Post on 12-Apr-2022
Submittal Package
1 of 45SM-HC 0621 Snow Melt Systems
Viega Snow Melt Systems
Project Date
Engineer Contractor
Submittedby
Approvedby Date Approvedby Date
Table of Contents
2 of 45SM-HC 0621 Snow Melt Systems
Table of Contents
1 ViegaBarrierPEXTubing___________________________________ 32 PureFlowPressZeroLeadBronzeFittings __________________ 63 PureFlowPressPolymerFittings____________________________ 84 PureFlowCouplingRepairWrap___________________________ 105 RapidGrid_______________________________________________ 116 TubingFasteners_________________________________________ 127 BendSupports___________________________________________ 158 StainlessManifoldShut-Off/Balancing/FlowMeters ______ 169 StainlessManifoldShutOff/Balancing____________________ 1710 ManifoldBallValveSet____________________________________ 1811 CopperManifold-Valved_________________________________ 2012 CopperManifold-Valveless_______________________________ 2113 Shut-Off/BalancingValves _______________________________ 2314 Shut-OffValve-PEXPress________________________________ 2415 CopperManifoldEndCap_________________________________ 2516 ThreeWayMixingValve¾"-2"____________________________ 2617 MixingValveActuator_____________________________________ 2718 Wi-FiSnowMeltControl__________________________________ 2819 BasicDigitalSetpointControlII____________________________ 4020 Three-SpeedCirculatorPumps(Low,HighHead)___________ 4121 HeatExchanger__________________________________________ 4322 LimitedWarranty_________________________________________ 44
Viega Heating and Cooling Solutions __________________________ 44
Viega products are designed to be installed by licensed and trained plumbing and mechanical professionals who are familiar with Viega products and their installation. Installationbynon-professionalsmayvoidViegaLLC’swarranty.
This document is subject to updates. For the most current Viega technical literature please visit www.viega.us.
ViegaBarrierPEX: ½" ⅝" ¾" 1" 1¼" 1½" 2"
Glycol: Propylene Ethylene 30% 40% 50%
ConstructionType: Concrete Asphalt Pavers Other: ________________
Viega Barrier PEX Tubing
3 of 45SM-HC 0621 Snow Melt Systems
1 Viega Barrier PEX Tubing
DescriptionThis specification designates the requirements for Viega Barrier cross-linked polyethylene (PEX) tubing for use in hydronic heating and cooling systems. Viega Barrier PEX includes an oxygen barrier layer that helps restrict the passage of oxygen through the wall of the tubing. All Viega PEX is manufactured and tested to the requirements of ASTM F876, F877, F3253, F3348, CSA B137.5 and is CTS-OD (copper tube size - outer dimension controlled) with an SDR (standard dimension ratio) 9 wall thickness. Viega Barrier PEX is compatible with both Viega PEX press fittings and F1807 PEX crimp fittings. Viega has no control over the quality of other manufacturers, therefore, we do not extend any warranty to those components that are not supplied by Viega.
MaterialsViega Barrier PEX tubing is produced from cross-linkable, high density polyethylene resin. This cross-linkable resin is produced by grafting organo-silane molecules onto a base polyethylene chain. A catalyst that initiates the cross-linking process is blended with the resin before extrusion. Cross-linking is conducted after extrusion by exposing the tubing to heat and moisture (steam). Viega Barrier PEX includes four layers. The first layer is cross-linked, high density polyethylene. The second layer is an adhesive for the third layer, the ethylene vinyl alcohol layer (EVOH oxygen barrier). The fourth layer is another thin layer of polyethylene, applied on the outside to protect the EVOH layer from damage. EVOH is highly resistant to the passage of oxygen.
MarkingandCertificationTubing is marked with manufacturer, Viega Barrier, nominal size, rating, codes and standards, approvals, date, material code, and location of production (i.e., xxxxFT Viega Barrier ½" SDR-9 CTS PEX5306 100 PSI @ 180F [cNSF®us-pw-rfh ASTM F876/F877 CSA B137.5] FS/SD 25/50 CAN/ULC S102.2 ICC ES-PMG®-1015/1038 HUD MR 1276 Date Code Material Code MADE IN THE USA 0005FT. Tubing is third party tested to the requirements of the stated ASTM and CSA standards. Tubing includes incremental footage markings to assist with loop layout. Viega Barrier PEX tubing is certified to NSF 61 and 14 for use as part of, or connected to a potable water system.
RecommendedUsesInstall Viega Barrier PEX in accordance with installation manuals provided by manufacturer and applicable code requirements. Water or air can be used to pressure test the system. Please follow manufacturer’s requirements on pressure and length of time. Viega Barrier PEX is rated for six months UV protection. For information on the suitability for other applications, contact your Viega representative.
HandlingandInstallationViega Barrier PEX tubing is recommended for hydronic heating, cooling, and snow melting systems using water or a water/glycol mix as the heat transfer media. The tubing is also NSF rated safe for potable water. Tubing may be installed in concrete, gypsum based lightweight concrete, sand, asphalt (in accordance with special guidelines), in or under wood flooring, or behind wallboard or plaster. Viega Barrier PEX may also be used as transfer lines for baseboard heating systems with a maximum operating temperature of 200˚ F @ 80 psi.
HangerSpacing
SlabApplicationsWhere Viega Barrier PEX tubing is installed horizontally in slab applications, the tubing shall be fastened every 2 feet and 3 times at each U-turn.
HydronicPipingApplicationsWhere Viega Barrier PEX tubing is used for fluid transfer piping outside of a slab, the tubing shall be fastened horizontally at intervals of 32" and vertically at intervals of 48".
FastenerMakeupIn situations where the fastener will attach directly to the tubing, plastic or plastic coated fasteners that allow the tubing to move slightly as it expands and contracts shall be used.
These are manufacturers suggestions, local code should be followed in areas where something different is specified.
Viega Barrier PEX Tubing
4 of 45SM-HC 0621 Snow Melt Systems
QualityAssuranceViega Barrier PEX tubing is manufactured and tested to the requirements of ASTM F876, F877, F3253, F3348, and CSA B137.5. The degree of cross-linking of finished tubing is determined by method ASTM D2765.
Property ASTMTestMethod TypicalValuesEnglishUnit SIUnits
Density D 792 – 0.952 g/ccMelt Index1 D 1238 – 0.7g/10 minFlexural Modulus2 D 638 150,000 psi 1000 MN/m2Tensile Strength @ Yield (2 in/min) D 638 3,900 psi 26 MN/m2Coefficient of Linear Thermal Expansion @ 68° F D 696 9.2 x 10-5/°F 1.4 x 10-4/°CHydrostatic Design Basis @ 73° F (23° C) D 2837 1,250 psi 8.6 MPaHydrostatic Design Basis @ 180° F (82° C) D 2837 800 psi 5.5 MPaVicat Softening Point D 1525 255°F 124°CThermal Conductivity D 177 2.7 BTU/hr/ft2/°F 1.1 x 10-3 cal/sec/cm/˚C
1 Before Cross-linking2 73° F
Certifications Tested for health effects to ANSI/NSF
standard 61 and performance to ANSI/NSF standard 14.
Products meet all applicable performance requirements for a pressure rated floor heating application specified in NSF/ANSI Standard 14.
PEX 5306 - Tested and listed to the NSF-pw (CL5) chlorine resistance rating for an end use condition of 100% @ 140° F per ASTM F876, which is the highest chlorine resistance rating available through ASTM. When the product is marked with the PEX 5306 NSF-pw (CL5) designation, it affirms the product is approved for use in continuous domestic hot water circulation systems with up to 140° F water temperatures.
IAPMO Certified
ICC ES-PMG™ 1015 Hydronic Piping
NSF certified to CSA B137.5 (Canadian Standards Association)
Certified to UL 263 & CAN/ULC S101 (US & Canadian fire resistance ratings)
Certified to ASTM E84 and CAN/ULC S102.2 FS/SD (25/50) (U.S. & Canadian plenum rating)
NSF-rfh
NSF-pw
TubeSpacingWhen the tube spacing is less than the minimum recommended bending dimension, the loops ends should be swept out to at least the dimensions shown.
Otherwise, if tube spacing is equal or greater than “X”, a standard loop may be used.
TubeSpacingDimensionX
TubingSize(in) WiththeCoil5/16 7⅜ 8½ 10⅝ 12¾ 141 18
1¼ 221½ 262 34
Minimum Bend Radius: 8 x O.D.
ViegaBarrierPEXOxygenPermeationAll sizes have less than 0.1 gram/m³/day.
Viega Barrier PEX tubing meets DIN 4726 requirements for oxygen tight pipes.
Viega Barrier PEX Tubing
5 of 45SM-HC 0621 Snow Melt Systems
SDR-9PEXTubingASTMF876/F877/CTS-ODSDR-9
TubingSize(in)
O.D.(in)
WallThickness(in)
Nom.I.D.(in)
Weight VolumePerFt(lb.) Per100Ft(Gal.)
5/16 .430±.003 .064+.010 0.292 .0340 0.34⅜ .500±.003 .070+.010 0.350 .0413 0.50½ .625±.004 .070+.010 0.475 .0535 0.92⅝ .750±.004 .083+.010 0.574 .0752 1.34¾ .875±.004 .097+.010 0.671 .1023 1.821 1.125±.005 .125+.010 0.862 .1689 3.04
1¼ 1.375±.005 .153+.015 1.053 .2523 4.521½ 1.625±.006 .181+.019 1.243 .3536 6.302 2.125±.006 .236+.024 1.629 .6026 10.8
Dimensions are in English units. Tolerances shown are ASTM requirements. Viega PEX is manufactured within these specifications.Viega Barrier PEX tubing is available in both straight lengths and coils.
SizeGPM 5/16" 3/8" 1/2" 5/8" 3/4" 1" 11/4" 11/2" 2"
0.1 .002 .0010.2 .009 .004 .0010.3 .018 .008 .002 .0010.4 .031 .013 .003 .0010.5 .047 .020 .004 .0020.6 .066 .027 .006 .003 .0010.7 .088 .036 .008 .003 .0020.8 .047 .011 .004 .0020.9 .058 .013 .005 .0021.0 .070 .016 .007 .003 .0011.5 .034 .014 .006 .0022.0 .058 .024 .011 .0033.0 .050 .023 .0074.0 .085 .039 .0116.0 .181 .082 .0248.0 .140 .04110.0 .211 .062 .02312.0 .296 .087 .03214.0 .04116.0 .053 .02218.0 .065 .02720.0 .078 .03322.0 .093 .03924.0 .108 .04526.0 .05228.0 .06030.0 .06732.0 .075 .02134.0 .02336.0 .02638.0 .02840.0 .03145.0 .03850.0 .04655.0 .05560.0 .06465.0 .07570.0 .08575.0 .097
PressureDropTableExpressedaspsi/ft.
PureFlow Press Zero Lead Bronze Fittings
6 of 45SM-HC 0621 Snow Melt Systems
2 PureFlow Press Zero Lead Bronze Fittings
DescriptionPureFlow Press zero lead bronze fittings with attached stainless steel press sleeves are for use with Viega PureFlow PEX and Barrier PEX SDR-9 cross-linked polyethylene (PEX) tubing.
ScopeThis document designates the requirements for Viega PureFlow Press Zero Lead Bronze fittings with attached stainless steel press sleeves and tool locater ring to be used as connections for Viega PureFlow PEX and Barrier PEX tubing in 5/16", ⅜", ½", ⅝", ¾", 1", 1¼", 1½", and 2" sizes as available. The connections are to be completed with the aid of a PureFlow Press hand tool or PureFlow Press power tool.
MaterialsViega PureFlow Press Zero Lead Bronze fittings are cast and machined from extruded (C87700) or forged (C87710) Zero Lead Bronze. This gives the fitting high-corrosion and stress-crack resistance. All Viega PureFlow Press Zero Lead Bronze fittings are precision-made to tight tolerances for a consistent fit with Viega PureFlow PEX tubing. All PureFlow Press Zero Lead Bronze fittings meet the rigorous requirements of ANSI/NSF-61 Annex G for lead extraction and meet California AB 1953 no lead requirements. “Zero Lead” identifies Viega products meeting the lead free requirements of California and Vermont law, effective January 1, 2010, as tested and listed against NSF-61, Annex G.
The stainless steel press sleeves incorporate three (3) view holes and are manufactured from 304 stainless steel that will not corrode, maintaining a clean appearance for the lifetime of the system. The tool locater rings are color-coded to match their appropriately-sized PureFlow Press hand tool and are manufactured out of recycled plastic. (Stainless steel locater rings are used for solder adapters.)
MarkingsViega PureFlow Press Zero Lead Bronze fittings with attached stainless steel sleeves are manufactured and certified to the requirements of ASTM F877. Viega PureFlow Press Zero Lead Bronze fittings and sleeves are marked with the size, manufacturer’s mark, and required marking(s) of third-party certification organizations. Fittings also meet the requirements of ANSI/NSF-61 Annex G for health effects and are suitable for contact with potable water. NSF International and other certification organizations conduct random on-site inspections of manufacturing facilities and independently test Viega PureFlow Press Zero Lead Bronze fittings for compliance with physical, performance, and toxicological standards.
QualityAssuranceWhen the product is marked with the ASTM F877 designation, it affirms that the product was manufactured, inspected, sampled, and tested in accordance with these specifications and has been found to meet the specified requirements.
ListingsandCertificates cNSF®us pw-G
Zero lead listing meeting California AB 1953 and Vermont ACT 193
NSF International Performance and Health Effects (Standards 14 & 61)
NSF certified to CSA B137.5 (Canadian Standards Association)
NSF Certified to NSF-U.P. Code Approved for Uniform Plumbing Code, listed to
ASTM F877 IAPMO Certified ANSI/NSF 61-G ICC ES-PMG™ 1038/1015 plumbing and heating
systems UL certified to UL 1821 listing (130 psi @ 120°F) for use
in residential fire sprinkler systems per NFPA 13D.1
Zero Lead identifies Viega products meeting the lead free requirements of NSF 61-G through testing under NSF/ANSI 372 (0.25% or less maximum weighted average lead content.)
All fittings may not be listed with each organization shown.
PureFlow Press Zero Lead Bronze Fittings
7 of 45SM-HC 0621 Snow Melt Systems
RecommendedUsesViega PureFlow Press Zero Lead Bronze fittings with attached stainless steel press sleeves are intended and recommended for use in:
Potable water distribution systems with Viega PureFlow PEX tubing.
Hydronic heating, snow melt, and cooling systems with Viega PureFlow PEX and Barrier PEX tubing meeting the requirements of ASTM F876 and residential fire sprinkler systems per NFPA 13D with Viega PureFlow PEX Black (sizes ¾" to 2") meeting the requirements of ASTM F876 and UL 1821 (130 psi @ 120°F).
Viega PureFlow Press Zero Lead Bronze fitting system components are available only from Viega and are not interchangeable with components and tubing from other suppliers. For information on other hot and cold applications not listed here, consult with your Viega representative.
OperatingParametersMaximum design temperature and pressure ratings are:
160 psi @ 73° F 100 psi @ 180° F 80 psi @ 200° F
FrictionLossforViegaPureFlowPressZeroLeadBronzeFittings
Size(inches) Coupling 90°Elbow TeeRun TeeBranchEquivalent length of PEX tubing in feet
⅜ 2.9 9.2 2.9 9.4½ 2 9.4 2.2 10.4¾ 1 8 1 91 1 10 2 10
1¼ 2 11 2 111½ 2 13 2 122 1 19 2 18
A pressed fitting has jaw witness marks (P) indicating the connection has been properly made.
View Hole
304 Stainless
Color-Coded Tool Locater Ring
Attached Stainless Sleeve, Pressed
HandlingandInstallationViega PureFlow Press Zero Lead Bronze fittings are cast and machined from a solid bronze alloy and precision-made to tight tolerances. Use of these materials in hot and cold water distribution systems must be in accordance with good plumbing practices, applicable code requirements, and current installation practices available from Viega. Contact a Viega representative or the applicable code enforcement bureau for information about approvals for specific applications.
This information is based on tubing nominal flow rate (@ 8 fps flow velocity).
L
A B
TypicalFittingInsertDimensionsforViegaPureFlowPressZeroLeadBronzeFittings
Dimensions are in English units. Tolerances shown are Viega requirements. Viega PureFlow Press Zero Lead Bronze fittings are manufactured within these specifications.
Size(inches) A B L5/16 0.169 0.281±.002 0.496⅜ 0.236 0.344±.002 0.496½ 0.362 0.473±.002 0.496⅝ 0.457 0.571±.002 0.496¾ 0.559 0.667±.003 0.4961 0.728 0.858±.004 0.618
1¼ 0.957 1.047±.004 0.8661½ 1.083 1.232±.004 0.8662 1.417 1.606±.004 1.260
PureFlow Press Polymer Fittings
8 of 45SM-HC 0621 Snow Melt Systems
3 PureFlow Press Polymer Fittings
PureFlowPressPolymerFittingswithAttachedStainlessSteelPressSleevesforViegaPureFlowPEXandViegaBarrierPEXSDR-9Cross-linkedPolyethylene(PEX)
ScopeThis product specification designates the requirements for Viega PureFlow Press Polymer fittings with Smart Connect® technology and attached stainless steel press sleeves. The tool locater ring provides connections for Viega PureFlow PEX and PureFlow Barrier PEX tubing in ⅜", ½", ¾", 1", 1¼", 1½", and 2" sizes as available. The connections are completed with the aid of a Viega PureFlow Press Hand Tool or Viega PureFlow Press Power Tool.
MaterialsViega PureFlow Press Polymer fittings and manifolds are molded from Radel® R polymer. All Viega PureFlow Press fittings are precision-made to tight tolerances for a consistent fit with Viega PureFlow PEX tubing. PureFlow Press fittings exhibit excellent resistance to the corrosive effects of water, and are well suited for hot water applications. Zero Lead throughout this publication mean products that meet the requirements of NSF 61-G through testing under NSF/ANSI Standard 372 (0.25% or less percent maximum weighted average lead content).
The stainless steel press sleeves incorporate three view holes and are manufactured from 304 stainless steel that will not corrode, maintaining a clean appearance for the lifetime of the system. The tool locater rings are color-coded to match their appropriately sized PureFlow Press hand tools. They are what hold the PureFlow press sleeve to the fitting, allowing it to be removed and/or replaced in the unlikely event the sleeve is damaged during handling or shipping (replacement sleeves and locater rings available separately).
RecommendedUsesViega PureFlow Press Polymer fittings with attached stainless steel press sleeves are intended and recommended for use in potable water distribution systems with Viega PureFlow PEX tubing. In addition, they can be used in hydronic heating and snow melt and cooling systems with Viega Barrier PEX tubing meeting the requirements of ASTM F876, and in residential fire sprinkler systems per NFPA 13D with Viega PureFlow PEX Black (sizes ¾" to 2") meeting the requirements of ASTM F876 and UL 1821 (130 psi @ 120°F). Viega PureFlow Press Polymer fitting system components are available only from Viega and are not interchangeable with components and tubing from other suppliers. For information on other hot and cold applications not listed here, consult your Viega representative.
HandlingandInstallationViega PureFlow Press Polymer fittings are corrosion and impact resistant. However, they are still softer than metals and must be protected from UV exposure and volatile organic compounds (VOCs) which can damage them. Use of these materials in hot and cold water distribution system must be in accordance with good plumbing practices, applicable code requirements, and current installation practices available from Viega. Contact a Viega representative or the applicable code enforcement bureau for information about approvals for specific applications.
QualityAssuranceA product marked with the ASTM F877 designation affirms that the product was manufactured, inspected, sampled, and tested in accordance with these specifications and has been found to meet the specified requirements.
MarkingandCertificationViega PureFlow Press Polymer fittings with attached stainless steel sleeves are manufactured and certified to the requirements of ASTM F877. Viega PureFlow Press Polymer fittings and sleeves are marked with the size, manufacturer’s mark, and required marking(s) of third-party certification organizations. Fittings also meet the requirements of ANSI/NSF-61 and are suitable for contact with potable water. NSF International and other certification organizations conduct random on-site inspections of manufacturing facilities and independently test Viega PureFlow Press Polymer fittings for compliance with physical, performance, and toxicological standards.
PureFlow Press Polymer Fittings
9 of 45SM-HC 0621 Snow Melt Systems
Size Coupling 90°Elbow TeeRun TeeBranchinches Equivalent length of PEX tubing in feet
⅜ 4.5 14.3 6.5 14.7½ 2.6 12.6 3.9 14.0¾ 2.5 18.9 3.6 19.11 3.1 17.7 3.8 18.4
1¼ 4.0 18.6 6.4 18.71½ 5.2 29.4 7.9 28.32 8.9 36.4 10.2 37.5
This information is based on tubing nominal flow rate (@ 8 fps flow velocity).
TypicalFittingInsertDimensionsforViegaPureFlowPressPolymerFittings
L
A B
Size A B Tolerances Linches inches inches inches inches
⅜ 0.207 0.343 +/-.004 0.595½ 0.315 0.472 +/-.004 0.595¾ 0.486 0.661 +/-.004 0.5951 0.667 0.855 +/-.004 0.752
1¼ 0.819 1.037 +/-.004 1.0971½ 0.952 1.226 +/-.004 1.0972 1.253 1.582 +/-.004 1.097
Dimensions are in English units. Tolerances shown are Viega requirements. Viega PureFlow Press Polymer fittings are manufactured within these specifications.
View Hole
304 Stainless
ColorCoded Tool Locater Ring
Smart Connect DotP
AttachedStainlessSleeve,Pressed
A pressed fitting has jaw witness marks (P)
indicating the connection has been properly made.
SmartConnectTechnologyViega PureFlow Press Polymer includes Smart Connect technology. Designed into the fitting itself, Viega Smart Connect technology allows quick and easy identification of an unpressed fitting during pressure testing. Once the fitting is pressed, it creates a leak-proof, reliable connection.
Certifications ICC ES-PMG™ 1038/1015
Plumbing and heating systems NSF Certified to NSF-U.P. Code
Approved for Uniform Plumbing Code, listed to ASTM F876/F877
NSF®PW NSF International Performance and
Health Effects (Standards 14 & 61) NSF certified to CSA B137.5
(Canadian Standards Association) UL certified to UL 1821 listing (130 psi @
120°F) For use in residential fire sprinkler
systems per NFPA 13D (¾" through 2" fittings only)
FrictionLossforViegaPureFlowPressPolymerFittings
PureFlow Coupling Repair Wrap
10 of 45SM-HC 0621 Snow Melt Systems
4 PureFlow Coupling Repair Wrap
1 32 4 5
66 7
EN
ViegaPureFlowCouplingRepairWrap
Viega products are designed to be installed by licensed and trained plumbing and mechanical
professionals who are familiar with Viega products and their installation. Installationbynon-professionalsmayvoidViegaLLC’swarranty.
The fitting wrap will bond within two minutes and create a permanent bond within 24 hours. The concrete
pour will not affect the sealant’s bonding process.
Coupling repair wrap (tape) is a self sealing, silicone based product designed to protect PureFlow Press fittings from the corrosive nature of concrete. After making an in-slab fitting connection, protect the fitting with fitting wrap prior to embedding it in concrete.
1 Press fitting as per Viega’s PureFlow Press Product Instructions.
2 If using a fitting with removable tool locator rings, remove them, otherwise they will remain in place.
3 Leave the protective film in place as you measure the amount of tape required to completely wrap and seal the fitting.
4 Measure by completely covering the fitting with tape. Overlap each row by ½" and run the wrap out over the end of the fitting and onto the tubing by 1" minimum.
5 Cut required length of tape.6 Carefully wrap fitting with tape, removing
protective film as fitting is wrapped. 7 Ensure that the fitting is completely covered.
Rapid Grid
11 of 45SM-HC 0621 Snow Melt Systems
5 Rapid Grid
4'
2'
For minimum slab thickness refer to local code.
DescriptionRapid Grid is an insulated grid system for use on radiant heating and snowmelt applications. Rapid Grid is approved for use under concrete and poured gypsum. When installed properly it will provide an insulating value as well as a vapor barrier. Ensure that compression rating is suitable for application.
FeaturesCompatible with Viega Barrier PEX tubing: ⅜", ½", ⅝". Tubing spacing available in 3" multiples.
Specifications Material: High-impact polystyrene Compressive strength: 25 psi @ 10% deformation R-Value: R-10 Permeance: 29.2 ng/s*m^2*Pa (0.51 US Perms)
Dimensions Effective Length: 4 ft Effective Width: 2 ft Effective Thickness: 2 in Total Length: 49 in Total Width: 25 in Total Thickness: 2⅞ in
Packaging 8 panels (64 ft²) per package Package weight: 25 lbs. Package dimensions: 25" x 49" x 20"
Tubing Fasteners
12 of 45SM-HC 0621 Snow Melt Systems
6 Tubing Fasteners
DescriptionViega offers several different types of fasteners for attaching Viega Barrier PEX tubing to different surfaces. Whether attaching to foam board, rebar, wire mesh, concrete, or wood, Viega has the needed fastener. Below is the technical information relating to each.
ViegaU-ChannelPlastic-Model2864US
PartNo. LengthofstripBarrierTubeDimension A B C D E F G
(ft) (in) (in) (in) (in) (in) (in) (in) (in)15310 6.5 ½ 2.0 2.0 1.50 1.0 4.0 .71 .3915311 6.5 ⅝ 2.0 2.0 1.50 1.0 4.0 .71 .39
PartNo. LengthofstripBarrierTubeDimension A B C D E F G H
(ft) (in) (in) (in) (in) (in) (in) (in) (in) (in)15314 6.5 ¾ 2.0 2.0 2.0 1.0 4.0 .67 .39 .98
Normal Uses: Attaching Viega Barrier PEX tubing to concrete or other flat surfacesTubing Compatibilities: ½", ⅝", ¾" Viega PEX tubingMaterial Makeup: Plastic Package Quantity: 16 U-channel strips
E
F
B
78" - 79"
D
AC
G
E
78" - 79"
F
AA
G
H
Tubing Fasteners
13 of 45SM-HC 0621 Snow Melt Systems
ViegaPneumaticStaplesGalvanizedSteel-Model2889.8US
Normal Uses: Tubing Compatibilities: ⅜", ½", ⅝" Viega Barrier PEX tubing. Tubing Compatibilities: 16 Ga. Galvanized stapleMaterial Makeup: PlasticPackage Quantity: 10,000 staplesAssociated Tools: Pneumatic Staple gun part number 21430
PartNo. A B(in) (in)
21431 1.0 1.25
B
A
PartNo. A B UseWith(in) (in)
15313 1½ 1 1" thick foam panels15312 2½ 1 1½" thick or thicker foam panels
ViegaFoamStaplesPlastic-Model2890.0US,2890.3US
Normal Uses: Attaching Viega Barrier PEX tubing to rigid foam board insulationTubing Compatibilities: ⅜", ½", ⅝" Viega Barrier PEX tubingMaterial Makeup: PlasticPackage Quantity: 300 staplesAssociated Tools: Foam Staple Gun part number 21432. Also compatible with older straight handle foam staple gun.
B
A
PartNo. A B C D E F(in) (in) (in) (in) (in) (in)
15304 8.0 0.7 0.22 0.31 0.40 0.17
ViegaZipTiesPlastic-Model2866US
Normal Uses: Attaching Viega Barrier PEX tubing to rebar and wire mesh.Tubing Compatibilities: All sizes of Viega Barrier PEX tubingMaterial Makeup: NylonTensile Strength: 75 lbs.Package Quantity: 100 zip ties
A
B
C
D F
E
Tubing Fasteners
14 of 45SM-HC 0621 Snow Melt Systems
ViegaJ-clampPlastic-Model2860US
PartNo. PEXTubingSize A B C D(in) (in) (in) (in) (in)
52000 ⅜ 1.60 0.90 0.80 0.4052020 ½ 1.60 1.10 0.90 0.4052040 ¾ 2.13 1.30 1.20 0.4252060 1 2.38 1.70 1.50 0.50
Normal Uses: Attaching Viega Barrier PEX tubing to wood surfacesTubing Compatibilities: ⅜", ½", ¾", 1"Material Makeup: Plastic clip with ring shank steel nailPackage Quantity: 100 J-clamps
A
C
B D
ViegaWireMeshClipPlastic-Model2865.1US
PartNo. A B C D E(in) (in) (in) (in) (in)
15301 0.75 1.625 0.56 1.0 1.5
Normal Uses: Attaching Viega Barrier PEX tubing to wire meshTubing Compatibilities: ½", ⅝" Viega Barrier PEX tubingMaterial Makeup: Plastic For Wire Diameter: ⅛" to 3/16"Package Quantity: 100 clips
A
B
E
C
D
Bend Supports
15 of 45SM-HC 0621 Snow Melt Systems
7 Bend Supports
DescriptionViega’s plastic slab bend supports are used to provide protection and support to PEX tubing as it transitions from a thermal mass.
Plastic bend supports are made from hard PVC and are available in the sizes outlined in the chart below.
PartNo PEXSize(in)
A(in)
B(in) I.D.(in) O.D.(in)
15106 ⅜ 6.4 6.4 0.8 0.915107 ½ 7.9 7.9 1.0 1.115108 ⅝, ¾ 7.5 7.5 1.5 1.615111 1 10 10 1.6 1.9
ViegaBendSupportPlastic-Model2851US
Stainless Manifold Shut-Off / Balancing / Flow Meters
16 of 45SM-HC 0621 Snow Melt Systems
8 Stainless Manifold Shut-Off / Balancing / Flow Meters
DescriptionStainless manifolds are to be used in closed loop hydronic heating, cooling, and snow melting systems. These preassembled 1¼" diameter stainless supply and return manifolds come attached to two 6⅝" spacing brackets for compact remote mounting. This stainless manifold provides shut-off and balancing valves with flow
meters for each circuit. Each flow meter/balancing valve allows graduated flow setting up to 2 gpm, maximum 18 gpm per manifold. The air bleeder and purge valves are connected and factory tested. The manifold has 1¼" union connections and 1" NPT removable end caps. SVC circuit connection fittings are sold separately.
Specifications 11¼” 304 stainless header stock Factory installed air bleeder Mounting brackets Max. Operating Temperature: 180° F (short periods of 200° F) Max. Operating Pressure: 100 psi Return Valve Cv: 2.98 Supply Valve Cv: 1.30
The return manifold is fitted with shut-off valves which are suitable to receive optional 24V powerheads for control over each circuit via thermostat.
Manifold
WidthJust
Manifold(in)
WidthWithBallValveSetandAdapterFitting
(in)
WidthWithBallValveSetandFittingsForFlowThrough(in)
2 outlets 10.7 12.96 16.953 outlets 10.7 12.96 16.954 outlets 12.7 16.95 18.955 outlets 14.6 18.85 20.856 outlets 16.6 20.85 22.857 outlets 18.6 22.85 24.858 outlets 20.5 24.75 26.759 outlets 22.5 26.75 28.7510 outlets 24.5 28.75 30.7511 outlets 26.4 30.65 32.6512 outlets 28.4 32.65 34.65Height 12.1Depth 3.6Depth with ball valve set handles
4.26
Use part numbers 15070, 15069, or 15068 with this manifold.
3.91"
6.69
"
5.90"
12.66"
11.4
2"
5.32
"
12.2
0"
Dimensions
* When extending the manifold, Viega requires using thread sealant paste on the 1" NPT manifold end connection.
Stainless Manifold Shut Off / Balancing
17 of 45SM-HC 0621 Snow Melt Systems
9 Stainless Manifold Shut Off / Balancing
DescriptionStainless manifolds are to be used in closed loop hydronic heating, cooling, and snow melting systems. These preassembled 1¼" diameter stainless supply and return manifolds come attached to two 6⅝" spacing brackets for compact remote mounting. This stainless manifold provides shut-off and balancing valves for each
circuit. Manifolds allow flow rates up to 2 gpm per circuit, maximum of 18 gpm per manifold. The air bleeder and purge valve are connected and factory tested. The manifold has 1¼" union connections and 1" NPT removable end caps. SVC circuit connection fittings are sold separately.
Specifications 1¼" 304 stainless header stock Factory installed air bleeder Mounting brackets Max. Operating Temperature: 180° F (short periods of 200° F) Max. Operating Pressure: 100 psi Return Valve Cv: 2.98 Supply Valve Cv: 3.35
The return manifold is fitted with shut-off valves which are suitable to receive optional 24V powerheads for control over each circuit via thermostat.
Manifold
WidthJust
Manifold(in)
WidthWithBallValveSetandAdapterFitting
(in)
WidthWithBallValveSetandFittingsForFlowThrough(in)
2 outlets 8.71 12.96 14.963 outlets 10.7 14.95 16.954 outlets 12.7 16.95 18.955 outlets 14.6 18.85 20.856 outlets 16.6 20.85 22.857 outlets 18.6 22.85 24.858 outlets 20.5 24.75 26.759 outlets 22.5 26.75 28.7510 outlets 24.5 28.75 30.7511 outlets 26.4 30.65 32.6512 outlets 28.4 32.65 34.65Height 12.1Depth 3.6Depth with ball valve set handles
4.26
3.40"
6.69
"
5.90"
12.26"
11.4
2"
5.32
"
12.2
0"
Use part numbers 15070, 15069, or 15068 with this manifold.
Dimensions
* When extending the manifold, Viega requires using thread sealant paste on the 1" NPT manifold end connection.
Manifold Ball Valve Set
18 of 45SM-HC 0621 Snow Melt Systems
10 Manifold Ball Valve Set
DescriptionViega’s manifold ball valve sets are typically installed in conjunction with 1¼" stainless manifolds. These valve sets offer a fast and effective way to isolate manifolds from boiler piping.
Specifications Flat sealing face for use with 1¼" stainless steel
manifolds Chrome plated ball Blow out proof stem Full port valve Max pressure 100 psi Max temp 200˚F 1¼" BSPP x 1" FPT Double O-ring Stem Seal Each set includes two valves, one with red handle, one
with blue handle
7
86
54
22 3
1
Part No. 15056
ExpandedViewKey1. Forged brass nickel plated body2. PTFE Seat Ring3. Chrome Plated Ball4. Forged Brass Nickel Plated Body End5. Brass Stem6. Buna Nitrile O-rings7. Painted Aluminum Handle8. Zinc plated Handle Screw
Manifold Ball Valve Set
19 of 45SM-HC 0621 Snow Melt Systems
170
150
140
100
80
65
48
32
ºCºF
120
80
5040
30
0
10
20
70
60
A
BC
D
1 2
Size12 A(in)z B(in) C(in) D(in)
1¼" BSPP x 1" FPT 2.21 1.93 2.75 2.68
DimensionalInformation
TypicalInstallationwith1¼"StainlessManifold
Copper Manifold - Valved
20 of 45SM-HC 0621 Snow Melt Systems
11 Copper Manifold - Valved
DescriptionCommonly used in commercial heating, cooling, and snow-ice melting applications, Viega valved copper manifolds are available in 2" and 1½". They are available with shut-off valves or shut-off balancing valves, and are made out of Type L copper. Viega’s copper manifolds are copper (male) headers that are designed to utilize Viega’s ProPress® fittings on the header inlet and outlet to connect to primary loop (boiler loop).
Features ProPress compatible PEX Press adapter Uses ⅝" and ¾" PEX tubing Compact ¼ turn ball valve
CopperManifoldDiameter(in)
MaximumFlow(gpm)
1 131½ 352 45
ValveSize(in)
ApproximateCvRating
½ 3.0⅝ 6.0¾ 6.0
CopperManifoldswithShut-Off/BalancingValves
CopperManifoldswithShut-OffValves
PartNo. Dimensions
Lengthwithendcapandballvalve
A(in)
B(in)
C(in)
D(in)
17204 2" CM X ⅝" PEX Press - 12 51.25 39 5.72 3.00 3.0017205 2" CM x ¾" PEX Press - 12 51.25 39 5.64 3.00 3.0017223 1½" CM x ⅝" PEX Press - 12 50.00 39 5.48 3.00 3.0017224 1½" CM X ¾" PEX Press - 12 50.00 39 5.40 3.00 3.00
PartNo. Dimensions
Lengthwithendcapandballvalve
A B C D
17202 2" CM X ⅝" PEX Press - 12 51.25 39 4.70 3.00 3.0017203 2" CM x ¾" PEX Press - 12 51.25 39 4.62 3.00 3.0017221 1½" CM x ⅝" PEX Press - 12 50.00 39 4.46 3.00 3.0017222 1½" CM X ¾" PEX Press - 12 50.00 39 4.38 3.00 3.00
A
C D
B
Specifications Copper: Type L ASTM B88 Min Temp: 36ºF Max Temp: 250ºF Max Pressure: 200 psi Max. Glycol Mix: 50%
Materials Ball valves and balancing ball valves Brass body Plated or coated zinc handles Teflon, Viton, EPDM seals
Copper Manifold - Valveless
21 of 45SM-HC 0621 Snow Melt Systems
12 Copper Manifold - Valveless
DescriptionViega valveless copper manifolds are commonly used in commercial heating, cooling and snow melting applications. Viega valveless manifolds are made from type “L” copper tubing and are available in 2",1½" and 1" configurations. The 2", 1½" and twelve circuit 1" manifolds are copper male headers that are designed to utilize Viega ProPress or solder fitting connections. 1" valveless manifolds in 2, 3 and 4 outlet are available with copper female inlet and copper male outlet connections.
Features 2", 1½" and 12 circuit 1" manifolds are copper male
headers 1" copper manifolds 2, 3 and 4 outlet are copper
(female) x copper (male) headers Copper (male) outlets Type “L” copper tube All copper (male) connections are suitable for ProPress
or solder attachment
Specifications Copper: Type “L” ASTM B88 Min Temp: 36ºF Max Temp: 250ºF Max pressure: 200 psi Maximum Glycol Mix: 50% 1" Copper Manifolds max. flow: 13 gpm 1½" Copper Manifolds max. flow: 32 gpm 2" Copper Manifolds max. flow: 45 gpm
B
A
C D
PartNo. Dimensions LengthWithEndCapandBallValve
A(in)
B(in)
C(in)
D(in)
17100 2" CM x ¾" CM - 18 69.25 57 2.38 3.0 3.0
17120 1½" CM x ¾" CM - 18 68.0 57 2.13 3.0 3.0
17143 1" CM x CM , ½" CM - 12 35.25 26 1.95 2.0 2.017140 1"CF x CM, x ½" CM - 2 16.0 6.75 1.95 2.38 2.017141 1" CF x CM, x ½" CM - 3 18.0 8.75 1.95 2.38 2.017142 1" CF x CM, ½" CM - 4 20.0 10.75 1.95 2.38 2.0
Copper Manifold - Valveless
22 of 45SM-HC 0621 Snow Melt Systems
PartNo. ValveType ConnectionType17263 Shut-Off Balancing ½" PureFlow Press x ½" Copper female17264 Shut-Off Balancing ⅝" PureFlow Press x ¾" Copper female17265 Shut-Off Balancing ¾" PureFlow Press x ¾" Copper female17260 Shut-Off ½" PureFlow Press x ½" Copper female17261 Shut-Off ⅝" PureFlow Press x ¾" Copper female17262 Shut-Off ¾" PureFlow Press x ¾" Copper female92026 Shut-Off Balancing ½" PureFlow Press x ¾" Copper female adapter82031 Shut-Off Balancing ⅝" PureFlow Press x ¾" Copper female adapter92041 Shut-Off Balancing ¾" PureFlow Press x ¾" Copper female adapter99626 Shut-Off ½" PureFlow Press x ¾" Copper female adapter99640 Shut-Off ¾" PureFlow Press x ¾" Copper female adapter
ValveandAdapterOptionsforValveless-CopperManifolds
Shut-Off / Balancing Valves
23 of 45SM-HC 0621 Snow Melt Systems
13 Shut-Off / Balancing Valves
DescriptionShut-off / balancing valves are available in copper (female) x Viega PEX Press only. These shut-off / balancing valves are commonly used to connect radiant heating, cooling, and snow-ice melting tubing to Viega valveless copper manifolds or other copper to PEX Press connections.
Specifications Min. Temperature: 36ºF Max. Temperature: 250ºF Max. Pressure: 200 psi Max. Glycol Mix: 50%
PartNo. Valve Description A
(in)B(in)
17263 Shut-Off / Balancing
½" PEX Press x ½" Copper (female) 3.59 3.08
17264 Shut-Off / Balancing
⅝" PEX Press x ¾" Copper (female) 4.06 3.30
17265 Shut-Off /Balancing
¾" PEX Press x ¾" Copper (female) 4.98 3.22
ValveSize(in) ApproximateCvRating
½ 3.0⅝ 6.0¾ 6.0
*The number of full 360° turns open from a fully closed position
# of Turns for Balancing* Circuit Length (ft)
Longest Circuit (ft)=
X10
AB
Shut-Off Valve - PEX Press
24 of 45SM-HC 0621 Snow Melt Systems
14 Shut-Off Valve - PEX Press
Installation1 Prepare valve for soldering (always solder
valves prior to connecting PEX tubing).2 Open Ball Valve handle (parallel to flow).3 Solder valve.4 Allow valve to cool prior to connecting PEX
tubing.
AB
PartNo. Valve Description A(in) B(in)
17260 Shut-Off ½" PEX Press x ½" Copper (female) 2.23 1.73
17261 Shut-Off ⅝" PEX Press x ¾" Copper (female) 3.03 2.27
17262 Shut-Off ¾" PEX Press x ¾" Copper (female) 2.95 2.19
DescriptionViega shut-off valves are available in copper (female) x Viega PEX Press and compression. These shut-off valves are commonly used to connect radiant heating, cooling and snow-ice melting tubing to Viega
valveless copper manifolds or other copper to PEX Press connections.
Features Viega PEX Press connections Compact size ¼ turn ball valve Available individually or pre-assembled on Viega’s
1-½" and 2" copper manifolds
ValveSize(in) ApproximateCvRating
½ 3.0⅝ 6.0¾ 6.0
Materials Brass body Plated or coated zinc handles Teflon, Viton, EPDM seals
Specifications Min. Temperature: 36ºF Max. Temperature: 250ºF Max. Pressure: 200 psi Max. Glycol Mix: 50%
Copper Manifold End Cap
25 of 45SM-HC 0621 Snow Melt Systems
15 Copper Manifold End Cap
DescriptionCopper Manifold End Caps have two F NPT adapters, one is 1/2" for a draw-off (purge valve). The other is 1/8" for an automatic air vent (bottle vent). Made of Type “L” copper.
Specifications Copper: Type “L” ASTM B88 Min Temperature: 36ºF Max Temperature: 250ºF Max pressure: 200 psi. Maximum Glycol Mix: 50%
B
A
C
ProductNo. Size(in) A(in) B(in) C(in)17144 1" 5.00 3.10 2.0017125 11/2" 5.25 3.30 2.0017106 2" 5.40 4.00 2.80
Three Way Mixing Valve ¾" - 2"
26 of 45SM-HC 0621 Snow Melt Systems
16 Three Way Mixing Valve ¾" - 2"
DescriptionThree way mixing valves regulate fluid temperature to the system from the heat source. These valves are ideal for mixing fluid to control temperature in heating, cooling, and snow ice melting applications. The valves can be controlled both manually or automatically with the use of actuator (Product No. 20042).
Features Compact and lightweight Versatile for numerous piping configurations Dezincification resistant brass (CW 602N) Simple adjustable scale indicating valve position Adjustable valve position scale
ProductNo.
Size(in) Type A
(in)B(in)
C(in)
D(in)
Weight(lbs)
CVValue
Flow(gpm)
HeatCapacity(BTU/H)
Pressuredrop(psi)
PressureDrop(ftofhead)
20080 3/4
NPT
1.42 2.83 1.26 1.97 0.95 7.3 5 7
50,000 70,000
0.7 1.0
1.6 2.2
20081 1 1.61 3.23 1.34 1.54 1.54 11.7 12 17
120,000 170,000
1.0 2.1
2.4 4.8
20082 11/4 1.85 3.70 1.46 2.09 2.09 18.7 19 24
190,000 240,000
1.0 1.6
2.3 3.7
20083 11/2 2.09 4.17 1.73 3.70 3.70 29.329 34 38
290,000 340,000 380,000
1.0 1.2 1.7
2.2 2.7 3.8
20084 2 2.36 4.72 1.81 5.07 5.07 46.8
47 53 59 65
470,000 530,000 590,000 650,000
1.0 1.1 1.3 1.9
2.3 2.8 2.9 4.4
Heat capacity is based on water at a ΔT of 20˚F. The fluid used to calculate pressure drop across the valve is water @ 100˚F
Specifications Fluid Temperature Limits: 14°F- 230°F Max. Operating Pressure: 145 psi Max. Differential Pressure: 14.5 psi Max. Glycol Mixture: 50%
Materials Brass valve body (CW 602N) PPS composite shaft and Bushing EPDM O-Ring
Mixing Valve Actuator
27 of 45SM-HC 0621 Snow Melt Systems
17 Mixing Valve Actuator
DescriptionThe Actuator is designed to provide electronic temperature control for Viega’s Mixing Valves in heating, cooling, and snow-ice melting applications. The actuator is designed to fit and modulate all of Viega’s Mixing Valves 3/4" - 2". Operated by a 24V signal from the Viega Basic Heating Control or Advanced Snow Melt Control.
Specifications Power Supply: 24 VAC Power Consumption: 1.5 VA Torque: 45 in. lb. Signal / Runtime for 90° Rotation: 1.7 min. (102 sec.) Weight: 1 lb. Ambient Temperature Limits: 5 to 131°F
0.45"
3.25"
0.8"
2.6"
1.65"
1.75"
1.45"
Part No. 20042
Wi-Fi Snow Melt Control
28 of 45SM-HC 0621 Snow Melt Systems
18 Wi-Fi Snow Melt Control
DescriptionThe Wi-Fi Snow Melt Control operates hydronic heating equipment designed to melt snow and/or ice from roads and walkway surfaces. The control works with the Snow/Ice Sensor or Aerial Snow Sensor to automatically detect snow or ice and operates a single boiler or steam valve to supply heat to the slab. Boiler return protection is provided to non-condensing boilers using a mixing valve or variable speed injection mixing pump. The tekmar Connect mobile app allows for remote operation and monitoring of the snow melting system from anywhere in the world.
DedicatedBoiler
DescriptionThe Wi-Fi Snow Melt Control can operate a boiler that is dedicated to the snow melting system. The system is piped in primary-secondary to allow constant flow rates through the low-mass boiler and filled with glycol to prevent freezing.
The system pump operates continuously when heating the slab during storm/idling/melting operation.
The boiler pump cycles on and off together with the boiler.
The slab temperature is controlled by modulating the boiler firing rate or cycling the boiler on and off.
The slab target is determined by the storm/idling/melting setpoint and by the measured outdoor air temperature.
Optional slab protection limits the temperature differential between the boiler supply and slab.
The system operation is dependent on sensor selection, as listed in the table below.
Sensoroptions
Sensor SensorModel(s)SlabTemperature
ControlManualStart/TimedStop
AutoStart/TimedStop
AutoStart/AutoStop
S1 Automatic Snow/Ice Sensor • • – •
S2+S3 Aerial Snow Sensor and Slab Sensor • • • –
S3 Slab Sensor • • – –S2 Aerial Snow Sensor (not recommended) – • • –
Wi-Fi Snow Melt Control
29 of 45SM-HC 0621 Snow Melt Systems
LegendB1 = Modulating BoilerP1 = System PumpP2 = Boiler PumpS1 = Snow/Ice SensorS2 = Aerial Snow SensorS3 = Slab SensorS4 = Outdoor SensorS5 = Universal Sensor for Boiler
MechanicalConfiguration
S4
Snow/Ice Sensor Options
B1
P2
P1S5
S2
S1
S3
Wi-Fi Snow Melt Control
SettingName ValueApplication Mode Boiler
Application Settings
Wi-Fi Snow Melt Control
30 of 45SM-HC 0621 Snow Melt Systems
WiringDiagram
T T–+
BrnSlab
BlkCom YelBluRed
SnowSensor
095
20Mod Boiler 19
Wi-Fi Snow Melt Control
Power 115 V (ac) ±10%, 60 Hz, 20 VARelays 230 V (ac) 5 A 1/3 hpVar. Pump 230 V (ac) 2.4 A
1084-03Designed and assembled in Canada
Date
Cod
eH
6118
A
1 kΩ max 1 kΩ max
Opn3
Var
2
–Mix V/mA1
+Pwr4
MixCls5
Blu8
Yel9
Brn/10
SlabMan
11
MeltC
12Blk/7
ComRed6
Boiler 121
Stage 1Boiler 1Stage 2
HeatRelay
SystemPump–
22
+
23 24 25Do Not Apply Power
Mix15
SupCom16
Boil17
Out18
Com14
tN413 282726
Power29
L
30
N
For product literature:Pour la documentation du produit:viega.us
Disconnect all power before opening.
Coupez l'alimentation avant l'ouverture.
Signal wiring must be rated at least 300 V.Le câblage du signal doit être d'une capacité d'au moins 300 V.
Contains Wi-Fi transceiver:FCC ID: Z64-CC3100M0DR1, IC: 4511-CC3100M0DR1Meets Class B: FCC Part 15B, ICES-003
Viega
158033Manual Melt
Time Left- - : - - hrs
Outdoor32 °F
Settings Status
System is Melting
Stop
10:30 AM
Warming Up
Wi-Fi Snow Melt Control
31 of 45SM-HC 0621 Snow Melt Systems
DedicatedBoilerandMixer
DescriptionThe Wi-Fi Snow Melt Control can operate a boiler that is dedicated to the snow melting system. The system is piped in primary-secondary to allow constant flow rates through the low-mass boiler and filled with glycol to prevent freezing.
The system and boiler pumps operate continuously when heating the slab during melting/idling/storm operation.
The mixing valve position is adjusted to 100% open unless providing boiler return protection.
The slab temperature is controlled by modulating the boiler firing rate or cycling the boiler on and off.
The slab target is determined by the melting/idling/storm setpoint and by the measured outdoor air temperature.
Optional slab protection limits the temperature differential between the boiler supply and slab.
The system operation is dependent on sensor selection, as listed in the table below.
MechanicalConfiguration
LegendB1 = Modulating BoilerM1 = Actuating MotorP1 = System PumpP2 = Boiler PumpS1 = Snow/Ice SensorS2 = Aerial Snow SensorS3 = Slab SensorS4 = Outdoor SensorS5 = Universal Sensor for BoilerS6 = Universal Sensor for Mix SupplyX1 = TransformerV1 = 3-Way Mixing Valve
SettingName ValueApplication Mode Boiler + Mix
Application Settings
Wi-Fi Snow Melt Control
Snow/Ice Sensor Options
S4
S5 S6P1P2 V1
M1B1
S1
S2
S3
Sensoroptions
Sensor SensorModel(s)SlabTemperature
ControlManualStart/TimedStop
AutoStart/TimedStop
AutoStart/AutoStop
S1 Automatic Snow/Ice Sensor • • – •
S2+S3 Aerial Snow Sensor and Slab Sensor • • • –
S3 Slab Sensor • • – –S2 Aerial Snow Sensor (not recommended) – • • –
Wi-Fi Snow Melt Control
32 of 45SM-HC 0621 Snow Melt Systems
WiringDiagram
Com
Close
Open
T T–+
BrnSlab
BlkCom YelBluRed
SnowSensor
095
20Mod Boiler 19
Wi-Fi Snow Melt Control
Power 115 V (ac) ±10%, 60 Hz, 20 VARelays 230 V (ac) 5 A 1/3 hpVar. Pump 230 V (ac) 2.4 A
1084-03Designed and assembled in Canada
Date
Cod
eH
6118
A
1 kΩ max 1 kΩ max
Opn3
Var
2
–Mix V/mA1
+Pwr4
MixCls5
Blu8
Yel9
Brn/10
SlabMan
11
MeltC
12Blk/7
ComRed6
Boiler 121
Stage 1Boiler 1Stage 2
HeatRelay
SystemPump–
22
+
23 24 25Do Not Apply Power
Mix15
SupCom16
Boil17
Out18
Com14
tN413 282726
Power29
L
30
N
For product literature:Pour la documentation du produit:viega.us
Disconnect all power before opening.
Coupez l'alimentation avant l'ouverture.
Signal wiring must be rated at least 300 V.Le câblage du signal doit être d'une capacité d'au moins 300 V.
Contains Wi-Fi transceiver:FCC ID: Z64-CC3100M0DR1, IC: 4511-CC3100M0DR1Meets Class B: FCC Part 15B, ICES-003
Viega
158033Manual Melt
Time Left- - : - - hrs
Outdoor32 °F
Settings Status
System is Melting
Stop
10:30 AM
Warming Up
S1
S2 S3
M1
V1
X1
LN
S4
S5
P2 P1
S6
Wi-Fi Snow Melt Control
33 of 45SM-HC 0621 Snow Melt Systems
SharedBoilerandHeatExchanger
DescriptionThe Wi-Fi Snow Melt Control can operate a snow melting zone from a heat source that is shared with other loads in a building. A heat exchanger isolates the glycol-filled snow melting system loop from the water-filled main heating system.
The system pump operates continuously when heating the slab during storm/idling/melting operation.
The slab temperature is controlled by cycling the heat exchanger pump and the boiler enable on and off.
The slab target is determined by the storm/idling/melting setpoint and by the measured outdoor air temperature.
A normally-closed aquastat protects the heat exchanger from freezing by shutting off power to the system pump.
The system operation is dependent on sensor selection, as listed in the table below.
MechanicalConfiguration
SettingName ValueApplication Mode PWM Zone
Boiler Type Enable
Application SettingsLegendA1 = Normally Closed Freeze Protection AquastatB1 = Boiler EnableHX = Heat ExchangerP1 = System PumpP2 = On/Off Heat Exchanger PumpS1 = Snow/Ice SensorS2 = Aerial Snow SensorS3 = Slab SensorS4 = Outdoor Sensor
Wi-Fi Snow Melt Control
Snow/Ice Sensor Options
S4
P2
A1
P1
S1
S2
S3
HX
Sensoroptions
Sensor SensorModel(s)SlabTemperature
ControlManualStart/TimedStop
AutoStart/TimedStop
AutoStart/AutoStop
S1 Automatic Snow/Ice Sensor • • – •
S2+S3 Aerial Snow Sensor and Slab Sensor • • • –
S3 Slab Sensor • • – –S2 Aerial Snow Sensor (not recommended) – • • –
Wi-Fi Snow Melt Control
34 of 45SM-HC 0621 Snow Melt Systems
WiringDiagram
BrnSlab
BlkCom YelBluRed
SnowSensor
095
20Mod Boiler 19
Wi-Fi Snow Melt Control
Power 115 V (ac) ±10%, 60 Hz, 20 VARelays 230 V (ac) 5 A 1/3 hpVar. Pump 230 V (ac) 2.4 A
1084-03Designed and assembled in Canada
Date
Cod
eH
6118
A
1 kΩ max 1 kΩ max
Opn3
Var
2
–Mix V/mA1
+Pwr4
MixCls5
Blu8
Yel9
Brn/10
SlabMan
11
MeltC
12Blk/7
ComRed6
Boiler 121
Stage 1Boiler 1Stage 2
HeatRelay
SystemPump–
22
+
23 24 25Do Not Apply Power
Mix15
SupCom16
Boil17
Out18
Com14
tN413 282726
Power29
L
30
N
For product literature:Pour la documentation du produit:viega.us
Disconnect all power before opening.
Coupez l'alimentation avant l'ouverture.
Signal wiring must be rated at least 300 V.Le câblage du signal doit être d'une capacité d'au moins 300 V.
Contains Wi-Fi transceiver:FCC ID: Z64-CC3100M0DR1, IC: 4511-CC3100M0DR1Meets Class B: FCC Part 15B, ICES-003
Viega
158033Manual Melt
Time Left- - : - - hrs
Outdoor32 °F
Settings Status
System is Melting
Stop
10:30 AM
Warming Up
S1
S3S2
S4
LN
B1
P2
A1
P1
Wi-Fi Snow Melt Control
35 of 45SM-HC 0621 Snow Melt Systems
SharedBoilerandMixingInjectionPump
DescriptionThe Wi-Fi Snow Melt Control can operate a snow melting zone from a heat source that is shared with other loads in a building. The system uses a variable speed injection pump to regulate the water temperature and a heat exchanger isolates the glycol-filled snow melting system loop from the water-filled main heating system.
The system pump operates continuously when heating the slab during storm/idling/melting operation.
The slab temperature is controlled by adjusting the speed of the variable speed injection pump.
When the variable speed injection pump is on, the heat exchanger pump and the boiler enable are on.
The slab target is determined by the storm/idling/melting setpoint and by the measured outdoor air temperature.
A normally-closed aquastat protects the heat exchanger from freezing by shutting off power to the system pump.
The system operation is dependent on sensor selection, as listed in the table below.
MechanicalConfiguration
LegendA1 = Normally Closed Freeze Protection AquastatB1 = Boiler EnableHX = Heat ExchangerP1 = System PumpP2 = Heat Exchanger PumpP3 = Variable Speed Injection Mixing PumpS1 = Snow/Ice SensorS2 = Aerial Snow SensorS3 = Slab SensorS4 = Outdoor SensorS5 = Universal Sensor for BoilerS6 = Universal Sensor for Mix SupplyV1 = Globe Valve
SettingName ValueApplication Mode Mixing
Mixing Type InjectionBoiler Type Enable
Application Settings
Wi-Fi Snow Melt Control
Snow/Ice Sensor Options
S4
S5
P2 P1 S6P3HX
S1
S2
S3A1
V1
Sensoroptions
Sensor SensorModel(s)SlabTemperature
ControlManualStart/TimedStop
AutoStart/TimedStop
AutoStart/AutoStop
S1 Automatic Snow/Ice Sensor • • – •
S2+S3 Aerial Snow Sensor and Slab Sensor • • • –
S3 Slab Sensor • • – –S2 Aerial Snow Sensor (not recommended) – • • –
Wi-Fi Snow Melt Control
36 of 45SM-HC 0621 Snow Melt Systems
WiringDiagram
BrnSlab
BlkCom YelBluRed
SnowSensor
095
20Mod Boiler 19
Wi-Fi Snow Melt Control
Power 115 V (ac) ±10%, 60 Hz, 20 VARelays 230 V (ac) 5 A 1/3 hpVar. Pump 230 V (ac) 2.4 A
1084-03Designed and assembled in Canada
Date
Cod
eH
6118
A
1 kΩ max 1 kΩ max
Opn3
Var
2
–Mix V/mA1
+Pwr4
MixCls5
Blu8
Yel9
Brn/10
SlabMan
11
MeltC
12Blk/7
ComRed6
Boiler 121
Stage 1Boiler 1Stage 2
HeatRelay
SystemPump–
22
+
23 24 25Do Not Apply Power
Mix15
SupCom16
Boil17
Out18
Com14
tN413 282726
Power29
L
30
N
For product literature:Pour la documentation du produit:viega.us
Disconnect all power before opening.
Coupez l'alimentation avant l'ouverture.
Signal wiring must be rated at least 300 V.Le câblage du signal doit être d'une capacité d'au moins 300 V.
Contains Wi-Fi transceiver:FCC ID: Z64-CC3100M0DR1, IC: 4511-CC3100M0DR1Meets Class B: FCC Part 15B, ICES-003
Viega
158033Manual Melt
Time Left- - : - - hrs
Outdoor32 °F
Settings Status
System is Melting
Stop
10:30 AM
Warming Up
LN
S1
S2 S3
S4
B1
P2 P1
A1
S5
S6
P3
Wi-Fi Snow Melt Control
37 of 45SM-HC 0621 Snow Melt Systems
ModulatingSteamValve
DescriptionThe Wi-Fi Snow Melt Control can operate a modulating steam valve and a steam-to-water heat exchanger to heat a glycol-filled snow melting system.
The system pump operates continuously when heating the slab during storm/idling/melting operation.
The slab temperature is controlled by adjusting the modulating steam valve position.
The boiler relay is closed while the modulating steam valve is open. This provides a signal to fire the steam boiler.
The slab target is determined by the storm/idling/melting setpoint and by the measured outdoor air temperature.
The system operation is dependent on sensor selection, as listed in the table below.
MechanicalConfiguration
LegendB1 = Boiler EnableHX = Steam-to-Glycol Heat ExchangerM1 = Modulating Steam ValveP1 = System PumpS1 = Snow/Ice SensorS2 = Aerial Snow SensorS3 = Slab SensorS4 = Outdoor SensorS5 = Universal Sensor for Mix Supply
SettingName ValueApplication Mode Mixing
Mixing Type 0-10 V or 4-20 mABoiler Type Enable
Application Settings
Wi-Fi Snow Melt Control
Snow/Ice Sensor Options
S4
S5P1HX
M1
S1
S2
S3
Sensoroptions
Sensor SensorModel(s)SlabTemperature
ControlManualStart/TimedStop
AutoStart/TimedStop
AutoStart/AutoStop
S1 Automatic Snow/Ice Sensor • • – •
S2+S3 Aerial Snow Sensor and Slab Sensor • • • –
S3 Slab Sensor • • – –S2 Aerial Snow Sensor (not recommended) – • • –
Wi-Fi Snow Melt Control
38 of 45SM-HC 0621 Snow Melt Systems
WiringDiagram
+ –
BrnSlab
BlkCom YelBluRed
SnowSensor
095
20Mod Boiler 19
Wi-Fi Snow Melt Control
Power 115 V (ac) ±10%, 60 Hz, 20 VARelays 230 V (ac) 5 A 1/3 hpVar. Pump 230 V (ac) 2.4 A
1084-03Designed and assembled in Canada
Date
Cod
eH
6118
A
1 kΩ max 1 kΩ max
Opn3
Var
2
–Mix V/mA1
+Pwr4
MixCls5
Blu8
Yel9
Brn/10
SlabMan
11
MeltC
12Blk/7
ComRed6
Boiler 121
Stage 1Boiler 1Stage 2
HeatRelay
SystemPump–
22
+
23 24 25Do Not Apply Power
Mix15
SupCom16
Boil17
Out18
Com14
tN413 282726
Power29
L
30
N
For product literature:Pour la documentation du produit:viega.us
Disconnect all power before opening.
Coupez l'alimentation avant l'ouverture.
Signal wiring must be rated at least 300 V.Le câblage du signal doit être d'une capacité d'au moins 300 V.
Contains Wi-Fi transceiver:FCC ID: Z64-CC3100M0DR1, IC: 4511-CC3100M0DR1Meets Class B: FCC Part 15B, ICES-003
Viega
158033Manual Melt
Time Left- - : - - hrs
Outdoor32 °F
Settings Status
System is Melting
Stop
10:30 AM
Warming Up
LN
S1
S2 S3
S4
B1
P1
S5
M1
Wi-Fi Snow Melt Control
39 of 45SM-HC 0621 Snow Melt Systems
The control shall communicate with the Internet to provide remote starting, stopping and monitoring through an Android, Apple iOS mobile app, or through a web browser.
The control shall have the ability to use a snow/ice sensor in order to automatically detect snow or ice and begin operation of the system. The system shall continue to run until the sensor is dry or the control is manually stopped.
The control shall communicate with an Internet weather service to determine the local snow fall forecast and automatically pre-heat the slab for an adjustable timed duration.
The control shall have the ability to be manually started with an adjustable running time that counts down and automatically stops the system.
The control shall not operate the system to provide heat to the snow melting zones when it enters into either a Warm Weather Shut Down (WWSD) or a Cold Weather Cut Off (CWCO) mode.
The system water temperature shall be based on the outdoor temperature and feedback from sensors located in the snow melting slabs.
The control shall have the option to mix the supply water temperature using a mixing valve with a floating action, 0-10 V (dc) or a 4-20 mA actuator motor, or using a variable-speed injection mixing pump.
The control shall have an adjustable minimum return water temperature setting to help prevent condensation of flue gases and subsequent corrosion and blockage of the boiler’s heat exchanger and chimney.
The control shall have the ability to limit the amount of cool water being returned to the boiler through the mixing device in order to prevent low boiler operating temperatures and flue gas condensation.
The control shall have the ability to directly control the supply temperature of a modulating boiler, a one or two-stage boiler, or to send a boiler enable signal to another boiler operating control to allow for a staging control to be connected.
The control shall have the option of an automatic differential calculation for the operation of one or two boiler stages in order to prevent short cycling.
The control shall use proportional, integral and derivative (PID) logic when modulating or staging boiler stages.
The control shall have the option to limit the heat up rate of the slab to help prevent cracking the concrete.
The control shall have two separate lockable access levels to limit the number of adjustments available to various users.
The control shall have a manual override that allows each output to be manually turned on or off.
The control shall continuously monitor its temperature sensors and provide an error message upon a control or sensor failure.
The control shall record and display boiler and pump running hours and minimum and maximum temperatures depending on the access level that has been selected.
During extended periods of inactivity, the pumps and valves that are operated by the control shall be periodically exercised to prevent seizure during long idle periods.
RecommendedSpecificationsfortheWi-FiSnowMeltControl
Basic Digital Setpoint Control II
40 of 45SM-HC 0621 Snow Melt Systems
19 Basic Digital Setpoint Control II
DescriptionThe Viega Basic Digital Setpoint Control II is a general purpose temperature control with a wide range of applications in the HVAC industry. This control provides two isolated SPDT relay contacts. The two relays are controlled by a watertight sensor. Included with the Basic Digital Setpoint Control. This control is commonly used as basic heating and/ or cooling system control for commercial and residential slab application.
Features Setpoint Control for Heating and Cooling Simple installation and programming Large digital LCD display Reliable, economical Two relay outputs with individual Setpoint capability Watertight Sensor included
SpecificationsDigital Setpoint Control II with watertight sensor (17029)Watertight Sensor (17031)
Input 24V, 120V, 240V
Output2 SPDT dry contacts, 1/2 hp @ 120 VAC, 9.8 FLA, 58.8 LRA
Sensor 6' Resistor, extendable up 100'
Setpoint -40 - 248°F range
Differential 1 - 150°F range
Accuracy +/- 1°F
Environment -40 - 140°F, 5 - 95% rH,non-condensing
Powerdraw 8 VA
Dimensions 4.91 x 8.16 x 2.37 in.
Three-Speed Circulator Pumps (Low, High Head)
41 of 45SM-HC 0621 Snow Melt Systems
20 Three-Speed Circulator Pumps (Low, High Head)
Specifications
LowHead Flow Range: 0 - 17.5 US GPM Head Range: 0 - 19 feet Voltage: 115 Volts, 60 Hz Motor: 2 pole, single phase Maximum Fluid Temperature: 230°F Minimum Fluid Temperature: 36°F Maximum Working Pressure: 145 psi Maximum Glycol Mix: 50%
HighHead Flow Range: 0 - 34 US GPM Head Range: 0 - 30 feet Voltage: 115 Volts, 60 Hz Motor: 2 pole, single phase Maximum Fluid Temperature: 230°F Minimum Fluid Temperature: 36°F Maximum Working Pressure: 145 psi Maximum Glycol Mix: 50%
DescriptionViega offers two 3-speed, wet rotor, direct drive in-line circulator pumps designed for residential and light commercial applications. These circulators are quiet and maintenance free, making them ideal to use in primary and / or secondary loop piping.
PartNo. A B C D E FLow Head 12126 6½ 5¼ 4 43/16 3 35/32High Head 12127 6½ 6 4⅞ 3⅞ 37/16 35/32
Three-Speed Circulator Pumps (Low, High Head)
42 of 45SM-HC 0621 Snow Melt Systems
PartNo. Speed Amps Watts HP
12126HI 0.75 87 1/25
MED 0.66 80 1/25LOW 0.55 60 1/25
PartNo. Speed Amps Watts HP
12127HI 1.8 197 1/6
MED 1.5 179 1/6LOW 1.3 150 1/6
Heat Exchanger
43 of 45SM-HC 0621 Snow Melt Systems
21 Heat Exchanger
OperatingParameters Working Temp: -320° F to +350° F Max. Working Pressure: 580 psi
ListingsandCertifications Conforms to UL ASME VIII-1
4.88"
2.88"0.79"
13.19" 11.06"
2.52"
3.50"
Component Material
Plate 316L Stainless Steel
Connection 304 Stainless Steel
Braze Copper
Specifications
PartNo. NumberofPlates BTU/hr
Supply Load Connection(MNPT)(in)
StudSize
Depth(in)
Weight(lbs)
FlowRate(Gpm)
PressureDrop(psi)
FlowRate(Gpm)
PressureDrop(psi)
22006 16 125,000 8.5 4.1 9.0 3.9 ¾ M8 1.79 8.2
22007 36 250,000 17.2 2.3 18.8 3.2 1¼ M10 3.55 14.0
22008 70 500,000 34.1 2.7 36.0 4.1 1¼ M10 6.55 23.8
**Flow rate and pressure drop calculated for: Supply 180˚F in to 150˚F out; Load 40% Propylene Glycol 100˚F in to 130˚F out
Description For use in radiant heating and snowmelting. Heat exchanger may be installed in vertical or
horizontal position. Heat exchanger must be piped in counterflow
arrangement. A water strainer MUST be installed in the
water inlet circuit unless there is one present as an integral part of the heat source (16-20 mesh minimum, 20-40 mesh recommended).
Water quality should be maintained at a pH of 7.4 (6.5 to 8.0).
Limited Warranty
44 of 45SM-HC 0621 Snow Melt Systems
22 Limited WarrantyViegaHeatingandCoolingSolutions
HydronicRadiantHeating/CoolingandSnowMelt
Subject to the conditions and limitations in this Limited Warranty, Viega LLC (Viega) warrants to property owners in the United States with hydronic radiant heating/cooling and/or snow melt systems (the systems) properly installed by Viega trained contractors that its Viega Barrier PEX tubing, under normal conditions of use and properly maintained, will be free from failure caused by manufacturing defect for a period of thirty (30) years from date of installation.
In addition, Viega warrants that Viega PEX press metal and polymer fittings properly installed in the systems with the above listed tubing, to include protected PEX press metal and polymer fittings used in slab, will be free from failure caused by manufacturing defect for a period of thirty (30) years from date of initial installation; warrants that any accessible metal compression or metal/polyalloy crimp fittings, manifolds and panels sold by Viega and used in the systems will be free from failure caused by manufacturing defect for a period of five (5) years, and warrants that any controls, mixing stations, or electrical components sold by Viega and used in the systems will be free from failure caused by manufacturing defect for a period of two (2) years from date of initial installation.
Power tools and jaws used with press fittings are warranted by the manufacturer and Viega extends no separate warranty on those tools or jaws. Viega warrants that PEX press hand and pneumatic PEX hammer tools sold by Viega, under normal conditions of use, shall be free from failure caused by manufacturing defects for a period of two (2) years from date of sale.
Under this limited warranty, you only have a right to reimbursement if the failure or leak resulted from a manufacturing defect in the products covered by this warranty and the failure or leak occurred during the warranty period. You do not have a remedy or right of reimbursement under this warranty and the warranty does not apply if the failure or any resulting damage is caused by (1) components in the systems other than those manufactured or sold by Viega or components not recommended for use in the systems (2) not installing, inspecting, or testing the products covered
by this warranty in accordance with Viega’s installation instructions at the time of the installation, applicable code requirements and accepted industry practices (for example, guidelines of the Radiant Professionals Alliance); (3) improper design, including determining proper heat-load of the system, or improper maintenance of the system; (4) exposure to unauthorized solvents or chemicals, antifreeze, rust inhibitor or other treatment fluids; freezing; or by failure to appropriately limit recommended water temperature levels or other misuse or abuse of the tubing in the handling of the tubing prior to or during installation or by other construction activity on the property; (5) acts of nature such as earthquakes, fire, flood, wind, or lightning.
In the event of a leak or other failure in the system, it is the responsibility of the property owner to obtain and pay for the repairs. Only if the warranty applies will Viega be responsible for reimbursement under this warranty. The part or parts which you claim failed should be kept and Viega contacted by writing to the address below or telephoning 1-800-976-9819 within thirty (30) days after the leak or other failure and identifying yourself as having a warranty claim. You should be prepared to ship, at your expense, the product which you claim failed due to a manufacturing defect, document the date of installation, and the amount of any claimed bills for which you claim reimbursement. Within a reasonable time after notification, Viega will investigate the reasons for the failure, which includes the right to inspect the product at Viega and reasonable access to the site of the damage in order to determine whether the warranty applies. Viega will notify you in writing of the results of its review.
In the event that Viega determines that the failure or leak and any resulting damages were the result of a manufacturing defect in the products covered by this warranty and occurred during the first ten years of the time period covered by this warranty, Viega will reimburse the property owner for reasonable repair or replacement charges resulting from the failure or leak and, additionally will reimburse damages to personal property resulting from the failure or leak. After the first ten years of the time period covered by this warranty, the EXCLUSIVE
SM-HC 0621 Snow Melt Systems
Limited Warranty
Viega LLC585 Interlocken Blvd.Broomfield, CO 80021
Phone (800) 976-9819www.viega.us
45 of 45
and ONLY remedy will be reimbursement for repair and replacement of the product covered by this warranty. VIEGA SHALL NOT BE LIABLE FOR CONSEQUENTIAL ECONOMIC LOSS DAMAGES UNDER ANY LEGAL THEORY AND WHETHER ASSERTED BY DIRECT ACTION, FOR CONTRIBUTION OR INDEMNITY OR OTHERWISE.
THE ABOVE LIMITED WARRANTY IS IN LIEU OF ALL OTHER WARRANTIES, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. IF FOUND APPLICABLE, ANY IMPLIED WARRANTIES ARE LIMITED TO THE DURATION OF ANY TIME LIMITS SET OUT IN THIS WRITTEN WARRANTY. Other than this limited warranty, Viega does not authorize any person or firm to create for it any other obligation or liability in connection with its
products. This written warranty applies for the full term of the applicable warranty regardless of any change of ownership of the property.
In the event that the tubing or fittings covered by this warranty are used in potable water plumbing systems, the Viega Limited Warranty for Viega PEX Water Systems will apply.
Some states do not allow the exclusion or limitation of incidental or consequential damages or limitations on the duration of implied warranties in certain types of transactions, so the above exclusion or limitations may not apply to you. This limited warranty gives you specific legal rights and you also may have other rights which vary from state to state. This warranty shall be interpreted and applied under the law of the state in which the product is installed.