| Media: | Water |
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| Temperature: | Ordinary Temperature |
| Actuator: | Electric |
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| Shipping Cost:
Estimated freight per unit. |
about shipping cost and estimated delivery time. |
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| Initial Payment Full Payment |
| Currency: | US$ |
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| Return&refunds: | You can apply for a refund up to 30 days after receipt of the products. |
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Suppliers with verified business licenses
Audited Supplier 
How to Build an IoT-based Irrigation System for Smart Agriculture
How To Build An Irrigation System For Farms
For the majority of farms, use of IoT in agriculture begins with smart irrigation. Optimizing the schedule and amount of water allows us to save resources and provide the best care for crops. Sensor-based IoT technologies collect data about soil and update a crop status and transmit this information from sensors to farm irrigation systems. As soon as there is not enough water in the soil, a platform reacts to this alert and the water sprinkler turns on.Implemented with QOTO electric valve and flow meter, farmers can monitor how much water they need to reach the
Smart irrigation is based on flow pressure and temperature updates - as soon as the moisture has reached a specific threshold, the irrigation will stop. An end-user can track the pump status, making sure that a pipe is in working conditions and the water is flowing in proper amounts.
Agricultural irrigation systems are typically navigated via a smartphone or laptop. A user downloads a mobile app that enters profile credentials and gets redirected to the management page. Some farms prefer to develop an additional physical device to control irrigation, seeing how smartphones can be hacked rather easily.
The remote, be it a smartphone or physical device, is connected to sensors that collect and communicate the data on the moisture levels, temperature, and soil status.
Different crops have specific irrigation schedules according to their biological needs. Precision agriculture using IoT and advanced analytics technologies allows to plan and implement farming activities such as irrigation or pesticide management on-demand depending on the current soil and crop conditions.
To make sure that each type of plant receives the best care, the irrigation system should recognize various zones depending on the sort of crop, soil, and weather conditions. Farmers should be able to set a separate schedule for each of these areas depending on the real-time sensor reads and install a separate irrigation valve for each of them.
Smart irrigation systems vary by their levels of complexity, especially when it comes to watering customization. Some tools allow setting basic timing for a particular irrigation zone with a possibility to pause or finish the irrigation at any given moment. Other systems support complex schedules in weekly advance with planned breaks and intensity variations. Meanwhile, a water management system using IoT sensors is be able to adjust the watering schedule and intensity based on the reading from moisture, humidity and other sensors.
The system should notify the farmer about the start of watering and its finish, as well as send error alerts. If there is a technical problem, the system should be able to detect abnormalities in the irrigation flow and notify the farmer immediately.
Field irrigation systems should connect to other smartphones and laptops. The idea behind this connectivity is that a farmer should receive updates any time and from any available device.
Struture of PTAT-10 electric actuator
| Input Voltage | DC24V | AC24V | AC110V | AC220V | AC380V |
| Motor Power | 30W | ||||
| Rated Current | 2.4A | 3.0A | 0.64A | 0.28A | 0.19A |
| Output Torque | 100NM | 50NM/60NM/100NM | |||
| Operating Time | IOS | 5S/30S/40S | |||
| Output Shaft | Square hole: 14*14/17*17, Depth: 18/32; Round hole: 015.7/018.95, Depth: 28 |
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| Control Circuit | B-type/S-type/R-type/H-type/A-type/K-type/D-type/T-type | ||||
| Operation Angle | 0-270° | ||||
| Weight | 4.7kg | ||||
| Dielectric Strength | 1500VAC/Minute | ||||
| Insulation Resistance | 100MQ/500VDC | ||||
| Working Temperature | -25°C~60°C (Other temperature can be customized) | ||||
| Installation Angle | 360° Any Angle | ||||
| Housing | Aluminium Alloy Die-castings, IP67 water-proof grade, NEMA4 and 6 | ||||
| Optional Function | Over torque Protection, Heat Dehumidifier | ||||
| Ball Valve | 15-65 | ||||
| Butterfly Valve | 50-100 | ||||
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