Thomas & Betts LDAP 1200 warranty Heater Location cont’d, Sound Data, Location Recommendations

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10.Heater Location (cont’d)

Sound Data

Sound Chart - Model LDAP

Model

 

 

 

 

 

 

 

 

DISTANCE

 

 

 

 

 

 

LDAP

 

20 ft (6.1M)

25 ft (7.6M)

30 ft (9.1M)

35 ft (10.7M)

40 ft (12.2M)

Size

db

 

Pa

µbar

db

 

Pa

µbar

db

Pa

µbar

db

Pa

µbar

db

Pa

µbar

400

69

 

0.058

0.580

65

 

0.037

0.371

62

0.026

0.258

60

0.019

0.189

57

0.015

0.145

800

72

 

0.080

0.800

68

 

0.051

0.512

65

0.036

0.356

62

0.026

0.261

60

0.020

0.200

1200

74

 

0.100

1.000

70

 

0.064

0.640

67

0.044

0.444

64

0.033

0.327

62

0.025

0.250

µbar =

microbar

Pa = Pascal

 

 

 

 

 

 

 

 

 

 

 

Location Recommendations

NOTE: Venting requirements may affect location. Consult requirements in Paragraph 24 before making final determination.

Hazards of Chlorine

For best results, the heater should be placed with certain rules in mind. In general, a heater should be located from 15-40 feet (4.6-12.2 M) above the floor. If two or more heaters are installed in the same room, a general scheme of air circulation should be maintained for best results.

Suspended heaters are most effective when located as close to the working zone as possible, and this fact should be kept in mind when determining the mounting heights to be used. However, care should be exercised to avoid directing the discharged air directly on the room occupants.

Partitions, columns, counters, or other obstructions should be taken into consider- ation when locating the heater so that a minimum quantity of airflow will be deflected by such obstacles.

The presence of chlorine vapors in the combustion air of gas-fired heating equipment presents a potential corrosion hazard. Chlorine found usually in the form of freon or degreaser vapors, when exposed to flame will precipitate from the compound, and go into solution with any condensation that is present in the heat exchanger or associated parts. The result is hydrochloric acid which readily attacks all metals including 300 grade stainless steel. Care should be taken to separate those vapors from the combus- tion process. This may be done by wise location of the heater with regard to exhaust- ers or prevailing wind directions. Chlorine is heavier than air. Keep these facts in mind when determining installation location of the heater in relation to building ex- haust systems.

11.Hanging or Mounting the Heater and Installing Louvers

Weight (lbs/kg)

Size

400

800

1200

Before installing the heater, check the supporting

lbs

375

805

1195

structure to be used to verify that it has sufficient load-

kg

170

365

542

carrying capacity to support the weight.

Suspending the Heater

Locate the hardware kit shipped with the heater. The kit contains spring nuts, hex nuts, “U”-shape fittings, and lock washers for suspending the heater. It also includes louvers and the compression springs needed to install them.

When the heater is lifted for suspension, support the bottom of the heater with the crate bottom. If the bottom is not supported, damage could occur. Before hanging or mounting, verify that any screws used for holding shipping brackets were re-installed in the cabinet.

WARNINGS: Check the supporting structure to be used to verify that it has sufficient load carrying capacity to support the weight of the heater. Suspend the heater only from the threaded nut retainers or with a manufacturer provided kit. Do NOT suspend from the heater cabinet.

See FIGURE 1A or 1B for the appropriate hanging locations, and install the ½”-13 spring nuts in the strut that is attached to the top of the unit. Comply with the require- ments in FIGURE 4A when using threaded rod. If ordered with swivel connectors for 1” pipe, Option CK10, attach the swivels to the spring nuts according to illustra- tion in FIGURE 4B and suspend with 1” pipe.

Form RZ-NA-I-LDAP, P/N 207733 (Rev 2), Page 8

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Contents Table of Contents Reznor Model LdapHazard Levels of Warnings in this Manual General Installation CodesWarranty Switches Uncrating and Preparation High Altitude OperationTechnical Data DimensionsModel One DownflowModel LDAP800 and Model LDAP1200 Clearances inches/mm ClearancesCombustion Air Throw feet and meters Heater LocationMounting Height Heater Throw All Models Hanging or Mounting the Heater and Installing Louvers Heater Location cont’dSound Data Location RecommendationsWall Mounting Guidelines for Wall Mounting Model Ldap HeatersInstalling Heater and Louvers cont’d Installing LouversGas Piping and Pressures Sizing Gas SupplyValve Outlet or Orifice Pressure Setting Gas Connection SizeHorizontal Supply Vertical SupplyCont’d GasPressures Supply Wiring Burners Electrical Supply ConnectionsThermostat and Connections Disconnect SwitchElectrical Supply and Connections cont’d CL7 Thermostat and Connections cont’d Multiple Heater Control Option CL31 and Option CL32Connections for Model Ldap 1200 with Option CL1, CL2, CL3, CL7, or CL18Combustion Air Proving Pressure Switches Pressure Switch SettingsLimit Control High Limit ControlIgnition System Normal Heat Cycle Operating Sequence Abnormal Heat Cycle FunctionsIgnition System cont’d Fault Modes Lockout Fan Motor WiringGas Valves Fan MotorsWiring Diagrams Wiring DiagramWhite = Neutral Black = High Heat Speed Wiring Diagrams cont’d Above control wiring isAbove control wiring is Line VoltageVenting Venting RequirementsType of Vent Pipe VerticalJoints and Sealing Venting cont’d Venting Requirements cont’dJoints and Sealing cont’d Double Vent Wall Pipe With Sealant Pipe RunWall Ft 1M Minimum 305 mm Operating Instructions Operating Sequence Check Installation and StartupCheck the installation prior to startup Heater Startup Check installation after startup Vent System Testing ProcedureMaintenance Schedule DimensionsWay Discharge Louvers, Option CD32 Nozzles NozzleHeat Exchanger Maintenance Burner Maintenance Location of ControlsBurner Maintenance cont’d Inspect and Clean the BurnerRe-Install the Burner Instructions to Re-Install the Burner Refer to FigureBurner Orifices Heat Section Venter Motor and WheelIgnitor Flame Sensor MeasurementHeat Section Venter Motor and Wheel cont’d Main Venter Motor and Wheel Models 800 and 1200 onlyFan Blades GuardsCombustion Air Pressure Switches Operating Gas ValvesTroubleshooting Vent SystemGeneral Troubleshooting Problem Probablecause RemedyGeneral Troubleshooting cont’d No heat Heater

LDAP 1200 specifications

The Thomas & Betts LDAP 1200 is a cutting-edge lighting control system designed specifically to enhance energy efficiency, reduce operational costs, and promote flexibility in various lighting applications. Ideal for commercial and industrial environments, the LDAP 1200 integrates advanced technologies to create a robust solution for managing lighting systems.

One of the standout features of the LDAP 1200 is its intelligent control capabilities. With occupancy sensors and daylight harvesting technology, the system can automatically adjust lighting levels based on the presence of people and the amount of natural light available. This results not only in energy savings but also in improved occupant comfort.

The LDAP 1200 is designed for easy installation and configuration. Its modular design allows for scalability, making it suitable for both small spaces and large commercial projects. The system supports a variety of lighting types, including LED, fluorescent, and incandescent, ensuring compatibility with existing infrastructure.

User-friendly interfaces are another key characteristic of the LDAP 1200. Operating through a centralized control panel or a mobile app, users can easily monitor and adjust lighting settings, schedule operations, and receive real-time feedback. This level of control empowers facility managers to respond quickly to changing needs and optimize lighting performance.

In terms of energy management, the LDAP 1200 integrates seamlessly with building management systems (BMS), enabling complex scheduling and reporting functions. The system collects data on energy usage, helping organizations to track performance and implement strategies to further reduce consumption.

Durability and reliability are paramount in industrial applications, and the LDAP 1200 does not disappoint. Constructed with high-quality materials, the system is designed to withstand everyday wear and tear. Its robust architecture ensures that it will function effectively in various environmental conditions.

In summary, the Thomas & Betts LDAP 1200 is a versatile and efficient lighting control solution that plays a critical role in enhancing energy efficiency, reducing costs, and improving user experience. With its intelligent control features, user-friendly interfaces, and compatibility with various lighting types, the LDAP 1200 represents a significant advancement in lighting technology, making it a smart choice for modern facilities seeking to optimize their lighting systems.
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