Bryant R-22 service manual Required LIQUID-LINE Temperature

Page 46

TABLE 24—REQUIRED LIQUID-LINE TEMPERATURE

PRESSURE (PSIG)

 

 

REQUIRED SUBCOOLING TEMPERATURE (°F)

 

 

AT SERVICE FITTING

0

5

 

10

15

 

20

25

134

76

71

 

66

61

 

56

51

141

79

74

 

69

64

 

59

54

148

82

77

 

72

67

 

62

57

156

85

80

 

75

70

 

65

60

163

88

83

 

78

73

 

68

63

171

91

86

 

81

76

 

71

66

179

94

89

 

84

79

 

74

69

187

97

92

 

87

82

 

77

72

196

100

95

 

90

85

 

80

75

205

103

98

 

93

88

 

83

78

214

106

101

 

96

91

 

86

81

223

109

104

 

99

94

 

89

84

233

112

107

 

102

97

 

92

87

243

115

110

 

105

100

 

95

90

253

118

113

 

108

103

 

98

93

264

121

116

 

111

106

 

101

96

274

124

119

 

114

109

 

104

99

285

127

122

 

117

112

 

107

102

297

130

125

 

120

115

 

110

105

309

133

128

 

123

118

 

113

108

321

136

131

 

126

121

 

116

111

331

139

134

 

129

124

 

119

114

346

142

137

 

132

127

 

122

117

359

145

140

 

135

130

 

125

120

 

 

 

 

 

 

 

 

 

3.Check electrical connections for tightness and controls for proper operation each heating (heat pump only) or cooling season and service as necessary.

CAUTION: Because of possible damage to the equip- ment or personal injury, maintenance should be per- formed by qualified personnel only.

COIL CLEANING

1. Remove top cover. See Remove Top Cover section.

CAUTION: Coil fin damage can result in higher oper- ating costs or compressor damage. Do not use flame, high-pressure water, steam, or volatile or corrosive clean- ers on fins or tubing.

2.Clean coil using vacuum cleaner and its crevice tool. Move crevice tool vertically, close to area being cleaned, making sure tool touches only the dirt on the fins and not the fins. To prevent fin damage, do not scrub fins with tool or move tool horizontally against fins.

3.If oil deposits are present, spray coil with ordinary house- hold detergent. Wait 10 minutes, and proceed to next step.

4.Using garden hose, spray coil vertically downward with constant stream of water at moderate pressure. Keep nozzle at a 15° to 20° angle, about 3 in. from coil face and 18 in. from tube. Spray so debris is washed out of coil and basepan.

5.Restore power to unit.

CLEANING OUTDOOR FAN MOTOR AND BLADE

1.Remove fan motor and blade. Refer to Remove Fan-Motor Assembly section of this manual. Be careful not to bend or dent fan blade.

2.Clean motor and blade with soft brush or cloth. Be careful not to disturb balance weights on fan blade.

3.Check fan-blade setscrew for tightness.

4.Reinstall fan motor and blade to top cover and check for alignment.

5.Reinstall top cover and position blade as per Fig. 24.

6.Reconnect electrical power and check for proper operation.

ELECTRICAL CONTROLS AND WIRING

1.Disconnect power to both the outdoor and indoor units.

2.Check all electrical connections for tightness. Tighten all screws on electrical connections. If any connections appear to be burned or smoky, disassemble the connection, clean all parts and stripped wires, and reassemble. Use a new connector if old one is burned or corroded and crimp tightly.

3.Reconnect electrical power to the indoor and outdoor units and observe unit through 1 complete operating cycle.

4.If there are any discrepancies in the operating cycle, troubleshoot to find the cause, and correct.

REFRIGERANT CIRCUIT

1.Check the refrigerant charge using the superheat or sub- cooling method, whichever is applicable. If low on charge, check unit for leaks using an electronic leak detector.

2.If any leaks are found, recover or isolate charge (pump- down) if applicable and make necessary repairs.

3.Evacuate, recharge, and operate unit through entire cycle.

FINAL CHECKOUT

After the unit has been operating, the following items should be checked:

1.Check that unit operational noise is not excessive due to vibration of components, tubing, panels, etc. If present, isolate problem and correct.

2.Check to be sure caps are installed on service valves and that they are tight.

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Contents Table of Contents Safety ConsiderationsVIII. LOW-AMBIENT Pressure Switch II. ADD-ON Replacement RetrofitAccessory Descriptions III. Seacoast for AIR Conditioners onlyCoastal Filter II. Interconnecting Tubing SizingIX. Wind Baffle XI. Support FeetMatl 18 GA Steel Matl 20 GA SteelMedium Unit Size Unit HeightSmall Baffle LeftEstimated Percentage of Nominal COOLING-CAPACITY Losses Wind Baffle Dimensions for Cube UnitsIII. Metering Device Sizing Example IV. LIQUID-LINE Solenoid and Tubing CONFIGU- RationFitting Losses in Equivalent FT Calculation of Indoor Piston noCharging Information Common Piston SizesLIQUID-LINE Solenoid KIT Part Numbers VI -SPEED ApplicationsII. Serial Number Identification Positions 6 through 10-Serial NumberRemove TOP COVER-BEFORE 1/1/92 II. Remove FAN-MOTOR ASSEMBLY-BEFORE 1/1/92Cabinet III. Information PLATE-RELIANT ProductsVI. Remove FAN-MOTOR ASSEMBLY-AFTER 1/1/92 Electrical Aluminum Wire Basic Cabinet DesignsInformation Plate II. ContactorsIII. Capacitors Start Capacitors and PTC DevicesTemporary Capacitance Boost IV. Cycle ProtectorVI. TIME-DELAY Relay Crankcase HeaterVII. Pressure Switches LOW-PRESSURE SwitchVIII. Defrost Thermostats HIGH-PRESSURE SwitchLIQUID-LINE Pressure Switch IX. DEFROST-CONTROL BoardCES0110063 Defrost Control CES0110063 CES0130024SPEED-UP Defrost Control SPEED-UP Timing SEParameter Minimum Maximum XI. Service Alarm Control Board Defrost Timer SettingsFAN Motors OF2 CESO130076-00 XII. Outdoor ThermostatsFAN Position Aeroquiet System and Aeromax TOPService Alarm Wiring Connections XIII. Compressor PlugReciprocating Compressor XIV. LOW-VOLTAGE TerminalsMechanical Failures II. Electrical Failures III. System Cleanup After Burnout IV. Compressor Removal and ReplacementCompressor OIL Recharge Copeland Scroll Compressor FeaturesII. Troubleshooting III. Discharge ThermostatIV. Scroll COMPRESSOR, 3-PHASE Monitor Millennium Scroll Compressor FeaturesIII. Troubleshooting II. Compressor ProtectionCESO130075 IFR Indoor External Power Supply 24Cont Equip GND CAP OFM Logic Cont HPS LPSAmbient Temperature for HIGH- LOW-SPEED Operation Function Light Code and Display Location Compressor PTC Ranges III. Factory DefaultsFactory Defaults IV. Major ComponentsTWO-SPEED Compressor Winding Resistance AT 70F ± VI. TroubleshootingLED FUNCTION/MALFUNCTION Lights Refrigeration System Refrigeration Cycle II. Leak DetectionLow-Speed Windings Cooling Cycle 24V PIN Connection TroubleshootingIII. Brazing AllService Valves IV. Service ValvesReliant and Cube Products Produced Reliant Products Except 1992 ProductionVI. Reversing Valve Reversing Valve VII. THERMOSTATIC-EXPANSION Valves TXVVIII. THERMOSTATIC-EXPANSION Valve BI-FLOW TXV TXV Superheat Setting AT Outlet of Evaporator CoilInstallation TXV Type Product Usage Superheat Setting IX. Coil RemovalTXV in Cooling Mode XIII. System Charging XI. AccumulatorXII. Contaminant Removal XIV. Checking ChargeSuperheat Charging Method Required Vapor Temperature FSuperheat Charging Table Subcooling Charging MethodReliant AIR Conditioners Care and MaintenanceReliant Heat Pumps Required LIQUID-LINE Temperature Page AIR Conditioner Troubleshooting Chart Heat Pump TROUBLESHOOTING-COOLING Cycle Heat Pump TROUBLESHOOTING-HEATING Cycle
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R-22 specifications

The Bryant R-22 stands out in the landscape of residential heating and cooling systems with its combination of efficiency, durability, and modern technology. Designed primarily for homeowners seeking comfortable climate control solutions, the R-22 model delivers consistent performance throughout varying seasonal extremes.

One of the main features of the Bryant R-22 is its high energy efficiency. Rated with a SEER (Seasonal Energy Efficiency Ratio) that meets or exceeds industry standards, this air conditioning unit is designed to reduce energy consumption while providing optimal cooling. This not only helps in lowering monthly utility bills but also promotes environmentally responsible usage.

Another notable characteristic is the unit's durability. Constructed with a robust cabinet and high-quality components, the R-22 is built to withstand the rigors of daily use, with protective features that enhance its longevity. The cabinet comes with a powder-coated finish that resists corrosion and harsh weather conditions, ensuring that the unit stays functional and aesthetically pleasing for years.

The Bryant R-22 also incorporates advanced technology to improve user experience. One such innovation is the SmartSet technology, which allows homeowners to program their unit to optimize comfort levels according to their specific needs. This programmable capability enhances energy savings and ensures that the home remains at the desired temperature when residents are present.

Moreover, the unit features a Quiet Operating System that significantly reduces noise levels, making it suitable for residential areas where noise might be a concern. The design minimizes vibrations and optimizes airflow, creating a comfortable environment without disruptive sounds.

For added convenience, the Bryant R-22 is compatible with various thermostat options, including Wi-Fi-enabled models. This allows users to control their home's climate from anywhere using a smartphone app, facilitating effortless adjustments and monitoring of energy usage.

Finally, the Bryant R-22 is backed by a solid warranty, providing peace of mind for homeowners. This commitment to quality and customer satisfaction is a testament to Bryant’s dedication to producing reliable and efficient HVAC solutions. Overall, the Bryant R-22 is an exemplary choice for those looking to enhance their home comfort with the latest in HVAC technology.
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