Bryant 580J*04--12 Evaporator Coil, Refrigerant System Pressure Access Ports, Unit Damage Hazard

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!CAUTION

UNIT DAMAGE HAZARD

Failure to follow this caution may result in accelerated corrosion of unit parts.

Harsh chemicals, household bleach or acid or basic cleaners should not be used to clean outdoor or indoor coils of any kind. These cleaners can be very difficult to rinse out of the coil and can accelerate corrosion at the fin/tube interface where dissimilar materials are in contact. If there is dirt below the surface of the coil, use the Totaline environmentally sound coil cleaner.

!CAUTION

UNIT DAMAGE HAZARD

Failure to follow this caution may result in reduced unit performance or unit shutdown.

High velocity water from a pressure washer, garden hose, or compressed air should never be used to clean a coil. The force of the water or air jet will bend the fin edges and increase airside pressure drop.

Totaline Environmentally Sound Coil Cleaner Application Instructions

1.Proper eye protection such as safety glasses is recom- mended during mixing and application.

2.Remove all surface loaded fibers and dirt with a vacu- um

cleaner as described above.

3.Thoroughly wet finned surfaces with clean water and a low velocity garden hose, being careful not to bend fins.

4.Mix Totaline environmentally sound coil cleaner in a 2-1/2 gallon garden sprayer according to the instruc- tions included with the cleaner. The optimum solution temperature is 100_F.

NOTE: Do NOT USE water in excess of 130_F, as the enzymatic activity will be destroyed.

5.Thoroughly apply Totaline environmentally sound coil cleaner solution to all coil surfaces including finned area, tube sheets and coil headers.

6.Hold garden sprayer nozzle close to finned areas and apply cleaner with a vertical, up-and-down motion. Avoid spraying in horizontal pattern to minimize po- tential for fin damage.

7.Ensure cleaner thoroughly penetrates deep into finned areas.

8.Interior and exterior finned areas must be thoroughly cleaned.

9.Finned surfaces should remain wet with cleaning solution for 10 minutes.

10.Ensure surfaces are not allowed to dry before rinsing. Reapplying cleaner as needed to ensure 10-minute saturation is achieved.

11.Thoroughly rinse all surfaces with low velocity clean water using downward rinsing motion of water spray nozzle. Protect fins from damage from the spray nozzle.

Evaporator Coil

Cleaning the Evaporator Coil

1.Turn unit power off. Install lockout tag. Remove evaporator coil access panel.

2.If economizer or two-position damper is installed, re- move economizer by disconnecting Molex plug and removing mounting screws.

3.Slide filters out of unit.

4.Clean coil using a commercial coil cleaner or dish- washer detergent in a pressurized spray canister. Wash both sides of coil and flush with clean water. For best results, back-flush toward return-air section to re- move foreign material. Flush condensate pan after completion.

5.Reinstall economizer and filters.

6.Reconnect wiring.

7.Replace access panels.

Evaporator Coil Metering Devices

The metering devices are multiple fixed-bore devices (Acutrolt) swedged into the horizontal outlet tubes from the liquid header, located at the entrance to each evaporator coil circuit path. These are non-adjustable. Service requires replacing the entire liquid header assembly.

To check for possible blockage of one or more of these metering devices, disconnect the supply fan contactor (IFC) coil, then start the compressor and observe the frosting pattern on the face of the evaporator coil. A frost pattern should develop uniformly across the face of the coil starting at each horizontal header tube. Failure to develop frost at an outlet tube can indicate a plugged or a missing orifice.

Refrigerant System Pressure Access Ports

There are two access ports in the system - on the suction tube near the compressor and on the discharge tube near the compressor. These are brass fittings with black plastic caps. The hose connection fittings are standard 1/4 SAE Male Flare couplings.

The brass fittings are two-piece High Flow valves, with a receptacle base brazed to the tubing and an integral spring-closed check valve core screwed into the base. (See Fig. 11.) This check valve is permanently assembled into this core body and cannot be serviced separately; replace the entire core body if necessary. Service tools are available from RCD that allow the replacement of the check valve core without having to recover the entire system refrigerant charge. Apply compressor refrigerant oil to the check valve core’s bottom o-ring. Install the fitting body with 96 +/-10 in-lbs of torque; do not overtighten.

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Contents Safety Considerations Table of ContentsGeneral Unit Arrangement and AccessRoutine Maintenance Seasonal MaintenanceReturn Air Filters HeatingEconomizer or Outside Air Damper Air Filters and ScreensElectrical Shock Hazard Adjustable-Pitch Pulley on MotorSupply FAN Blower Section Supply Fan Belt-DriveRemove Surface Loaded Fibers Condenser Coil Maintenance and Cleaning RecommendationCooling Condenser CoilTwo-Row Coils Periodic Clean Water RinseRoutine Cleaning of Coil Surfaces One-Row CoilUnit Damage Hazard Refrigerant System Pressure Access PortsCleaning the Evaporator Coil Evaporator CoilNo Charge To Use Cooling Charging ChartsPuronr R410A Refrigerant Refrigerant ChargeCooling Charging Charts Cooling Charging ChartsCooling Charging Charts C08437 C08438 C08439 Condenser-Fan Location Troubleshooting Cooling SystemCompressor Filter DrierProblem Cause Remedy Cooling Service AnalysisUnit Connect Primary Transformer Convenience OutletsConnections Controller Smoke DetectorsSystem SensorSmoke Detector Locations Completing Installation of Return Air Smoke SensorReturn Air Sensor Operating Position Fiop Smoke Detector Wiring and ResponseDirty Controller Test Sensor Alarm TestController Alarm Test Sensor and Controller TestsRemote Station Test Remote Test/Reset Station Dirty Sensor TestDetector Cleaning Changing the Dirt Sensor TestControl or Indicator Description IndicatorsDetector Indicators Alarm StateRelief Device TroubleshootingProtective Devices Compressor ProtectionNatural Gas Supply Line Pressure Ranges GAS Heating SystemControl Circuit Fuel Types and PressuresLiquid Propane Manifold Pressure Ranges Flue Gas PassagewaysCombustion-Air Blower Liquid Propane Supply Line Pressure RangesEquipment Damage Hazard Removal and Replacement of Gas TrainCleaning and Adjustment Burners and IgnitersLimit Switch Check Unit Operation and Make Necessary Adjust- mentsBurner Ignition Spark Adjustment LED Error Code Description Orifice ReplacementLED Indication Error Code Description Outputs Integrated Gas Control IGC Board IGC ConnectionsDrill Size Part Number Orifice SizesAltitude Compensation* 04-07 Small Chassis Orifice BryantAltitude Compensation* 04-06 Low NOx Units Troubleshooting Heating SystemMinimum heating entering air temperature Cont. Altitude Compensation* A08-A12Problem Cause Remedy Heating Service AnalysisEconomizer Systems IGC Board LED Alarm CodesEconoMi$er2 Component Locations RUN Inputs OutputsEconoMi$er Supply Air Temperature SAT SensorTemp Resistance EconoMi$er IV Control Modes Outdoor Air Lockout SensorOutdoor Dry Bulb Changeover Outdoor Enthalpy Changeover Differential Enthalpy ControlMinimum Position Control Exhaust Setpoint AdjustmentOccupancy Control CO2 Sensor ConfigurationDamper Movement ThermostatsDifferential Enthalpy DCV Demand Controlled Ventilation and Power ExhaustEconoMi$er IV Sensor Usage EconoMi$er IV PreparationPRE-START-UP Wiring DiagramsPersonal Injury Hazard START-UP, General Operating Sequences Torque Values Fastener Torque ValuesDemand Controlled Ventilation Heating With EconoMi$erC08308 580J Unit Wiring Diagram Control 06A, B, C Position Number Appendix I. Model Number SignificanceModel Number Nomenclature Serial Number FormatPhysical Data Cooling Tons Standard Refrigeration System Appendix II. Physical DataRefrigeration System 580J*08 580J*09 580J*12 Physical Data Cooling 10 Tons Standard Refrigeration SystemPhysical Data Heating 10 Tons General Fan Performance Notes Appendix III. FAN PerformanceCFM RPM BHP 580J*04Ton Horizontal Supply Ton Vertical SupplyMedium Static Option High Static Option 580J*05 580J*05 Phase Ton Horizontal Supply1486 580J*05 Phase Ton Vertical Supply1493 15061482 580J*06580J*06 Phase Ton Vertical Supply 580J*06 Phase Ton Horizontal Supply580J*07 580J*08 580J*09 580J*12 Unit MOTOR/DRIVE Motor Pulley Turns Open Combo Pulley AdjustmentType Appendix IV. Electrical DataIFM Range RLA LRAFLA Appendix IV. Electrical DataRLA LRA 580J*08 Tons580J*09 Tons IFM RangeMCA/MOCP Determination No C.O. or Unpwrd C.O NOM Unbalanced 3-Phase Supply VoltageWiring Diagrams Appendix V. Wiring Diagram List580J*04A, B, C Outdoor Circuiting Appendix VI. Motormaster Sensor LocationsCatalog No. SM580J---01 580J*09/12A, C Outdoor CircuitingElectrical START-UP ChecklistTemperatures Remove and Store in Job File

580J*04--12 specifications

The Bryant 580J*04--12 is a notable unit in the realm of residential air conditioning, exemplifying efficiency and reliability. Designed to offer optimal cooling solutions, this model incorporates advanced technologies and features that cater to modern comfort needs.

One of the standout features of the Bryant 580J is its energy efficiency. With a high Seasonal Energy Efficiency Ratio (SEER) rating, this air conditioning unit is engineered to minimize energy consumption while maximizing cooling performance. This efficiency not only reduces monthly utility bills but also aligns with environmentally friendly practices by using less energy.

The 580J model is equipped with advanced compressor technology, which contributes to its smooth and quiet operation. This is particularly important for residential settings, where noise can be a significant concern. The unit consistently maintains comfortable indoor temperatures without disruptive sound levels, enhancing the overall living experience.

This air conditioning system is designed with durability in mind. Constructed from robust materials, it withstands the rigors of various weather conditions. Additionally, its components are engineered for longevity, reducing the need for frequent repairs and maintenance. The 580J also comes with a comprehensive warranty, which provides homeowners with peace of mind regarding their investment.

Smart technology integration is another key feature of the Bryant 580J. Homeowners can take advantage of programmable thermostats and compatibility with home automation systems. This allows for remote access and control, making it easier to manage indoor climates efficiently. Users can set schedules, adjust temperatures, and monitor energy usage from their smartphones, adding a layer of convenience to everyday living.

Furthermore, the Bryant 580J includes advanced air filtration systems that improve indoor air quality. By effectively trapping dust, allergens, and pollutants, this unit promotes a healthier living environment. This feature is particularly beneficial for individuals with allergies or respiratory issues.

In summary, the Bryant 580J*04--12 stands out for its energy efficiency, quiet operation, durability, smart technology integration, and air quality improvement capabilities. By blending advanced engineering with user-friendly features, this model continues to be a top choice for homeowners seeking reliable and efficient air conditioning solutions.
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