LF009-NRS-FS 3
Part of the LF009 Series
Ordering Code: F122613
UPC: 098268520002
Lead Free: YES
3 IN Cast Iron Reduced Pressure Zone Backflow Preventer Assembly, NRS Shutoff, Lever Handles, ArmorTek Coating, Backflow Flood Sensor
This 3 inch lead free reduced pressure zone backflow preventer assembly is designed to prevent the flow of polluted water from entering into the potable water supply due to backsiphonage and or backpressure. Ideal for protection in continuous pressure piping applications and at cross-connections identified as health hazards and for contaminants at the service line entrance. This assembly consists of a cast iron body, non-rising stem resilient seated gate valves, top mounted test cocks, two in-line independent check valves, captured springs and replaceable check seats with an internal relief valve for reduced space requirements. The coating on this backflow assembly uses ArmorTek(R), a patented 3-part advanced epoxy coating system designed to limit both microbial induced (MIC) and exposed metal substrate corrosion. This backflow assembly includes flood sensor with SentryPlus Alert(R) technology to detect excessive water discharges from the relief valve. When activated through an add-on sensor connection kit, the flood sensor can send an alert to notify the user of potential flooding. Add-on sensor connection kits are available for both BMS and cellular communications.
Features
- Features flood sensor with SentryPlus Alert technology to detect excessive water discharges from the relief valve
- Alert features available with add-on sensor connection kit
- Utilizes advanced ArmorTek coating technology to resist corrosion of internals
- Cast iron body construction with patented 3-part advanced epoxy coating system designed to limit both microbial induced (MIC) and exposed metal substrate corrosion
- Non-rising stem resilient seated gate valves
- Compact, space saving design
- Compact, space saving design
Specifications | |
---|---|
ArmorTek Technology | Yes |
Backflow Preventer Type | Reduced Pressure Zone Assembly |
Body Finish | Epoxy Coated Using ArmorTek Technology |
Body Material | Cast Iron |
Body Pattern | Inline |
Brand | Watts |
Bypass | No |
Bypass Size | Does Not Apply To Product |
Cap And Tether | No |
Disc Material | Rubber |
EAN | 098268520002 |
Elbow Fitting | No |
Hazard Protection Level | Health Hazard |
Hot And Harsh Water | No |
Hydrant Connection | No |
Inlet Connection Size | 3 IN |
Inlet Connection Size-Metric | 80 MM |
Inlet Connection Type | Flanged Joint |
Inlet Shutoff Valve Type | Non Rising Stem Gate Valve |
Inlet Thread Type | Does Not Apply To Product |
Lead Free | YES |
Maximum Temperature-Fahrenheit | 140 |
Maximum Working Pressure-BAR | 12.10 |
Maximum Working Pressure-PSI | 175 |
Meter Type | No Meter |
Minimum Temperature - Celsius | 0.55 |
Minimum Temperature-Fahrenheit | 33 |
Outlet Connection Size | 3 IN |
Outlet Connection Type | Flanged Joint |
Outlet Shutoff Valve Type | Non Rising Stem Gate Valve |
Outlet Thread Type | Does Not Apply To Product |
Part Number | F122613 |
Polymer Coating | No |
Pressure Operation | Continuous |
Protection Type | Backpressure and Backsiphonage |
Seat Material | Stainless Steel |
Series | LF009 |
Strainer | No |
Technologies | Flood Detection |
Literature
-
- Flyer - Flood Detection for RPZ/RPDA Backflow Preventers with Flood Sensor
- Flyer - Flood Detection for RPZ/RPDA Backflow Preventers with Flood Sensor (French)
- Installation Instructions - 009, LF009, LFU009, SS009, U009
- Installation Instructions - BMS Sensor Connection Kit - 009, LF009, LFU009, SS009, U009, LF909 Small
- Installation Instructions - Cellular Sensor Connection Kit - 009, LF009, LFU009, SS009, U009, LF909 Small
- Specification Sheet - Flood Sensor Connection Kit - Watts
- Specification Sheet - Flood Sensor Connection Kit - Watts (French)
- Specification Sheet - Flood Sensor Connection Kit - Watts (Spanish)
- Specification Sheet - LF009
- Specification Sheet - LF009 (French)
- Specification Sheet - LF009 (Spanish)
- White Paper - ArmorTek Advanced Coating System