Roof and Scupper Drain Grates

Automatic Control Valves: Keeping the Balance:
This course educates the importance of automatic control valves, how they work and the different types of valves for each application.

The Importance of Backflow:
This course outlines how crucial backflow preventers are in a plumbing system and how they are used. The course also outlines different types of backflow devices and how they are assembled.

Guide to HDPE Interceptors:
This course educates on why there is a need for interceptors. Attendees will be able to understand the different types of interceptors and benefits of each material, the methods used for sizing interceptors, and how an interceptor effectively separates the material. The presentation shines light on the differences between gravity vs. hydromechanical interceptors before ending with the differences between IPC and UPC code requirements. 

Guide to Siphonic Drainage:
This course educates on the benefits of using Siphonic drainage vs traditional gravity. Attendees will be able to understand a new method of roof drainage that utilizes smaller diameter pipe running with no pitch, a more efficient roof drain which leads to an overall safer roof with less penetrations, and lastly a look at how to utilize Siphonic drainage to be compliant with changes to code regarding sizing the roof drain based on GPM.

Trap Seal Primers Course Overview:
This course outlines how essential trap seal primers are in a plumbing system. Dry traps can be a passageway for contagious diseases by droplets, and maintain them is crucial, now more than ever. This course also outlines the various types of trap seal primers and their intended uses.

MIFAB® WID exterior access doors are designed to provide convenient access to any exterior application, or anywhere that requires protection against air leakage and/ or water penetration. WID doors are also designed to serve the custom air handling equipment manufacturers, as well as mechanical contractors who field assemble built-up air handling systems. All WID doors are manufactured with extruded aluminum flanged frames and door panel frames. Door panels are satin coat steel with optional stainless steel and aluminum sheet inserts. Door panels are insulated and gasketed. WID doors can be manufactured in custom sizes from 12" x 12" to 96" x 96". Available in 1″, 1 1/2″, 2″ Insulation Thickness.

MIFAB® MFRU Series uninsulated fire rated access door is approved by Underwriters Laboratories Inc., for 1 1/2 hours, “B" label in walls. The door meets ANSI-UL 10B standards. It has a unique white finish.

MIFAB® MPFR Series fire rated access door is approved by Underwriters Laboratories Inc., for 1 1/2 hours, “B" label in walls and is approved by Warnock Hersey for 2 hours in ceilings and 3 hours in walls. The door meets ANSI-UL 10B standards. The same door can be used in walls and ceilings. Tests were conducted using mild steel and type 304 stainless steel.

MIFAB® MPFR-DW Series fire rated access door is approved by Underwriters Laboratories Inc., for 1 1/2 hours, “B" label in walls and is approved by Warnock Hersey for 2 hours in ceilings and 3 hours in walls. It meets ANSI-UL 10B standards. The same door can be used in walls and ceilings. Tests were conducted using mild steel and type 304 stainless steel. The MPFR-DW incorporates a drywall bead type of frame for a concealed frame application.

MIFAB® FHA/FHG Series floor access doors are for interior or exterior use where easy access is required. The angle frame construction with integral anchor flange is designed to be cast into concrete. They are available in either prime coated steel (FHG) or aluminum (FHA). Standard units withstand load bearing of 300 lbs. per square foot. They are designed for safety, durability and ease of operation.

MIFAB® RHA/RHG Series roof hatches are designed to provide convenient, economical access to the roofs of buildings. The are available in either white prime coated galvanized steel (RHG) or aluminum (RHA). All hatches are designed with weather resistant gasketing to ensure long life, low maintenance and ease of operation. Roof hatches install easily over the roof opening and are secured from the base flange to the roof deck.

MIFAB® MI-FVP Series flush valve panel is designed for back supply toilets and urinals where the flush valve is built into the wall. This panel allows easy access to service the flush valve by maintenance personnel. The panel provides protection to the flush valve from vandalism.

MIFAB® PA Series plastic access door is designed to provide easy access to plumbing and cables behind walls and ceilings. The door is removable from the frame and fits tightly with snap latches. The white finish can be painted or wallpapered or left as is to match the surrounding environment. This door should not be installed near any existing or potential source of excessive heat or open flame.

MIFAB® CAD Series recessed access door is designed for use in acoustical, drywall, or tiled surfaces. The door panel is recessed 5/8" (15) to allow the insertion of various types of material. Only the thickness of the door and frame edges are exposed. It has a unique white finish.

MIFAB® CAD-DW Series recessed access door is designed for use in acoustical, drywall, or tiled surfaces. The door panel is recessed 5/8" (15) to allow the insertion of various types of material. The outer frame has a galvanized drywall taping bead. Drywall cement can be applied over the beading at the same time as the wallboard joins and corners. It has a unique white finish.

MIFAB® CAD-FR Series fire resistant access door is designed for use in a suspended drywall ceiling. The CAD-FR is not fire rated. However, the combination of steel and fire rated tile supplied by others may maintain the fire resistant quality of the ceiling assembly. The door is recessed 1 1/2" (38) to accommodate dual layered ceiling tile. Consult local Fire Codes for each application.

MIFAB® CAD-PL Series recessed access door is designed for use in acoustic plaster walls and ceilings. The door panel is recessed 5/8" (15) and is lined with a self-furring metal lath to allow the insertion of plaster within the door panel. A 2 3/4" (70) wide metal lath extends from the perimeter of the frame. Only the thickness of the door and frame edges are exposed. It has a unique white finish.

MIFAB® MI-SAD Series medium security access door is designed for drywall, masonry, or concrete construction, providing the security required in today's schools, hospitals, hotels, and correctional institutions. It has a unique white finish.

MIFAB® MI-SADH Series high security access door is designed to provide security access, with a strength and durability to endure abusive and vandal-prone conditions, common in many institutions. It has a unique white finish.

MIFAB® CAD-FL Series access door is designed for flush installation in drywall or plaster surfaces. The door panel is flush with the frame. When installed flush with the wall or ceiling, only the door panel is exposed. A mounting bracket is recessed 5/8" (15) from the door. It has a unique white finish.

MIFAB® CAD-FL-PL Series recessed access door is designed for flush installation in drywall or plaster surfaces. The door panel is flush with the frame. When installed flush with the wall or ceiling, only the door panel is exposed. A 2 3/4" (70) wide metal lath on all sides provides a rigid frame. A mounting bracket is recessed 5/8" (15) from the door. It has a unique white finish.

MIFAB® MDW Series access door is designed for installation after the drywall has been applied and when a concealed outer flange is required. The outer frame has a galvanized drywall taping bead. Drywall cement can be applied over the beading at the same time as the wallboard joints and corners. Only the door is visible. It has a unique white finish.

MIFAB® UA Series is a multi-purpose access door. It is designed for flush installation into drywall, block or tile, walls and ceilings. The door features rounded safety corners, concealed hinge, flush with frame fit, a unique white finish, and a 3/8" turn back in the door panel for extra rigidity and safety.

MIFAB® MI-VB/VB-SM Series valve box is designed to provide easy access to all types of valves and controls that are concealed in the wall and need to be protected by a fully enclosed box. Can be surface mounted.

MIFAB® Series MI-NEUT solid construction polyethylene body with inlet and outlet, optional vent connections, acidresistant epoxy coated bolted down gasketed lid, stainless steel hardware. The tank is filled with neutralization medium, lump limestone 1″ to 3″ diameter size, water is then added to the tank to help dilution.

MIFAB® Series BV1000 lacquered cast iron backwater valve with no hub inlet and outlet, gasketed bolted cover, and automatic pvc flapper type backwater valve.

MIFAB® Series BV1200-R lacquered cast iron backwater valve with no hub inlet and outlet, gasketed bolted cover, automatic pvc flapper type backwater valve, lacquered cast iron extension to receive pipe extension (by others) and nickel bronze scoriated access cover.

MIFAB® Series BV1210 lacquered cast iron angle pit drain with removable backwater valve and seat.

MIFAB® Series BV1300 in-line gate type manual operated backwater valve, lacquered cast iron body with automatic PVC flapper valve and a bronze gate valve manually controlled by a recessed handle underneath the floor cover connected to a bronze non-rising threaded control rod.

The Automatic Control Valve shall be a Ductile Iron Body and Cover design. The Valve shall have a resilient seal disc, guided top and bottom; Bottom guide will be vanes, sliding in a stainless steel seat arrangement, single seated line pressure operated, diaphragm actuated, pilot controlled, valve. The valve shall seal by means of a stainless steel seat. All parts are to be replaceable in the field without removing the valve from the line. All flange dimensions including face to face lengths shall conform to ISO Standards.

The Automatic Control Valve shall be a Ductile Iron Body and Cover design. The Valve shall have a resilient seal disc, guided top and bottom; Bottom guide will be vanes, sliding in a stainless steel seat arrangement, single seated line pressure operated, diaphragm actuated, pilot controlled, valve. The valve shall seal by means of a stainless steel seat. All parts are to be replaceable in the field without removing the valve from the line. All flange dimensions including face to face lengths shall conform to ISO Standards.

The ACV-HF-EOSSV shall be a Ductile Iron Body and Cover design. The Valve shall have a resilient seal disc, guided top and bottom; Bottom guide will be vanes, sliding in a stainless steel seat arrangement, single seated line pressure operated, diaphragm actuated, pilot controlled, valve. The valve shall seal by means of a stainless steel seat. All parts are to be replaceable in the field without removing the valve from the line. All flange dimensions including face to face lengths shall conform to ISO Standards.

The Automatic Control Valve shall be a Ductile Iron Body and Cover design. The Valve shall have a resilient seal disc, guided top and bottom; Bottom guide will be vanes, sliding in a stainless steel seat arrangement, single seated line pressure operated, diaphragm actuated, pilot controlled, valve. The valve shall seal by means of a stainless steel seat. All parts are to be replaceable in the field without removing the valve from the line. All flange dimensions including face to face lengths shall conform to ISO Standards.

The Automatic Control Valves shall be a Ductile Iron Body and Cover design. The Valve shall have a resilient plug seal, guided top and bottom; Bottom guide will be vanes, sliding in a stainless steel seat arrangement, single seated line pressure operated, diaphragm actuated, pilot controlled, valve. The valve shall seal by means of a stainless steel seat. All parts are to be replaceable in the field without removing the valve from the line. All flange dimensions including face to face lengths shall conform to ISO standards.

The Automatic Control Valve shall be a Ductile Iron Body and Cover design. The Valve shall have a resilient seal disc, guided top and bottom; Bottom guide will be vanes, sliding in a stainless steel seat arrangement, single seated line pressure operated, diaphragm actuated, pilot controlled, valve. The valve shall seal by means of a stainless steel seat. All parts are to be replaceable in the field without removing the valve from the line. All flange dimensions including face to face lengths shall conform to ISO Standards.'

The Automatic Control Valve shall be a Ductile Iron Body and Cover design. The Valve shall have a resilient seal disc, guided top and bottom; Bottom guide will be vanes, sliding in a stainless steel seat arrangement, single seated line pressure operated, diaphragm actuated, pilot controlled, valve. The valve shall seal by means of a stainless steel seat. All parts are to be replaceable in the field without removing the valve from the line. All flange dimensions including face to face lengths shall conform to ISO Standards.

A Water Pressure Reducing Valve with a built in strainer shall be installed in the incoming water line where supply main pressure exceeds 60psi (413 kPa). The Pressure Reducing Valve shall consist of a bronze body and metal cap, and shall have an adjustment screw to allow adjusting the pressure down to 50PSI (345 kPa), and shall be designed for incoming pressures up to 300 PSI (20.7 bar). The device must have a built in strainer that will stop debris from entering the pressure reducing chamber and is removable for cleaning. Valve shall be of the balanced piston design and shall reduce pressure in both flow and no-flow conditions.

A Water Pressure Reducing Valve with a built in strainer shall be installed in the incoming water line where supply main pressure exceeds 60psi (413 kPa). The Pressure Reducing Valve shall consist of a bronze body and metal cap, and shall have an adjustment screw to allow adjusting the pressure down to 50PSI (345 kPa), and shall be designed for incoming pressures up to 300 PSI (20.7 bar). The device must have a built in strainer that will stop debris from entering the pressure reducing chamber and is removable for cleaning. Valve shall be of the balanced piston design and shall reduce pressure in both flow and no-flow conditions.

Beeco Air Gaps provides the unobstructed, physical separation between the discharge end of a potable water supply line and an open receiving vessel.

Beeco's ASVB Anti-Siphon Vacuum Breaker is designed with pipe size flow paths to minimize flow loss through the device. Available in both Brass and Polished Chrome Plated Models. Valve should be positioned for accessibility for routine maintenance.

The standard Beeco Air and Vacuum Valve (K) exhausts large quantities of air when the system is filling. The valve will remain open until the liquid has reached the float and is lifted into its seat, closing the valve. Likewise when a vacuum occurs, the float will drop, allowing air into the system to prevent pipe collapsing due to the negative pressure.

The standard Beeco Air and Vacuum Valve (K) exhausts large quantities of air when the system is filling. The valve will remain open until the liquid has reached the float and is lifted into its seat, closing the valve. Likewise when a vacuum occurs, the float will drop, allowing air into the system to prevent pipe collapsing due to the negative pressure.

The valve is designed for an efficient release of entrapped air from the pipeline, while the network is at normal working pressure. Due to the relatively large orifice, compare to other automatic valves in the market, it can also release the air through initial filling of a small-diameter pipe, or admit air into it while it is drained.

This valve has been designed for efficient discharge and intake of air in water transport systems, filtering systems, containers, and other places where confined air could impair the system's operation. The valve is appropriate for:

• Expelling the air at high flow velocity during the initial filling of the systems.
• Introducing large quantities of air when the pipe drains, maintaining atmospheric pressures in the pipe and preventing collapse and cavitation damage to the conduits.

This valve has been designed for efficient discharge and intake of air in water transport systems, filtering systems, containers, and other places where confined air could impair the system's operation. The valve is appropriate for:

• Expelling the air at high flow velocity during the initial filling of the systems.
•  Introducing large quantities of air when the pipe drains, maintaining atmospheric pressures in the pipe and preventing collapse and cavitation damage to the conduits.
• Relieving the entrained air from the water, while the network is pressurized.

Check valves are mechanical valves that permit gases and liquids to flow in only one direction, preventing process flow from reversing. They are classified as one-way directional valves. Fluid flow in the desired direction opens the valve, while backflow forces the valve closed. The mechanics of check valve operation are not complicated.

Check valves are mechanical valves that permit gases and liquids to flow in only one direction, preventing process flow from reversing. They are classified as one-way directional valves. Fluid flow in the desired direction opens the valve, while backflow forces the valve closed. The mechanics of check valve operation are not complicated.

The Beeco Full Port Ball Valve is a two piece Bronze Ball Valve with a chrome plated ball. The valve has a blow out proof stem with adjustable packing. Its full port design eliminates the significant pressure losses caused by standard reduced port valves.

The Beeco Full Port Ball Valve is a two piece Bronze Ball Valve with a chrome plated ball. The valve has a blow out proof stem with adjustable packing. Its full port design eliminates the significant pressure losses caused by standard reduced port valves.

The Beeco® Silent Check Valve is designed to reduce water hammer while performing all the same requirements of a swing check valve. The Sweat Version is designed to solder into lines without disassembly; a low temperature solder should be used in order to eliminate damage to the seating surface.

The BEECO Swing Check valves are used to prevent backflow protecting system equipment. Swing check valves are used to prevent flow reversal in piping systems. They are suitable for service in horizontal or vertical flow upward installation. Swing check valves have low pressure drop and are best suited for moderate velocity applications.

The BEECO In Line Dual Check Valve prevents the reverse flow of polluted water from entering into the drinking water supply. It is designed to be used in either the horizontal or vertical position and should be placed at the service entrance or can be used as a point of use device. This device is designed for continuous pressure applications in non-health hazard residential water system containment. It should be installed right after the water meter. Check with your local inspection authorities for installation requirements.

The BEECO DCAV is designed primarily for use on boiler feed lines to prevent backflow contamination when the pressure in the supply line is below the pressure in the boiler feed line. It is designed to be used in either horizontal or vertical applications. It is designed for use under continuous pressure applications. Check with your local inspection authorities for installation requirements.

he Dielectric Union shall be rated for 250 psi (ANSI B 16.39). The body and nut shall be steel with galvanized coat, the gaskets shall be EPDM, the insulator shall be nylon, and the tailpiece shall be brass.

The Beeco Eccentric Plug Valve is designed to operate in clean and dirty water applications. The valve performs well in sludge and slurry liquid applications as well. The valve seals with a “drop tight" closure. The interior design allows for a full flow with very little pressure drop.

The BEECO Flex Check Valve is designed to mitigate disc slam. Since the disc only has to travel approximately 35 degrees from a full open position to a fully closed position, the disc will close before flow reversal occurs in most applications.

The BEECO® GV-FXF-NRS Series is an AWWA C515 flange x flange resilient seated gate valve with a non-rising stem. Flanges are to ANSI B16.1, Class 125 drilling pattern. The body, bonnet, and wedge (disc) are of high strength ductileiron, ASTM A536, Grade 65-45-12. The wedge is encapsulated with EPDM rubber. The stem and bolts are of stainless steel.

The BEECO® GV-FXF-NRS-MJ Series is an AWWA C515 Mechanical Joint x Mechanical Joint resilient seated gate valve with a non-rising stem. MJ bells are to AWWA C153 Standard. The body, bonnet, and wedge (disc) are of high strength ductile-iron, ASTM A536, Grade 65-45-12. The wedge is encapsulated with EPDM rubber. The stem and bolts are of stainless steel.

The BEECO® Series GV-FXF-OSY is a Flanged by Flanged OS&Y (Outside Screw and Yoke) Resilient Seated Gate Valve. It is manufactured in compliance with AWWA C515 Standard. Flanges are to ANSI B16.1, Class 125 drilling pattern. The body, bonnet, and wedge (disc) are of high strength ductile-iron, ASTM A536, Grade 65-45-12. The wedge is encapsulated with EPDM rubber. The stem and bolts are of stainless steel.

The BEECO® GV-FXF-UL/FM Series is a UL Listed / FM Approved OS&Y (Outside Screw and Yoke) Resilient Seated Gate Valve. It is manufactured in compliance with AWWA C515 Standard. Flanges are to ANSI B16.1, Class 125 drilling pattern. The body, bonnet, and wedge (disc) are of high strength ductile-iron, ASTM A536, Grade 65-45-12. The wedge is encapsulated with EPDM rubber. The stem and bolts are of stainless steel.

The BEECO® Series GV-FXG-NRS is a Flanged x Grooved gate valve. It features a non-rising stem for use in compact areas. All flanged dimensions comply with ANSI B16.1, Class 125; Grooved dimensions comply with AWWA C606 Standard. The body, bonnet, and wedge (disc) are of high strength ductile-iron, ASTM A536, Grade 65-45-12. The wedge is encapsulated with EPDM rubber. The stem and bolts are of stainless steel.

The BEECO® Series GV-FXG-OSY is a Flanged x Grooved resilient seated OS&Y (Outside Screw and Yoke) gate valve. All flanged dimensions comply with ANSI B16.1, Class 125; Grooved dimensions comply with AWWA C606 Standard. The body, bonnet, and wedge (disc) are of high strength ductile-iron, ASTM A536, Grade 65-45-12. The wedge is encapsulated with EPDM rubber. The stem and bolts are of stainless steel.

The BEECO® GV-FXG-UL/FM Series is a UL Listed / FM Approved Flanged by Grooved OS&Y (Outside Screw and Yoke) Resilient Seated Gate Valve. It is manufactured in compliance with AWWA C515 Standard. Flanges are to ANSI B16.1, Class 125 drilling pattern. Grooved dimensions are to AWWA C606 Standard. The body, bonnet, and wedge (disc) are of high strength ductile-iron, ASTM A536, Grade 65-45-12. The wedge is encapsulated with EPDM rubber. The stem and bolts are of stainless steel.

The BEECO® Series GV-GXG-NRS is a grooved x grooved gate valve. It features a non-rising stem for use in compact areas. All grooved dimensions comply with AWWA C606 Standard. The body, bonnet, and wedge (disc) are of high strength ductile-iron, ASTM A536, Grade 65-45-12. The wedge is encapsulated with EPDM rubber. The stem and bolts are of stainless steel.

The BEECO® GV-GXG-OSY Series is a Grooved x Grooved resilient seated OS&Y (Outside Screw and Yoke) gate valve. All grooved dimensions comply with AWWA C606 Standard. The valve complies with AWWA C515 Standard. The body, bonnet, and wedge (disc) are of high strength ductile-iron, ASTM A536, Grade 65-45-12. The wedge is encapsulated with EPDM rubber. The stem and bolts are of stainless steel.

The BEECO® Series GV-GXG-UL/FM is a UL Listed / FM Approved Grooved by Grooved OS&Y (Outside Screw and Yoke) Resilient Seated Gate Valve. It is manufactured in compliance with AWWA C515 Standard. Grooved dimensions are to AWWA C606 Standard. The body, bonnet, and wedge (disc) are of high strength ductile-iron, ASTM A536, Grade 65-45-12. The wedge is encapsulated with EPDM rubber. The stem and bolts are of stainless steel.

Designed for installation on potable water lines such as service sinks, laundry tubs and hose bibbs to protect against backsiphonage of polluted water into the potable water supply. Assembly shall provide protection where a potential health hazard does not exist.

Jumper Kits are used in new construction to temporarily take the place of your BEECO Pressure Reducing Valve, prior to the actual installation on potable water supply systems. The use of a this BEECO jumper permits testing of the building piping system for leaks and pressure loss and allows for flushing or construction debris prior to the installation of the water pressure reducing valve. The jumper kit reduces loss from theft or vandalism in area where there is not security around the clock. Kits consist of union connections, washers, a SS strainer and a brass pipe nipple.

The BEECO MI-CONTROL Series is designed to be used where a water heater shut-off and thermal expansion relief valve are needed in combination to provide protection for your plumbing system against thermal expansion.

BEECO Pressure Gauges are designed for use in residential, commercial, industrial and HVAC applications. Accuracy to ASME type B with a copper alloy NPT connection in various sizes and ratings.

Anti-Siphon Pressure Vacuum Breakers prevent the reverse flow of polluted water from entering into the potable water supply due to backsiphonage. Designed to stop contaminated water from entering into the potable water supply. Designed for use under continuous pressure. Assembly shall provide protection where a potential health hazard exists. It shall consist of bronze body construction, plastic check valve seat, stainless steel springs, a bonnet with silicone rubber O-ring seal, silicone rubber check valve disc, a lightweight plastic disc float, handles to shutoff water flow to the valve, and test cocks for winterization, draining and testing.

BEECO Style RPC Rigid Pipe Couplings provide a zero-flexibility combination of the piping system. The angle-pad design of 60 degrees adjust to steel pipes and roll/cut groove tolerances, positively clamping the pipe to resist flexural and torsion loads. Angle pad design and swing-over installation permit assembly by removing one nut/bolt and swinging housing over gasket, reducing assembly time and effort.

The Beeco Silent Check Valve is a fast-closing check valve that is designed to prevent slam when closing. It eliminates water hammer with a check valve that operates smoothly and silently itself. The Beeco SCV Series features a center guided single disc with bronze or stainless seating with special stainless steel spring control to insure positive, noiseless opening and closing.

The “Y" type strainer shall be a bronze body strainer with a bronze cap and a stainless steel mess screen. The valve shall be designed so the screen can be cleaned without removal of the valve from the pipe line and shall be equipped with a enclosure plug in the brass clean out cap for the addition of a test gauge or secondary water line.

The Ductile Iron “Y" type strainer shall be in 125 Class and conform to ANSI B16.1, and both the body and access cover shall be made of Ductile Iron A536 65-45 12. The valve shall be supplied with a drain/blow-off connection with a ductile iron closure plug. The integral strainer screen shall be accessible for cleaning without removing the device from the line.

The Ductile Iron “Y" type strainer shall be in 125 Class and conform to ANSI B16.1, and both the body and access cover shall be made of Ductile Iron A536 65-45 12. The valve shall be supplied with a drain/blow-off connection with a ductile iron closure plug and will have an FDA approved epoxy coating inside and out. The integral strainer screen shall be accessible for cleaning without removing the device from the line.

The BEECO Silent Check Valve is a fast-closing check valve that is designed to prevent slam when closing. Cast Iron Silent Check Valves are designed to prevent water hammer effect. The spring design allows the closure disc to travel further than other valves of this style, decreasing flow loss.

The BEECO® Series Barracuda 20 Double Check Valve Assembly (DC) is designed to prevent non-health hazard pollutants from entering the potable water supply system caused by backpressure and/or backsiphonage conditions. USC approved.

The BEECO® Series Barracuda 40 Reduced Pressure Valve Backflow Prevention Valve prevents non-health hazard pollutants and hazardous contaminants from entering a potable water supply system when backpressure and/or backsiphonage conditions occur. This product is designed for the waterwork, plumbing, and irrigation markets only. USC approved.

The BEECO Friendly Double Check Detector Assembly is designed to stop the reverse of flow of a liquid into a potable water system. The proper installation of a backflow preventer must be done by a certified expert under local codes and guidelines to assure the protection of the drinking water system. The Valve shall be certified to ASSE 1048, CSA B64.5 and IAPMO listed. Certified lead free devices.

The BEECO Friendly Double Check Backflow Preventer Valve is designed to stop the reverse of flow of a liquid into a potable water system. The proper installation of a backflow preventer must be done by a certified expert under local codes and guidelines to assure the protection of the drinking water system. The Valve shall be certified to ASSE 1015, CSA B64.5 and IAPMO listed.

The BEECO Friendly Double Check Backflow Preventer Valve is designed to stop the reverse of flow of a liquid into a potable water system. The proper installation of a backflow preventer must be done by a certified expert under local codes and guidelines to assure the protection of the drinking water system. The Valve shall be certified to ASSE 1015, CSA B64.5 and IAPMO listed. Certified lead free devices.

Replacement checks for 3/4" - 10 models.

Rubber Kits for 1/2"-10 models.

The BEECO Friendly Reduced Pressure Zone Backflow Preventer is designed to stop the reverse of flow of a liquid into a potable water system. The proper installation of a backflow preventer must be done by a certified expert under local codes and guidelines to assure the protection of the drinking water system. The Valve shall be certified to ASSE 1013, CSA B64.4 and IAPMO listed.

The BEECO Friendly Reduced Pressure Zone Backflow Preventer Valve is designed to stop the reverse of flow of a liquid into a potable water system. The proper installation of a backflow preventer must be done by a certified expert under local codes and guidelines to assure the protection of the drinking water system. The Valve shall be certified to ASSE 1013. Is Certified to cUPC and IAPMO listed.

Replacement for 2nd check for 3/4" - 10 models.

Replacement checks for 3/4" - 10 models.

Rubber Kits for 1/2"-10 models.

Rubber Repair Kit, FDC Model (2006 and Prior).

Rubber Repair Kit, FDC Model 2 and DDC II Model (2006 and Prior)

Rubber Repair Kit, FRPII.

All rubber seats and seals, relief valve only.

The BEECO Friendly Reduced Pressure Zone Backflow Detector Preventer Valve is designed to stop the reverse of flow of a liquid into a potable water system. The proper installation of a backflow preventer must be done by a certified expert under local codes and guidelines to assure the protection of the drinking water system. The Valve shall be certified to ASSE 1015, Is Certified to cUPC and IAPMO listed.

Rubber Repair Kit FRP #6CM Bronze Design.

Rubber Repair Kit FRP #6CM Cast Iron Design.

Rubber Repair Kit FRP 6C Bronze Design.

Rubber Repair Kit FRP 6C Cast Iron Design.

BEECO Spools and Spacers are custom made to retrofit into existing field installations where a shorter length valve is being installed.

The BEECO Test Kit is a compact portable device made for testing, reduced pressure zone assemblies, and double check valve assemblies, pressure vacuum breakers and anti-spill vacuum breakers.

The AP Series is designed to provide support for all electrical and HVAC equipment. Grooved recessed tray prevents movement and dampens vibration. Allows water passage; prevents growth of moss and mold. Lightweight. Consult roofing manufacturer or engineer for roof loading.

The best selling C-Port, the C Series channel support is designed for superior support of gas and refrigeration piping systems, cable tray, electrical conduit, multiple lines, HVAC equipment and hundreds of other applications.

The C510 and C6 Series provided additional height beyond the C-Series to meet various building codes. Just like the C Series they are designed for support of gas and refrigeration piping systems, cable tray, electricalc onduit, multiple lines, HVAC equipment.

The CB10 Bridge channel is designed as a superior sleeper for HVAC equipment, cable tray, roof walkway systems, refrigeration equipment and many other applications. It is UV resistant and suitable for installation on most types of roofing material or other flat surfaces.

The CE Series is designed for extended support of gas and refrigeration piping systems, cable tray, electrical conduit, multiple lines, HVAC equipment and many other applications. It is suitable for most types of roofing material or other flat surfaces.

The CES10 Series can support gas and refrigeration piping systems, cable tray, electrical conduit, multiple lines, HVAC equipment and many other applications. It is designed for rooftop applications requiring a heavier load bearing, and is suitable for most types of roofing material or other flat surfaces.

The CP36 Series is designed as a non-penetrating lightweight to bring to level platform surface. It is used for air conditioning, air condensing units, HVAC, and other electrical units. Free-flow leg system allows water passage. Other featuresinclude: prohibits moss and mold growth, easy to install, easy movement brackets that are suitable for all types of equipment, and adjustable. Consult roofing manufacturer or engineer for roof loading.

The CR10 Series is designed for superior support of gas and refrigeration pipes. The roller allows for longitudinal movements of the pipe. This support is suitable for most types of roofing material or other flat surfaces. The roller bracket has roller mounting holes 1″ apart so that the roller can be adjusted from 6″ or 7″ from the center line to the ground.

The CRE10 Series is designed for superior support of gas and refrigeration pipes at a higher elevation from the roof surface. The roller allows for longitudinal movements of the pipe. This support is suitable for most types of roofing material or other flat surfaces.

The CRM Series is the smallest C-PORT to come with a rubber roller to support gas and refrigeration pipes while allowing for small longitudinal movements. The CRM-B provides a less expensive alternative to the larger roller C-PORT. It's ideal for smaller pipes, and is adjustable in height by 1". Available with a 3" or 4" rubber roller.

CS Vari-Angle support is variable angle support designed for ventilation duct, walkway systems, HVAC equipment and many other applications installed on sloped or uneven surfaces. Adapter leg will accommodate 1 5/8" x 1 5/8" steel strut for framing. It is UV resistant and suitable for installation on most types of roofing material and sloped surfaces.

The CSE Series pipe / tubing support is engineered to support single piping systems where elevation adjustment is required.

The CXH model is the most economic and the smallest of the C-Port line, perfect for conduit and small piping.

The CXM-B and C5-B Mini-Port model is perfect for conduit and small piping. Often used in solar, telecom, and many other applications.

The CXP model is designed as an economical support of all types of conduit, pipes, and literally hundreds of other applications. The CXP is UV resistant and suitable for many types of roofing material or other flat surfaces.

The CZ Seismic Series is designed for superior support of gas and refrigeration piping systems, cable tray, electrical conduit, multiple lines, HVAC equipment and many other applications. This is a penetrating support fastened to the structure under the membrane. It is ideally designed for hurricane resistance or seismic applications. It is suitable for most types of roofing material or other flat surfaces.

The DSA10 Series is designed specifically for ductwork. The telescopic crossbeam allows for easy size adjustments. The bases feature vari-angle supports to adapt to any roof pitch and are made of 100% recycled rubber. Narrower bases are used with the DSA10 Series.