Contents

Carrier Airstream 42S Series Installation Instructions PDF

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Summary of Content for Carrier Airstream 42S Series Installation Instructions PDF

Manufacturer reserves the right to discontinue, or change at any time, specifications or designs without notice and without incurring obligations. Catalog No. 04-53420017-01 Printed in U.S.A. Form 42S-4SI Pg 1 8-18 Replaces: 42S-3SI

Installation, Start-Up and Service Instructions

CONTENTS SAFETY CONSIDERATIONS . . . . . . . . . . . . . . . . . . 1 INTRODUCTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 PHYSICAL DATA . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 PRE-INSTALLATION . . . . . . . . . . . . . . . . . . . . . . . . 2 Unpack and Inspect Units . . . . . . . . . . . . . . . . . . . . 2 Protect Units From Damage . . . . . . . . . . . . . . . . . . 2 Prepare Jobsite for Unit Installation . . . . . . . . . . . 3 Identify and Prepare Units. . . . . . . . . . . . . . . . . . . 13 INSTALLATION. . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 Step 1 Place Units in Position . . . . . . . . . . . . . 13 42SG, SH, AND SJ UNITS 42SU UNIVERSAL ARRANGEMENT 42SM UNITS Step 2 Make Electrical Connections . . . . . . . . 22 FACTORY-INSTALLED OPTIONS STANDARD WIRING PACKAGES Step 3 Make Duct Connections . . . . . . . . . . . . 23 Step 4 Frame and Finish Unit . . . . . . . . . . . . . . 23 Step 5 Cut Out Openings for Grilles and

Thermostats . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24 Step 6 Make Final Preparations . . . . . . . . . . . . 24 START-UP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25 Cooling/Heating System . . . . . . . . . . . . . . . . . . . . 25 Air System Balancing . . . . . . . . . . . . . . . . . . . . . . 26 Water System Balancing . . . . . . . . . . . . . . . . . . . . 26 Water Treatment. . . . . . . . . . . . . . . . . . . . . . . . . . . 26 Controls Operation . . . . . . . . . . . . . . . . . . . . . . . . 26 SERVICE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26 Excessive Condensation on Unit . . . . . . . . . . . . . 26 To Clean Coil . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27 Check Drain . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27 Fan Motor Bearings . . . . . . . . . . . . . . . . . . . . . . . . 27 Clean Fan Wheel . . . . . . . . . . . . . . . . . . . . . . . . . . 27 Clean Electric Heater . . . . . . . . . . . . . . . . . . . . . . . 27 Electrical Wiring and Controls . . . . . . . . . . . . . . . 27 Valves and Piping . . . . . . . . . . . . . . . . . . . . . . . . . 27 Filters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27 Drain . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27 Warranty . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28

APPENDIX A BLOCK-OUT CONSTRUCTION . . . . . . . . . . . . . . . . . . . . . . . .29

APPENDIX B POTENTIOMETER ADJUSTMENT . . . . . . . . . . . . . . . . . . . . . . . . . .32

APPENDIX C EVO/ECM 4-SPEED ADJUSTMENT . . . . . . . . . . . . . . . . . . . . . . . . . .33

START-UP CHECKLIST FOR 42S SERIES FAN COIL AIR CONDITIONERS . . . . . . . . . .CL-1

SAFETY CONSIDERATIONS Installation of this unit can be hazardous due to electrical components and equipment location (such as an elevated structure). Only trained, qualified installers and service me- chanics should install and service this equipment. See Fig. 1 for the Proposition 65 warning label.

CAUTION

When installing this unit, observe precautions in the liter- ature, labels attached to the equipment, and any other safety precautions that apply. Follow all safety codes. Wear safety glasses and work gloves. Never wear

bulky or loose fitting clothing when working on any mechanical equipment. Gloves should be worn for proper protection against heat and other possible inju- ries. Safety glasses or goggles should always be worn when drilling, cutting, or working with chemicals such as refrigerants or lubricants.

Use care in handling and installing this unit. Never pressurize any equipment beyond specified test

pressures. Always pressure-test with an inert fluid or gas such as clear water or dry nitrogen to avoid possi- ble damage or injury in the event of a leak or compo- nent failure during testing. Always protect adjacent flammable material when welding or soldering. Use a suitable heat-shield material to contain sparks or drops of solder. Have a fire extinguisher readily available.

WARNING

ELECTRICAL SHOCK HAZARD Failure to follow this warning could cause personal injury or death. Before performing installation, service, or maintenance opera- tions on unit, turn off main power switch to unit and install lock(s) and lockout tag(s). Ensure electrical service to unit agrees with voltage and amperage listed on the unit rating plate. Unit may have more than one power switch.

42S Series Fan Coil Air Conditioners

2

Fig. 1 Proposition 65 Warning Label

INTRODUCTION Carrier fan coil units represent a prudent investment offering trouble-free operation and long service with proper installa- tion, operation, and regular maintenance. Your equipment is initially protected under the manufacturers standard warran- ty; however, this warranty is provided under the condition that the steps outlined in this manual for initial inspection, proper installation, regular periodic maintenance, and every- day operation of the equipment be followed in detail. This manual should be fully reviewed in advance before initial in- stallation, start-up, and any maintenance. Should any ques- tions arise, please contact your local sales representative or the factory BEFORE proceeding. This document contains general installation instructions for the 42S unit fan coils. Refer to the unit wiring diagram in- stalled on the blower housing or specific manufacturer litera- ture for any other type of factory-mounted controls. See drawings for unit configurations, dimensions, clearances, and pipe connections. Refer to unit wiring label for all electri- cal connections; follow NEC (National Electrical Code) and local codes.

PHYSICAL DATA Component weight data, shipping weights, and filter data of the 42S units are provided in Table 1.

PRE-INSTALLATION

Unpack and Inspect Units All units are carefully inspected at the factory throughout the manufacturing process under a strict detailed quality assur- ance program, and, where possible, ALL major components and sub-assemblies are carefully tested for proper operation and verified for full compliance with factory standards. Oper- ational testing of some customer-furnished components such as electronic control valves and digital controllers may be a possible exception. Each unit is carefully packaged for shipment to avoid damage during normal transit and handling. Equipment should always be stored in a dry place, and in the proper orientation as marked on the carton. All shipments are made from factory FOB and are the responsibility of the receiving party to in- spect the equipment upon arrival. Any obvious damage to the carton and/or its contents should be recorded on the bill of lading and a claim should be filed with the transportation company, and Carrier should be advised. After determining the condition of the carton exterior, carefully remove each unit from the carton and inspect for hidden damage. At this time, check to make sure that furnished only items such as thermostats, grilles etc. are accounted for whether packaged separately or shipped at a later date. Any hidden damage should be recorded and immediately reported to the transpor- tation company, a claim should be filed with the transporta- tion company, and Carrier should be notified. In the event a claim for shipping damage is filed, the unit, shipping carton, and all packing must be retained for physical inspection by the transportation company. All equipment should be stored in the factory shipping carton with internal packing in place until installation. At the time of receipt, the equipment type and arrangement should be verified against the order documents. Should any discrepancy be found, the local sales representative should be notified immediately so that proper action may be taken. Should any questions arise concerning warranty repairs, the factory must be notified BEFORE any corrective action is taken. Where local repairs or alterations can be accom- plished, the factory must be fully informed of the extent and expected cost of those repairs before work is begun. Where factory operations are required, the factory must be contacted for authorization to return equipment and a Return Authoriza- tion Number will be issued. Unauthorized return shipments of equipment and shipments not marked with an authorization number will be refused. In addition, any claims for unautho- rized expenses will not be accepted by the manufacturer. Protect Units from Damage All equipment is designed and fabricated with robust materi- als and presents a rugged appearance. Still, great care must be taken to assure that no force or pressure is applied to the coil, risers, or piping during handling. Never use the risers to lift the unit. Also, depending on the options and accessories, some units could contain delicate components that may be damaged by improper handling. Lifting or supporting the cabinet only at the top and bottom should be avoided to main- tain the straight and square cabinet alignment. The unit must be lowered into the space taking care to properly align the ris- ers to engage the riser swaged section on the unit below. The risers should never be bent or pushed together to be passed through the floor slot and should never be lifted up or pulled down to meet the risers on the floor below or above. The ris- ers are designed with a 3-in. swage to accommodate a 2-in. overlap and minor floor to floor variations.

This product can expose you to chemicals including Acrylamide, which is known to the State of California to cause cancer and birth defects or other reproductive harm. For more information, go to www.P65Warnings.ca.gov

WARNING!

!

!

AVERTISSEMENT

ADVERTENCIA

Ce produit peut vous exposer des produits chimiques, y compris lacrylamide, qui est connu dans ltat de Californie pour causer le cancer et des malformations congnitales ou dautres problmes de reproduction. Pour de plus amples informations, prire de consulter www.P65Warnings.ca.gov

Este producto puede exponerlo a productos qumicos como la acrilamida, que en el estado de California es causante de cncer y defects de nacimiento u otros daos reproductivos. Para mayor informacin, visite www.P65Warnings.ca.gov

343839-101 REV.A

3

The equipment must always be properly supported. Tempo- rary supports used during installation or service must be ade- quate to hold the equipment securely. Equipment should al- ways be stored in the proper orientation as marked on the car- ton. To maintain warranty, protect units against hostile environment (such as rain, snow, or extreme temperatures), theft, vandalism, and debris on jobsite. Equipment covered in this manual is not suitable for outdoor installations. Do not al- low foreign material to fall into drain pan. Prevent dust and debris from being deposited on motor, fan wheels and cool- ing/heating coils. Failure to do so may have serious adverse effects on unit operation, and in the case of the motor and blower assembly, may result in immediate or premature fail-

ure. Manufacturer's warranty is void if foreign material is al- lowed to be deposited on the motor or blower wheels of any unit. Some units and/or job conditions may require some form of temporary covering during construction. Prepare Jobsite for Unit Installation To save time and to reduce the possibility of costly errors, set up a complete sample installation in a typical room at jobsite. Check all critical dimensions such as pipe, wire, and duct connection requirements. Refer to job drawings and product dimension drawings as required (see Fig. 2-11). Instruct all trades in their part of the installation.

Table 1 Physical Data 42S Series Units

*Calculate Operating Weight of Unit: Shipping Weight + Coil Water Weight x Number of Coil Rows. 42SJ units require two filters.

UNIT SIZE 42S 03 04 06 08 10 12 14 16 20 NOMINAL AIRFLOW (cfm) 300 400 600 800 1000 1200 1400 1600 2000 SHIPPING WEIGHT (lb)* 42SGA,SGM,SU 180 225 240 260 280 305 42SH 202 247 262 286 311 336 42SJ 360 450 480 520 560 610 42SGS 162 203 216 234 252 275 42SM 390 390 390 COILS FPI 14 fins/inch BLOWER (qty) 42SGA,SH,SU,SGM,SGS,SM 1 1 1 1 1 1 1 1 1 42SJ 2 2 2 2 2 2 FILTERS Nominal Size (in.) (1-in. thick) 121/2 x 241/4 161/4 x 263/4 201/2 x 291/4 241/2 x 291/2 261/2 x 291/2

Qty 1 PIPING CONNECTIONS Inlet (in. OD) 1/2, unless larger size valve package is selected

4

Fig. 2 42SGA Furred-In Stack Dimensions

Unit weights are based on dry coils and minimum rows. Weights exclude packaging, valves, and other components.

UNIT SIZE

NOM AIRFLOW

(CFM)

DIMENSIONS (in.) UNIT WEIGHT

(lb) Single Supply Double Supply TOP Supply

E G H I A B A B C D

03 300 14 8 14 6 14 10 17 11/2 11/2 14 180

04 400 14 12 14 6 14 10 17 11/2 11/2 14 225

06 600 18 10 18 6 16 12 20 1 2 18 240

08 800 18 12 18 6 16 12 20 1 2 18 260

10 1000 22 8 18 16 24 1 3 22 280

12 1200 22 8 18 16 24 1 3 22 305

LEGEND

CR Cold Water Return CS Cold Water Supply D Drain HR Hot Water Return HS Hot Water Supply R Return S Supply

**Factory-Installed. Field-Installed.

ITEM DESCRIPTION QTY

1 Electrical Knockouts 1

2 3-in. Expanded Section 3/5

3 Strip Heater (Optional) 1

4 Limit Switch** (Optional) 1

5 1/2-in. Isolation Ball Valves** 2/4

6 Flexible Drain Tube/P-Trap 1

7 Coil 1/2-in. OD Copper Tube 1

8 Filter, Throwaway, 1-in.** 1

9 Return Air Opening 1

10 Air Vent, Manual 1

11 Molex Connector for Field-Installed Stat 1

12 Control Box 1

13 Knockout (For Optional Remote Mounting) 2

14 Riser, Supply and Return (Copper) 2/4

15 Riser, Drain (Copper) 1

16 Drain Pan 1

17 Acoustical Bypass Panel 1

18 Blower 1

19 Motor, 3-Speed, PSC, with Quick Connect 1

20 Access Panel (Control Box) 1

21 Control Opening (Surface Mount Stat) 1

22 Duct Collar, 1/2-in. Extension (Typical) 1/2/3

23 Supply Air Opening(s) 1/2/3

24 Top Supply Collar 1-in Extension (Optional) 1

*Drawing provided for reference only. Dimensions may vary with options ordered. NOTES:

1. Units are fabricated of galvanized steel with a 16-gage galvanized fan deck. 2. All risers are insulated with (1/2-in. or 3/4-in. thick) closed cell insulation. 3. Thermostats shipped loose for field connection. 4. Risers are piped to coil with valves as specified. 5. Blower, motor, valves, coil, and filter are accessible through the return air opening. 6. Unit and control box are insulated. 7. Riser length = [(floor to floor) +2-in.], maximum riser length = 119-in. 8. Maximum riser size is 21/2-in. diameter. If larger sizes are required, please consult the factory. 9. Expansion loops in hot water heating circuits as required.

10. A 9-in. x 21/4-in. slot is provided in the inside back panel for coil connection penetration to permit expansion and contraction of risers. Care must be taken to position the risers so that coil connection is at center of slot.

11. Drawing is pictorial (see unit arrangements for actual supply and return air orientation). 12. All dimensions are in inches.

24

5

Fig. 3 42SHA Cabinet Dimensions

Unit weights are based on dry coils and minimum rows. Weights exclude packaging, valves, and other components.

UNIT SIZE

NOM AIRFLOW

(CFM)

DIMENSIONS (in.) UNIT

WEIGHT (lb)

SINGLE SUPPLY

DOUBLE SUPPLY C D E F G

A B A B

03 300 14 8 14 6 17 223/8 21/2 221/8 143/4 202

04 400 14 12 14 8 17 223/8 21/2 221/8 143/4 247

06 600 14 12 14 8 20 253/8 21/2 265/8 173/4 262

08 800 14 16 14 10 20 253/8 21/2 265/8 173/4 286

10 1000 18 16 14 12 24 293/8 21/2 311/8 173/4 311

12 1200 18 16 14 12 24 293/8 21/2 311/8 173/4 336

*Drawing provided for reference only. Dimensions may vary with options ordered. NOTES:

1. Units are fabricated of 18-gage galvanized steel with a 16-gage galvanized fan deck, painted with Arctic White. 2. Risers are piped to coil with valves as specified. 3. Blower, motor, valves, coil, and filter are accessible through the return air opening. 4. Unit and control box are insulated. 5. Riser length = [(floor to floor) +2-in.], maximum riser length = 119-in. 6. Maximum riser size is 21/2-in. diameter. If larger sizes are required, please consult the factory. 7. Expansion loops in hot water heating circuits as required. 8. A 9-in. x 21/4-in. slot is provided in the inside back panel for coil connection penetration to permit expansion and

contraction of risers. Care must be taken to position the risers so that coil connection is at center of slot. 9. Drawing is pictorial (see unit arrangements for actual supply and return air orientation).

10. 42SHA available in front return only. 11. All dimensions are in inches.

**Factory-Installed. Field-Installed.

ITEM DESCRIPTION QTY

1 Full Riser Chase 1

2 Electrical Knockouts 1

3 3-in. Expansion Section 3/5

4 Strip Heater (Optional) 1

5 Limit Switch** (Optional) 1

6 1/2-in. Isolation Ball Valves** 2/4

7 Flexible Drain Tube/P-Trap 1

8 Drain Pan 1

9 Coil 1/2-in. OD Tube 1

10 Filter, Throwaway, 1-in.** 1

11 Air Vent, Manual 1

12 Control Box 1

13 Cabinet Camloc Fasteners 2

14 3-Speed Switch (Optional) 1

15 Electrical Access Panel 1

16 Riser, Supply and Return (Copper) 2/4

17 Riser, Drain (Copper) 1

18 Return Air Panel 1

19 Motor, 3-Speed, PSC 1

20 Blower 1

21 Thermostat (Optional) 1

22 Hinged Control Access Door 1

23 Double Deflection Steel Core Grille Assembly 1

LEGEND

CR Cold Water Return CS Cold Water Supply D Drain HR Hot Water Return HS Hot Water Supply R Return S Supply

23

22

21

20

19

6

Fig. 4 42SJ Back-to-Back Furred-In Stack Dimensions

Unit weights are based on dry coils and minimum rows. Weights exclude packaging, valves, and other components.

UNIT SIZE

NOM AIRFLOW

(CFM)

DIMENSIONS (in.) UNIT

WEIGHT (lb)

SINGLE SUPPLY

DOUBLE SUPPLY TOP SUPPLY

E G H I J A B A B C D

03 300 14 8 14 6 14 10 17 11/2 11/2 14 395/8 360

04 400 14 12 14 6 14 10 17 11/2 11/2 14 395/8 450

06 600 18 10 18 6 16 12 20 1 2 18 455/8 480

08 800 18 12 18 6 16 12 20 1 2 18 455/8 520

10 1000 22 8 18 16 24 1 3 22 535/8 560

12 1200 22 8 18 16 24 1 3 22 535/8 610

*Drawing provided for reference only. Dimensions may vary with options ordered. NOTES:

1. Units are fabricated of 18-gage galvanized steel with a 16-gage galvanized fan deck. 2. All risers are insulated with closed cell insulation. 3. Thermostats shipped loose for field connection. 4. Risers are piped to coil with valves as specified. 5. Blower, motor, valves, coil, and filter are accessible through the return air opening. 6. Unit and control box are insulated. 7. Riser length = [(floor to floor) +2-in.], maximum riser length = 119-in. 8. Maximum riser size is 21/2-in. diameter. If larger sizes are required, please consult the factory. 9. Expansion loops in hot water heating circuits as required.

10. A 9-in. x 21/4-in. slot is provided in the inside back panel for coil connection penetration to permit expansion and contraction of risers. Care must be taken to position the risers so that coil connection is at center of slot.

11. Drawing is pictorial (see unit arrangements for actual supply and return air orientation). 12. All dimensions are in inches.

**Factory-Installed. Field-Installed.

ITEM DESCRIPTION QTY

1 Electrical Knockouts 6

2 Gypsum Board, 5/8-in. Type X 1

3 3-in. Expanded Section 3/5

4 Strip Heater** (Optional) 2

5 Limit Switch** (Optional) 2

6 1/2-in. Isolation Ball Valves** 4/8

7 Thermafiber Insulation 2

8 Flexible Drain Tube/P-Trap 2

9 Coil 1/2-in. OD Copper Tube 2

10 Filter, Throwaway, 1-in.** 2

11 Return Air Opening 2

12 Air Vent, Manual 2

13 Knockout (For Optional Remote Mounting) 2

14 Molex Connector for Field Installed Stat 2

15 Control Box 2

16 Riser, Drain (Copper) 1

17 Riser, Supply and Return (Copper) 2/4

18 Drain Pan 2

19 Return Air Blockoff Panel (Optional) 1

20 Blower 2

21 Motor, 3-Speed, PSC, with Quick Connect 2

22 Access Panel (Control Box) 2

23 Control Opening (Surface Mount Stat) 2

24 Duct Collar, 1/2-in. Extension (Typical) 1/2/3

25 Supply Air Opening(s) 1/2/3

26 Top Supply Duct Collar, 1-in. Extension (Optional) 1

LEGEND

CR Cold Water Return CS Cold Water Supply D Drain HR Hot Water Return HS Hot Water Supply R Return S Supply

SJA 4-PIPE

OPTION

HR

HS

D

CR

CS

3(76) 3(76)

3-5/8(92)

3-5/8(92)*

3 (76)

25

24

23

22

21

20

19

18

17

16I E

1 (25)

15

14

13

12

11

10

9

8 5 (127)

63 (1600)

54 (1372)

E

J

R is

e Le

ng th

(NOTE7)

88 2558

SIDE VIEW

4

5

6

AG 3

B

3 (76)

2

1

1-1/4 (32)

D H

TOP VIEW C SJA

H

R D S

SJB

FRONT VIEW

26

CL

7

7

Fig. 5 42SGM Furred-In Master Stack Dimensions

Unit weights are based on dry coils and minimum rows. Weights exclude packaging, valves, and other components.

UNIT SIZE

NOM AIRFLOW

(CFM)

DIMENSIONS (in.) UNIT

WEIGHT (lb)

SINGLE SUPPLY

DOUBLE SUPPLY

TOP SUPPLY E G H I

A B A B C D

03 300 14 8 14 6 14 10 17 11/2 11/2 14 180

04 400 14 12 14 6 14 10 17 11/2 11/2 14 225

06 600 18 10 18 6 16 12 20 1 2 18 240

08 800 18 12 18 6 16 12 20 1 2 18 260

10 1000 22 8 18 16 24 1 3 22 280

12 1200 22 8 18 16 24 1 3 22 305

**Factory-Installed. Field-Installed.

ITEM DESCRIPTION QTY

1 Electrical Knockouts 1

2 3-in. Expanded Section 3/5

3 Strip Heater** (Optional) 1

4 Limit Switch** (Optional) 1

5 1/2-in. Isolation Ball Valves** 2/4

6 Flexible Drain Tube/P-Trap 1

7 Coil 1/2-in. OD Copper Tube 1

8 Filter, Throwaway, 1-in.** 1

9 Return Air Opening 1

10 Air Vent, Manual 1

11 Knockout (For Optional Remote Mounting) 2

12 Molex Connector for Field-Installed Thermostat 1

13 Control Box 1

14 Riser, Supply and Return (Copper) 2/4

15 Riser, Drain (Copper) 1

16 Drain Pan 1

17 Acoustical Bypass Panel 1

18 Blower 1

19 Motor, 3-Speed, PSC, with Quick Connect 1

20 Access Panel (Control Box) 1

21 Control Opening (Surface Mount Thermostat) 1

22 Duct Collar, 1/2-in. Extension (Typical) 1/2/3

23 Supply Air Opening(s) 1/2/3

24 Top Supply Duct Collar, 1-in. Extension (Optional) 1

*Drawing provided for reference only. Dimensions may vary with options ordered. NOTES:

1. Units are fabricated of 18-gage galvanized steel with a 16-gage galvanized fan deck. 2. All risers are insulated with closed cell insulation. 3. Thermostats shipped loose for field connection. 4. Risers are piped to coil with valves as specified. 5. Blower, motor, valves, coil, and filter are accessible through the return air opening. 6. Unit and control box are insulated. 7. Riser length = [(floor to floor) +2-in.], maximum riser length = 119-in. 8. Maximum riser size is 21/2-in. diameter. If larger sizes are required, please consult the factory. 9. Expansion loops in hot water heating circuits as required.

10. A 9-in. x 21/4-in. slot is provided in the inside back panel for coil connection penetration to permit expansion and contraction of risers. Care must be taken to position the risers so that coil connection is at center of slot.

11. Drawing is pictorial (see unit arrangements for actual supply and return air orientation). 12. All dimensions are in inches.

24

LEGEND

CR Cold Water Return CS Cold Water Supply D Drain HR Hot Water Return HS Hot Water Supply R Return S Supply

8

Fig. 6 42SGS Furred-In Slave Stack Dimensions

*Drawing provided for reference only. Dimensions may vary with options ordered. NOTES:

1. Units are fabricated of 18-gage galvanized steel with a 16-gage galvanized fan deck. 2. All risers are insulated with closed cell insulation. 3. Thermostats shipped loose for field connection. 4. Risers are piped to coil with valves as specified. 5. Blower, motor, valves, coil, and filter are accessible through the return air opening. 6. Unit and control box are insulated. 7. Riser length = [(floor to floor) +2-in.], maximum riser length = 119-in. 8. Maximum riser size is 21/2-in. diameter. If larger sizes are required, please consult the factory. 9. Expansion loops in hot water heating circuits as required.

10. A 9-in. x 21/4-in. slot is provided in the inside back panel for coil connection penetration to permit expansion and con- traction of risers. Care must be taken to position the risers so that coil connection is at center of slot.

11. Drawing is pictorial (see unit arrangements for actual supply and return air orientation). 12. All dimensions are in inches.

Unit weights are based on dry coils and minimum rows. Weights exclude packaging, valves, and other components.

UNIT SIZE

NOM AIRFLOW

(CFM)

DIMENSIONS (in.) UNIT

WEIGHT (lb)

SINGLE SUPPLY

DOUBLE SUPPLY TOP SUPPLY

E G H I A B A B C D

03 300 14 8 14 6 14 10 17 11/2 11/2 14 162

04 400 14 12 14 6 14 10 17 11/2 11/2 14 203

06 600 18 10 18 6 16 12 20 1 2 18 216

08 800 18 12 18 6 16 12 20 1 2 18 234

10 1000 22 8 18 16 24 1 3 22 252

12 1200 22 8 18 16 24 1 3 22 275

**Factory-Installed. Field-Installed.

ITEM DESCRIPTION QTY

1 Electrical Knockouts 1

2 Strip Heater** (Optional) 1

3 Limit Switch** (Optional) 1

4 1/2-in. Isolation Ball Valves** 2/4

5 Coil Stub Outs 2/4

6 Shipping Brace 2/4

7 Flexible Drain Tube/P-Trap 1

8 Coil 1/2-in. OD Copper Tube 1

9 Filter, Throwaway, 1-in.** 1

10 Return Air Opening 1

11 Air Vent, Manual 1

12 Knockout (For Optional Remote Mounting) 2

13 Molex Connector for Field-Installed Stat 1

14 Control Box 1

15 Drain Pan 1

16 Return Air Blockoff Panel (Optional) 1

17 Blower 1

18 Motor, 3-Speed, PSC, with Quick Connect 1

19 Access Panel (Control Box) 1

20 Control Opening (Surface Mount Thermostat) 1

21 Duct Collar, 1/2-in. Extension (Typical) 1/2/3

22 Supply Air Opening(s) 1/2/3

23 Top Supply Duct Collar 1-in. Extension (Optional) 1

23

LEGEND

CR Cold Water Return CS Cold Water Supply D Drain HR Hot Water Return HS Hot Water Supply R Return S Supply

9

Fig. 7 42SU Universal Furred-In Stack Dimensions

*Unit weights are based on dry coils and minimum rows. Weights exclude packaging, valves, and other components.

UNIT SIZE

UNIT WEIGHT*

(lb)

DIMENSIONS (in.) FILTER SIZE

(in.)SIDE SUPPLY TOP SUPPLY

A B SIZE C D SIZE E F H I

03 180 14 12 14 x 12 14 10 14 x 10 17 3 11/2 14 121/2 x 241/4 x 1

04 225

06 240 18 12 18 x 12 16 12 16 x 12 20 1 2 18 161/4 x 263/4 x 1

08 260

10 280 22 16 22 x 16 18 16 18 x 16 24 1 3 22 201/2 x 291/4 x 1

12 305

NOTES: 1. Units are fabricated of 18-gage galvanized steel with a 16-gage galvanized fan deck. 2. Thermostats shipped loose for field connection. 3. Blower, motor, valves, coil, and filter are accessible through the return air opening. 4. Unit and control box are insulated with 1/2-in. (13 mm) coated fiberglass insulation. 5. All risers will ship separately from units. Riser dimensions are measured from centerline of knockout. 6. Drain knockouts on three sides of cabinet. 7. Flex hoses ship with unit. 8. Thread fittings on both ends of flex hoses must be field tightened and leak tested. 9. Return air panel not shown.

10. All dimensions are in inches (mm).

LEGEND

CR Cold Water Return CS Cold Water Supply D Drain HR Hot Water Return HS Hot Water Supply PSC Permanent Split Capacitor SWT Sweat

ITEM DESCRIPTION QTY

1 Float Switch (Optional) 1

2 Drain Pan 1

3 Flexible Drain Tube/P-Trap 1

4 Drain Knockout (3 Sides) 1 each side

5 Blower 1

6 Riser Knockouts (3 Sides) 2/4

7 1/2-in. Flare Adaptor (SWT x 37.5) 2/4

8 Coil, 1/2-in. OD Copper Tube 1

9 1 in. Throwaway Filter (Factory Installed) 1

10 Manual Air Vent 1

11 Return Air Opening 1

12 Knockout (For Optional Thermostat Remote Mounting) 3

13 Molex Connector for Field-Installed Thermostat 1

14 Control Box 1

15 Duct Collar Extension (1/2-in. Side, 1-in. Top) 1/2/3

16 Outside Air Knockout (On Each Side Panel) 1

17 Electrical Knockouts (Near Each Side) 1

18 Service Switch (Optional) 1

19 Motor, 3-Speed, PSC, with Quick Connect 1

20 Access Panel for Motor and Blower Assembly 1

21 Access Panel (Control Box) 1

22 Control Opening Knockout (Surface Mount Thermostat) 1

23 Supply Air Openings (4 Sides and Top, Stitch Cut) 1/2/3

8 (203)

51 (1295)

I E

19

8

14

23 15

22

10

11

9

3

5

2

E

63 (1600)

21

12

13

17

7

6

16

A

B

F

39 (991)

5 (127)

1-1/4 (32)

4 (102)

88 (2235)

H R

H S

C R

C S

D

1-1/4 (32)

H C H

HR CR CSHS D

3-5/8 (92)

3-5/8 (92)

3 (76)3

(76)

4

1-1/4 (32)

20

18

1

DETAIL SIDE VIEWTOP VIEW

FRONT VIEW SIDE VIEW

10

Fig. 8 42SU Universal Furred-In Stack with Heater Dimensions

*Unit weights are based on dry coils and minimum rows. Weights exclude packaging, valves, and other components.

UNIT SIZE

UNIT WEIGHT*

(lb)

DIMENSIONS (in.) FILTER SIZE

(in.)SIDE SUPPLY TOP SUPPLY A B SIZE C D SIZE E F H I

03 182 14 12 14 x 12 14 10 14 x 10 17 3 11/2 14 121/2 x 241/4 x 1

04 227

06 242 18 12 18 x 12 16 12 16 x 12 20 1 2 18 161/4 x 263/4 x 1

08 262

10 282 22 16 22 x 16 18 16 18 x 16 24 1 3 22 201/2 x 291/4 x 1

12 307

NOTES: 1. Units are fabricated of 18-gage galvanized steel with a 16-gage galvanized fan deck. 2. Thermostats shipped loose for field connection. 3. Blower, motor, valves, coil, and filter are accessible through the return air opening. 4. Unit and control box are insulated with 1/2-in. (13 mm) coated fiberglass insulation. 5. All risers will ship separately from units. Riser dimensions are measured from centerline of

knockout. 6. Drain knockouts on three sides of cabinet. 7. Flex hoses ship with unit. 8. Thread fittings on both ends of flex hoses must be field tightened and leak tested. 9. Return air panel not shown.

10. All dimensions are in inches (mm).

LEGEND CR Cold Water Return CS Cold Water Supply D Drain HR Hot Water Return HS Hot Water Supply PSC Permanent Split Capacitor SWT Sweat

6

5

8 (203)

51 (1295)

I E

21

10

16

25 17

24

12

13

11

3

7

2

E

63 (1600)

23 14

15

19

9

8

18

A

B

F

39 (991)

5 (127)

1-1/4 (32)

4 (102)

88 (2235)

H R

H S

C R

C S

D

1-1/4 (32)

H C H

HR CR CSHS D

3-5/8 (92)

3-5/8 (92)

3 (76)3

(76)

4

1-1/4 (32)

1

22

20

TOP VIEW

FRONT VIEW SIDE VIEW

DETAIL SIDE VIEW

ITEM DESCRIPTION QTY 1 Float Switch (Optional) 1 2 Drain Pan 1 3 Flexible Drain Tube/P-Trap 1

4 Drain Knockout (3 Sides) 1 each side

5 Limit Switch (Factory Installed) 1 6 Strip Heater 1 7 Blower 1 8 Riser Knockouts (3 Sides) 2/4 9 1/2-in. Flare Adapter (SWT x 37.5) 2/4 10 Coil, 1/2-in. OD Copper Tube 1

11 1-in. Throwaway Filter (Factory Installed) 1

12 Manual Air Vent 1 13 Return Air Opening 1

14 Knockout (For Optional Thermostat Remote Mounting) 3

15 Molex Connector for Field-Installed Thermostat 1

16 Control Box 1

17 Duct Collar Extension (1/2-in. Side, 1-in. Top) 1/2/3

18 Outside Air Knockout (On Each Side Panel) 1

19 Electrical Knockouts (Near Each Side) 1

20 Service Switch (Optional) 1

21 Motor, 3-Speed, PSC, with Quick Connect 1

22 Access Panel for Motor and Blower Assembly 1

23 Access Panel (Control Box) 1

24 Control Opening Knockout (Surface Mount Thermostat) 1

25 Supply Air Openings (4 Sides and Top, Stitch Cut) 1/2/3

11

Fig. 9 42SM Mega Furred-In Stack Dimensions

NOTES: 1. Unit measurements on drawings are shown in inches (millimeters). 2. Units are fabricated of galvanized steel with a 16 gage galvanized fan deck. 3. Blower, motor, valves, coil, and filter are accessible through the return air opening. 4. Unit and control box are insulated with 1/2-in. (13 mm) coated fiberglass insulation. 5. Maximum riser size is 21/2-in. (64 mm) diameter. If larger sizes are required, please

consult the factory. 6. This drawing is pictorial. (See unit arrangements for actual supply and return air

orientation.) 7. Riser length = [floor to floor + 2-in. (51 mm)]. Maximum riser length is 119-in.

(3023 mm). 8. Unit shipping weight is approximately 390 lb (176 kg).

LEGEND CR Cold Water Return CS Cold Water Supply D Drain HR Hot Water Return HS Hot Water Supply PSC Permanent Split Capacitor SWT Sweat

30 (762)

28 (711)

SWT X 37.5 FLARE ADAPTER

ACOUSTICAL SERVICE ACCESS PANEL

FLEXIBLE DRAIN

TUBE/P-TRAP

FILTER

RISER KNOCKOUTS

(OPTIONAL) RETURN AIR

PANEL

DRAIN PAN

SUPPLY AIR OPENING

CONTROL BOX

COIL

MOTOR/BLOWER, 3 SPEED, PSC, HIGH STATIC

24 (610)

5 (127)

66* (1676)

59 (1499)

39 (991)

SUPPLY TOP DUCT

COLLAR, 1"(25)

(OPTIONAL) INTERLOCKING DISCONNECT

SWITCH

ELECTRICAL KNOCKOUTS

5 (127)

3 (76)

3 (76)

DHS CR 1-1/4 (32)

3 (76)

11 (280)

24 (610)

3 (76)

3 (76)

3-5/8 (92)3-5/8

(92) DHS CSCRHR 1-1/4 (32)

3 (76)

11 (280)

24 (610)

SUPPLY PLENUM (OPTIONAL)

22 (559)

4 22 (559)4 (102) 4 (102)

4-3/4 (121)

16 (406)

4-3/4 (121)

16 (406)

1 (25) 22 (559) 1 (25)

4-PIPE 2-PIPE

12

Fig. 10 Return-Air Wall Panels for Furred-In Units Panels with No Frame Dimensions

PANEL DIMENSIONS (in.)

NOTE: Dimensions in inches.

PANEL NO. UNIT UNIT SIZE A

1 42SG,SJ,

SU

03, 04 15.5 06, 08 19.5 10, 12 23.5

42SM 14,16,20 29.5

2 42SG,SJ 03, 04 15.5 06, 08 19.5 10, 12 23.5

3 42SG,SJ 03, 04 15.2 06, 08 19.2 10, 12 23.2

PANEL NO. 1

55.5

A

PANEL NO. 3

55.3

A

PANEL NO. 2 WITHOUT DOOR

61.1

A

PANEL NO. 1 FOR 42SU

52.5

A

PANEL NO. 1 FOR 42SM

60.5

A

PANEL NO. 2

61.1

A

13

Fig. 11 Return-Air Wall Panels for Furred-In Units Panels with Frame Dimensions

Identify and Prepare Units Be sure power requirements match available power source. Refer to unit nameplate and wiring diagram. 1. Check all tags on unit to determine if shipping screws or

braces are to be removed. Remove screws as directed. 2. Rotate the fan wheel by hand to ensure that the fan is

unrestricted and can rotate freely. Check for shipping damage and fan obstructions. Adjust blower motor as required.

NOTE: When optional factory-installed risers are ordered, see Appendix A on page 29 for block-out construction dimensions.

INSTALLATION

Step 1 Place Units in Position A factory tag is on top of each unit. The tag states riser tier number, floor, room number (if furnished), and supply-air ar- rangement. Check unit for any other labels that apply to in- stallation. Units should not be installed at locations other than that marked on the unit identification tag. If no specific detail is shown on tag for unit location, then determine configura- tion for the Universal unit based on information within this manual. Should any questions arise regarding unit configura- tion, contact the sales representative or the factory BEFORE proceeding. Remove unit from pallet and take directly to as- signed space for installation. While all equipment is designed and fabricated with sturdy materials and may present a rug- ged appearance, great care must be taken to assure that no force or pressure be applied to the coil, risers or piping during

PANEL AND FRAME DIMENSIONS (in.)

NOTE: Dimensions in inches.

PANEL NO. UNIT UNIT SIZE A

4 42SG,SJ, SU

03, 04 15.1 06, 08 19.1 10, 12 23.1

5 42SG,SJ 03, 04 15.1 06, 08 19.1 10, 12 23.1

PANEL NO. 4

54.7

A

PANEL NO. 5 WITH CONTROL DOOR

60.4

A

PANEL NO. 5 WITHOUT DOOR

60.4

A

PANEL NO. 4 FOR 42SU

51.7

A

14

handling. Never use the riser to lift the unit. To maintain the straight and square cabinet alignment, avoid lifting or sup- porting the cabinet only at the top and bottom. While the manufacturer does not become involved in the de- sign and selection of support methods and components, it should be noted that unacceptable system operating charac- teristics and/or performance may result from improper or in- adequate unit structural support. Due to variations in building construction, floor plans, and unit configurations, each instal- lation is different. The actual step-by-step method of installa- tion may vary from unit to unit. However, the risers should be moved as little as possible to avoid damage to the unit and in- ternal components. 42SG, SH, AND SJ UNITS 1. Begin on lowest floor and progress upward, floor by

floor, to top. 2. Examine drain line (Fig. 2-6). Be sure both ends are in

place and that it forms a trap. Avoid pinching drain line. 3. Tip unit over riser hole in building floor. As unit is

righted, align riser with unit below. NOTE: The unit must be lowered into the space, taking care to properly align the risers to engage the riser swaged section on the unit below. The riser should never be bent or pushed together to be passed through the floor slot and should never be lifted up or pulled down to meet the riser on the floor below or above. 4. Install isolator pads beneath the four corners of unit if

applicable. 5. Before anchoring the equipment in place, the unit must

be leveled, and the cabinet must be squared and brought into line with any adjacent or included walls. The unit may be anchored in place by bolting directly through the unit floor or attaching to the cabinet in some location that will not interfere with drywall or other items such as the supply grille, thermostat, or return access panel. When attaching to the unit cabinet, care must be taken to not penetrate the cabinet in locations that may damage inter- nal components or wiring. The mounting technique is a matter of choice; however, the unit should always be anchored securely to prevent movement during construc- tion and riser expansion and contraction. On certain units, shipping screws or braces must be removed after the unit is installed. Be sure to check all tags on the unit to determine which, if any, of these devices need to be removed.

6. If installing a 42SJ unit, follow steps a-h. For 42SG and 42SH units, continue to Step 7.

NOTE: The 42SJ back-to-back fan coils have been designed to serve two separate rooms. These products are classified by Un- derwriters Laboratories Inc. for use in penetration firestop sys- tems, control number 27WL when ordered with 1-hr rated chase. See UL Fire Resistance Directory for more information. Figure 12 shows the 42SJ unit with standard risers and with Siamese risers.

a. Lay out the control lines for the drywall track and studs in the floor and ceiling (see Fig. 13).

NOTE: Tracking may be installed now or after the unit is set. b. Position the 42SJ fan coil assembly between two

rooms with the unit drywall separation spotted over the wall control lines.

Fig. 12 42SJ Unit with Standard and Siamese Risers

Fig. 13 42SJ Wall Board Installation

c. If not already installed, install the floor and ceiling tracks up to and over the 42SJ fan coil unit.

d. Position the vertical studs and fasten into each of the stud pockets formed into the chase side panels (see Fig. 13).

NOTE: The studs may be mechanically fastened to the 42SJ fan coil. Care should be taken, however, not to penetrate the supply or return water risers or internal piping. Given the levelness of the floor and/or the fan coil assembly, some shimming may be necessary.

e. Assemble the specified wall construction up to and over the top of the fan coil unit (see Fig. 14).

f. With the fire-wall separation being complete, the drywall skin on the surface of the individual fan coils can be applied. Drywall can be applied directly to the surface, or, if necessary, studding may be installed on the corners for vertical control (see Fig. 14).

g. For ease of installation of the access panel, apply drywall on the return-air side directly to the surface of the unit (see Fig. 14). When applying the wall board directly to the unit cabinet, it may be neces- sary to shim the wall board in some areas to achieve the desired finished wall surface.

h. After all drywalling and painting is complete, install thermostats, supply air grilles and return air panels.

42SJB

42SJA

42SJB

42SJA

INSTALL WALL STUD INTO POCKET FORMED BY CHASE SIDE PANEL

CHASE SIDE PANEL

DRYWALL TRACK AND STUD CONTROL LINES

INSTALL STUDS FROM TOP OF UNIT TO CEILING (4 CORNERS)

15

Fig. 14 42SJ Unit Installation

7. Attach unit risers: NOTE: Submittals and product literature detailing unit opera- tion, controls, and connections should be thoroughly reviewed BEFORE beginning the connection and testing of risers and pip- ing. The supply and return connections are marked on the coil stub-outs and the valve package with an S meaning supply or inlet and R meaning return or outlet indicating flow direction to and from the coil. Blue letters mark the chilled water connec- tions and red letters mark the hot water connections.

a. Each riser has a 3-in. swaged portion at top and suf- ficient extension at bottom for an inserted length of approximately 2 inches. This unit-to-unit joint is NOT intended for full bottoming in the joint, but allows for variations in floor-to-floor dimensions and for correct riser positioning. If job requires that unit risers be supplemented with between-the-floor extensions, pieces may be field- supplied or factory-supplied. If factory-supplied, insulation is also provided.

b. Level unit to ensure proper coil operation and con- densate drainage. Proper riser installation and verti- cal positioning in the unit provides for a unit piping run-out to the service valves, which are centered in the access slots and level or sloping down slightly away from the riser. This prevents condensation from running back to the riser and possible damage from dripping at the bottom of a riser column. Each job has specific requirements, and satisfying those requirements is the responsibility of the installer.

After units are positioned and riser centered in pipe chase, make unit plumb in two directions, using unit frame as a reference.

c. Anchor unit to building. Use bolts or lag screws through holes provided in unit frame.

d. After all units in a stack are anchored, make unit-to- unit riser joints. First, center each coil-to-riser line within the expansion slot in the unit back panel. Each riser joint must be in vertical alignment with at least 1-in. penetration into the swaged joint. This condition is met if floor-to-floor dimension is as specified and coil-to-riser lines are properly cen- tered. Wide variations in floor-to-floor dimensions may necessitate cutting off or extending individual risers. Such modifications are the full responsibility of the installing contractor.

e. Before making the riser joints, the riser insulation must be pulled back away from the joint and pro- tected from heat during the brazing process. The riser joint filler material must be selected to with- stand the total operating pressure (both static and pumping head) to which the system will be sub- jected. Low temperature lead alloy solders such as 50/50 and 60/40 are normally not suitable.

8. Anchor risers as required: a. Do not fasten risers rigidly within each unit. Risers

must be free to move within pipe chase in response to normal vertical expansion and contraction. The unit internal piping is designed to accommodate a total riser vertical movement of 3/4-in., due to ther- mal expansion and/or contraction, when positioned properly at the jobsite.

b. Built-in risers must be anchored at some point to building structure. Unit design accommodates up to 11/2-in. expansion and contraction in riser assem- blies when positioned properly at the job-site. Risers must be anchored to the building structure to limit expansion and contraction movement to a maximum of 11/2-in. Riser anchoring and expansion compensa- tion is not included in the factory-supplied unit and must be field-provided. While some special riser features are available from the factory, riser end caps, air vents, and/or flushing loops are normally provided on the job by the installer.

9. Test the system for leaks after the connections are com- pleted. When testing with air or some other gas, it might be necessary to tighten stem packing nuts on some valves to maintain air pressure in the riser. Pressure testing ris- ers with water should be done with the unit service valves closed to prevent flushing debris into the unit valve packages. This will also allow risers to be drained down after testing in the winter to avoid freeze-up prob- lems. In the event that leaking or defective components are discovered, the sales representative must be notified before any repairs are attempted. All leaks should be repaired before proceeding with the installation.

10. After system integrity has been established, pull the riser insulation back into place over the joint and glue or seal to prevent sweating and heat loss or gain. Internal chilled

CAUTION

Toxic residues and loose particles resulting from manu- facturing and field piping techniques such as joint com- pounds, soldering flux, and metal shavings may be pres- ent in the unit and the piping system. Special consider- ation must be given to system cleanliness when connecting to solar, domestic or potable water systems. Failure to heed this warning could result in equipment damage.

WALL STUDS

INSTALL WALL GYPSUM BOARD (TO WALL AND OVER TOP OF UNIT)

INSTALL GYPSUM BOARD TO UNIT SIDES

INSTALL GYPSUM BOARD TO FACE OF UNIT WITH CUT OUTS FOR SUPPLY, RETURN AND THERMOSTAT

IMPORTANT: Chilled water and hot water risers should never be piped to drain down into the condensate riser. Exten- sive water damage can occur due to drain overflow. Drain chilled and hot water risers to a remote location away from the unit such as sink, room or floor drains.

16

water piping and valves are located over the drain pan and need not be insulated.

11. If required, fireproof where necessary. Any fireproofing requirements where risers or piping penetrate floors or walls are the responsibility of the installer. This work should be done only after all pressure testing is com- pleted. The fireproofing method used must accommodate pipe expansion and contraction and the piping must be protected from abrasion and chemical attack. The pipe insulation also must be maintained to prevent sweating and must be protected from wear or erosion at the joint between the insulation and the fireproofing material.

42SU UNIVERSAL ARRANGEMENT The unique design of the universal stack fan coil unit allows for field configuration for each unit. Air discharge, riser, drain, and outside air knockouts have been strategically locat- ed on each unit. Risers, shown with unit, are for reference on- ly. All risers are factory fabricated and shipped loose for field installation. It is important that you identify all of the unit feature loca- tions and which knockouts you intend to use before proceed- ing with the installation. See Fig. 15-19. Also, it must be de- termined whether your application requires a Mating Unit (primary/secondary) and its configuration. Consult your local sales representative or the factory for further details on pri- mary/secondary arrangements. Potential Universal Arrangement Unit Configurations Risers: Three Locations The pre-installed supply, return, and drain risers (2-pipe or 4- pipe applications) can be oriented on any of three sides of the unit (see Fig. 15). Risers cannot be installed on the return air side of the cabinet.

Fig. 15 42SU Unit Configuration

Unit orientation is determined based on the location of the risers in the building. The riser side of the universal stack unit always determines the rear of the unit. See Fig. 16.

Fig. 16 42SU Unit Orientation

Return Air: Single Location The return air/access panel may then be oriented on the left, right, or front of the unit. Supply Air: Five Locations (4 sides and top) Includes stitched design for 1/2-in. duct flanges. Outside Air: Two Locations Either side adjacent to the return air opening. NOTE: Outside air opening may be used on a side if risers are configured on that same side. Supply, Return, and Drain Riser Installation 1. Three sides of each universal stack unit have four supply

and return riser knockouts along the center and one drain knockout near the lower part of the unit (see Fig. 17). Identify whether your application uses a 2-pipe or 4-pipe configuration. a. Two-pipe configurations typically use the two inner

riser knockouts. b. Four-pipe configurations will use all four riser

knockouts. 2. Locate and mark the riser and drain knockouts that apply

to your particular unit application, ensuring proper orien- tation of the return air opening in room.

3. Insert a flat head screw driver into knockout slot shown in Fig. 18.

4. Pry screw driver back and forth until knockout tabs break away from the unit.

5. Discard knockout. Be careful of sharp edges. 6. Use a sharp retractable knife (see Fig. 19) and vertically

cut the insulation down the center of the riser and drain knockouts the full length of the knockout.

7. Use adhesive or glue to re-attach insulation that has pulled away from the unit during knockout removal process.

42SU CABINET

RETURN AIR

H R

CR D

H S

CSH R

CR D

H S

CS

HR CRDHS CS

D CRHS CSHRR D S

HR = HOT WATER RETURN HS = HOT WATER SUPPLY D = DRAIN CR = COLD WATER RETURN CS = COLD WATER SUPPLY

R = RETURN D = DRAIN S = SUPPLY

2- or 4-PIPE

REAR (RISER SIDE)

42SU CABINET

RIGHT

FRONT

LEFT

17

Fig. 17 Locate 42SU Unit Knockouts

Fig. 18 Remove 42SU Unit Knockouts

Fig. 19 42SU Unit Knockout Insulation Removal

Submittals and product literature detailing unit operation, controls, and connections should be thoroughly reviewed BE- FORE beginning the connection and testing of risers and piping. To assure optimal unit performance, the supply connection(s) are marked on the units coil with an S meaning supply or inlet and R meaning return or outlet indicating flow direc- tion to and from the coil. Blue letters mark the chilled water connections and red letters mark the hot water connections. The units internal piping is designed to accommodate a total riser vertical movement of 1 in., due to thermal expansion and/or contraction, when positioned properly at the jobsite. Risers must be anchored to the building structure to limit ex- pansion and contraction movement to a maximum of 3 inch- es. Riser anchoring and expansion compensation is not in- cluded in the unit and must be provided. Riser end caps, air vents, and/or flushing loops must be provided at the jobsite by the installer. Proper field riser installation and vertical positioning in the unit should have a pipe run-out to the service valves which are centered in the knockout access slots and that slope down slightly away from the riser (see Fig. 20). This prevents con- densation from running back to the riser and possible damage from dripping at the bottom of a riser column. Each job has specific requirements and satisfying those requirements is the responsibility of the installer. Riser to Unit Installation Before making the riser joints, the riser insulation must be pulled back away from the joint and protected from heat during the brazing process. Each riser joint must be in vertical alignment. Variations in floor-to-floor dimensions may re- quire field work such as cutting off or extending the risers. This operation is the responsibility of the installer. The riser joint filler material must be selected to withstand the total op- erating pressure (both static and pumping head) to which the system will be subjected. Low temperature lead alloy solders such as 50/50 and 60/40 are normally not suitable. Riser to Drain Installation 1. After the applicable supply, return, and drain knockouts

have been removed, carefully position the unit so that the riser ball valves penetrate into the unit through the riser

TOP SUPPLY AIR KNOCKOUT

TOP VIEW

ELECTRICAL KNOCKOUTS

SIDE SUPPLY AIR KNOCKOUT (1 PER SIDE)

RISER KNOCKOUTS (4 PER SIDE, EXCEPT ON RETURN AIR SIDE)

DRAIN KNOCKOUT (1 PER SIDE, EXCEPT ON RETURN AIR SIDE)

OUTSIDE AIR KNOCKOUT

(2 SIDES ONLY, ADJACENT TO

RETURN AIR OPENING)

SIDE VIEW

RETURN AIR

OPTIONAL ELECTRICAL KNOCKOUTS

KNOCKOUT SLOT

KNOCKOUT TAB

KNOCKOUT

KNOCKOUT TAB

DRAIN KNOCKOUT

SUPPLY AND RETURN

CAUTION

Toxic residues and loose particles resulting from manu- facturing and field piping techniques such as joint com- pounds, soldering flux, and metal shavings may be pres- ent in the unit and the piping system. Special consider- ation must be given to system cleanliness when connecting to solar, domestic or potable water systems.

DRAIN INSULATION CUT LINE

SUPPLY AND RETURN INSULATION CUT LINE

18

knockouts, making sure the insulation penetrates into the unit as shown in Fig. 20-23.

2. Before anchoring the equipment in place, the unit must be leveled and the cabinet must be plumb and squared. The unit may be anchored in place by bolting directly through the unit floor or attaching to the cabinet in some location that will not interfere with drywall or other items such as the supply grille, thermostat, or return access panel. When attaching to the unit cabinet, care must be taken to not penetrate the cabinet in locations that may damage internal components or wiring. The mounting technique is a matter of choice; however, the unit should always be anchored securely to prevent movement during construction and riser expansion and contraction. After anchoring the unit, it is then ready for the various service connections such as riser connections and electrical.

3. The plastic flare caps on the end of the riser ball valves should be removed and discarded.

4. All universal stack units use reinforced braided stainless steel flexible hose kits for piping between field-installed risers and unit water coils as shown in Fig. 21. The hose kit design has threaded connections on each end. The hose kits allow for riser fluctuations due to thermal expansion.

Fig. 20 42SU Unit Riser to Unit Installation Setup

Fig. 21 42SU Unit Riser to Unit Installation

Fig. 22 42SU Unit Riser to Unit Installation (Tighten Swivel Connections)

Fig. 23 42SU Unit Riser to Drain Installation

5. Use a wrench to tighten the swivel connections. Use a backup wrench to hold the riser ball valve stationary to prevent it from bending or twisting during installation as shown in Fig. 22. Be careful not to over-tighten swivel connections.

6. Locate the units coil fitting. 7. The plastic flare caps on the end of the coil fitting should

be removed and discarded. 8. Use a wrench to tighten the swivel connections. The baf-

fle acts as a secondary wrench. Be careful not to over- tighten swivel connections.

9. Locate the p-trap drain and rubber hose factory installed to the drain pan connection in the bottom of the unit as shown in Fig. 23.

10. Push the rubber drain hose over the riser drain stubout. Be careful not to bend the drain stubout.

11. Adjust the hose clamp over the riser stubout and rubber hose to hold in place as shown in Fig. 23.

12. Test for leaks. Any and all leaks should be repaired before proceeding with installation. When testing with air or some other gas, it might be necessary to tighten stem packing nuts on some valves to maintain air pres- sure in the riser. Pressure testing risers with water should be done with the unit service valves closed to prevent flushing debris into the unit valve packages. This will

FLARE CAP

BALL VALVE

RISER STUBOUT INSULATION

THREADED FLARE FITTING

UNIT INSULATIONOUTER CABINET

RISER KNOCKOUT SLOT

FLEXIBLE HOSE KIT

RISER

BALL VALVE

RISER STUBOUT INSULATION

CONNECTION POINT TO ANY FACTORY FURNISHED AND INSTALLED

COMPONENTS.

COIL

BAFFLE

CAUTION Hose connection torque requirements are 350 in. lb +10/ 0 in. lb to prevent leaks.

CAUTION Hose connection torque requirements are 350 in. lb +10/ 0 in. lb to prevent leaks.

BACK-UP WRENCH

BALL VALVE WRENCH

SWIVEL CONNECTION

DRAIN PAN

DRAIN CLAMP

CLAMP

RISER KNOCKOUT

UNIT INSULATION

P-TRAP

UNIT WALL

RISER

RISER STUBOUT

19

also allow risers to be drained down after testing in the winter to avoid freeze-up problems. In the event that leaking or defective components are discovered, the sales representative must be notified BEFORE any repairs are attempted. All leaks should be repaired before proceeding with the unit installation.

13. After system integrity has been established, the riser insulation must be pulled back into place over the joint and glued or sealed to prevent sweating and heat loss or gain. All of the risers, including the riser stubouts, should be properly covered with insulation. Internally mounted chilled water piping and valves are located over the drain pan and need not be insulated.

Any fireproofing requirements where risers or piping pene- trate floors or walls are the responsibility of the installer. This work should be done only after all pressure testing is com- pleted. The fireproofing method used must accommodate pipe expansion and contraction and the piping must be pro- tected from abrasion and chemical attack. The pipe insulation also must be maintained to prevent sweating and must be pro- tected from wear or erosion at the joint between the insulation and the fireproofing material. When no risers are ordered for the universal stack unit, it is the responsibility of the installer to make sure that an isola- tion ball valve is installed between each supply and return piping connection to the unit. Flare fittings are factory pro- vided to allow connection between the ball valves and the hoses. Supply Air Installation Each side of the unit has one supply air knockout as well as a supply air knockout on the top of the unit (see Fig. 17). 1. Determine which supply air opening/openings are

required for your application. NOTE: The supply air opening on the riser side of the unit should not be used. 2. Use a sharp retractable knife to trim insulation using cen-

ter knockout slot/trim line as pattern (see Fig. 24). 3. Use a sharp standard needle nose pliers and grab knock-

out tab (see Fig. 24).

Fig. 24 42SU Unit Supply Air Knockout Tab Location

4. Twist or pry pliers back and forth until knockout tab breaks away from unit.

5. Repeat for all supply air tabs until all have been broken. 6. Discard center knockout piece. Be careful of sharp

edges. 7. Use a sharp retractable knife to trim any excess insula-

tion using knockout hole as pattern. 8. Use duct pliers (hand seamers) to fold duct flange out of

the unit 90 degrees for each side of the supply air open- ing along duct break (see Fig. 24). The 90-degree flanges

can now be used as drywall stops to prevent coverage of discharge opening (see Fig. 25).

Fig. 25 42SU Supply Air Installation

9. Use adhesive or glue to re-attach insulation that has pulled away from the unit during knockout removal process.

10. For ducted applications tape should be applied along and around all of the supply air opening knockouts to prevent air leakage.

All installations should be made in compliance with all gov- erning codes and ordinances. Compliance with all codes is the responsibility of the installing contractor. 42SM UNITS The unique design of the mega stack fan coil unit allows for field-configuration of each unit. Risers, shown with unit, are for reference only. All risers are factory-fabricated and shipped loose for field installation. It is important that you identify all of the unit feature loca- tions before proceeding with the installation (see Fig. 9). Al- so, it must be determined whether your application requires a mating unit (primary/secondary) and its configurations. Con- sult your local sales representative or the factory for further details on primary/secondary arrangements. Unit orientation is determined based on the location of the risers in the building. Risers can only be installed on the rear side of the unit and always determine the rear of the mega stack unit. The return air is always on the front (see Fig. 26).

Fig. 26 42SM Unit Installation

KNOCKOUT TAB (10 PLACES)

DUCT BREAK (4 PLACES)

KNOCKOUT TAB TRIM LINE

UNIT WALL

UNIT INSULATION

90

DUCT FLANGE

RETURN AIR

42SM CABINET

HR CRDHS CS

HR = HOT WATER RETURN HS = HOT WATER SUPPLY D = DRAIN CR = COLD WATER RETURN CS = COLD WATER SUPPLY

D CRHS CSHR

R = RETURN D = DRAIN S = SUPPLY

R D S

2- or 4-PIPE

RIGHTLEFT

REAR

FRONT

20

Supply, Return, and Drain Risers

Submittals and product literature detailing unit operation, controls, and connections should be thoroughly reviewed BE- FORE beginning the connection and testing of risers and piping. The supply and return connections are marked on the coil stubouts and the valve package depending on your configura- tion. CS means cold water supply, CR means cold water return, HS means hot water supply, and HR means hot water return to indicate flow direction to and from the coil. Blue letters mark the chilled water connections and red letters mark the hot water connections. The unit internal piping is designed to accommodate a total riser vertical movement of 11/2 in., due to thermal expansion and/or contraction, when positioned properly at the jobsite. Risers must be anchored to the building structure to limit riser expansion and contraction movement to a maximum of 3 inches. Riser anchoring and expansion compensation is not included in the factory-supplied unit and must be field-pro- vided. While some special riser features are available from the factory, riser end caps, air vents, and/or flushing loops are normally provided on the job by the installer. Riser to Unit Installation Proper riser installation and vertical positioning in the unit provides for a unit piping run-out to the service valves which are centered in the access slots and level or sloping down slightly away from the riser. This prevents condensation from running back to the riser and possible damage from dripping at the bottom of a riser column. Each job has specific require- ments and satisfying those requirements is the responsibility of the installer. Riser to Drain Installation 1. Carefully position the unit so that the riser ball valves

penetrate into the unit through the riser slot making sure the insulation penetrates into the unit as shown in Fig. 27 and 28.

Fig. 27 42SM Riser to Unit Installation

Fig. 28 42SM Riser to Unit Connection

2. Before anchoring the equipment in place, the unit must be leveled and the cabinet must be plumb and squared. The unit may be anchored in place by bolting directly through the units floor or attaching to the building walls through the cabinet walls in some location that will not interfere with drywall or other items such as the supply grille, ther- mostat, or return access panel. When attaching sheet rock to the unit cabinet, care must be taken to not penetrate the cabinet in locations that may damage internal components or wiring. The mounting technique is a matter of choice; however, the unit should always be anchored securely to the building to prevent movement during construction and riser expansion and contraction. After anchoring the unit, it is then ready for the various service connections such as riser connections and electrical.

3. The plastic flare caps on the end of the riser ball valves should be removed and discarded.

4. All mega stack units use reinforced braided stainless steel flexible hose kits for piping between field-installed risers and unit water coils as shown in Fig. 28. Each hose has threaded connections on each end. The hose kits allow for riser fluctuations due to thermal expansion.

5. Use a wrench to tighten the swivel connections. Use a backup wrench to hold the riser ball valve stationary to prevent it from bending or twisting during installation as shown in Fig. 29. Be careful not to over-tighten swivel connections.

Fig. 29 42SM Riser to Unit Installation (Tighten Swivel Connections)

CAUTION Toxic residues and loose particles resulting from manu- facturing and field piping techniques such as joint com- pounds, soldering flux, and metal shavings may be pres- ent in the unit and the piping system. Special consider- ation must be given to system cleanliness when connecting to solar, domestic or potable water systems.

BALL VALVE

RISER STUBOUT INSULATION

THREADED FLARE FITTING

FLARE CAP

UNIT INSULATIONOUTER CABINET

RISER KNOCKOUT SLOT

CAUTION Hose connection torque requirements are 350 in. lb +10/ 0 in. lb to prevent leaks.

FLEXIBLE HOSE KIT

RISER

BALL VALVE

RISER STUBOUT INSULATION

CONNECTION POINT TO ANY FACTORY FURNISHED AND INSTALLED

COMPONENTS.

COIL BAFFLE

BACK-UP WRENCH

BALL VALVE WRENCH

SWIVEL CONNECTION

21

6. Locate the units coil fitting. 7. The plastic flare caps on the end of the coil fitting should

be removed and discarded. 8. Use a wrench to tighten the swivel connections. The baf-

fle acts as a secondary wrench. Be careful not to over- tighten swivel connections.

9. Locate the p-trap drain and rubber hose factory installed to the drain pan connection in the bottom of the unit as shown in Fig. 30.

10. Push the rubber drain hose over the riser drain stubout. Be careful that you do not bend the drain stubout.

11. Adjust the hose clamp over the riser stubout and rubber hose to hold in place as shown in Fig. 30.

Fig. 30 42SM Riser to Drain Installation

12. Test for leaks. Any and all leaks should be repaired before proceeding with installation. When testing with air or some other gas, it might be necessary to tighten stem packing nuts on some valves to maintain air pres- sure in the riser. Pressure testing risers with water should be done with the unit service valves closed to prevent flushing debris into the unit valve packages. These valves will also allow risers to be drained down after testing in the winter to avoid freeze-up problems. In the event that leaking or defective components are discov- ered, the sales representative must be notified BEFORE any repairs are attempted. All leaks should be repaired before proceeding with the unit installation.

13. After system integrity has been established, the riser insulation must be pulled back into place over the joint and glued or sealed to prevent sweating and heat loss or gain. All of the risers including the riser stubouts should be properly covered with insulation. Internally mounted chilled water piping and valves are located over the drain pan and need not be insulated. Any fireproofing requirements where risers or piping penetrate floors or walls are the responsibility of the installer. This work should be done only after all pressure testing is completed. The fireproofing method used must accommodate pipe expansion and contraction and the piping must be protected from abrasion and chemical attack. The pipe insulation also must be maintained to prevent sweating and must be protected from wear or erosion at the joint between the insulation and the fire- proofing material. When no risers are ordered for the mega stack unit, it is the responsibility of the installer to make sure that a

field-supplied isolation ball valve is installed between each supply and return piping connection to the unit. Flare fittings are factory provided to allow connection between the ball valves and the hoses. Variations in floor-to-floor dimensions may require field work such as cutting off or extending the risers. This operation is the responsibility of the installer. The riser joint filler material must be selected to withstand the total operating pressure (both static and pumping head) to which the system will be subjected. Low temperature lead alloy solders such as 50/50 and 60/40 are nor- mally not suitable. Chilled water and hot water risers should never be piped to drain down into the condensate riser. Extensive water damage can occur due to drain overflow. Drain chilled and hot water risers to a remote location away from the unit such as sink, room, or floor drains. All installations should be made in compliance with all governing codes and ordinances. Compliance with all codes is the responsibility of the installing contractor.

Supply Air Installation 1. If the unit has been ordered with a supply air plenum,

then each side of the unit has one supply air knockout as well as a supply air knockout on the top of the unit (see Fig. 31 and 32).

2. Determine which supply air opening/openings are required for your application.

NOTE: The supply air opening on the riser side of the unit should not be used. 3. Use a sharp retractable knife to trim insulation using cen-

ter knockout slot/trim line as pattern (see Fig. 33). 4. Use a sharp standard needle nose pliers and grab knock-

out tab (see Fig. 33). 5. Twist or pry pliers back and forth until knockout tab

breaks away from unit. 6. Repeat for all supply air tabs until all have been broken. 7. Discard center knockout piece. Be careful of sharp

edges. 8. Use a sharp retractable knife to trim any excess insula-

tion using knockout hole as pattern. 9. Use duct pliers (hand seamers) to fold duct flange out of

the unit 90 degrees for each side of the supply air open- ing along duct break (see Fig. 33). The 90-degree flanges can now be used as drywall stops to prevent coverage of discharge opening (see Fig. 34).

Fig. 31 42SM Unit Knockout Locations Side View (Typical)

CAUTION Hose connection torque requirements are 350 in. lb +10/ 0 in. lb to prevent leaks.

DRAIN PAN

DRAIN CLAMP

CLAMP

RISER KNOCKOUT

UNIT INSULATION

P-TRAP

UNIT WALL

RISER

RISER STUBOUT

SIDE SUPPLY AIR KNOCKOUT (1 PER SIDE)

SIDE VIEW

MEGA MOD CABINET

OPTIONAL SUPPLY PLENUM

22

Fig. 32 42SM Unit Knockout Locations Top View (Typical)

Fig. 33 42SM Unit Supply Air Knockout Tab Location

Fig. 34 42SM Unit Supply Air Installation

10. Use adhesive or glue to re-attach insulation that has pulled away from the unit during knockout removal process.

11. For ducted applications, tape should be applied along and around all of the supply air opening knockouts to prevent air leakage.

Step 2 Make Electrical Connections Refer to unit nameplate for required supply voltage, fan and heater amperage, and required circuit ampacity. Refer to unit wiring diagram for unit and field wiring. Since each project is different and each unit on a project may be different, the in- staller must be familiar with the wiring diagram and name- plate on the unit before beginning any wiring. Make sure all electrical connections are in accordance with unit wiring dia- gram and all applicable codes. The type and sizing of all wir- ing and other electrical components such as circuit breakers, disconnect switches, etc. should be determined by the indi- vidual job requirements, and should not be based on the size and/or type of connection provided on the equipment. All in- stallations should be made in compliance with all governing

codes and ordinances. Compliance with all codes is the re- sponsibility of the installing contractor. The fan motor(s) should never be controlled by any wiring or device other than the factory-supplied switch or thermostat/ switch combination unless prior factory authorization is ob- tained. Fan motor(s) may be temporarily wired for use during construction only with prior factory approval and only in strict accordance with the instructions issued at that time. The unit electrical supply is designed to enter through knock- outs provided in the top of the unit and pass down through matching knockouts in the control section top. Where space allows, power may be pulled directly through the side of the cabinet into the control section. All components furnished for field installation by either the factory or the controls contractor should be located and checked for proper function and compatibility. All internal components should be checked for shipping damage, and any loose connections should be tightened to minimize problems during start-up. Any devices such as fan switches or thermostats that have been furnished from the factory for field installation must be wired in strict accordance with the wiring diagram that ap- pears on the unit. Failure to do so could result in personal in- jury or damage to components, and will void all manufactur- er's warranties. The manufacturer assumes no responsibility for any damages and/or injuries resulting from improper field installation and/ or wiring. FACTORY-INSTALLED OPTIONS Condensate Overflow Switch The condensate overflow switch is used to detect a clogged condensate drain pan. The condensate switch uses a normally closed contact to allow the system control power to pass through the switch energizing the water valves and fans al- lowing normal operation. When an overflow condition is de- tected by the switch, it opens the NC contact and de-energizes the water valve and fans. Aquastat The aquastat must be able to sense whether the flowing water is being chilled or heated and switches a contact closed to pro- vide automatic summer or winter changeover for the system. When a two-pipe cooling/heating system with optional auxilia- ry electric heat is desired, an additional aquastat is required. If the valve package is field-supplied, the aquastat must be in- stalled in a location where it will sense the water temperature regardless of control valve position. A bleed bypass should be provided for proper operation of aquastat. The bleed line al- lows a small amount of water to flow from supply to return piping when the control valve is closed for loop temperature sensing. All field wiring must be in accordance with governing codes and ordinances. Any modification of unit wiring without fac- tory authorization will invalidate all factory warranties and nullify any agency listings. The manufacturer assumes no re- sponsibility for any damages and/or injuries resulting from improper field installation and/or wiring.

Units may be equipped with line voltage controls or 24 vac control systems. The following descriptions are for typical control sequences only. For detailed control operating se- quence, refer to thermostat operating instructions.

TOP SUPPLY AIR KNOCKOUT

TOP VIEW

ELECTRICAL KNOCKOUTS

KNOCKOUT TAB (10 PLACES)

DUCT BREAK (4 PLACES)

KNOCKOUT TAB TRIM LINE

UNIT WALL

UNIT INSULATION

90

DUCT FLANGE

IMPORTANT: Refer to unit wiring label for specific func- tions. Standard wiring diagram configurations are main- tained in separate Fan Coil Wiring Diagram literature. Re- fer to unit wiring label for specific functions.

23

STANDARD WIRING PACKAGES Thermostatic Electric Valve Control, 2-Pipe A thermostatically controlled 2-position valve provides supe- rior control to fan cycling. With this control, the fan runs con- tinuously unless it is manually switched to the OFF or AUTO position. The fan must be on before the valve can be opened to supply water to the coil. This system can be used for normal 2-pipe changeover sys- tems and can also be furnished for cooling-only or heating- only applications by omitting the changeover and specifying which application is intended. Wiring diagrams show typical applications. Refer to wiring diagram on unit blower housing for unit specific wiring. Thermostatic 2-Pipe Auxiliary Electric Heat with Valve Control This system, also called twilight or intermediate season elec- tric heat, goes a long way towards solving the spring and fall control problems of 2-pipe systems. Chilled water can be run late into the fall, turned on early in the spring, and electric heat will still be available to all units whenever required. In winter, the system is switched over to hot water. Two changeover devices are required for this. One device switches the action of the thermostat and the other locks out the elec- tric heat when hot water is in the coil. With this system, the fan runs continuously unless manually switched to OFF or AUTO position. Fan must be on before thermostat can send signal to open chilled water valve or turn on electric heater. Two control methods are available: 1. Use the standard automatic changeover thermostat with a

dead band between heating and cooling. 2. Use a manual changeover thermostat. With this method

only one changeover is required. Be sure to include a 2-way or 3-way electric valve with this system. NOTE: Wiring diagrams are for typical applications. If other voltages for heaters or controls are specified, wiring may differ from that shown. Refer to wiring diagram on unit blower hous- ing for unit specific wiring. Thermostat 2-Pipe Total Electric Heat with Valve Control With this system, the complete heating requirement for the space is provided by the electric heater; the water system is never changed over for heating. It is therefore possible, just as with 4-pipe systems, to have heating or cooling at any time of the year. The fan runs continuously unless it is manually switched to OFF or AUTO position. Fan must be on before thermostat can send signal to open chilled water valve or turn on electric heater. Normally, an automatic changeover thermostat with a dead band between heating and cooling is used, but a manual changeover thermostat is also suitable. A 2-way or 3-way valve must also be used so that the chilled water is off when- ever the heater is on. No changeover device to sense water temperature is necessary. NOTE: Wiring diagrams are for typical applications. If other voltages for heaters or controls are specified, wiring may differ from that shown. Refer to wiring diagram on unit blower hous- ing for unit specific wiring. Thermostatic Valve Control, 4-Pipe The 4-pipe system provides the ultimate in economy and room temperature control. Both hot water and chilled water are available at any time.

Normally an automatic changeover thermostat is used, but a manual changeover thermostat is also suitable. Two 2-way valves, two 3-way valves, or one 2-way plus one 3-way valve must be selected. An automatic changeover device to sense water temperature is not required. With this system, the fan runs continuously unless it is manu- ally switched to OFF/AUTO position. Fan must be on before thermostat can send signal to open the chilled water or hot water valve. NOTE: Wiring diagrams are for typical applications. If other voltages for heaters or controls are specified, wiring may differ from that shown. Refer to wiring diagram on unit blower hous- ing for unit specific wiring. Step 3 Make Duct Connections Install all ductwork to and from unit in accordance with proj- ect plans, specifications, and all applicable codes. Duct con- struction must allow unit to operate within duct external static pressure limits as shown on job submittals. Units designed to operate with ductwork may be damaged if operated without intended ductwork attached. Units provided with outside air should have some method of low-temperature protection to prevent freeze-up. This protec- tion may be any of several methods, such as a low tempera- ture thermostat to close the outside air damper or a preheat coil to temper the outside air before it reaches the unit. It should be noted that none of these methods will adequately protect the coil in the event of power failure. The safest meth- od of freeze protection is to use glycol in the proper percent solution for the coldest expected air temperature. Insulate ductwork as required. Use flexible connections to minimize duct-to-unit alignment problems and noise trans- mission where specified. The manufacturer assumes no responsibility for undesirable system operation due to improper system design, equipment or component selection, and/or installation of ductwork, grilles, and other related components.

Step 4 Frame and Finish Unit Models 42SG, SH, SJ, SU and SM have factory enclosures and may be finished with normally accepted wall covering. However, drywall secured with adhesive bonding alone is not recommended. Concealed units are designed to have gypsum board or other types of wall board applied directly to the unit cabinet surface to a maximum combined thickness of 5/8-inch. Use low-pro- file sheet metal panhead screws to secure wallboard to unit frame. Fasteners may penetrate the cabinet no more than 1/2- inch. These fasteners must be located to avoid damage to internal components and wiring in the same manner as anchoring fas- teners. Do not apply sheet metal screw or nails where they can penetrate coil, riser pipes, or electrical junction box and raceways. Do not secure wallboard to drain pan edges or to control box enclosure. Condensate leaks or electrical shorts may result. An alternate method of enclosing the unit is to frame one or more sides with studding and apply the wall board to this framing. This method requires specific unit features and re- turn access panels when used on the return-air side of a unit. Units not properly equipped will exhibit poor cooling and/or

CAUTION

Prevent dust and debris from settling in unit. If wall finish or color is to be spray-applied, cover all openings to pre- vent spray from entering unit. Failure to do so could result in damage to the unit and/or the reduction of unit efficiency.

24

heating performance and could experience excessive or pre- mature component failures. Prevent sheetrock dust or other debris from settling on coil fins, motor-blower assembly or other unit interior surfaces. EXPOSED UNIT FINISH, TOUCH-UP AND REPAINT Return access and exposed cabinet units may be furnished with a baked enamel finish. Small scratches in this finish may be repaired with touch-up paint available from the factory. Some colors of touch-up paint are available in aerosol con- tainers and all touch-up paint is available in pint, quart, and gallon cans.

To repaint the factory-baked enamel, the finish should be pre- pared by light sanding with no. 280 grit sand paper or no. 000 or no. 0000 fine steel wool. The surface may also be wiped with a liquid surface etch cleaning product such as No Sand or Pasceo. These items should be available at most paint product stores. It should be noted that the more conscien- tiously this preparation is done, the more effective it will be. After this preparation is accomplished, the factory finish should provide excellent adhesion for a variety of air-dried top coats. Enamel will give a more durable, higher gloss fin- ish, while latex will not adhere as well and will give a dull, softer finish. Top coats involving an exothermic chemical process between two components, such as epoxies and ure- thanes, should be avoided. Factory aerosol touch-up paint may require a number of light dust coats to isolate the factory-baked enamel finish from the quick drying touch-up paint. Step 5 Cut Out Openings for Grilles and Thermostats On all units with optional supply-air or return-air grilles, dampers, thermostats, and switch plates, cut out openings where specified on the job plans. Be careful not to cut wires, piping or structural supports. For remote-mounted thermostats, use a steel thermostat shield ring to protect drywall from thermostat wiring where applicable. If not included on the unit or furnished from the factory, sup- ply and return grilles should be provided as recommended in the product catalog. Step 6 Make Final Preparations 1. Turn off power to the unit (open unit electrical disconnect). 2. Install thermostats and perform any other final wiring as

applicable. Check the unit for any loose wires. 3. Perform a final visual inspection. All equipment, ple-

nums, ductwork, and piping should be inspected to verify that all systems are complete and properly installed and mounted, and that no debris or foreign articles such as paper or drink cans are left in the units or other areas. Clean dirt, dust, and other construction debris from unit interior. Be sure to check fan wheel and housing.

4. Rotate fan wheel by hand to be sure it is free and does not rub housing. Check that wing nuts securing fan assembly to fan deck are tight.

5. Ensure all panels and filters are installed before checking fan operation. Turn on power to the unit.

6. Install filter in frame at front of coil. If field-supplied fil- ters are used, be sure size is as specified in Table 1.

7. ECM (Electronically Commutated Motor) Blower: If the unit is equipped with an ECM blower, additional steps may be required during the air balancing process. The ECM blower is controlled by one of three control boards, depending on the options ordered with the unit. Review project submittals or order acknowledgment to determine which ECM control scheme the unit has. Alternatively, match the control board to the illustrations identified in the Control Board Type section.

8. Check the fan and motor operation. 9. Be sure drain line is properly and securely positioned and

that the line is clear. Pour water into drain to check operation.

10. Prior to the water system start-up and balancing, the chilled/hot water systems should be flushed to clean out dirt and debris which may have collected in the piping during construction. During this procedure, the system should be flushed from the supply riser to the return riser through a cross-over loop at the end of the riser column, and all unit service valves must be in the closed position. This prevents foreign matter from entering the unit and clogging the valves and metering devices. Strainers should be installed in the piping mains to prevent this material from entering the units during normal operation. Vent all air from unit coil and related piping. Air venting from the unit is accomplished by the use of the standard manual air vent fitting, or the optional automatic air vent fitting installed on the coil. Venting can be accomplished by depressing the needle valve core. Automatic air vents may be unscrewed one turn counterclockwise to speed initial venting, but should be screwed in for automatic venting after start-up operations. When steady steam of water begins to escape, close valve. Vent release air slowly, usu- ally dripping water into drain pan in the process. Make sure all service valves are open and that the motor- ized control valves, if supplied, are set for automatic operation.

11. Check all control valves in the system for proper opera- tion in accordance with valve manufacturer's instruc- tions.

12. For units with factory-installed ball valves with lever handles: When handle is perpendicular to valve body, there is no flow through valve. Ball valves may be used as shutoff valves.

CAUTION

Proper safety procedures should be followed regarding ventilation and safety equipment during touch-up and re- painting since materials may pose a health hazard. The manufacturer's directions should be followed for the prod- ucts being used.

CAUTION

Do not start up or operate unit without filter. Be sure filter and unit interior are clean. Failure to do so could result in damage to the equipment or building.

CAUTION

The air vent provided on the unit is not intended to replace the main system air vents and may not release air trapped in other parts of the system. Inspect the entire system for potential air traps and vent those areas as required, inde- pendently. In addition, some systems may require repeat- ed venting over a period of time to properly eliminate air from the system. Failure to properly vent system may negatively affect operation.

25

ECM (ELECTRONICALLY COMMUTATED MOTOR) CONTROL OPTION

3-Discrete Speed Rheostat Field Adjustment (42SM Only) (See Fig. 35) The unit has been factory-configured to produce PSC equiva- lent airflow on high speed, with medium and low speed set at 80% and 60% of high, respectively. If these setting are ac- ceptable, then no further configuring is required. Board mounted rheostats are provided to adjust the airflow pertain- ing to each output. Each output can be adjusted from 0 to 100% of the motors factory programmed operating range. To set airflow, connect a volt-meter between common (near the red status LED) and Flo1 through Flo4.

Fig. 35 ECM Rheostat Speed Board (42SM Only)

Carriers convention is to preset and wire Flo1 for high speed, Flo2 for medium, and Flo3 for low. Flo4 is not used with any standard thermostat, but may be employed for a more ad- vanced application. The chart on the control box cover asso- ciates airflow rates with the voltage indicated on your volt- meter. For each speed, adjust the rheostat until indicated volt- age matches the desired value from the airflow table. 3-Discrete Speed Potentiometer Field Adjustment (See Fig. 36) The unit has been factory configured to produce PSC (perma- nent split capacitor) equivalent airflow on high speed, with medium and low speed set at 80% and 60% of high, respec- tively. If these settings are acceptable, then no further config- uring is required. If alternative airflows are desired, use board-mounted pots to adjust the airflow associated with each input. Each output can be adjusted from 0 to 100% of the motors factory pro- grammed operating range. Use voltmeter and airflow chart (on control box cover) to set values. Refer to Appendix B for adjustment procedure.

Fig. 36 3-Speed Potentiometer Adjustment

4-Discrete Speed Potentiometer Field Adjustment, Solid State The unit has been factory configured to produce PSC equiva- lent airflow on high speed, with medium and low speed set at 80% and 60% of high, respectively. If these settings are ac- ceptable, then no further configuring is required. Board mounted pots are provided to adjust the airflow per- taining to each output. Each output can be adjusted from 0 to 100% of the motors factory programmed operating range. Use voltmeter and airflow chart (on the control box cover) to set values. Refer to Appendix C for adjustment procedure. Variable Airflow for 0-10 vdc Input No control board is required and no field adjustments are pos- sible. Motor uses 0 to 10 vdc signal directly. See control box label. Fan enable at 1.5 vdc.

START-UP

Before beginning any start-up operation, the start-up personnel should familiarize themselves with the unit, options and acces- sories, and control sequence to understand the proper system operation. All personnel should have a good working knowl- edge of general start-up procedures and have the appropriate start-up and balancing guides available for consultation. The building must be completely finished including doors, windows, and insulation. All internal walls and doors should be in place and in the normal position. In some cases, the in- terior decorations and furniture may influence overall system performance. The entire building should be as complete as possible before beginning any system balancing. Except as required during start-up and balancing operations, no fan coil units should be operated without all the proper duct-work attached, supply and return grilles in place, and all access doors and panels in place and secure. Start-up procedures vary depending on time of year (summer or winter) and building characteristics (new building/old building, occupied/unoccupied, etc.) Start-up in the cooling mode requires that proper care be giv- en to avoid condensation problems. Condensation forms on surfaces that are colder than the dew point of the surrounding air. If a unit is started and is piped with low-temperature chilled water in a hot, humid atmosphere, condensation will form on many parts of the unit. In order to avoid excessive condensation, higher temperature water should initially be used (approximately 65F to 70F) and the fan coil control set at low or medium fan speed. Be sure the fan current does not exceed motor nameplate values. Also, outside air supply fans, and bathroom and kitchen exhaust fans should be off. As the building temperature drops, the chilled water tempera- ture can be gradually reduced until it reaches 50F. At this point, the outside air fans can be turned on. When the chilled water temperature is reduced to its design point, the exhaust fans can be turned on. Cooling/Heating System Prior to the water system start-up and balancing, flush the chilled / hot water systems to clean out dirt and debris which may have collected in the piping during construction. During the process, all unit service valves must be in the closed posi- tion to prevent foreign matter from entering the unit and clog- ging the valves and metering devices. Strainers should be in-

CAUTION

Both of the procedures described below require the con- trol box to be powered while adjustments are made. Line voltage components are concealed behind a secondary cover. However, installer should still take all reasonable precautions to prevent electrical shock.

Flo0 Com

Status

Rp1

Flo1

Rp2 U3

Flo2

Rp3

Flo3

Rp4

Flo4

Rp5

COMMON FLO1 FLO2 FLO3 FLO4

L2

LO W

M ED

H IG

H

VR1

VR2

VR3

K1

K2

K3

LO W

M ED

H IG

H C

O M

C1

C2

C3

CR1

L1

POTS

CAUTION

Both of the start-up and servicing procedures described below require the control box to be powered while adjust- ments are made. Line voltage components are concealed behind a secondary cover. However, installer should still take all reasonable precautions.

26

stalled in the piping mains to prevent such material from en- tering units during normal operation. During system filling, air venting from the unit is accom- plished by the use of standard manual air vent or optional au- tomatic air venting installed on the coil. Manual air vents are basically Schrader valves. For air venting, depress the valve until the air has vented the coil. When water begins to escape through the valve, release the valve. Automatic air vents may be unscrewed one turn counterclockwise to speed initial vent- ing but should be screwed in for automatic venting after start- up operation. See Fig. 37 and 38.

Fig. 37 Manual Air Vent

Fig. 38 Automatic Air Vent

Air System Balancing All duct stubs, grilles, filters, and return-access panels must be properly installed to establish actual system operating con- ditions BEFORE beginning air balancing operations. Each individual unit and the attached ductwork is a unique system with its own operating characteristics. For this reason, air balancing is normally done by balance specialists who are familiar with all procedures required to properly establish air distribution and fan-system operating conditions. These pro- cedures should not be attempted by unqualified personnel. Units with no ductwork have air volumes predetermined at the factory by supply grille size and normally do not require air balancing other than selecting the desired fan speed. Units furnished with optional dampers on supply grilles may re- quire some small adjustments to fine tune the air delivery to each grille. Opposed blade balancing dampers are not available for all grilles on a unit with electric heat. After proper system operation is established, the actual unit air delivery and the actual fan motor amperage draw for each unit should be recorded in a convenient place for future reference. Water System Balancing A complete knowledge of the hydronic system, along with its components and controls, is essential to proper water system balancing. This procedure should not be attempted by unqual- ified personnel. The system must be complete, and all com- ponents must be in operating condition BEFORE beginning water system balancing operations. Each hydronic system has different operating characteristics depending on the devices and controls used in the system. The actual balancing technique may vary from one system to another. After the proper system operation is established, the appropri- ate system operating conditions such as various water tem- peratures and flow rates should be recorded in a convenient place for future reference. Before and during water system balancing, conditions may exist due to incorrect system pressures which may result in noticeable water noise or undesired valve operation. After the entire system is balanced, these conditions will not exist on properly designed systems. Water Treatment Proper water treatment is a specialized industry. Carrier rec- ommends consulting an expert in this field to analyze the wa- ter for compliance with the water quality parameters listed in Table 2 and to specify the appropriate water treatment regi- men. The expert may recommend typical additives such as

rust inhibitors, scaling preventative, antimicrobial growth agents or algae preventatives. Anti-freeze solutions may be used to lower the freezing point. Carriers water coil tubes and headers are constructed of pure copper. Multiple brass alloys may be present in the valve package, depending on unit configuration. It is the user's re- sponsibility to ensure the tube and piping materials furnished by Carrier are compatible with the treated water. Failure to provide proper water quality will void the fan coils unit's warranty.

Table 2 Water Quality Concentrations

Controls Operation Before proper control operation can be verified, all other sys- tems must be operating properly. The correct water and air temperatures must be present for the control function being tested. Some controls and features are designed to not operate under certain conditions. For example, on a two-pipe cooling/ heating system with auxiliary electric heat, the electric heater cannot be energized with hot water in the system. A wide range of controls, electrical options and accessories may be used with the equipment covered in this manual. Con- sult the approved unit submittals, order acknowledgments, and other literature for detailed information regarding each individual unit and its controls. Since controls and features may vary from one unit to another, care should be taken to identify the controls used on each unit and their proper con- trol sequence. Information provided by component manufac- turers regarding installation, operation, and maintenance of their individual controls is available upon request. When changing from one mode to another (cooling to heating or heating to cooling), it may take some time to actually no- tice a change in the leaving air temperature. In addition, some units may be designed for a very low air temperature rise in heating. Before declaring a unit inoperative or a component defective, it may be necessary to verify operation by more than one method.

SERVICE

Excessive Condensation on Unit Running chilled water through a fan coil unit with the unit fan off can cause excessive condensation. If fan cycling is used, a water flow control valve should be installed to shut off the water when the fan stops. Other methods of control that avoid condensation problems are as follows: 1. Continuous fan operation with motorized chilled water

valve controlled by a thermostat. 2. Continuous fan operation with thermostat control to

switch fan from high to low speed (instead of off).

WATER CONTAINING REQUIRED CONCENTRATION

Sulphate Less than 200 ppm

pH 7.0 to 8.5

Chlorides Less than 200 ppm

Nitrate Less than 100 ppm

Iron Less than 4.5 mg/l

Ammonia Less than 2.0 mg/l

Manganese Less than 0.1 mg/l

Dissolved Solids Less than 1000 mg/l

CaCO3 Hardness 300 to 500 ppm

CaCO3 Alkalinity 300 to 500 ppm

Particulate Quantity Less than 10 ppm

Particulate Size 800 micron max

27

To Clean Coil 1. Be sure electrical service switch is open, locked, and

tagged while working on unit. 2. Remove return-air grille access panel and brush between

coil fins with stiff wire brush. Care should be taken to not damage coil fins. Follow-up by cleaning with vac- uum cleaner. If coil is cleaned with air hose and nozzle, take care not to drive dirt and dust into other compo- nents. Blow air through the coil fins from the leaving air face. This should again be followed by vacuuming. Units provided with the proper type of air filters, replaced reg- ularly, will require less frequent coil cleaning.

3. Install clean filter. Refer to Filters section.

Check Drain Lock open and tag unit electrical service switch. Check drain pan, drain line and trap before initial start-up and at start of each cooling season. A standard type pipe cleaner for 3/4-in. ID pipe can be used to ensure that pipe is clear of obstruction so that condensate is carried away. Check the drain line at filter cleaning time during the cooling season. Be sure that debris has not fallen into unit through supply-air grille. Should the growth of algae and/or bacteria be a con- cern, consult an air conditioning and refrigeration supply or- ganization familiar with local conditions for chemicals or other solutions available to control these agents. Fan Motor Bearings Lock open and tag unit electrical service switch. Standard motors are permanently sealed and lubricated. No lubrication is required unless special motors have been sup- plied or unusual operating conditions exist. Clean Fan Wheel Lock open and tag unit electrical service switch. For access to fan assembly, remove front or bottom panel. Fan assembly may be removed from its tracks if unit has a long conduit lead. Dirt and debris should not be allowed to accumulate on the blower wheel or housing. This can result in an unbalanced blower wheel condition which can damage a blower wheel or motor. The wheel and housing may be cleaned periodically using a vacuum cleaner and a brush, tak- ing care not to dislodge the factory balancing weights on the blower wheel blades. Clean Electric Heater Electric resistance heaters typically require no normal period- ic maintenance when unit air filters are changed properly. The operation and service life may be affected by other conditions and equipment in the system. The two most important operat- ing conditions for an electric heater are proper airflow and proper supply voltage. High supply voltage and/or poorly dis- tributed or insufficient airflow over the element will result in element overheating and possible limit switch opening. This condition may result in the heater cycling on the high-limit thermal cutout. The high-limit thermal cutout device is a safe- ty device only and is not intended for continuous operation. With proper unit application and operation, the high-limit thermal cutout will not operate. This device only operates when a problem exists, and ANY condition that causes high- limit cutout MUST be corrected immediately. High supply voltage also causes excessive amperage draw and may trip the circuit breaker or blow the fuses on the incoming power supply. After proper airflow and supply power are assured, regular filter maintenance is important to provide clean air over the heater. Dirt that is allowed to deposit on the heating element will cause hot spots and eventual element burn through. These hot spots will normally not be enough to trip the high-

limit thermal cutout device and may not be evident until actu- al heater element failure. Electrical Wiring and Controls The electrical operation of each unit is determined by the components and wiring of the unit. This may vary from unit to unit. Consult the wiring diagram attached to the unit for the actual type and number of controls provided on each unit. The integrity of all electrical connections should be verified at least twice during the first year of operation. Afterwards, all controls should be inspected regularly for proper opera- tion. Some components may experience erratic operation or failure due to age. Wall thermostats may also become clogged with dust and lint and should be periodically inspected and cleaned to provide reliable operation. When replacing any components such as fuses, contactors, or relays, use only the exact type, size and voltage component as furnished from the factory. Any deviation without factory au- thorization could result in personal injury or damage to the unit. This will also void all factory warranties. Only factory- supplied replacement parts ensure that the warranty and agen- cy status remain in effect. All repair work should be done in such a manner as to maintain the equipment in compliance with governing codes, ordinances and testing agency listings. More specific information regarding the use and operating characteristics of the standard controls offered by the manu- facturer are contained in other manuals. Valves and Piping No formal maintenance is required on the valve-package components most commonly used with fan coil units other than a visual inspection for possible leaks in the course of other normal periodic maintenance. In the event that a valve should need replacement, the same precautions taken during the initial installation to protect the valve package from ex- cessive heat should also be used during replacement. Filters The type of throwaway filter most commonly used on fan coil units should be replaced on a regular basis. The time interval between each replacement should be established based on regular filter inspection and should be recorded in the log for each unit. Refer to product catalog for recommended filter size for each product type and size. If the replacement filters are not purchased from the factory, the filter used should be of same type and size as those furnished from or recommend- ed by the factory. Pleated media or extended surface filter should not be used since the high air pressure drop encoun- tered with these type of filters is not compatible with the type of fan coil unit covered in the manual. A maintenance schedule for permanent filters should be de- veloped in the same manner as throwaway filters. Unlike throwaway filters, permanent filters may be cleaned and rein- stalled in the unit instead of being discarded when dirty. The optional factory permanent filter may be cleaned in hot soapy water to remove any trapped dirt, then set aside on edge to dry. Before replacing the filter in the unit, it should be recharged with some type of entrapment film. The filter should be sprayed on both sides or submerged in the film to assure com- plete coverage. The filter should not be allowed to soak in the film but should be immediately removed and the excess film drained from the filter before re-installation in the unit. NOTE: Permanent filters normally have less static pressure loss than throwaway filters. Drain The drain must be checked before initial start-up and at the beginning of each cooling season to assure that the drain trap

28

and line are clear. If it is clogged, take steps to clear the debris so that condensate will flow easily. Make periodic checks of the drain during the cooling season to maintain a free flowing condensate. Units provided with secondary or tell-tale drain connection will indicate a clogged main line by flow from the tell-tale connection. NOTE: Should the growth of algae and/or bacteria be a concern, consult an air conditioning and refrigeration supply organization familiar with local conditions for chemical or other solution available to control these growths.

Warranty All equipment and components sold through the Parts De- partment are warranted under the same conditions as the stan- dard manufacturers warranty with the exception that the war- ranty period is twelve (12) months unless the component is furnished as a warranty replacement. Parts furnished as war- ranty replacements are warranted for the remaining term of the original unit warranty or not less than thirty (30) days.

29

APPENDIX A BLOCK-OUT CONSTRUCTION This section provides rough guidelines for the block-out slot size for 42S units with risers included. Therefore, the floor block-out slot dimensions listed in this document should be considered estimates. The engineer for the project is ultimate- ly responsible for the actual dimensions and meeting local code requirements. To select using the following Tables A-D, locate the appropri- ate unit size in the cabinet charts (dimensions are given in inches). Then, follow the row across to locate the clear height (If the clear height exceeds 96-in. use the 96-in. block-out size). Under type of installation, read the block-out size. If the clear height is lower than listed or is not recommended (NR) in the standard 88-in. cabinet chart, use the short 79-in. cabi- net chart. If the clear height is lower than listed or is not rec- ommended (NR) in the short 79-in. cabinet chart, please con- tact the factory. For examples of clearance height, unit placement, and riser length see Fig. A. For possible piping arrangements of the 42SJ unit see Fig. B. Table A STANDARD 88-IN. CABINET, TWO-PIPE

UNITS

* Not recommended for Siamese Back-to-Back Installation.

NOTES: 1. CLEAR HEIGHT is the dimension from the floor to ceiling (See

Fig. A of this appendix). 2. The above charts allow 1-in. tolerance in clear height to allow for

variance in floor-to-floor dimensions. 3. Consult factory for applications with 3-in. and 4-in. risers and insu-

lations exceeding 3/4-inch. 4. See Figure B for 42SJ unit and piping arrangements.

Table B SHORT 79-IN. CABINET, TWO-PIPE UNITS

* Not recommended for Siamese Back-to-Back Installation.

NOTES: 1. CLEAR HEIGHT is the dimension from the floor to ceiling (See

Fig. A of this appendix). 2. The above charts allow 1-in. tolerance in clear height to allow for

variance in floor-to-floor dimensions. 3. Consult factory for applications with 3-in. and 4-in. risers and insu-

lations exceeding 3/4-inch. 4. See Figure B for 42SJ unit and piping arrangements.

UNIT SIZE CLEAR HEIGHT

(in.)

BLOCK-OUT CONSTRUCTION SIZE TYPE OF INSTALLATION

TYPE 1 TYPE 2 TYPE 3*

W x L (in.) W x L (in.) W x L (in.)

Single Unit and Siamese Back-to-Back

03, 04

96 57/8 x 15 51/8 x 15

5 x 15 95 61/4 x 15 53/8 x 15 94 65/8 x 15 55/8 x 15 93 7 x 15

NR 92 71/2 x 15 NR

06, 08

96 61/4 x 18 53/8 x 18

5 x 18 95 63/4 x 18 94 71/8 x 18

NR 93 75/8 x 18

10, 12

96 71/2 x 22 51/8 x 18 5 x 2295 71/2 x 22

NR 94 8 x 22

42SJ Back-to-Back

03, 04 93 and above Not recommended for

standard 42SJ. For Sia- mese 42SJ use Single

unit guidelines.

5 x 15

06, 08 93 and above 5 x 18

10, 12 93 and above 5 x 22

UNIT SIZE CLEAR HEIGHT

(in.)

BLOCK-OUT CONSTRUCTION SIZE TYPE OF INSTALLATION

TYPE 1 TYPE 2 TYPE 3*

W x L (in.) W x L (in.) W x L (in.)

Single Unit and Siamese Back-to-Back

03, 04

91 41/8 x 15 41/4 x 15

5 x 15 90 5 x 15 41/2 x 15 89 51/8 x 15 45/8 x 15 88 51/8 x 15 5 x 15

06, 08

91 5 x 18 41/4 x 18

5 x 18 90 51/8 x 18 41/2 x 18 89 51/8 x 18 45/8 x 18 88 61/8 x 18 5 x 18

10, 12

91 51/8 x 22 41/4 x 22

5 x 22 90 6 x 22 41/2 x 22 89 61/8 x 22 45/8 x 22 88 7 x 22 5 x 22

42SJ Back-to-Back

03, 04 88 and above Not recommended for

standard 42SJ. For Sia- mese 42SJ use Single

unit guidelines.

5 x 15

06, 08 88 and above 5 x 18

10, 12 88 and above 5 x 22

30

APPENDIX A BLOCK-OUT CONSTRUCTION (cont.) Table C STANDARD 88-IN. CABINET (Four-Pipe

42S Units)

* Not recommended for Siamese Back-to-Back Installation. Use 16-in. block-out length for risers up to 11/2-in. in diameter. Use

17-in. block-out length for risers up to 21/2-in. in diameter. Since the cabinet is 17-in. wide, it may be necessary to cover the exposed block-out if the cabinet is not centered.

** This block-out length is for risers up to 11/2-in. in diameter. Add 1-in. to the block-out length for risers up to 21/2-in. in diameter. Both block- out lengths are greater than the cabinet width. It will be necessary to cover the exposed block-out at the side(s) of the cabinet.

This block-out length is for risers up to 11/2-in. in diameter. Add 1-in. to block-out length for risers up to 21/2-in. in diameter.

*** Use 17-in. block-out length for risers up to 11/2-in. in diameter. Since the cabinet is 17-in. wide, it may be necessary to cover the exposed block-out if the cabinet is not centered. Use 18-in. block-out length for risers up to 21/2-in. in diameter. It will be necessary to cover the exposed block-out at the side(s) of the cabinet.

NOTES: 1. CLEAR HEIGHT is the dimension from the floor to ceiling (See

Fig. A of this appendix). 2. The above charts allow 1-in. tolerance in clear height to allow for

variance in floor-to-floor dimensions. 3. Consult factory for applications with 3-in. and 4-in. risers and insu-

lations exceeding 3/4-inch. 4. See Figure B for 42SJ unit and piping arrangements.

Table D SHORT 79-IN. CABINET (Four-Pipe 42S Units)

* Not recommended for Siamese Back-to-Back Installation. Use 16-in. block-out length for risers up to 11/2-in. in diameter. Use

17-in. block-out length for risers up to 21/2-in. in diameter. Since the cabinet is 17-in. wide, it may be necessary to cover the exposed block-out if the cabinet is not centered.

** This block-out length is for risers up to 11/2-in. in diameter. Add 1-in. to the block-out length for risers up to 21/2-in. in diameter. Both block- out lengths are greater than the cabinet width. It will be necessary to cover the exposed block-out at the side(s) of the cabinet.

This block-out length is for risers up to 11/2-in. in diameter. Add 1-in. to block-out length for risers up to 21/2-in. in diameter.

*** Use 17-in. block-out length for risers up to 11/2-in. in diameter. Since the cabinet is 17-in. wide, it may be necessary to cover the exposed block-out if the cabinet is not centered. Use 18-in. block-out length for risers up to 21/2-in. in diameter. It will be necessary to cover the exposed block-out at the side(s) of the cabinet.

NOTES: 1. CLEAR HEIGHT is the dimension from the floor to ceiling (See

Fig. A of this appendix). 2. The above charts allow 1-in. tolerance in clear height to allow for

variance in floor-to-floor dimensions. 3. Consult factory for applications with 3-in. and 4-in. risers and insu-

lations exceeding 3/4-inch. 4. See Figure B for 42SJ unit and piping arrangements.

UNIT SIZE CLEAR HEIGHT

(in.)

BLOCK-OUT CONSTRUCTION SIZE TYPE OF INSTALLATION

TYPE 1 TYPE 2 TYPE 3*

W x L (in.) W x L (in.) W x L (in.)

Single Unit and Siamese Back-to-Back

03, 04

96 57/8 x 16 51/8 x 16 5 x 18** 95 61/4 x 16 53/8 x 16 5 x 181/4** 94 65/8 x 16 55/8 x 16 5 x 185/8** 93 7 x 16

NR 92 71/2 x 16

06, 08

96 61/4 x 18 53/8 x 18

5 x 18

95 63/4 x 18 5 x 181/4

94 71/8 x 18 NR

5 x 185/8

93 75/8 x 18 NR

10, 12

96 71/2 x 22 51/8 x 22 5 x 22

95 71/2 x 22 NR

94 8 x 22 NR

42SJ Back-to-Back

03, 04

96

Not recommended for standard 42SJ. For Sia- mese 42SJ use Single

unit guidelines.

5 x 18 95 5 x 181/4 94 5 x 185/8

06, 08

96 5 x 18 95 5 x 181/4 94 5 x 185/8

10, 12 96

5 x 22 95

UNIT SIZE CLEAR HEIGHT

(in.)

BLOCK-OUT CONSTRUCTION SIZE TYPE OF INSTALLATION

TYPE 1 TYPE 2 TYPE 3*

W x L (in.) W x L (in.) W x L (in.)

Single Unit and Siamese Back-to-Back

03, 04

91 41/8 x 16 41/4 x 16 5 x 17***

90 5 x 16 41/2 x 16

89 51/8 x 16 45/8 x 16 5 x 171/2** 88 51/8 x 16 5 x 16 5 x 173/4**

06, 08

91 5 x 18 41/4 x 18 5 x 18

90 53/8 x 18 41/2 x 18 89 53/4 x 18 45/8 x 18 5 x 181/2 88 61/8 x 18 5 x 18 5 x 183/4

10, 12

91 55/8 x 22 41/4 x 22

5 x 22 90 6 x 22 41/2 x 22 89 61/2 x 22 45/8 x 22 88 7 x 22 5 x 22

42SJ Back-to-Back

03, 04

91

Not recommended for standard 42SJ. For Sia- mese 42SJ use Single

unit guidelines.

5 x 17 90 89 5 x 171/2 88 5 x 173/4

06, 08

91 5 x 18

90 89 5 x 181/2 88 5 x 183/4

10, 12

91

5 x 22 90 89 88

31

APPENDIX A BLOCK-OUT CONSTRUCTION (cont.)

Fig. A Block-Out Construction Clear Height

Fig. B 42SJ Block-Out Construction Piping Arrangement

FLOOR

FLOOR SLAB THICKNESS

RISER COLUMN FLOOR PENETRATION (BLOCK-OUT)

FLOOR TO FLOORCLEAR HEIGHTRISER LENGTH*

BLOCK-OUT LENGTH

UNIT

UNIT

BLOCK-OUT WIDTH

NOTE: Riser Length = Floor-to-floor dimensions 2-in. (maximum riser length of 115-in. When riser length must exceed 115-in. use 104-in. riser length and extensions. Extension length = floor-to-floor dimension 4-in. to 104-in.

STANDARD 42SJ

MB MA

SIAMESE 42SJ

MB MA

SIAMESE 42SJ (CONSULT FACTORY FOR THIS TYPE OF APPLICATION INSTALLATION)

MAMB

32

APPENDIX B POTENTIOMETER ADJUSTMENT

Fig. C 3-Speed ECM Adjusting the low, medium, and high potentiometers requires the use of a multi-meter capable of measuring 0~5 vdc (See Fig. C). 1. Only trained and qualified individuals should attempt to

adjust or service components on any electrical compo- nent. Failure to follow safety rules could result in electri- cal shock or hazard.

2. Unit must be powered to perform the following proce- dure. If main power is not available, connecting a tempo- rary 24-v-40VA power supply to parallel with a secondary outputs of the units transformer is recom- mended.

3. Set the electrical multi-meter to volts direct current (vdc) on the 0~5 or 0~20 vdc scale.

4. Attach black (negative) lead of meter to the DC common terminal, labeled L2 above the potentiometer and to the left of the orange relay.

5. Attach the red (positive) lead of the meter to the red wire that bridges the 0-10 vdc outputs: high, medium, and low.

6. High Speed: Close high speed relay by applying 24-v to the high terminal. Using a small screwdriver, turn the VR3 potentiometer so the meter measures 4.51 vdc. This will set the ECM speed to 90% of maximum for high speed. Open the high speed relay.

7. Medium Speed: close medium speed relay by applying 24-v to the medium terminal. Using a small screwdriver, turn the VR2 potentiometer so the meter measures 3.53 vdc. This will set the ECM speed to 70% of maximum for medium speed. Open the medium speed relay.

8. Low Speed: Close low speed relay by applying 24-v to the low terminal. Using a small screwdriver, turn the VR1 potentiometer so the meter measures 2.06 vdc. This will set the ECM speed to 40% of maximum speed for low speed operation. Open the low speed relay.

33

APPENDIX C EVO/ECM 4-SPEED ADJUSTMENT

Fig. D 4-Speed ECM Adjusting the Flo1, Flo2, Flo3 potentiometers requires the use of a multi-meter capable of measuring 0~5 vdc. 1. Only trained and qualified individuals should attempt to

adjust or service components on any electrical compo- nent. Failure to follow safety rules could result in electri- cal shock or hazard.

2. 24 vac power must be supplied to ECM board to make adjustments.

3. Set the electrical multi-meter to volts direct current (vdc) on the 0~5 or 0~20 vdc scale.

4. Attach black (negative) lead of meter to the Com ter- minal to the left of the potentiometers and below the sta- tus light.

5. Attach the red (positive) lead of the meter to the high speed Flo1 terminal below the potentiometer.

6. High Speed: Using a small screwdriver, turn the Flo1 potentiometer so the meter measures 4.51 vdc. This will set the ECM speed to 90% of maximum for high speed operation.

7. Medium Speed: Using a small screwdriver, turn the Flo2 potentiometer so the meter measures 3.53 vdc. This will set the ECM speed to 70% of maximum speed for medium speed operation.

8. Low Speed: Using a small screwdriver, turn the Flo3 potentiometer so the meter measures 2.06 vdc. This will set the ECM speed to 40% of maximum speed for low speed operation.

9. For setting of Flo0 and Flo4, contact Carrier, otherwise these potentiometers should be set to full counter-clock- wise rotation.

Manufacturer reserves the right to discontinue, or change at any time, specifications or designs without notice and without incurring obligations. Catalog No. 04-53420017-01 Printed in U.S.A. Form 42S-4SI Pg 34 8-18 Replaces: 42S-3SI

Carrier Corporation 2018

Manufacturer reserves the right to discontinue, or change at any time, specifications or designs without notice and without incurring obligations. Catalog No. 04-53420017-01 Printed in U.S.A. Form 42S-4SI Pg CL-1 8-18 Replaces: 42S-3SI

START-UP CHECKLIST FOR 42S SERIES FAN COIL AIR CONDITIONERS

I. Project Information

Job Name _______________________________________________________________________

Address _________________________________________________________________________

City _____________________________________________ State __________ Zip __________

Installing Contractor _______________________________________________________________

Sales Office ______________________________________________________________________

Start-up Performed By _____________________________________________________________

Table 1 INSPECTION, INSTALLATION, AND START-UP CHECKLIST

NOTE: To avoid injury to personnel and damage to equipment or prop- erty when completing the procedures listed in this start-up checklist, use good judgment, follow safe practices, and adhere to the safety considerations/information as outlined in preceding sections of this Installation, Start-Up, and Service Instructions document.

ITEM COMPLETE ITEM COMPLETE Receiving & Inspection Electrical Connections 1. Unit received undamaged 30. Refer to unit wiring diagram 2. Unit received complete as ordered 31. Connection incoming power service(s) 3. Furnish only parts accounted for 32. Install and connect furnish only parts 4. Unit arrangement/hand correct 33. All field wiring in code compliance 5. Unit structural support complete and correct Unit Start-Up Handling & Installation 34. General visual unit and system inspection 6. Mounting grommets/isolators used 35. Check for proper fan rotation 7. Unit mounted level and square 36. Record electrical supply voltage 8. Proper access provided for unit and accessories 37. Record ambient temperatures 9. Proper electrical service provided 38. Check all wiring for secure connections 10. Proper overcurrent protection provided 39. Close all unit isolation valves 11. Proper service switch/disconnect provided 40. Flush water systems 12. Proper chilled water line size to unit 41. Fill systems with water/refrigerant 13. Proper hot water line size to unit 42. Vent water systems as required 14. Proper refrigerant line sizes to unit 43. All ductwork and grilles in place 15. All service to unit in code compliance 44. All unit panels and filters in place 16. All shipping screws and braces removed 45. Start fans, pumps, chillers, etc. 17. Unit protected from dirt and foreign matter 46. Check for overload condition of all units Cooling/Heating Connections 47. Check all ductwork and units for air leaks 18. Protect valve package components from heat 48. Balance water systems as required 19. Connect field piping to unit 49. Balance air systems as required 20. Pressure-test all piping for leaks 50. Record all final settings for future use 21. Install drain line and traps as required 51. Check piping and ductwork for vibration 22. Insulate all piping as required 52. Check all dampers for proper operation 23. Connect risers from 42SGM to 42SGS models 53. Verify proper cooling operation 24. Connect risers to unit coil valve package (if risers are shipped/installed separately)

54. Verify proper heating operation 55. Reinstall all covers and access panels

Ductwork Connections 56. Verify proper condensate drainage 25. Install ductwork, fittings, and grilles as required 26. Flexible duct connections at unit 27. Proper supply and return grille type and size used 28. Control outside air for freeze protection 29. Insulate all ductwork as required

Manufacturer reserves the right to discontinue, or change at any time, specifications or designs without notice and without incurring obligations. Catalog No. 04-53420017-01 Printed in U.S.A. Form 42S-4SI Pg CL-2 8-18 Replaces: 42S-3SI

Carrier Corporation 2018

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Manualsnet FAQs

If you want to find out how the Airstream 42S Series Carrier works, you can view and download the Carrier Airstream 42S Series Installation Instructions on the Manualsnet website.

Yes, we have the Installation Instructions for Carrier Airstream 42S Series as well as other Carrier manuals. All you need to do is to use our search bar and find the user manual that you are looking for.

The Installation Instructions should include all the details that are needed to use a Carrier Airstream 42S Series. Full manuals and user guide PDFs can be downloaded from Manualsnet.com.

The best way to navigate the Carrier Airstream 42S Series Installation Instructions is by checking the Table of Contents at the top of the page where available. This allows you to navigate a manual by jumping to the section you are looking for.

This Carrier Airstream 42S Series Installation Instructions consists of sections like Table of Contents, to name a few. For easier navigation, use the Table of Contents in the upper left corner.

You can download Carrier Airstream 42S Series Installation Instructions free of charge simply by clicking the “download” button in the upper right corner of any manuals page. This feature allows you to download any manual in a couple of seconds and is generally in PDF format. You can also save a manual for later by adding it to your saved documents in the user profile.

To be able to print Carrier Airstream 42S Series Installation Instructions, simply download the document to your computer. Once downloaded, open the PDF file and print the Carrier Airstream 42S Series Installation Instructions as you would any other document. This can usually be achieved by clicking on “File” and then “Print” from the menu bar.