Bryant 558D Maximum Allowable Difference, IV. Field Connections, External Trap Condensate Drain

Page 6

MAXIMUM ALLOWABLE DIFFERENCE (in.)

A-B

B-C

A-C

0.5

1.0

1.0

 

 

 

Fig. 5 Ð Unit Leveling Tolerances

IV. FIELD CONNECTIONS

A. External Trap Condensate Drain

The unit's 3¤4-in. condensate drain connections are located on the bottom and side of the unit. Unit discharge connec- tions do not determine the use of drain connections; either drain connection can be used with vertical or horizontal applications.

When using the standard side drain connection, make sure the plug in the alternate bottom connection is tight before in- stalling the unit.

To use the bottom drain connection for a roof curb installa- tion, relocate the factory-installed plug from the bottom con- nection to the side connection. See Fig. 7. The piping for the condensate drain and external trap can be completed after the unit is in place.

All units must have an external trap for condensate drain- age. Install a trap at least 4-in. deep and protect against freeze- up. See Fig. 8. If drain line is installed downstream from the external trap, pitch the line away from the unit at 1 in. per 10 ft of run. Do not use a pipe size smaller than the unit connection.

B. Field Duct Connections

NOTE: The design and installation of the duct system must be in accordance with NFPA standards for the installation of nonresidence-type air conditioning and ventilating systems, NFPA No. 90A or residence-type, NFPA No. 90B, and/or local codes and ordinances.

Adhere to the following criteria when selecting, sizing and installing the duct system:

1.Remove appropriate panels from unit to obtain either horizontal or vertical discharge. If units are installed in horizontal discharge applications, remove vertical dis- charge duct covers, save screws and install covers over vertical duct openings.

2.Select and size ductwork, supply-air registers and return- air grilles according to ASHRAE (American Society of Heating, Refrigeration and Air-Conditioning Engi- neers) recommendations.

CAUTION: When drilling the duct system fastening holes into the side of the unit for duct ¯anges, be care- ful not to puncture the coil or coil tubes. See Fig. 9.

 

 

MAX

 

``A''

 

``B''

 

``C''

UNIT

WEIGHT

 

 

 

 

 

 

 

 

 

 

 

 

 

Lb

 

Kg

in.

 

mm

in.

 

mm

in.

 

mm

558D036

415

 

188

 

 

 

 

 

 

 

 

 

558D048

425

 

193

73.69

 

1872

35.00

 

889

33.35

 

847

558D060

445

 

202

 

 

 

 

 

 

 

 

 

 

 

 

 

558D072

520

 

236

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

NOTES:

1. Dimension in ( ) is in millimeters.

2.Hook rigging shackles through holes in base rail, as shown in detail ``A.'' Holes in base rails are centered around the unit center of gravity. Use wooden top skid when rigging to pre- vent rigging straps from damaging unit.

3.Weights do not include economizer. See Table 1 for econo- mizer weights.

CAUTION: All panels must be in place when rigging.

Fig. 6 Ð Rigging Details

Ð6Ð

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Contents Safety Considerations Important Ð Read Before InstallingContents InstallationSTD Unit Economizer Weight Corner Weight Weight Durablade ParabladeSlab Mount Horizontal Units Only Locate the UnitClearance II. Unit Duct ConnectionsUnit Size AccessoryRoof Curb CRRFCURB001A00Specications External Trap Condensate Drain Maximum Allowable DifferenceIV. Field Connections Field Duct ConnectionsInternal Trap Condensate Drain Low-Voltage Connections Typical Component Location Type Electrical DataSize RLA LRA FLANEC HacrMocp RLAAccessory Installation Optional Outdoor-Air Damper InstallationOptional Durablade Economizer Optional Parablade EconomizerHorizontal Durablade Economizer Installation Degree Rotation Outdoor-Air Thermostat Enthalpy Control Installation Control Control Point Approx Curve AT 50% RHSTART-UP Heating Section START-UP and Adjustments PRE-START-UPII. Cooling Section START-UP and Adjustments III. Indoor Airflow and Airflow Adjustments Fan Rpm at Motor Pulley SettingsDirect Drive Motors Motor Data Standard Direct Drive Motor AirflowESP Alternate Belt Drive Motor Airflow 1300 576 210 644 263 704 326 764 389 Cfm Rpm WattsWatts Rpm 1200 542 168 616 221 678 278 739 336 1400 610 252 673 315 732 378 791 441Standard Belt Drive Motor Airflow Ð24Ð 1400 577 221 642 284 704 347 766 410 Watts Rpm 1200 514 158 590 210 657 263 723 315 828 4411300 545 189 615 242 680 305 744 368 1500 609 273 670 326 729 394 788 4621350 1645 1424 1921 1700 729 388 787 450 895 593 Cfm Rpm Watts 1500 658 276 722 337 840 4701343 1615 1431 1829 1600 693 327 754 388 867 531 1364 1676 1432 1931 1800 765 460 821 521Belt Drive Motors Ventilation SequenceAIR Filter Care and MaintenanceService Cleaning Evaporator CoilCompressors III. CONDENSER-FAN Adjustment FigII. Lubrication Fan-Motor BearingsReplacement Parts IV. Refrigerant ChargeCooling Charging Chart 558D036 Troubleshooting Cooling TroubleshootingDurablade Economizer Troubleshooting Damper does notParablade Economizer Troubleshooting Enthalpy readingsMTR AHALSM CAPPage Page Service Training Call for Free CatalogPage III. START-UP Electrical TemperaturesPreliminary Information Pressures

558D specifications

The Bryant 558D represents a leading-edge model in the realm of advanced heating, ventilation, and air conditioning (HVAC) systems. Designed for both residential and light commercial applications, this unit brings together efficiency, performance, and reliability, making it a go-to choice for homeowners and contractors alike.

One of the standout features of the Bryant 558D is its high-efficiency rating. With SEER (Seasonal Energy Efficiency Ratio) ratings that can reach up to 18, it allows homeowners to enjoy significant savings on electricity bills while maintaining a comfortable indoor environment. The system is powered by advanced compressors that ensure optimal performance across various climate conditions, providing consistent cooling and heating as needed.

In terms of technology, the Bryant 558D incorporates a two-stage cooling system, which allows for better temperature control and humidity management. This technology enhances comfort by preventing the system from frequently starting and stopping, thus reducing wear and tear while extending the unit's lifespan. The variable-speed blower motor further contributes to this efficiency by adjusting its speed to meet the precise needs of the space, ensuring optimal air distribution and comfort.

Durability is another hallmark of the Bryant 558D. The unit is built with high-quality materials, including a galvanized steel cabinet coated with a sleek, weather-resistant finish that protects against rust and environmental wear. Its compact design makes installation seamless, allowing it to fit into various spaces without significant modifications.

The Bryant 558D also features smart technology compatibility, allowing users to integrate it with modern home automation systems. This connectivity provides homeowners with remote control capabilities, enabling them to regulate their home’s temperature via smartphone applications. This not only adds to convenience but also supports energy management strategies, as users can adjust settings based on occupancy and lifestyle patterns.

Finally, noise levels have been an important consideration in the design of the Bryant 558D. With innovative sound-dampening features, the unit operates quietly, making it an ideal choice for residential areas where noise sensitivity is paramount.

Overall, the Bryant 558D stands out as a sophisticated solution for heating and cooling needs, combining energy efficiency, advanced technology, durability, and user-friendly features. It is an excellent investment for those looking to enhance their home comfort while also being mindful of energy consumption.
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