Greenhouse Automation Using Wireless IoT Solar Smart Valve Integrated Water Flowmeter

Product Details
Customization: Available
Usage: Irrigation
Type: Irrigation System
Still deciding? Get samples of US$ 94/Piece
Order Sample
Shipping & Policy
Shipping Cost: Contact the supplier about freight and estimated delivery time.
Payment Methods:
visa mastercard discover JCB diners club american express T/T
PIX SPEI OXXO PSE OZOW
  Support payments in USD
Secure payments: Every payment you make on Made-in-China.com is protected by the platform.
Refund policy: Claim a refund if your order doesn't ship, is missing, or arrives with product issues.
Manufacturer/Factory, Trading Company
Secured Trading Service
Gold Member Since 2018

Suppliers with verified business licenses

Audited Supplier

Audited by an independent third-party inspection agency

Registered Capital
1000000 USD
Plant Area
101~500 square meters
  • Greenhouse Automation Using Wireless IoT Solar Smart Valve Integrated Water Flowmeter
  • Greenhouse Automation Using Wireless IoT Solar Smart Valve Integrated Water Flowmeter
  • Greenhouse Automation Using Wireless IoT Solar Smart Valve Integrated Water Flowmeter
  • Greenhouse Automation Using Wireless IoT Solar Smart Valve Integrated Water Flowmeter
  • Greenhouse Automation Using Wireless IoT Solar Smart Valve Integrated Water Flowmeter
  • Greenhouse Automation Using Wireless IoT Solar Smart Valve Integrated Water Flowmeter
Find Similar Products

Basic Info.

Model NO.
QT-01F-N/L/G
Drainage & Irrigation Mode
Sprinkler Irrigation Equipment
Pump Type
Centrifugal Pump
Ground Drainage and Irrigation Machinery Type
Siphon Irrigation
Certification
CCC, CE
Condition
New
Application Field
Agriculture
Pressure
1.6MPa
Flow Meter
Built-in Meter
Communication Protocol 1
4G
Communication Protocol 2
Lora
Pipe Size
DN25mm
Transport Package
Gift Box
Specification
17.3*7.9*19.9cm
Trademark
QOTO
Origin
China
HS Code
8501310000
Production Capacity
100000PCS/Year

Packaging & Delivery

Package Size
15.00cm * 13.00cm * 10.00cm
Package Gross Weight
1.500kg

Product Description

Product introduction
As much as 50% of this water is wasted due to overwatering caused by inefficiencies in traditional irrigation methods and systems. Smart irrigation technology is the answer.

QOTO IoT Smart irrigation systems tailor watering schedules and run times automatically to meet specific landscape needs. These controllers significantly improve outdoor water use efficiencies.

Unlike traditional irrigation controllers that operate on a preset programmed schedule and timers, smart irrigation controllers monitor weather, soil conditions, evaporation and plant water use to automatically adjust the watering schedule to actual conditions of the site.

 

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.

 LORA WIRELESS MOTORIZED VALVE CONTROLLER

  • Empower Automatic & Precision Irrigation
  • Motorized Valve Control
  • Water Flow Monitoring
  • IP67 Waterproof
  • Long Battery Life

Motorized valve controller

  • Time-Based Control
  • Volume-Based Control

WATER FLOW MONITORING

2 x digital input for connecting water meter

  • Programmable Unit per Pulse
  • Enable Precise Irrigation

IP67 WATERPROOF

Equipped with IP67 rated enclosure to satisfy the outdoors all-weather long time operation.

Model specification configuration
QT-01F-N/L/G Power supply DC 5V 2A(solar panel+18650 battery 1pcs or 2pcs) smart valve controller+1 inch valve*1  
communication protocol Lora/NB-iot/4G                 
protection level IP67 
Working Temp -20~75ºC Flow Meter--DN25
Media Temp 0~70ºC
valve caliber DN25
Greenhouse Automation Using Wireless IoT Solar Smart Valve Integrated Water FlowmeterGreenhouse Automation Using Wireless IoT Solar Smart Valve Integrated Water Flowmeter
Greenhouse Automation Using Wireless IoT Solar Smart Valve Integrated Water FlowmeterGreenhouse Automation Using Wireless IoT Solar Smart Valve Integrated Water FlowmeterGreenhouse Automation Using Wireless IoT Solar Smart Valve Integrated Water FlowmeterGreenhouse Automation Using Wireless IoT Solar Smart Valve Integrated Water FlowmeterWhat other products DIY sprinkler irrigation system need
Greenhouse Automation Using Wireless IoT Solar Smart Valve Integrated Water Flowmeter
SPRINKLER SYSTEM PLANNING
Plot, Plan, and Design
1. The first step in designing a residential system is to  measure the property and indicate the location of  the house. On a separate piece of paper, sketch out your property and place your measurements on the sketch. Be sure to include all concrete or brick walks and patios, driveways, and fences. While you are measuring, locate any trees, shrubs, and lawns and draw them on the sketch.
Greenhouse Automation Using Wireless IoT Solar Smart Valve Integrated Water Flowmeter
Draw Sprinkler Head Locations
Decide where you will be installing large area sprinklers and where you will be installing small area sprinklers. Large area sprinklers
should be 25' to 40' apart. Small area sprinklers should be 8' to 17' apart. This spacing will allow spray patterns to overlap and
assure even water distribution. Do not mix sprinkler types within one area. Do not place sprinkler heads too far apart; stay
within specifications listed on the Sprinkler Performance Charts, which can be found in the Hunter Product Catalog. Spacing is
determined by the size of the area the sprinkler is serving. Additionally, a sprinkler should be spaced so that it will spray both the
head next to it and the head across from it. Working with one area at a time, start placing sprinkler heads:
                         
Step 1
The critical points on a plan
are the corners. Draw a
quarter pattern sprinkler
in each corner. Using a
compass, draw an arc
showing the sprinkler's
watering pattern.   
Greenhouse Automation Using Wireless IoT Solar Smart Valve Integrated Water Flowmeter

             
Step 2
If the quarter heads will not
spray each other (head-to-
head spacing), place heads
along the perimeters. Draw
these sprinklers' watering
patterns.
Greenhouse Automation Using Wireless IoT Solar Smart Valve Integrated Water Flowmeter
Step 3
Now look to see if the perimeter heads will be spraying
across the area to the heads on the other side. If they do
not, add full circle heads in the middle. An easy way to locate
these heads is to draw perpendicular grid lines from one
perimeter head to another. Again, using the compass, draw
an arc showing this sprinkler's watering pattern to make sure
there is complete coverage.
Greenhouse Automation Using Wireless IoT Solar Smart Valve Integrated Water Flowmeter
Curved Areas
Convert curved areas to a series of straight lines; place
sprinklers the same as you would in square or rectangular
areas. Adjustable arc nozzles on spray heads work very well
in curved areas.
Greenhouse Automation Using Wireless IoT Solar Smart Valve Integrated Water Flowmeter










 

Send your message to this supplier

*From:
*To:
*Message:

Enter between 20 to 4,000 characters.

This is not what you are looking for? Post a Sourcing Request Now