Page 10
1 May, 2019
7038-201G
Page 2
7038-201G
19 January, 2018
5700 Step Top ACC Wood Burner
Hearth & Home Technologies welcomes you to our tradition
of excellence! In choosing a Quadra-Fire appliance, you
have our assurance of commitment to quality, durability, and
performance.
This commitment begins with our research of the market,
including ‘Voice of the Customer’ contacts, ensuring we
make products that will satisfy your needs. Our Research
and Development facility then employs the world’s most
advanced technology to achieve the optimum operation of
our stoves, inserts and fireplaces. And yet we are old-fash
-
ioned when it comes to craftsmanship. Each unit is meticu
-
lously fabricated and surfaces are hand-finished for lasting
beauty and enjoyment. Our pledge to quality is completed
as each model undergoes a quality control inspection.
We wish you and your family many years of enjoyment in
the warmth and comfort of your hearth appliance. Thank
you for choosing Quadra-Fire.
and Welcome to the Quadra-Fire Family
!
5700 STEP TOP ACC
CONFIDENTIAL PROPERTY OF HEARTH & HOME TECHNOLOGIES INC.
PART NAME:
DRAWN BY:
SCALE:
MATERIAL:
SHEET:
PART NUMBER:
REV:
THIS PRINT IS CHECKED AND CONTROLLED BY THE ENGINEERING
DEPARTMENTS OF HEARTH & HOME TECHNOLOGIES INC.
ECO #
DATE
BY
REV
UNLESS OTHERWISE SPECIFIED DIMS ARE INCHES[MM] & : TOLERANCES ARE: (2) PLACE DEC : ± 0.03 (3) PLACE DEC: ± 0.005 ANGLE: ± 2° FRACTION: ± 1/16
OUTSIDE MATERIAL.
NORMAL DIM & INSIDE MATERIAL.
OUTSIDE APEX
INSIDE APEX - DIMS ENCLOSED BY AN OVAL ARE CRITICAL DIMENSIONS
REVISIONS
ITEM
PART NUMBER
PART NAME
QTY
ACC WOODFIRE COMPLIANCE LABEL
This appliance has been TESTED TO AS/NZS4013 for Hardwood by Vipac Report # 30A-14-0102-TRP-361517-0 Date tested: April 2015
OVERALL AVERAGE EFFICIENCY BURNING SOFTWOOD
WHEN TESTED IN ACCORDANCE WITH AS/NZS 4012: .........................................................
65%
AVERAGE PARTICULATE EMISSION FACTOR BURNING SOFTWOOD
WHEN TESTED IN ACCORDANCE WITH AS/NZS 4013: .........................................................
1.5 g/kg
MAXIMUM AVERAGE HEAT OUTPUT BURNING SOFTWOOD:
..........................
12.7 kW
APPROVED FUEL:
...............................................................................................................
BURN ONLY HARDWOOD WITH A MOISTURE CONTENT
LESS THEN 25% (dry basis).
Wetback - All Models: .........................................................................................
Manufactured By: ...............................................................................................Hearth & Home Technologies, 352 Mountain House Road,
Halifax, PA 17032, United States of America
PERFORMANCE MAY VARY FROM TEST VALUES DEPENDING ON ACTUAL OPERATING CONDITIONS.
U.S. ENVIRONMENTAL PROTECTION AGENCY
Export stove. May not be operated within the United States
NOTE:
7038-200_R4
INSTALLATION
DATE:
BARCODE LABEL
HF
Serial No. /
N
o
de série:
Date of Manufacture / Date de fabrication:
2017 2018 2019 JAN FEB MAR APR MAY JUN JUL AUG SEP OCT NOV DEC
MODEL QUADRA-FIRE 5700 step top acc Freestanding Wood Stove
EXP-III Wood Burner
19 January, 2018
7038-201G
Page 7
5700 Step Top ACC Wood Burner
▪ Flue pipe installed crimp/narrow end down
▪ Outer casings installed crimped/narrow end up. (Critical when exposed above the roof)
▪ Inner casings - direction not critical
▪ Flue pipes - seal all joints including firebox spigot.
- fix with a minimum of 3 stainless steel rivets
▪ Flue pipe spacers - affix to flue pipe
▪ Flue system termination point - Refer to AS/NZS 2918:2001 4.9.1.
▪ Flue pipe shall extend not less than 4.6m above top of the floor protector as per
AS/NZS 2918:2001 4.9.1(a)
▪ Façade or chase systems - same rule applies as above.
▪ Roof penetration and flashing method refer to NZ Building Code E2.(From 01/07/05)
Note: These instructions apply to 150mm diameter flue pipe systems as tested to
AS/NZS 2918:2001
1. Either locate the appliance in position or by measuring at the ceiling mark the flue pipe centre position.
Check that the outer casing is unobstructed through the attic space or roof area.
2. Spike the centre with a nail. Transfer this position to the next surface above. Plumb bob/laser.
3. Cut out the ceiling penetration hole – square or rectangle – short axis equals outer casing diameter
plus 50mm, long axis as required. See Table 5 . Perform the same at the roof penetration.
4. Frame out the hole with minimum 75 x 50 timber or as required for roofing material. Minimum
requirement at roof penetration see NZ Building Code E2 Acceptable Solution (from 01/07/05).
5. Install the outer casing so that :-
(i) lower end is flush with the underside of the ceiling material and
(ii) with the addition of metal “L” brackets, affix to the outer casing at 90 degrees secure the outer
casing centrally to the ceiling and roof nogs. Alternatively substitute the “L” brackets for 25mm thick
non heat sensitive packers. Secure the outer casing through the packers with horizontal fixings to
the nogs. Refer to the General Instruction for termination height. The option of outer casing slips to
be taken into account.
6. Flash the outer casing to the roof material with the appropriate approved flashing.
7. If using an outer/inner casing combination, now install the inner casing ensuring it extends a minimum
200mm above the high side of the roof penetration. If not using a combination see ‘11’ below.
8. Refer to Firebox Installation, points 1 & 2.
9. Prepare the ceiling plate and place upside down over the flue spigot.
10. Install the flue pipes by preferred method – either up or down the outer casing. Affix each length
per the notes in General Instructions (above). Extend the flue pipe above the outer
casing to suit the casing cover/cowl assembly.
11. If the inner casing has not been installed, install now. Refer to 7 above for minimum height.
12. Install the cowl assembly, i.e. Top spacer, casing cover and cowl.
13. Position and secure the ceiling plate with the screws and spacers.
14. Wipe the flue pipe to remove finger marks.
15. Refer to Firebox Installation, point 3.
16. If flue offset is required, refer to AS/NZS 2918:2001 4.1
GENERAL INSTRUCTIONS FOR FLUE SYSTEM