Bryant 355CAV installation instructions 042060

Page 39

Table 6 – Maximum Allowable Exposed Vent Pipe Length (Ft / M) with Insulation in

Winter Design Temperature Ambient*

UNIT SIZE

WINTER DESIGN

MAXIMUM PIPE

 

 

INSULATION THICKNESS†

 

 

 

TEMPERATURE

DIAMETER (IN.)

 

0

3/8

1/2

3/4

1

 

 

 

 

 

 

042060

20_F / -6.7_C

2

30

/ 9.1

55 / 16.8

61 / 18.6

70 / 21.3

70 / 21.3

 

 

0_F / -17.8_C

2

16

/ 4.9

33 / 10.1

38 / 11.6

46 / 14.0

53 / 16.2

 

 

 

-20_F / -28.9_C

2

9 / 2.7

23 / 7.0

26 / 7.9

33 / 10.1

38 / 11.6

 

 

042080

20_F / -6.7_C

2

37 / 11.2

65 / 19.8

70 / 21.4

70 / 21.3

70 / 21.3

 

 

0_F / -17.8_C

2

20

/ 6.1

39 / 11.9

45 / 13.7

55 / 16.8

63 / 19.2

 

 

060080

 

 

-20_F / -28.9_C

2

11

/ 3.4

27 / 8.3

31 / 9.4

39 / 11.9

45 / 13.7

 

 

 

 

 

060100

20_F / -6.7_C

2-1/2

41 / 12.5

70 / 21.3

70 / 21.3

70 / 21.3

70 / 21.3

 

 

0_F / -17.8_C

2-1/2

21

/ 6.4

42 / 12.8

48 / 14.6

59 / 18.0

68 / 20.7

 

 

 

-20_F / -28.9_C

2-1/2

11

/ 3.4

28 / 8.5

33 / 10.1

41 / 12.5

49 / 14.9

 

 

060120

20_F / -6.7_C

3

49 / 14.9

70 / 21.3

70 / 21.3

70 / 21.3

70 / 21.3

 

 

0_F / -17.8_C

3

26

/ 7.9

51 / 15.5

58 / 17.7

70 / 21.3

70 /21.3

 

 

 

-20_F / -28.9_C

3

15

/ 4.6

35 / 10.7

40 / 12.2

50 / 15.2

59 / 18.0

 

 

* Pipe length (ft/m)

specified for maximum pipe

lengths located in unconditioned

spaces. Pipes

located in unconditioned space cannot exceed total allowable

 

 

pipe length as specified in Table ?.

 

 

 

 

 

 

 

 

 

Insulation thickness based on R value of 3.5 per in.

 

 

 

 

 

 

 

355CAV

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

39

Image 39
Contents Table of Contents Installation InstructionsRequired Notice for Massachusetts Installations CUT Hazard Safety ConsiderationsDimensional Drawing Dimensions In. / mmInstallation Codes and Standards Upflow Application Electrostatic Discharge ESD PrecautionsIntroduction ApplicationsCondensate Trap Alternate Upflow Orientation Carbon Monoxide Poisoning HazardCondensate Trap Tubing Alternate Upflow Orientation Upper Inducer Housing Drain Connection Condensate Trap Field Drain AttachmentCondensate Trap Freeze Protection Condensate Trap Location Downflow ApplicationsHorizontal Left SUPPLY-AIR Discharge Applications Horizontal Left Tube ConfigurationManual Shutoff GAS Valve Sediment Trapcondensate Trap Property DamageHorizontal Right SUPPLY-AIR Discharge Applications Construct a Working PlatformUnit Operation Hazard Condenste Trap Field Drain Attachment LocationFire or Death Hazard Prohibit Installation on BackInstallation FIRE, EXPLOSION, Injury or Death HazardUnit MAY not Operate Hazard Furnace, Plenum, and Coil Assembly or Coil Box Locations Reqd PER ROD AIR Ducts Fire Hazard FIRE, Carbon Monoxide and Poisoning HazardUnit MAY not Operate Bottom Closure Panel Gas PipingFire or Explosion Hazard Removing Bottom Closure Panel Wiring Maximum Capacity of PipeElectrical Shock Hazard Electrical Shock and Fire Hazard Disconnect Switch and FurnaceFactory Installed J-Box Location AccessoriesFire or Electrical Shock Hazard Fire and Explosion Hazard AIR for Combustion and VentilationCement AstmMaterial Pipe Fittings DescriptionFurnace Control Direct Vent Termination Clearance Ventilated Combustion Air Vent Termination Clearance Vent Pipe Termination for Ventilated Combustion Air System Unit Corrosion Hazard Combustion AIR PipeCombustion Air Termination Ventilated Combustion Air Option Attachment of Combustion Air Intake Housing Plug FittingAttachment of Vent Pipe Vent PipeCombustion Air Termination-Direct Vent / 2-Pipe System Carbon Monoxide Poisoning Property Damage Hazard304.8mm minimum 76.2mm minimum Extended Exposed Sidewall Pipes Vent TerminationTwo-Pipe Termination Kit Direct Vent/2-Pipe System Only Vent Termination Kit Direct Vent/2-Pipe System Only042060 Btuh Maximum Allowable Pipe Length Ft / MUnit Size Personal Injury Hazard Condensate DrainAdditional Setup Switches SW4 START-UP, Adjustment and Safety CheckAir Conditioning A/C Setup Switches Continuous Fan CF Setup SwitchesPrime Condensate Trap with Water Example of Setup Switch in Off PositionWiring Diagram Furnace Setup Switch Description Inducer Housing Drain TubePurge Gas Lines Sequence of OperationTwo-Stage Thermostat and Two-Stage Low / High Heating See -55 for thermostat connections Thermidistat ModeHeat Pump Super Dehumidify ModeContinuous Blower Mode Continuous Blower Speed Selection from ThermostatStep-Modulating Furnace with Single-Speed Air Conditioning Furnace and Two-Speed Heat Pump Pump Furnace and Two-Speed Air ConditionerRedundant Automatic Gas Valve Set Gas Input RateBurner Orifice A07253 A07254 Burner Flame Altitude Derate Multiplier for U.S.ASet Temperature Rise Gas Rate cu Ft/HrSet Thermostat Heat Anticipator Check Primary Limit Control ChecklistCheck Safety Controls Check Pressure SwitchesCombustion and Vent Piping Checklist Installation
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355CAV specifications

The Bryant 355CAV is a state-of-the-art automated vertical machining center designed to enhance precision and efficiency in the manufacturing sector. Renowned for its robust construction, this machine is engineered to handle a broad spectrum of machining tasks, making it suitable for both small and large-scale production environments.

One of the standout features of the Bryant 355CAV is its advanced CNC control system, which provides users with exceptional ease of use. The intuitive user interface allows operators to program complex machining operations with minimal effort, significantly reducing setup times. The machine's high-speed spindle achieves impressive rotational speeds, which allows for quick material removal, ultimately optimizing productivity and throughput.

The Bryant 355CAV exhibits superior rigidity and stability due to its solid cast iron frame and carefully designed structural components. This construction minimizes vibrations during machining, ensuring that even the most intricate parts are produced with high accuracy. The machine's precision ground linear guideways further enhance its performance by providing smooth motion and high load capacity.

Equipped with a large work envelope, the Bryant 355CAV enables manufacturers to accommodate various part sizes and geometries. Additionally, its automatic tool changers can hold a variety of tools, thus facilitating quick transitions between different machining operations without requiring manual intervention. This flexibility is essential for meeting the diverse needs of modern manufacturing.

Another notable characteristic of the Bryant 355CAV is its energy-efficient design. It integrates modern technologies aimed at reducing power consumption while maintaining optimum performance. This environmentally conscious approach not only cuts operational costs but also aligns with the growing demand for sustainable manufacturing practices.

Moreover, the Bryant 355CAV features advanced monitoring capabilities, allowing operators to track machine performance in real time. Data analytics from these systems can be utilized to improve operational efficiency, reduce downtime, and enhance predictive maintenance protocols.

In summary, the Bryant 355CAV is a versatile, high-performance machining center that showcases cutting-edge features and technologies. Its combination of user-friendly controls, sturdy construction, energy efficiency, and advanced monitoring positions it as a vital asset for manufacturers aiming to elevate their productivity and precision in an increasingly competitive landscape.