Bryant 120 instruction manual Furnace Vent Orienta, Orientation Tion PUTBTUH/HR Diameter Height FT

Page 33

Caution!! For the following applications, use the minimum vertical heights as specified below.

For all other applications, follow exclusively the National Fuel Gas Code

 

 

 

 

 

FURNACE

VENT ORIENTA-

FURNACE IN-

MINIMUM VENT

MINIMUM VERTICAL VENT

ORIENTATION

TION

PUT(BTUH/HR)

DIAMETER (IN.)*

HEIGHT (FT)**

 

Vent elbow left, then

154,000

 

 

Downflow

132,000

5

12

up Fig. 40

 

110,000(036/--- 12 only)

 

 

 

 

 

 

Horizontal Left

Vent elbow right,

154,000

5

7

then up Fig. 43

132,000

 

 

 

Horizontal Left

Vent Elbow up Fig.

154,000

5

7

44

132,000

 

 

 

Horizontal Left

Vent elbow right Fig.

154,000

5

7

45

 

 

 

 

Downflow

Vent elbow up then

110,000 (036/--- 12 only)

5

10

left Fig. 38

 

 

 

 

Downflow

Vent elbow up, then

110,000 (036/--- 12 only)

5

10

right Fig. 41

 

 

 

 

NOTE: All vent configurations must also meet National Fuel Gas Code venting requirements NFGC. *4 in. inside casing or vent guard **Including 4 in. vent section(s)

312A

A04127

Fig. 49 - Using Tin Snips to Cut Tie Points

!CAUTION

CUT HAZARD

Failure to follow this caution may result in personal injury.

Sheet metal parts may have sharp edges or burrs. Use care and wear appropriate protective clothing, safety glasses and gloves when handling parts and servicing furnaces.

NOTE: Vent connector length for connector sizing starts at furnace vent elbow. The 4 inch vent elbow is shipped for upflow configuration and may be rotated for other positions. Remove the 3 screws that secure vent elbow to furnace, rotate furnace vent elbow to position desired, re-install screws. The factory-supplied vent elbow does NOT count as part of the number of vent connector elbows.

The vent connector can exit the door through one of 5 locations on the door.

1.Attach the single wall vent connector to the furnace vent elbow, and fasten the vent connector to the vent elbow with at least two field-supplied, corrosion-resistant, sheet metal screws located 180_ apart.

NOTE: An accessory flue extension KGAFE0112UPH is available to extend from the furnace elbow to outside the furnace casing. If flue extension is used, fasten the flue extension to the vent elbow with at least two field-supplied, corrosion-resistant, sheet metal screws located 180_ apart. Fasten the vent connector

to the flue extension with at least two field-supplied, corrosion resistant sheet metal screws located 180_ apart.

2.Vent the furnace with the appropriate connector as shown in Fig. 36-48.

3.Orient the door to determine the correct location of the door knockout to be removed.

4.Remove the correct U-shaped knockout in door.

NOTE: A number of techniques can be used to remove these knockouts as seen in Fig. 49 through 53. The knockout in the bottom of the door is unique due to its flanging and is more easily removed by first cutting the two tie points at the edge of the door, using aviation-type tin snips. (See Fig. 49.) A sharp blow to the rounded end of the knockout (See Fig. 50.) will separate more tie points and allow the knockout to be pulled loose. (See Fig. 51.) Remove all burrs any sharp edges.

For the rectangular J-box knockout, use tin snips along the door edge and use a sharp blow with a hammer to remove the knockout. Remove any burrs and sharp edges.

For the knockouts in the other locations on the door (top and sides), tin snips can also be used along the door edges; however, the preferred method is to use a hammer and screwdriver to strike a sharp blow (See Fig. 52.) directly to the knockout tie points or use a hammer in the upper left corner of the desired knockout. (See Fig. 53.) Remove any burrs and sharp edges.

NOTE: If a knockout does not come out after two sharp blows, pull and snip as needed to remove the knockout. Additional blows may cause damage to the door.

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Contents Ama Safety Considerations Furnace Reliability HazardCUT Hazard Introduction DimensionsWidth Bottom Flue Cabinet SizeInstallation Codes and Standards Electrostatic Discharge ESD Precautions ProcedureLocation GeneralCarbon Monoxide Poisoning and Unit Damage Hazard Fire Hazard FIRE, Injury or Death HazardProperty Damage Hazard Location Relative to Cooling EquipmentFurnace Corrosion Hazard AIR for Combustion VentilationCarbon Monoxide Poisoning Hazard Outdoor Combustion Air MethodAir for Combustion, Ventilation and Dilution for Outdoors Upflow Installation InstallationHorizontal Installation Downflow InstallationFIRE, EXPLOSION, and Carbon Monoxide Poisoning Hazard Suspended Furnace SupportRoll-Out Protection Floor and Plenum Opening DimensionsOpening dimensions Furnace Plenum Opening Floor Opening CasingWidth Horizontal Unit Suspension AIR Ducts Filter Arrangement Carbon Monoxide Poisoning HazardGeneral Requirements Ductwork Acoustical Treatment Supply Air ConnectionsSpeed External Static Pressure IN. WC Size Inlet Air Delivery CFM With Filter2380 2285 2200 2085 1970 1835 Downflow Furnaces Air Delivery CFM With Filter*Return Air Connections GAS Piping Fire or Explosion HazardUpflow Return Air Configurations and Restrictions Furnace Damage Hazard Maximum Capacity of PipeElectrical Connections Electrical Shock and Fire Hazard WiringElectrical Shock Hazard Furnace MAY not Operate HazardElectrical Data BOX RelocationElectrical Connection to J-BOX BX. Cable Installation in Furnace J-BOX Power Cord Installation in Furnace J-BOXElectrical Box on Furnace Casing Side. See Fig Fire or Electrical Shock HazardTwo-Stage Furnace with Two-Speed Air Conditioner See notes 2, 11, and 12 on the page following these figures Venting AccessoriesMasonry Chimney Requirements General Venting RequirementsChimney Inspection Chart Vent Height Internal Area of Chimney Appliance Application RequirementsUpflow Application-Vent Elbow Up Downflow Application-Vent Elbow Up Horizontal Right Application Vent Elbow Right Orientation Tion PUTBTUH/HR Diameter Height FT Furnace Vent OrientaBurn Hazard Rounded End of KnockoutStart-Up Procedures START-UP, ADJUSTMENT, and Safety CheckGeneral Fire and Explosion HazardStage Furnace Setup Switch Description AdjustmentsU.S Altitude Derate Multiplier for U.S.ARedundant Automatic Gas Control Valve Gas Rate cu ft/hr Furnace Overheating HazardSeconds Size of Test Dial For Revolution Color Speed AS Shipped Speed SelectionCheck Safety Controls Stage Furnace Blower OFF delay Setup SwitchDesired Heating Mode Setup Switch Blower OFF Delay SEC Checklist Specific Gravity of Natural GAS Altitude RangeBTUH/CU Gravity6001 to Specific Gravity of Natural GAS Altitude Range BTUH/CU FTSpecific Gravity of Natural GAS Altitude Range Heat Value Electrical SHOCK, Fire or Explosion Hazard Service and Maintenance ProceduresFIRE, Personal Injury and Unit Damage Specific Gravity of Natural GAS Heat Value AT AltitudeElectrical Controls and Wiring Electrical Shock Hazard Care and MaintenanceIntroduction Unit Operation HazardService Wiring Diagram Filter size information Cleaning AND/OR Replacing AIR FilterBlower Motor and Wheel Electrical Shock Hazard Furnace Filter Size CasingUnit Damage Hazard Cleaning Heat ExchangerIgniter Position Top View Sequence of OperationTwo-Stage Heating Adaptive mode with Single-Stage Thermostat Single-Stage Thermostat and Two-Speed Cooling Adaptive Mode Thermidistat ModeSingle-Speed Cooling Wiring Diagrams TroubleshootingContinuous Blower Mode Troubleshooting Guide 2-Speed Blocked vent shutoff switch used in Chimney Adapter Kit Page Catalog No. II312A---45---8

120 specifications

The Bryant 120 is a remarkable system designed for residential and commercial heating and cooling needs, showcasing an impressive blend of efficiency, reliability, and advanced technology. As a part of Bryant's extensive line of HVAC solutions, the Bryant 120 stands out with its features and performance, making it an ideal choice for those seeking comfort year-round.

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Overall, the Bryant 120 encapsulates a harmonious balance of efficiency, advanced technology, durability, and quiet operation. Whether for a new installation or a replacement, the Bryant 120 presents an ideal solution to meet diverse heating and cooling requirements, enhancing comfort while prioritizing energy savings and environmental responsibility.
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