system at about 25 pounds of pressure.You can open the valve by small angle to reduce water pressure
Step 5: Plan Your System
Keep in mind that for each 1/4 inch branch line with 1/2 gallon per hour emitters, you can only run:
up to about 19 feet of 1/4 inch drip line with emitters at 6 inch spacing
up to about 25 feet of 1/4 inch drip line with emitters at 9 inch spacing
up to about 34 feet of 1/4 inch drip line with emitters at 12 inch spacing
Below is a rough sketch of a small garden layout using 1/4 inch drip line at 6″ spacing.
Step 6: Run Supply Lines
You can use a hose thread (not pipe thread) connector to attach your line(s) directly to your hose end water controller. The end of the hose can be bent back or capped off. You can buy the 1/2 inch blank supply lines in 100′ rolls. You can also buy 1/4″ blank tubing to run from your 1/2″ supply line to your drip line. Or you might want to use 1/4″ blank tubing to bridge a walkway or go up to a container planting.
Step 7: Install Drip Lines
Step 8: Test For Leaks and Adjust
Check your whole system for leaks and make sure that all the drip lines are dripping. Test the irrigation controller and play around with the length of time it takes to adequately water your garden. You will need to adjust the duration to match your soil, weather, mulch and type of vegetables. A good starting point would be 1 hour every three days assuming the weather is warm and dry.
App Introduction
1,Remote control by Mobile phone or PC computer
2,Control the valve position by percentage
3,Irrigation water capacity setting, to control water consumption
4,Malfunction warning,water shortage warning(work with flow meter),low
power warning etc,to provide secure user experience
5,When it start watering, the real-time feedback of consumption and time will
reflect on the App(work with flow meter)
6,Power supply solution: powered by solar panel+lead acid batteries,green and
environment-friendly
7,Timing function
8,Circular irrigation
9,Push notification of device
10,When the Internet is cut, the controller will keep watering according to
schedule once the timing program is set.
11,Record of each water consumption and duration each month
irrigation in rainy and snowy weather
13,Lora/NB-iot/4G optional commication protocol
14,Sharing devics function
15,Intelligent interconnect function
16,Signal strength indicate