Antribrin 3-22
Low-noise and low-emission frost protection
The Italian technology of Antibrina 3-22 offers an efficient and aerodynamic design that exchanges cold surface air (below) for warm air (below). The perfect alternative for water-starved properties.
The reinvention of a classic
Antibrina 3-22 offers all the advantages of a conventional anti-frost tower, but at a fraction of the energy and operational cost.
Made in Italy
Aria is the preferred manufacturer of medium and small wind turbines throughout Europe. Tierraverde is their official representative in Chile.
Lightweight and powerful
Less than one ton, and a capacity of up to 140 cubic meters per second gives it an area of influence of up to 5 hectares.
Fast installation
Antibrina's structural simplicity allows it to be easily mounted on a base with anchor bolts.
Frost control
Protects cherry, critical, stone, grapefruit, avocado, olive, table grapes, wine grapes, blueberries, kiwifruit, potatoes, artichokes, strawberries and much more.
Frost control
Protects cherry, critical, stone, grapefruit, avocado, olive, table grapes, wine grapes, blueberries, kiwifruit, potatoes, artichokes, strawberries and much more.
Alternative applications
Moisture control, application of foliar products.
Alternative applications
Moisture control, application of foliar products.
Evaporative cooling
Take control of your climate even in high temperature situations.
Evaporative cooling
Take control of your climate even in high temperature situations.
Benefits and features
Our high-frequency, low-flow emitter will be the best companion to your existing irrigation system.
High adaptability
As it covers a uniform radius, it can be installed for different planting frames: 6×4, 5×5, 6×6, 7×4,5×5 among the most widespread.
Easy installation
The design of PULSATOR™ 205 and PULSEMAX 360™ allows them to be attached to different supports, both PVC stakes and hanging structures on wire lines.
Durable
PULSATOR™ 205 and PULSEMAX 360™ are made of plastic materials that are highly resistant to the action of solar radiation.
Now water
The combination of PULSATOR™ 205 and PULSEMAX 360™, allows less water to be precipitated than a traditional sprinkler system.
Simple maintenance
Being modular, the products can be easily disassembled for cleaning and maintenance.
How it works
PULSATOR™ 205 and PULSEMAX 360™ are supported on a tutor or structure, and connected to a microtube, which has a self-compensating dripper of various flow rates (between 12 and 40 liters/hour). In turn, the dripper is connected to the irrigation network in polyethylene lines of 16 or 20 millimeters.
It provides multiple pulses per minute, depending on the flow rate chosen, ensuring homogeneous coverage over an area for several hours without causing waterlogging.
The pulsing system allows each emitter to cover a large area while maintaining a low flow rate, thus reducing the number of units per hectare, as well as saving on infrastructure costs, energy and water consumption.
PULSATOR™ 205 and PULSEMAX 360™ are supported on a tutor or structure, and connected to a microtube, which has a self-compensating dripper of various flow rates (between 12 and 40 liters/hour). In turn, the dripper is connected to the irrigation network in polyethylene lines of 16 or 20 millimeters.
It provides multiple pulses per minute, depending on the flow rate chosen, ensuring homogeneous coverage over an area for several hours without causing waterlogging.
The pulsing system allows each emitter to cover a large area while maintaining a low flow rate, thus reducing the number of units per hectare, as well as saving on infrastructure costs, energy and water consumption.
PULSATOR™ 205 and PULSEMAX 360™ are supported on a tutor or structure, and connected to a microtube, which has a self-compensating dripper of various flow rates (between 12 and 40 liters/hour). In turn, the dripper is connected to the irrigation network in polyethylene lines of 16 or 20 millimeters.
It provides multiple pulses per minute, depending on the flow rate chosen, ensuring homogeneous coverage over an area for several hours without causing waterlogging.
The pulsing system allows each emitter to cover a large area while maintaining a low flow rate, thus reducing the number of units per hectare, as well as saving on infrastructure costs, energy and water consumption.
PULSATOR™ 205 and PULSEMAX 360™ are supported on a tutor or structure, and connected to a microtube, which has a self-compensating dripper of various flow rates (between 12 and 40 liters/hour). In turn, the dripper is connected to the irrigation network in polyethylene lines of 16 or 20 millimeters.
It provides multiple pulses per minute, depending on the flow rate chosen, ensuring homogeneous coverage over an area for several hours without causing waterlogging.
The pulsing system allows each emitter to cover a large area while maintaining a low flow rate, thus reducing the number of units per hectare, as well as saving on infrastructure costs, energy and water consumption.
PULSATOR™ 205 and PULSEMAX 360™ are supported on a tutor or structure, and connected to a microtube, which has a self-compensating dripper of various flow rates (between 12 and 40 liters/hour). In turn, the dripper is connected to the irrigation network in polyethylene lines of 16 or 20 millimeters.
It provides multiple pulses per minute, depending on the flow rate chosen, ensuring homogeneous coverage over an area for several hours without causing waterlogging.
The pulsing system allows each emitter to cover a large area while maintaining a low flow rate, thus reducing the number of units per hectare, as well as saving on infrastructure costs, energy and water consumption.
PULSATOR™ 205 and PULSEMAX 360™ are supported on a tutor or structure, and connected to a microtube, which has a self-compensating dripper of various flow rates (between 12 and 40 liters/hour). In turn, the dripper is connected to the irrigation network in polyethylene lines of 16 or 20 millimeters.
It provides multiple pulses per minute, depending on the flow rate chosen, ensuring homogeneous coverage over an area for several hours without causing waterlogging.
The pulsing system allows each emitter to cover a large area while maintaining a low flow rate, thus reducing the number of units per hectare, as well as saving on infrastructure costs, energy and water consumption.
PULSATOR™ 205 and PULSEMAX 360™ are supported on a tutor or structure, and connected to a microtube, which has a self-compensating dripper of various flow rates (between 12 and 40 liters/hour). In turn, the dripper is connected to the irrigation network in polyethylene lines of 16 or 20 millimeters.
It provides multiple pulses per minute, depending on the flow rate chosen, ensuring homogeneous coverage over an area for several hours without causing waterlogging.
The pulsing system allows each emitter to cover a large area while maintaining a low flow rate, thus reducing the number of units per hectare, as well as saving on infrastructure costs, energy and water consumption.
PULSATOR™ 205 and PULSEMAX 360™ are supported on a tutor or structure, and connected to a microtube, which has a self-compensating dripper of various flow rates (between 12 and 40 liters/hour). In turn, the dripper is connected to the irrigation network in polyethylene lines of 16 or 20 millimeters.
It provides multiple pulses per minute, depending on the flow rate chosen, ensuring homogeneous coverage over an area for several hours without causing waterlogging.
The pulsing system allows each emitter to cover a large area while maintaining a low flow rate, thus reducing the number of units per hectare, as well as saving on infrastructure costs, energy and water consumption.
PULSATOR™ 205 and PULSEMAX 360™ are supported on a tutor or structure, and connected to a microtube, which has a self-compensating dripper of various flow rates (between 12 and 40 liters/hour). In turn, the dripper is connected to the irrigation network in polyethylene lines of 16 or 20 millimeters.
It provides multiple pulses per minute, depending on the flow rate chosen, ensuring homogeneous coverage over an area for several hours without causing waterlogging.
The pulsing system allows each emitter to cover a large area while maintaining a low flow rate, thus reducing the number of units per hectare, as well as saving on infrastructure costs, energy and water consumption.
PULSATOR™ 205 and PULSEMAX 360™ are supported on a tutor or structure, and connected to a microtube, which has a self-compensating dripper of various flow rates (between 12 and 40 liters/hour). In turn, the dripper is connected to the irrigation network in polyethylene lines of 16 or 20 millimeters.
It provides multiple pulses per minute, depending on the flow rate chosen, ensuring homogeneous coverage over an area for several hours without causing waterlogging.
The pulsing system allows each emitter to cover a large area while maintaining a low flow rate, thus reducing the number of units per hectare, as well as saving on infrastructure costs, energy and water consumption.
PULSATOR™ 205 and PULSEMAX 360™ are supported on a tutor or structure, and connected to a microtube, which has a self-compensating dripper of various flow rates (between 12 and 40 liters/hour). In turn, the dripper is connected to the irrigation network in polyethylene lines of 16 or 20 millimeters.
It provides multiple pulses per minute, depending on the flow rate chosen, ensuring homogeneous coverage over an area for several hours without causing waterlogging.
The pulsing system allows each emitter to cover a large area while maintaining a low flow rate, thus reducing the number of units per hectare, as well as saving on infrastructure costs, energy and water consumption.
PULSATOR™ 205 and PULSEMAX 360™ are supported on a tutor or structure, and connected to a microtube, which has a self-compensating dripper of various flow rates (between 12 and 40 liters/hour). In turn, the dripper is connected to the irrigation network in polyethylene lines of 16 or 20 millimeters.
It provides multiple pulses per minute, depending on the flow rate chosen, ensuring homogeneous coverage over an area for several hours without causing waterlogging.
The pulsing system allows each emitter to cover a large area while maintaining a low flow rate, thus reducing the number of units per hectare, as well as saving on infrastructure costs, energy and water consumption.