Raypak 85, 120 manual Principle Components, Banned Material Statement, Safety Devices

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PRINCIPLE COMPONENTS

A fully integrated electronic control board featuring electronic temperature control, anti-cycle control, pump over-run, actuator anti-block function, self-diagnostic fault indicator, full air/gas modulation.

-Radial aluminum heat exchanger.

-Electronic ignition with flame supervision

-Integral pump

-Fan

-Water pressure switch

-Condensate level sensor

-Pressure gauge

-Pressure relief valve

-Flue thermostat

-Flue sensor

-Blocked flue switch

BANNED MATERIAL STATEMENT:

No banned materials or substances have been used in the manufacture or production of this appliance or its inherent components

MANUAL HANDLING STATEMENT:

CAUTION: This appliance may require 2 or more persons to lift or carry it to the installation location; due to the weight of the appliance it may be necessary for two people to lift and attach the appliance to its mounting. To avoid the possibility of injury during the installation, servicing or cleaning of this appliance, care should be taken when handling component edges.

MODE OF OPERATION (AT REST)

When the appliance is at rest and there are no requests for heating or hot water, the following functions are active:

-2-stage freeze protection system – the freeze protection system protects the appliance against the risk of freeze damage. The first stage enables activation of the pump should the tempera- ture of the appliance fall to 43°F (6oC). Should the first stage become active, the appliance will function on minimum +25% power until it reaches 95°F (35oC).

-Anti-seize function – the anti-seize function enables the pump to be energized for short periods, when the appliance has been inactive for more than 24-hours.

XPAK INTERNAL HYDRAULIC CIRCUIT (FIG. 2)

MODE OF OPERATION

When there is a request for heat and/or hot water, via the programmer/time clock and/or any external control, the pump and fan are started, the fan speed will modulate until the correct signal voltage is received at the control PCB. At this point an ignition sequence is enabled.

Ignition is sensed by the electronic circuitry to ensure flame stability at the burner. Once successful ignition has been achieved, the electronic circuitry increases the gas rate to 75% of the MAX Heating (set by the corresponding HTG trimmer) for a period of 15 minutes. Thereafter, the boiler’s output will either increase to maximum or modulate to suit the set requirement.

When the appliance reaches the desired temperature the burner will shut down and the boiler will perform a three-minute post purge (timer delay).

When the request for heat has been satisfied the appliance pump and fan may continue to operate to dissipate any residual heat within the appliance.

SAFETY DEVICES

When the appliance is in use, safe operation is ensured by:

-a water pressure switch that monitors system water pressure and will de-activate the pump (when lockout condition is reached), fan and burner should the system water pressure drop below the rated tolerance;

-blocked flue switch that monitors flue pressure and will de- activate the pump (when lockout condition is reached), fan and burner should the flue pressure increase over the rated tolerance;

-fan speed sensor to ensure safe operation of the burner;

-a high limit thermostat that over-rides the temperature control circuit to prevent or interrupt the operation of the burner;

-flame sensor that will shut down the burner when no flame signal is detected;

-a sensor that interrupts the operation of the appliance if the condensate pipe becomes blocked;

-a pressure relief valve which releases excess pressure from the primary circuit;

-a flue sensor that controls the flue temperature continuously checking to be right according the output;

-a flue thermostat that over-rides the temperature control circuit to prevent or interrupt the operation of the burner.

return

temperature

sensor

bottom auto air valve

pressure

switch

pump

automatic

bypass

top

flowauto air

temperaturevalve sensor

manual air

release

main heat exchanger

pressure

relief valve

drain valve

Heating

Heating

pressure

relief valve

return

flow

 

Fig. 2

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Contents Page About these instructions About the XPakContents PAY Attention to These Terms Following instructions must be observedYou must also observe What to do if you smell gas Observe these instructions as general warningsObserve these instructions for space heating water Tools, materials and additional equipmentGeneral Safety Before InstallationM E / T E M P E R a T U R E Relationships in Scalds Water Time to Produce SeriousRegulations and Guidelines Operating Limits of the boilerIntroduction General layout FigAB C DE Technical Data Recommended Minimum Service Clearances Boiler Dimensions And WeightXPak Max flues length de-rate less 2%Manual Handling Statement Mode of Operation AT Rest Xpak Internal Hydraulic Circuit FIG Mode of OperationSafety Devices Principle ComponentsPiping Connections FIG Dimensions and Connections Fig Boiler BOX Content Table Pos Parts Quantity Packaging Packaging and TransportationScope of Delivery Transporting the BoilerInstallation Prepare Xpak LocationPrepare Xpak Xpak Piping Procedure Summary Boiler with DHW TankWaterside Flow Primary Circuit Pump DutyXpak Installation Diagrams Key for installation sample diagramsPage Page Length Gas Volume Capacity Pipe feet Ft 3/h Making the GAS ConnectionGas Pipe Capacity for different pipe sizes Equivalent length for pipe fittings in feetBoiler Template Fig All Air from Inside the Building room air All Air from Outdoor sealed combustionVent Systems Flue GAS SystemBoiler Supply Installations1 Canadian Installations2 Minimum Clearances from VENT/AIR Inlet TerminationVertical Coaxial Sealed Combustion Operation TWO Pipes Single Wall Room AIR Dependent Operation Stainless steel Field supplied013102 Description Diagram Drawing TWO Pipes Single Wall = total intake length = Connecting the Condensate Water Drain Electrical ConnectionsExternal Wiring External Wiring LimitationsConnecting Thermostat Appliance Terminal BlockTerminal Strip Details HighLow WAY Valve Wiring Connection Remote Control ConnectionOutdoor Sensor Connection Wiring Functional Diagram START-UP Procedure Are several steps involved in starting up the boilerFreeze Protection When Used CommissioningCHECK/CONTROL Water Chemistry Heating SystemTesting for GAS Leaks Initial Lighting and Ignition Safety Shutoff Device TestCheck Thermostat Circuits Initial Flushing of the SystemWarranty Final ChecksInstructing the User Switching on the Appliance Reset FunctionSwitching OFF START-UP and OperationIndicator Leds and Faults Green indicator LED FigRed indicator LED Fig For AL41 faults For alarm AL91CHECKS, Adjustments and Fault Finding CHECKING/ADJUSTING the Boiler FAN Speeds GAS Valve Minimum Pressure SettingExternal Faults Installation FaultsFault Finding Reversed Polarity or Supply FaultBoiler Configuration Electrical ChecksSetting the Outdoor Reset Curve with Outdoor Sensor Programmable Timer DAY+NIGHTSelecting the offset heating curve Fig Type of Heat Request Standard212 194 176 158 140 122 104 Fault Codes Code Cause Alarm Type ActionReplacement of Components Component Removal ProcedureServicing Instructions GeneralWater Pressure Switch Fig Flow Sensor Primary Thermistor FigReturn Sensor Return Thermistor Fig Printed Circuit Board FigBlocked Flue Pressure SWITCH/IGNITION Transformer Fig Flue FAN & Mixer FigBurner Fig Main Heat Exchanger FigCondensate Trap Removal Fig Flue Collector and Flue Thermostat Removal FigGAS Supply Installation LPG InstructionsPropane GAS GAS SupplyTechnical Data LPG Sequence of the Ignition System Exploded Diagrams 56a Xpak Drawing Call OUT Description Important Instructions for the Commonwealth of Massachusetts Limited Warranty Applicable Warranty PeriodsHOW to Make Warranty Claim START-UP Checklist for FAN-ASSISTED Raypak Products Your XPak serial number For future reference

120, 85 specifications

The Raypak 120,85 is a prominent model in the realm of pool and spa heating solutions, designed to deliver unmatched efficiency and performance. Renowned for its robust features and innovative technologies, the Raypak 120,85 stands out as a reliable choice for homeowners seeking to maintain the perfect water temperature in their pools and spas.

One of the primary characteristics of the Raypak 120,85 is its impressive heating capacity. With a total output of 120,000 BTUs, this heater quickly and efficiently warms up water, ensuring that users can enjoy comfortable swimming conditions regardless of the outdoor temperature. The 85 indicates its ability to deliver consistent performance even in cooler climates, making it an adaptable option for various geographical locations.

The Raypak 120,85 is equipped with a state-of-the-art, copper fin tube heat exchanger, which provides superior heat transfer efficiency. This technology enhances the heater's ability to warm water rapidly while maintaining energy efficiency. Additionally, the copper material is known for its durability and resistance to corrosion, ensuring a long lifespan for the heat exchanger.

Another key feature of the Raypak 120,85 is its electronic ignition system. This innovation eliminates the need for a standing pilot light, which not only saves energy but also enhances safety by reducing the risk of gas leaks associated with traditional ignition systems. The electronic ignition provides precise control, ensuring a reliable start each time.

The Raypak 120,85 also boasts a digital display control panel, allowing users to easily monitor and adjust the water temperature settings. This intuitive interface provides accurate readings and simplifies the operation, making it accessible for all users, regardless of their technical expertise.

Furthermore, this heater is designed with a compact footprint, making it suitable for a variety of installation spaces, whether it’s in a pool equipment area or near a spa. Its robust build quality and weather-resistant design ensure that it can withstand the elements, making it a durable and long-lasting investment.

In summary, the Raypak 120,85 combines advanced heating technology, robust construction, and user-friendly features. With its high BTU output, efficient heat exchanger, electronic ignition, and digital controls, it represents a top-tier option for anyone seeking reliable and effective heating solutions for pools and spas. Whether for leisure or relaxation, the Raypak 120,85 promises to deliver an optimal swimming experience, season after season.
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