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Installation
- Service - Do-it-yourself Kits Spring Openings - Fall Closings Residential & Commercial Parts - Design Services |
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CAUTION!
WEAR PROPER EYE PROTECTION!
Extreme care must be taken when blowing out the system to avoid excessive pressure which can damage valves or sprinkler pipe or cause physical injury due to flying debris. Do not stand over any irrigation components (pipes, sprinklers, and valves) during air blow out. Air pressure must not exceed 50 pounds per square inch (psi). Without proper preparation your sprinkler system can be damaged by freezing temperatures. Here are some tips from Rain Bird on how to prepare your irrigation system if you live in a region where it freezes. 1. Insulate your assets. Shut off the water supply to the irrigation system. The main shut off valve for your irrigation system needs to be protected against freezing. To prevent it from freezing make sure it is wrapped with insulation (foam insulation tape and a plastic bag), or somehow protected from freezing. If you do not have a main shut off valve, consider it a preventative investment. Any above ground piping needs to be insulated. Self-sticking foam-insulating tape or foam insulating tubes commonly found at home supply stores, are fine. 2. Stay in control. If you have an automatic system then you will need to "shut down" the controller (timer). Most controllers have a “rain-mode" which simply shuts off the signals to the valves. The controller continues to keep time, the programming information (start times, valve run times, etc,) isn't lost, and the clock continues to run. The only change is that the valves will not activate. If your controller is responsible for activating a pump, as a precaution, remove the wires that are connected to the MV and common. This will prevent the possibility of the pump from being activated which could cause overheat damage. An alternative to using the rain mode is simply to shut off the power to the controller. If you do, you'll need to reprogram the time and potentially all your other settings as well, in the spring. 3. Drain the pipes. Now you need to remove the water from the pipes and sprinklers so that it won't freeze and break the pipe. There are several ways to drain your pipes: the manual drain valve, the automatic drain valve or the compressed air blow-out methods. However, since there could be potential safety risks we recommend contacting your local irrigation specialist. 4. Protect valves and backflow preventers. Insulate backflow preventers and valves if they are above ground. You can also use insulation tape for this. Do not block the air vents and drain outlets on backflow preventers. Please review the Rain Bird Homeowner's Guide to Winterization for detailed instructions on how to prepare your irrigation system for the Winter months.
Rain Bird Homeowner's Guide to Winterization
Every year, before the first freeze, the ritual of irrigation "blow out" becomes the priority for all irrigation systems that are in parts the country where the frost level extends below the depth of the installed piping. Even if you have drained some water out of the system, the remaining water can freeze, expand and crack the PVC piping (rigid, white pipe), usually from fitting to fitting. Polyethylene pipe (flexible, black pipe) is used in many freezing climates. Although polyethylene pipe is more flexible and can expand under pressure, water left inside could freeze and rupture the pipe walls. Freezing water in the backflow assembly will damage the internal components and could possibly crack the brass body. To minimize the risk of freeze damage to your irrigation system, you’ll need to "winterize" your irrigation system Irrigation systems in areas where "winterization" is mandatory are installed using one of three types of water removal in mind: manual drain, auto drain, or blowout. If you don’t know your system type, it would be best to use the blowout method. Manual
Drain Method Automatic
Drain Method In some areas you might have a combination of the manual drain system on the mainline (the pipe between the irrigation water shut off valve and the valves) and auto drain system on the lateral lines (the pipe between the valves and the sprinklers). "Blow
Out" Method in the closed position, attach the air compressor hose to the fitting. Activate the station on the controller that is the zone or sprinklers highest in elevation and the furthest from the compressor. Close the backflow isolation valves. Then slowly open the valve on the compressor; this should gradually introduce air into the irrigation system. The air pressure should be constant at 50 PSI. If the sprinkler heads do not pop up and seal, increase the air pressure until the heads do pop up and seal. The air pressure should NEVER exceed 80 PSI. Each station/zone should be activated starting from the furthest station/zone from the compressor slowly working your way to the closest station/zone to the compressor. Each station/zone should be activated until no water can be seen exiting the heads, this should take approximately two minutes or more per station/zone. It is better to use two or three short cycles per station/zone than to have one long cycle. Once the station/zone is dry, you should not continue to blow air through the pipe. Compressed air moving through dry pipes can cause friction, which will create heat and the heat could cause damage. Additional
Steps Pressure Vacuum Breaker
Types of Valves
Preparing a hydraulic control system? Shut off the water supply to the signal control tube(s) and drain the field tubing. Outdoor mounted controllers? Leave the power on and the dial / switch in the "Off" position. The heat from the transformer will keep the enclosure warm enough to keep condensation from forming inside the controller enclosure. The dial in the "OFF" will keep the controller from activating the solenoids in the field. Indoor mounted controllers? You may either leave the power on and the dial/switch in the "Off" position OR you may remove the battery backup and unplug the transformer. Rain
Sensors? There is not much to do to prepare the rain
sensor for the winter months. If your sensor is the type with
a cup or bowl that catches water, you might want to remove the
water and place a plastic bag over the sensor. This will keep
any water from accumulating and freezing in the cup or bowl
area. If your sensor is the type that uses wafers or discs,
you might want to remove the wafers and store them in the garage
for the winter months. This will keep damp wafers from freezing. The
Do NOTS of "BLOW~OUT" Winterization Download
a PDF from Hunter |
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