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Home My WebLink AboutPOLYTHYLENE PLASTIC PIPI- IPS7 'ZEGNC(NQREGULATORSMEGR-1100, 1200 AND 1600 SERIES INSTALLATION AND OPERATING INSTRUCTIONS !WARNING! Failure to follow these instructions or to properly install and maintain this equipment could result in an explosion and/or fire causing property damage and personal injury or death. Marshall Excelsior equipment must be installed, operated and maintained in accordance with federal, state and local codes and MEC instructions. The installation in most states must also comply with NFPA 54 and NFPA 58 standards. Only personnel trained in the proper procedures, codes, standards and regulations of the LP-Gas industry shall install and service this equipment. Things to tell the gas customer: 1.Show the customer the vent, vent assembly or vent line. Stress that this opening must remain unobstructed at all times. Tell the customer to check the vent opening after a freezing rain, sleet storm, or snow to make sure ice has not formed in the vent. 2.Show the customer the shutoff valve on the container. The customer should close this valve immediately if gas is smelled, appliance pilot lights fail to stay on or appear higher than usual or any other abnormal situation occurs. 3.Tell the customer to call your company to service the regulator if the regulator vents gas or a leak develops in the system. Only a qualified gas service person shall install or service the regulators. Scope of the Manual This instruction manual covers installation and maintenance for the first stage, second stage, and integral two-stage regulators used on LP-Gas vapor service applications. They are not to be used on liquid service. Description 25 Year Recommended Replacement Life: The MEC Regulator Series is designed using rugged time-proven design concepts and constructed of corrosion resistant materials, both internally and externally. With proper installation and periodic inspection and maintenance, they will meet a 25 Year Recommended Replacement Life. Screened Drip-Lip: Screened Drip-Lip is oriented either over the inlet, outlet, or at 90° depending on the configuration. Pressure Tap Size Restrictions: 1/8" NPT / #54 (0.055") orifice on all pressure points. Temperature Capabilities: -40°F to 160°F (-40°C to 71°C) Contact the factory if the regulator is to be used on any service other than LP-Gas. The following information is located on the spring case: The Part Number, orifice size, spring range and date code. 2nd Stage Low Pressure Regulator - UL Listed: The second stage regulator is designed to reduce the outlet pressure from a first-stage regulator (usually 10 psig (0,69 bar)) to an outlet pressure of 11 -inches water column (27 bar). The combination of a high capacity relief valve and large vent provide overpressure protection which exceeds UL standards and is capable of limiting the downstream pressure to 2 psig (0,14 bar) even in a double failure situation when used with a first-stage regulator. Integral Two-Stage Regulator - UL Listed: The integral two-stage regulator contains a non-adjustable first stage regulator on the inlet of the second stage portion of the regulator. It is designed to reduce the tank pressure to an outlet pressure of 11 inches water column. The second stage portion has a high capacity internal relief valve construction. The first stage does not have an internal relief valve. First Stage Regulator - UL Listed: The first stage regulators are designed for high pressure (pounds per square inch) vapor service. These regulators have high capacity internal relief valves. The outlet pressure setting is factory set at a nominal 10 psig (0,69 bar). 2 PSI Service Regulator - UL Listed: The 2 PSI service regulator is designed to reduce the outlet pressure from a first-stage regulator (usually 10 psig (0.69 bar)) to a nominal outlet pressure of 2 psig (0,14 bar). The combination of high capacity relief valve and large vent provide overpressure protection which exceeds UL standards and is capable of limiting the downstream pressure in a double failure situation when used with a first-stage regulator. 2-PSI Integral Two Stage Regulator - UL Listed: The integral two-stage 2 PSI regulator contains a non-adjustable first stage regulator on the inlet of the second stage portion of the regulator. It is designed to reduce the tank pressure to a nominal outlet pressure of 2 psig (0,14 bar). The second stage portion has a high capacity internal relief valve construction. The first stage does not have an internal relief valve. Installation !WARNING! All vents should be kept open to permit free flow of air in and out of the regulator. Protect vent openings against the entrance of rain, snow, ice formation, paint, mud, insects or any other foreign material that could plug the vent or vent line. LP-Gas may discharge to the atmosphere through the vent. An obstructed vent which limits air or gas flow can cause abnormally high pressure that could result in personal injury or property damage. Made in the U.S.A.8'ZEGNC(NQREGULATORSMEGR-1100, 1200 AND 1600 SERIES INSTALLATION AND OPERATING INSTRUCTIONS Installation (Continued) !WARNING! The first stage and integral two-stage regulators are not suitable for indoor installations. Never use them on low pressure (inches of water column) service because personal injury or property damage could occur. Before installation: x Check for damage, which may have occurred in shipment. x Check for and remove any dirt or foreign material that may have accumulated in the regulator body. x Replace old pigtails. Blow out any debris, dirt or copper sulfate in the copper tubing and the pipeline. x Apply pipe compound to the male threads of the pipe before installing the regulator. x Make sure gas flow through the regulator is in the same direction as the arrow on the body. "Inlet" and "Outlet" connections are clearly marked. Installation Location, see Figure 2: x The installed regulator should be adequately protected from vehicular traffic and damage from other external sources. x Install the regulator with the vent pointed vertically down. If the vent cannot be installed in a vertically down position, the regulator must be installed under a separate protective cover. Installing the regulator with the vent down allows condensation to drain, minimizes the entry of water or other debris from entering the vent, and minimizes vent blockage from freezing precipitation. x Do not install the regulator in a location where there can be excessive water accumulation or ice formation, such as directly beneath a down spout, gutter or roof line of building. Even a protective hood may not provide adequate protection in these instances. x Install the regulator so that any gas discharge though the vent or vent assembly is over 3 -feet (0,9 meters) horizontally from any building opening below the level of discharge and not less than 5- feet in any direction away from any source of ignition, openings into direct vent appliances, or mechanical ventilation air intakes. x Install the regulator high enough above ground level - at least 24- inches (60 cm) - so that rain splatter cannot freeze in the vent. x Some installations, such as in areas with heavy snowfall, may require a hood or enclosure to protect the regulator from snow load and vent freeze over. Horizontally Installed Regulators, see Figure 3: Horizontally mounted regulators, such as found in single cylinder installations and ASME tanks, must be installed beneath a protective cover or under the ASME tank dome. If possible, slope or turn the vent down sufficiently to allow any condensation to drain out of the spring case. Be careful that the slot in the tank dome or protective cover for the regulator's outlet piping does not expose the vent to the elements. The first stage vent on the integral two-stage regulator should be pointed down. Indoor Installations, see Figure 4: The first stage and integral regulators are not recommended for indoor installations. The second stage regulator may be installed indoors as follows. By code, regulators installed indoors have limited inlet pressure, and they require a vent line to the outside of the building. A vent assembly, such as MEC ME960 or at least 3/4" NPT pipe, Gray PVC Schedule 40 Rigid Non- Metallic Electrical Conduit for above Ground Service, per UL 651, should be used. The same installation precautions, previously discussed throughout this manual for the regulator vent, apply to the end of the vent tube assembly. Vent lines must not restrict the gas flow from the regulator's internal relief valve. To install the vent line, remove the vent screen and apply a good grade of pipe compound to the male threads of the line. Vent lines should be as straight as possible with a minimum number of bends. Underground Installations, see Figure 5: !WARNING! The integral two-stage regulators require 2 vent lines, one for the first stage vent (1/4" OD copper tube inverted flare connection: 7/16-24 UN thread) and the other for the second stage vent (3/8" NPT) of the regulator. Failure to use 2 separate vent tubes can result in early regulator failure and / or over pressuring the second stage that could result in fire or personal injury. 9 'ZEGNC(NQREGULATORSMEGR-1100, 1200 AND 1600 SERIES INSTALLATION AND OPERATING INSTRUCTIONS A regulator installed in the dome of an underground container requires a vent line to prevent water from entering the regulator spring case. Remove the vent screen(s) and install a vent line(s). The vent line must be run from the regulator vent(s) to above the maximum water table. The vent line opening(s) must terminate at the extreme top inside of the dome cover. Make sure the regulator's closing cap is on tightly, and maintain drainage away from the dome at all times. Adjustment Each regulator is factory set. If it becomes necessary to increase the outlet pressure, remove the closing cap and turn the adjustment screw clockwise. Turn the adjusting screw counterclockwise to decrease the outlet pressure. The inlet and outlet pressure tap plugs may be removed using a 7/16" wrench. The pressure tap is restricted with a #54 orifice, so the plug can be removed with pressure in the regulator. Install a pressure gauge to determine the regulator's inlet pressure and outlet setting during adjustment. Actual pressure at the second stage regulator may be less due to line loss. After setting, add thread sealant to the pipe plug and reinstall it. Replace the closing cap. Check the plug for leakage. Overpressure Protection !WARNING! Some type of overpressure protection is needed if actual inlet pressure can exceed the inlet pressure rating. Overpressuring any portion of this equipment above the limits shown in the Specifications may cause damage to regulator parts, leaks in the regulator, or personal injury due to bursting of pressure- containing parts or explosion of accumulated gas. If any portion of the regulator is exposed to an overpressure condition that exceeds the limits in the Specifications, it must be inspected for damage that may have occurred. Large volumes of gas may discharge though the regulator vent during internal relief valve operation, which can, if not controlled, result in fire or explosion from accumulated gas. The first stage, integral two-stage, and second stage series regulator, except for the first stage of the integral two-stage, contain internal relief valves. The internal relief valve in all units will give overpressure protection against excessive build-up resulting from seat leakage due to worn parts, chips or foreign material on the orifice. The amount of internal relief protection provided varies with the regulator type and the cause for the overpressure relief valve operation. When the internal relief valve opens, gas escapes to the atmosphere through the regulator's vent. Some type of additional external overpressure protection must be provided if the outlet pressure in an overpressure condition exceeds the inlet pressure rating of the gas system or downstream equipment. Common methods of external overpressure protection include relief valves, monitoring regulators, shutoff devices, and series regulation. Maintenance !WARNING! To avoid personal injury or equipment damage, do not attempt any maintenance or disassembly without first isolating the regulator from system pressure and relieving all internal pressure. Regulators that have been disassembled for repair must be tested for proper operation before being returned to service. Only parts manufactured by MEC should be used for repairing MEC regulators. Relight pilot lights according to normal startup procedures found in the appliance manufacturers’ instructions. Due to normal wear or damage that may occur from external sources, these regulators must be inspected and maintained periodically. The frequency of inspection and replacement of the regulators depends upon the severity of service conditions or the requirements of local, state and federal regulations. Even under ideal conditions, these regulators should be replaced after 25 years from date of manufacture or sooner should inspection reveal the need. Visually inspect the regulator each time a gas delivery is made for: x Improper installation; such as vent not pointed vertically down or under a cover, no vent line on underground systems x Plugged or frozen vent x Wrong regulator or no regulator in the system x External corrosion x Flooded Regulator; water in spring case, regulator submersed on underground tanks x Regulator age x Any other condition that could cause the uncontrolled escape of gas Failure to do the above could result in personal injury or property damage. Vent Opening Make sure the regulator vent, vent assembly, or vent line does not become plugged by mud, insects, ice, snow, paint, etc. The vent screen aids in keeping the vent from becoming plugged; the screen should be clean and properly installed. Water inside Regulators from Floods, Weather or Water Table on Underground Systems Replace any regulator that has been flooded or has been submersed below the water, has water in the spring case or shows evidence of external or internal corrosion. Checking for internal corrosion on the first stage and integral two-stage of the second stage portion, can be done by removing the closing cap and with the aid of a flashlight observing the condition of the relief valve spring, main spring and internal spring barrel area. A more detailed examination will require shutting down the gas system and the complete removal of the adjusting screw. The second stage regulator must be completely disassembled by a qualified person to look for internal corrosion. Closely examine regulators installed with their vent horizontal for signs of corrosion. Correct any improper installations. Regulator Replacement Older regulators are more likely to fail catastrophically because of worn or corroded parts. Replace all regulators over 25 years of age. Other service or environmental conditions may dictate replacement of the regulator before the end of its 25 year service life. Regulators that are installed on underground systems and in areas that are subject to sea salt (coastal) atmospheres should be inspected annually for external and internal corrosion and may require replacement sooner. Regulator Repair Only personnel trained in the proper procedures, codes, standards and regulations of the LP-Gas industry shall install and service this equipment. Regulators that have been disassembled for repair must be tested for proper operation before being returned to service. Only parts manufactured by MEC should be used to repair MEC regulators. Be sure to give the complete Part Number of the regulator when corresponding with the factory. The part number, orifice size, and spring range are on a label attached to the spring barrel. The date of manufacture is stamped on the regulator. Always provide this information in any correspondence with your MEC Distributor regarding replacement parts or technical assistance. If construction changes are made in the field, be sure that the regulator marking is also changed to reflect the most recent construction. Made in the U.S.A.10'ZEGNC(NQREGULATORSSPECIFICATIONS - MEGR-1100 AND 1200 SERIES INLETPRESSUREMAXOUTLETPRESSUREMEGRͲ1222ͲBAFMEGRͲ1252ͲBAFMEGRͲ1252ͲCFF 650,000 3/4ͲinFNPT0.17Ͳin(4,3mm)MEGRͲ1232ͲBBF 1/4ͲinFNPTMEGRͲ1232ͲHBF FPOLMEGRͲ1232TͲHBF 2XFPOLMEGRͲ1232ͲBBFXA 1/4ͲinFNPTMEGRͲ1232ͲHBFXA FPOLMEGRͲ1232TͲHBFXA 2XFPOLFirstStage(2):OppositeGaugeTapsOppositeGaugeTapsMEGRͲ1232EͲBBHFirstStage(2):DownSecondStage:OverOutletMEGRͲ1232EͲBBHXAFirstStage(2):DownSecondStage:OppositeGaugeTapsMEGRͲ1232EͲHBHFPOLFirstStage(2):DownSecondStage:OverOutletMEGRͲ1232EͲHBHXA FPOLFirstStage(2):DownSecondStage:OppositeGaugeTapsMEGRͲ1122HͲAAJ OverOutletMEGRͲ1122HͲAAJXB OverGaugeTapsMEGRͲ1222HͲBGF FPOL OverOutletMEGRͲ1222HTͲBGF 2XFPOL OverOutletMEGRͲ1222HͲBGFXBFPOL OverGaugeTaps500,000 1/2ͲinFNPT1/2ͲinFNPT11Ͳinw.c.(27mbar)9.5to13Ͳinw.c.(24to32mbar)4psi(0,28bar)50psig(3,4bar)5psig(0,34bar)7/32Ͳin(5,6mm)10psig(0,69bar)15psig(1,03bar)2psig(0,14bar)TABLE1:1100AND1200SERIESSPECIFICATIONSREGULATORCOLOR(1):CapacitiesBasedon:SecondStage:10psig(0,69bar)inletpressurewith2Ͳinchesw.c.(5mbar)droop.IntegralSecondStage:30psig(2,07bar)inletpressureand2Ͳinchesw.c.(5mbar)droop.FirstStage:30psig(2,07bar)inletpressureand20%droop.(2):IntegralFirstStageVentsize:7/16Ͳ24UNthreadfor1/4ͲinchODcoppertubeinvertedflarefitting.OUTLETPRESSURESPRINGRANGE0.17Ͳin(4,3mm)FirstStage:approx.10psi(0,69bar)SecondStage:11Ͳinw.c.(27mbar)IntegralTwoͲStage450,000FirstStage1,000,0001/4ͲinFNPTSecondStage1/2ͲinFNPT OverInlet2PSI(0,14bar)SERVICE500,000ORIFICESIZEMAXALLOWABLEINLETPRESSUREMAXEMERGENCYINLETPRESSUREOUTLETPRESSURESTANDARDSETPOINTMAXOUTLETPRESSUREWITHDISCREMOVEDREGULATORAPPLICATIONPARTNUMBERCAPACITYBTU/HRPROPANE(1)INLETCONNECTIONOUTLETCONNECTION3/8ͲINCHFNPTSCREENEDVENTSTANDARDLOCATIONNOMINALRELIEFVALVESTARTͲTOͲDISCHARGE0.14Ͳin(3,6mm)250psig(17,2bar)30psig(2,07bar)10psig(0,69bar)75psi(5,2bar)FirstStage(2):DownSecondStage:OppositeGaugeTaps1psi(0,069bar)2psig(0,14bar)1/4ͲinFNPT250psig(17,2bar)Red8to12psi(0,55to0,83bar)10psi(0,69bar)0.15Ͳin(3,8mm)30psig(2,07bar)250psig(17,2bar)250psig(17,2bar)250psig(17,2bar)250psig(17,2bar)GrayFirstStage:nonͲadjustableSecondStage:9.5to13Ͳinw.c.(24to32mbar)16psi(1,10bar)Green1to2.2psi(0,069to0,15bar)WHITEFirstStage(2):DownSecondStage:OverOutlet Copyright 2017 National Fire Protection Association (NFPA). Licensed, by agreement, for individual use and download on 02/13/2017 to Dig It Unlimited for designated user Robert St Mary. No other reproduction or transmission in any form permitted without written permission of NFPA. For inquiries or to report unauthorized use, contact licensing@nfpa.org. 58-42 LIQUEFIED PETROLEUM GAS CODE (F)Return bends and restrictive pipe or tubing fittings shall not be used. 6.9.3 Reserved. 6.9.4 Reserved. 6.9.5 Reserved. 6.9.6 Reserved. 6.9. 7 Reserved. 6.9.8 Reserved. 6.9.9 Reserved. 6.10 Regulators. 6.10.1 Regulator Installation. 6.10.1.1 First-stage, high-pressure, automatic changeover, inte gral 2 psi service, integral two-stage, and single-stage regulators where allowed shall be installed in accordance with 6.10.1.l(A) through 6.10.1.l(D). (A)Regulators connected to single container permanent installations shall be installed with one of the following meth ods: (1)Attached to the vapor service valve using metallic pipe, tubing, fittings, or adapters that do not exceed 60 in. (1520 mm) in total length (2)Attached to the vapor service valve with a single flexible metallic connector (B)Regulators connected to cylinders in other than stationary installations shall be installed with one of the following meth ods: (1)Attached to the vapor service valve using metallic pipe, tubing, fittings, or adapters that do not exceed 60 in. (1520 mm) in total length (2)Attached to the vapor service valve with a single flexible metallic connector (3)Attached to the vapor service valve with a single flexible hose connector (C)Regulators connected to manifolded containers shall be installed with the following methods: (1)Installations shall comply with 6.11.3.8. (2)The regulator shall be attached with pipe or a single flexi ble metallic connector to the vapor service manifold piping outlet. (3)The connection between the container service valve outlet and the inlet side of the manifold piping shall be installed with one of the following methods: (a)Attached with a metallic fitting (b) Attached with a single flexible metallic connector (c) Attached with a flexible hose connector connected to a cylinder in other than stationary installations (d)Attached with pipe (D)Regulators installed on vaporizer outlets shall be installed with one of the following methods: (1)Attached using metallic pipe, tubing, fittings, or adapters that do not exceed 60 in. (1520 mm) in total length (2)Attached with a single flexible metallic connector (E)Regulators connected to underground or mounded containers shall be permitted to be attached to the vapor serv- 2017 Edition ice valve with a flexible hose connector providing electrical isolation between the container and metallic piping system that complies with UL 569, Standard for Pigtails and Flexible Hose Connectors for LP-Gas, and is recommended by the manufacturer for underground service. 6.10.1.2 First-stage regulators installed downstream of high pressure regulators shall be exempt from the requirement of 6.10.1.1. 6.10.1.3* First-stage and high-pressure regulators shall be installed outside of buildings, except as follows: (1)Regulators on cylinders installed indoors in accordance with Section 6.22 (2)Regulators on containers of less than 125 gal (0.5 m3) water capacity for the purpose of being filled or in struc tures complying with Chapter 10 (3)Regulators on containers on LP-Gas vehicles complying with, and parked or garaged in accordance with, Chap ter 11 ( 4)Regulators on containers used with LP-Gas stationary or portable engine fuel systems complying with Chapter 11 (5)Regulators on containers used with LP-Gas-fueled indus trial trucks complying with 11.13.4 (6)Regulators on containers on LP-Gas-fueled vehicles garaged in accordance with Section 11.16 (7)Regulators on cylinders awaiting use, resale, or exchange when stored in accordance with Chapter 8 6.10.1.4 All regulators for outdoor installations shall be designed, installed, or protected so their operation will not be affected by the elements (freezing rain, sleet, snow, ice, mud, or debris). (A)This protection shall be permitted to be integral with the regulator. (B)Regulators used for portable industrial applications shall be exempt from the requirements of 6.10.1.4. 6.10.1.5 The point of discharge from the required pressure relief device on regulated equipment installed outside of build ings or occupiable structures in fixed piping systems shall be located not less than 3 ft (1 m) horizontally away from any building or occupiable structure opening below the level of discharge, and not beneath or inside any building or occupia ble structure unless this space is not enclosed for more than 50 percent of its perimeter. 6.10.1.6 The point of discharge shall also be located not less than 5 ft (1.5 m) in any direction from any source of ignition, openings into direct-vent (sealed combustion system) applian ces, or mechanical ventilation air intakes. 6.10.1.7 The discharge from the required pressure relief device of a second-stage regulator, other than a line pressure regulator, installed inside of buildings in fixed piping systems shall comply with the following: (1) (2) (3) The discharge shall be directly vented with supported piping to the outside air. The vent line shall be at least the same nominal pipe size as the regulator vent connection pipe size. Where there is more than one regulator at a location, either each regulator shall have a separate vent to the outside or the vent lines shall be manifolded in accord ance with accepted engineering practices to minimize back pressure in the event of high vent discharge. Dormont Gas Appliance Connectors for Generac Stationary Outdoor Pad-Mounted Generators Connector Minimum Flow Capacity at Various Pressure Drops (Straight Length BTU/hr. NATURAL GAS, 0.64 SG, 1000 BTU/cu.ft.) Configuration Pressure Drop Across Connector [inches water column] Part Number SERIES Nominal ID Nominal Length 0.50” 0.75” 1.00” 1.25” 1.50” 1.75” 2.00” CAN30-3131-14GL 30 ½” 14” 174,500 213,500 246,500 275,500 302,000 326,000 349,000 CAN40-4141-14GL 40 ¾” 14” 338,500 414,500 478,500 535,000 586,000 633,000 677,000 (Straight Length BTU/hr. LP GAS, 1.55 SG, 2500 BTU/cu.ft.) Configuration Pressure Drop Across Connector [inches water column] Part Number SERIES Nominal ID Nominal Length 0.50” 0.75” 1.00” 1.25” 1.50” 1.75” 2.00” CAN30-3131-14GL 30 ½” 14” 279,200 341,600 394,400 440,800 483,200 521,600 558,400 CAN40-4141-14GL 40 ¾” 14” 541,600 663,200 765,600 856,000 937,600 1,012,800 1,083,200 Notice: The connector minimum flow capacity chart displayed on the product flag label is for various diameters and lengths at 0.5” w.c. pressure drop as required by the ANSI/CSA product standards. These charts provide additional supporting values for two specific diameters and lengths at various pressure drops from 0.50” w.c. to 2.00” w.c. for connectors provided with Generac stationary generators. Mike Angus Mike Angus Dormont Manufacturing Company A Watts Water Technologies Company Director – New Product Development Product Manager – Flextube 724-387-3411 mangus@dormont.com www.dormont.com February 12, 2016 January 28, 2016 RE: Generac air-cooled engine generator flexible gas piping. I am writing to you at this time to provide some additional information about the Generac air- cooled engine generator flexible gas piping supplied with the generator. Generac has recently changed the flexible fuel line from a rubber construction to a flexible stainless steel construction. Generac has validated the use of the flexible stainless steel construction for this installation. See below. • The Dormont fuel line has been submitted to UL for certification of its use with the air- cooled home standby engine generators. UL has found this product suitable for use with a Generac engine generator and added the Dormont fuel line to the UL descriptive file. • UL performed vibration testing as outlined in UL2200, section 41.1.3.3 with acceptable results. (70 hours at 100oC aging and 48 hours of 0.125 inch amplitude vibration at 17 Hz. With the above information in mind, Generac feels that the flexible stainless hose is suitable for use with Generac air-cooled engine generators. If you have any questions, or need additional information, please feel free to contact me. Sincerely, Jeff Jonas Senior Engineer – Certifications. Dormont Gas Appliance Connectors for Stationary Outdoor Pad-Mounted Generators The following Dormont gas appliance connectors are CSA listed under Certificate of Compliance 1073439 (112649) in the US and Canada to product standard ANSI Z21.75/CSA 6.27 and are suitable for making the flexible connection between the gas supply and the gas inlet of a stationary outdoor pad-mounted generator: 1. Dormont 30, 30C and 31 Series – ½” ID from 14” to 72” in length 2. Dormont 40, 40C and 41 Series – ¾” ID from 14” to 72” in length 3. Dormont 50, 51 Series – 1” ID from 14” to 72” in length 4. Dormont 60, 61 Series – 1-1/4” ID from 14” to 72” in length The scope of ANSI Z21.75/CSA 6.27 – Connectors for Outdoor Gas Appliances and Manufactured Homes reads “…intended for exterior use above ground for making non-rigid connections…between the gas supply and the gas inlet of an appliance for outdoor installation that is not frequently moved after installation.” In addition, according to Section 1.5.4 the connector is designed for occasional movement after installation. Repeated bending, flexing or extreme vibration must be avoided. Normal operation of a clothes dryer, rooftop HVAC unit or SIMILAR OUTDOOR APPLIANCE DOES NOT constitute extreme vibration or movement. Furthermore the Dormont connectors were subjected to and passed (both by Dormont and by a 3rd party) the Section 66B Vibration Test defined in UL2200 – Stationary Engine Generator Assemblies with parameters of 0.125 inch amplitude, 17 Hz frequency for 48 hours in the horizontal position. The ANSI Z21.75/CSA 6.27 product standard is recognized by the following codes as an acceptable method for connecting gas appliances and equipment to the building piping: 1. ANSI Z223.1/NFPA 54 National Fuel Gas Code Section 9.6 2. International Fuel Gas Code (IFGC) Section 411.1 3. B149.1 – Natural Gas and Propane Installation Code (CSA Group) Section 6.21 4. Uniform Mechanical Code (UMC) Section 1313.0 5. Uniform Plumbing Code (UPC) Section 1212.0 Mike Angus Mike Angus Dormont Manufacturing Company A Watts Water Technologies Company Director – New Product Development Product Manager – Flextube 724-387-3411 mangus@dormont.com www.dormont.com February 1, 2016