Where Is Pilot Light on a Ducane Furnace

User Manual: DUCANE DUCANE Furnace/Heater, Gas Manual DUCANE Furnace/Heater, Gas Owner's Manual, DUCANE Furnace/Heater, Gas installation guides

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lUtta"

Heating and Hir

Conditioning

Ducane Heating Division, The Ducane Company Inc., Blackville, SC 29817

CMP" A" SERIES

INSTALLATION INSTRUCTIONS

UPFLOW OR LEFT HORIZONTAL

GAS-FIRED CONDENSING

WARM AIR FURNACE

Issue 9939

WARNING

These instructions are intended to be used by qualified personnel who have been trained in installing

this:type of furnace. Installation by an unqualified person may lead to equipment damage and/or a

hazardous condition which may cause bodily injury and harm and, as such, at the so e d scret on of

the: manufacturer, the entire warranty may be voided and be of no further force and effect.

WARNING

The furnace cabinet must have an uninterrupted or unbroken electrical ground to minimize personal

injury if an. electrical fault should occur. The unit must also be electrically grounded in accordance

with.lo_ _es, Or in the absence of local codes, with the latest edition of the (U.S.) Nati6nal

Electrical:C0de ANS/NFPA No. 70 or CSA Standard C22.1; Part 1 Canadian Electrical Code, if an

external e e_?ical source s ut zed. DO NOT use gas piping as an electrical ground.

GENERAL INSTRUCTIONS

This furnace is design certified by CSA International as a category IV furnace andis dual certified as direct vent furnace (two pipe

system) using outside air for combustion or as a non-direct vent furnace (one pipe system) using air from inside the structure for

combustion.

It is shipped as a packaged unit, complete with burners and controls, and requires a line voltage (115V) connection to the junction box,

a thermostat hook-up as per the wiring diagram, a gas line connection, and a condensate drain connection. This furnace can be installed

in either upflow or horizontal 0eft) airflow positions. Do not install this furnace outdoors or use for temporary construction heating.

This furnace has been designed to interface with split system cooling equipment (approved by a nationally reco_lized testing

laboratory) so as to provide "year round air conditioning". The blower has been sized for both heating and cooling and the furnace

controls include a cooling fan relay.

The furnace installation must conform with local building codes or in the absence of local codes, with the latest edition of the (U.S.)

National Fuel Gas Code ANSI Z223.1 (NFPA-54) or Canadian Installation Codes CAN/CGA-B 149.

For complete information on installation standards consult the (U.S.) National Fuel Gas Code, obtainable from the National Fire

Protection Association, Inc., Batterymarch Park, Quincy, MA 02269 or the American Gas Association, 1515 Wilson Boulevard Arlington,

VA 22209 or the Canadian installation codes obtainable from Canadian Standards Association, 178 Rexdale Boulevard, Etobicoke,

Ontario, Canada M9W 1R3.

This furnace is designed for a minimum continuous return-air temperature of 60°F dB or intermittent operation down to 55*F dB such

as when used with a night setback thermostat. Return-air must not exceed a maximum continuous temperature of 85"F dB.

These instructions are written for individual residential installation only. For multi-unlt installations, please contact

manufacturer for recommendations.

20246506 Issue 9939 Page I of 22

LOCATION / PLACEMENT

Site Selection: This furnace may be located in an attic, closet, basement, crawl space, alcove, garage or suspended fromtheceiling of a

utility room or basement. Select a location that will meet all requirements for safety, clearances, ventilation and combustion air, ductwork

design, gas piping, electrical wiring and venting.

Clearances: The following minimum clearances, or greater, must be provided between the furnace and adjacent construction.

Table I. 2 MINIMUM INSTALLATION CLEARANCES

"UPFLOW" POSITION "HORIZONTAL (LEFI')" POSITION

Suitable for alcove or closet installation';" on combustible flooring Suitable for attic, alcove or closet installationt on combustible

at minimum clearance from adjacent consWuction not less that the flooring at minimum clearance from adjacent construction not less

following: that the following:

* Line contact only permissible between lines formed by intersection

of the top and two sides of the furnace jacket and building joist,

studs, or framing.

Top Sides Back Front Vent ;

2" 1" 1" 3" 0"

tFor closet installation see Air for Combustion and Ventilation.

The furnace should not be connected to an operational

chimney. The furnace should also be located as near to the center

of the air distribution system as possible, and should be installed

level.

This furnace may be installed on non-combustible flooring or

on wood flooring, however, it must not be installed directly on

carpeting, tile or any other combustible material.

In a horizontal position, line contact is only permissible

between lines formed by the intersection of the furnace top and the

front and bank sides and building joists, studs or framing (See

Figure 2.2).

Figure 2.2 LEVELING AND ATTIC INSTALLATION

SHOWING LINE CONTACT

ROOF LINE CONTAC_r O¢4Ly PERMISSIBLE

BETV_I_I TOP CORNERS OF FURNACE

N4D 8UILDII_ JOISTS, :S'_JOS OR

KEEP ALL INSULATING MATERIAL

CLEAR OF FURNACE. Ill'JIlTING

MATERIt_I.S MAy BE COCdI_JS11BLE.

\

Furnace must not lean back. It must be level or tilt up to

2* to the front (See Figure 2.2).

A clearance of at least 30" should be provided at the front of

the unit for servicing. For attic installations, the passageway and

servicing area adjacent to the furnace should be floored.

WARNING

If furnace is tilted back condensate will collect

in the secondary heat exchanger which will

result in improper combustion, fire hazard, or

other unsafe conditions which could result in

property damage_ personal injury or death.

If the furnace is to be installed in a crawl space, consult local

codes. (Use of a concrete pad 1" to 2" thick is recommended.) If

the furnace is to be suspended from the ceiling, it will be necessary

to use steel pipe straps around each end of the furnace. These

straps should be attached to the furnace with sheet metal screws

and to the rafters with bolts. The furnace may also be suspended

by using an angle iron frame bolted to the rafters. (See Table 1.20

for size and weight of furnace.) Care must be taken to allow for

service access.

If a furnace is to be installed in a residential gara_, it must be

installed so the burners and the ignition source are located not less

than 18" above the floor and the furnace must be located or

protected to avoid physical damage by vehicles.

WARNING

If this furnace is installed in a garage and/or

any unconditioned space, a thermostatically

controlled heat tape must be installed along

the entire length of the condensate drain in

the unconditioned space. Any blockage of

the condensate drain will result in improper

combustion, fire hazard, or other unsafe

conditions that could result in property

damage, personal injury or death.

20246506 Issue 9939 Page 2 of 22

WARNING

Do not place combustible material on the

furnace jacket. Failure to comply with this

warning will create a fire hazard.

WARNING

This furnace is not watertight and is not

designed for outdoor installation. This

furnace shall be installed in such a manner

as to protect the electrical components from

water. Outdoor installation would lead to a

hazardous electrical condition and to

prematu're furnace failure.

Air for Combustion and Ventilation:

Contaminated CombustionAir If the furnace is to be

installed in a structure defined as having contaminated combustion

air, the furnace must use the direct vent (two pipe) configuration

using non-contaminated outside air for combustion. Allowing

exposure to substances containing chlorine or fluoride could harm

the furnace. Substances to avoid include, but are not limited to:

Permanent wave solutions

Chlorinated waxes and cleaners

Chlorine based swimming pool chemicals

Water softening chemicals

De-icing salts or chemical

Carbon tetrachloride

Halogen type refrigerants

Cleaning solvents (such as perchloroethylene)

Printing inks, paint removers, varnishes, etc.

Hydrochloric acid

Cements and glues

Antistatic fabric softeners for clothes dryers

Masonry acid washing materials

WARNING

Contaminated combustion air may cause

premature failure of the heat exchanger that

may lead to a hazardous condition and/or

bodily harm, or loss of life.

Adequate Ventilation and Combustion Air This

section is provided to give guidelines for the introduction of air for

ventilation and combustion air. The total quantity of air provided

to the installation area must equal the requirements of all gas

appliances in the area.

Adequate facilities ior providing air for combustion and

ventilation must be provided in accordance with the latest editiou

of section 5.3. Air for Combustion and Ventilation, of the National

Fuel Gas Code ANSI Z223.1 or Sections 7.2. 7.3 or 7.4 of

CAN/CGA B149 Installation Codes, or applicable provisions of

the local building codes.

The furnace shall be installed in a location in which the

facilities for ventilation permits satisfactory combustion of gas,

proper venting and maintenance of ambient temperature at safe

limits under normal conditions of use. The furnace shall be located

so as not to interfere with proper circulation of air.

In addition to air needed for combustion, ventilation in the

form of process air must be provided as required for: cooling of

equipment or material, controlling dew point, heating, drying,

oxidation or dilution, safety exhaust and odor control. Air must be

supplied for ventilation, including all air required for comfort and

proper working conditions for personnel. Direct venting (two

pipe) allows for the combustion air to be supplied directly to

the _rnace from the outdoors. Ventilation needs only to be

considered when furnace is installed as direct vent (two pipe).

Non-direct venting (one pipe) requires both combustion and

ventilation air requirements from the furnace location. For

purposes of this instrncdon the following definitions apply:

Unconfined Space: A space whose volume is not less than

50 cubic feet per 1000 Btu per hour of

the aggregate input rating of all

appliances installed in that space.

Rooms communicating directly with

the space in which the appliances are

installed, through openings not

furnished with doors, are considered a

part of the unconfined space.

Confined Space: A space whose volume is less than 50

cubic feet per 1000 Btu per hour of the

aggregate input rating of all appliances

installed in that space.

If the installation area meets the definition of "Unconfined

Space" and does not have additional air requirements as described,

the furnace may be installed without making special provisions for

combustion and ventilation air.

CAUTION

Whenever this furnace is installed in an area

along with one or more gas appliances, the

total Btu input of all appliances must be

included when determining the free area

requirements for combustion and ventilation

air openings.

20246506 Issue 9939 Page 3 of 22

If ventilation and/or combustion air must be supplied to the

'Confined Space" from inside the building structure, two

permanent openings to an additional room of sufficient volume

as to combine the volumes of the spaces to meet the criteria for

an "Unconfined Space" must be created. Each opening must

have a free area of not less than one square inch per 1000 Btu per

hour of total input of all appliances within the "'Confined Space"

(but not less than 100 square inches). These openings must be

located 12 inches from the top and bottom of the furnace area

respectively and must be at least 3 inches long on the smaller side

of the opening. Neither opening can be blocked at any time.

If ventilation and/or combustion air must be supplied to the

"Confined Space" from outslde the building structure, two

permanent openings to the outdoors must be created. Each

opening must have a free area of not less than one square inch per

4000 Btu per hour of total input of all appliances within the

"Confined Space". These openings must be located 12 inches

from the top and bottom of the furnace area respectively. Neither

opening can be blocked at any time.

When ducts are used to supply air, they must be of the same

cross sectional area as the free area of the openings to which they

connect. The minimum dimension of rectangular air ducts must

not be less than 3 inches.

;_ARNING :

DO not biock tfie com6usti6_ or ventilatid_: a!_ : :

openings,in:tlie furnace. Any: bloCkag_:,_ii:

result in impfope_ cOmbustion and ma_:re_:_lt :

n; :

WARNING

If the blocked vent pressure switch (P1)

activates to shut the furnace down, the vent

system must be checked and cleared.

Failure to do so may result in serious bodily

harm or nuisance furnace shutdown and/or

a hazardous condition that may lead to

property damage, personal injuryor death.

WARNING

If the blocked drain pressure switch (P2)

activates to shut the furnace down, do not

attempt to operate the furnace until the drain

line is checked for blockage. Failure to clear

the drainage system could lead to nuisance

furnace shutdown and/or hazardous

conditions that may lead to property

damage personal injury or death,

Figure 1.4 PRESSURE SWITCH LOCATION

AND CONNECTION

may be combustible.

Blocked Vent & Blocked Drain Pressure Switches This

furnace is equipped with two (2) pressure switches that perform

several safety functions. The pressure switches are located in the

vestibule of the unit (see Figure 1.4). The switch labeled P1 will

turn the burners OFF in the event of a blocked inlet or a blocked

outlet condition. The switch labeled P2 will turn OFF the burners

in the event of a blocked drain condition. In addition, the P2

switch insures that the unit has combustion air flowing through the

unit prior to initiating the ignition sequence.

I °

| MINUS

P2

Y

PLUS

20246506 Issue 9939 Page 4 of 22

INSTALLATION

In all direct vent (two pipe) instances, the vent outlet shall be installed so as to be in the same amlosphcric pressure zone as the

combustion air intake, When installed, the furnace must be electrically grounded in accordance with local codes or. in the absence of local

codes, with the (U.S.) National Electrical Codes, ANSI/NFPA 70or CSA Standard C22.1; Part 1 Canadian Electrical Code. To properly

install the field wiring of this unit refer to Figures 1.21 & 1.22. In all instances, the wiring to be done, and any replacement of wire shall

conform with the temperature limitation for Type T wire [630F rise (350C)].

To Prepare Unit for Installation:

General Requirements

Regardless of which airflow direction that the furnace is

installed, the following steps are required:

1. The electrical connections and the thermostat connections are

made at the openings on either side panel of the unit in the

control box area. Either side may be used, as convenient, but

the provided hole plugs should be inserted in the unused holes.

2. A left, right, or bottom return air opening must be used as

determined by the layout of the installation. An externally

mounted air filter is required.

3. This furnace has a two piece bottom panel. For bottom or end

duct return, remove the back portion of the bottom panel by

removing the four (4) screws---2 on each side toward the back

of the furnace. (See Figure 1.5) Tilt furnace toward the front,

the back portion of the panel will drop down. Then the back

portion can be removed by pulling toward the back of the

furnace. Refer to Figure 2.20 for ductwork sizing.

Figure 1.5 BOTTOM PANEL REMOVAL

Knockouts are provided on both sides of the furnace to

facilitate the cutout required to the return air ductwork. Furnace

cutouts must be the full size specified by the corner markers.

Undersized cutouts will adversely affect the airflow capability

of the furnace and could cause overheating of the heat

exchanger.

The following recommendations should be followed when

installing the ductwork:

1. Install locking-type dampers in all branches of the individual

ducts to balance out the system. Dampers should be adjusted

to impose the proper static at the outlet of the furnace.

2. Noncombustible flexible duct connectors are recommended to

connect both the supply and return duetS to the furnace.

3. In cases where the return air grille is located close to the

blower inlet, there should be at least one 90° air turn between

blower and retUrn grille. Further reduction in sound can be

accomplished by installing acoustical air taming vanes and/or

lining the inside of the duct with acoustical material.

4. It is recommended that the supply duct be provided with a

removable access panel. This opening shall be accessible

when the furnace is installed and shall be of such a size that

the heat exchanger can be viewed for possible openings using

light assistance or a probe can be inserted for sampling the air

stream. The access panel shall be designed so as mprevent

leaks when locked in position, If an air conditioning coil is

installed, the access panel to the coil can be used for this

purpose.

4. The flue may exit the cabinet either through the right or the

left side panel, depending on the requirements of the

installation. If the unit is installed in a horizontal-left

clischarge position, it is required to exit through the right side

panel, so the flue is pointing straight up when the unit is

installed. See figures 2.8 and 3.8 for configurations.

WARNING

When supply ducts carry air circulated by the

furnace to areas outside the spaces containing the

furnace, the return air shall also be handled by a

duct sealed to the furnace casing and terminating

outside the space containing the furnace. Incorrect

ductwork termination and sealing will create a

hazardous condition that could lead to bodily

harm.

.Ductwork Recommendation:

The proper sizing of warm air ducts is necessary to insure

satisfactory heating operation. Ductwork should be in accordance

with the latest editions of U.S. NFPA-90A (Air Conditioning

Ssm_S.x.E_.._) and NFPA-90B (Warm Air Heating and Air

Conditioning Systems) or Canadian equivalent.

The supply ductwork should be attached to the flanged

opening provided at the discharge end of the furnace. See Figure

2.20 for the dimensions of this opening.

CAUTION

Air openings, intake and outlet pipes, retum air

grilles and warm air registers must not be

obstructed.

When installing the furnace with cooling equipment for year

round operation, the following recommendations must be followed

for series or parallel air flow:

20246506 Issue 9939 Page 5 of 22

1. In series flow applications, the coil is mounted after the

furnace in an enclosure in the supply air stream. The furnace

blower is used for both heating and cooling airflow.

2. In parallel flow installation, dampers must be provided to

direct air over the furnace heat exchanger when heat is desired

and over the cooling when cooling is desired.

IMPORTANT: The dampers should be adequate to prevent

cooled air from entering the furnace, and if

manually operated, must be equipped with

means to prevent operation of either the cooling

unit or furnace unless the damper is in the full

cool or full heat position.

WARNING

The coil MUST be installed on the air discharge

side of the furnace. Under no circumstances should

the air flow be such that cooled, conditioned air can

pass over the furnace heat exchanger. This will

cause condensation in the heat exchanger and

possible failure ,of the heat exchanger that could

lead to a fire hazard and/or hazardous conditions

that may lead to bodily harm. Heat exchanger

failure due to improper installation may not be

covered by warranty.

Gas piping shall be of such size and so installed as to provide

a supply of gas sufficient to meet maximum demands without

undue loss of pressure between the gas meter and the furnace. It is

recommended that the gas line to the furnace shall be a separate

line direct from the meter, unless the existing gas line is of ample

capacity. Refer to gas pipe capacity table in the National Fuel Gas

Code (ANSI 7-,223.1) or the CANI-B 149 Installation Code.

Use a joint compound (pipe dope) that is resistant to the action

of liquefied petroleum gases or any other chemical constituents of

the gases to be conducted through the piping.

NOTE: In order to make proper input adjustments, minimum and

maximum gas supply pressure limits shown on the rating

plate must not be exceeded.

Before any system of gas piping is finally put into service, it

should be carefully tested to determine if it is gas tight. Check all

piping for leaks using soapy water and a brush. The piping must

stand a pressure of six (6) inches of mercury for a period of ten

(10) minutes or as required by local authority.

WARNING

The furnace and its individual shutoff valve must

be disconnected from the supply piping system

during any pressure testing of that system at test

pressures in excess of 1/2 PSIG (3.5kPa or

14"w.c.).

The furnace must be isolated from the gas supply

piping system by closing its individual manual

shutoff valve during any pressure testing of the

gas supply piping system at pressures equal to or

less than 1/2 PSIG (3.5kPa or 14"w.c.). Failure to

follow the above procedures couId lead to a

hazardous condition and bodily harm. o

Figure 1.6 GAS CONNECTION METHODS

,_LTS

r• • ,

FIELD

SHUT OFF

VALVE

l' I_ DRIP tea

FIELD INSTALLED

GROUND UNION

This furnace is manufactured for use with Natural gas and

must be converted using the proper LP conversion kit for use with

LP (Propane) gas. For LP (Propane) gas, a tank regulator is

required to reduce supply pressure to 12"-13"w.c. For manifold

pressure, see Table 2.13.

A main manual shut off valve must be used in the gas piping.

The shut off type and location must follow local codes and should

always be in an accessible but protected location. In the absence

of local codes the _conm_nded methods for installing the gas

piping to the furnace are shown in Figure 1.6.

The gas valve contains two threaded ports for a 1/8" NPT tap

in order to test incoming gas pressure and outgoing manifold

pressure (See Figure 1.12).

CAUTION

Many soaps used for leak testing are Corrosive to

certain metals. Piping must be rinsed thoroughly

with clean water after leak check has been

completed.

WARNING

Never use an open flame when testing for gas

leaks! Use of an open flame could lead to a fire or

explosion.

20246506 Issue 9939 Page 6 of 22

FAect rical:

The control system depends on the correct polarity of the

power supply. Connect "hot" wire (H) and "ground" wire "G'"' as

shown in Figures 1.21 & 1.22. Reference table 1.20 for furnace

over current protection, current rating and wire size. Use copper

wire only for ll5V-supply service to unit. When replacing any

original internal wiring, use only 105°C, 16 AWG copper wire.

Instructions for wiring the thermostat are packed in the

thermostat (field supplied) box. Make the thermostat connections

as shown in Figures 1.21 & 1.22 at the 24-volt terminal board

located in the control box.

When installing optional accessories to this appliance, follow

the manufacturer's installation instructions included with the

accessory. Other than wiring for the thermostat, a minimum of

type T (63°F rise) must be used.

Figure 1.7 AIR INLET CONNECTOR ASSEMBLY

CONNE_OR

GASKET

WARNING

The unit cabinet must have an uninterrupted or

unbroken electrical ground to minimize personal

injury if an electrical fault should occur. This may

consist of electrical wire or approved conduit when

installed in accordance with existing electrical

codes. Do not use gas piping as an electrical

ground. Failure to follow this warning can result

m an electrical shock, fire, bodily harm. or loss of

life.

Installation of Air Inlet Connector:

The air inlet connector must be installed on the top panel of

the furnace (See Figure 1.7). The connector, gasket, and mounting

screws are shipped in a bag located in the vestibule of the furnace.

The gasket is placed over the hole pattern in the top panel and the

connector is then secured to the top panel using the No. 10 X 5/8

sheet metal screws. The screws should be tightened securely, so

that the gasket seals the connector to the top panel in order to

prevent air leakage into the burner box. When installing furnace as

non-direct vent (one pipe), a field supplied PVC elbow (see Table

1.8 for size required) must be attached to the air inlet connector

with the elbow open end facing front (Figure 1.7). When installing

furnace as direct vent (two pipe), air inlet piping must match vent

pipe in length and configuration.

CAUTION

Terminate the combustion air intake in the same

pressure zone as the vent outlet and as far as

possible from the air conditioning unit or heat

pump, swimming pools, swimming pool pumping

units and dryer vents.

Venting & Termination Instructions:

Venting for this category IV furnace must be with schedule 40

PVC, CPVC or ABS pipe including all elbows and vent terminals.

All pipe and fittings must conform to the American Society for

Testing and Material (ASTM), and American National Standards

Institute (ANSI) Standards. PVC primer and solvent cement used

to secure all PVC joints must conform to ASTM D2564. Common

venting with other condensing appliances or non-condensing

appliance* is not allowed.

All combustion air and exhaust piping must be installed in

accordance with local codes and these instructions. For additional

venting information refer to ANSI/NFPA 211 Chimney,

Fireplaces, Vents and Solid Fuel Bumin_ Anoliances or Canadian

equivalenL

Refer to Tables 2.7 and 1.8 for the proper pipe diameters and

the minimum and maximum allowable vent lengths.

Table 2.7 DIRECT VENT (TWO PIPE) ALLOWABLE

VENT LENGTHS

MODEL PIPEDIAM.

50 2_.

75U2 2 1_.

75U3A

75W 2_.

1_ 3_.

125 3_.

MIN. VENT MAX. VENT

5FT. *:;OFT.

5FT. * 50 FT.

5FT. * 50 FT.

5zr. * 50 F'r.

5FT. *50FT.

* - Up to (5) 90 degree elbows may be used. Sweep elbows are poeretable but not

required.

2- 45 degree elbows - 1-90 degree elbow.

20246506 Issue 9939 Page 7 of 22

Table 1.8 NON-DIRECT VENT (ONE PIPE) ALLOWABLE

VENT LENGTHS

MODEL INTAKE PIPE DIAM.

ELBOW DIA.

50 2l/q. 2IN.

7502 3 IN. 2 I/2 IN.

7503A

75U3 2 IN. 2 IN.

ICO 3 IN. 3 IN.

125 3IN. 31N.

,%nN. VENT MAX. VENT

5FT. * 50 Ft.

5FT. * 50 FT.

5FT. * 50 FT.

5FT. *50FL

5FT. * 50 FT.

"- Up to (5) 90 degree elbows may be used. Sweep elbows ave pnt retable but not

requited.

2- 45 de_,r te elbows - 1-90 de_'ee elbow.

The following requirements are necessary for a safe venting

system:

1) All pipe should be supported using clamps and/or straps.

These supports should be at least every four (4) feet, or as

required by local codes.

2) All horizontal vent runs must be sloping upwards to obtain

1/4" (in.) rise per foot of pipe from the furnace to the vent

terminal. This insures proper drainage of the condensate back

to the condensate drain. Failure to maintain dfis rise will

cause condensate to accumulate in the pipe,

3) Direct Vent (two pipe) units may have either a 90* elbow or a

straight coupling attached to the air inlet plate. Do not seal

the top joint of the fitting. This joint must be left unglued to

facilitate unit access during any required maintenance.

4) All units regardless of vent configuration must use the

secondary exhaust pipe drain (supplied) as shown in Figures

2.8 and 3.8 or the alternate arrangements as shown in the

vent/drain instmcdous packed in the vent kit in the furnace.

5) Joints in PVC should be sealed with PVC cement and chocked

for leaks. ABS or CPVC venting should use sealant as

specified by the pipe manufacturer.

6) Cheek all local codes for any variance.

NOTE: If 2 I/2" or 3" vent pipe is required, the appropriate

supplied adapter must be used. Install the adapter at the

vent outlet of the vent/drain tee (see instructions in vent

kit).

Figure 2.8 UPFLOW VENTING OPTIONS

Figure 3.8 LEFT HORIZONTAL VENTING

12" MINIMUM CLEARANCE

P_EQUIRED

The vent system can be installed through an existing chimney

provided that:

a) No other appliance is vented into the chimney.

b) The termination clearances shown in Figure 4.8 are

maintained.

c) Both the air intake and exhaust vent run the length of the

chimney.

d) The top of the chimney is sealed and weatherproofed.

Vertical Vent Termination:

The vertical vent terminations should be sealed with a

plumbing roof boot or equivalentflashing.

The inlet of the intake pipe and the end of the exhaust vent

must terminate no less than 12" (in.) above the roof or snow

accumulation level, and 12" (in.) away from a vertical wall or other

protrusion (See Figure 4.8). In all venting configurations it is

required to use the vent terminations specified in the vent and drain

kit. The intake elbow and the exhaust tee are field supplied. ']['he

intake splitter supplied must be cemented into the intake elbow

(see instructions in vent kit).

Figure 4.8 VERTICAL VENT TERMINATION

12 INCHES

INTAKE MIN.

EI_ [ PVC TEE

EXHAUST

12 INCHES MINIMOM

ABOVE ANTICIPATED

MAXIMUM SNOW LEVEL. INTA_

SPLITTER

The minimum horizontal distance between the exhaust tee

and the intake elbow is twelve (12) inches. Further spacing is

allowable but both air intake and vent termination must be in

the same pressure zone.

20246506 Issue 9939 Page 8 of 22

Horizontal (Side Wall) Vent Termination:

To prevent blockage of the combustion air and exhaust vent

by snow, vent termination must be made 12" (in.) above the

anticipated maximum snow accumulation level (See Figure 1.9).

WARNING

Failure to terminate vent runs above the annual

snow accumulation level may result in nuisance

furnace shutdown and/or hazardous condition that

may lead to bodily harm or loss of life.

A minimum of 4' (ft.) clearance must be provided from

electric meters, gas meters, regulators and relief equipment. In

Canada refer to the current CAN/CGA B 149.1 and 2.

Direct vent (two pipe) terminations must terminate not

less that one-foot above, below or horizontal from any inlet to

building.

Non-direct vent (one pipe) termination must terminate at

least 4 feet below, 4 feet horizontally from, or 1 foot above any

inlet to building.

Do not terminate over public walkways or over an area

where condensate or vapor could create a nuisance or hazard. In

Canada refer to the current CAN/CGA B149.1 and 2.

Figure 1.9 HORIZONTAL VENT TERMINATION

HORIZONTAL VENTTERMINATION

NOTE: T MIN. CLEARANCE

TO NEAREST BUILDING

OR WALL.

1.5" MIN.

18" MAX._

WALL 12 IN, ,VdN.

IHICKNESS -- _ 12 IN. I_N. i

l I J

i t i i

_FLUE Otm_ET _

COJJPLING _" "" .... _" MIN. !

_AIR INLET

m

TOP VIEW SlOE VIEW

IH£ HORIZONTAL OI_TANCE IIETVCEEN THE INTAKE PIPE AND EXHAUST PIpE CAN 8E

INCRFJtSEO IF N_RY _ THE TERIdl NA'_ON MUST RI_dAIN IN THE

PRESSURE ZONE.

;,

i i

i

i J

MUST HAVE A 114' SLOPE

"_'JWAAO I_E FURNACE _R

VEto"

Condensate Disposal Drain:

This furnace must use the condensate trap supplied with the

unit (See Figure 2.9) or altemate condensate drain/trap

arrangement (See Figure 3.9) for proper drain installation. The

ahemate arrangement should be used for uptTow installations when

the vent and condensate drain must be on opposite sides of the

furnace or for horizootal installation when space below the unit to

put the drain trap is at a minimum (order alternate condensate

drain/trap kit #20280001). The drain must terminate at a floor

drain, sewer system, or drain vent for proper condensate removal.

Drain installation must conform to local building codes.

NOTE: The condensate trap (supplied) must be connected to the

PVC tee provided on the unit. Failure to place the trap,

as per these instructions, may cause erratic unit operation

and nuisance furnace shutdown.

In addition the trap must be filled with water on the initial

start-up of the unit. installation location may require that the trap

be filled at the beginning of each heating season.

In addition, if this unit is placed in an unconditioned space

such,as an attic or crawlspace where the temperature could be at

freezing or below; a thermostatically controlled beat tape must

be installed along the entire length of condensate drain in the

unconditioned space.

WARNING

Failure to install a heat tape on condensate drain

lines in unconditioned spaces could lead to

nuisance furnace shut-down, water damage,

and/or a hazardous condition which may lead to

bodily harm, or loss of life.

Figure 2.9 STANDARD CONDENSATE TRAP

Figure 3.9 OPTIONAL CONDENSATE TRAP

FROM INDUCER A//D

VENT PIPE DRAIHS

TO APPROVED

SEWER SYSTEM

_FROM FURNACE

DRAIN

20246506 Issue 9939 Page 9 of 22

Flue Pipe Installation:

NOTE: Make sure of alignment and fit, before gluing pieces

in place!

To Install With Right Flue Exit:

1. Remove the large diameter knockout in the right-side panel of

the furnace wrapper.

2. Using 2" diameter PVC (ABS or CPVC) pipe, install a short

piece of pipe in the outlet of the vent coupling (Figure 1.10).

The pipe should be long enough to leave approximately one

inch (1") protruding out of the right side of the furnace. The

2" tee supplied in the vent/drain kit is then attached to this

pipe as shown in Figure 2.9.

3. On the models 50 and 75U3, the 2" diameter vent pipe fittings

will connect directly to the top of the tee installed in step 2.

On the models 75U2 and 75U3A the 2" to 2-1/2" adapter

(supplied) and on Models 100 and 125, the 2" to 3" adapter

(supplied) will connect to the top of the tee. The 2 1/2"

(models 75U2 and 75U3A) or the 3" (models 1(30and 125)

vent pipe will connect to the adapter. Mounted adapters must

allow condensate to flow to drain tee.

4. After proving alignment of parts and fit, glue all the joints.

To Install With Left Flue Exit:

I. Remove the large diameter knockout in the left-side panel of

the furnace wrapper that is closest to the front of the unit.

Relocate pressure switch assembly as required (Figure 1.1(3).

2. Remove vent coupling from PVC inducer starter. Connect a

2" diameter PVC (or ABS) street elbow directly onto PVC

inducer starter. If size permits substitution of a short piece of

2" diameter PVC (or ABS) pipe and standard elbow may be

substituted for the street elbow. Install this first elbow

pointing up and toward the front of the unit (Figure 1.10).

The vent coupling must then be relocated to the optional

location as shown in Figure 1.10.

3. Insert a 3 W' long piece of pipe into the vent coupling, and

connect to a second elbow. The second elbow should face

toward the left side of the unit.

4. Cut a piece of 2" pipe that is long enough to insert through the

knockout (from step 1) and be inserted into the second elbow

in step 3, leave approximately one inch (1") protruding out of

the left side of the fairnace. This piece of pipe will pass over

the top of the combustion air blower motor, and in front of the

combustion air blower housing. The 2" tee supplied in the

vent/drain kit is then attached to this pipe as shown in Figure

2.9.

5. On the models 50 and 75U3, the 2" diameter vent pipe fittings

will connect directly to the top of the tee installed in step 4.

On the models 75U2 and 75U3A the 2" to 2-1/2" adapter

(supplied) and on Models 100 and 125, the 2" to 3" adapter

(supplied with the unit) will connect to the top of the tee. The

2 1/2" (models 75U2 and 75U3A) or the 3" (models 100 and

125) vent pipe will connect to the adapter.

6. Provide slope toward 2" tee for drainage (Figure 1.10).

7. After proving alignment of parts and fit, glue all the joints.

Figure 1.10 VENT ROUTING

NO'g'E

SLOp£ TO

DP_IN.

Vent

_LOC_'E

PKESS_£

/-SNITCK

TO FIE_E.

Optional

Vent

Cou#Ing

To "Convert" from Upflow to Horizontal (Left) Airflow:

,This furnace is shipped for installation in the upflow

configuration, but may be installed in a horizontal right-to-left

airflow direction. The only change needed to "convert" to the

horizontal position is to remove the plastic cap on the auxiliary

drain connection in the combustion air blower. Attach tubing to

both drain connections and tee together. (See Figure 2.10) The

tubing must always slope downward and make sure the tubing does

not sag.

Figure 2.10 HORIZONTAL LEFT CONDENSATE TUBING

cAP

T0o /

_TUBE

NOTE: A material list and more detailed instructions are included

in the vent/drain package located in the vestibule of this

furnace.

Filters:

Air filters must be used in every installation. For side return

installations, air filters must be installed external to the furnace

casing. An external filter rack kit with filter (parts No. 20069901

for 50,000 - 100,000 sizes and 20069902 for 125,000 size) is

available as an optional accessory.

20246506 Issue 9939 Page 10 of 22

For bottom (end) return installations, the above optional

external rack may be used, it" the unit was not provided with an

internal filter. Minimum filter size and suggested filter materials

are shown in Table 1.11: (If differant type filter is used, it must be

an equivalent high airflow capacity).

Table 1.11 FILTER SIZE SELECTION

B'IU FILTER SIZE END _g_

INPUT SIDE-RETURN RETURN

5"0.000 15 V1 X25 12X25

75.oooI

100.0(30 i 15 IA X 2.5 IS Vl X 25 t_arm din' na,ta t.=.

125.0001 15V2 X2.5 19X25

Here's How Your Heating System Works:

The furnace operates automatically. A thermostat that you set

at the temperature most comfortable to you controls it. When the

inside temperature drops below this setting, your thermostat will

turn on the heating system.

When the thermostat calls for heat, power from the

a'ansformer energizes the fan control board. The fan control

energizes the induced draft blower motor. The pressure switches

will close and inidate the ignition sequence. The SmartValve" will

energize the pilot gas valve. The SmartValve" will light the pilot

automatically. If the pilot flame is sensed, the main valve will

open and the pilot flame will light the burners.

The electronic fan control will automatically turn on the

blower after 30 seconds. Fan ON control is not adjustable. The air

moved over the heating element by the blower is warmed and

passes through the ducts to the room registers.

When the thermostat is satisfied, the circuit is de-energized

and the main gas valve stops gas flow to the burners. The blower

continues to run until the selectable fan OFF time period has

expired. (See Figure 2.14 for setting the desired fan OFF time.)

The heat-sensing switch performs as the high temperature

limit switch. If the furnace overheats for any reason, the limit

switch opens, breaking the circuit to the main gas valve. If the

limit is activated, check for a restriction in the duct system (i.e.,

dirty filters, blocked duct'work, closed registers, etc.). The blower

motor and inducer motor will be energized as the unit cools. As

soon as the limit switch closes the burners will relight, but unless

the overheating condition is corrected, the furnace will cycle on

limit. If the furnace is cycling on the limit switch corrective action

must be taken. Failure to correct this condition could possibly

damage the heat exchangers and may not be covered by the

walTanty.

WARNING

Should overheating occur, or the gas supply fail

to shut OFF, turn off the manual gas valve to the

appliance BEFORE turning off the electiical

supply. A failure to adhere to this warning can

result in a fire or explosion and bodily harm.

This furnace is equipped with a Honeywell SV9501 "Hob

Surface Pilot" ignition control. If the unit does not light due to a

gas interruption, the system will continue attempting to light until

the gas is restored and the unit lights or the system is turned

"OFF". The sequence of lighting is as follow:.

30 sec. Trial for ignition - igniter & pilot valve energizes

25 see. Lockout - igniter & pilot valve de-energized

30 sec. Trial for ignition - igniter & pilot valve energized

5 min. Lockout - igniter & pilot valve de-energized

As long as the thermostat is calling for heat this cycle will

repeat indefinitely until the pilot lights.

STARTUP AND OPERATIONAL CHECKOUT

WARNING

Do not use this furnace as a construction heater:

Use of this furnace as a construction heater

exposes the furnace to abnorma! conditions,

contaminated combustion air and the lack of air

f'tlters. Failure to follow this warning can lead to

premature furnace failure and/or vent failure

which could result in a fire hazard and/or bodily

harm.

The automatic gas valve controls the flow of gas to both the

pilot and main burners. The ignition system control switch built

into the automatic valve body has 2 positions: "OFF" and "ON"

(Figure 1.12). To shut off gas manually: Slide switch from "ON"

to "OFF" position. When in "OFF" position, the main bun_rs and

the pilot are extinguished.

This furnace is equipped with an automatic hot-surface pilot

ignition control and does not require the manual lighting of a pilot

for furnace operation.

20246506 Issue 9939 Page 11 of 22

8. Recheck for leaks in the manual shut off valve, gas control

valve and gas connections using a soap solution.

Figure I.I 2 GAS CONTROL DIAGRAM

PRESSURE R£QULATOR

ADJUSTMENT (UNDER

INLET

PRESSURE

INLET

_ IGNITER

CONNECTOR

PRESSURE

TAP

OUTLET

WARNING

Never use an open flame when testing for gas

leaks! Use of an open flame could lead to a fire or

explosion.

OUTLET

ADJUSTMENT

IGNITION SYSTEM (UNDER

CONTROL SWITCH CONNECTOR - CAP SCREW}

WARNING

Do not attempt to manually light the pilot.

Failure to follow this warning can lead to

electrical shock that could result in bodily harm

After the ductwork connections have been made, gas piping

and electrical wiring completed and the furnace has been properly

vented, the unit should be started and adjusted for proper

operation. Check off the following steps as they are completed:

1. Be sure all electrical power is OFF.

2. Cheek all wiring using proper wiring diagram on inside of the

control box cover.

3. Turn on the electrical power.

4. Set the ignition system control switch in the "ON" position.

5. Set the thermostat above room temperature.

6. The hot-surface igniter will heat-up to an "orange" glow, and

ignite the pilot. If the flame sensor detects a proper pilot

flame, the main burners will ignite. If the main burners do not

ignite, follow step 7. Otherwise, go to step 8.

7. Adjust the pilot flame to envelop the flame sensor for a

distance of 3/8" m 1/2" (See Figure 2.12). The adjusting

screw for the pilot flame is located on the main gas control

(See Figure 1.12). It will be necessary to remove the burner

access panel to properly observe the pilot. See Instructions on

Page 16 for removal/replacement information.

Figure 2.12 PILOT BURNER ADJUSTMENT

:1./8"

MAIN BURNER FLAME

3JS" to _/2"

PILOT ADJUSTMENT

CAUTION

Many soaps used for leak testing are corrosive to

certain metals. Piping must be rinsed thoroughly

with clean water after leak check has been

completed. ,:.

9. Check the unit's input rate. When checking rate, make sure all

other gas appliances are shut OFF except for pilot burners.

Use the following formula to determine the furnace's input rate:

_eating Value Gas (BTU/CU. ft°}_

Input I x 7200 sec/2hr. --time in seconds I

_for 2 cu. ft. of gas. __

Example: If the heating value of the natural gas is 1015 Btu/cu.

and it takes 75 seconds to burn 2 cu. ft. of gas then:

Input = 1015 Btu/cu. ft. X 7200 sec/2 hr.

75 sec/2 cu. ft.

Input 197,440 Btu/hr.

¸WARNING ;?_ _

ff it is necessary to adjust the manifold p_

more than !-0.3"w.c., then the orifice mu_t_

changed. Failure to follow this warning e0fild

lead to a hazardous furnace operating condition

and result in serious bodily injury or loss of life.

WARNING

Never set the furnace input rate above that shown

on the rating plate. Failure to follow this warning

could lead to premature heat exchanger failure and

a hazardous furnace operating condition and result

in serious bodily injury or loss of life.

20246506 Issue 9939 Page 12 of 22

Manifold Pressure Adjustment:

Turn OFF the gas and electrical before preceding!

Remove the manifold pressure tap pipe plug from the gas valve

and install a pressure tap and connect it to a manometer. Turn on

the gas and electrical supplies, then measure the manifold pressure

with the furnace in operation.

Remove the cap to access the screw for input adjustment

(Figure 1.12 Pressure Regulator). Turn regulator-adjusting

screw IN to increase pressure, OUT to decrease pressure. The

input rate must be maintained within +_ 2% of the value on the

rating plate.

For Natural gas, best results are obtained with a manifold

pressure of 3.2" to 3.5" water column. For units that have been

convened to LP (Propane) gases, a manifold pressure of 10" water

column is necessary. After proper adjustment, turn OFF gas,

replace pipe plug and tum ON gas.

Burner Orificing:

The furnace is supplied with standard orifices for the gas

shown on the rating plate. Table 1.13 shows combinations of

heating values and specific gravities for various gases, from which

proper input can be obtained.

I. Remove the manifold from the furnace, following the

insWuctions found on page 15.

2. Orifices may now be removed/replaced.

Table 1.13 BURNER ORIFICE SELECTION

Type of Gas @ Manifold Press. Orifice

(Heating Value - Specific Gravity) Size

Btu per Cu. Ft. (Drill #)

Natural Manifold Press.- 3.5"w.c.

800 - 0.6 40

900 - 0.6 41

1000 - 0.6 42

1100 - 0.6 43

Propane MnnifoldPress.- 10"w.c.

2500 - 1.53 54

After securing the manifold assembly, replace all other

components and/or wiring, being sure that all connections and

screws are tightened properly.

Altitude Derating _'U.S. ONLY):

The following information is provided as guidelines for

altitude derating and is not meant to supersede any state or local

codes. Local codes would have priority over any others and in

some case might limit your options in dealing with an altitude

derate situation.

The second guideline is to check with your local gas company

to find out if the gas supply in your area is derated. Gas deration

negates the necessity of performing any adjustment on the furnace.

If your gas supply is not derated, and regardless of the type of

gas used, installation of this furnace at an elevation above 2,000 ft.

requires an input reduction at the rate of four percent (4%) for each

1,000 ft. above sea level.

Unless an orifice change is specified by an applicable code, or

the furnace is to be installed above 6,000 feet the recommended

method of altitude derating this furnace is to appropriately lower

your manifold pressure. The appropriate manifold pressures based

on the elevation and the heating value can be found in Table 2.13.

Table 2.13 HIGH ALTITUDE MANIFOLD

PRESSURE DERATE

Altitude

(Fe_:t)

o

lOO0

2000

3000

40o0

50o0

6000

* Heating-Value based on

60F temperature.

*Heating Value of Natural Gas

(BTU/Fr3)

900 950

4.32 3.88

4.32 3.88

3.67 3.29

3.38 3.04

3.11 2.79

2.88 2.58

2.64 2.37

atmospheric pressure of 30 iabg and

L.P.

Propane

1000 1050 1100 2500

3.50 3.16 2.84 10

3.50 3.16 2.84 10

2.97 2.68 2.41 8.46

2.74 2.47 2.22 7.74

2.52 2.27 2.04 7.05

2.33 2.10 1.89 6.4

2.14 1.93 1.73 5.77

If local codes require an orifices change or if the furnace

installation is above 6,000 feet, field drilling of "blank" orifices

will be required (Ref Ducane P/N 2006608 for "blank" orifices).

The appropriate orifice size based on the elevation and the heating

value can be found in Table 3.13. Sizing of the orifice must be

based on the previously mentioned 4% derate for each 1,000 feet

for installations at/or above 2,000 feet rule and the orifices must be

chilled in such a way as to assure concentricity. Hand drilling of

orifices is totally unacceptable.

Table 3.13

Altitude

(Feet)

HIGH ALTITUDE ORIFICE SIZE DERATE

2000

30O0

4000

5000

6000

7000

8000

9000

10003

*Heating-Value based on

60F temperature.

*Heating Value of Natural Gas

03TU/Fr3)

900 950 1000 1050 1100

N.C. N.C. 43 43 44

N.C. N.C. 43 44 44

43 43 44 44 45

43 44 44 45

44 44 45 46

44 45 46 47

45 46 47 48

46 47 48 48

47 48 49 49

atmospheric pressure

LP.

Propane

2500

N.C.

N.C.

55

46 55

47 55

48 56

48 56

49 56

50 57

of 30 inhg and

20246506 Issue 9939 Page 13 of 22

CAUTION

At elevations above 4,000 feet a change to the P1

(blocked vent) pressure switch may be required. If

a pressure switch change is necessary use the

proper Ducane pressure switch kit shown in Table

1.14.

?able 1.14 HIGH ALTIqT.IDE PRESSURE SW1TCH KITS

Model Kit Number

50

75U2

75U3A 20274501

75U3

I00

125 20274503

Altitude Installation (Canada ONLY):

Check with your local gas company and check for local code

requirements on altitude dernfing. For installation of this furnace

at an elevation above 2.000 ft (610m) see the rating label on the

front of this furnace for proper input and orifices size.

Limit Control Check:

After the furnace has been in operation for at least 15 minutes,

restrict the return air supply by blocking the filters or closing the

return registers and allow the furnace to shut down on high limit.

The main burners will shut OFF and the main blower and

combustion blower should continue to run. Remove the restriction

and the burners should come back on in a few minutes.

Flame Rollout Switch:

This unit is equipped with a manual reset fiame-rollout switch

that protects against improper venting of the flue gases from the

heat exchanger due to blockage within the furnace or vent system.

If such a blockage causes heat (or flames) to "rollout" into the

burner box from the heat exchangers, this safety device will

activate and shut off power to the automatic gas valve before there

is damage to the furnace. The loss of power to the gas valve will

shut off the gas burners. Should this occur, it will be necessary to

determine the cause of the rollout, correct the condition that caused

it, and reset the flame-rollout switch.

WARNING

Hand drilling of orifices is never acceptable since

it could lead to delayed ignition, overfLring,

improper combustion, flashback and, flame

roUout. All these conditions could leadto a fire

hazard and bodily harm, or loss of life.

Fan Adiustment Check:

This furnace is equipped with a 3 speed direct drive motor to

deliver a temperature rise within the range specified on the rating

label, between the return and supply plenums, at the external duct

static pressure noted on the rating label.

Adjust the fan speed so that the temperature rise is within the

rise specified on the rating plate. Consult the wiring diagram for

speed changes on the direct drive motor.

To adjust fan OFF time, set the DIP switches on the control

board as shown to obtain the desired timing (See Figure 2.14).

Figure 2.14 FAN OFF TIME ADJUSTMENT

00socDELA,oF?0 ,Psw, oT . ,Nd 0

The switch located on the bottom of the burner box enclosure,

is accessed by removing the louvered front door from the furnace,

and is reset by pushing in the button in the middle of the switch

(between the two wire connections - see Figure 3.14). Very little

force is required to push the reset button, and a "click" should be

heard when the switch resets.

Figure 3.14 FLAME ROLLOUT SWITCH

I_L.LOOT

/

OOO

z i"_7"i i

o o

_SET

20246506 Issue 9939 Page 14 of 22

Blocked Vent ShutoffPressure Switch Check:

To check the operation of the vent safety switch (PI), remove

the inlet pipe from the air inlet connector and remove the exhaust

vent from the induced draft motor vent coupling. Place the furnace

into operation. Gradually cover up the air inlet; the main burners

should shut OFF. Remove the restriction and the unit should

relight. Repeat the procedure, restricting the vent coupling outlet.

Replace the vent piping and reseal the opened joints as required.

Blocked Drain Safety Pressure Switch Check:

The blocked drain safety switch (P2) has only one tube

connected to it. To check the operation of the blocked drain safety

switch, place the unit into operation and gradually pinch the tube

closed. The unit should shut OFF. Release the restriction on the

tubing and the unit should retight.

The operational checkout is now complete. Be sure to adjust

the thermostat to the desired setting and inform the homeowner

how to operate the furnace system before leaving the job site.

SERVICING THE FURNACE

CAUTION

Label all wires prior to disconnection when

servicing controls, Wiring errors can cause

improper and dangerous operation.

VER!FY PROPER OPERATION AFTER

SERVICING.

WARNING

The ability to properly perform maintenance on

this equipment requires certain mechanical skills

and tools. If you are at all uncertain, contact your

dealer for qualified m_ntenance and service

since improper service Could lead to furnace

shutdown or a hazardOUs condition which could

lead to an unsafe condition and bodily harm.

7. Reattach all wiring and piping as per the wiring diagram

and installation insmactions.

8. Turn on utilities and check for leaks using soapy water and

a brush.

9. A visual check of the main burner and pilot flame should be

made at the beginning of each heating season. See Figure

2.12 for proper pilot flame.

10. Check the input rate and adjust if necessary.

11. Perform a safety check of the limit control and blocked vent

shutoff switches and the blocked drain shut off switch.

12. Check the air filter, clean and/or replace as necessary.

13. Periodic cleaning of condensing coil and drain lines maybe

necessary for proper operation.

14. Replace the appropriate access panel or door.

Ne_er use an 6pen flame _hen _fing for g_

ie_i Userf _opea fl_e _oU!d [eadt6

:or explosi0n! :: :::

certain metalS. Pipinl_

with :clean water after leak

Combustion Component Check:

The heat exchanger, gas burners and venting system must

be checked each year, prior to the heating season, by a qualified

dealer/serviceman.

The following procedures should be performed:

1. Remove appropriate access panel or door (see Figure 1.16).

2. Remove the burner/manifold assembly from the furnace,

following the instructions found on this page.

3. Place the burner/manifold assembly on a flat work area and

vacuum the burners. It might be necessary to use a soft

bristly brush to remove dirt and then vacuum. While

manifold assembly is out, check pilot location.

4. Remove the burner opening inlet plate and the flue collector

box. This will expose both the burner and flue openings of

the primary heat exchangers.

5. Vacuum the length of each heat exchanger tube using a

straight attachment into the burner openings and the flue

openings.

6. Replace the flue collector box, burner opening inlet plate,

and burner/manifold assembly. Insure that all gaskets are

properly positioned and that no leaks exist.

Manifold (or Burner/Manifold) Removal/Replacement:

1. Make sure that all utilities (gas and electricity) are turned

off upstream of the furnace.

2. Remove the louvered access panel by sliding the panel

straight up, swinging the bottom of the panel away from the

furnace, and pulling the panel down and out of the furnace.

3. Disconnect the gas line from the gas valve. Be sure that a

wiring diagram is available, or be ready to mark any wires

that are disconnected. Unplug the four wire connector from

the gas valve.

20246506 Issue 9939 Page 15 of 22

Figure1.16 FURNACEPANELREMOVAL

m

4. Remove the burner access panel by removing the seven (7)

No. 10 sheet metal screws that secure the panel to the

cabinet. Be careful not to damage the rubber seal strips that

are attached to the cabinet (behind the access panel).

5. Remove the No. 10 sheet metal screws that secure the

manifold seal plate and gasket to the bottom of the burner

box. The plate and gasket are assembled onto the manifold

pipe and will not come completely loose, but will slide

down the manifold pipe in order to provide clearance for

manifold removal.

6. Remove manifold or boruerimanifold assembly.

Manifold ONLY

a. Remove the two screws that mount the pilot assembly

to the burner bracket.

b. Remove the No. 10 screws that secure the manifold

pipe to both legs of the manifold assembly. The

manifold pipe must be supported during this step,

or it could fall and damage the furnace or cause

bodily injury!

e. Slide the manifold pipe (with valve and orifice)

forward, out of the furnace, being careful not to

damage the pilot assembly.

Burner/Manifold Assembly

a. Remove the No. 10 screws that secure the

burner/manifold assembly legs to the furnace. The

manifold pipe must be supported during this step,

or it could fall and damage the furnace or cause

bodily injury!

b. Slide the burner/manifold assembly forward, out of the

furnace, until the assembly is clear of the manifold

retention pins.

c. Rotate the assembly slightly, in order for the legs to

clear the sides of the cabinet, and remove through the

front of the furnace.

7. To reinstall the manifold pipe or burner/manifold assembly,

reverse the above steps. When replacing the manifold seal

plate to the bottom of the burner box, be sure the gasket is

not tom so a proper seal is achieved. Also insure that the

sealing strips for the burner access door are in position and

undamaged, in order to prevent air leaks around the door.

Blower Removal/Replacement:

I. Turn OFF all electrical power to the furnace.

2. Remove the control box access panel and blower door.

3. Unplug the six-pin plug from the blower control board and

the six pin plug from the blower motor to the control box.

4. Remove the four screws securing the control box in the unit

(two in the cabinet at the sides of the blower door opening

and two at the top rear of the control box). Be sure to

support the control box so that it does not fail!

5. Rotate the control box out of the cabinet and support it so

that no strain is placed on any wiring. It may be necessary

to disconnect the electrical supply and thermostat wiring

from the control board.

6. Remove the blower retaining screws from the front of each

blower leg (See Figure 2.16). These are the two black

screws located in the blower compartment that secure the

blower legs to the blower partition panel.

7. Slide the blower forward about two inches. This wil!

disengage the rear of the blower legs from the blower

partition. Rotate the front of the blower down to clear the

control box moundng tabs on the underside of the blower

partition, and continue sliding the blower forward until it is

out of the unit. Take care to clear the control box mounting

tabs. If necessary, disconnect the auxifiary limit leads on

the side of the blower housing.

R_.e_placement

1. Place the blower in the Mower door opening of the unit and

reconnect the auxiliary limit leads.

2. Slide the blower back, into the uniL taking care to clear the

control box mounting tabs.

3. When the blower is about halfway into the cabinet, rotate

the rear of the blower UP so that the rear of the Mower legs

engage the side rails in the blower partition.

4. Continue sliding the blower into the unit until the front of

the blower housing is behind the control box mounting tabs.

Rotate the front of the blower UP until the legs lie fiat

against the bottom of the blower partition, then slide blower

fully into position. The rear of the blower should be against

the stop in the partition and the rear of the blower legs

should be under the partition.

5. Reattach the two blower securing screws, the control box,

any disconnected wiring, the two six pin plugs, the blower

door, and the control box access panel.

Lubricating Motors:

Direct drive motor and blower assemblies are factory

lubricated and normally do not require oiling. If oiling is

required lubrication of the blower motor is to be preformed only

by a qualifiedscrvice agency. If the blower motor on this

furnace is to be replaced it must only be replaced with one of the

motors as listed in Table 1.17.

Figure 2.16 BLOWER REMOVAL AND REPLACEMENT

_RET_NI_

20246506 Issue 9939 Page 16 of 22

FURNACE BLOWER SPECIFICATIONS AND AIR FLOW DATA (CFM)

Table 1.17

BLOWER

SYSTEM

BLOWER EXTERNAL STATIC

SPEED (INWC)

0.1 I 0.2 I 0.3 I 0.4 I 0.5 I 0.6 I 0.7 [ 0.8 t 0.9 I1.0

CMPA050U2

(10 X 6 WHEEL) LOW 720 680 650 590 540 480 440 360 270 170

(1/4 HP MOTOR) IVIED 920 880 830 780 720 650 580 460 380 304)

Mtr PIN 20278901 HIGH 1100 1060 1010 960 900 790 680 570 470 350

CMPA050U3

(10 X 6 WHEEL) LOW 1080 1060 1030 1000 965 905 840 765 655 525

(1/3 lip MOTOR) IVIED 1330 1280 1225 1175 1110 1040 965 875 770 630

Mtr PtN 20054901 HIGH 14_) 1420 1360 1285 1205 1125 1070 985 880 750

CMPA075U2

(10 X 6 WHEEL) LOW 780 770 760 750 730 700 685 620 520 390

(1/4 lIP MOTOR) IVIED 950 940 930 920 900 825 775 695 605 480

Mtr P/N 20279001 HIGH 1255 1225 1195 1155 1110 1040 960 865 760 620

CM]PA07SU3

(10 X 6 WHEEL) LOW 1080 1060 1030 10G0 965 905 840 765 655 525

(1/3 FIP MOTOR) MED 1330 1280 1225 1175 1110 1040 965 875 770 630

Mtr PIN 20054901 HIGH 1490 1420 1360 1285 1205 I 125 1070 985 880 750

CMPA100U3

(10 X 9 WHEEL) LOW 1270 1235 1190 1140 1080 1050 950 850 675 395

(1/3 HP MOTOR) IVIED 1510 1465 1410 1350 1260 1210 1115 990 810 550

Mtr PIN 20279901 HIGH 1685 1655 1615 1540 1450 1330 1235 1130 960 720

CM]PA100U4

(12 X 9 WHEEL) LOW 1420 1400 1360 1335 1290 1245 1190 1120 1060 995

(1/2 HP MOTOR) IVIED 1715 1690 1665 1610 1550 1480 1400 1320 1245 1145

Mtr PIN 20062501 HIGH 2055 2020 1945 1865 1795 1710 1640 1535 1410 1340

CMPAI25U5

(12 X 12 WHEEL) LOW 1425 1400 1375 1345 1320 1290 1245 1185 1120 1035

(3/4 HP MOTOR) IVIED 1980 1940 1895 1835 1785 1720 1645 1575 !475 1385

Mtr PIN 20055001 HIGH 2395 2340 2275 2210 2115 2025 1925 1825 1720 1610

NOTES: 1. Airflow values in cubic feet per minute (CFM) rounded to nearest five (5) CFM.

2. Data taken without filters in place.

WARNING

When operating the furnace in the heating mode, the Static pressure and the temperature rise (supply air

temperature minus return air temperature) must be within those limits specified on the rating label. Failure to

follow this warning could lead to severe furnace damage.

WARNING

Turn OFF all gas and electrical power to furnace before performing any maintenance or service on unit

(unless specific test requires gas and electrical supplies). Failure to take this precaution may result in

personal injury due to electrical shock or uncontrolled gas leakage.

20246506 Issue 9939 Page 17 of 22

"TROUBLE SHOOTING" GUIDE FOR GAS-FIRED FURNACES

WITH SmartValve TM AND HSI PILOT

Table 1.18

TROUBLE ANALYSIS CHART

SYMPTOM

Pilot will not light.

Burners will not ignite.

inadequate heating.

_ddehyde odors, (CO),

_oofing

flame, floating flame.

PROBABLE CAUSE

No pilot flame

Problem with SV9501 control/valve.

No 115 volt power to fumace.

No 24 volt power to control circuit.

Miswired or loose connections.

No gas at main burners.

Flame rollout, blocked vent shutoff, or

blocked drain safety switches open

(activated).

Problem with SV9501 control/valve.

Furnace undersized for application.

_qasinput to furnace too low.

Limit switch cycles main burners.

Furnace cycles too often.

[ncomplete combustion - poor flame

haracteristics.

ACTION

Check to see if main valve is turned "ON''.

Check pilot H,S.I for breakage.

Check pilot orifice for blockage.

See Figure 1.19 (SmartValve ru Trouble Shooting Guide).

Connect to power supply. Check fuse, wiring, or circuit breaker.

Check transformer - replace.

Check fuse on fan timer board - replace.

Check all wiring and wiring connections.

Check to see if main valve is opening or turned "ON".

Look for loose or broken wiring connections. If no deficiency is

found, replace valve assembly.

Check heat exchanger, venting system and condensate removal

tubing for blockage.

See Figure 1.19 (SmartValve ra Trouble Shooting Guide).

Replace with proper size furnace.

Check gas pressure at manifold. Clock gas meter for input. If too

low, increase manifold pressure, or replace with correct orifices.

Dirty air filters - clean and reinstall.

Blower speed too low - use faster speed tap.

Registers closed, restricted ductwork - open or remove restriction.

Check heat anticipator setting on thermostat - readjust.

Check all screws around flue outlets and burner compartment-

tighten.

LACK OF COMBUSTION AIR - see instructions.

Cracked heat exchanger - replace.

Overtired furnace - reduce input or change orifices.

Check vent for restriction - clean as required.

20246506 Issue 9939 Page 18 of 22

©

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Z

SmlmValw TM SYSTEM TROUBLESIIOO1]tIG SEOUENCE

NOTE: B_ TROUBLESHOOTING, BECOME F_

START WITH 1HE STAITI'Up AND CHECKOUT PROCEDURF.

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0

GENERAL LAYOUT

Table 1.20

MODEL

CMPA050U2

CMPA050U3

CMPA075U2

CMPA075U3

CMPA075U3A

CMPA100U3

CMPAI00U4

CMPAI25U5

Figure 2.20

UNIT DIbEENSIONS

LENGTH WIDTH HEIGHT

A B C

29 I/2 13 1/2 47 3/8

29 I/2 13 I/2 47 3/8

29 I/2 13 I/2 47 3/8

29 1/2 13 I/2 47 3/8

29 1/2 13 1/2 47 3/8

29 1/2 17 47 3/8

29 1/2 17 47 3/8

29 1/2 20 1/2 47 3/8

DUCT SUPPLY

OPENING

D E

11 I/2 18 15/16

11 I/2 18 15/16

I1 I/2 18 15/16

11 1/2 18 15/16

11 I/2 18 15/16

15 18 15/16

15 18 15/16

18 1/2 18 15/16

DUCT RETURN

OPENING

AIR INLET

&VENT

PIPEDIA.

MAX. OVER MAX. ELECTRICAL NET

CURRE_rl " UNIT SUPPLY MIN. WEIGHT

PROTECTION AMPS WIRE LBS

SIZE (AWG)

F G

12 21 5/8

12 21 5/8

12 21 5/8

12 21 5/8

12 21 5/8

15 I/2 21 5/8

15 I/2 21 3/8

19 21 5/8

H

2

2

2 1/2

2

2 1/2

3

3

3

15 5.7 14 131

15 9.2 14 131

15 6.5 14 140

15 9.2 14 140

15 9.2 14 140

15 8.4 14 167

15 10.6 14 167

20 12.7 12 193

REDUCER SUPPLIED WITH FURNACE WHEN CONNECTION

SIZE IS D_FFERENT THAN PIPE DIA. REQUIRED (HI FOR AIR INLET

& FLUE VENT.

C_',BOSTZOtl _R

C_RRECTZ_ _/

Ct3h*DI_I.?_,Tg

_s

GAS

_CO)_ZCI'ZON *

m

CO_P_'BOL BOX

ACCESS PAkFEL

F.,LECrP_C_L

COtqNECT IO_IS

(Either side)

IILOW/_ IX_R

male

F--.-oo

o

©

* []

--o [

[]

?s/%6

--:l

23 I/4 _

{SIDE _T_R_g ) I_

_--ooT)

I

O..____J

JL

"1:"

20246506 Issue 9939 Page 20 of 22

GENERAL WIRING

Figure 1.21

SEE FIGURE 1.22 FOR IMPORTANT NOTES.

YL

YL

,, F[_ HEAT []I__Y(IWO WIRE) TF_-R_TAT, CONNECT TO R&W

MULTI-P01SEF-DNDENSINGGAS FURNAFFWIIH HONEYWELLsTg]20C FAN TIMER & SVg501 SM_J_TVALVE

20246506 Issue 9939 Page 21 of 22

WIRING DIAGRAMS

Figure 1.22

L_Be 8( &_

@ _

--tl_E ¥ F

-'"'"2V22-'_:_ vl VI&e'T

L --- L_[T

_S -- I_LLILffSvIt04,

CI_G'TA,VF

_A+V

Z_AO A_

F_,!

F--_............. T--- --_'r_--_

, I

-_ ,s_ _ _ /i_/ / / L _T'S_ _

rE i ':

,, I i ! -, - _ _

NOTES:

(I) MAKE FIELD POWER SUPPLY CONNECTIONS TO BLACK AND WHITE WIRES

CAPPEO WITH ORANGE WIRE NUTS.

(2) WARNING---UNIT MUST BE GROUNDED. WIRING MUST CONFORM TO N.E,C. AND

LOCAL EOOES.

(3) IF ANY OF THE ORIGINAL WIRE, AS SUPPLIED WITH THE FURNACE, MUST BE

REPLACEO, IT MUST 8E REPLACED WITH WIRING MATERIAL HAVING A

TEMPERATURE RATING OF AT LEAST 105 C AND BE A MINIMUM OF 15 GA.

AWG COPPER STRAND WIRE,

(4) CONNECT REOUIREO MOTOR LEAD TO HEAT TERMINAL ON CIRCUIT BOARD TO

OELIVER A TEMPERATURE RISE WITHIN THE RANGE SPECIFIEO ON THE

RATING LABEL, CONNECT UNUSEO LEADS TO THE UNUSEO MOTOR LEADS.

(5) SET THE HEAT ANTICIPATOR ON THE THERMOSTAT AT .30 AMPS,

(6) L0W VOLT. FUSE 5AMP AUTOMOTIVE TYPE LITTLEFUSE 257005 OR BUSS ATE5.

20246506 Issue 9939 Page 22 of 22

Where Is Pilot Light on a Ducane Furnace

Source: https://usermanual.wiki/DUCANE/L0212120.156986362/html

0 Response to "Where Is Pilot Light on a Ducane Furnace"

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