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power supply:DC 24V communication protocol:Lora/4G protection level:IP67 working Temp:-20~65℃ Media Temp:0~70℃ valve caliber:DN50~DN150
| Quantity: | |
|---|---|
IoT Sustainable Solutions for Sports Field Irrigation
| Power supply | Solar panel+18650 battery 2pcs or 4pcs |
| Telecomunication protocol | Lora/NB-iot/4G |
| Torque | 50Nm |
| Valve size | DN50-DN100 |
| Protection level | IP67 |
| Working Temp | -20~65℃ |
QOTO remote control valve, as IoT smart water valve supplier, provides irrigation and water management solutions built on responsive real-time technology for school districts, parks, cities, sports parks, commercial and government entities conserve water, optimize resources, and simplify water management. QOTO features cloud-based central control, dynamic flow optimization, intelligent controllers, and smart watering technologies.
With a sustainability design rainwater collection system, it can realize the following functions:
·The use of valve-under-head irrigation to permit targeted watering practices and ensure more efficient water-use.
·The use of recycled aggregates and recycled glass sand to reduce the reliance on quarried products.
·Water harvesting below the synthetic turf fields to capture rainwater draining through the profile.This was designed with a custom overflow system to prevent water from surcharging the turf surface in high rainfall events and a custom outlet system to feed the stored water into the irrigation system.
IoT Sustainable Solutions for Sports Field Irrigation
| Power supply | Solar panel+18650 battery 2pcs or 4pcs |
| Telecomunication protocol | Lora/NB-iot/4G |
| Torque | 50Nm |
| Valve size | DN50-DN100 |
| Protection level | IP67 |
| Working Temp | -20~65℃ |
QOTO remote control valve, as IoT smart water valve supplier, provides irrigation and water management solutions built on responsive real-time technology for school districts, parks, cities, sports parks, commercial and government entities conserve water, optimize resources, and simplify water management. QOTO features cloud-based central control, dynamic flow optimization, intelligent controllers, and smart watering technologies.
With a sustainability design rainwater collection system, it can realize the following functions:
·The use of valve-under-head irrigation to permit targeted watering practices and ensure more efficient water-use.
·The use of recycled aggregates and recycled glass sand to reduce the reliance on quarried products.
·Water harvesting below the synthetic turf fields to capture rainwater draining through the profile.This was designed with a custom overflow system to prevent water from surcharging the turf surface in high rainfall events and a custom outlet system to feed the stored water into the irrigation system.
