Free-Standing,Field-Installed Starter Ð Assemble and in- stall compressor terminal box in desired orientation, and cut necessary conduit openings in conduit support plates. See Fig. 27 and 29. Attach power leads to compressor terminals in accordance with job wiring drawings, observing caution label in terminal box. Use only copper conductors. The mo- tor must be grounded in accordance with NEC (National Elec- trical Code), applicable local codes, and job wiring diagrams. Installer is responsible for any damage caused by improper wiring between starter and compressor motor.

IMPORTANT: Do not insulate terminals until wiring arrangement has been checked and approved by Carrier start-up personnel. Also, make sure correct phas- ing is followed for proper motor rotation.

Insulate Motor Terminals and Lead Wire Ends Ð Insulate compressor motor terminals, lead wire ends, and electrical wires to prevent moisture condensation and electrical arc- ing. For low-voltage units (up to 600 v), obtain insulation material from machine shipping package consisting of 3 rolls of insulation putty and one roll of vinyl tape.

1.Insulate each terminal by wrapping with one layer of in- sulation putty.

2.Overwrap putty with 4 layers of vinyl tape.

High Voltage Units Ð High-voltage units require special ter- minal preparation. Follow local electrical codes for high- voltage installation. Vinyl tape is not acceptable; a high voltage terminal method must be used.

Connect Power Wires to Oil Pump Starter Ð See Fig. 30. Connect power wires to oil pump starter mounted in ma- chine power panel. Use separate fused disconnect or circuit breaker as shown on job wiring diagrams and Fig. 30. Check that power supply voltage agrees with oil pump voltage. Fol- low correct phasing for proper motor rotation.

Do not punch holes or drill into the top surface of the power panel. Knockouts are provided in the bottom of the power panel for wiring connections.

Piping

Control Wiring

Power Wiring

LEGEND

1 Ð Disconnect

2Ð Free-Standing Compressor Motor Starter

3Ð Compressor Motor Terminal Box

4Ð Chiller Power Panel

5Ð Control Cabinet

6Ð Vents

7Ð Pressure Gages

8Ð Chilled Water Pump

9Ð Condenser Water Pump

10Ð Chilled Water Pump Starter

11Ð Condensing Water Pump Starter

12Ð Cooling Tower Fan Starter

13Ð Disconnect

14Ð Oil Pump Disconnect (see Note 4)

IMPORTANT: Wiring and piping shown are for general point- of-connection only and are not intended to show details for a speci®c installation. Certi®ed ®eld wiring and dimensional dia- grams are available on request.

NOTES:

1.All wiring must comply with applicable codes.

2.Refer to Carrier System Design Manual for details regarding pip- ing techniques.

3.Wiring not shown for optional devices such as:

·remote start-stop

·remote alarm

·optional safety device

·4 to 20 mA resets

·optional remote sensors

4.Oil pump disconnect may be located within the enclosure of Item 2 Ð Free-Standing Compressor Motor Starter.

Fig. 27 Ð 19XR with Free-Standing Starter

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Image 31
Carrier installation instructions 19XR with Free-Standing Starter

19XR specifications

The Carrier 19XR and 19XRV chillers are sophisticated cooling solutions that represent the forefront of HVAC technology. Designed for large commercial and industrial applications, these chillers provide exceptional performance, energy efficiency, and reliability, making them ideal for a variety of environments ranging from hospitals to manufacturing facilities.

One of the most significant features of the Carrier 19XR and 19XRV chillers is their advanced scroll compressor technology. These units employ a tandem scroll design that enhances efficiency while minimizing operational noise. This makes them ideal for urban environments where noise restrictions may be in place. Moreover, the compressors are equipped with variable speed drive options in the 19XRV model, which allows for greater energy savings by adjusting cooling output based on real-time demand.

In addition to their advanced compressors, the 19XR and 19XRV units incorporate the Carrier GreenChoice refrigerant, which has a lower global warming potential compared to traditional refrigerants. This innovative choice not only meets regulatory requirements but also contributes to sustainability goals, making these chillers a responsible choice for environmentally conscious organizations.

The units are engineered with a robust heat exchanger design, which enhances heat transfer efficiency and overall system performance. This ensures optimal operation even in extreme conditions. They feature a microprocessor-based control system that allows for precise monitoring and control of the chiller’s performance, enabling operators to make real-time adjustments to maximize energy efficiency.

The Carrier 19XR and 19XRV chillers also prioritize serviceability. The design incorporates easy access to key components, simplifying maintenance procedures and reducing downtime. This focus on maintainability extends the lifespan of the equipment, leading to lower lifecycle costs.

In terms of connectivity, these chillers are equipped with advanced Building Management System (BMS) integration capabilities. This allows for seamless monitoring and control of the chillers using a centralized platform, facilitating energy management and operational optimization.

Overall, the Carrier 19XR and 19XRV chillers stand out in the market for their blend of cutting-edge technology, energy efficiency, and user-friendly features. They are engineered to meet the demanding needs of modern commercial and industrial applications, making them a preferred choice for facility managers seeking reliable cooling solutions.