Sanyo UHW2672R, C4272R S-C, UHW3672R, CH4272R H-P User Manual

X

K

T

U

C

RC

(WD)

RC

(WL)

TRC

SC

85464359863005 ©SANYO 2007

– Split System Heat Pump Air Conditioner –

INSTALLATION INSTRUCTIONS

Model Combinations

Combine indoor and outdoor units only as listed below.

Indoor Units and Outdoor Units

* When air discharge chamber is installed.

OPERATING LIMITS

 Maximum Conditions Cooling / Heating

Outdoor temperature : 109°F DB / 65°F WB
Room temperature : 71°F WB / 80°F DB

 Minimum Conditions

Outdoor temperature : 0°F* DB / 5°F WB
Room temperature : 57°F WB / 59°F DB

Units should be installed by licensed contractor according to
local code requirements.

Indoor Unit Type 26 30 36 42 Remarks

X

4-Way Air Discharge

XH2672R XH3672R XH4272R Optional remote controller

Semi-Concealed

XHW2672R XHW3672R XHW4272R with Wired Remote Controller: RCS-TM80BG

KH2672R KH3072R KH3672R Optional remote controller

K Wall-Mounted

KHS2672R KHS3072R KHS3672R with Wireless Remote Controller: RCS-SH1UA

KHH2672R Optional remote controller

KHHS2672R

with Wireless Remote Controller: RCS-SH1UA

TH2672R TH3672R TH4272R Optional remote controller

THW2672R THW3672R THW4272R with Wired Remote Controller: RCS-TM80BG

T Ceiling-Mounted THH2672R THH3672R Unit with Back-up heater

THHW2672R THHW3672R

Unit with Back-up heater
with Wired Remote Controller: RCS-TM80BG

U Concealed-Duct

UH2672R UH3672R Optional remote controller

UHW2672R UHW3672R with Wired Remote Controller: RCS-TM80BG

C Outdoor Units

CH2672R CH3072R CH3672R CH4272R H/P

C2672R C3072R C3672R C4272R S/C

RC

Wired Remote

RCS-SH80UG (Optional part)

(WD)

Controller

RC Wireless Remote

Built-in type: RCS-SH80UA.WL (Optional part) for X and T type Indoor units

(WL)

Controller

External type: RCS-BH80UA.WL (Optional part) for U type Indoor units

Built-in type: RCS-SH80UA (Accessory part / Optional part) for K type Indoor units

Timer Remote

for X, T and U type Indoor units.

TRC

Controller

RCS-TM80BG* (Accessory part / Optional part)

* Timer Remote Controller comes with

Owner’s Manual and Installation Instructions.

SC System Controller SHA-KC64UG (Optional part)

SANYO Commercial Solutions In Canada
A division of SANYO North America Corporation SANYO Canada Inc.
Cornerstone Business Park 1-300 Applewood Crescent
1062 Thorndale Avenue Concord, Ontario
Bensenville, IL 60106, U.S.A. L4K 5C7, Canada

07-115 SSHP_II 5/7/07 3:59 PM Page a

2

IMPORTANT!
Please Read Before Starting

This air conditioning system meets strict safety and operating
standards. As the installer or service person, it is an impor­tant part of your job to install or service the system so it oper­ates safely and efficiently.

For safe installation and trouble-free operation, you must:



Carefully read this instruction booklet before beginning.



Follow each installation or repair step exactly as shown.



Observe all local, state, and national electrical codes.



Pay close attention to all warning and caution notices
given in this manual.

This symbol refers to a hazard or
unsafe practice which can result
in severe personal injury or death.

This symbol refers to a hazard or
unsafe practice which can result
in personal injury or product or
property damage.

If Necessary, Get Help

These instructions are all you need for most installation
sites and maintenance conditions. If you require help for a
special problem, contact our sales/service outlet or your
certified dealer for additional instructions.

In Case of Improper Installation

The manufacturer shall in no way be responsible for
improper installation or maintenance service, including fail­ure to follow the instructions in this document.

SPECIAL PRECAUTIONS

When Wiring

ELECTRICAL SHOCK CAN CAUSE SEVERE
PERSONAL INJURY OR DEATH. ONLY A
QUALIFIED, EXPERIENCED ELECTRICIAN
SHOULD ATTEMPT TO WIRE THIS SYS­TEM.

• Do not supply power to the unit until all wiring and tubing
are completed or reconnected and checked.

• Highly dangerous electrical voltages are used in this sys­tem. Carefully refer to the wiring diagram and these
instructions when wiring. Improper connections and inad­equate grounding can cause accidental injury or death.

• Ground the unit following local electrical codes.

• Connect all wiring tightly. Loose wiring may cause over­heating at connection points and a possible fire hazard.

When Transporting

Be careful when picking up and moving the indoor and outdoor
units. Get a partner to help, and bend your knees when lifting to
reduce strain on your back. Sharp edges or thin aluminum fins
on the air conditioner can cut your fingers.

When Installing…

…In a Room

Properly insulate any tubing run inside a room to prevent
“sweating” that can cause dripping and water damage to
walls and floors.

…In Moist or Uneven Locations

Use a raised concrete pad or concrete blocks to provide a
solid, level foundation for the outdoor unit. This prevents
water damage and abnormal vibration.

…In an Area with High Winds

Securely anchor the outdoor unit down with bolts and a
metal frame. Provide a suitable air baffle.

…In a Snowy Area (for Heat Pump-type Systems)

Install the outdoor unit on a raised platform that is higher
than drifting snow. Provide snow vents.

When Connecting Refrigerant Tubing

• Ventilate the room well, in the event that is refrigerant
gas leaks during the installation. Be careful not to allow
contact of the refrigerant gas with a flame as this will
cause the generation of poisonous gas.

• Keep all tubing runs as short as possible.

• Use the flare method for connecting tubing.

• Apply refrigerant lubricant to the matching surfaces of
the flare and union tubes before connecting them, then
tighten the nut with a torque wrench for a leak-free con­nection.

• Check carefully for leaks before starting the test run.

When Servicing

• Turn the power OFF at the main power box (mains)
before opening the unit to check or repair electrical parts
and wiring.

• Keep your fingers and clothing away from any moving
parts.

• Clean up the site after you finish, remembering to check
that no metal scraps or bits of wiring have been left
inside the unit being serviced.

• Ventilate any enclosed areas when installing or testing
the refrigeration system. Escaped refrigerant gas, on
contact with fire or heat, can produce dangerously toxic
gas.

• Confirm after installation that no refrigerant gas is leak­ing. If the gas comes in contact with a burning stove, gas
water heater, electric room heater or other heat source,
it can cause the generation of poisonous gas.

07-115 SSHP_II 5/7/07 3:59 PM Page 2

WARNING

CAUTION

WARNING

CAUTION

2. The standards for minimum room volume are as
follows.

(1) No partition (shaded portion)

(2) When there is an effective opening with the adja-

cent room for ventilation of leaking refrigerant gas
(opening without a door, or an opening 0.15% or
larger than the respective floor spaces at the top
or bottom of the door).

(3) If an indoor unit is installed in each partitioned

room and the refrigerant tubing is interconnected,
the smallest room of course becomes the object.
But when mechanical ventilation is installed inter­locked with a gas leakage detector in the smallest
room where the density limit is exceeded, the vol­ume of the next smallest room becomes the object.

3. The minimum indoor floor space compared with the
amount of refrigerant is roughly as follows (when
the ceiling is 9 ft. high):

Check of Density Limit

The room in which the air conditioner is to be
installed requires a design that in the event of
refrigerant gas leaking out, its density will not
exceed a set limit.

The refrigerant (R410A), which is used in the air condi­tioner, is safe, without the toxicity or combustibility of
ammonia, and is not restricted by laws imposed to pro­tect the ozone layer. However, since it contains more
than air, it poses the risk of suffocation if its density
should rise excessively. Suffocation from leakage of
refrigerant is almost non-existent. With the recent
increase in the number of high density buildings, how­ever, the installation of multi air conditioner systems is
on the increase because of the need for effective use
of floor space, individual control, energy conservation
by curtailing heat and carrying power, etc.
Most importantly, the multi air conditioner system is
able to replenish a large amount of refrigerant com­pared to conventional individual air conditioners. If a
single unit of the multi air conditioner system is to be
installed in a small room, select a suitable model and
installation procedure so that if the refrigerant acci­dentally leaks out, its density does not reach the limit
(and in the event of an emergency, measures can be
made before injury can occur).
In a room where the density may exceed the limit,
create an opening with adjacent rooms, or install
mechanical ventilation combined with a gas leak
detection device. The density is as given below.

Total amount of refrigerant (oz.)

Min. volume of the indoor unit installed room (ft.3)

< Density limit (oz./ft.

3

)

The density limit of refrigerant which is used in multi air con­ditioners is 0.3 oz./ft.

3

(ISO 5149).

1. If there are 2 or more refrigerating systems in a sin­gle refrigerating device, the amount of refrigerant
should be as charged in each independent device.

For the amount of charge in this example:

The possible amount of leaked refrigerant gas in rooms
A, B and C is 22 lbs.
The possible amount of leaked refrigerant gas in rooms
D, E and F is 33 lbs.

3

07-115 SSHP_II 5/7/07 3:59 PM Page 3

NOTE

Outdoor unit

Refrigerant tubing

Refrigerant tubing

Very
small
room

Small
room

Mechanical ventilation device – Gas leak detector

Medium
room

Large room

Indoor unit

Outdoor unit

Indoor unit

e.g., charged
amount (22 lbs.)

Indoor unit

Outdoor unit

e.g., charged

amount (33 lbs.)

Room A Room B Room C Room D Room E Room F

3

ft.

430

Range below the

376

density limit
of 0.3 oz./ft.

323

(countermeasures
not needed)

269

215

161

108

Min. indoor floor space

54

0

3

Range above
the density limit
of 0.3 oz./ft.
(countermeasures
needed)

22 44 66

Total amount of refrigerant

3

lbs.

4

R407C tools

Item compatible Remarks

with R410A?

Manifold gauge Yes No Types of refrigerant, refrigerating machine oil, and

pressure gauge are different.

Charge hose Yes No To resist higher pressure, material must be changed.

Vacuum pump Yes Yes Use a conventional vacuum pump if it is equipped

with a check valve. If it has no check valve,
purchase and attach a vacuum pump adapter.

Leak detector Yes No Leak detectors for CFC and HCFC that

react to chlorine do not function because
R410A contains no chlorine. Leak detector
for HFC134a can be used for R410A.

Flaring oil Yes No For systems that use R22, apply mineral oil (Suniso oil)

to the flare nuts on the tubing to prevent refrigerant
leakage. For machines that use R407C or R410A, apply
synthetic oil (ether oil) to the flare nuts.

1-2. Prevent impurities including water, dust and oxide from entering the tubing. Impurities can cause R410A

refrigerant deterioration and compressor defects. Due to the features of the refrigerant and refrigerating
machine oil, the prevention of water and other impurities becomes more important than ever.

2. Be sure to recharge the refrigerant only in liquid form.

2-1. Since R410A is a non-azeotrope, recharging the refrigerant in gas form can lower performance and cause

defects of the unit.

2-2. Since refrigerant composition changes and performance decreases when gas leaks, collect the remaining

refrigerant and recharge the required total amount of new refrigerant after fixing the leak.

3. Different tools required

3-1. Tool specifications have been changed due to the characteristics of R410A.

Some tools for R22- and R407C-type refrigerant systems cannot be used.

Unit: inch

Material O

Copper tube

Outer diameter 1/4 3/8 1/2 5/8

Wall thickness 1/32 1/32 1/32 5/128

Precautions for Installation Using New Refrigerant

1. Care regarding tubing

1-1. Process tubing

 Material: Use C1220 phosphorous deoxidized copper specified in JIS H3300 “Copper and Copper Alloy Seam-

less Pipes and Tubes.”

 Tubing size: Be sure to use the sizes indicated in the table below.

 Use a tube cutter when cutting the tubing, and be sure to remove any flash. This also applies to distribution

joints (optional).

 When bending tubing ø5/8" or smaller, use a bending radius that is 4 times the outer diameter of the tubing or larger.

* Using tools for R22 and R407C and new tools for R410A together can cause defects.

Use sufficient care in handling the tubing. Seal the tubing ends with
caps or tape to prevent dirt, moisture, or other foreign substances
from entering. These substances can result in system malfunction.

New
tool?

07-115 SSHP_II 5/7/07 3:59 PM Page 4

CAUTION

Manifold gauge

Vacuum pump

Outlet
Inlet

5

3-2. Use R410A exclusive cylinder only.

 When charging with a refrigerant cylinder, use an

electronic scale for charging refrigerant. In this
case, if the volume of refrigerant in the cylinder
becomes less than 20% of the fully-charged
amount, the composition of the refrigerant starts
to change. Thus, do not use the refrigerant if the
amount in the charging cylinder is less than 20%.

Also, charge the minimum necessary amount to
the charging cylinder before using it to charge the
air conditioning unit.

07-115 SSHP_II 5/7/07 3:59 PM Page 5

Configuration and characteristics of cylinders

Valve

Liquid

Single valve

Charge liquid refrigerant with
cylinder in up-side-down position.

Fig. 1

Valve

Liquid

Single valve (with siphon tube)

Charge with cylinder in normal position.

Fig. 2

6

 Concealed-Duct Type (U Type) . . . . . . . . . . . . . . 51

3-22. Required Minimum Space for Installation and

Service
3-23. Suspending the Indoor Unit
3-24. Installing the Drain Piping
3-25. Checking the Drainage
3-26. Increasing the Fan Speed

4.

HOW TO INSTALL THE OUTDOOR UNIT

. . . . . 56

4-1. Installing the Outdoor Unit
4-2. Drainage Work
4-3. Routing the Tubing and Wiring

5. ELECTRICAL WIRING . . . . . . . . . . . . . . . . . . . . 57

5-1. General Precautions on Wiring
5-2. Recommended Wire Length and Wire

Diameter for Power Supply System

5-3. Wiring System Diagrams
5-4. How to Connect Wiring to the Terminal

6. HOW TO INSTALL THE WIRED REMOTE

CONTROLLER (OPTIONAL PART) . . . . . . . . . . 60

6-1. Installation Site Selection
6-2. Wired Remote Controller Installation
6-3. Basic Wiring Diagram
6-4. Wiring System Diagram for Group Control
6-5. Wiring System Diagram for Multiple Remote

Controllers
6-6. How to Switch the Indoor Temperature Sensor
6-7. Trouble Diagnostics

7. HOW TO INSTALL THE WIRELESS REMOTE
CONTROLLER

(ACCESSORY PART / OPTIONAL PART) . . . . . 68

7-1. Wireless Remote Controller Installation
7-2. Room Temperature Sensor Setting
7-3. Address Switches
7-4. Setting the Model Code

<RCS-SH80UA.WL>

 4-Way Air Discharge Semi-Concealed Type

(X Type) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 70

7-5. Indicator Section Installation
7-6. Operating Controller Installation

 Ceiling-Mounted Type (T Type) . . . . . . . . . . . . . . 71

7-7. Indicator Section Installation
7-8. Operating Controller Installation
7-9. Electrical Wiring
7-10. Test Run Switch
7-11. Misoperation Alarm Indicators

Page

IMPORTANT! . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2

Please Read Before Starting
Check of Density Limit
Precautions for Installation Using New Refrigerant

1. GENERAL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8

1-1. Tools Required for Installation (not supplied)
1-2. Accessories Supplied with Outdoor Unit
1-3. Type of Copper Tube and Insulation Material
1-4. Additional Materials Required for Installation
1-5. Tubing Size

2. SELECTING THE INSTALLATION SITE . . . . . . 16

2-1. Indoor Unit
2-2. Outdoor Unit
2-3. Air-Discharge Chamber for Top Discharge
2-4. Installing the Unit in Heavy Snow Areas
2-5. Precautions for Installation in Heavy Snow

Areas
2-6. Dimensions of Wind Ducting
2-7. Dimensions of Snow Ducting

3. HOW TO INSTALL THE INDOOR UNIT . . . . . . . 26

 4-Way Air Discharge Semi-Concealed Type

(X Type) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26

3-1. Suspending the Indoor Unit
3-2. Preparation for Suspending
3-3. Placing the Unit Inside the Ceiling
3-4. Installing the Drain Piping
3-5. Checking the Drainage
3-6. Before Installing the Ceiling Panel
3-7. Installing the Ceiling Panel
3-8. When Removing the Ceiling Panel

for Servicing
3-9. Duct for Fresh Air

 Wall-Mounted Type (K Type) . . . . . . . . . . . . . . . . 34

3-10. Removing the Wall Fixture from the Unit
3-11. Selecting and Making a Hole
3-12. Installing the Rear Panel on the Wall
3-13. Removing the Grille to Install the Indoor Unit
3-14. Preparing the Indoor Side Tubing
3-15. Wiring Instructions
3-16. Wiring Instructions for Inter-Unit Connections
3-17. Shaping the Tubing
3-18. Installing the Drain Hose

 Ceiling-Mounted Type (T Type) . . . . . . . . . . . . . . 47

3-19. Suspending the Indoor Unit
3-20. Duct for Fresh Air
3-21. Installing the Drain Piping

CONTENTS

Page

07-115 SSHP_II 5/7/07 3:59 PM Page 6

7

<RCS-BH80UA.WL>

7-12. Separate Type Signal Receiving Unit Installation
7-13. Electrical Wiring
7-14. Test Run Switch
7-15. Misoperation Alarm Indicators
7-16. Basic Wiring Diagram
7-17. Wiring System Diagram for Group Control
7-18. Wiring System Diagram for Multiple Remote Controllers

<RCS-SH1UA>

7-19. Test Run Procedure
7-20. Check Items Before the Test Run
7-21. Preparing for the Test Run
7-22. Precautions
7-23. When Setting Indoor Unit Control PCB Switch for

Wall-Mounted Indoor Unit

8. HOW TO INSTALL THE SYSTEM CONTROLLER

(OPTIONAL PART) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 85

8-1. System Controller Installation
8-2. Electrical Wiring
8-3. Address Switch Setting
8-4. Mode Setting
8-5. How to Perform Zone Registration
8-6. Connection with Other Equipment
8-7. Memory Back Up Switch
8-8. Test Run

9. HOW TO PROCESS TUBING . . . . . . . . . . . . . . . . . . . . . . . . . 97

9-1. Connecting the Refrigerant Tubing
9-2. Connecting Tubing between Indoor and

Outdoor Units
9-3. Insulating the Refrigerant Tubing
9-4. Taping the Tubes
9-5. Finishing the Installation

10. LEAK TEST, EVACUATION AND ADDITIONAL

REFRIGERANT CHARGE . . . . . . . . . . . . . . . . . . . . . . . . . 101

10-1. Leak Test
10-2. Evacuation
10-3. Charging Additional Refrigerant
10-4. Finishing the Job

11. TEST RUN . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 104

11-1. Preparing for Test Run
11-2. Caution
11-3. Test Run Procedure
11-4. Items to Check Before the Test Run
11-5. Test Run Using the Remote Controller
11-6. Precautions
11-7. Table of Self-Diagnostic Functions and Corrections

(X, T, U, K Type)

11-8. Examples of Wiring Diagrams

Page

07-115 SSHP_II 5/7/07 3:59 PM Page 7

8

1. GENERAL

This booklet briefly outlines where and how to install
the air conditioning system. Please read over the
entire set of instructions for the indoor and outdoor
units and make sure all accessory parts listed are
with the system before beginning.

1-1. Tools Required for Installation (not supplied)

1. Standard screwdriver

2. Phillips head screwdriver

3. Knife or wire stripper

4. Tape measure

5. Level

6. Sabre saw or key hole saw

7. Hacksaw

8. Core bits

9. Hammer

10. Drill

11. Tube cutter

12. Tube flaring tool

13. Torque wrench

14. Adjustable wrench

15. Reamer (for deburring)

1-2. Accessories Supplied with Outdoor Unit

See Tables 1-1 to 1-9.

1-3. Type of Copper Tube and Insulation Material

Copper tubing for connecting the outdoor unit to the
indoor unit is available in kits which contain the liquid
and gas tubing, fittings and insulation. Consult your
nearest sales outlet or A/C workshop.

If you wish to purchase these materials separately
from a local source, you will need:

1. Deoxidized annealed copper tube for refrigerant
tubing.

2. Foamed polyethylene insulation for copper tubes
as required to precise length of tubing.
Wall thickness of the insulation should be not less
than 5/16 in.

3. Use insulated copper wire for field wiring. Wire size
varies with the total length of wiring. Refer to
Section 5. “Electrical Wiring” for details.

1-4. Additional Materials Required for Installation

1. Refrigeration (armored) tape

2. Insulated staples or clamps for connecting wire

(See your local codes.)

3. Putty

4. Refrigeration tubing lubricant

5. Clamps or saddles to secure refrigerant tubing

6. Scale for weighing

Check local electrical codes
and regulations before
obtaining wire. Also, check
any specified instructions
or limitations.

Table Type

1-1 4-Way Air Discharge Semi-Concealed

1-2 Wall-Mounted

1-3 Ceiling-Mounted

1-4 Concealed-Duct

1-5 Outdoor Unit

1-6 Wired Remote Controller

1-7 Wireless Remote Controller

1-8 Timer Remote Controller

1-9 System Controller

07-115 SSHP_II 5/7/07 3:59 PM Page 8

CAUTION

9

Table 1-2 KH / KHS (Wall-Mounted)

Table 1-1 XH / XHW (4-Way Air Discharge Semi-Concealed)

07-115 SSHP_II 5/7/07 3:59 PM Page 9

Part Name Figure

Full-scale installation diagram 1

Flare insulator 2

Washer 8

Insulating tape 1

(White)

Hose band2

Packing 1

Drain insulator 1

Drain hose1

Drain hose adaptor 1

Sealing putty 1

Tube connector 1

Wired remote controller
(comes with 7-7/8 in. wire)

Wood screws 2

Wire joints

Owner’s Manual 1

Installation Instructions 1

Q’ty

For determining suspension bolt pitch

For gas and liquid tubes

For suspending indoor unit from ceiling

For gas tube flare nuts

For securing drain hose

For drain joint

For drain joint

For drain outlet

For sealing recessed portion of power supply

For sizing up of liquid tube from 1/4 in. to 3
(only for 26 type)

1

For XHW type

For XHW type

For XHW type

2

For XHW type

For XHW type

Remarks

/8 in.

Part Name Figure Remarks

Wall fixture

Insulator

Mounting plate

Tapping screw

*1

*1

*1

*1

Truss-head
Phillips
4 × 1 in.

Full-scale diagram

Wall fixture

Rawl plug

Cover

Tapping screw

Insulator

Tube connector

L shape tube connector

*2

*2

*2

*2

*2

Truss-head
Phillips
4× 5/8 in.

‘Q’ty

For supporting indoor unit

1

1

For insulation of tubing of the indoor unit

For securing indoor unit

1

For attaching wall fixture

20

For determining location where indoor unit is

1

installed

1

For supporting indoor unit

10

For attaching wall fixture

1

For improved tubing appearance

10

For attaching wall fixture

1

For insulation of tubing of indoor unit

For sizing up of liquid t

1

(only for 26 type)

Simplifies on-site tubing work

1

ube from 1/4 in. to 3/8 in.

Wireless remote controller 1

Wireless remote controller
mounting cradle

Tr uss-head tapping screws
4 × 5/8 in.

Batteries

*1

KH(S)3672R

*2

KH(S)3072R

KH(S)3672R

For KHS type

For KHS type

1

2

For KHS type

2

For KHS type

10

Table1-4 UH / UHW (Concealed-Duct)

Table 1-3 TH / THW (Ceiling-Mounted)

07-115 SSHP_II 5/7/07 3:59 PM Page 10

Part Name Figure Remarks

Special washer

Drain insulator 1

Flare insulator

T5

Drain hose adaptor 1

Drain hose clamp 4

Insulating tape

Vinyl clamp 2

Full-scale installation
diagram

Sealing putty 1

Drain hose1

Tube connector 1

Wired remote controller
(comes with 7-7/8 in. wire)

Wood screws 2

Wire joints

Owner’s Manual 1

Black

White
(heat-resisting)

‘Q’ty

For temporarily suspending indoor unit

4

from ceiling

For drain hose joint

T3

1 Set

For gas tube joints

For gas tube and drain hose joint

2

For gas flare joints

1

For ends of flare insulator

For determining suspension bolt pitch

1

For sealing recessed portion of power supply

For sizing up of liquid tube from 1/4 in. to 3/8 in.
(only for 26 type)

1

For THW type

For THW type

For THW type

2

For THW type

Installation Instructions 1

Part Name Figure

Flare insulator 2

Insulating tape

Tapping screw TOTA4-10

Jumper cable* 1

Hose band1

Packing 1

Sealing putty 1

Drain insulator 1

Drain hose1

Drain hose adaptor 1

Clamp 9

Tube connector 1

Wired remote controller
(comes with 7-7/8 in. wire)

Wood screws 2

(Black)

(White)

For THW type

‘Q’ty

2

2

14 or 20 or 24

1

Remarks

For gas and liquid tubes

For gas and liquid tubes

For gas and liquid tube flare nuts

For air intake duct connection

For increasing fan speed

For securing

drain hose

For drain joint

For sealing recessed portion of power supply

For drain joint

For securing drain hose & refrigerant tubing

For sizing up of liquid tube from 1/4 in. to 3/8 in.
(only for 26 type)

For UHW type

For UHW type

Wire joints

2

Owner’s Manual 1

Installation Instructions 1

* Jumper cable is housed inside the electrical component box.

For UHW type

For UHW type

For UHW type

11

07-115 SSHP_II 5/7/07 3:59 PM Page 11

Table 1-5 (Accessories for the Wired Remote Controller)

Part Name Figure

Wired remote controller
(comes with 7-7/8 in. wire)

Machine screws
M4 × 1 in.

‘Q’ty

1 Spacers 2

2 Wire joints 4

Part Name Figure

‘Q’ty

Wood screws 2

Table 1-6 (Accessories for the Wireless Remote Controller)

<RCS-SH80UA.WL>

Part Name Figure

‘Q’ty

Part Name Figure

‘Q’ty

Operation controller 1 Spacers 2

Run Timer

Indicator section 14

Heating preparations

Pan-head tapping screws
4× 13/32 in.

Wireless remote controller 1 2

Wireless remote controller
mounting cradle

Tr uss-head tapping screws
4 × 5/8 in.

Vinyl clamps

1 3

L 5-29/32

Batteries 2 Wire joints 4

<RCS-SH1UA>

Part Name Figure Part Name Figure

Wireless remote controller 1 2

Wireless remote controller

‘Q’ty ‘Q’ty

Tr uss-head tapping screws
4 × 5/8 in.

12

Batteries

mounting cradle

12

07-115 SSHP_II 5/7/07 3:59 PM Page 12

<RCS-BH80UA.WL>

Part Name Figure

Separate type signal receiving unit
(comes with 7-7/8 in. wire)

‘Q’ty

Small screws

12

M4 × 1-9/16 in.

Part Name Figure

Carrier for ceiling installation 1Wood screws 2

Wireless remote controller 1 Spacers 4

Wireless remote controller

1 Wire joints 4

mounting cradle

Batteries 2 Clamp

Machine screws
M4 × 1 in.

Ceiling installation paper pattern

21

(

3-3/4 × 2-1/32 in.

)

Table 1-7 (Accessories for the Timer Remote Controller)

‘Q’ty

1

Part Name Figure

Timer Remote Controller

Connecting wiring
length 4 ft.

Machine screws

‘Q’ty

Part Name Figure

1Wood screws

1 Spacers 2

2 Clamps

M4 × 1 in.

Table 1-8 (Accessories for the System Controller)

Part Name Figure

System controller 1 1

Rubber bushing
(7/8 in.)

Screws for fixture
(1-3/16 in.)

‘Q’ty

Label
(Identification label)

Label

41

(Terminal base label)

Part Name Figure

SYSTEM CONTROLLER IDENTIFICATION LABEL

ALL Central Control ALL RCU.

ZONE1 Central Control

ZONE1 RCU.

ZONE2 RCU.

ZONE2 Central Control

ZONE3 Central Control

ZONE3 RCU.

ZONE4 Central Control

ZONE4 RCU.

*Please attach this label on surface of the lid after cleaning.
*If need to write down some detail, use magic marker.

ALL ON

U1

INPUT

Inter­unit
control
wiring

ALL OFF

U2

INPUT

COMMON

U2 Aux.

INPUT

OPERATION
STATE

UNUSED

OUTPUT

ALARM
OUTPUT

DC12V
FROM
INDOOR

UNIT PCB.
COMMON
OUTPUT

2

‘Q’ty

2

2

‘Q’ty

13

1-5. Tubing Size

Single type

 Refrigerant tubing between the indoor and outdoor units

should be kept as short as possible.

 The length of the refrigerant tubes between the indoor

and outdoor units are limited by the elevation difference
between the 2 units. During tubing work, try to make both
the tubing length (L) and the difference in elevation (H1)
as short as possible. Refer to Table 1-10.

Table 1-9

Indoor unit type 26, 30, 36 types 42 type

Maximum length 165 ft. 165 ft.

Charge-less tubing length (actual length) 10 – 100 ft. 15 – 100 ft.

Additional charge per 1 ft. 0.43 oz.

07-115 SSHP_II 5/7/07 3:59 PM Page 13

Single

Maximum indoor-outdoor
height difference

If outdoor unit is higher

If outdoor unit is lower

H1

H1

< 100

< 50

Main tubing L

H1

14

Table 1-10 Tubing Data for Models

Table 1-11 List of Connection Tube Sizes

07-115 SSHP_II 5/7/07 3:59 PM Page 14

Tubing Data

Tubing size
outer diameter

Liquid tube in. (mm) 3/8 (9.52) 3/8 (9.52) 3/8 (9.52)
Gas tube in. (mm) 5/8 (15.88) 5/8 (15.88) 5/8 (15.88)

Limit of tubing length (ft.)

Limit of elevation
difference between
the 2 units

Outdoor unit is placed
higher (ft.)
Outdoor unit is placed

lower (ft.)
Max. allowable tubing length at shipment (ft.)
Required additional refrigerant *
Refrigerant charged at shipment (lbs.) 4.2 6.2 7.9

No additional charge of compressor oil is necessary.

1

*

If total tubing length becomes 100 to 165 ft., charge additional refrigerant by 0.43 oz./ft.

Type capacity of indoor units

Gas tube

Liquid tube

Amount of additional charge per 1 ft.

Models

1

Main tubing (L)

(oz./ft.)

26 – 42

ø5/8"
ø3/8"

0.43 oz.

C(H)2672R

C(H)3072R
C(H)3672R

C(H)4272R

165 165 165

100 100 100

50 50 50

10 – 100 10 – 100 10 – 100

a) 0.43 b) 0.43 b) 0.43

15

1. This unit requires no additional refrig­erant charge up to 100 ft. tubing length.
In case of more than 100 ft., additional
refrigerant charge is required. Refer to
Table 1-11.

2. In case of multi type installation,
indoor units should be installed within
the same room. If multi type indoor
units are installed in different rooms,
temperature control may develop prob­lems because thermostat operation
must follow the thermostat condition of
1 indoor unit only (the main unit).

Always check the gas density
for the room in which the unit is
installed.

Pay special attention to any
location, such as a basement
or recessed area, etc. where
leaked refrigerant can collect,
since refrigerant gas is heav­ier than air.

 Check of limit density

When installing an air conditioner in a room, it is neces­sary to ensure that even if the refrigerant gas acciden­tally escapes, its density does not exceed the limit level.
If the density might exceed the limit level, it is neces­sary to set up an opening between it and the adjacent
room, or to install mechanical ventilation which is inter­locked with the leak detector.

(Total refrigerant charged amount: oz.)

(Min indoor volume where the indoor unit is installed: ft.3)

<

Limit density 0.3 (oz./ft.3)

The limit density of refrigerant which is used in this unit
is 0.3 oz./ft.

3

(ISO 5149).

The shipped outdoor unit comes charged with the
amount of refrigerant fixed for each type; so add it to
the amount that is charged at the field. (For the refriger­ant charge amount at shipment, refer to the unit’s
nameplate.)

Minimum indoor volume & floor area relative to
the amount of refrigerant is roughly as given in
the following table.

07-115 SSHP_II 5/7/07 3:59 PM Page 15

CAUTION

WARNING

2

ft.

538

484

430

376

323

269

215

161

Min. indoor floor area

(when the ceiling is 9 ft. high)

108

54

3

ft.

4,842

4,356

3,870

3,384

2,907

2,421

1,935

1,449

Min. indoor volume

Range below the
density limit of

0.3 oz./ft.
(Countermeasures
not needed)

972

486

22

Total amount of refrigerant

3

44 66 88 lbs.

CAUTION

Range above the
density limit of

0.3 oz./ft.
(Countermeasures
needed)

3

16

2. SELECTING THE INSTALLATION SITE

2-1. Indoor Unit

AVOID:

 areas where leakage of flammable gas may be

expected.

 places where large amounts of oil mist exist.

 direct sunlight.

 locations near inverter lamps which may affect the

performance of the unit.

 locations near heat sources which may affect the

performance of the unit.

 locations where external air may enter the room

directly. This may cause “sweating” on the air dis­charge ports, causing them to spray or drip.

 locations where the remote controller will be splashed

with water or affected by dampness or humidity.

 installing the remote controller behind curtains or

furniture.

 locations where the receiver in the indoor unit is

exposed to the inverter lamp light. Faulty operation of
the unit occurs.

DO:

 select an appropriate position from which every

corner of the room can be uniformly cooled.

 select a location where the ceiling is strong enough

to support the weight of the unit.

 select a location where tubing and drain pipe have

the shortest run to the outdoor unit.

 allow room for operation and maintenance as well as

unrestricted air flow around the unit.

 install the unit within the maximum elevation

difference above or below the outdoor unit and within
a total tubing length (L) from the outdoor unit as
detailed in Table 1-11.

 allow room for mounting the remote controller about

3 ft. off the floor, in an area that is not in direct
sunlight nor in the flow of cool air from the indoor
unit.

Air delivery will be degraded if the distance from the
floor to the ceiling is greater than 10 ft.

07-115 SSHP_II 5/7/07 3:59 PM Page 16

Ceiling-Mounted Type

Ceiling

Wall

Min. 10 inch

Front view

Min. 10 inch

NOTE

The rear of the indoor unit can be installed flush
against the wall.

Air
discharge

Min. 2 ft.

Ceiling

Air intake

Side view

4-Way Air Discharge Type

Concealed-Duct Type

3 ft.

3 ft.

3 ft.

3 ft.

3 ft.

NOTE

Min.
6 inch

Wall-Mounted Type

Min.
6 inch

Min.
12 inch

2-2. Outdoor Unit

AVOID:

 heat sources, exhaust fans, etc. (Fig. 2-1)

 damp, humid or uneven locations

DO:

 choose a place as cool as possible.

 choose a place that is well ventilated and outside

air temperature does not exceed maximum 115°F
constantly.

 allow enough room around the unit for air intake/

exhaust and possible maintenance. (Fig. 2-2)

 use lug bolts or equal to bolt down unit, reducing

vibration and noise.

 if cooling operation is to be used when the outdoor

air temperature is 23°F or below, install a duct on
the outdoor unit.

Installation space

Distance between obstructions and the unit air inlet
and outlet must be as shown below.

Fig. 2-1

Fig. 2-3

Fig. 2-4

Installation requirements

 provide a solid base (concrete block, 4" × 16"

beams or equal), a minimum of 6" above ground
level to reduce humidity and protect the unit against
possible water damage and decreased service life.
(Fig. 2-4)

 use lug bolts or equal to bolt down unit, reducing

vibration and noise.

 Concerning inlet-side distance “C” (Fig. 2-2)

The minimum for distance “C” is 6" if there are no obstructions on the outlet side
(wall *1 side) and *2 or *4 is not present. In all other cases, the minimum for distance
“C” is 8".

 If the unit is installed with the outlet side facing wall *1, then there must be no obstruc-

tions on 2 of the remaining 3 sides: *2, *3, *4.

 If wall *1 is on the outlet side (Fig. 2-2), or if obstructions are present on all 3 sides *2,

*3, and *4 (Fig. 2-2), then the minimum distance for “A” and “B” is 80" (Fig. 2-3). Even
if there is no wall on the outlet side, a minimum of 3.3 ft. is required.

Fig. 2-2

17

07-115 SSHP_II 5/7/07 3:59 PM Page 17

More than 25/64"

*3

Inlet side C

Outlet side
More than

3.3 ft.

*1

More than 25/64"

*4*2

Hot air

Air direction chamber

(field supply)

Exhaust fan

Out­door
unit

(Obstruction above unit)

*1

Heat source

B

A

Inlet side
More than 8"

(Obstruction on
inlet side)

(Ground)

CAUTION

Anchor bolts
(4 pieces)

18

Fig. 2-5

Fig. 2-6

Fig. 2-7

2-3. Air-Discharge Chamber for Top Discharge

Be sure to install an air discharge chamber in the
field when:

 it is difficult to keep a space of min. 20" between

the air discharge outlet and an obstacle.

 the air discharge outlet is facing a sidewalk and

discharged hot air may bother passers-by.
Refer to Fig. 2-5.

2-4. Installing the Unit in Heavy Snow Areas

In locations with strong wind, snow-proof ducting
should be fitted and direct exposure to the wind
should be avoided as much as possible.

 Countermeasures against snow and wind

In regions with snow and strong wind, the following
problems may occur when the outdoor unit is not pro­vided with a platform and snow-proof ducting:

a) The outdoor fan may not run and damage to the

unit may occur.

b) There may be no air flow.

c) The tubing may freeze and burst.

d) The condenser pressure may drop because of

strong wind, and the indoor unit may freeze.

2-5. Precautions for Installation in Heavy Snow

Areas

(1) The platform should be higher than the max. snow

depth. (Fig. 2-6)

(2) The 2 anchoring feet of the outdoor unit should be

used for the platform, and the platform should be
installed beneath the air intake side of outdoor
unit.

(3) The platform foundation must be firm and the unit

must be secured with anchor bolts.

(4) In case of installation on a roof subject to strong

wind, countermeasures must be taken to prevent
the unit from being blown over.

In regions with significant snowfall, the outdoor unit should
be provided with a platform and snow-proof duct.

07-115 SSHP_II 5/7/07 3:59 PM Page 18

Air discharge

Air discharge

Without snow­proof ducting
(Low platform)

Outdoor
Unit

Duct

With snow­proof ducting
(High platform)

Air
Intake

2-6. Dimensions of Wind Ducting

Reference diagram for air-discharge chamber (field supply)

STK–DRV80U for 2672R / 3072R / 3672R unit

STK-DRE140A for 4272R unit

Unit: inch

Note: In snowy regions, if there is concern that snow may enter the air discharge

chamber, remove the base of the chamber (10 screws) before using.

Unit: inch

19

07-115 SSHP_II 5/7/07 3:59 PM Page 19

1 Air discharge chamber

2 Air discharge chamber (base)

3-ø5/32 hole

2

1

2

21-13/16

21-13/16

9-27/32

(25/32)

6-ø15/64 hole

22-7/16

23-15/32

21-39/64

9-27/329-27/32

1-1/16

15/16 17/32

(25/32)

Rectangular hole
(both sides)

5-3/16

5-5/32

(25/32)(25/32)

1 Unit front, air discharge chamber

2 Unit left side, air discharge chamber

3 Unit light side, air discharge chamber

4 Reinforcement brackets, 4 locations

2

9-7/161-1/8

1

Rectangular
hole

Rectangular
hole

1-3/821-5/3212-15/32

2-3/4

22-13/32
21-13/3211

4

11-13/16

3

9-27/32

9-27/32

12-7/329-27/32

39-1/4

42-29/32

9-7/16

Rectangular
hole

Rectangular
hole

1-1/8

1-3/8

12-15/3221-5/32

2-3/4

Dimensions of Outdoor Unit with air-discharge chamber (field supply)

2672R / 3072R / 3672R unit with STK-DRV80U

4272R unit with STK-DRE140A

Unit: inch

Unit: inch

20

07-115 SSHP_II 5/7/07 3:59 PM Page 20

4-5/16

Wind

direction

13-3/8

6-11/16

25-31/32

1/2 1/2

Wind direction

2-17/32

30-23/32

Wind direction

1/2

21-13/16

37

Wind direction

Wind direction

25/32 25/32

13/32

14-31/32

15-15/16

19/32

21-5/8 4-1/16

9-27/32

Wind direction

5-3/16

23/32

Wind

direction

13-3/8

2-11/36 21-13/32

Wind
direction

25-31/326-11/16

Wind direction

1/2 1/2

37

11-13/16

Wind
direction

1/2

4-5/16

25/3225/32

14-31/32 13/3219/32

15-15/16

4-1/439-1/4

11- 13/ 16

Wind direction

Wind direction

48-7/16

Wind
direction

23/32

Wind
direction

21

Reference diagram for air-discharge chamber (field supply)

C(H)2672R / 3072R / 3672R / 4272R with STK-DRV80U & DRE140A

Required space around outdoor unit

If the air discharge chamber is used, the space shown below must be secured around the outdoor unit.
If the unit is used without the required space, a protective device may activate, preventing the unit from operating.

(1) Single-unit installation

The top and both sides must remain open. If there are obstacles to the front and rear of
the outdoor unit, the obstacle at either the front or rear must be no taller than the height of
the outdoor unit.

(2) Multiple-unit installation



Installation in lateral rows

The front and top must remain open.
The obstacles must be no taller than the height of the outdoor unit.

The front and both sides must remain open.



Installation in front-rear rows

Installation with intakes facing outlets Installation with intakes facing

intakes or outlets facing outlets

More than 15-3/4

More than 11-13/16 More than 11-13/16

More than 7-7/8

Unit: inch

Unit: inch

Unit: inch

07-115 SSHP_II 5/7/07 3:59 PM Page 21

Min. 7-7/8

Min. 39-3/8

CAUTION

CAUTION

More than 59-1/16

More than 15-3/4

More than 78-3/4

CAUTION

22

2-7. Dimensions of Snow Ducting

Reference diagram for snow-proof vents (field supply)

STK-BDRE80A for 2672R / 3072R / 3672R unit

STK-BDR140U for 4272R unit

Unit: inch

Unit: inch

07-115 SSHP_II 5/7/07 3:59 PM Page 22

1 Unit top, snow-proof vent

2 Unit left side

3 Unit right side

4 Unit reverse side

5 Unit reverse side

6 Unit sides, reinforcement brackets for snow-proof vent

Fastened by screws at 13 locations

25-13/32

17-15/32

9-3/16

16-25/32

27-29/32

Fastened by screws at 3 locations
(also on reverse side)

Unit anchor hole

Fastened by screw at 1
location (also on reverse side)

(6 – ø7 hole)

5-3/32

19-11/16

1-21/32

25/32

3-3/4

5

30-3/32

19-11/16

28-3/4

30-11/16

4

1

11-29/32

3-31/32

9-3/8

6

13-25/32

5/8

9-3/16

16-25/32

27-29/32

2

1 Unit top, snow-proof vent

2 Unit left side

3 Unit right side

4 Unit reverse side

5 Unit reverse side

6 Unit sides, reinforcement brackets for snow-proof vent

3

9-3/16

28-13/16

47-19/32

Fastened by screws at
3 locations (also on reverse side)

25-13/32

17-15/32

Fastened by screws at 13 locations

3-3/4 19-11/16

25-32

5-29/32

17-23/3219-11/16

30-3/32

Unit anchor hole

(7 – ø7 hole)

13-5/1619-11/16

5/8

4

1

11-7/8

3-31/32

2

9-3/16

28-13/16

47-19/32

Fastened by screw at
1 location (also on reverse side)

15-9/32

1-5/8 28-3/4

30-5/8

1-13/16

23

2672R / 3072R / 3672R unit with STK-BDRE80A

Dimensions of outdoor unit with snow-proof vents (field supply)

4272R unit with STK-BDR140U

Unit: inch

Unit: inch

07-115 SSHP_II 5/7/07 3:59 PM Page 23

Wind direction

30-3/32

Wind direction

7-1/16

25-13/32

Wind direction Wind direction

37

30-23/32

25/32

14-31/32 13/3219/32

3/4

Wind direction

15-15/16

11-29/32

Wind direction

16-3/4

25-13/32

48-7/16

47-19/37

Wind direction

Wind direction

24-7/8

30-3/32

Wind direction

37

7-1/16

Wind direction

25/3225/32

14-31/32 13/3219/32

15-15/16

Wind direction

11-29/32

28-13/16

Wind direction

Reference diagram for snow-proof vents – 1

Space requirements for setting – (1)
C(H)2672R / 3072R / 3672R / 4272R with STK-BDRE80A & STK-BDR140U

Unit: inch

24

07-115 SSHP_II 5/7/07 3:59 PM Page 24

[Obstacle to the rear of unit]

[Obstacle to the front of unit]

Top is open: Top is open:

(1) Single-unit installation

(2) Obstacles on both sides

(1) Single-unit installation

Min. A

Min. B

Min. C

Min. D

(2) Multiple-unit installation (2 or more units)

(3) Multiple-unit installation (2 or more units)

Min. G

Min. E Min. E

Note:
In cases 2 and 3 the
height of the obstacle
must be no taller than
the height of the
outdoor unit.

Outdoor unit

A

B

C

D

E

F

G

Min. E

Min. F

C(H)2672R / 3072R /

3672R / 4872R

5-29/32

5-29/32

11-13/16

7-7/8

11-13/16

5-29/32

7-7/8

Min. I Min. I

Outdoor unit

C(H)2672R / 3072R /

3672R / 4272R

H

19-11/16

Top is blocked by an obstacle:

Min. H

Min. J

I

11-13/16J39-3/8

Top is blocked by an obstacle:

Min. K

Outdoor unit

C(H)2672R / 3072R /

3672R / 4272R

L

19-11/16

Min. L

K

5-29/32

Min. M

Outdoor unit

C(H)2672R / 3072R /

3672R / 4272R

M

39-3/8

Min. N

N

39-3/8

25

Reference diagram for snow-proof vents – 2

Space requirements for setting – (2)
C(H)2672R / 3072R / 3672R / 4272R with STK-BDRE80A & STK-BDR140U

Unit: inch

07-115 SSHP_II 5/7/07 3:59 PM Page 25

[Obstacles to the front and rear of unit]

The top and both sides must remain open. Either the obstacle to the front or
the obstacle to the rear must be no taller than the height of the outdoor unit.

(1) Single-unit installation

Q

Min. P

Dimension Q
If a snow protection duct is attached after the unit is

installed, verify that dimension Q is 19-11/16 in. or more.

Min. O

Outdoor unit

C(H)2672R / 3072R /

3672R / 4272R

O

39-3/8

P

5-29/32

(2) Obstacles on both sides

Q

Min. 11-13/36

Min. 11-13/16

Min. 7-7/8

Min. 39-3/8

[Installation in front-rear rows]

• The top and both sides must remain open. Either the obstacle to the front or the obstacle
to the rear must be no taller than the height of the outdoor unit.

Min. 11-13/16

Min. 39-3/8 Min. 7-7/8

Min. 59-1/16 Min. 78-3/4

0

Dimension Q
If a snow protection duct is

attached after the unit is
installed, verify that dimension
Q is 19-11/16 in. or more.

X

26

3. HOW TO INSTALL THE INDOOR UNIT

 4-Way Air Discharge Semi-Concealed Type

(X Type)

3-1. Suspending the Indoor Unit

This unit uses a drain pump. Use a carpenter’s level to
check that the unit is level.

3-2. Preparation for Suspending

(1) Fix the suspension bolts securely in the ceiling

using the method shown in the diagrams (Figs. 3-1
and 3-2), by attaching them to the ceiling support
structure, or by any other method that ensures that
the unit will be securely and safely suspended.

(2) Follow Fig. 3-2 and Table 3-1 to make the holes in

the ceiling.

(3) Determine the pitch of the suspension bolts using

the supplied full-scale installation diagram. The
diagram and table (Fig. 3-3 and Table 3-2) show
the relationship between the positions of the sus­pension fitting, the unit, and the panel.

Fig. 3-1

Fig. 3-2

Unit: inch

Fig. 3-3

Unit: inch

07-115 SSHP_II 5/7/07 3:59 PM Page 26

Hole-in-anchor
Hole-in-plug

Concrete Insert

Suspension bolt (M10 or 3/8")
(field supply)

Table 3-1

Type

XH(W)2672R

(PNR-XH2442)

XH(W)3672R, XH(W)4272R

(PNR-XH3642)

Length

A

32-9/32

(820)

43-11/16

(1,110)

Unit: inch (mm)

B

22-9/32

(566)

33-11/16

(856)

)gninepo gnilieC( 23/9-23

nsion bolt pitch)epsuS( 61/31-92

A (Ceiling opening)

(Suspension bolt pitch)

Grille center

X

B

Drain hose
side

Refrigerant
tubing side

Table 3-2

Type

Length

XH(W)2672R

(PNR-XH2442)

XH(W)3672R, XH(W)4272R

(PNR-XH3632)

A

6-3/16

(157)

6-3/16

(157)

Refrigerant tubing joint (gas tube side)

Suspension lug

E

7-5/32

(182)

7-5/32

(182)

10-9/32

(261)

11-15/32

(291)

13-1/16

D EB C

12-1/8

(308)

(338)

Unit: inch (mm)

4-7/8
(124)

4-7/8
(124)

Drain connection (other side)
(VP25)

Refrigerant tubing joint
(liquid tube side)

D

61/3

C

B

A

­1

27

X

3-3. Placing the Unit Inside the Ceiling

(1) When placing the unit inside the ceiling, determine

the pitch of the suspension bolts using the
supplied full-scale installation diagram. (Fig. 3-4)
The size of the opening for the indoor unit can be
confirmed by attaching the full-scale installation
diagram beneath the unit. (Fig. 3-4)
Tubing and wiring must be laid inside the ceiling
when suspending the unit. If the ceiling is already
constructed, lay the tubing and wiring into position
for connection to the unit before placing the unit
inside the ceiling.

(2) The length of each suspension bolt must be

appropriate for a distance between the bottom of
the bolt and the bottom of the ceiling of 19/32 in.
or more as shown in Fig. 3-4.

(3) Thread the 2 hexagonal nuts (field supply) and

washers onto the 4 suspension bolts as shown in
Fig. 3-5.
Use 2 sets of nuts and washers (upper and lower),
so that the unit will not fall off the suspension lugs.

(4) Remove the protective cardboard used to protect

the fan parts during transport.

(5) Adjust the distance between the unit and surface

of the ceiling. (1-7/8 in.) (Fig. 3-4)

Fig. 3-4

Fig. 3-5

07-115 SSHP_II 5/7/07 3:59 PM Page 27

erom ro hcni 23/91

Nuts and washers

(Use above and below)

Full-scale installation diagram
(printed on a cardboard packing)

Double nuts

Suspension bolt

Upper

Lower

1-7/8 inch

Full-scale installation

diagram

Suspension lug

Notch

hc
n

i
8/7-

1

X

28

3-4. Installing the Drain Piping

(1) Prepare standard hard PVC pipe for the drain and

use the supplied drain hose and hose band to pre­vent water leaks.
The PVC pipe must be purchased separately. The
transparent part allows you to check drainage.
(Fig. 3-6)

(2) After checking the drainage, wrap the supplied

packing and drain pipe insulator around the pipe.
(Fig. 3-7)

Ensure the drain pipe has a downward gradient (1/100
or more) and that there are no water traps.

Tighten the hose clamps so
their locking nuts face upward.
(Fig. 3-6)



Do not install an air bleeder tube, as this may cause
water to spray from the drain tube outlet. (Fig. 3-8)



If it is necessary to increase the height of the drain
pipe, the section directly after the connection port
can be raised a maximum of 19-11/16 in. Do not
raise it any higher than 19-11/16 in., as this could
result in water leaks. (Fig. 3-9)



Do not install the pipe with an upward gradient from
the connection port. This will cause drain water to
flow backwards and leak when the unit is stopped.
(Fig. 3-10)



Do not apply force to the piping on the unit side
when connecting the drain pipe. The pipe should
not be allowed to hang unsupported from its
connection to the unit. Fasten the pipe to a wall,
frame, or other support as close to the unit as
possible. (Fig. 3-11)



Provide insulation for any drain pipe that is run
indoors.

Fig. 3-6

Fig. 3-7

Fig. 3-8

Fig. 3-9

Fig. 3-10

Fig. 3-11

07-115 SSHP_II 5/7/07 3:59 PM Page 28

Hard PVC pipe
(not supplied)

Drain hose
adapter
(supplied)

CAUTION

Transparent part for
checking drainage

Packing
(supplied)

Drain hose
(supplied)

Hose band
(supplied)

Drain insulator (supplied)

NOTE

Air bleeder

CAUTION

11-3/4 in. or less (as short as possible)

19-11/16 in. or less

Upward gradient

Support
pieces

29

X

3-5. Checking the Drainage

After wiring and piping are completed, use the follow­ing procedure to check that the water will drain smooth­ly. For this, prepare a bucket and wiping cloth to catch
and wipe up spilled water.

(1) Take off the tube cover and through the opening,

slowly pour about 43 oz. of water into the drain pan
to check drainage.

(2) Do Test Run to check the drainage after complet-

ing installation. When performing Test Run, be
sure to observe the Test Run procedure.
Refer to page 105.

(3) After drain checking is finished, return the Opera-

tion Selector switch to the RUN position (ON posi­tion ) and remount the tube cover.

Do not supply power to the
unit until the tubing and
wiring to the outdoor unit are
completed.

Be careful since the fan will
start turning when checking
the drainage.

To mount the tube cover, use
5/16" (4

××

8 mm) tapping
screws. Do not use long
screws as they may puncture
the drain pan and cause water
leakage.

Fig. 3-12

07-115 SSHP_II 5/7/07 3:59 PM Page 29

WARNING

CAUTION

WARNING

5/16"(4 × 8 mm)
tapping screw

Tube cover

Siphon

X

30

 Ceiling Panel

3-6. Before Installing the Ceiling Panel

(1) Remove the air-intake grille and air filter from the

ceiling panel. (Figs. 3-13 and 3-14)

(a) Remove the 2 screws on the latch of the air-

intake grille. (Fig. 3-13)

(b) Press on the 2 latches of the air-intake grille

with your thumbs in the direction of the arrow
to open the grille. (Fig. 3-13)

(c) With the air-intake grille open about 45°,

remove the safety cord (hook on the grille
side). (Fig. 3-14)

(d) Pull the air-intake grille towards you to remove

it from the ceiling panel.

(2) Pull down the two panel catches on the body of

the indoor unit body. (Fig. 3-15)

Never touch or attempt to
move the air direction louver
by hand or you may damage
the unit. Instead, use the
remote control unit if you want
to change the direction or air
flow.

Fig. 3-13

Fig. 3-14

Fig. 3-15

07-115 SSHP_II 5/7/07 3:59 PM Page 30

Latch

CAUTION

Screw

Air-intake grille

Ceiling panel

Air filter

Safety cord

45°

Ceiling panel

Panel catch

Electrical
component box

Electrical
component box

Clamp

Ceiling panel wiring
connector

Unit body

Panel catch
(arrange facing downwards)

(2 locations)

Screws M5 with washer

(supplied)

Air filter

Air-intake grille

31

X

3-7. Installing the Ceiling Panel

(1) Lift the ceiling panel and position it to align the

panel hook with the panel catch of the indoor unit.

The ceiling panel must be mounted in the correct direc­tion. Note that the 2 catches of the panel differ in size.
Confirm that the catches are correctly matched
between the ceiling panel and the indoor unit body.

(2) Next, check to see that the ceiling panel is prop-

erly aligned with the seamline of the ceiling. If it is
not, remove the ceiling panel and slightly readjust
the indoor unit body to the proper suspension
point.

(3) When the ceiling panel has been properly aligned,

use the supplied 4 mounting screws (M5) with
washers to permanently fasten the ceiling panel.

(4) Install the wiring connector from the ceiling panel

to the connector in the electrical component box of
the indoor unit. After installing the connector, use
the clamp on the body of the indoor unit to secure
the wiring.

(5) Install the air filter and air-intake grille by perform-

ing the steps in section 3-6 in reverse.

Rehook the safety cord before closing the air-intake
grille.

3-8. When Removing the Ceiling Panel

for Servicing

When removing the ceiling panel for servicing, remove
the air-intake grille and air filter, disconnect the wiring
connector inside the electrical component box, and then
remove the 4 mounting screws.

07-115 SSHP_II 5/7/07 3:59 PM Page 31

NOTE

NOTE

X

32

3-9. Duct for Fresh Air



There is a duct connection part on side of the indoor
unit. (Fig. 3-16)



An optional air-intake plenum (including duct connection
box and flange) can be attached to the indoor unit.

(1) Accessories



Check that the following parts are in the box when
unpacking.

(2) Installation



Installation steps (a) to (d) are the same for both the
CMB-GSJ80U and the CMB-GSJ140U. The figure
illustrates installation of air-intake plenum to the
indoor unit. (Fig. 3-17)

(a) Installing the air-intake plenum



Set the air-intake plenum to the indoor unit taking care
not to set it in the wrong direction. (Fig. 3-17)



Fasten the air-intake plenum with the accessory screws.
(M5 × L5 in., 4 pcs) (Fig. 3-17)

(b) Installing the duct connection box



Fasten the duct connection flange to the duct connec­tion box with the accessory screws.
(M4 × L1/2 in., 4 pcs) (Fig. 3-18)



Put the duct connection box into the rectangular hole of
the air-intake plenum and fasten it to both sides of the
indoor unit and plenum with the accessory screws.
(M4 × L1/2 in., 3 pcs) (Fig. 3-18)

(c) Installing the indoor unit



Install the indoor unit to the ceiling. (Install the indoor
unit according to items 3-1 to 3-6.)

When installing in a pre­existing location, install the
indoor unit before installing
the duct connection box.

Fig. 3-16

Fig. 3-17

Unit: inch

07-115 SSHP_II 5/7/07 3:59 PM Page 32

For fresh air intake

e

l

o

h

8

/

Air-intake plenum Type

CMB-GSJ80U

CMB-GSJ140U

(XH(W)3672R, XH(W)4272R)

PNR-XH2442

(XH(W)2672R)

PNR-XH3642

8/3-2

2-5/32

Detail of fresh air intake

1

ø-

4

/31-4ø

23

Name RemarksʻQʼty

Cord with socket
(9P) intaking fresh air.

Connecting line. Not necessary for

1

Screw
(M5 × L5 in.) (for fastening)

4

Screw
(M4 × L1/2 in.) (for fastening)

Duct connection box 1 (for fresh air)

7

Duct connection flange1

CAUTION

Air-intake filter

Duct connection flange / box

(for connecting fresh air duct

Installation
screws

Air-intake
plenum

Indoor unit

)

Socket cover

Panel lead wire (8P)

Clamper

8P socket (red)
(electrical
component box)

8P socket (red)
(ceiling panel side)

33

X

(d) Installing the ceiling panel



Attach the ceiling panel to the chamber. Drawing the
panel downwards sets the panel in position temporarily
with the panel catch (at 2 locations).



Remove the socket cover of the air-intake plenum and
pass the 8P sockets through it. (Fix the panel lead wire
with the chamber side clamp.) (Fig. 3-17)



Connect the 8P socket (electrical component box side)
to the 8P socket (ceiling panel side) of the indoor unit
electrical component box.



Reattach the socket cover.

Fig. 3-18

07-115 SSHP_II 5/7/07 3:59 PM Page 33

Duct
connection
flange

Installation screws

(M4 × 1/2 in.)

Panel catch

Ceiling panel

Duct connection box

34

K

 Wall-Mounted Type (K Type)

3-10. Removing the Wall Fixture from the Unit

Remove and discard the set screws and take off the
rear panel. (Fig. 3-19)

Tubing can be extended in 3 directions as shown in
Fig. 3-20. Select the direction that provides the shortest
run to the outside unit.

3-11. Selecting and Making a Hole

(1) Remove the rear panel from the indoor unit and

place it on the wall at the location selected. Make
sure the unit is horizontal using a carpenter’s level
or tape measure to measure down from the ceiling.

(2) Determine which side of the unit you should make

the hole. (Fig. 3-21)

(3) Before making a hole, check carefully that no studs

or pipes are directly run behind the spot to be cut.

KH(S)2672R

KH(S)2672R

Also avoid areas where electri­cal wiring or conduits are
located.

The above precautions are also applicable if tubing
goes through the wall in any other location.

(4) Using a sabre saw, key hole saw or hole-cutting

drill attachment, cut a hole in the wall. See Table
3-3 and Fig. 3-22.

Table 3-3

(5) Measure the thickness of the wall from the inside

edge to the outside edge and cut PVC pipe at a
slight angle 1/4" shorter than the thickness of the
wall. (Fig. 3-23)

(6) Place the plastic cover over the end of the pipe (for

indoor side only) and insert in the wall.
(Fig. 3-24)

Hole Dia. (inch)

3-3/16"

Fig. 3-19

Fig. 3-20

Fig. 3-21

Fig. 3-22

Fig. 3-23

Fig. 3-24

Hole should be made at a slight downward slant to
the outdoor side.

07-115 SSHP_II 5/7/07 3:59 PM Page 34

NOTE

Set screws for transportation only

Left-rear tubling

Right-rear
tubing
(recommended)

Right tubing

In case of left-rear or right-rear tubing

CAUTION

NOTE

Center of
left-rear
tubing hole

Center of
right-rear
tubing hole

PVC pipe (locally purchased)

Indoor
side

Outdoor
side

INSIDE

Wall

Plastic cover

(Field supply)

OUTSIDE

Cut at slight angle

PVC pipe

Slight
angle

35

K

One hole is required for the air conditioner tubing, and
may be either on the left or right side. (Also see section
3-14. Preparing the Indoor Side Tubing.)

(1) Tape the full-scale installation diagram on the wall

at the location selected. Make sure the unit is
horizontal using a level or tape measure to
measure down from the ceiling. (Fig. 3-25)

(2) Determine if the hole is to be drilled at the left or

right hole location.

(3) Before drilling a hole, check that there are no

studs or pipes behind the determined location.

KH(S)3072R, KH(S)3672R

Avoid any area where electrical
wiring or conduit is located.
Also take this precaution if the
tubing goes through a wall at
any other location.

(4) Using a sabre saw, key hole saw or 3-5/32 in.

hole-cutting drill attachment, make a hole in the
wall. The required minimum hole diameter for
these models is 3-3/16 in. (Fig. 3-26)

(5) Measure the thickness of the wall from the inside

edge to the outside edge and cut PVC pipe at a
slight angle 1/4 in. shorter than the thickness of
the wall. (Fig. 3-27)

(6) Place the plastic cover over the end of the pipe,

(for indoor side only) and insert in the wall.
(Fig. 3-28)

Fig. 3-25

Fig. 3-26

Fig. 3-27

Fig. 3-28

Hole should be made at a slight downward slant to
the outdoor side.

07-115 SSHP_II 5/7/07 3:59 PM Page 35

CAUTION

NOTE

Tape

Full-scale
installation diagram

Indoor
side

Outdoor
side

PVC pipe (locally purchased)

Cut at slight angle

INSIDE

Plastic
cover

Wall

OUTSIDE

PVC pipe

Slight
angle

36

K

Remove and discard the set screws and take off the
wall fixture. (Fig. 3-29)

(1) Tape the full-scale installation diagram on the wall

at the location selected. Make sure the unit is hori­zontal using a level or tape measure to measure
down from the ceiling. (Fig. 3-30)

(2) Before drilling a hole, check that there are no studs

or pipes behind the determined location.

KHH(S)2672R

KHH(S)2672R

Avoid any area where electrical
wiring or conduit is located.
Also take this precaution if the
tubing goes through a wall at
any other location.

Fig. 3-29

Fig. 3-30

(3) Using a sabre saw, key hole saw or 3-5/32 in.

hole-cutting drill attachment, make a hole in the
wall. The required minimum hole diameter for
these models is 3-3/16 in. (Fig. 3-31)

(4) Measure the thickness of the wall from the inside

edge to the outside edge and cut PVC pipe at a
slight angle 1/4 in. shorter than the thickness of
the wall. (Fig. 3-32)

(5) Place the plastic cover over the end of the pipe,

(for indoor side only) and insert in the wall.
(Fig. 3-33)

Fig. 3-31

Fig. 3-32

Fig. 3-33

Hole should be made at a slight dowward slant to the
outdoor side.

07-115 SSHP_II 5/7/07 3:59 PM Page 36

Wall fixture

Set screws only for transportation

lacs-lluF

Tape

noitallatsni e

margaid

CAUTION

NOTE

Indoor
side

Outdoor
side

PVC pipe (locally purchased)

INSIDE

Plastic
cover

Cut at slight angle

Wall

OUTSIDE

PVC pipe

Slight
angle

37

K

3-12. Installing the Rear Panel on the Wall

Be sure to confirm that the wall is strong enough to suspend
the unit.

See either Item a) or b) below depending on the wall type.

a) If Wooden Wall

(1) Attach the rear panel to the wall with the 10 screws provid-

ed. (Fig. 3-34)
If you are not able to line up the holes in the rear panel
with the beam locations marked on the wall, use toggle
bolts to go through the holes on the panel or drill 3/16 in.
dia. holes in the panel over the stud locations and then
mount the rear panel.

(2) Double-check with a ruler or carpenter’s level that the

panel is level. This is important to install the unit properly.
(Fig. 3-35)

(3) Make sure the panel is flush against the wall. Any space

between the wall and unit will cause noise and vibration.

b) If Block, Brick, Concrete or Similar Type Wall

Make 3/16" dia. holes in the wall. Insert rawl plugs for appropri­ate mounting screws. (Fig. 3-36)

Confirm that the wall is strong enough to support the unit.

a) If Wooden Wall

(1) Attach the wall fixture to the wall with the 12 screws pro-

vided. (Fig. 3-37) If you are not able to line up the holes in
the wall fixture with the beam locations marked on the
wall, use rawl plugs or toggle bolts to go through the holes
on the panel or drill 3/16 in. dia. holes in the wall fixture
over the stud locations.

(2) Check with a tape measure or carpenter’s level that the

wall fixture is level. This is important so that the unit is cor­rectly installed.

(3) Make sure the wall fixture is flush against the wall. Any

space between the wall and unit will cause noise and
vibration.

b) If Block, Brick, Concrete or Similar Type Wall

Make 3/16 in. dia. holes in the wall. Insert rawl plugs for
appropriate mounting screws. (Fig. 3-36)

KH(S)2672R

Fig. 3-36

Fig. 3-37

KH(S)3072R, KH(S)3672R

Fig. 3-35

Fig. 3-34

07-115 SSHP_II 5/7/07 3:59 PM Page 37

1-3/16

3/16
dia. hole

Rawl plug
(Field supply)

Wall fixture

"

or more

"

38

K

Confirm that the wall is strong enough to support the
unit.

a) If Wooden Wall

(1) Attach the wall fixture to the wall with the 9 screws

provided. (Fig. 3-38)
If you are not able to line up the holes in the wall
fixture with the beam locations marked on the wall,
use rawl plugs or toggle bolts to go through the
holes on the panel or drill 13/64 in. dia. holes in the
panel over the stud locations and then mount the
wall fixture.

(2) Check with a tape measure or carpenter’s level

that the wall fixture is level. This is important so
that the unit is correctly installed.

(3) Make sure the wall fixture is flush against the wall.

Any space between the wall and unit will cause
noise and vibration.

b) If the Wall is Brick, Concrete or Similar

Drill 3/16 in. dia. holes in the wall. Insert rawl plugs for
appropriate mounting screws. (Fig. 3-39)

KHH(S)2672R

Fig. 3-38

Fig. 3-39

07-115 SSHP_II 5/7/07 3:59 PM Page 38

wall fixture

3/16 in.
dia. hole

Rawl plug

39

K

3-13. Remove the Grille to Install the Indoor Unit

Basically, these models can be installed and wired
without removing the grille. If access to any internal

part is needed, follow the steps given below:

How to remove the grille

(1) Set the 2 flaps in the horizontal position.

(2) Unscrew the 3 screws. (Fig. 3-40a)

(3) Remove the grille.

(a) Hold both corners of the air intake grille, then

pull out and up to open. (Fig. 3-40b)

(b) Use a standard screwdriver to push up the 3

tabs to remove the grille. (Fig. 3-40b)

(c) Pull the lower part of the grille toward you to

remove. (Fig. 3-40a)

How to replace the grille

(1) Close the flaps.

(2) Reinstall the grille into the lower part while aligning

its tabs on the upper part. (Fig. 3-41a) Insert the
tabs in the slots and push the lower part of the
grille back into position.

(3) Press at each of the 5 tabs to completely close the

grille. Make sure that the grille and frame are firmly
fitted together. (Fig. 3-41b)

KH(S)2672R

Fig. 3-40a

Fig. 3-40b

Fig. 3-41a

Fig. 3-41b

07-115 SSHP_II 5/7/07 3:59 PM Page 39

Grille

Air-intake grille

Air-intake grille

40

K

How to Remove the Grille

(1) Remove the plastic cover. (Fig. 3-42)

(2) Remove the clamp for the wiring connector.

(Fig. 3-43)

(3) Disconnect the 2 wiring connectors. (Fig. 3-44)

(4) Set the flap in the horizontal position. (Fig. 3-45)

(5) Remove the 3 screws. (Fig. 3-45)

(6) Remove the grille. (Fig. 3-45)

When replacing the grille, be careful not to crush the
lead wires between the grille and the frame.
(Fig. 3-45)

Fig. 3-42

Fig. 3-43

Fig. 3-44

Fig. 3-45

KH(S)3072R, KH(S)3672R

07-115 SSHP_II 5/7/07 4:00 PM Page 40

Plastic cover

Screw

NOTE

Clamp

Screw

Grille

Flap

Screws

Wiring
connectors

Frame

41

K

3-14. Preparing the Indoor Side Tubing

Arrangement of tubing by directions

(a) Right tubing

The corner of the right frame needs to be cut by
a hacksaw or the like. (Fig. 3-46)

(b) Right-rear or left-rear tubing

In this case, the corner of the frame need not be
cut.

To mount the indoor unit on the rear panel:

(a) Hang the 3 mounting slots of the unit on the

upper tabs of the rear panel. (Fig. 3-47)

Tubing can be extended in 4 directions as shown in
Fig. 3-54.

Arrangement for Right-rear Tubing

(a) Remove the 2 screws and slide out the side

cover. (Fig. 3-48)

(b) Extend the gas tube from the outdoor side and

connect it directly to the mating tube inside the
indoor unit. Use a flare nut. (Fig. 3-49)

Arrangement for Right Tubing

(a) Remove the 2 screws and take off the side cover.

(Fig. 3-48)

(b) Cut out the L-shaped tubing outlet using a

hacksaw. (Fig. 3-50)

(c) Using the L-shaped tube (field supply),

connect tubing between the indoor and
outdoor units. (Fig. 3-52)

Arrangement for Left and Left-rear Tubing.

(a) Remove the 4 screws (2 on each side) and take

off both left and right side cover.
(Fig. 3-51)

(b) Remove 4 screws to remove the bottom cover.

(c) Using the L-shaped tube (field supply), connect

tubing as in Fig. 3-53.

KH(S)2672R

Fig. 3-46

Fig. 3-47

KH(S)3072R, KH(S)3672R

Fig. 3-48

Fig. 3-49

Fig. 3-50

Indoor unit

Bottom
cover

Left
side
cover

Right
side
cover

Fig. 3-51

L-shaped tube

Fig. 3-52

Fig. 3-53

07-115 SSHP_II 5/7/07 4:00 PM Page 41

Frame

Right tubing
outlet

Mounting slot

Ta b

Tubing
from the
outdoor
unit

Hacksaw

L-shaped
tube

42

K

Tubing can be extended in 4 directions as shown in
Fig. 3-54.

Arrangement for Left Tubing

(a) Cut out the left tubing outlet. (Fig. 3-55)

Arrangement for Right Tubing

(a) Cut out the right tubing outlet using a hacksaw.

(Fig. 3-56)

Arrangement for Left-rear and Right-rear Tubing

(a) It is not necessary to cut a hole.

3-15. Wiring Instructions

General Precautions on Wiring

(1) Before wiring, confirm the rated voltage of the

unit as shown on its nameplate, then carry out
the wiring closely following the wiring diagram.

(2) Provide a power outlet to be used exclusively for

each unit. A power supply disconnect and circuit
breaker for overcurrent protection should be
provided in the exclusive line.

(3) To prevent possible hazards from insulation

failure, the unit must be grounded.

(4) All wiring must be connected tightly.

(5) Do not allow wiring to touch refrigerant tubing,

compressor, or any moving parts of the fan.

KHH(S)2672R

Fig. 3-54

Fig. 3-55

Fig. 3-56

Unauthorized changes in the
internal wiring can be very
dangerous. The manufacturer
will accept no responsibility for
any damage or misoperation
that occurs as a result of such
unauthorized changes.

07-115 SSHP_II 5/7/07 4:00 PM Page 42

Left
tubing

Left-rear
tubing

Right-rear
tubing
(Recommended)

Right tubing

Right tubing

Left tubing
outlet

outlet

43

K

3-16. Wiring Instructions for Inter-Unit Connections

(1) Insert the inter-unit wiring (according to local

electrical codes) into the through-the-wall PVC
pipe. Run the wiring toward the indoor side allowing
approx. 10 inches to extend from the wall face.
(Fig. 3-57)

(2) Route the inter-unit wiring from the back of the

indoor unit and pull it toward the front for
connection. (Figs. 3-58a and 3-58b)

(3) Connect the inter-unit wiring to the corresponding

terminals on the terminal plate (Figs. 3-58a and
3-58b) while referring to the wiring diagram.

(4) Be sure to secure the wiring with the provided

clamp.

How to remove the cover plate

To access the terminal plate inside the indoor unit,
follow these steps.

(1) Using a Phillips screwdriver, remove the screw on

the cover plate. (Figs. 3-58a and 3-58b)

(2) Remove the cover plate.

KH(S)2672R

Fig. 3-57

Fig. 3-58a

Fig. 3-58b

07-115 SSHP_II 5/7/07 4:00 PM Page 43

Rear
panel

Wiring

Cover plate

Wall

Plastic
cover

10 in.

Terminal
plate

Earth
plate

Inter-unit

control line
wiring

Lock nut

Top of conduit
connector

44

K

(1) Insert the inter-unit wiring (according to local

codes) into the through-the-wall PVC pipe. Run the
wiring toward the indoor side allowing approx. 5" to
extend from the wall face.
(Figs. 3-59a and 3-59b)

KHH(S)2672R

Never fix the wiring by any
means before the indoor unit is
fully seated on the rear panel.

(2) Remove the side cover and the metallic cover.

(Fig. 3-60 or 3-61, depending on model.)

(3) Secure the conduit connector to the chassis with a

lock nut. (Fig. 3-60 or 3-61)

(4) Give some play to the inter-unit wiring from the

outdoor unit to the corresponding terminals on the
terminal plate.

(5) Secure the metallic cover with its screw. Then

replace the side cover.

 Be sure to refer to the wiring

system diagram label inside
the metallic cover and carry
out the correct field wiring.
Wrong wiring can cause the
unit to malfunction.

 Check local electrical codes

and any specified wiring
instructions or limitations.

KH(S)3072R, KH(S)3672R

Fig. 3-59b

Fig. 3-60

Fig. 3-61

KH(S)3072R, KH(S)3672R

KHH(S)2672R

Fig. 3-59a

07-115 SSHP_II 5/7/07 4:00 PM Page 44

CAUTION

Rear
panel

Plastic
cover

Wiring

Wall

5"

Wall fixture

CAUTION

Connector Wiring

Wall

Lock
nut

Metallic cover

Power line

Grounding
line

Look nut

Elbow
conduit

Plastic cover

Screw

5"

Metallic cover

Lock
nut

Connector

Side cover

K

(1) Shape the refrigerant tubing so that it can easily go into

the wall hole. (Fig. 3-62)

If using a stepladder, be careful to
keep your balance and not fall off.
To prevent the unit from damage
and avoid personal injury, ask for
someone’s help when feeding the
tubing through the hole because
the unit is heavy and difficult to
hold in place.

(2) Push the wiring, refrigerant tubing, and drain hose

through the hole in the wall. Adjust the indoor unit so it is
securely seated on the rear panel.

(3) Carefully bend the tubing (if necessary) to run along the

wall in the direction of the outdoor unit and then tape as
far as the fittings.

(4) Connect the refrigerant tubing to the outdoor unit. (After

performing a leak test on the connecting part, insulate it
with tubing insulation. (Fig. 3-64)) Also, refer to Section
10-5. Connecting Tubing between Indoor and Outdoor
Units.

(5) Assemble the refrigerant tubing, drain hose, and

inter-unit wiring as shown in Fig. 3-65.

(1) Shape the narrow refrigerant tube and drain

hose in the desired direction so that they can
easily go into the wall hole. (Fig. 3-66)

(2) Push the wiring, narrow tube, and drain hose

through the hole in the wall.

(3) Bend the tubing (if necessary) to run along the wall in

the direction of the outdoor unit, then tape as far as the
fittings. The drain hose should come straight down the
wall to a point where water runoff won't stain the wall.

(4) Hang the indoor unit on the wall fixture. (Fig. 3-67)

(5) Install the mounting plate to secure the indoor unit

solidly to the wall. The plate can be positioned in either
of the 2 ways shown. (Fig. 3-68)

The air conditioner’s performance
will deteriorate if a tube is crushed.
To prevent crushing of tubing,
avoid sharp bends. Use a pipe
bending tool to bend tubes.
(Fig. 3-63)

Fig. 3-62

Fig. 3-63

Fig. 3-64

Fig. 3-65

KHH(S)2672R

KH(S)3072R, KH(S)3672R

Fig. 3-68

Fig. 3-67

45

Liquid
tube

Drain hose

Fig. 3-66

07-115 SSHP_II 5/7/07 4:00 PM Page 45

CAUTION

Cover

Refrigerant
tubing

Inter-unit
wiring

Drain hose

CAUTION

Pipe bending tool

Refrigerant tubing

Conduit

b

a

b / a = 0.7 or more

Insulation
(Field supply)

Drain hose

Inter-unit wiring

Wall

Indoor
unit

Or

Screws

Wall fixture

Mounting plate

46

K

3-17. Shaping the Tubing

(1) Shape the refrigerant tubing so that it can easily go

into the hole. (Fig. 3-69)

(2) Push the wiring, refrigerant tubing and drain hose

through the hole in the wall. Adjust the indoor unit
so it is securely seated on the wall fixture.

(3) Carefully bend the tubing (if necessary) to run

along the wall in the direction of the outdoor unit
and then insulate to the end of the fittings. The
drain hose should come straight down the wall to a
point where water runoff will not stain the wall.

(4) Connect the refrigerant tubing to the outdoor

unit.(After performing a leak test on the connection,
insulate it with insulating tape. (Fig. 3-70)) Also,
refer to Section 10-5. Connecting Tubing between
Indoor and Outdoor Units.

(5) Assemble the refrigerant tubing, drain hose and

inter-unit wiring as shown in Fig. 3-71.

3-18. Installing the Drain Hose

(1) The drain hose should be slanted downward on the

outdoor side. (Fig. 3-72)

(2) Never form a trap in the course of the hose.

(3) If the drain hose will run in the room, insulate* the

hose so that chilled condensation will not damage
furniture or floors. (Fig. 3-73)

* Foamed polyethylene or its equivalent is

recommended.

KHH(S)2672R

Fig. 3-69

Fig. 3-70

Fig. 3-71

Do not supply power to the unit
or operate it until all tubing and
wiring to the outdoor unit are
completed.

Fig. 3-72

Fig. 3-73

07-115 SSHP_II 5/7/07 4:00 PM Page 46

Cover

Refrigerant
tubing

Inter-unit
wiring

Drain hose

Insulating

Drain hose

Slant

tape

Refrigerant tubing

Inter-unit wiring

WARNING

Indoor
unit

Insulation material
(field supply)
must be used.

Drain
hose

Condensation

47

T

 Ceiling-Mounted Type (T Type)

3-19. Suspending the Indoor Unit

(1) Place the full-scale diagram (supplied) on the

ceiling at the spot where you want to install the
indoor unit. Use a pencil to mark the drill holes.
(Fig. 3-74).

Since the diagram is made of paper, it may shrink or
stretch slightly because of high temperature or
humidity. For this reason, before drilling the holes
maintain the correct dimensions between the markings.

(2) Drill holes at the 4 points indicated on the full-scale

diagram.

(3) Depending on the ceiling type:

(a) Insert suspension bolts as shown in Fig. 3-75.

or

(b) Use existing ceiling supports or construct a

suitable support as shown in Fig. 3-76.

It is important that you use
extreme care in supporting the
indoor unit from the ceiling.
Ensure that the ceiling is
sufficiently strong enough to
support the weight of the unit.
Before hanging the ceiling unit,
test the strength of each
attached suspension bolt.

(4) Screw in the suspension bolts, allowing them to

protrude from the ceiling as shown in Fig. 3-76.
The distance of each exposed bolt must be of
equal length within 2 inches. (Fig. 3-77)

F

Fig. 3-74

Fig. 3-75

Fig. 3-76

Fig. 3-77

07-115 SSHP_II 5/7/07 4:00 PM Page 47

ront face

Rear

Full-scale diagram

NOTE

WARNING

Hole-in-anchor
Hole-in-plug

Concrete Insert

Suspension bolt (M10 or 3/8")
(field supply)

Ceiling tiles

Ceiling support

A

A

unit

Fixture

Ceiling
surface

.n
i 2

n

iht
i
W

48

T

(5) Before suspending the indoor unit, remove the 2

screws on the latch of the air-intake grilles, open
the grilles, and remove them by pushing the claws
of the hinges as shown in Fig. 3-78. Then remove
both side panels sliding them along the unit toward
the front after removing the two screws which fix
them. (Fig. 3-79)

(6) Preparation for suspending the indoor unit. The

suspension method varies depending on whether
the unit is next to the ceiling or not.
(Figs. 3-80 and 3-81)

Fig. 3-78

Fig. 3-79

Fig. 3-80

Fig. 3-81

07-115 SSHP_II 5/7/07 4:00 PM Page 48

Screw

Latch

Slide toward
front side

Pull out the
air-Intake grille
pushing claws
of the hinges

S

edil

Air-intake grille

Hinge

Side panel

Suspension bolt
(field supply)

unit

unit

Fixture

Ceiling surface

Washer (supplied)

Double nut
(field supply)

Suspension bolt
(field supply)
Washer (field supply)

Washer (supplied)

Double nut
(field supply)

49

T

Fig. 3-82

Fig. 3-83

Fig. 3-84

(7) Suspend the indoor unit as follows.

(a) Mount a washer and two hexagonal nuts on

each suspension bolt as shown in Fig. 3-82.

(b) Lift the indoor unit, and place it on the

washers through the notches, to fix it in place.
(Fig. 3-83)

(c) Tighten the two hexagonal nuts on each

suspension bolt to suspend the indoor unit as
shown in Fig. 3-84.

A ceiling surface is not always level. Please confirm that
the indoor unit is evenly suspended. For the installation
to be correct, leave a clearance of about 3/8 in.
between the ceiling panel and the ceiling surface and fill
the gap with an appropriate insulation or filler
material.

(8) If the tubing and wiring are to go towards the rear

of the unit, make holes in the wall. (Fig. 3-85)

(9) Measure the thickness of the wall from the inside

to the outside and cut PVC pipe at a slight angle to
fit. Insert the PVC pipe in the wall. (Fig. 3-86)

Fig. 3-85

Fig. 3-86

07-115 SSHP_II 5/7/07 4:00 PM Page 49

Washer

(supplied)

Suspension bolt

.
x
orppA

Ceiling
surface

Nut
(field supply)

h
c
n

i
1

NOTE

Indoor
side

Outdoor
side

PVC pipe (locally purchased)

Cut at slight angle

INSIDE

Wall

OUTSIDE

PVC pipe

Slight
angle

50

T

3-20. Duct for Fresh Air

There is a duct connection port (knock-out hole) at the
right-rear on the panel top of the indoor unit for drawing
in fresh air. If it is necessary to draw in fresh air, remove
the cover by knocking it out and connect the duct to the
indoor unit through the connection port. (Fig. 3-87)
If connection at the right-rear on the panel top is not
appropriate, another duct connection port can be made
by cutting an opening on the left side of the rear panel of
the indoor unit as shown in Fig. 3-88.

3-21. Installing the Drain Piping



Prepare a standard PVC pipe for the drain and
connect it to the indoor unit drain pipe with the
supplied hose clamps to prevent water leaks.



Connect the drain piping so that it slopes downward
from the unit to the outside. (Fig. 3-89)



Never allow traps to occur in the course of the piping.



Insulate any piping inside the room to prevent
dripping.



Use the supplied drain pipe to connect the drain pipe
with the drain outlet of the indoor unit.



After connecting the drain pipe securely, wrap the
supplied drain pipe insulator around the pipe, seal
the gap at the drain socket with the supplied black
insulation tape, then secure it with clamps.
(Fig. 3-90)



After the drain piping, pour water into the drain pan to
check that the water drains smoothly.

Check local electrical codes
and regulations before
obtaining wire. Also, check any
specified instruction or
limitations.

Fig. 3-87

Fig. 3-88

Fig. 3-89

Fig. 3-90

07-115 SSHP_II 5/7/07 4:00 PM Page 50

Right side

Duct connection port
(Knock-out hole)

Panel Top

Rear side

A

4-11/32"

B

3-15/16"

A 3-15/16" 7-3/32"

B

1-3/8"1-31/32"

Cut this portion

TH(W)3672R, TH(W)4272R, THH(W)3672RTH(W)2672R, THH(W)2672R

Min. 1/100

Good

CAUTION

Not good

Drain pipe
clamp
(supplied)

Hard PVC pipe
(not supplied)

Packing
(supplied)

Drain hose
(supplied)

Drain hose
adapter
(supplied)

51

U

 Concealed-Duct Type (U Type)

3-22. Required Minimum Space for

Installation and Service



This air conditioner is usually installed above the
ceiling so that the indoor unit and ducts are not
visible. Only the air intake and air outlet ports are
visible from below.



The minimum space for installation and service is
shown in Fig. 3-91 and Table 3-4.



It is recommended that space is provided (17-23/32
× 17-23/32 in.) for checking and servicing the
electrical system.



Fig. 3-92 and Table 3-5 show the detailed
dimensions of the indoor unit.

Table 3-4

Unit: inch (mm)

Type 26 36

A (Length) 42-17/32 (1,080) 61-13/32 (1,560)

Number of duct flanges 34

ABCDEFGHIJK

35-7/16 9-21/32

UH(W)2672R

37-7/8

(7-3/32×5)

39-3/8 42-17/32 11-13/32 2-23/32 38-19/32 39-31/32 5-1/8

(9-21/32×1)

9-27/32 12 16

54-11/32 19-9/32

UH(W)3672R

56-25/32

(9-1/16×6)

58-9/32 61-13/32 13-3/16 12-7/32 57-15/32 58-27/32 5-1/8

(9-21/32×2)

9-7/16 16 18

No. of

holes

Dimension

Table 3-5

Unit: inch (mm)

Fig. 3-91

Fig. 3-92

L

M

Unit: inch

Type

07-115 SSHP_II 5/7/07 4:00 PM Page 51

A (Suspension bolt pitch)

23/72-9

.nim

Electrical
component box

min.

23/72-22

9-27/32

Air outlet duct flange

23/5-28/

3-17/32

23
/9

­7

23/31

).D.O(

4/1-01

13/32

7

­7

23

23/

23/31

/13

5

­2

)noisnemid gninepo gnilieC(

23/51-3

61/3

1

-

01

61/5

1

-

3

)hctip tlob

23/72-22

noisnepsuS(

23/13

L-ø1/4

(Hole)

I

E E E F 2-15/16

A (O.D.)

H (Duct suspension bolt pitch)
G (Ceiling opening dimension)

B

C
D (5-29/32)

(Suspension bolt pitch)

13/32

11

IJJK

3/43/4

4-ø15/32

(Hole)

1-7/321-7/32

M-ø1/8

(Hole)

Inspection access

(17-23/32

17-23/32)

(Field supply)

1-9/16

23/71-4

2-9/16

Refrigerant tubing joint (liquid tube)
Refrigerant tubing joint (gas tube)
Upper drain port (O.D. 1-1/4 in.)
Bottom drain port (O.D. 1-1/32 in.)
Suspension lug
Power supply outlet (2-ø1-3/16 hole)
Fresh air intake port (ø5-29/32 hole)
Flange for the flexible air outlet duct (ø7-7/8 hole)

9

Tube cover

10

Electrical component box

11

Flange for the air intake duct
(Option or field supply)

×

Indoor Unit

12-7/32

31/32 8-9/32

23/1361/31-42

23/31

61/3-14/3-2

6
1

/5-6

23/13

23/11-3

2-3/4

11-7/32

Inspection access panel

4/3-51

.nim

min. 25-19/32

31/32
6-7/8

10

9

23/
51

­7

1-3/8

5-1/8

Ceiling

Inspection
access

17-23/32

×

17-23/32

Refrigerant
tubing

Unit: inch

52

U

3-23. Suspending the Indoor Unit

Depending on the ceiling type:

• Insert suspension bolts as shown in Fig. 3-93
or

• Use existing ceiling supports or construct a suitable
support as shown in Fig. 3-94.

(1) When placing the unit inside the ceiling,

determine the pitch of the suspension bolts
referring to the dimensional data on the previous
page. (Fig. 3-92)
Tubing must be laid and connected inside the
ceiling when suspending the unit. If the ceiling is
already constructed, lay the tubing into position for
connection to the unit before placing the unit inside
the ceiling.

(2) Screw in the suspension bolts allowing them to

protrude from the ceiling as shown in Fig. 3-93.
(Cut the ceiling material, if necessary.)

(3) Thread the 2 hexagonal nuts and washers (field

supply) onto the 4 suspension bolts as shown in
Figs. 3-95 and 3-96. Use 2 sets of nuts and wash­ers (upper and lower), so that the unit will not fall
off the suspension lugs.

It is important that you use
extreme care in supporting the
indoor unit inside the ceiling.
Ensure that the ceiling is strong
enough to support the weight of
the unit. Before hanging the unit,
test the strength of each
attached suspension bolt.

Fig. 3-93

Fig. 3-94

Fig. 3-95

Fig. 3-96

07-115 SSHP_II 5/7/07 4:00 PM Page 52

WARNING

Hole-in-anchor
Hole-in-plug

Concrete Insert

Suspension bolt (M10 or 3/8")
(field supply)

Ceiling tiles

Ceiling support

Suspension bolt

Suspension lug

Nuts and washers

(2 sets)

Upper

Lower

Suspension bolt

Hexagonal nut

53

U



Fig. 3-97 shows an example of installation.

3-24. Installing the Drain Piping

(1) Prepare standard hard PVC pipe for the drain and

use the supplied hose band to prevent water leaks.
The PVC pipe must be purchased separately.
When doing this, leave a gap between the drain
socket of the unit and the PVC pipe to allow the
drainage to be checked. The transparent drain
pipe allows you to check drainage. (Fig. 3-98)

(2) After connecting the drain piping securely, wrap the

supplied packing and drain pipe insulator around
the pipe, then secure it with the supplied clamps.
(Fig. 3-99)

Make sure the drain pipe has a downward gradient
(1/100 or more) and that there are no water traps.

Tighten the hose clamps so
their locking nuts face upward.
(Fig. 3-98)

Fig. 3-98

Fig. 3-99

Fig. 3-97

07-115 SSHP_II 5/7/07 4:00 PM Page 53

Bolt anchor

Air outlet duct

Air-outlet grille

Ceiling material Indoor unit

Air-intake grille

Transparent part for
checking drainage

Suspension bolt

Air-intake duct

Hose band
(supplied)

Hard PVC pipe
(not supplied)

CAUTION

NOTE

Packing
(supplied)

Drain hose
(supplied)

Clamps (supplied)

Drain insulator (supplied)

Drain hose
adapter
(supplied)

54

U

 Do not install an air bleeder tube as this may cause

water to spray from the drain pipe outlet. (Fig. 3-100)

 If it is necessary to increase the height of the drain

pipe, the section directly after the connection port
can be raised a maximum of 19-11/16 in.
Do not raise it any higher than 19-11/16 in., as this
could result in water leaks. (Fig. 3-101)

 Do not install the pipe with an upward gradient from

the connection port. This will cause the drain water
to flow backward and leak when the unit is not
operating. (Fig. 3-102)

 Do not apply force to the piping on the unit side

when connecting the drain pipe. The pipe should not
be allowed to hang unsupported from its connection
to the unit. Fasten the pipe to a wall, frame, or other
support as close to the unit as possible. (Fig. 3-103)

3-25. Checking the Drainage

After wiring and drain piping are completed, use the
following procedure to check that the water will drain
smoothly. For this, prepare a bucket and wiping cloth to
catch and wipe up spilled water.

(1) Connect power to the power terminal board (L1, L2

terminal) inside the electrical component box.

(2) Remove the tube cover and through the opening,

slowly pour about 43 oz. of water into the drain pan to
check drainage.

(3) Short the check pin (CN5 white) on the indoor control

board and operate the drain pump. Check the water
flow and see if there is any leakage.

Be careful since the fan will start
when you short the pin on the
indoor control board.

(4) When the check of drainage is complete, open the

check pin (CN5 white) and remount the insulator and
drain cap onto the drain inspection port.

To mount the tube cover, use 5/16"
(4 ××8 mm) tapping screws.
Do not use long screws as they
may puncture the drain pan and
cause water leak-age.

Fig. 3-100

Fig. 3-101

Fig. 3-102

Fig. 3-103

07-115 SSHP_II 5/7/07 4:00 PM Page 54

Good

Air bleeder

11-13/16 in. or less

19-11/16 in. or less

CAUTION

Not good

No good

Upward gradient

Support pieces

CAUTION

CAUTION

Good

55

U

3-26. Increasing the Fan Speed

If external static pressure is too great (due to long
extension of ducts, for example), the air flow volume
may drop too low at each air outlet. This problem may
be solved by increasing the fan speed using the
following procedure:

(1) Remove 4 screws on the electrical component box

and remove the cover plate.

(2) Disconnect the fan motor sockets in the box.

(3) Take out the booster cable (sockets at both ends)

clamped in the box.

(4) Securely connect the booster cable sockets

between the disconnected fan motor sockets in
step 2 as shown in the Fig. 3-104.

(5) Place the cable neatly in the box and reinstall the

cover plate.

 How to read the diagram

The vertical axis is the external static pressure
(Pa) while the horizontal axis represents the air
flow (CFM).
The characteristic curves for “HT”, “H”, “M” and “L”
fan speed control are shown.
The nameplate values are shown based on the “H”
air flow. For the 26 type, the air flow is 636 CFM,
while the external static pressure is 49 Pa at “H”
position. If external static pressure is too great
(due to long extension of duct, for example), the
air flow volume may drop too low at each air outlet.
This problem may be solved by increasing the fan
speed as explained above.

Fig. 3-105

Fig. 3-104

07-115 SSHP_II 5/7/07 4:00 PM Page 55

Fan

motor

Electrical component box

Booster cable

Booster cable

Fan motor socket

(At shipment) (Booster cable installed)

er
usserP citatS

la
nr

e

txE

150

100

50

e
ni
l

t

im

)
aP

iL

(

tim

i

L

0

Air Flow (CFM)

26 Type

e

n

i

l

L

NOTE

Indoor Fan Performance

200

)aP(

)
qAn

150

i

(

0.5

0.4

0.3

HT

0.2

HH

H

700500300

0.1

0

900

erusserP c

100

i

tatS lanretx

50

E

0

500 1000

HT : Using the booster cable

H : At shipment

36 Type

enil

timiL

enil t

imi

L

L

Air Flow (CFM)

0.8

)qAni(

0.6

0.5

0.4

0.3

HT

0.2

HH

H

0.1

0

56

4. HOW TO INSTALL THE OUTDOOR UNIT

4-1. Installing the Outdoor Unit

 Use concrete or a similar material to create the base, and

ensure good drainage.

 Ordinarily, ensure a base height of 2 in. or more. If a drain

pipe is used, or for use in cold-weather regions, ensure a
height of 6 in. or more at the feet on both sides of the unit.
(In this case, leave clearance below the unit for the drain
pipe, and to prevent freezing of drainage water in cold­weather regions.)

 Refer to the Fig. 4-1 for the anchor bolt dimensions.

 Be sure to anchor the feet with the anchor bolts (M10). In

addition, use anchoring washers on the top side. (Use
large square 32 × 32 SUS washers with diameters of 10.)
(Field supply)

4-2. Drainage Work

Follow the procedure below to ensure adequate draining for
the outdoor unit.

 For the drain port dimensions, refer to the figure at right.

 Ensure a base height of 6 in. or more at the feet on both

sides of the unit.

 When using a drain pipe, install the drain socket (optional

part STK-DS25T) onto the drain port. Seal the other drain
port with the rubber cap supplied with the drain socket.

 For details, refer to the instruction manual of the drain

socket (optional part STK-DS25T).

4-3. Routing the Tubing and Wiring

 The tubing and wiring can be extended out in 4 directions:

front, rear, right, and down.

 The service valves are housed inside the unit. To access

them, remove the inspection panel. (To remove the inspec­tion panel, remove the 3 screws, then slide the panel
downward and pull it toward you.)

(1) If the routing direction is through the front, rear, or right,

use a nipper or similar tool to cut out the knockout holes
for the inter-unit control wiring outlet, power wiring outlet,
and tubing outlet from the appropriate covers A and B.

(2) If the routing direction is down, use a nipper or similar tool

to cut out the lower flange from cover A.

Fig. 4-1

Fig. 4-2

 Route the tubing so that it does

not contact the compressor,
panel, or other parts inside the
unit. Increased noise will result if
the tubing contacts these parts.

 When routing the tubing, use a

tube bender to bend the tubes.

Unit: inch

07-115 SSHP_II 5/7/07 4:00 PM Page 56

CAUTION

Drain port (2 locations)

6-47/64

13-13/64

11-21/32

33/64 33/64

Drain port

Inter-unit control wiring outlet

Inspection panel

Cover A

Power wiring outlet

8-5/8

Front

25-63/64

5-29/32

37-3/32

33/6433/64

Down

4-3/8

25/32

25/6414-61/64

3/4

19/32

Anchor bolt (M10)

Cover B

Right

Tubing outlet

15-15/16

Rear

57

5. ELECTRICAL WIRING

5-1. General Precautions on Wiring

(1) Before wiring, confirm the rated voltage of the unit

as shown on its nameplate, then carry out the
wiring closely following the wiring diagram.

(2) Provide a power outlet to be used exclusively for

each unit, and a power supply disconnect and
circuit breaker for overcurrent protection should be
provided in the exclusive line.

(3) To prevent possible hazards from insulation

failure, the unit must be grounded.

(4) Each wiring connection must be done in

accordance with the wiring system diagram.
Wrong wiring may cause the unit to misoperate or
become damaged.

(5) Do not allow wiring to touch the refrigerant tubing,

compressor, or any moving parts of the fan.

(6) Unauthorized changes in the internal wiring can be

very dangerous. The manufacturer will accept no
responsibility for any damage or misoperation that
occurs as a result of such unauthorized changes.

(7) Regulations on wire diameters differ from locality

to locality. For field wiring rules, must follow your
LOCAL ELECTRICAL CODES before beginning.
You must ensure that installation complies with all
relevant rules and regulations.

(8) To prevent malfunction of the air conditioner

caused by electrical noise, care must be taken
when wiring as follows:

 The remote control wiring and the inter-unit

control wiring should be wired apart from the
inter-unit power wiring.

 Use shielded wires for inter-unit control wiring

between units and ground the shield on both
sides.

(9) If the power supply cord of this appliance is dam-

aged, it must be replaced by a repair shop
appointed by the manufacturer, because special­purpose tools are required.

(10) All wiring used must be Class 1.

5-2. Recommended Wire Length and Wire Diameter for Power Supply System

You must follow LOCAL ELECTRICAL CODES for wiring.

07-115 SSHP_II 5/7/07 4:00 PM Page 57

Outdoor Unit

Model Name (A) Power Supply

Trade Size

of Conduit

CH2672R

CH3072R

CH3672R

CH4272R

AWG #12

Max. length 64 ft.

AWG #10

Max. length 92 ft.

AWG #10

Max. length 92 ft.

AWG #10

Max. length 81 ft.

3/4 in.

3/4 in.

3/4 in.

3/4 in. 1-1/4 in.50 A AWG #640 A

MOP

(Fuse or HACR

type circuit breaker)

30 A

35 A (230/208 V)

35 A (230/208 V)

Power Supply Terminal Base

Capacity Max. Wire Diameter

50 A

50 A

50 A

* AWG = American Wire Gauge

Trade Size

of Conduit

AWG #6

AWG #6

AWG #6

1-1/4 in.

1-1/4 in.

1-1/4 in.

Model Name (A) Power Supply

C2672R

C3072R

C3672R

C4272R

AWG #12

Max. length 76 ft.

AWG #10

Max. length 99 ft.

AWG #10

Max. length 99 ft.

AWG #10

Max. length 81 ft.

Trade Size

of Conduit

type circuit breaker)

3/4 in.

3/4 in.

3/4 in.

3/4 in. 1-1/4 in.50 A AWG #6

MOP

(Fuse or HACR

25 A

30 A (230/208 V)

30 A (230/208 V)

35 A

Power Supply Terminal Base

Capacity Max. Wire Diameter

50 A

50 A

50 A

AWG #6

AWG #6

AWG #6

Trade Size

of Conduit

1-1/4 in.

1-1/4 in.

1-1/4 in.

58

5-3. Wiring System Diagrams

Basic wiring diagram for standard control

(1) Refer to Section 5-2. Recommended Wire Length

and Wire Diameter for Power Supply System for
the explanation of “A”, “B”, “C”, “D”, and “E”, in the
above diagrams.

(2) Inter-Unit Control Wiring (C) and remote control-

ler wiring (D), (E) have no polarity. But for other
wiring, respect polarity. Be sure to connect as
shown in the Wiring System Diagram.

(3) In case of separate supply connection to indoor

unit, over current protection must be provided
between power source and indoor unit.

MAXIMUM OVER CURRENT PROTECTION 15 A

(FUSE OR HACRTYPE CIRCUIT BREAKER)

07-115 SSHP_II 5/7/07 4:00 PM Page 58

Indoor Unit

Type

(B) Power Supply

AWG #14

Control Wiring

(C) Inter-Unit Control Wiring (D) Remote Control Wiring

AWG #18

Use high voltage wire (300 V)

Remote
controller

WHT
BLK

1

1

2

2

Trade Size

of Conduit

3/4 in. 15 AMax. length 67 ft.X, K, T, U

*1

D

MOP

(Fuse or HACR

type circuit breaker)

(E) Control Wiring For Group Control

AWG #18

*2

(0.75 mm2)

AWG #18

Max. 1,650 ft.Max. 3,300 ft. Max. 1,650

*1

*2

Outdoor unit

Indoor

unit

1

2

G

U1

U2

Inter-unit power line

208 / 230 V, 60 Hz

Grounding line

Ground

INV unit

B

C

A

L1

L2

1

2

G

U1

U2

Grounding line

*2 –

(0.75 mm2)

– ft. (Total)

With ring-type wire terminal.
Wire joint connection.

L1

Power supply

L2

208 / 230 V, 60Hz

NOTE

U1 U2 1 2 G L1 L2

control wiring

X, T, U Type

5P terminal board

1 2 G

Inter-unit

power wiring

K Type

4P terminal board

U1 U2

Inter-unit

control wiring

CH Type

8P terminal board

Inter-unit

power wiring

U1

U2

Inter-unit

control wiring

1 2 G

Inter-unit

power wiring

Power wiringInter-unit

Remote

controller wiring

Remote

controller wiring

59

Loose wiring may cause the
terminal to overheat or result
in unit malfunction. A fire
hazard may also exist.
Therefore, ensure that all

wiring is tightly connected.

When connecting each power wire to the correspond­ing terminal, follow the instructions on “How to connect
wiring to the terminal” and fasten the wire securely with
the fixing screw of the terminal plate.

5-4. How to Connect Wiring to the Terminal

 For stranded wiring

(1) Cut the wire end with a wire cutter or wire-cutting

pliers, then strip the insulation to expose the
stranded wiring about 3/8 in. (Fig. 5-1)

(2) Using a Phillips head screwdriver, remove the ter-

minal screw(s) on the terminal plate.

(3) Using a ring connector fastener or pliers, securely

clamp each stripped wire end with a ring pressure
terminal. (Fig. 5-1)

(4) Place the ring pressure terminal, and replace and

tighten the removed terminal screw using a
screwdriver. (Fig. 5-2)

Fig. 5-1

Fig. 5-2

07-115 SSHP_II 5/7/07 4:00 PM Page 59

WARNING

Special
washer

Wire

.ni 8/3 pirtS

Screw

Ring pressure
terminal

Stranded wire

Ring
pressure
terminal

Screw and
Special washer

Terminal plate

Ring
pressure
terminal

Wire

60

RC

(WD)

6-1. Installation Site Selection

 Install the remote controller at a height of between

3–5 ft. above the floor.

 Do not install the remote controller in a place where

it will be exposed to direct sunlight or near a
window or other place where it will be exposed to
the outside air.

 Be sure to install the remote controller vertically,

such as on a wall.

 The mounting position for the remote controller

should be located in an accessible place for control.

 Never cover the remote controller or recess it into

the wall.

Drainage Work

 When mounting the remote controller on a wall,

refer to Figs. 6-1 and 6-2.

6. HOW TO INSTALL THE WIRED REMOTE CONTROLLER
(OPTIONAL PART)

Fig. 6-1

Fig. 6-2

07-115 SSHP_II 5/7/07 4:00 PM Page 60

Wall

Hole for routing
remote control
cable

JIS C8340
1 switchbox
(no cover)

3-21/32 in. or more

(from wall)

Spacer

3-17/32 in. or more

(from wall)

Spacer

4-29/32 in. or more
(when continuous

installation)

4-29/32 in. or more

(when continuous

installation)

Wall

Hole for routing
remote control
cable

JIS CB8340
2 switchboxes
(no cover)

3-17/32 in. or more

(from wall)

4-29/32 in. or more
(when continuous

installation)

61

RC

(WD)

(1) When you open the decorative cover, you will see

two gaps under the remote controller. Insert a coin
into these gaps and pry off the back case.
(Fig. 6-4)

(2) Attach the back case with the 2 small screws

provided. Using a screwdriver, push open the cut­outs on the back case. These holes are for screws.
Use the spacers and take care not to tighten the
screws excessively. If the back case will not seat
well, cut the spacers to a suitable thickness.
(Fig. 6-3)

(3) Connect the remote controller wiring (2 wires) cor-

rectly to the corresponding terminals in the
electrical component box of the indoor unit.

 Do not supply power to the unit or try

to operate it until the tubing and wiring
to the outdoor unit are completed.

 Do not twist the control wiring with the

power wiring or run it in the same
metal conduit, because this may cause
malfunction.

 Install the remote controller away from

sources of electrical noise.

 Install a noise filter or take other

appropriate action if electrical noise
affects the power supply circuit of the
unit.

 If local electrical codes allow, this

remote controller can be mounted
using a conventional wall box for flush
mounting.

When wiring, do not connect
the remote controller wires to
the adjacent terminal block for
the power wiring. Otherwise,
the unit will break down.

(4) To finish, fit the back tabs of the case into the

remote controller and mount it.

Fig. 6-3

Fig. 6-4

6-2. Wired Remote Controller Installation

07-115 SSHP_II 5/7/07 4:00 PM Page 61

WARNING

CAUTION

CAUTION

Wired remote
controller

M4 × 25
Screws (2)

Decorative
cover

Gap

Coin

Concealed box for 1

Spacer

Under case
(Back case)

Control panel

Gap

62

RC

(WD)

6-3. Basic Wiring Diagram

Use shielded wires for inter-unit control wiring and
ground the shield on both sides. (Fig. 6-5)
Otherwise misoperation because of noise may occur.

 Wiring procedure

Install the wiring according to the above wiring diagram.

 Address setting is automatically executed after turn-

ing on the system.
An indoor unit address is assigned to each indoor
unit.

 Operation takes place successively at intervals of 1

second, by using combinations of the address setting
of each unit.

Carry out wiring correctly
(incorrect wiring will damage
the equipment).

 Diagram of outer dimensions

Fig. 6-5

Unit: inch

07-115 SSHP_II 5/7/07 4:00 PM Page 62

CAUTION

Ground

5/32

Shielded wire

2
3

/
3

4-23/32

Ground

23/3

2­4

5/8

63

RC

(WD)

6-4. Wiring System Diagram for Group Control

This diagram shows when several units (maximum
of 8) are controlled by a remote controller (main
unit).
In this case, a remote controller can be connected
at any indoor unit.

 Wiring procedure

Wire according to the diagram at right:

 Address setting is executed automatically when

the outdoor unit is turned on.

 Group control using 2 remote controllers

It does not matter which of the 2 remote controllers
you set as the main controller.
When using multiple remote controllers (up to 2 of
them can be used), one is the main remote
controller and the other is the sub-remote
controller.

 To set up a sub-remote controller, change its

remote control address connector (RCU. ADR)
located on its PCB from main to sub position
(main: when shipped from factory).

07-115 SSHP_II 5/7/07 4:00 PM Page 63

Remote
controller
(main)

Wire joint

Indoor unit

Outdoor unit

12

1

No. 1

U1

U1

Inter-unit
control
wiring

Connection wiring
for group control

2

U2

U2

Remote
controller

1

Wire joint

1

Indoor unit

No. 1

U1 U2

U1 U2

Outdoor unit

1

2

Indoor unit

No. 2

U1

U2

U1

U2

Outdoor unit

2

2

(sub)

Indoor unit

Outdoor unit

12

1

No. 3

U1

U1

2

U2

U2

: Ground (earth)

1

Indoor unit

No. 8

U1

U1

Outdoor unit

2

U2

U2

: Ground (earth)

64

RC

(WD)

6-5. Wiring System Diagram for Multiple Remote

Controllers

 When Installing Multiple Remote Controllers

This multiple remote controller system is used for
operating the unit(s) at different positions. (A maximum
of 2 remote controllers can be installed.)

 Setting method

To execute this control, make the setting according
to the following procedure.

(1) Of the 2 installed remote controllers, make 1 the

main remote controller (factory-shipped state).

(2) On the other remote controller, change the address

connector on the PCB from main to sub position.
In this state, it functions as a sub-remote controller.

 Basic wiring diagram

Install wiring correctly
(incorrect wiring will damage
the equipment).

To operate 1 indoor unit with 2 remote controllers set
at different places.

6-6. How to Switch the Indoor Temperature Sensor

The indoor unit and the remote controller both contain
an indoor temperature sensor. The sensors on either
unit can be used but normally only the sensor set on
the indoor unit is used. However, use the following
procedure if you must use the sensor on the remote
controller.

(1) Press and hold the + + buttons for

at least 4 seconds.
Note: The Unit No. first displayed is the main
indoor unit address for group control.
Note: Do not press the button.

(2) Select CODE NO. 32 with the Temp. setting ( )

/ buttons.

(3) Change the set data from 0000 to 0001 with the

Timer ( ) / buttons.

(4) Press the button. (Setting is OK if the blinking

display changes to a lit up display.)

(5) This is the usual off condition. At this time,

(remote controller) appears on the LCD display.

*1 If using 2 remote controllers, either one (main or

sub-remote controller) can be used to make settings
but only the main unit functions as the remote
controller sensor.

*2 The remote controller sensor will not function during

group control unless the group address is set in the
main remote controller indoor unit.

*3 Do not use the remote controller switch for the

remote control sensor if the remote sensor is being
used jointly with the remote controller switch.

07-115 SSHP_II 5/7/07 4:00 PM Page 64

CAUTION

Remote controller Remote controller

(sub)(main)

(Option)

1

2

1

2

address connector

Main

RCU check

Sub

RCU. ADR

Remote control
cable terminal
board

Indoor unit

Earth

Remote control cable

1

2

(wire it at the

installation site)

NOTE

65

RC

(WD)

6-7. Trouble Diagnostics

(1) Contents of remote controller switch alarm display

07-115 SSHP_II 5/7/07 4:00 PM Page 65

Possible cause of malfunction

Serial commu­nication errors

Mis-setting

Remote controller is
detecting error signal from
indoor unit

Indoor unit is detecting error signal from remote controller (and system controller)

Improper setting of indoor
unit or remote controller

Indoor unit is detecting error

signaled from signal option

Setting error

Indoor unit is detecting error
signaled from outdoor unit

Outdoor unit is detecting
error signaled from indoor
unit

Automatic address setting
failed

Error in receiving serial communication signal
(Signal from main indoor unit in case of

Outdoor system address, indoor system address, or indoor unit
individual/main/sub setting is not set
(Automatic address setting is not completed)
Auto address is not completed

Error in transmitting serial communication signal

Indoor unit addre

Remote controller setting is duplicated

Error in transmitting serial communications signal

Error in receiving serial communications signal

Main unit duplication in simultaneous-operation multi control
(detected by outdoor unit)

Error in receiving serial communications signal

Error in transmitting serial communications signal

Error in receiving serial communications signal (including unit
quantity verification failure)

Error in transmitting serial communications signal

Indoor unit capacity too low

Indoor unit capacity too high

ss setting is duplicated

group control)

ON:

Blinking: OFF:

Wired
remote
control

display

remote controller

receiver display

Operation

E01

E02

E03

E08

E09

E10

E11

E14

E04

E05

E06

E07

E15

E16

Wireless

Timer

Standby

An indoor unit detected
trouble in the signal from
another in

door unit

Communications trouble
between units

Setting errorMis-setting

No indoor units connected

Error in transmitti

ng serial communications signal

Error in receiving serial communications signal

Communications failure with MDC

Indoor unit group settings error

Indoor/outdoor unit type mismatch

Main unit duplication in group control (detected by indoor

Outdoor unit address duplication (system address)

Group wiring connected for independent indoor unit

Address not set or group not set

Indoor unit capacity not set

Outdoor unit capacity not set or setting error

Miswiring in group control wiring

Indoor unit type setting error (capacity)

unit)

E20

E17

E18

E31

L01

L02

L03

L04

L07

L08

L09

L10

L11

L13

Simultaneously

Simultaneously

Simultaneously

Simultaneously

Continued

66

RC

(WD)

07-115 SSHP_II 5/7/07 4:00 PM Page 66

Ceiling panel connection failure

Activation of

Indoor protection

protective
device

Outdoor protection

Thermistor

ult

fa

Thermistor open circuit

• Short circuit (indoor)

Thermistor open circuit

• Short circuit (outdoor)

Possible cause of malfunction

Fan protective thermostat

Float switch

Discharge temperature trouble

High pressure switch or compressor motor thermal protector is activated.

Open phase detected, AC power trouble

No gas

4-way valve locked

High cooling load

Outdoor fan trouble

Inverter compressor trouble (HIC PCB)

Inverter compressor trouble (MDC)

Simultaneous-operation multi control trouble

Compressor current failure (overload)

Indoor heat exchanger temperature

Indoor heat exchanger temperature sensor (E2)

Indoor temperature sensor

Discharge temperature (TD)

Outdoor heat exchanger temperature (C1)

Outdoor heat exchanger temperature (C2)

Outdoor air temperature (TO)

Intake temperature (TS)

Indoor EEPROM error

Outdoor EEPROM error

sensor (E1)

Wired
remote
control

display

P09

P01

P10

P03

P04

P05

P15

P19

P20

P22

P26

P29

P31

H01

F01

F02

F10

F04

F06

F07

F08

F12

F29

F31

Wireless

remote controller

receiver display

Operation

Timer

Standby

Alternately

Alternately

Alter.

Alter.

Simul.

Simul.

67

RC

(WD)

(2) LED Indicator Messages on Outdoor Control PCB

(3) Examples of alarm display (other than E15, E16, and E20)

07-115 SSHP_II 5/7/07 4:00 PM Page 67

Power ON sequence

1. No communication from indoor units in system

2. Communication received from 1 or more indoor units in system

3. Regular communication OK (Capacity and unit quantity match)

LED 1 LED 2 Remarks

If it is not possible to
advance to 3, repeats 1 → 2.
At 3, changes to normal
control.

Normal operation

EEPROM error (F31)

Pre-trip (insufficient gas)

Pre-trip (P20)

Pre-trip (other)

Alarm

Insufficient gas indicator

Refrigerant recovery mode

Automatic address setting

Automatic address setting in progress

Automatic address setting alarm (E15)

Automatic address setting alarm (E20)

Displayed during automatic
address setting 1 and initial
communication. After these are
completed, alarm F31 is displayed.

(0.25/0.75)

(0.75/0.25)

Alternate blinking during alarms

LED 1 blinks M times, then LED 2 blinks N times.
The cycle then repeats.

M = 2: P alarm
N = Alarm No.
* Refer to

(0.25/0.75)

(0.75/0.25)

3: H alarm 4: E alarm 5: F alarm

“1. Examples of alarm display” below.

(0.25/0.75)

(0.75/0.25)

P03

6: L alarm

Blinking alternately

Blinking simultaneously

Blinking simultaneously

Automatic address setting alarm (Other than E15 and E20)

:

ON

:

Blinking (0.25/0.75) indicates that the lamp illuminates for 0.25 seconds, and then is OFF for 0.75 seconds.

Unless otherwise indicated, the blinking is (0.5/0.5).

:

OFF

Alarm / Display LED 1 Alternately

P03

P04

P05

P31

H01

H02

H03

•

E04

•

F07

•

L13

•

( Blinks 2 times )

→

)

(

"

)

(

"

)

(

"

(Blinks 3 times)

)

(

"

)

(

"

•

(Blinks 4 times)

•

(Blinks 5 times)

•

(Blinks 6 times)

•

LED 2

→

(Blinks 3 times)

(Blinks 4 times)

(Blinks 5 times)

(Blinks 31 times)

(Blinks 1 time)

(Blinks 2 times)

(Blinks 3 times)

(Blinks 4 times)

(Blinks 7 times)

(Blinks 13 times

Blinking simultaneously

Note:

)

This table shows example alarms. Other alarms
may also be displayed.

68

RC

(WL)

7. HOW TO INSTALL THE WIRELESS REMOTE CONTROLLER
(ACCESSORY PART / OPTIONAL PART)

07-115 SSHP_II 5/7/07 4:00 PM Page 68

IMPORTANT

When using this air conditioner with the wireless
remote controller it may sometimes be
impossible to change the operation modes while
other indoor unit is running.

When this happens, a double beep tone sounds,

the (operation lamp) lights up, and the (Timer

lamp) and (Standby lamp) blink alternately.
Operation is the same even during (AUTO mode)
automatic cooling or heating.
A beep tone sounds 5 times and no changes can
be made when any of the ON/OFF, MODE, Tem­perature setting buttons were pressed while set
under central control by the system controller.

7-1. Wireless Remote Controller Installation

The remote controller can be operated from either a
non-fixed position or a wall-mounted position.

To ensure that the air conditio

ner operates correctly,

do not install the remote controller in the following
places:

In direct sunlight.
Behind a curtain or other place where it is covered.
More than 26 ft. away from the air conditioner.
In the path of the air conditioner’s airstream.
Where it may become extremely hot or cold.
Where it may be subject to electrical or magnetic
interference.

(1) If Wall-mounted Fixed Position

Install the remote controller at a convenient
location on a nearby wall. However, before
attaching the remote controller mounting cradle,
check that the remote controller can operate from
the desired wall pos

ition. (Fig. 7-1)

Screws for fixture
Truss-head
tapping screws
(4 × L5/8")

Put on
1

2

Fig. 7-1

Mounting cradle

Push

How to Install Batteries

See Fig. 7-2.

(1) Press and slide the lid on the back of the remote

controller in the direction of the arrow.

(2) Install two AAA alkaline batteries. Make sure the

batteries point in the direction marked in the
battery compartment.

(3) Press the ACL button, then replace the lid. If you

press it, the current time, ON time, and OFF time
are all reset to 0:00.

Cover

Fig. 7-2

ACL button

69

RC

(WL)

07-115 SSHP_II 5/7/07 4:00 PM Page 69

7-2. Room Temperature Sensor Setting

The room temperature sensors are built into the indoor
unit and the wireless remote controller. Either of these

room temperature sensors can operate.
The system is shipped from the factory set to the
indoor unit sensor. To switch to the remote controller
sensor, press the sensor switching button located
inside the remote controller cover and check that A/C
SENSOR on the LCD display panel goes out.

NOTE

If the sensor switch is set to the remote controller side,
but no room temperature data is sent to the main unit
for 10 minutes, the sensor is automatically switched to
the indoor unit side. As much as possible, install the
remote controller facing the unit.

7-3. Address Switches

If you are installing more than 1 indoor unit (up to 6) in
the same room, it is necessary for you to assign each
unit its own address so they each can be operated by
their remote controller.

SET

CL

ACL

Sensor button

Fig. 7-3

ADR

SENSOR

Up to 6 indoor units can be controlled separately
through the address switches. The operating control
has the reception address switch and the remote
controller has the transmission address switch. This
function is utilized by matching the transmission and
reception address switches.

Remote controller
address display

Address switch
positions

ADR

*Any address

switch position
available

ADR

1 2 3

456

ADR

1 2 3

456

ADR

1 2 3

456

7-4. Setting the Model Code

Flap display selector switch

1

Make the slide switch settings in the battery compartment box of the remote controller depending on the type
of indoor unit in which the wireless receiving unit is used.

2

Operation mode switch

In this Split System Air Conditioner set the switch to “A”.
* The switch is factory set to “S” / “A”.
* Always press the reset button after switching the setting.

S KN AHC

Fig. 7-4

Operation

2

mode switch

Flap display

1

selector switch

1

S KN

X, T type K type

AHC

2

Heat pump with

Auto mode (CH type)

S KN S KN

AHC

Heat pump without

Auto mode

U type

AHC

Cooling only

X

70

07-115 SSHP_II 5/7/07 4:00 PM Page 70

<RCS-SH80UA.WL>

4-Way Air Discharge Semi-concealed Type
(X Type)

7-5. Indicator Section Installation

Air intake grille

Mark section
(indicator section)

Remove the ceiling panel and indicator cover
and install the indicator section.

(1) Remove the ceiling panel.
(2) Remove the corner cover behind the mark sec-

Ceiling panel

tion. (3 screws)

(3) Remove the mark section inside the ceiling panel.

(2 screws)

(4) Install the indicator section in the location where

the mark section was attached. (2 screws)

(5) Form the wire to match the panel ribs as shown

3 screws

Corner cover

in Fig. 7-6.

(6) Install the corner cover. (Restrain the wire with

the corner cover.)

Fig. 7-5

7-6. Operating Controller Installation

Pass the wiring through under the shaft.

CAUTION

Do not twist the operating
controller wires together
with the power supply
wires. Doing so can result
in malfunction.

If electrical noise is induced
in the unit power supply,
take appropriate measures,
for example installing a

Wiring

noise filter.

Install the operating controller at the indoor unit in

take

2 screws

port section.

(1) Fasten the operating controller to the indoor unit

intake port section (electrical component box

Indicator section

Fig. 7-6

opposite side) with the 2 accessory screws
(4 × L13/32 in.).

(2) Connect the operating controller 2 wires (WHT,

BLK) to the remote control wire (WHT) in the
electrical component box. (For details on
wiring, see “7-9. Electrical wiring” on page 72.)

(3)Install the ceiling panel.

(4) Connect the indicator section and the operating

controller with the 6P connector (white).

(5) Form the wires with vinyl clamps and fasten.

(6) Connect the ceiling panel wiring connector (2P,

3P) to the body connector in the electrical compo-
nent box.

(7) For details on test operation, see “Test Run.”

Operating
controller

Screws

Electrical
component box

Fig. 7-7

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Ceiling-Mounted Type (T Type)

7-7. Indicator Section Installation

Remove the side panel to install the indicator section.
(Fig. 7-8)

(1) Remove the side panel.

Open the air intake grille, remove the screw at
one place and then remove the side panel by
sliding it toward the front (arrow direction).

(2) Remove cover A and cover B.

Insert a standard screwdriver into the recess
of cover A to remove cover A and cover B.
(When removing the cover, take care not to

scratch the panel.)
(3) Remove cover B from cover A.
(4) Install the indicator section at cover A.
(5) After passing through the lead wires, install cover

A and the indicator section at the panel hole.

(The protrusion part of cover A is fixed with the

panel hole.)
(6) Bundle the lead wires along with the wiring of the

louver motor.
(7) Install the side panel.

Indicator section

Cover B

(Not used when
the indicator section
is installed.)

Recess

Cover A

Recess

Fig. 7-8

PanelIndicator section

Side panel

Air intake grille

Cover A

7-8.Operating Controller Installation

Do not twist the operating

CAUTION

controller wires together
with the power supply
wires. Doing so can result
in malfunction.
If electrical noise is
induced in the unit power
supply, take appropriate
measures, for example
installing a noise filter.

Install the operating controller on the top face of the air
intake section (space between the fan motor and the
electrical component box). (Fig. 7-9)

(1) Faste

n the operating controller to the ceiling
panel of the air intake section with the 2 supplied
screws (4 × L13/32 in.).

(2) Draw the lead wires into the electrical component

box and connect the operating controller 2 wires
(WHT, BLK) to the remote control wires in the
electrical component box.

(3)Connect the indicator section and the operating

controller using the 6P connector in the electrical
component box.

Operating controller

Electrical component box

Fig. 7-9

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7-9. Electrical Wiring

Indoor PCB Operating controller

CN1

WL

1
2

W1 (4.3 ft.)

WHT

BLK

Signal receiving unit

W2

(0.7 ft.)W3(4.3 ft.)

CN2

BLU

YEL
PNK
RED
GRY

BLK

Connection method
(1) Connect W1 to the indoor PCB WL connector.
(2) Connect W3 from the indicator section with W2

from the operating controller using the relay
connector.

7-10. Test Run Switch

The test run switch is located in the operating control unit.
Regarding the test run, refer to section 11. Test Run.

7-10-1. How to use the test run setting (X, T Types)

Set DIP switch [DS] No. 1 on the wireless receiver

(1)

unit PCB from OFF to the ON position.

Press the ON/OFF operation button on the

(2)

wireless remote controller.

Make a test run using the air conditioner in

(3)

COOL or HEAT mode.

During the test run, each of the 3 indicator lamps

(4)

on the indoor unit flash.

During the test run, the air conditioner runs

(5)

continuously and the thermo

stat does not control

the system.
After the test run, be sure to reset DIP switch No. 1

(6)

back to the OFF position and check that no indicator
lamps are blinking.
(This receiver includes a 60-minute automatic OFF
timer function in order to prevent continuous test run.)

BLU

PNK
RED
GRY

Relay connector

Fi

g. 7-10

DIP switch
No. 1

Indicator section

CN1

YEL

BLK

All OFF( ) for
initial settings.

1

2 3 4

1.TEST RUN

2.PCB CHK.

3.RCU: MAIN
RCU: SUB

4.NORMAL
ALL •

ADR

1

2 3

456

Address
switch

Fig. 7-11

Flap
button

ON/OFF
operation
button

NOTE

In case of 4-way air discharge type, test run

operation is not possible without the ceiling panel installation.

To protect the air conditioner from overloading, the outdoor unit will not start running for 3 minutes after
power is applied or the air conditioner is turned off and then back on.

When the air conditioner fails to start the test run, 1 or more of the 3 alarm indicator lamps on the indoor
unit will flash (See next section).

When the DIP switch is set to “TEST – ON,” temperature control from the wireless remote controller is disabled.
Do not use this setting at any time other than for the test run. Doing so will place an excessive load on the system.

To avoid placing an excessive load on the equipment, use this function only when conducting the test run.

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7-11. Misoperation Alarm Indicators

Alarm indicator lamps on the indoor unit indicate the
error cause if the air conditioner fails to operate
upon being switched on. The possible alarm indica­tions are given in Table 7-1. Fig. 7-12 shows the
location of the alarm lamps on the indoor unit.
(See Table 7-1 and Fig. 7-12.)

Table 7-1

Alarm

(OPERATION

lamp) lamp) lamp)

(TIMER

(STANDBY

Cause of Trouble

S.C. errors* between the indoor unit’s controller (PCB) and the remote
controller.
Compressor protector is working.
S.C. errors between indoor and outdoor units.
Indoor or outdoor thermistor is malfunctioning.
Outdoor unit protector is working.
Indoor unit protector is working.
TEST RUN switch on the operation controller is in ON state.

* S.C.: Serial communications

OPERATION
lamp

TIMER
lamp

STANDBY
lamp

Remote control
receiver

Fig. 7-12

NOTE

Stick the alarm message label accompanying the
wireless remote controller on the electrical component
box to indicate the cause of trouble for future reference.

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<RCS-BH80UA.WL>

If the signal receiving unit

CAUTION

is installed near a rapid­start or inverter type
fluorescent lamp (neither
one uses glow lamps),
it may be impossible to
receive signals from the
wireless remote control­ler. To avoid signal inter­ference from fluorescent
lamps, install the receiv­ing unit at least 6.6 ft.
away from the lamps and
install at a location where
wireless remote controller
signals can be received
when the fluorescent
lamps are on.

7-12.

Separate Type Signal Receiving Unit Installation

Do not twist the operating

CAUTION

controller wires together
with the power supply
wires. Doing so can result
in malfunction.
If electrical noise is induced
in the unit power supply,
take appropriate measures,
for example installing a
noise filter.

If local electrical codes allow, this signal receving
unit can be mounted using a conventional wall box

for flush mounting.

(1) Insert a standard s

crewdriver into the gap under

the signal receving unit and pry off the cover (Fig. 7-14)

(2) Attach the signal receving unit with the 2 small

screws provided.

Use the spacers and take care not to tighten the

screws excessively.

If the signal receving unit will not seat well, cut

the spacers to a suitable thickness. (Fig. 7-13)

(3)Connect the signal receving unit wiring (2 wire

correctly to the corresponding terminals in the
electrical component box of the indoor unit.

s)

Notch

M4 × L1 in
Screws (2)

Cover plate

Signal receiving unit

Spacer

A

L

L

•

R

C

U

:

S

U

B

CP

B

C

H

K

.

T

E

S

T

R

U

N

R

C

U

:

M

A

I

N

N

RO

AM

L

1

2

3

A

D

R

4

5

6

Fig. 7-13

Fig. 7-14

Switch box (no cover)

CAUTION

When wiring, do not connect the signal receiving unit
wires to the adjacent terminal block for the power
wiring. Otherwise, the unit will break down.

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When using the signal receiving unit on a wall with
the front exposed, choose a wall surface that the
signal receiving unit can be mounted on.

(1) Insert a standard (minus) screwdriver into the slot on

the lower side of the signal receiving unit and pry
off the back case as shown in Fig. 7-14.

(2) The wire routing at the signal receiving unit

comes out of the u

pper case (thin portion at
upper center) so use nippers or a similar tool to
cut out a notch beforehand large enough for the
remote control cable (option) to pass through as
shown in Fig. 7-15.

(3) Remove the wire, which is connected prior to ship-

ping, from the connector.

Connect the remote control cable (option) to the

(4)

signal receiving unit connector as shown in Fig. 7-16
after the clamp (supplied) with the unit is installed.

(5) After arranging the wiring on the printed circuit

board as shown in Fig. 7-17 so that it is contained
within the signal receiving unit, attach the back
case. At this time, arrange so that the head of the
clamp faces the side.

(6) Remove the cover plate and install the signal

receiving unit using the 2 wood screws.

(7) Fasten to the wall using the cord clip (supplied).
(8) Reinstall the cover plate.

To use the signal receiving unit while mounted on the
ceiling, install by using the carrier for ceiling instal­lation supplied with the unit.

(1) Remove the cover plate by inserting a standard

(minus) screwdriver into the notch in the lower
section and prying it off.

(2) Cut out a section (3-3/4 × 2-1/32 in.) on the

ceiling using the paper pattern (supplied) as a
guide.

(3)

Run the wire through the mounting carrier and insert

into the installation hole as shown in Fig. 7-19.

(4) Fit securely into the ceiling material at sections

(A) and (B) as shown in Fig. 7-20.

(5) Connect the wire (2-wire core) from the signal

receiving unit with the wire from the indoor unit.
(See section on how to wire the receiving unit.) as
shown in Fig. 7-20.

(6) Use the supplied spacers to adjust for a thickness

several inches more than the ceiling material and
lightly fasten the receiving unit in

place with the
small screws (M4 × 1-9/16 in., 2 pcs.) supplied
with the unit.

(7) Tighten the machine screws after fitting sections

(A) and (B) into the openings, in the gap between
the signal receiving unit and ceiling surface as in
Fig. 7-21. Do not apply strong force when tighten­ing the screws. Excessive force might warp or
damage the cover. When finished, the

signal
receiving unit should still be able to move slightly
when pressed as shown in Fig. 7-21.

(8) Reinstall the cover plate.

Run the remote control
cable through a notch
in the upper case.

Remote control cord (Option)

Clamp

Fig. 7-17

Fig. 7-19

Fig. 7-21

About 3/32-1/8 in.

Connector

Fig. 7-16Fig. 7-15

Wood screws (2)

Clamp (Supplied)

Remote control cord
(Option)

Signal receiving unit

A

L

•L

R

C

U

:

S

U

B

P

C

B

C

H

K

.

T

E

S

T

R

NU

R

C

U

:

AM

I

N

N

RO

AM

L

12

3

A

D

R

4

65

Fig. 7-18

A

B

Fig. 7-20

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7-13. Electrical Wiring

Be sure to do the wiring

CAUTION

correctly (incorrect
wiring will damage the
equipment).

Recommended wire diameter and allowable length
for signal receiving unit wiring and its branch wiring:
AWG #18, MAX 1,300 ft.

Terminal board
for indoor unit
remote controller
wiring

Wire joint (2 pcs.
white, supplied)

1
2

Signal receiving unit wiring (field supply)

Signal receiving
unit wiring

WHT

1

BLK 2

Wire from signal receiving unit

Connection

1. Peel away 9/16 in. of shield from the wire
for the connection.
Join the 2 wires as shown and crimp-connect

2.
them with the wire joint (supplied).

Signal receiving
unit wiring

Wire joint CE-1
(supplied)

3. When no crimping tool is available or if a
solder connection was made, then cover
with insulating tape.

7-14. Test Run Switch

(1)

Remove the cover plate of the signal receiving unit.
Set the "TEST RUN" switch of the dip switches to
the ON position.

(2) Press the ON/OFF operation button on the

wireless remote controller.

To avoid placing an

CAUTION

excessive load on the
equipment, use this
function only when
conducting the test run.

Signal receiving
unit

ALL•
RCU : SUB
PCB CHK.
TEST RUN

ALL•
RCU : SUB
PCB CHK.
TEST RUN

RCU : MAIN
NORMAL

1 23

ADR

56

4

(3) Make a test run using the air conditioner in

Fig. 7-22

COOL or HEAT mode.

(4) During the test run, the “OPER.,” “TIMER,”

and “STDBY” LED all blink.

To protect the air conditioner from overloading, the outdoor unit will not start running for approximately 3 minutes
after power is applied or the air conditioner is turned off and then back on.

When the DIP switch is set to “TEST – ON,” temperature control from the wireless remote controller is disabled.
Do not use this setting at any time other than for the test run. Doing so will place an excessive load on the system.

(5) After the test run, press the ON/OFF operation button on the wireless remote controller. Then, set the

TEST RUN switch back to the OFF position to cancel the test run mode.
(This receiver includes a 60-minute automatic OFF timer function in order to prevent continuous test run.)

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7-15. Misoperation Alarm Indicators

A blinking lamp for other than the signal receiving unit
filter shows that a problem has occurred in the unit, so
make an inspection. (Refer to servicing information in
the service manual, etc.) Also, if wired remote control­ler and dedicated service check lines (854-9-9536­044-97: service use) are available, then detailed error
information can be obtained by connecting to the
service connector as s

hown in the drawing. For
information on how to connect to the signal receiving
unit, refer to the instruction manual that came with the
dedicated service check lines.

Table 7-2

Lamp

OPERATION

TIMER STANDBY

lamp lamp lamp

* S.C.: Serial communications

Service

connector

ALL•
RCU : SUB
PCB CHK.
TEST RUN

RCU : MAIN
NORMAL

OPERATION lamp

Fig. 7-23

Bright Cause of Trouble

No power supply or mis-wiring of signal receiving unit.
S.C.* errors between the indoor unit’s controller (PCB) and
signal receiving unit.
S.C. errors between indoor and outdoor units.

Alternately Indoor unit protector is activated.
Alternately Outdoor unit protector is activated.

Compressor protector is activated.
ConcurrentMis-setting of indoor unit.
ConcurrentMis-setting of outdoor unit.

TIMER lamp

STANDBY lamp

FILTER lamp

Fig. 7-24

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7-16. Basic Wiring Diagram

CAUTION

Wire joint

Inter-unit
control
wiring

Wiring procedure

Be sure to do the wiring
correctly (incorrect wiring
will damage the equipment).

Remote
controller

1

2

1

2

Indoor unit

No. 1

U1

U2

U1

U2

Outdoor unit

: Ground (earth)

Use shielded wires for inter-unit control wiring and
ground the shield on both sides. (Fig. 7-25)
Otherwise misoperation because of electrical noise
may occur.

Shielded wire

Ground

Ground

Fig. 7-25

Carry out the wiring according to the above wiring
diagram.

Address setting is automatically executed
after turning on the system.
An indoor unit address is assigned to each
indoor unit.

Operation takes place successively at
intervals of 1 second, by using combinations
of the address setting of each unit.

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7-17. Wiring System Diagram for Group Control

This diagram shows when several units (maximum of

8) are controlled by a signal receiving unit (main
unit). In this case, a signal receiving unit can be
connected at any indoor unit.

Wiring procedure

Wire according to the diagram at left:

Address setting is executed automatically when the
outdoor unit is turned on.

Each successive unit will respond at one-second
intervals following the order of the group address
when the remote controller is operated.

Group control using 2 signal receiving units

It does not matter which of the 2 signal receiving units
you set as the main controller.

Remote
controller
(main)

Wire joint

Indoor unit

Outdoor unit

12

1

No. 1

U1

U1

Connection wiring
for group control

2

U2

U2

Outdoor unit

1

2

Indoor unit

No. 2

U1

U2

U1

U2

(sub)

12

1

2

Indoor unit

No. 3

U1

U2

U1

U2

Outdoor unit

1

Indoor unit

No. 8

U1

U1

Outdoor unit

: Ground (earth)

When using multiple signal receiving units (up to 2
can be used), one is the main signal receiving
unit and the other is the sub-signal receiving unit.

To set up a sub-signal receiving unit, change its
remote control address connector (RCU. ADR)
located on its PCB from main to sub position
(main: when shipped from factory).

2

U2

U2

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7-18. Wiring System Diagram for Multiple Remote Controllers

When installing multiple remote controllers

This multiple system is used for operating the unit(s) at
different positions. (A maximum of 2 signal receiving
units can be installed.)

Setting method

To execute this control, make the setting according
to the following procedure.

(1) Of the two installed signal receiving units, make

one the main

signal receiving unit (factory-

shipped state).

(2) On the other signal receiving unit, change the

address connector on the PCB from main to sub
position.
In this state, it functions as a sub-signal receiving
unit.

Basic wiring diagram

Carry out the wiring correctly

CAUTION

(incorrect wiring will damage
the equipment).

To operate 1 indoor unit with 2 signal receiving units
set at different locations.

Signal receiving unit

1

2

Remote control
cable terminal
board

Earth

(sub)(main)

(Option)

1

2

1

2

Indoor unit

Connection wiring

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<RCS-SH1UA>

7-19. Test Run Procedure

Wall-mounted Type
(K Type)

Check the “Check Items Before the Test Run.”

Verify the combination (wiring) of indoor and
outdoor units.

(Item 7-20)

Set the indoor unit controller to “TEST.”

Is operation

NO

possible?

(Item 7-21-3)

Check using the self-diagnostics
function table. (Refer to 11-7)
Correct any locations that require
correction.

YES

Note: Check the indoor-side drainage.

Return the indoor unit controller to
“NORM.” (Item 7-21-3)

7-20. Check Items Before the Test Run

(1)

Turn ON the remote power switch at least 5 hours before the test run in order to charge the crank-case heater.
(If the outdoor unit is an inverter unit, turn ON the power 12 hours in advance.)

(2) Fully open the service valves on the gas-tube and liquid-tube sides.

Set the sliding switches on the inside of the wireless remote controller cover to the correct settings for that model.

(3)

After changing the settings, press the RESET button.

<For 3072R, 3672R>

Verify that sliding switch 1 is in the “K” position.

Wireless remote controller transmitter

SKN

S: Flap model (4-direction, ceiling suspended)
K: Swing-only model (wall-mounted), settings completed
N: No-flap model (built-in)

<For 2672R>

Verify that sliding switch 1 is in the “S” position.

SKN

Set sliding switch 2 to the correct setting for these models.

AHC AHC

A: Heat pump model

(H: Heat pump, no auto heating/cooling)

C: Cooling-only model

Sliding switch 1

RESET button

SENSOR button

Sliding switch 2

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7-21. Preparing for the Test Run

7-21-1. Changing the room temperature sensor

Room temperature sensors are installed inside the indoor unit and the wireless remote controller.
Either room temperature sensor can be used.

When “Unit Sensor” is indicated on the wireless remote controller LCD, the indoor unit sensor is operating
as the room temperature sensor.
To change to the remote controller sensor, open the remote controller cover and press the SENSOR button
once. The “Unit Sensor” display disappears, and the remote controller sensor becomes the room temperature
sensor.

If the temperature data from the remote controller is not communicated to the indoor

CAUTION

unit for a period of 10 minutes when the remote controller sensor is selected, the unit
automatically switches back to the indoor unit sensor.
Install the remote controller in a location where the signal can reliably be received by
the indoor unit.

7-21-2. Using the remote controller

Face the remote controller toward the receiver (indoor unit).
The maximum distance where the remote controller signal can be received is approximately 8 m, however this

distance is only a guide. The actual distance may vary somewhat depending on battery capacity and other
conditions.

Make sure there are no obstructions which can block the signal between the remote controller and the receiver.
When the remote controller signal is received correctly, the indoor unit beeps.

(It beeps twice only when operation is started.)

Receiver

Do not drop, throw, or wash the remote controller.
Do not place the remote controller in a location exposed to direct sunlight, or near a stove or similar appliance.

7-21-3. Test run

Using the controller

(1)

Slide the main unit controller switch from “NORM.” to “TEST” (for
3072R, 3672R), “ON” to “TEST” (for 2672R).
(The outdoor unit will not operate for approximately 3 minutes after
the power is turned ON, or after operation is stopped.)

(2)

All indicator lamps on the display blink while test run is in progress.

(3)

Temperature control is not possible during the test run.

(4)

If normal operation is not possible, the lamps on the display will indicate the problem.

For 3072R, 3672R

Controller

NORM.

OFF TEST

STDBY

TIMEROPER.

For 2672R

Controller

ON

OFF

TEST

Indicator

Refer to the self-diagnostics function table and correct the problem.
(See 11-7. Table of Self-Diagnostics and corrections.)

(5)

After the test run is completed, move the controller switch from “TEST” to “NORM.” (for 3072R, 3672R), “TEST” to
“ON” (for 2672R) and verify that the indicator lamps stop blinking.
(A 60-minute automatic OFF timer function is included in order to prevent continuous test run.)

STDBYTIMEROPER.

CAUTION

Do not use this setting at any time other than for the test run. Doing so will place an excessive load on
the system.

Test run is not possible if the power was turned ON when the controller switch was in the “TEST” position.
Leave the power ON and move the switch to “NORM.” or “OFF,” then move the switch back to “TEST.”

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7-22. Precautions

Request that the customer be present at the time the test run is performed. Explain the Operation Manual to
the customer, and then have the customer actually operate the system.

Be sure to pass the manual and warranty certificate to the customer.

Verify that the AC 208 / 230 V wiring is not connected to the terminal plate which is used to connect the inter-unit
control wiring.

* If AC 208 / 230 V is accidentally applied to this terminal plate, the fuse (0.5A for both indoor and outdoor units) on
the inter-unit control PCB will be tripped in order to protect the PCB. Correct the wiring connections, then
disconnect the 2P connectors (indoor unit: blue, OC, CN40; outdoor unit: blue, OC) which are connected
to the PCB and connect the other 2P connectors (indoor unit: brown, EMG, CN44; outdoor unit: brown, EMG).
(See the figure below.)
If operation is still not possible with the brown connectors connected, cut the varistor (black) (for both the indoor
and outdoor units).
(Be sure to turn OFF the power before performing this work.)

Indoor unit control PCB Outdoor unit control PCB

<For 3072R, 3672R>

<For 2672R>

VA5 (Varistor, black)

2P connector (brown)
EMG, CN44

2P connector (blue)
OC, CN40

Fuse

0.5A

Fuse

0.5A
2P connector (blue)

2P connector (brown)

Varistor (black)
VA0 02

CHK (2P plug)

SW103

TEST
OFF
ON

Varistor (black)

Fuse

0.5A

Serial 1 connector (blue)

Serial 2 connector (brown)

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7-23. When Setting Indoor Unit Control PCB Switch for Wall-Mounted Indoor Unit

When using either the wired or wireless remote controller, refer to the tables below and accordingly slide the switch on
the indoor unit control PCB.



If this setting is not made correctly an alarm will occur. (The operation lamp on the display blinks.)



This setting is not necessary if both the wired remote controller
and wireless remote controller are used.
However, when you use indoor unit KHS type, set the wired
remote controller address connector on the PCB from main to
sub position.



The slide switch setting at the time of factory shipment for
model KH type is “A”, and for model KHS type is “B.”



KH(S)3072 / 3672R, KHH(S)2672R

A

Nos. 1, 2 OFF, No. 3 ON

B

Nos. 1, 2, 3 all OFF

When using
wireless
remote
controller

When using
wrired
remote
controller

A

Nos. 1, 2 OFF, No. 3 ON.

B

Nos. 1, 2, 3 all OFF

When using
wireless
remote
controller

When using
wired
remote
controller



KH(S)2672R

07-115 SSHP_II 5/7/07 4:00 PM Page 84

Wired remote controller

Remote controller

address connector

Main

RCU check

Sub

RCU. ADR

SC

85

07-115 SSHP_II 5/7/07 4:00 PM Page 85

8.

HOW TO INSTALL THE SYSTEM CONTROLLER
(OPTIONAL PART)

Do not supply power to the
unit or try to operate it until
the tubing and wiring to the
outdoor unit are completed.

8-1. System Controller Installation

Do not twist the control

CAUTION

wiring with the power
wiring or run it in the

same metal conduit,
because this may cause

malfunction.

Install the system con­troller away from sources
of electrical noise.

Install a noise filter or
take other appropriate
action if electrical noise
affects the power supply
circuit of the unit.

(1) Remove the flat-top screw on the bottom of the

back case. When you open

up the decorative
cover, you will see two gaps under the system
controller. Insert a coin into these gaps and
remove the back case. (Figs. 8-1, 8-2)

System
controller

Coin

M4 × 1-3/16 in.
Screws (2)

Gap

Switch box
(with cover)

Back case

Flat-top
Screw

Fig. 8-1

Gap

(2) Connect the wires to terminal base of the system

controller (see next page).

(3) Attach the back case with the 2 M4 screws

provided.

(4) To finish, fit the back tabs of the back case into

the system controller and mount it using the flat­top screw.

Fig. 8-2

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86

07-115 SSHP_II 5/7/07 4:00 PM Page 86

8-2. Electrical Wiring

How to connect electrical wiring

(1) Connect B1, B2 to indoor PCB CRV connector

using accessary 2P connector. (*No polarity)

Total wire length is less than 985 ft. and size is
AWG#18.

(2) Connect B5, B6 to indoor unit 2P terminal base.

(*No polarity). Wire size is AWG#18.

Basic wiring

B1:

B2:

B3: Not be used

B4: Auxiliary of inter-unit control wiring

B5:

B6:

Power supply: DC12V *No polarity
To CRV connector (CN91) on indoor PCB

Inter-unit control wiring. (Low voltage)
To indoor unit 2P terminal base (U1, U2)
*No polarity

Terminals for remote monitoring

A1: Input for turning on air conditioners concurrently.

A2: Input for turning off air conditioners concurrently.

Common input for turning air conditioners on or off.

A3:

B1

B2

B3

B4

B5

B6

System controller

<Back side of system controller>

A1

A2

A3

A4

A5

A6

Accessary connector

Wire joint connection

U1

U2

2P terminal base

Fig. 8-3

Indoor unit PCB

CRV
(CN91: WHT)

Indoor unit

B6

B5

B4

B3

B2

B1

A4: ON operation state indicator output.

A5: Alarm indicator output.

A6: Common indicator output.

Basic wiring diagram of control wiring

A max. of 64 indoor units and 30 outdoor units
can be connected in 1 system.

Up to 10 system controllers can be connected
in 1 system.

RC1

Inter-unit
control wiring

1-1

Fig. 8-4

RC2 RC3

2-1 3-1

System controller

87

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07-115 SSHP_II 5/7/07 4:00 PM Page 87

8-3. Address Switch Setting

SW1

Main/sub selection switch

OFF: System controller operates as main controller.
ON: System controller operates as sub-controller.

ALL/ZONE mode selection switch

ALL mode:
All indoor units can be controlled by system controller
ZONE 1, 2, 3, 4 mode:
Indoor units in one of zone 1, 2, 3, or 4 can be controlled
by system controller. All indoor units cannot be s

4

OFF

5

OFF

ON

ON

ON

ON

ALL mode
ZONE 1 mode
ZONE 2 mode
ZONE 3 mode
ZONE 4 mode

2
OFF
OFF

ON

OFF

ON

3

OFF
OFF
OFF

ON
ON

et.

Central control/Remote control mode selection switch.

OFF: Central control mode.
Individual setting by remote controller can be inhibited by
system controller.

ON: Remote control mode.
Setting by system controller is inhibited by other central
control equipment.

ON

OFF

1

2 3 4

SW1

5 6 7 8

Central control Main/Sub selection switch

(OFF: Main, ON: Sub)

1

When AMY adaptor etc. is us

ed with system controller,

set the switch to ON position.

2

When only one system controller is used, set the switch to

OFF position.

Except , when multiple system controllers are used,

3

1

set only one system controller to OFF position and others to
ON position.
ALL mode system controller should be in OFF position.
(recommended)

(Central control) button operation switch

OFF: (Central control) button operation is permitted.
ON : button operation is inhibited.

*All switches are in OFF position at shipment.

88

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07-115 SSHP_II 5/7/07 4:00 PM Page 88

SW2

Weekly timer input switches

System controller operation can be set when weekly timer
activates (ON/OFF).

Switch No.

System controller operation

1 32

Timer OFF→ON Timer ON→OFF
1
2

All ON

No change

Individual control

3

of all indoor units

All OFF

All OFF
All indoor units to
be 1*

1

OFF

ON

OFF

OFF
OFF

ON

OFF
OFF

OFF

to be permitted

All OFF and all

4

Same as above

indoor units to be

1

1*

ON

ON

OFF

All indoor units to

Same as above

5

be 2*

2

OFF

OFF

ON

All OFF and all

Same as above

6

indoor units to be

2

2*

In case of Remote control mode, use or .

1 2

ON

OFF

ON

In case of ZONE 1, 2, 3, 4 mode, ALL, all indoor units means
one of ZONE 1, 2, 3, 4.

1

*

: 1 (Central control 1) means ON/OFF operation cannot

be executed by remote controller.

2

*

: 2 (Central control 2) means ON/OFF, MODE change.

Temp. setting cannot be executed by remote controller.

ON

OFF

1

2 3 4

SW2

5 6 7 8

Auxiliary switch

Must be set to OFF position.

Beep tone switch

OFF: Beep tone when each button is pushed.
ON: No tone when each button is pushed.

Indication switch
Normally set to OFF position.
When set to ON position, indication is not displayed on LCD
of

system controller.

*All switches are in OFF position at shipment.

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07-115 SSHP_II 5/7/07 4:00 PM Page 89

8-4. Mode Setting

According to the function of each system controller, set
SW1 as shown in Fig. 8-5.

(1) Central control/Remote control mode

Central control mode

The system controller is used as the central control
equipment.
Individual setting by remote controller can be
inhibited by the system controller

Remote control mode

The system controller is used as the remote controller.
Setting by system controller is inhibited by other

central control equipment.

(2) ALL/ZONE mode

ALL mode

All indoor units can be controlled by the system
controller.

ZONE mode

Indoor units in one of ZONE 1, 2, 3 or 4 can be
controlled by the system controller

Central control

mode

2

3 4 5 6

ON
OFF

ALL

central control

2

3 4 5 6

ON
OFF

ZONE1

central control

2

3 4 5 6

ON
OFF

ZONE2

central control

2

3 4 5 6

ON
OFF

ZONE3

central control

2

3 4 5 6

ON
OFF

ZONE4

central control

Remote control

mode

2

3 4 5 6

ON
OFF

ALL

remote control

2

3 4 5 6

ON
OFF

ZONE1

remote control

2

3 4 5 6

ON
OFF

ZONE2

remote control

2

3 4 5 6

ON
OFF

ZONE3

remote control

2

3 4 5 6

ON
OFF

ZONE4

remote control

Inter-unit control wiring

1

2 16

17

18 32

33

34 48

49

50 64

ZONE1

central control

address 1-16

ZONE2
central control
address 17-32

ZONE3
central control
address 33-48

ZONE4
central control
address 49-64

(3) The function of the system controller consists of 10 types

according to the combination of central control/remote
control mode and ALL/ZONE mode setting as shown
in the table 8-1.

(4) Stick the system controller unit label in a con-

Table 8-1

spicuous position.

ALL 1. ALL/Central 6. ALL/Remote

ZONE1 2. ZONE1/Central 7. ZONE1/Remote

ZONE2 3. ZONE2/Central 8. ZONE2/Remote

ZONE3 4. ZONE3/Central 9. ZONE3/Remote

ZONE4 5. ZONE4/Central 10. ZONE4/Remote

Fig. 8-5

Central control Remote control

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8-5. How to Perform Zone Registration

To operate the system controller properly, zone registration is required after finishing the test run (and after
setting all indoor unit addresses) using one of the following methods.

(a) Zone registration using the remote controller (RCS-SH80UG)

Refer to page 91.

(b) Zone registration using the system controller (SHA-KC64UG)

Refer to page 92.

(c) Automatic zone registration using the system controller (SHA-KC64UG)

Refer to page 93.

For methods (a) and (b), you should make a zone registration table manually before performing the
registration as shown on the next page.

For method (c), zone registration is executed automatically, proceeding from the smallest indoor unit address and
smallest central addresses to larger numbers in numerical order. For example:

Central address 123 456

ZONE–group 1-1 1-2 1-3 1-4 1-5 1-6

Indoor unit address 1-1 1-2 2-1 2-2 2-33-1

NOTE

An indoor unit address is assigned to each indoor unit during automatic address

1.

operation. Each indoor unit address combines an R.C. address and indoor unit number
as follows:

: Indoor unit address (UNIT No.)1 – 1

Indoor unit No.
Refrigerant circuit No. (R.C. address)

This address is displayed on the remote controller for UNIT No. when the UNIT

2.

button is

pressed.

The central address represents the zone and group number. These addresses are
assigned in ascending numerical order.

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91

07-115 SSHP_II 5/7/07 4:00 PM Page 91

(a) Zone registration using the remote controller

(RCS-SH80UG)

(Determination of central address)

In this case, after confirming which indoor unit is
connected to the remote controller and that the air
conditioner in the OFF state, you set the central
addresses one at a time.

If the system has no remote controller, connect a
remote controller to the system temporarily. Then
follow this procedure.

NOTE

The indoor unit addre

ss must already have been set

before performing zone registration. If necessary, refer
to the Installation Manual supplied with the outdoor
unit.

(1) Press the and buttons on the remote

controller at the same time for more than

4 seconds.

(2) Do not press buttton.

(3)Once in this mode, the UNIT No., CODE No., No.

of SET DATA and

indications will flash on

the display as shown Fig. 8-6.

NOTE

In case of group control “ALL” instead of “UNIT No.”
will flash on the display. Select the main indoor unit
address by pressing the button once.

(4) Set CODE No. to 03 using the and

( ) buttons.

Fig. 8-6

NOTE

CODE No. 03 must be selected to perform zone
registration using the remote controller.

(5) Set the Central address you want to assign

to the indoor unit address using the and

() buttons according to the zone

registration table.

(6) Press the button. The CODE No. and Central

address changes from flashing to ON state. If you
make a mistake, press the button and

reset the central address.

(7) Press the button to finish zone registration.

For example, in this case

Indoor unit address: 1–8
Central address : 17 (Zone 2, Group 1)

Fig. 8-7

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(b) Zone registration using the system controller

(SHA-KC64UG)

In this case, you set all central addresses by
the system controller at once manually.

(1) Press the

and

buttons at the same

ZONE

time for more than 4 seconds.

and CODE No. C1 will flash.

(2) After confirming that CODE No. C1 is displayed,

press the button. Once in this mode, a
change takes place as shown in Fig. 8-8.

(3) Select the zone and group No. you want to

set with

and (GROUP)

ZONE

buttons.
If already set, press the

buttons.

If data is
registered
the unit No.
is displayed.

ZONE

SELECT

ZONE

1

2

9

ZONE

Fig. 8-8

3 4

6

GROUP

If no data is
registered
no number is
displayed.

Selected group
No. if no data is
registered.

(4) Set the unit No. (indoor unit address) with

and buttons, according to the zone registra-

tion table.

R.C. No. ................... button

Indoor unit No...........

button

(5) Press the button.

GROUP No. turns ON and UNIT No. (indoor unit
address) changes from flashing to ON state.
UNIT No. is registered to the selected ZONE No.
and GROUP No.
If you make a mistake, press the

button

and reselect the ZONE, GROUP and UNIT No.

(6) Register the other UNIT Nos. in the same way by

following steps (3) to (5).

(7) Finally, complete the registration by pressing the

button.

flashes for a few minutes, then turns OFF.

ZONE

1

3 4 7

ZONE

SELECT

9

ZONE

2

6

GROUP

For example, in this case

Zone 3, Group No. 7
Unit No. (indoor unit address) 2-8

Unit No. 2-8 is registered to Zone 3, Group 7.

Fig. 8-9

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93

07-115 SSHP_II 5/7/07 4:00 PM Page 93

(c) Automatic zone registration using the system

controller (SHA-KC64UG)

(1) Press the

and buttons at the same

time for more than 4 seconds.

and CODE No. C1 will flash.

(2) Select CODE No. C2 by pressing

and

( ) button and press the button.

C2 changes from flashing to ON state and
automatic zone registration will start.

(3)

Any registered GROUP Nos. will be erased.

(4) Central address will be assigned from the smallest

indoor unit address to larger ones in numerical
order automatically.
On finishing automatic zone registration,
changes from flashing to OFF.

(5) If an error occurs, “CHECK” starts

flashing and zone registration finishes at this
time. Press the button to start over.

(6) Finally, complete automatic zone registration

mode by pressing the button.

flashes for a few minutes, then turns OFF.

Fig. 8-10

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07-115 SSHP_II 5/7/07 4:00 PM Page 94

How to check for overlapping of central address Nos.

(1) Press the and buttons at the same

time for more than 4 seconds.

and CODE No. C1 will flash.

(2) Select CODE No. C3 by pressing ,

( ) button and press the button.

C3 changes from flashing to ON state and
will flash. Then auto overlap checking will start.

(3) If C3 changes from ON to flashing and

stops flashing and disappears, there is no over­lapping.
Then finally, complete the auto overlap checking
mode by pressing the

button.

(4) If some of GROUP No., ZONE No. and UNIT No.

flash, you should try the zone registration again.

1

Select CODE No. C1 by pressing ,

( ) button and press the button.

2

Select the flashing GROUP No. with the ZONE

and GROUP buttons.
Then press the button and reselect the

ZONE, GROUP and UNIT No.

3

Then finally, complete the auto overlap

checking mode by pressing the

Fig. 8-11

button.

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95

07-115 SSHP_II 5/7/07 4:00 PM Page 95

ZONE registration table

ZONE GROUP

1

2

3

4

5

6

7

1

8

9

10

11

12

13

14

Central
address

1

2

3

4

5

6

7

8

9

10

11

12

13

14

Indoor unit

address

(UNIT No.)

Unit location ZONE GROUP

1

2

3

4

5

6

7

3

8

9

10

11

12

13

14

Central
address

33

34

35

36

37

38

39

40

41

42

43

44

45

46

Indoor unit

address

(UNIT No.)

Unit location

15

16

1

2

3

4

5

6

7

2

8

9

10

11

12

13

14

15

15

16

17

18

19

20

21

22

23

24

25

26

27

28

29

30

31

4

15

16

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

47

48

49

50

51

52

53

54

55

56

57

58

59

60

61

62

63

16

32

NOTE

16

64

Assign indoor unit addresses to the desired positions (central addresses)
manually.

2.1.For group control, only the main indoor unit should be assigned.

Sub indoor units cannot be assigned.

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96

07-115 SSHP_II 5/7/07 4:00 PM Page 96

8-6. Connection with Other Equipment

meti tuptuo/tupnI

emaNslanimret tupt

ON/OFF output
Alarm output
Potential tree

tuptuo sutatS

A contact, static
(relay output)

Contact capacity
DC 30V, 0.5A

uo/tupni latigiD

All ON input
All OFF input
Pulse (photo
coupler input)

tupni lortnoC

Contact capacity
DC 24V, 10mA

System controller Equipment

Input/output

ON/OFF

Alarm

Output common

ALL ON (+)

CX

ALL OFF (+)

TX

Input common

8-7. Memory Backup Switch

CPEV

AWG#16

CPEV

AWG#16

tupni latigiD

+24

COM

Input/outputTerminal Terminal Example

Wire length:
less than 330 ft.

Pulse width:
more than

84 ft./sec.

9
Wire length:
less than 330 ft.

Check the backup switch is ON on the for back side of
the PCB of the system controller.

8-8.Test Run

(1) Power on all indoor units. Next, power on the

system controller.

will flash, checking the indoor unit addresses

automatically.

(2) If group No. displayed on system controller is not the

same as the indoor unit No.* which is connected, see
Fig. 9-5 and carry out setting again.

*In case of group control, main unit No. only.

FFONO

Back up switch

Back up battery

97

9. HOW TO PROCESS TUBING

The liquid tubing side is connected by a flare nut, and
the gas tubing side is connected by brazing.

9-1. Connecting the Refrigerant Tubing

Use of the Flaring Method

Many conventional split system air conditioners employ
the flaring method to connect refrigerant tubes which run
between indoor and outdoor units. In this method, the
copper tubes are flared at each end and connected with
flare nuts.

Flaring Procedure with a Flare Tool

(1) Cut the copper tube to the required length with a

tube cutter. It is recommended to cut
approx. 12 – 20 in. longer than the tubing length
you estimate.

(2) Remove burrs at each end of the copper tubing

with a tube reamer or file. This process is impor­tant and should be done carefully to make a good
flare. Be sure to keep any contaminants (moisture,
dirt, metal filings, etc.) from entering the tubing.
(Figs. 9-1 and 9-2)

When reaming, hold the tube end downward and be
sure that no copper scraps fall into the tube. (Fig. 9-2)

(3) Remove the flare nut from the unit and be sure to

mount it on the copper tube.

(4) Make a flare at the end of the copper tube with a

flare tool.* (Fig. 9-3)

*Use “RIGID

®

” or equivalent.

A good flare should have the following characteristics:

 inside surface is glossy and smooth

 edge is smooth

 tapered sides are of uniform length

Fig. 9-1

Fig. 9-2

Fig. 9-3

07-115 SSHP_II 5/7/07 4:00 PM Page 97

Deburring

NOTE

Before

After

Copper
tubing

Reamer

Flare nut

Copper
tubing

Flare tool

NOTE

A

Flare size: A (inch)

Copper tubing
(Outer dia.)

ø1/4

ø3/8

ø1/2

ø5/8

A

– 0.4

23/64

33/64

21/32

25/32

0

98

Fig. 9-7

 When removing the flare nuts from the tubing

connections, or when tightening them after
connecting the tubing, be sure to use 2 monkey
wrenches or spanners as shown. (Fig. 9-6)
If the flare nuts are over-tightened, the flare may
be damaged, which could result in refrigerant
leakage and cause injury or asphyxiation to
room occupants.

 When removing or tightening the gas tube flare

nut, use 2 monkey wrenches together: one at
the gas tube flare nut, and one at part A.
(Fig. 9-7)

 For the flare nuts at tubing connections, be

sure to use the flare nuts that were supplied
with the unit, or else flare nuts for R410A
(type 2). The refrigerant tubing that is used
must be of the correct wall thickness as shown
in the table at right.

Fig. 9-4

Fig. 9-5

Fig. 9-6

Because the pressure is approximately 1.6 times higher
than conventional refrigerant pressure, the use of ordinary
flare nuts (type 1) or thin-walled tubes may result in tube
rupture, injury, or asphyxiation caused by refrigerant
leakage.

 In order to prevent damage to the flare caused by

over-tightening of the flare nuts, use the table above
as a guide when tightening.

 When tightening the flare nut on the liquid tube, use a

monkey wrench with a nominal handle length of 7-7/8 in.

Caution Before Connecting Tubes Tightly

(1) Apply a sealing cap or water-proof tape to prevent dust or water from

entering the tubes before they are used.

(2) Be sure to apply refrigerant lubricant to the matching surfaces of the

flare and union before connecting them together. This is effective for
reducing gas leaks. (Fig. 9-4)

(3) For proper connection, align the union tube and flare tube straight with

each other, then screw on the flare nut lightly at first to obtain a smooth
match. (Fig. 9-5)

 Adjust the shape of the liquid tube using a tube bender at the installa-

tion site and connect it to the liquid tubing side valve using a flare.

Cautions During Brazing

 Replace air inside the tube with nitrogen gas to prevent copper

oxide film from forming during the brazing process. (Oxygen,
carbon dioxide and Freon are not acceptable.)

 Do not allow the tubing to get too hot during brazing. The nitrogen

gas inside the tubing may overheat, causing refrigerant system
valves to become damaged. Therefore allow the tubing to cool
when brazing.

 Use a reducing valve for the nitrogen cylinder.

 Do not use agents intended to prevent the formation of oxide film.

These agents adversely affect the refrigerant and refrigerant oil,
and may cause damage or malfunctions.

9-2. Connecting Tubing between Indoor and Outdoor Units

(1) Tightly connect the indoor-side refrigerant tubing extended from the wall

with the outdoor-side tubing.

(2) To fasten the flare nuts, apply specified torque as at right.

07-115 SSHP_II 5/7/07 4:00 PM Page 98

Tube diameter

ø1/4" (6.35 mm)

ø3/8" (9.52 mm)

ø1/2" (12.7 mm)

ø5/8" (15.88 mm)

Apply refrigerant
lubricant here and here

Indoor unit

Torque wrench

Tightening torque

(approximate)

14 – 18 N

(140 – 180 kgf

34 – 42 N

(340 – 420 kgf

49 – 61 N

(490 – 610 kgf

68 – 82 N

(680 – 820 kgf

m

·

m

·

m

·

m

·

·

Union

cm)

cm)

·

cm)

·

cm)

·

Flare nut

Spanner

Outdoor unit

A

Tube thickness

1/32 in.

1/32 in.

1/32 in.

1/32 in.

99

Fig. 9-10

Fig. 9-9

Fig. 9-8

Fig. 9-11

 Do not use a spanner to tighten the valve stem caps.

Doing so may damage the valves.

 Depending on the installation conditions, applying

excessive torque may cause the nuts to crack.

Precautions for Packed Valve Operation

 If the packed valve is left for a long time with the valve

stem cap removed, refrigerant will leak from the valve.
Therefore, do not leave the valve stem cap removed.

 Use a torque wrench to securely tighten the valve stem

cap.

 Valve stem cap tightening torque:

9-3. Insulating the Refrigerant Tubing

Tubing Insulation

 Thermal insulation must be applied to all unit tubing,

including the distribution joint (purchased separately).

* For gas tubing, the insulation material must be heat

resistant to 248°F or above. For other tubing, it must be
heat resistant to 176°F or above.

Insulation material thickness must be 13/32 in. or greater.

If the conditions inside the ceiling exceed DB 86°F and
RH 70%, increase the thickness of the gas tubing
insulation material by 1 step.

Taping the flare nuts

Wind the white insulation tape around the flare nuts at the
gas tube connections. Then cover up the tubing
connections with the flare insulator, and fill the gap at the
union with the supplied black insulation tape. Finally, fasten
the insulator at both ends with the supplied vinyl clamps.
(Fig. 9-10)

Insulation material

The material used for insulation must have good insulation
characteristics, be easy to use, be age resistant, and must
not easily absorb moisture.

Never grasp the drain or refrigerant connecting
outlets when moving the unit.

2 tubes arranged together

If the exterior of the outdoor unit
valves has been finished with a
square duct covering, make sure
you allow sufficient space to
access the valves and to allow
the panels to be attached and
removed.

Charging port 8 – 10 N • m (80 – 100 kgf • cm)
ø3/8" (Liquid side) 19 – 21 N • m (190 – 210 kgf • cm)

ø5/8

" (Gas side) 28 – 32 N • m (280 – 320 kgf • cm)

After a tube has been insulated,
never try to bend it into a nar­row curve because it can cause
the tube to break or crack.

07-115 SSHP_II 5/7/07 4:00 PM Page 99

CAUTION

Packed valve

Valve stem

Valve stem cap

Inter-unit
control wiring

Sealer (supplied)

Unit side
insulator

Flare nut

Drain insulator
and clamp.
Large
(supplied)

Packing
clamp.
Small
hose band
(supplied)

Insulation

Insulation tape (white)

(supplied)

Vinyl clamps (supplied)

Refrigerant tubing and insulator
(not supplied)

Drain pipe and insulator
(not supplied)

Seal

Charging port

Main valve

Gas tube

Flare insulator (supplied)

Flare
insulator

Liquid tube

Armoring tape

Tube insulator
(not supplied)
Heat resistant
248ºF or above

Insulation
tape

Vinyl
clamp

CAUTION

The procedure used for
installing the insulator for
both gas and liquid
tubes is the same.

100

Fig. 9-12

Fig. 9-13

9-4. Taping the Tubes

(1) At this time, the refrigerant tubes (and electrical

wiring if local codes permit) should be taped
together with armoring tape in 1 bundle. To
prevent condensation from overflowing the drain
pan, keep the drain hose separate from the
refrigerant tubing.

(2) Wrap the armoring tape from the bottom of the

outdoor unit to the top of the tubing where it
enters the wall. As you wrap the tubing, overlap
half of each previous tape turn.

(3) Clamp the tubing bundle to the wall, using 1

clamp approx. each meter. (Fig. 9-12)

Do not wind the armoring tape too tightly since this
will decrease the heat insulation effect. Also ensure
that the condensation drain hose splits away from the
bundle and drips clear of the unit and the tubing.

9-5. Finishing the Installation

After finishing insulating and taping over the tubing,
use sealing putty to seal off the hole in the wall to
prevent rain and draft from entering. (Fig. 9-13)

07-115 SSHP_II 5/7/07 4:00 PM Page 100

NOTE

Inter-unit
control wiring

Apply putty here

Insulation

Tubing

Gas tube

Armoring tape

Liquid tube