INSTALLATION, OPERATING AND
SERVICE INSTRUCTIONS FOR
SPACEMASTERTM
DIRECT VENT
NATURAL GAS - FIRED BOILER
For service or repairs to boiler, call your heating contractor. When seeking information on
boiler, provide Boiler Model Number and Serial Number as shown on Rating Label.
Boiler Model Number
Boiler Serial Number
Installation Date
SM__ - _____
6_ _ _ _ _ _ _
Heating Contractor
Phone Number
Address
8140312R13-6/06
Price - $3.00
Table of Contents
I.
II.
III.
IV.
V.
General Installation Requirements................... 4
Installation Instructions..................................... 7
Operating Instructions....................................... 13
Service ................................................................. 23
Repair Parts........................................................ 26
APPENDIX
VI.
Low Water Cut Off............................................. 27
3
I. General Installation Requirements
d. Exterior wall surface must be flat to ensure that wall
flange can be mounted without being distorted and
also provide a positive weather-tight seal to prevent
water damage.
1
INSPECT SHIPMENT carefully for any signs of
damage. All equipment is carefully manufactured,
inspected and packed. Our responsibility ceases upon
delivery of Boiler to the carrier in good condition. Any
claims for damage or shortage in shipment must be filed
immediately against the carrier by the consignee. No
claims for variances or shortages will be allowed by
Boiler Manufacturer, unless presented within sixty (60)
days after receipt of equipment.
If exterior wall surface is not flat (i.e., uneven
masonry, stucco, aluminum siding, etc.) a flat
surface must be provided of equal size or larger than
the exterior wall flange and vent terminal cover.
e. Locate the vent terminal in relation to adjacent
public walkways, adjacent buildings, operable
windows and buildings, consistent with the National
Fuel Gas Code Z223.1: Minimum clearance of
4 feet horizontally from and in no case above or
below (unless four [4] foot horizontal distance is
maintained), electric meters, gas meters, regulators
and relay equipment. At least 12” from any door,
window or other building opening. A minimum of
12” above grade, 7” from any overhang, 18” from
any side obstruction or wall and 3’ away from any
adjacent building. Increase minimum height above
grade to maintain adequate clearance above average
snow fall for geographical area in which unit is
installed. If the unit is to be vented over a public
walkway, it must be at least 7” above grade. If the
vent terminal is to be within 10’ of a building fresh
air intake, it must be at least 3’ above the opening.
In addition, avoid venting the unit in corners,
niches or areas which might have reduced fresh air
circulation. (See Figure 2).
2
BOILER INSTALLATION must conform to the
requirements of the authority having jurisdiction, or in
absence of such requirements to:
a. “National Fuel Gas Code, ANSI Z223.1 obtainable
from the American Gas Association, 1515 Wilson
Blvd. Arlington (Rosslyn), VA 22209.
b. When required by the authority having jurisdiction,
the installation must conform to American Society
of Mechanical Engineers Safety Code for Controls
and Safety Devices for Automatically Fired boilers,
No. CSD-1.
c. The boiler must be electrically grounded in
accordance with requirements of the authority
having jurisdiction or, in the absence of such
requirements, with the National Electrical Code,
ANSI/NFPA No. 70.
3
THESE GAS BOILERS ARE DESIGN
CERTIFIED FOR INSTALLATION on an exterior
wall of buildings constructed with combustible
materials (wood framed walls with, paneling, drywall,
plaster, etc.) or masonry walls (brick, stone, stucco, or
cinder block).
4
5
DO NOT INSTALL ON CARPETING. These gas
boilers may be installed above carpeted areas. Note:
Protect carpeting or flooring to avoid possible damage
during installation and maintenance procedures.
BOILER LOCATION MUST MEET THE
FOLLOWING SITE REQUIREMENTS:
a. The boiler must be mounted on a flat wall,
sufficiently strong enough to carry the weight of
the unit. (See Figure 1). Minimum acceptable wall
construction would consist of 2” x 4” studding on
24” centers. Unit is designed for installation on
16” centers. Therefore, adequate supports must be
added between existing studding.
b. A suggested mounting height, where practical, is
five feet - six inches from floor to center line of
intake air duct opening. (See Figure 1).
Figure 2
NOTE: depending on ceiling height, 6” combustible
clearance height from jacket top panel to ceiling
must be maintained. (See Figure 3).
f. If boiler is to be installed above the level of the
radiation, a low water cutoff must be installed.
6
PROVIDE CLEARANCE between boiler jacket,
mounting bracket and vent system and combustible
material in accordance with local fire ordinance.
c. Consider location of heating supply and return lines,
gas supply line, cold water piping and expansion
tank in selecting boiler location.
4
a. Combustion air is provided 100% from the
outdoors. Air is pulled in on all four sides of vent
terminal cover, through the air intake duct and to
the combustion area enclosure. The vent terminal
must be mounted on a flat surface which is flush or
protrudes outward from the exterior wall. Avoid
recesses, niches or areas which might have reduced
fresh air circulation.
b. Ventilation — When the boiler is installed in
an unconfined space in a building of normal or
unusually tight construction, there is no additional
provision required to insure adequate air for
ventilation of the jacket or control compartment.
When the boiler is installed in a confined space,
two openings in a wall or door to an adjoining
interior area which has adequate air supply shall be
provided. One opening should be near the floor and
the other near the ceiling. Each shall have a free
area of not less than one (1) square inch for each
thousand (1000) BTU input to all appliances in the
boiler room. (See Figure 3).
8
CONNECT GAS SERVICE from meter to gas
control assembly in accordance with local piping codes
and requirements of gas company, see Figure 1. They
may require piping of larger size than 1/2” control
assembly connection, especially if run from meter is
long or includes several elbows.
Figure 3
** A minimum of 24” from left side and front jacket
panel is recommended for servicing.
MINIMUM CLEARANCE TO COMBUSTIBLE SURFACES
This piping is to be supplied by the installer and must
include a trap, a ground joint union and a manual shut-
off valve upstream of the gas control assembly outside
of the jacket when codes require, see Figure 1. A pipe
thread compound resistant to the action of liquefied
petroleum gases should be applied to all threaded joints
in the gas piping. Pressure testing of the gas supply
piping, boiler and its connections is required before
placing the boiler in operation.
Minimum listed clearances from combustible materials
for non-closet installation or closet installation. (See
Figure 3).
Top — 6”
Rear — 0”
*Front — 2”
Floor — 6”
*Left Side —1”
Right Side — 1”
Flue — 0”
Since the above dimensions are measured between
boiler jacket and combustible walls or ceiling, practical
service clearances for all external adjoining equipment
must be considered (see Figure 1). * A minimum of 24”
from left side and front jacket panel is recommended for
servicing.
In utility room installations, the door must be wide
enough to allow boiler to enter or to permit replacement
of another appliance in this room.
The boiler must be isolated from the gas supply piping
system by closing the manual shut-off during any
pressure testing at pressures equal to or less than 1/2
psig.
The boiler and shut-off valve must be disconnected
from the gas supply piping system during any pressure
testing at pressures greater than 1/2 psig.
RECOMMENDED SIZING OF GAS SUPPLY
PIPING TO BOILER shall be such as to provide the
required supply of gas without undue loss of pressure
between meter and the boiler. Gas supply piping should
be sized in accordance with Tables, I, II and III.
7
VENTILATION AND COMBUSTION AIR.
Provide provisions for combustion and ventilation air
in accordance with Section 5.3, Air for combustion
and ventilation, of the National Fuel Gas Code, ANSI
Z223.1 or applicable provisions of local building codes.
This boiler is equipped with a fan which produces
an induced draft through the unit. Combustion air is
pulled in from outdoors and the flue gases are exhausted
to the outdoors through the intake air/vent system. (See
Figure 4).
The following shall be taken into account:
a. Allowable loss of pressure to assure a burner
manifold pressure of 3½” water.
b. Supply of gas to be provided in cubic feet.
c. Length of piping and number of fittings.
d. Specific gravity of gas.
e. Correction factor for specific gravity.
5
*NOTE – For all practical purposes, each 90° elbow
can be considered as the following equivalent in
length of straight pipe:
TABLE I
Maximum Capacity of Piping in Cubic Feet
of Gas Per Hour
½” – 1.6 ft.
¾” – 2.1 ft.
1” – 2.6 ft.
(Based on a Pressure Drop of 0.3" Water
and 0.6 Specific Gravity)
Nominal Iron Pipe Size
Length in
Feet
1/2
132
92
73
63
56
50
46
43
40
38
3/4
278
190
152
130
115
105
96
1
10
20
30
40
50
60
70
80
90
100
520
350
285
245
215
195
180
170
160
150
TABLE III
Multipliers to be used with Tables I and II for
Specific Gravity Other Than 0.60
Specific Gravity
Correction Factors
.50
.55
.60
.65
.70
1.10
1.04
1.00
.96
90
84
79
.93
TABLE II
Maximum Capacity of Piping in Cubic Feet of
Gas Per Hour
(Based on a Pressure Drop of 0.5" Water and
0.6 Specific Gravity)
Nominal Iron Pipe Size
Length in
Feet
1/2
175
120
97
3/4
360
250
200
170
151
138
125
118
110
103
93
1
10
20
680
465
375
320
285
260
240
220
205
195
175
160
145
30
40
82
50
73
60
66
70
61
80
57
90
53
100
125
150
175
50
44
40
84
37
77
6
II. Installation Instructions
DETERMINE BEST MOUNTING LOCATION for boiler which meets site requirements outlined in Section I, pages 4
through 6.
2
INSTALLING BOILER AND INTERIOR
TELESCOPING INTAKE AIR DUCT
(See Figure 5)
1 INSTALLING BOILER MOUNTING WALL
BRACKET (See Figure 5).
a. Locate wall bracket packed in miscellaneous parts
carton.
a. Separate two halves of telescoping intake air duct.
Interior half of duct has a 1” wide rectangular gasket
flange with four (4) weld studs for attaching to
back plate of boiler. Exterior half of duct has the
9” square stainless steel wall flange for securing to
exterior wall. (See Figure 5)
b. Hold wall bracket in desired location. On studded
walls, mounting bracket must be secured directly to
main vertical support studs. Interior wall coverings
such as paneling, plaster and drywall are not suitable
to support the unit’s weight. Place a 24” level
across top corners, adjust wall bracket until level.
Using the wall bracket as a template, mark the eight
(8) securing holes along the sides and the 4½” x
5¼” rectangular opening at the top. Remove wall
bracket from wall.
NOTE: 1. Standard telescoping intake air duct,
part No. 6110301, is for wall thickness
from 5” to 9”.
NOTE: 2. Optional telescoping intake air duct, part
No. 6110302, is for wall thickness from
9” to 15”.
NOTE: The boiler mounting wall bracket is
suitable for two main methods of wall construction.
Masonry-built walls and stud-framed walls where
the main vertical support studs are on 16” centers
or alternately where adequate supports are added
between existing studs.
b. Insert interior half of duct into rectangular opening
and push it all the way back against wall plate.
c. Place 6” x 7” rectangular gasket on interior duct
flange and ¼” weld studs.
d. Remove boiler from packaging.
c. Drill eight (8) pilot holes, properly sized for the
fastener determined suitable for the type of wall
construction in the area where the boiler is to be
mounted (i.e., lag screw for wood, machine screw
with toggle for cinder block, etc.).
1. Remove surrounding packaging material from
boiler and skid.
2. Remove screws holding enclosure cover.
3. Remove enclosure cover.
4. Locate and remove two (2) lag screws which
secure back plate of boiler to skid. One is
located in the upper left corner of the controls
area and the second one is located in the lower
right corner under the gas burner.
d. Before cutting rectangular opening on interior wall,
use a straight edge to draw an “X” inside the box
using the four (4) corners. Drill a hole in the center
of the “X” straight through the wall to the outside.
On the exterior wall draw a 4½” x 5¼” rectangular
box centered around the reference hole which
matches the rectangular box on the interior wall.
5. Remove boiler from skid and set unit upright on
floor in front of installation site.
e. Cut along outside edge of lines on interior and
exterior surfaces of the wall and remove all
NOTE: On the back plate of the boiler is a “Z”
bracket approximately 10” long. When
the boiler is lifted into place, this bracket
must be lowered into the ½” wide x 11”
long slot at the top of the boiler mounting
wall bracket. (See Figures 4 and 5)
material within the rectangular box. Check the wall
penetration by inserting one-half of the telescoping
intake air duct through the opening. Remove any
jagged edges or webbing that prevents the duct from
penetrating through the wall or from being level.
Remove duct from wall penetration.
e. Attach upper RS jacket mounting bracket to the
upper corner of back plate. Loosen the two (2)
corner screws, position bracket with flange facing
forward and engage slots over screws. Re-tighten
screws to secure bracket. IMPORTANT: Bracket
must be installed before lifting boiler into position.
f. Lay the wall bracket face down. Apply a ¼” thick
bead of silicone rubber type caulking around the
rectangular opening approximately 1” from the
edge.
g. Reposition boiler mounting wall bracket on wall,
using a 24” level across top corners, level wall
bracket and secure to wall with suitable fasteners.
f. Lift boiler up into position. Make sure that “Z”
bracket is properly engaged into slot and is resting
on ¼” wide flange in front of slot before releasing
the weight of the boiler.
h. Attach lower R.S. jacket mounting bracket to right
side of boiler mounting wall bracket with sheet
metal screws provided. (See Figure 5)
g. Move boiler slightly to the left or right to align the
five (5) clearance holes in the back plate with the
fasteners on boiler mounting wall bracket.
7
h. Secure boiler to boiler mounting wall bracket with
five (5) ¼”-20 x ¾” long machine screws and
washers provided.
NOTE: Tools required — 7/16” socket, extension
bar(s) and drive ratchet
i. Secure interior telescoping intake air duct to
back plate of boiler. Pull duct forward until duct
and weld studs are engaged through 4½” x 5½”
rectangular opening and holes in back plate. Make
sure gasket is in place and flat against back plate.
Attach duct with four (4) ¼”-20 brass hex nuts,
lockwashers and flat washers.
3
INSTALLING EXTERIOR TELESCOPING
INTAKE AIR DUCT (See Figures 4 and 5)
a. Position the exterior telescoping intake air duct into
wall penetration and insert duct inside interior duct
already in place. Push duct inward until wall flange
is against the wall, check for level and mark the four
(4) ¼” diameter clearance holes for securing wall
flange to exterior wall. Remove duct from wall.
Figure 4
VENT SYSTEM CROSS SECTION
Figure 5
EXPLODED BOILER ASSEMBLY
8
b. Drill four (4) pilot holes, properly sized for the
non-corrosive fasteners (stainless steel, brass or
aluminum) to be used to secure the wall flange to
wall.
6
CONNECT SUPPLY AND RETURN PIPING TO
heating system.
OXYGEN CORROSION:
Oxygen contamination of the boiler water will cause
corrosion of the iron and steel boiler components,
which can lead to failure. As such, any system must
be designed to prevent oxygen absorption in the first
place or prevent it from reaching the boiler. Problems
caused by oxygen contamination of boiler water are not
covered by Burnham’s standard warranty.
c. Attach four (4) ½” long threaded aluminum spacers
to the outer flanges of the exterior telescoping
intake air duct wall flange with four (4) #10-32 x
¼” long stainless steel machine screws provided.
(See Figure 5).
d. Apply a ¼” thick continuous bead of silicone rubber
type caulking to the rear of the exterior telescoping
intake air duct wall flange approximately 1” from
duct.
There are many possible causes of oxygen
contamination such as:
1. Addition of excessive make-up water as a result of
system leaks.
e. Re-install exterior telescoping intake air duct and
secure to wall.
2. Absorption through open tanks and fittings.
NOTE: Non-corrosive (stainless steel, brass or
aluminum) fasteners must be used.
3. Oxygen permeable materials in the distribution
system.
f. Apply a bead of silicone rubber caulking to
perimeter of wall flange, where the wall and flange
join. Use a tool or your finger and apply pressure
while smoothing caulking to provide a weather-tight
seal.
In order to insure long product life, oxygen sources
should be eliminated. This can be accomplished by
taking the following measures:
1. Repairing system leaks to eliminate the need for
addition of make-up water.
4
INSTALLING VENT TUBE, ORIFICE PLATE
AND VENT TERMINAL COVER (See Figures 4
and 5).
2. Eliminating open tanks from the system.
3. Eliminating and/or repairing fittings which allow
oxygen absorption.
a. The vent tube furnished has a standard length of
24”. This length is suitable for a wall thickness
from 5” to 15”.
4. Use of non-permeable materials in the distribution
system.
5. Isolating the boiler from the system water by
installing a heat exchanger.
b. To determine the proper length required, place a 24”
level horizontally across the exterior wall flange,
just below the aluminum spacers, measure the
distance between the outlet flange on the fan and
the level. Add 1” to this measurement for the total
length of the vent tube.
a. For heating only, see Figure 6. Consult I=B=R
Installation Guides. Clearance between hot
water pipes and combustible material must not
be less than ½”.
b. If this boiler is used in connection with
refrigeration systems, the boiler must be installed
so that the chilled medium is piped parallel
with the heating boiler using appropriate valves
to prevent the chilled medium from entering
the boiler, see Figure 7. Also consult I=B=R
Installation and Piping Guides. If this boiler
is connected to heating coils located in air
handling units where they may be exposed
to refrigerated air, the boiler piping must be
equipped with flow control valves to prevent
gravity circulation of boiler water during the
operation of the cooling system.
c. Measuring from the flange end of the vent tube,
mark the total length required. Cut off and discard
the remaining piece.
d. IMPORTANT! Before connecting vent tube to fan,
install the orifice plate and two (2) cerafibre gaskets
on the fan outlet flange weld studs in the proper
order of assembly, gasket first, orifice plate second
and remaining gasket last. (See Figures 4 and 5).
e. Insert the vent tube, flange first, through the intake
air duct and secure to fan outlet flange with four (4)
¼” flat washers, ¼” lock washers and ¼”-20 brass
hex nuts provided.
f. Position vent terminal cover over exterior intake air
duct. Insert end of vent tube into collar on rear of
vent terminal cover. Align four (4) holes on cover
with ½” long threaded aluminum spacers. Secure
vent terminal cover with four (4) #10-32 x ¼” long
stainless steel machine screws provided.
c. Pipe safety relief valve to suitable drain.
CAUTION: Safety relief valve should be piped
to an open drain — full size of discharge outlet on
relief valve without any provision of “shut-off”
between the relief valve and discharge into drain.
d. Install diaphragm type expansion tank (not
furnished) in system piping.
5
DO NOT REPLACE ENCLOSURE COVER until
boiler piping is completed and system is filled, vented
and checked for water leaks.
9
e. A hot water boiler installed above radiation level
must be provided with a low water cutoff device
as part of the installation.
If it is required to perform a long term pressure
test of the hydronic system, the boiler should first
be isolated to avoid a pressure loss due to the
escape of air trapped in the boiler.
To perform a long term pressure test including
the boiler, ALL trapped air must first be removed
from the boiler.
A loss of pressure during such a test, with no
visible water leakage, is an indication that the
boiler contained trapped air.
If a low water cut-off is required, it must be
mounted in the system piping above the boiler.
The minimum safe water level of a hot water
boiler is just above the highest water containing
cavity of the boiler; that is, a hot water boiler
must be full of water to operate safely.
f. Use a boiler bypass if the boiler is to be
operated in a system which has a large volume
or excessive radiation where low boiler water
temperature may be encountered (i.e., converted
gravity circulation system, etc.). The bypass
should be the same size as the supply and return
lines with valves located in the by-pass and
supply outlet as illustrated in order to regulate
water flow for maintenance of higher boiler
water temperatures. See Figure 6.
7
INSTALL BOILER FLUSH JACKET (See Figure
9).
a. Open jacket carton and locate side panels. Note that
jacket left side panel is not insulated and right side
panel is insulated.
b. Position the rear flange on jacket left side panel
behind the boiler back plate. Position flange support
notches over jacket support hooks on back panel
and engage jacket on both support hooks to keep the
panel from moving front to rear.
Set the by-pass and boiler supply valves to a
half throttle position to start. Operate boiler
until the system water temperature is at a normal
operating range.
c. Position rear flange on jacket right side panel behind
upper and lower jacket support brackets. Engage
jacket with jacket support hooks in similar manner
as left side panel to provide proper positioning and
support.
Adjust the valves to provide 180° to 200°F
supply water temperature. Opening the boiler
supply valve will raise the system temperature,
while opening the by-pass valve will lower the
system supply temperature.
d. Take jacket top and bottom panel from carton. Top
panel can be identified by the front channel used to
Figure 6
RECOMMENDED BOILER PIPING
10
Figure 7
RECOMMENDED PIPING FOR COMBINATION HEATING & COOLING (REFRIGERATION) SYSTEMS
Figure 9
EXPLODED JACKET ASSEMBLY
11
support the removable door. (See Figure 9). Place
jacket top panel over top side panels with ventilation
louvers to the left. Secure top panel with four (4) #8
x ½” long sheet metal screws provided.
fixtures, television, rays of the sun or near a fireplace.
Keep large furniture away from thermostat so there will
be free movement of room air around this control.
Heat anticipator in thermostat should be set at .4.
e. Lift jacket bottom panel up to bottom of side panels
with front channel forward and ventilation louvers
to the left. Secure bottom panel with four (4) #8 x
½” long sheet metal screws provided.
9
ELECTRIC WIRING INSTALLATION.
See Figures 11 and 12 for applicable wiring
diagram. A separate electrical circuit must be run
from the main electrical service with an over-current
device/disconnect in the circuit. A service switch is
recommended and may be required by some local
jurisdictions. The circuit should be run to the junction
box mounted on the front of the boiler back plate in the
control compartment (See Figure 1), and connected to
the proper leads therein. Wires from the low voltage
thermostat should be run to terminals R and G on
the transformer. Install wiring and ground boiler in
accordance with requirements of authority having
jurisdiction, or in absence of such requirements the
National Electrical Code, ANSI/NFPA 70.
f. Install jacket removable door. Hold door parallel
with top of door slightly above flat top panel. Insert
door between side panels. Lower door engaging
top panel reverse bend and lower panel flange in
the mating door flanges. Door is now locked into
position.
g. Reverse procedure to remove door.
8
INSTALL ROOM THERMOSTAT on an inside
wall about four feet above floor. Never install
thermostat on an outside wall or where it will be
influenced by drafts, hot or cold water pipes, lighting
12
III. Operating Instructions
Safe lighting and other performance criteria were met with
the gas manifold and control assembly provided on the
boiler when the boiler underwent tests specified in ANSI
Z21.13.
c. Be sure that gas to pilot and main burners has been
off for at least five minutes.
d. Open valve on main gas line at meter.
e. PURGE AIR FROM GAS PIPING. During the
purge adequate ventilation must be provided and no
smoking or open flame permitted. (See Figure 10)
1
2
INSPECT INSTALLATION BEFORE
STARTING.
1. Open manual shutoff valve upstream of
combination gas valve.
INITIAL START
2. Loosen or remove inlet pressure tap plug in
combination gas valve and when purging is
complete, tighten or replace plug.
a. FILL ENTIRE HEATING SYSTEM WITH
WATER and vent air from system. Vent air from
all heat distributing units and all high points in the
piping of the system. When venting air from system
keep fill valve in open position to maintain water
pressure. Make certain pressure reducing valve is
installed between the fill valve and the boiler. (See
Figure 7)
3. Check pipe and fittings from meter to
combination gas valve using soap solution or
other approved methods.
f. TEST GAS PIPING — Test gas piping and
connections between combination gas valve and
manifold, manifold orifices, and pilot piping for
leaks after boiler is operating. Use soap solution or
other approved method.
Use the following procedure on a series loop system
equipped with zone valves.
1. Close all but one zone valve.
g. Install enclosure cover and secure with #8 x ½” long
sheet metal screws.
2. Attach a hose to drain valve on purge fitting and
extend hose to drain.
3. Open drain valve on purge fitting.
4. Close purge valve.
3
OPERATING INSTRUCTIONS - See page 14.
5. Open relief valve on boiler.
6. Open fill valve.
7. When water discharges from relief valve, release
the lever on top of the relief valve, allowing it to
close.
8. Allow water to run out of drain valve until zone
has been purged of air and filled with water.
9. Open zone valve to the second zone to be
purged, then close the first. Repeat this step until
all zones have been purged but always have one
zone open. At completion open all zone valves.
10.Close drain valve on purge fitting.
11. Continue filling the system until the pressure
gauge reads 12 psi. Close fill valve.
NOTE: If make-up water line is equipped
with pressure reducing valve, system will
automatically fill to the set pressure of valve
(normally 12 psi). Leave globe valve open.
12.Open purge valve.
Figure 10
b. Set ROOM THERMOSTAT below room
temperature.
SCHEMATIC PILOT AND GAS PIPING
13
NOTE: YOUR BOILER IS EQUIPPED WITH A HONEYWELL VR8204 OR VR8304 GAS VALVE. PLEASE
FOLLOW THESE OPERATING INSTRUCTIONS:
14
15
Figure 12
LADDER WIRING DIAGRAM
16
SEQUENCE OF OPERATION
Should a loss of flame occur, the main valve closes
and the spark reoccurs within 0.8 second. The
ignition module has an internal 100% lockout
function to completely shutdown the system should
the pilot gas fail to ignite with approx. 90 seconds.
Five to six minutes after shutdown, the Ignition
Module restarts the ignition sequence. The ignition
trial, shutdown, and wait sequence continues until
either the pilot lights or the Thermostat is set below
room temperature (to end the call for heat). The
ignition sequence can be reset by setting down the
Thermostat for one minute.
1. When the thermostat calls for heat, relay coil (1M)
is energized closing two sets of NO contacts. One
set (1M2) energizes the 24 volt limit circuit and the
other set (1M1) completes the 120 volt circulator
circuit.
2. With the thermal cutout switch (on the burner
access panel), the high limit switch, and the suction
pressure switch in their normally closed positions,
the fan relay coil (2M) is energized closing two sets
of NO contacts. One set (2M1) completes the 120
volt fan circuit and the other set (2M2) energizes the
24V suction pressure “check” circuit.
8. Burners, circulator and fan will continue to operate
until the thermostat is satisfied.
3. With the fan operating, the suction pressure switch
closes its NO contacts. The “check” circuit contacts
(2M2) keep power on the fan relay (2M) during the
heating cycle.
9. If the high limit setting is reached before the
thermostat is satisfied, the switch in the high limit
will open to de-energize the ignition module and
fan relay coil (2M), causing the gas valves to close
and the fan to stop. (The circulator will continue
to operate as long as the thermostat is calling for
heat). When the boiler water temperature drops to
a point where the high limit switch closes, the fan
will restart (via 2M) and the ignition module will be
energized to repeat the sequence in Steps 4 through
7 above.
4. When the suction pressure switch proves fan
operation the ignition module is energized,
beginning a 30-50 second prepurge. During
prepurge the module performs a safe-start check
that tests the internal components of the module for
a flame simulating condition. If a flame simulating
condition is present in the module, the heating
system will not start.
10.If for any reason (such as flame roll out into the
vestibule) the thermal cutoff switch located on the
burner access panel is subjected to temperatures
above its setting the TCO switch will open to
de-energize the ignition module and fan relay coil
(2M), causing the gas valves to close and the fan to
stop. (The circulator will continue to operate as long
as the thermostat is calling for heat). Since the TCO
switch is a one-time fusible link, the reason for over-
heating must be determined and the switch replaced
in order for the boiler to function again.
5. After prepurge, the module energizes the pilot gas
valve operator. The pilot gas valve opens, allowing
gas to flow to the pilot burner. At the same time, the
electronic spark generator in the module generates a
spark at the ignitor-sensor to light the pilot.
6. If the pilot does not light within 90 seconds, or the
pilot flame current is not at least 1.0 milliamps and
steady, the module will not energize the main gas
valve and the main burner will not light. Then the
module goes into safety lockout, de-energizing the
pilot gas valve operator causing the pilot gas valve
to close. Five to six minutes after shutdown, the
Ignition Module restarts the ignition sequence.
11. In the event the fan is inoperative or fails to provide
sufficient air flow, the suction pressure switch
connected at the inlet of the fan will not activate, the
NO contacts will not close, the ignition module will
not be energized, and hence the gas valves cannot be
opened.
7. When the sensor senses pilot flame during the 90
second trial for ignition the module will shut off the
spark generator, reset the safety lockout timer, and
energize the main gas valve operator. The main gas
valve opens allowing gas to flow to the main burners
where it is ignited by the pilot burner. Since the
main gas valve is a step-opening valve, a limited
amount of gas will be admitted to main burners
for ignition (low fire). After a short time interval,
the regulator on the gas valve will permit full flow
through the main gas valve (high fire).
12.If the contacts in the suction pressure switch were
to weld together during the heating cycle (COM to
NO), the ignition module could not be energized
on the next call for heat due to the fact the fan relay
coil (2M) could not be energized through either the
suction pressure switch or the now open “check
circuit” contacts.
17
TROUBLE SHOOTING
flow (cu. ft.) should be in 3 minutes using formula
below:
Use the Trouble Shooting Guide (pages 19 to 21) to
assist in locating where a malfunction in the control
system is occurring.
cu. ft. per = Btuh Input (from Rating Label)
3 min.
=
20000
Clock gas meter for three (3) minutes using second
hand or stop watch.
4
PROCEDURE FOR MEASURING FAN
DIFFERENTIAL PRESSURE (See Figure 13).
For minor input changes readjust pressure regulator
on combination gas control. Increase or decrease
manifold pressure to obtain corresponding increase
or decrease in gas input.
a. With boiler off, remove black silicone tubing from
low side of pressure switch.
b. With tee and ¼” aluminum stubs, connect
manometer as shown with additional tubing.
Turning regulator adjusting screw clockwise
increases pressure. Counterclockwise rotation
decreases pressure. If it is necessary to increase
manifold pressure more than 0.3” of water to obtain
rated input, remove orifices and drill one size larger.
Reinstall and recheck input rate.
c. Start boiler and read differential pressure on
manometer. Should be -0.6” wc or greater (example
-0.7” wc).
d. Stop boiler, remove manometer and reconnect black
silicone tubing to duct.
5
CHECK GAS INPUT RATE TO BOILER
a. Input rate and maximum inlet pressure shown on
rating label must not be exceeded. Inlet pressure
must not be lower than minimum inlet pressure
shown on rating label.
b. All rate checks and all adjustments are to be made
while boiler is firing - all other appliances connected
to the same meter as the boiler must be off.
c. Water manometer or water column gauge should
be connected to a shutoff valve installed in the
1/8” pipe tapping in the gas valve - boiler off. By
installing gas valve up stream of manometer, gas
pressure can be introduced gradually - without
shutoff valve, surge of pressure when boiler is
turned on, could blow liquid out of manometer.
Replace plug in gas valve when rate check is
finished.
Figure 13
d. Approximate input - Adjust pressure regulator on
combination gas control so that manifold pressure is
equal to that shown on rating label. Determine what
PROCEDURE FOR MEASURING FAN DIFFERENTIAL
PRESSURE
18
19
20
21
6
7
8
CHECK PILOT FLAME. Flame should be a blue
medium hard flame enveloping approximately 3/8” of
the end of the sensing probe, see Figure 14.
10 MAIN BURNER FLAMES should have a clearly
defined inner cone, see Figure 15, with no yellow
tipping. Orange-yellow streaks caused by dust should
not be confused with true yellow tipping.
CHECK THERMOSTAT OPERATION. Raise and
lower thermostat setting as required to start and stop
burners.
11 CHECK LWCO OPERATION (if so equipped). Drain
boiler water below LWCO set point. Burners should
shutdown. If burners do not shut down determine cause
of malfunction and repair.
CHECK HIGH LIMIT CONTROL. Allow boiler to
operate until burners are shut down by limit control
(approximately 235°F). If burners are not shut down by
limit control, determine cause of malfunction. Replace
control if necessary and check its operation.
12 WARNING – BEFORE INSTALLATION OF THE
BOILER IS CONSIDERED COMPLETE, THE
OPERATION OF THE BOILER CONTROLS
SHOULD ALL BE CHECKED, PARTICULARLY
THE LOW WATER CUT-OFF AND THE HIGH
LIMIT CONTROL.
9
CHECK IGNITION SYSTEM SAFETY SHUTOFF
DEVICE. Remove pilot ground lead from electrical
junction block. If burners are not shut down by
module, determine cause of malfunction. Replace
module or gas valve if necessary.
Figure 14
TYPICAL PILOT FLAME
Figure 15
MAIN BURNER FLAME
22
IV. Service
brush flueways thoroughly from top of boilers as
illustrated in Figure 16. Replace canopy and seal.
1
GENERAL — Inspection should be conducted
annually. Service as frequently as specified in
paragraphs below. While service or maintenance is
being done, Electrical Power and all Gas Supply to the
Boiler must be “off.”
4
BURNERS AND FIREBOX SHOULD BE
CLEANED ANNUALLY
a. Remove jacket front panel.
CAUTION
b. Remove sheet metal screws securing enclosure
cover and remove cover exercising care with gasket.
Label all wires prior to disconnection when
servicing controls. Wiring errors can cause
improper and dangerous operation. Verify
proper operation after servicing.
c. Remove TCO leads from TCO and remove burner
access panel.
d. Brush top of burner with a soft bristle brush and
vacuum burner, see Figure 16. Check orifice to see
that drilled passageway is free of lint and dirt.
2
VENT SYSTEM — Vent system (see Figure 4 for
typical installation) should be checked annually for:
e. Vacuum tips of pilot burner.
a. Obstructions
f. Clean firebox by vacuuming. Exercise care not to
b. Accumulations of soot
disturb insulation inside base.
c. Deterioration of vent pipe or vent accessories due to
condensation or other reasons
5
REMOVAL OF BURNER ASSEMBLY
a. Disconnect pilot tubing coupling, ignition cable and
ground wire from pilot assembly.
d. Proper attachment of vent cap and sealant around
wall penetration
b. Disconnect gas valve at union between valve and
bulkhead penetration.
e. Remove vent cap and clean accumulations of
soot and dirt with wire brush and vacuum. See
Figure 16. Remove any obstructions. Replace all
deteriorated parts.
c. Remove two fasteners attaching burner to bulkhead
and single fastener for burner end support.
d. Grasp burner, tilt upward and remove from unit.
3
CLEANING BOILER FLUES (See Figure 16).
e. INSTALL BURNER by reversing procedure used
to remove.
Flue passageways in the boiler sections should be
checked annually for any blockage or accumulation of
soot. To obtain access to flueways:
6
REMOVAL OR REPLACEMENT OF PILOT
ASSEMBLY OR PILOT ASSEMBLY PARTS
a. Remove jacket front panel.
a. If pilot assembly, sensor or pilot orifice need
replacement, remove jacket front panel, enclosure
cover and burner access panel using procedure
described in paragraph 4 above.
b. Remove sheet metal screws securing combustion
area enclosure cover and remove cover. Exercise
care when removing to prevent damage to enclosure
gasket.
b. Disconnect pilot tubing, ground wire and ignition
sensor cable.
c. Remove fan assembly after disconnecting electrical
leads and vent tube. Care should be exercised to
avoid damage to gaskets.
c. Remove two machine screws holding pilot burner to
pilot bracket.
d. Remove four (4) bolts securing canopy and remove
d. Reinstall pilot burner by reversing above procedure.
canopy — flueways are now exposed.
e. Check pilot and main burner flames, refer to Figures
Using a flashlight, examine all flue passageways.
If passageways are free of soot and obstruction,
replace canopy, secure and seal using kit available
from Burnham distributors.
14 & 15.
7
8
CHECK MAIN BURNER AND PILOT FLAMES,
refer to Section III, paragraphs 6 and 10.
e. Replace fan, connect vent tube and electrical wiring.
CHECK ALL CONTROLS ANNUALLY, see
procedure in Section III, paragraphs 7, 8, 9, 11 and 12.
f. Reinstall and secure enclosure cover and jacket front
panel.
MAINTENANCE OF LOW WATER CUTOFF
— During the heating season, if an external float type
low water cutoff is on the boiler, the blow off valve
should be opened once a month (use greater frequency
If the flue passageways need cleaning, remove
burners as described in paragraph 4 below. Using
long handle wire or bristle flue brush and vacuum,
23
where conditions warrant) to flush out the sediment
chamber so the device will be free to function properly.
discoloration. Probe type low water cutoff should be
removed once a year, examined and cleaned of any
dirt accumulations to assure proper operation. Do not
attempt to repair mechanisms in the field. Complete
replacement mechanisms including necessary gaskets
and installation instructions are available from the
manufacturer.
Low water fuel cutoffs and water feeders should be
dismantled annually by qualified personnel, to the
extent necessary to insure freedom from obstructions
and proper functioning of the working parts. Inspect
connecting lines to boiler for accumulation of mud,
scale, etc. and clean as required. Examine all visible
wiring for brittle or worn insulation and make sure
electrical contacts are clean and that they function
properly. Give special attention to solder joints on
bellows and float when this type of control is used.
Check float for evidence of collapse and check mercury
bulb (where applicable) for mercury separation or
9
LUBRICATION
There are no parts requiring lubrication on the part of
the serviceman or the homeowner. Circulator bearings
are water lubricated. Fan motor bearings are factory
sealed.
Figure 16
CLEANING OF VENT SYSTEM, BOILER FLUES, AND BURNERS
24
Important Product Safety Information
Refractory Ceramic Fiber Product
Warning:
This product contains refractory ceramic fibers (RCF). RCF has been classified
as a possible human carcinogen. After this product is fired, RCF may, when
exposed to extremely high temperature (>1800F), change into a known human
carcinogen. When disturbed as a result of servicing or repair, RCF becomes
airborne and, if inhaled, may be hazardous to your health.
AVOID Breathing Fiber Particulates and Dust
Precautionary Measures:
Do not remove or replace previously fired RCF (combustion chamber insulation,
target walls, canopy gasket, flue cover gasket, etc.) or attempt any service or
repair work involving RCF without wearing the following protective gear:
1. A National Institute for Occupational Safety and Health (NIOSH)
approved respirator
2. Long sleeved, loose fitting clothing
3. Gloves
4. Eye Protection
• Take steps to assure adequate ventilation.
• Wash all exposed body areas gently with soap and water after contact.
• Wash work clothes separately from other laundry and rinse washing
machine after use to avoid contaminating other clothes.
• Discard used RCF components by sealing in an air tight plastic bag.
First Aid Procedures:
• If contact with eyes: Flush with water for at least 15 minutes. Seek
immediate medical attention if irritation persists.
• If contact with skin: Wash affected area gently with soap and water.
Seek immediate medical attention if irritation persists.
• If breathing difficulty develops: Leave the area and move to a
location with clean fresh air. Seek immediate medical attention if
breathing difficulties persist.
• Ingestion: Do not induce vomiting. Drink plenty of water. Seek
immediate medical attention.
25
V. Repair Parts
All Spacemaster™ Repair Parts may be obtained through your local Burnham Wholesale
distributor. Should you require assistance in locating a Burnham distributor in your area, or
have questions regarding the availability of Burnham products or repair parts, please contact
Burnham Customer Service at (717) 481-8400 or Fax (717) 481-8408.
Any parts not listed can be ordered by description or part number on the item.
Part No.
1. Gas Valve - Honeywell VR8204C3007
81660145U
80160108
60160880
80160460
80160461
8056054
8236068
8236085
8236070
8236074
2. Ignition Module - Honeywell S8670E1007*
3. Differential Pressure Switch
4. High Limit - Honeywell L4189B2012
4a. Honeywell #45900409-003B Immersion Well (½"NPT)
5. Circulator - TACO #005-T1
6. Pilot - Honeywell Q362A1037
7. Ignition/Sensor Cable Honeywell 394799-36
8a. Main Gas Burner with Pilot Bracket and Orifice #AB24040 (3 section)
8b. Main Gas Burner with Pilot Bracket and Orifice #AB24042 (4 section)
Induced Draft Fan Replacement Assembly - Includes Fan (8116055),
Canopy Outlet Gasket, Fan Inlet Gasket and two (2) Fan Outlet Gaskets
9.
6110303
10. Fan Inlet Casting
8116056
8056235
8060301
8060305
8060302
8060304
8060303
8200301
8206034
8206011
8200306
80160156U
80160096U
6050301
6050302
8110301
7110311
61103036
61103046
8200307
80160044
11. Temperature/Pressure Gauge
12a. Lower Circulator Return Piping Assembly - 3 section
12b. Lower Circulator Return Piping Assembly - 4 section
13a. Supply Piping Assembly - 3 section
13b. Supply Piping Assembly - 4 section
14. Upper Circulator Return Piping Assembly
15. Enclosure Gasket
16. Canopy Outlet Gasket
17. Fan Inlet Gasket
18. Fan Outlet/Orifice Plate Gasket (2 required)
19. Transformer/Relay Combination - Honeywell R8285D5001
20. Relay - Honeywell R8222U1006
21. Misc. Parts Carton 5" to 9" thick walls
22. Misc. Parts Carton 9" to 15" thick walls
23. Vent Tube - 2½" O.D. x 24" Lg.
24. Vent Tube Mounting Flange
25a. Orifice Plate - 3 section
25b. Orifice Plate - 4 section
26. Air Inlet Duct Gasket
27. Flame Roll-Out Switch
* WARNING — The Honeywell S8670E Ignition Module incorporates a prepurge feature that is necessary for
the safe operation of this boiler. Do not substitute any other Ignition Module.
26
VI. Low Water Cut Off (LWCO)
WARNING
DO NOT ATTEMPT to cut factory wires to install an aftermarket Low Water Cut Off (LWCO).
Only use connections specifically identified for Low Water Cut Off.
In all cases, follow the Low Water Cut Off (LWCO) manufacturer's instructions.
draining the heating system. Many probe LWCO
manufacturers recommend an annual inspection of the
probe.
When
A low water cutoff is required to protect a hot water
boiler when any connected heat distributor (radiation)
is installed below the top of the hot water boiler (i.e.
baseboard on the same floor level as the boiler). In
addition, some jurisdictions require the use of a LWCO
with a hot water boiler.
How to Wire
LWCO’s are available in either 120 VAC or 24 VAC
configurations. The 120 VAC configuration can be
universally applied to both gas and oil boilers by wiring
it in the line voltage service to the boiler (after the
service switch, if so equipped).
The presence of water in a properly installed LWCO
will cause the normally open contact of the LWCO to
close, thus providing continuity of the 120 VAC service
to the boiler.
Where
The universal location for a LWCO on both gas and oil
hot water boilers is above the boiler, in either the supply
or return piping. The minimum safe water level of a
water boiler is at the uppermost top of the boiler; that is,
it must be full of water to operate safely.
It is recommended to supply power to the probe LWCO
with the same line voltage boiler service as shown
below.
What Kind
Typically, in residential applications, a probe type
LWCO is used instead of a float type, due to their
relative costs and the simplicity of piping for a probe
LWCO.
How to Pipe
A “tee” is commonly used to connect the probe LWCO
to the supply or return piping, as shown below.
Wiring of Typical LWCO
A 24 VAC LWCO is used primarily for gas fired
boilers where a 24 volt control circuit exists within the
boiler. However, a 24 VAC LWCO can only be used
if the boiler manufacturer has provided piping and
wiring connections and instructions to allow for this
application.
LWCO Location
Select the appropriate size tee using the LWCO
manufacturer’s instructions. Often, the branch
connection must have a minimum diameter to
prevent bridging between the probe and the tee. Also,
the run of the tee must have a minimum diameter to
prevent the end of the probe from touching or being
located too close to the inside wall of the run of the tee.
How to Test
Shut off fuel supply. Lower water level until water
level is BELOW the LWCO. Generate a boiler demand
by turning up thermostat. Boiler should not attempt to
operate. Increase the water level by filling the system.
The boiler should attempt to operate once the water
level is above the LWCO.
Ideally, manual shutoff valves should be located
above the LWCO and the boiler to allow for servicing.
This will allow probe removal for inspection without
27
Limited Warranty
FOR RESIDENTIAL CAST IRON WATER BOILERS
Boiler Co., Inc. recommendations and hydronics industry standards.
Subject to the terms and conditions set forth below, U.S. Boiler
Co., Inc. Lancaster, Pennsylvania hereby extends the following limited
warranties to the original owner of a residential grade water boiler
manufactured and shipped on or after July 1,1991:
These warranties will be inapplicable if the residential grade water boiler
is used or operated over its rated capacity, is subjected to unauthorized
modification, or is damaged as a result of being otherwise improperly
operated or serviced including, but not limited to, damage from any of the
following: operation with insufficient water, allowing the boiler to freeze,
subjecting the boiler to flood conditions, and operation with unapproved
water or fuel additives which cause deposits or corrosion.
ONEYEAR LIMITED WARRANTY
ON RESIDENTIAL GRADE WATER BOILERS
U.S. Boiler Co., Inc. warrants to the original owner that its residential
grade water boilers comply at the time of manufacture with recognized
hydronic industry standards and requirements then in effect and will be
free of defects in material and workmanship under normal usage for a
period of one year from the date of original installation. If any part of a
water boiler is found to be defective in material or workmanship during
this one year period, U.S. Boiler Co., Inc. will, at its option, repair or
replace the defective part.
5. Removal and Installation: These warranties do not cover expenses
of removal or reinstallation. The owner is responsible for the cost of
removing and reinstalling any defective part and its replacements and all
labor and material connected therewith.
6. Exclusive Remedy: U.S. Boiler Co., Inc. obligation for any breach of
these warranties is limited to the repair or replacement of its parts in
accordance with the terms and conditions of these warranties.
LIFETIME LIMITED WARRANTY ON HEAT EXCHANGER
7. Limitation of Damages: Under no circumstances shall U.S. Boiler Co.,
Inc. be liable for incidental, indirect, special or consequential damages
of any kind whatsoever under these warranties, including, but not limited
to, injury or damage to persons or property and damages for loss of use,
inconvenience or loss of time. U.S. Boiler Co., Inc. liability under these
warranties shall under no circumstances exceed the purchase price paid
by the owner for the residential grade water boiler involved. Some states
do not allow the exclusion or limitation of incidental or consequential
damages, so the above limitation or exclusion may not apply to you.
U.S. Boiler Co., Inc. warrants to the original owner that the heat
exchanger of its residential grade water boilers will remain free from
defects in material and workmanship under normal usage for the
lifetime of the original owner at the original place of installation. If a
claim is made under this warranty during the first ten years from the
date of original installation, U.S. Boiler Co., Inc. will, at its option, repair
or replace the heat exchanger. If a claim is made under this warranty
after the expiration of ten years from the date of original installation,
U.S. Boiler Co., Inc. will, at its option and upon payment of the pro-rated
service charge set forth below, repair or replace the heat exchanger.
The service charge applicable to a heat exchanger warranty claim is
based upon the number of years the heat exchanger has been in service
and will be determined as a percentage of the retail price of the heat
exchanger model involved at the time the warranty claim is made as
follows:
8. Limitation of Warranties: These warranties set forth the entire
obligation of U.S. Boiler Co., Inc. with respect to any defect in a
residential grade water boiler and U.S. Boiler Co., Inc. shall have no
express obligations, responsibilities or liabilities of any kind
whatsoever other than those set forth herein. These warranties are given
in lieu of all other express warranties.
ALL APPLICABLE IMPLIED WARRANTIES, IF ANY, INCLUDING
ANY WARRANTY OF MERCHANTABILITY OR FITNESS FOR A
PARTICULAR PURPOSE ARE EXPRESSLY LIMITED IN DURATION TO
A PERIOD OF ONE YEAR EXCEPT THAT IMPLIED WARRANTIES, IF
ANY, APPLICABLE TO THE HEAT EXCHANGER IN A RESIDENTIAL
GRADE WATER BOILER SHALL EXTEND TO THE ORIGINAL OWNER
FOR THE LIFETIME OF THE ORIGINAL OWNER AT THE ORIGINAL
PLACE OF INSTALLATION. SOME STATES DO NO ALLOW LIMITATION
ON HOW LONG AN IMPLIED WARRANTY LASTS, SO THE ABOVE
LIMITATION MAY NOT APPLY TO YOU.
Years
In Service
1-10
11
5
12
10
13
15
14
20
15
25
16
30
17
35
Service Charge
as % of
Retail Price
No
Charge
Years
In Service
25 and
above
18
40
19
45
20
50
21
55
22
60
23
65
24
70
Service Charge
as % of
Retail Price
75
PROCEDURE FOR OBTAINING WARRANTY SERVICE
In order to assure prompt warranty service, the owner is requested to
complete and mail the attached Warranty Card within ten days after the
installation of the boiler, although failure to comply with this request will
not void the owner’s rights under these warranties.
NOTE: If the heat exchanger model involved is no longer available due to
product obsolescence or redesign, the value used to establish the retail
price will be the published price as shown in the Burnham Hydronics
Repair Parts Price Sheet where the heat exchanger last appeared or the
current retail price of the then nearest equivalent heat exchanger.
Upon discovery of a condition believed to be related to a defect in
material or workmanship covered by these warranties, the owner should
notify the installer, who will in turn notify the distributor. If this action is
not possible or does not produce a prompt response, the owner should
write to U.S. Boiler Co., Inc., Burnham Hydronics, at P.O. Box 3079,
Lancaster, PA 17604, giving full particulars in support of the claim.
ADDITIONAL TERMS AND CONDITIONS
1. Applicability: The limited warranties set forth above are extended
only to the original owner at the original place of installation within the
United States and Canada. These warranties are applicable only to
water boilers designated as residential grade by U.S. Boiler Co., Inc. and
installed in a single or two-family residence and do not apply to steam
boilers of any kind or to commercial grade boilers.
The owner is required to make available for inspection by U.S.
Boiler Co., Inc. or its representative the parts claimed to be defective
and, if requested by U.S. Boiler Co., Inc. to ship these parts prepaid to
U.S. Boiler Co., Inc. at the above address for inspection or repair. In
addition, the owner agrees to make all reasonable efforts to settle any
disagreement arising in connection with a claim before resorting to legal
remedies in the courts.
2. Components Manufactured by Others: Upon expiration of the
one year limited warranty on residential grade water boilers, all boiler
components manufactured by others but furnished by U.S. Boiler Co.,
Inc. (such as oil burner, circulator and controls) will be subject only to the
manufacturer’s warranty, if any.
THIS WARRANTY GIVES YOU SPECIFIC LEGAL RIGHTS AND YOU
MAY ALSO HAVE OTHER RIGHTS WHICH VARY FROM STATE TO
STATE.
3. Proper Installation: The warranties extended by U.S. Boiler Co., Inc.
are conditioned upon the installation of the residential grade water boiler
in strict compliance with U.S. Boiler Co., Inc. installation instructions.
U. S. Boiler Co., Inc. specifically disclaims liability of any kind caused by
or relating to improper installation.
4. Proper Use and Maintenance: The warranties extended by U.S. Boiler
Co., Inc. conditioned upon the use of the residential grade water boiler
for its intended purposes and its maintenance accordance with U. S.
03/03
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