Pulsator 205™ & Pulsemax 360™.
Pulsator 205™ & Pulsemax 360™.
We adapt the climate of the vineyards in Chile
We adapt the climate of the vineyards in Chile
Pulsator 205™ together with Pulsemax 360™ are an unbeatable combination to protect your vine crop from fall through late spring frosts.
Pulsator 205™ together with Pulsemax 360™ are an unbeatable combination to protect your vine crop from fall through late spring frosts.
Why protect yourself
Pulsator 205™ technologies together with Pulsemax 360™ allow us to simulate a light rain, which thanks to the thermodynamic properties of water, will dramatically reduce the chances of frost or heat wave damage.
Climate change has brought with it a series of metabolic and genetic changes in plants.
Climate change has brought with it a series of metabolic and genetic changes in plants.
In order to survive the winter , the vine undergoes a process of acclimatization to the cold. This process begins as the days become shorter and temperatures decrease, producing a series of metabolic and genetic changes in the plants.
In order to survive the winter , the vine undergoes a process of acclimatization to the cold. This process begins as the days become shorter and temperatures decrease, producing a series of metabolic and genetic changes in the plants.
It should be considered that even without reaching levels of tissue chilling injury, low temperatures at this stage can cause considerable variations in vineyard yields.
It should be considered that even without reaching levels of tissue chilling injury, low temperatures at this stage can cause considerable variations in vineyard yields.
According to INIA's Cauquenes weather station, between September and October temperatures were less than or equal to 0°C. These data show an increase in spring frosts since 2010.
According to INIA's Cauquenes weather station, between September and October temperatures were less than or equal to 0°C. These data show an increase in spring frosts since 2010.
One design, different applications
Pulsator 205™ technologies together with Pulsemax 360™ allow us to simulate a light rain, which thanks to the thermodynamic properties of water, will dramatically reduce the chances of frost or heat wave damage.
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.
Evaporative cooling
Take control of your climate even in high temperature situations.
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.