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Aerion Range INSTALLATION, OPERATING AND MAINTENANCE MANUAL G1410 GF G1410 GF2L G1410 GF2R GF1410 GF3 G1410 RD G1410 T G1250 GF G1250 GF2L G1250 GF2R G1250 GF3 G 800 GF G 800 T G 650 GF ALTO GF ALTO T Version 3 28/02/22 Contents of manual may be updated without notice.
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D O N OT D I S C A R D T H I S MA N UA L AT T E N T I O N: Important Installation, User and Maintenance instructions included. Please read this manual before installing and using this space heater. Leave this manual with the owner. This space heater is approved for Natural Gas and Universal LPG usage.
TABLE OF CONTENTS Safety Warnings Product Dimensions G1410 GF G1410 GF2L G1410 GF2R GF1410 GF3 G1410 RD G1410 T G1250 GF G1250 GF2L G1250 GF2R G1250 GF3 G800 GF G800 T G650 GF ALTO GF ALTO T Technical Data Summary Vue 1410 Range Technical Data Summary Vue 1250 Range Technical Data Summary Quadro 800 Range Technical Data Summary Quadro 650 Range...
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TABLE OF CONTENTS Control Panel Cladding Material Clearances G1410 GF G1410 GF2R G1410 GF2L GF1410 GF3 G1410 RD G1410 T G1250 GF G1250 GF2R G1250 GF2L G1250 GF3 G800 GF G800 T G650 GF ALTO GF ALTO T Installation Instructions Prohibited Area for Flue Terminals Flueing Information Installer Information...
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TABLE OF CONTENTS Alto Range Quadro 800 Range Quadro 650 Range Main Burner Check Remote Control Installation Error Codes Servicing Trouble Shooting Cleaning the Ceramics Cleaning and Maintenance Aerion Range...
SAFETY WARNINGS DO NOT PLACE ARTICLES ON OR AGAINST THIS APPLIANCE. • DO NOT USE OR STORE FLAMMABLE MATERIAL NEAR THE APPLIANCE. • DO NOT SPRAY AEROSOLS IN THE VICINITY OF THIS APPLIANCE WHILST IT IS IN OPERATION. • DO NOT MODIFY THIS APPLIANCE. •...
TECHNICAL DATA SUMMARY Vue Fourteen Ten (G1410 GF) Vue Fourteen Ten Left Corner (G1410 GF2L) Vue Fourteen Ten Right Corner (G1410 GF2R) Vue Bay (G1410 GF3 ) Vue Tunnel (G1410 T) Vue Peninsula (G1410 RD) Natural Gas Universal LPG Model Number G 1410 Type Number AS-10...
TECHNICAL DATA SUMMARY Vue Twelve Fifty (G1250 GF) Vue Twelve Fifty Left Corner (G1250 GF2L) Vue Twelve Fifty Right Corner (G1250 GF2R) Vue Twelve Fifty Bay (G1250 GF3 ) Natural Gas Universal LPG Model Number G 1250 Type Number AS-6 Gas consumption –...
TECHNICAL DATA SUMMARY Quadro Eight Hundred (G800 GF) Quadro Eight Hundred Tunnel (G800 T) Natural Gas Universal LPG Model Number G 800 Type Number AS-4 Gas consumption – high (MJ/hr) 31.0 28.0 Gas consumption – low (MJ/hr) 19.0 24.0 Burner pressure - high (kPa) Burner pressure - low (kPa) Number of burners Large burner...
TECHNICAL DATA SUMMARY Quadro Six Fifty (G650 GF) Natural Gas Universal LPG Model Number G 650 Type Number AS-7 Gas consumption – high (MJ/hr) Gas consumption – low (MJ/hr) Burner pressure - high (kPa) Burner pressure - low (kPa) Number of burners Large burner Small burner Injector (Bray type) multiport...
TECHNICAL DATA SUMMARY Alto Glass Fronted (ALTO GF) Alto Tunnel (ALTO T) Natural Gas Universal LPG Model Number G Alto Type Number AS-16 Gas consumption – high (MJ/hr) Gas consumption – low (MJ/hr) Burner pressure - high (kPa) 2.40 Burner pressure - low (kPa) 1.52 Number of burners Large burner...
Overall Design: • One of the many features of the Paul Agnew Designs gas fireplaces is its use of convective air flow. • As the air within the enclosing walls, or chase, is warmed by the fireplace it rises and then exits the convection air outlets.
VENT LOCATIONS AND SIZES *NOTE: Vent location minimum of 300mm down from the finished surface of the ceiling. This (300mm) is the optimum loca- tion of the vent relative to efficiency. This vent can be installed at a lower level (closer to the heater) but with compromise on efficiency.
CONTROL PANEL Figure 1.5 (Control panel location) Control Box Installation: 210mm Timber Installation: Unit stands on small legs that sit on framing/floor which provide sufficient clearance for airflow. If unit is mounted on floor, control panel can only be located to the side with the minimum clearance of 250mm to the side.
CLADDING MATERIAL Figure 1.7 (Cladding Material) Note: A gap of 4mm needs to be left between the villa board and the top part of the firebox. 9mm Villa Board can be used as an alternative approved cladding material Aerion Range...
1410GF CLEARANCES TIMBER FRAME Possible vent locations 2 minimum vents required, 4 vents for more efficient heat dispersion. G*= 250mm H*= 395mm Possible control box locations CLEARANCE TO COMBUSTIBLES Metal Studs Infills to be Option for smaller depth clearance: installed after Unit is in place Metal Studs fixed to rear combustible wall.
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1410GF CLEARANCES METAL FRAME Possible vent locations 4 minimum vents required for airflow H*= 395mm Possible control box locations CLEARANCE TO COMBUSTIBLES Metal Stud Frame Unit Dimensions FOR METAL STUD FRAME, UNIT MUST BE IN PLACE In mm Clearance to the inside of the metal stud Depth Clearance Unit Width +150mm Unit Height...
1410GF2R CLEARANCES TIMBER FRAME Possible vent locations 2 minimum vents required, 4 vents for more efficient heat dispersion. G*= 250mm H*= 395mm Possible control box locations CLEARANCE TO COMBUSTIBLES Metal Studs Infills to be Option for smaller depth clearance: installed after Unit is in place Metal Studs fixed to rear combustible wall.
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1410GF2R CLEARANCES METAL FRAME Possible vent locations 4 minimum vents required for airflow H*= 395mm Possible control box locations CLEARANCE TO COMBUSTIBLES Metal Stud Frame Unit Dimensions FOR METAL STUD FRAME, UNIT MUST BE IN PLACE In mm Clearance to the inside of the metal stud Depth Clearance Unit Width +150mm to Unit Height...
1410GF2L CLEARANCES TIMBER FRAME Possible vent locations 2 minimum vents required, 4 vents for more efficient heat dispersion. G*= 250mm H*= 395mm Possible control box locations CLEARANCE TO COMBUSTIBLES Metal Studs Infills to be Option for smaller depth clearance: installed after Unit is in place Metal Studs fixed to rear combustible wall.
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1410GF2L CLEARANCES METAL FRAME Possible vent locations 4 minimum vents required for airflow H*= 395mm Possible control box locations CLEARANCE TO COMBUSTIBLES Metal Stud Frame Unit Dimensions FOR METAL STUD FRAME, UNIT MUST BE IN PLACE In mm Clearance to the inside of the metal stud Depth Clearance Unit Width +150mm to Unit Height...
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1410 GF3 CLEARANCES TIMBER FRAME Possible vent locations 2 minimum vents required, 4 vents for more efficient heat dispersion. E*= 395mm Possible control box locations CLEARANCE TO COMBUSTIBLES Option for smaller depth clearance: Metal Studs Infills to be Metal Studs fixed to rear combustible wall. installed after Unit is in place Unit Dimensions...
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1410 GF3 CLEARANCES METAL FRAME Possible vent locations 2 minimum vents required, 4 vents for more efficient heat dispersion. E*= 395mm Possible control box locations CLEARANCE TO COMBUSTIBLES Metal Stud Frame Unit Dimensions FOR METAL STUD FRAME, UNIT MUST BE IN PLACE In mm Clearance to the inside of the metal stud Depth Clearance...
1410 RD CLEARANCES TIMBER FRAME Possible vent locations 2 minimum vents required, 4 vents for more efficient heat dispersion. G*= 250mm H*= 395mm Possible control box locations CLEARANCE TO COMBUSTIBLES Metal Studs Infills to be installed after Unit is in place (Clearance between Dimensions Timber Frame Unit...
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1410 RD CLEARANCES METAL FRAME Possible vent locations 4 minimum vents required for airflow H*= 395mm Possible control box locations CLEARANCE TO COMBUSTIBLES Metal Stud Frame Unit Dimensions FOR METAL STUD FRAME, UNIT MUST BE IN PLACE In mm Clearance to the inside of the metal stud Reduced Depth Clearance N/A for Tunnel Units Unit Width +150mm Unit Height...
1410 T CLEARANCES TIMBER FRAME Possible vent locations 2 minimum vents required, 4 vents for more efficient heat dispersion. G*= 250mm H*= 395mm Possible control box locations CLEARANCE TO COMBUSTIBLES Option for smaller depth clearance: Metal Studs Infills to be Metal Studs fixed to rear combustible wall.
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1410 T CLEARANCES METAL FRAME Possible vent locations 4 minimum vents required for airflow H*= 395mm Possible control box locations CLEARANCE TO COMBUSTIBLES Metal Stud Frame Unit Dimensions FOR METAL STUD FRAME, UNIT MUST BE IN PLACE In mm Clearance to the inside of the metal stud Reduced Depth Clearance N/A for Tunnel Units Unit Width +150mm Unit Height...
1250GF CLEARANCES TIMBER FRAME Possible vent locations 2 minimum vents required, 4 vents for more efficient heat dispersion. G*= 250mm H*= 395mm Possible control box locations CLEARANCE TO COMBUSTIBLES Option for smaller depth clearance: Metal Studs Infills to be Metal Studs fixed to rear combustible wall. installed after Unit is in place Unit Dimensions Timber Frame...
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1250GF CLEARANCES METAL FRAME Possible vent locations 4 minimum vents required for airflow H*= 395mm Possible control box locations CLEARANCE TO COMBUSTIBLES Metal Stud Frame Unit Dimensions FOR METAL STUD FRAME, UNIT MUST BE IN PLACE In mm Clearance to the inside of the metal stud Depth Clearance Unit Width +150mm Unit Height...
1250 GF2R CLEARANCES TIMBER FRAME Possible vent locations 2 minimum vents required, 4 vents for more efficient heat dispersion. G*= 250mm H*= 395mm Possible control box locations CLEARANCE TO COMBUSTIBLES Metal Studs Infills to be Option for smaller depth clearance: installed after Unit is in place Metal Studs fixed to rear combustible wall.
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1250 GF2R CLEARANCES METAL FRAME Possible vent locations 4 minimum vents required for airflow H*= 395mm Possible control box locations CLEARANCE TO COMBUSTIBLES Metal Stud Frame Unit Dimensions FOR METAL STUD FRAME, UNIT MUST BE IN PLACE In mm Clearance to the inside of the metal stud Depth Clearance Unit Width +150mm to Unit Height...
1250 GF2L CLEARANCES TIMBER FRAME Possible vent locations 2 minimum vents required, 4 vents for more efficient heat dispersion. G*= 250mm H*= 395mm Possible control box locations CLEARANCE TO COMBUSTIBLES Metal Studs Infills to be Option for smaller depth clearance: installed after Unit is in place Metal Studs fixed to rear combustible wall.
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1250 GF2L CLEARANCES METAL FRAME Possible vent locations 4 minimum vents required for airflow H*= 395mm Possible control box locations CLEARANCE TO COMBUSTIBLES Metal Stud Frame Unit Dimensions FOR METAL STUD FRAME, UNIT MUST BE IN PLACE In mm Clearance to the inside of the metal stud Depth Clearance Unit Width +150mm Unit Height...
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1250GF3 CLEARANCES TIMBER FRAME Possible vent locations 2 minimum vents required, 4 vents for more efficient heat dispersion. E*= 395mm Possible control box locations CLEARANCE TO COMBUSTIBLES Metal Studs Infills to be Option for smaller depth clearance: installed after Unit is in place Metal Studs fixed to rear combustible wall.
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1250GF3 CLEARANCES METAL FRAME Possible vent locations 2 minimum vents required, 4 vents for more efficient heat dispersion. E*= 395mm Possible control box locations CLEARANCE TO COMBUSTIBLES Metal Stud Frame Unit Dimensions FOR METAL STUD FRAME, UNIT MUST BE IN PLACE In mm Clearance to the inside of the metal stud Depth Clearance...
800GF CLEARANCES TIMBER FRAME Possible vent locations 2 minimum vents required, 4 vents for more efficient heat dispersion. G*= 250mm H*= 395mm Possible control box locations CLEARANCE TO COMBUSTIBLES Metal Studs Infills to be Option for smaller depth clearance: installed after Unit is in place Metal Studs fixed to rear combustible wall.
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800GF CLEARANCES METAL FRAME Possible vent locations 4 minimum vents required for airflow H*= 395mm Possible control box locations CLEARANCE TO COMBUSTIBLES Metal Stud Frame Unit Dimensions FOR METAL STUD FRAME, UNIT MUST BE IN PLACE In mm Clearance to the inside of the metal stud Depth Clearance Unit Width +150mm Unit Height...
800T CLEARANCES TIMBER FRAME Possible vent locations 2 minimum vents required, 4 vents for more efficient heat dispersion. G*= 250mm H*= 395mm Possible control box locations CLEARANCE TO COMBUSTIBLES Metal Studs Infills to be Option for smaller depth clearance: installed after Unit is in place Metal Studs fixed to rear combustible wall.
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800T CLEARANCES METAL FRAME Possible vent locations 4 minimum vents required for airflow H*= 395mm Possible control box locations CLEARANCE TO COMBUSTIBLES Metal Stud Frame Unit Dimensions FOR METAL STUD FRAME, UNIT MUST BE IN PLACE In mm Clearance to the inside of the metal stud Depth Clearance Unit Width +150mm Unit Height...
650GF CLEARANCES TIMBER FRAME Possible vent locations 2 minimum vents required, 4 vents for more efficient heat dispersion. G*= 250mm H*= 395mm Possible control box locations CLEARANCE TO COMBUSTIBLES Option for smaller depth clearance: Metal Studs Infills to be Metal Studs fixed to rear combustible wall. installed after Unit is in place Unit Dimensions Timber Frame...
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650GF CLEARANCES METAL FRAME Possible vent locations 4 minimum vents required for airflow H*= 395mm Possible control box locations CLEARANCE TO COMBUSTIBLES Option for smaller clearnace: Unit Dimensions Metal Stud Frame Metal studs fixed to rear combustible wall. (Minimum enclosure openings to internal side of metal stud) (50mm clearance + 13mm Firestop Board + 25mm Steel In mm Battens fixed to combustibel wall)
ALTO GF CLEARANCES TIMBER FRAME Possible vent locations 2 minimum vents required, 4 vents for more efficient heat dispersion. G*= 250mm H*= 395mm Possible control box locations CLEARANCE TO COMBUSTIBLES Option for smaller depth clearance: Metal Studs Infills to be Metal Studs fixed to rear combustible wall.
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ALTO GF CLEARANCES METAL FRAME Possible vent locations 4 minimum vents required for airflow H*= 395mm Possible control box locations CLEARANCE TO COMBUSTIBLES Metal Stud Frame Unit Dimensions FOR METAL STUD FRAME, UNIT MUST BE IN PLACE In mm Clearance to the inside of the metal stud Depth Clearance Unit Width +150mm Unit Height...
ALTO T CLEARANCES TIMBER FRAME Possible vent locations 2 minimum vents required, 4 vents for more efficient heat dispersion. G*= 250mm H*= 395mm Possible control box locations CLEARANCE TO COMBUSTIBLES Metal Studs Infills to be installed after Unit is in place Unit Dimensions Timber Frame (Clearance between unit and...
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ALTO T CLEARANCES METAL FRAME Possible vent locations 4 minimum vents required for airflow H*= 395mm Possible control box locations CLEARANCE TO COMBUSTIBLES Metal Stud Frame Unit Dimensions FOR METAL STUD FRAME, UNIT MUST BE IN PLACE In mm Clearance to the inside of the metal stud Depth Clearance Unit Width +150mm Unit Height...
INSTALLATION INSTRUCTIONS Firebox access, control hatch relocation and clearance spacer bracket installation All Living Fire gas space heaters are double glazed for your protection and to maximise the luxury appearance. Carefully follow steps below to remove glass panels in order to access the firebox prior to media installation. Removal/installation arrangements for glass panel/s.
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INSTALLATION INSTRUCTIONS 1.2 Gas (leakage) tightness check With the heater gas valve in the ‘OFF’ position, check for leakage using a calibrated gas leak detector or by brushing a solution of detergent and water on to the gas connection point, isolation valve and connection at all points of the gas control.
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INSTALLATION INSTRUCTIONS Removal of control hatch from the transit bracket Step 1: Remove the protective material from around the control hatch. Step 2: There are four screws (each side) securing the control hatch to the transit bracket. With a Phillips head screwdriver remove the 4 screws LH/RH side securing the control hatch to the transit bracket.
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INSTALLATION INSTRUCTIONS Control hatch door four x captured threads (2 on the base and 2 in the upper section) for thumb screws. If a shelf is to be fitted above the heater opening, a gap of 300 mm minimum must be maintained between the heater opening and the shelf.
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INSTALLATION INSTRUCTIONS Fitment/adjustment of spacer brackets The rear stand-off spacers maintain a clearance of 250 mm from combustible materials. The side stand-off spacers maintain a clearance of 250 mm from combustible materials. The spacer brackets when adjusted maintains a gap between the carcass of the heater and any surrounding materials.
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INSTALLATION INSTRUCTIONS Fitment/adjustment of spacer brackets The spacer brackets when adjusted maintain a gap between the carcass of the heater and any surrounding materials. Rear and side spacers are factory fitted (refer below images). Aerion Range...
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INSTALLATION INSTRUCTIONS The heater MUST be installed ONLY by an Authorised (licenced/registered plumber) Person. This heater shall in installed in accordance with the manufacturer’s installation instructions, local gas fitting regulations, municipal building codes and AS/NZS 5601.1 (Gas Installations). DO NOT INSTALL INTO A FIREPLACE This heater is supplied with stand-off brackets to ensure adequate spacing from surroundings are observed;...
PROHIBITED AREA FOR FLUE TERMINALS REGULATORY COWL LOCATIONS Figure 2.0 (Location of flue terminals of balanced flue, room-sealed, fan-assisted or outdoor appliances) Legend: Minimum clearances Ref. Item I = Mechanical air inlet Natural M = Gas meter draught assisted P = Electricity meter or fuse box Below eaves, balconies and other projections: S = Structure T = Flue terminal...
FLUEING INFORMATION Flue Components for Installing PAD series Gas Space Heaters. Manufacturer: DuraVent Flue Component Part Number Termination cap 46DVA-VCH 900 mm flue length 46DVA-36 600 mm flue length 46DVA-24 300 mm flue length 46DVA-12 150 mm flue length 46DVA-06 90°...
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FLUEING INFORMATION 90° elbow 45° bend Elbows and bends create resistance within the venting configuration, and they must be included when determining the minimum and maximum fluing lengths. There must be an absolute minimum vertical rise of 600 mm before any elbow but preferably a vertical rise of 900 mm is recommended.
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FLUEING INFORMATION Termination heights for terminal (cowls) above the roof line refer AS/NZS 5601.1:2013. Flue Length Calculations Maximum permissible run (H) – 6.0m Maximum permissible run (H + V) <6.0m Special consideration model G1410 (H + V) 7.3m 1. Straight Vertical. The maximum vertical distance is 6 metres. 2.
INSTALLER INFORMATION INSTALLING THE CONTROLS Motor Installation This procedure is to be followed for the installation of the Motor Unit, which must be fitted to use all remote control options, except the Fully Electronic Ignition System which has the motor built in. Remove the retaining screw, (Figire 1) and by using the blade of a small scredriver, pry off the cover (opposite end if the civer to the screw) (Figure 2).
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INSTALLER INFORMATION INSTALLING THE CONTROLS Micro Switch Installation This procedure is to be followed for the installation of the Micro Switch required for the “Climate Control System”, the micro switch not being required for the “Simple” version. The Micro Switch fits onto the Plastic Cover of the valve, sitting on a location lug moulded into the cover a self trapping screw is provided to fix the switch in location.
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INSTALLER INFORMATION Electronic Ignition System (Contd.) A four-position DIP switch enables any of 16 pre-selected codes. Pressing the switch on the receiver activates the new code. The receiver unit can be hidden away under or behind the stove, ensure that the receiver is located in an area that has a temperature below 60 °C, and that the customer knows where the receiver is for future battery replacement.
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INSTALLER INFORMATION OUTER GLASS INSTALLATION The outer glass panel is supplied and protected in bubble wrap. For the GF model there is one piece of outer front toughened glass panel (dimensions of 1240 x 375 mm x 4 mm thick) provided. For the GF3 model there are three pieces of outer toughened glass panels made up of one outer front (dimensions of 1382 x 375 mm x 4 mm thick) and two outer side...
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INSTALLER INFORMATION OUTER GLASS INSTALLATION Step 3: With the glass in the horizontal position. With one hand holding the glass pad and the other hand gripping the centre edge of the glass. Lift and proceed to locate onto the heater front.
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INSTALLER INFORMATION REMOVAL OF OUTER GLASS PANELS Step 1: With the glass in the horizontalWearing the gloves provided apply the glass suction pad (provided) to the centre of the glass and engage. Step 2: Removing outer side trim. Grip the trim and apply an upward motion to disengage the securing tabs from the slots in the inner trim.
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INSTALLER INFORMATION REMOVAL THE INNER FRONT GLASS PANEL Step 1: Remove the lower front grill which is located between the outer/inner glasses. Step 2: For the GF model remove the Right Hand and Left Hand glass clamps (oner per side) that secure the inner glass onto the front of the firebox.
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INSTALLER INFORMATION REMOVAL THE INNER SIDE GLASS PANEL Step 1: move the lower front grill which is located between the outer/inner glasses. Step 2: The inner side glass is secured into the top, side and inner bottom supporting channel by rope seal. Grip the front edge of the rope and apply upward motion to remove the rope from the channel.
BURNER MEDIA SET UP- VUE 1410 RANGE Please follow the steps below to place burner media inside the firebox. You will find logs shown below in your media box. Follow Step 1-16 to place the burner media correctly in your firebox. STEP 1 Log 5.
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BURNER MEDIA SET UP- VUE 1410 RANGE STEP 15 Log 1, 2, 3, 4, 5 & 6 STEP 16 Evenly place the embers on the grate avoiding the burner tubes as shown. PLACEMENT OF FIBRE EMBER STEP 1 Pull apart the fire embers into fine and thin pieces before placing over the burner.
BURNER MEDIA SET UP- VUE 1250 RANGE Please follow the steps below to place burner media inside the firebox. You will find logs shown below in your media box. Follow Step 1-6 to place the burner media correctly in your firebox. STEP 1 Log 1, 2, 3 &...
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BURNER MEDIA SET UP- VUE 1250 RANGE STEP 5 Place 5 embers on top of the Burner Tubes as shown. STEP 6 Evenly place the remaining Embers around the Grate area, but avoiding the Burner tubes, as shown. ENSURE MEDIA DOES NOT REST ON BURNER EXCEPT FOR EMBERS Aerion Range...
BURNER MEDIA SET UP- ALTO RANGE Please follow the steps below to place burner media inside the firebox. You will find logs shown below in your media box. Follow Step 1-13 to place the burner media correctly in your firebox. STEP 1 Log 1.
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BURNER MEDIA SET UP- ALTO RANGE STEP 10 Log 1, 2, 3, 4, 5, 6, 7, 8, 9 & 10. STEP 11 Log 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15 & 16. STEP 12 Place 4 Embers on top of the Front Burner Tube, and 2 on top of the Rear Burner Tube.
BURNER MEDIA SET UP- QUADRO 800 RANGE Please follow the steps below to place burner media inside the firebox. You will find logs shown below in your media box. Follow Step 1-13 to place the burner media correctly in your firebox. STEP 1 Log 1.
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BURNER MEDIA SET UP- QUADRO 800 RANGE STEP 12 Place 3 Embers on top of the Burner Tubes as shown. STEP 13 Evenly place the remaining Embers around the Grate area, but avoiding the Burner tubes, as shown. ENSURE MEDIA DOES NOT REST ON BURNER EXCEPT FOR EMBERS Aerion Range...
BURNER MEDIA SET UP- QUADRO 650 RANGE Please follow the steps below to place burner media inside the firebox. You will find logs shown below in your media box. Follow Step 1-10 to place the burner media correctly in your firebox. STEP 1 Log 1.
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BURNER MEDIA SET UP- QUADRO 650 RANGE STEP 5 Log 1, 2, 3, 4 & 5. STEP 6 Log 1, 2, 3, 4, 5 & 6. STEP 7 Log 1, 2, 3, 4, 5, 6, 7 & 8. STEP 8 Place a single Ember on top of the Burner Tube as shown.
MAIN BURNER CHECK 1. Ignite the pilot light as described in the User Instructions 2. Turn on the main burner as described in the User Instructions 3. Check that the pilot smoothly cross-lights to the main burner and that the main burner and pilot stay alight 4.
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MAIN BURNER CHECK Inlet pressure test point Access to HI fire regulator screw. If the pressure is more/less than the nominated pressure kPa adjust the regulator. Access to regulator refer below. Remove the plastic plug covering the regulator adjustment screw. Insert the 2 mm wide flat bladed screwdriver and adjust the regulator clockwise to increase and counter-clockwise to decrease the pressure.
REMOTE CONTROL INSTALLATION S S Y Y M M A A X X H H A A N N D D S S E E T T The Symax System uses the same easy-to-operate logic – find G G E E N N E E R R A A L L N N O O T T E E S S the symbol for the function you want and touch that symbol –...
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REMOTE CONTROL INSTALLATION Remote Control Instructions: This is a one button ignition to activate press C C h h i i l l d d P P r r o o o o f f Time S S i i g g n n a a l l I I n n d d i i c c a a t t o o r r T T h h e e r r m m o o s s t t a a t t i i c c M M o o d d e e B B a a t t t t e e r r y y S S t t a a t t u u s s C C o o u u n n t t d d o o w w n n T T i i m m e e r r...
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REMOTE CONTROL INSTALLATION M M A A N N U U A A L L M M O O D D E E ( ( H H A A N N D D S S E E T T ) ) D D E E S S I I G G N N A A T T E E D D L L O O W W F F I I R R E E A A N N D D H H I I G G H H F F I I R R E E NOTICE Backlight must be ON for high fire and low fire double-...
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REMOTE CONTROL INSTALLATION M M O O D D E E S S O O F F O O P P E E R R A A T T I I O O N N P P R R O O G G R R A A M M M M O O D D E E Thermostatic Mode The room temperature is measured and Press...
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REMOTE CONTROL INSTALLATION A A U U X X I I L L I I A A R R Y Y F F E E A A T T U U R R E E ( ( 2 2 N N D D B B U U R R N N E E R R F F E E A A T T U U R R E E ) ) s s e e l l e e c c t t e e d d ON TIME SETTING (PROGRAM 1): The latching solenoid valve will open automatically after ignition...
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REMOTE CONTROL INSTALLATION BATTERIES Remote Handset: 2 x 1.5V "AAA", Quality alkaline recommended RECEIVER 4 x 1.5V "AA", Quality alkaline recommended for maximum life. An alternative AC Mains Adaptor may be used to power the Receiver instead of the 4 x “AA” batteries. Only an AC Mains Adapter supplied by the distributer or it’s agent may be used.
ERROR CODES ERROR CODE ACTION DESCRIPTION POSSIBLE CAUSE Contact service 5 second beep from the receiver. Thermocouple wiring not in Ignition process is interrupted. No order / interrupted response from receiver and no ignition. Ignition failure. No pilot flame within 30 seconds. •...
SERVICING DO NOT MODIFY THIS APPLIANCE Service only to be carried out by an authorized person. Turn the appliance OFF and isolate the gas supply. Ensure the appliance is fully cold before attempting to start servicing the appliance. No liability can be accepted by Living Fire for injury caused by burning or scolding by a hot appliance.
TROUBLE SHOOTING FUNCTION POSSIBLE CAUSE REMEDY Transmitter batteries low. Replace transmitter Press the ON button batteries. Quality alkaline to start ignition recommended. sequence. Beep will Receiver batteries low. Test the batteries, replace if occur each second. necessary. Quality 1.5V AA alkaline recommended.
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SW-cable. Motor not operating properly. Replace gas valve. TROUBLE SHOOTING ..Continued (continued) FUNCTION POSSIBLE CAUSE REMEDY Ignition components not Check connection between Spark will occur each operating properly. ignition cable and ignitor rod. second. Check ignitor rod spark gap. Check ignitor rod. Check ignition cable for damage.
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Short between interrupter Check connection to Sparking stops after block and TC-cable. interrupter block. pilot is lit. Electronic measuring Replace the receiver. TROUBLE SHOOTING ..Continued amplifier defective. (continued) FUNCTION POSSIBLE CAUSE REMEDY Resistance in thermocouple Check thermocouple circuit. Motor turns to main circuit too high.
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Manual knob is in the 'MAN' Turn the control knob to "ON" Main burner is lit. position. position, a positive latch is required. Confirm correct gas pressure, increase pilot flame if TROUBLE SHOOTING ..Continued Pilot flame is too low. necessary. (continued) FUNCTION POSSIBLE CAUSE...
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Receiver batteries low. Test the batteries, replace if Magent unit drops necessary. Quality 1.5V AA while motor turns. alkaline recommended. Receiver makes 3 Ensure magnet unit is Test the receiver output to beeps. operating normally. the magnet unit. TROUBLE SHOOTING ..Continued (continued) FUNCTION...
CLEANING THE CERAMICS Remove the ceramics in reverse order as detailed in the layout diagram/s. Gently clean the ceramics in the open air, using a soft brush and a vacuum cleaner. Where necessary replace damaged components only with genuine Living Fire specified parts. Seal any scrap ceramics in plastic bags and dispose at proper refuse sites.
CLEANING AND MAINTENANCE Remove the ceramics in reverse order as detailed in the layout diagram/s. This appliance should be inspected and serviced once a year by a qualified, competent and registered person. The inspection and maintenance must at least ensure that the appliance is working correctly and safely.
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