Breamer Down Series User manual
RPC
Evaporative Air Conditioning
Owners Manual
Installation, Operating & Service Instructions
January 2011
Manufacturers and Designers of Technically Advanced Quality Heating and Cooling Products
Down Series
Side Series
Top Series
ECN1550 Doc. No. 625409 /d
Specialty Press
Manufacturers and Designers of Technically Advanced Quality Heating and Cooling Products
Seeley International Pty Ltd has a policy of continuous product development and therefore
reserves the right to make changes to these specifications without notice. Whilst every
care has been taken to assure accuracy of the data compiled in the document,
Seeley International Pty Ltd does not assume any liability for errors and/or omissions.
Braemar is a registered trademark of Braemar Industries Pty Ltd.
Seeley International Pty Ltd ACN 23 054 687 035
Albury Manufacturing
77 North Street Albury, NSW 2640
www.seeley.com.au
TECHNICALL SUPPORT CENTRE: 1300 650 399
For technical support regarding
the installation of this product
SALES: 1300 650 141
For all your sales enquiries
SERVICE: 1300 650 644
For all your Braemar warranty and service needs.
Or
Contact your local Braemar direct dealerr.
When ever you need to contact your Dealer regarding Service or
Warranty please quote the unit Model number and Serial number as
shown below.
Model No................................... Serial No..................................
For your future reference:
Air conditioner purchased from.........................................................
Air conditioner purchase date ...... / ...... / .......
Phone No .......................
Air conditioner installed by...............................................................
Air conditioner installation date ...... / ...... / .......
Phone No ......................
COOLER DETAILS
1
CONTENTS
SAFETY INFORMATION 2
INTRODUCTION
~ Installation Recommendations And Procedures 3
~ Effective Cooling Requirements 3
INSTALLATION
~ Mounting The Cooler 4
~ Flexible Connector 5
~ Water Supply 6
~ Bleed Control 6
~ Bleed System 7
~ Water Manager (Optional) 7
~ Electrical Connection 8
~ Commissioning The Electronics (Variable speed only) 10
~ Setting The Motor Current 11
~ Pulley Adjustment 12
~ Motor Low Speed Setting ( Variable speed only) 14
~ Mounting Wall Control 15
WALL CONTROL FUNCTIONS
~ Starting Your Cooler 17
~ Automatic Mode 17
~ Manual Mode 18
~ Timed Automatic Start 18
~ Timed Automatic Stop 19
~ Using The Cooler 19
~ Air Too Cold 19
~ Air Not Cold Enough 19
TWO SPEED CONTROL FUNCTIONS
~ Two Speed Control 20
INSTALLATION CHECKLIST 20
COMPLETING THE INSTALLATION
~ Testing The Cooler 21
~ Clean Up The Site 21
~ Show Customer Their New Cooler 21
MAINTENANCE
~ End Of Season 22
~ Pre Season 22
~ Lubrication 22
~ Health Regulations 22
~ Replacing The Filter Pads 23
~ Service 23
TROUBLE SHOOTING 24
2
SAFETY INFORMATION
The installation and maintenance of evaporative air conditioning units, particularly at height, has the potential to
create Occupational Health and Safety issues for those involved. Installers are advised to ensure they are familiar
with relevant State and Federal legislation, such as Acts, Regulations, approved Codes of Practice and Australian
Standards, which offer practical guidance on these health and safety issues. Compliance with these regulations
will require appropriate work practices, equipment, training and qualification of workers.
Seeley International provides the following information as
a guide to contractors and employees to assist in minimising risk.
Risk Assessment:
A risk assessment of all hazardous tasks is required under legislation. A risk assessment is an essential element
that should be conducted before the commencement of work. To identify and eliminate the risk of falls and other
risks, or to minimise these risks by implementing control measures. This does not need to be a complicated
process - it is a matter of assessing the job to be done and considering what action(s) are necessary so the person
doing the job does not injure themselves.
This should be considered in terms of:
What are the chances of an incident occurring?
What could the possible consequences be?
What can be done to reduce, or better still, eliminate the risk?
Some points to consider when working on or in a roof:
Check State regulations regarding working at height.
What is the best and safest access to the roof and working areas?
What condition is the roof in? Should the roof structure and surface be checked?
Does the worker have appropriate footwear?
Are all power cables/extension leads safe and appropriately rated?
Are all ladders, tools and equipment suitable and in good condition?
Where ladders are to be used, is there a firm, stable base for them to stand on? Can they be tied or secured
in some way at the top?
Is there a roof anchor to attach a harness and lanyard to? If so, instruction should be issued for the use of an
approved harness or only suitably trained people used
Are all tools and materials being used, prevented from slipping and falling onto a person at ground level? Is
the area below the work area suitably protected to prevent people entering this area?
Does the work schedule take into account weather conditions, allowing for work to be suspended in high
winds, thunder storms/lightning or other types of weather giving wet, slippery surfaces?
Is there an on-going safety check system of harnesses, ropes, ladders and access/lifting equipment, and
where they exist on roofs, anchor points before the commencement of work?
Is there a system which prevents employees from working on or in roofs if they are unwell or under the
influence of drugs or alcohol?
Are there any special conditions to consider ie. excessive roof pitch, limited ground area, fragile roof,
electrical power lines?
Use the appropriate lifting equipment.
THINK SAFE
WORK SAFE
EMPLOYER AND EMPLOYEE RESPONSIBILITIES
Contact Technical
Support Centre for an
example of a Risk
Assessment Form
3
INTRODUCTION
Congratulations on choosing a new Braemar cooler. Your cooler is built from the highest
quality materials and engineered to provide many years of economical, trouble free cooling.
Please take a few minutes to read these instructions so you have a full understanding of
how to operate your cooler. Your installer should demonstrate the features and procedures
set out in these instructions. The installer should also provide you with a Model and Serial
Number which can be filled out in the section on the inside of the front cover.
Keep these instructions in a safe place.
All BRAEMAR air conditioners are operationally tested at the factory. Subject to normal
handling in storage and transit, correct installation and operation, they will provide years of
economical cooling with the minimum of service and maintenance. Braemar air conditioners
are designed for a range of installations and are readily adaptable to the following
applications.
a. for connection to multiple outlet duct system
b. for connection to a duct system for central air plenum diffusion.
Installation Recommendations and Procedures.
To ensure only fresh air flows through the filter pads, locate the cooler a minimum distance
away from;
a. Solid fuel type chimneys or flues - 3 metres
b. Gas Heater flues - 1.5 metres
c. Sewer or breather vent pipes - 5 metres
Remember to check your local building code for the minimum distances in your area.
Position the unit to allow access to the reservoir for plumbing fixtures and servicing.
Thoroughly seal all roof penetrations, this will ensure storm water cannot enter the building
as a result of the installation.
Effective Cooling Requirements.
To provide efficient cooling or ventilation your air conditioner must be operated with sufficient
exhaust openings in the form of doors, windows, or other vents.
One square metre of open area is the minimum requirement for every 3000 cubic metres per
hour of air delivery. ( ie. A 6000 cubic metres per hr. air conditioner requires a minimum of 2
square metres of open exhaust areas ).
For optimum cooling performance, windows opposite the prevailing wind conditions should
be opened. The cool filtered air entering the house will flow toward the exhaust openings.
Doors and windows should be set according to the airflow pattern desired.
Air should never be re-circulated back through the air conditioner.
When the design of the building or prevailing winds prevent effective airflow, consideration
must be given to the use of some form of exhaust/extraction device.
4
INSTALLATION
These units have been designed
to be directly mounted on top of a
suitably sized and strengthened
metal duct. Fixing is by means of
self drilling screws or rivets
through the steel mount on the
bottom of unit to metal duct.
Models RPC250, RPC320,
RPC400 & RPC450 require a 550
x 550 square dropper.
RPC "Side and Top" discharge
units are required to be mounted
onto a level platform and must be
strong enough to support the unit
under operating and prevailing
conditions.
It is the policy of Seeley International to introduce continual product improvement. Accordingly, specifications are subject to
change without notice. Please consult with your dealer to confirm the specifications of the model selected.
Manufacturers and Designers of Technically Advanced Quali
ty Heating and Cooling Products January 2003
Mounting the Cooler
Important !
Installation must be in accordance with Municipal Building Regulations,
Relevant Electrical Wiring Regulations, and any other relevant Codes and
Regulations.
All installation work to be carried out by Authorized Persons only.
RPC ROOF MOUNTED FRAME TYPE
DETAILS FOR "SIDE" & "TOP"
DISCHARGE MODELS
2
RPC ROOF MOUNTED DROPPER
DETAILS FOR DOWN DISCHARGE
MODELS.
550
550
Dropper
Flashing
Roof
1
550 550
5
INSTALLATION
It is the policy of Seeley International to introduce continual product improvement. Accordingly, specifications are subject to
change without notice. Please consult with your dealer to confirm the specifications of the model selected.
Manufacturers and Designers of Technically Advanced Quali
ty Heating and Cooling Products January 2003
Flexible Connector (Side & Top Series)
The flexible connector has not been fitted at the factory. It is intended to be fitted
on site to allow for better alignment to the ductwork.
1. Position the flexible connector (part A) with the seam to the bottom.
The corners of the skirt will need to be slit approximately 20mm to prevent
bulging at the corners.
2. The aluminium straps B,C,D & E fit inside the skirt.
3. Using one of the aluminium straps, mark and drill the rivet holes.
Note - The bottom edge of the strap is intended to be level with the edge of the
opening in the cooler.
4. Fit strap (part B) using the 5 of the rivets supplied, starting from the centre and
working towards the ends.
The skirt must be tucked under the aluminium strap before riveting.
5. Fit Straps C & D before fitting strap E.
Seal with Silicone after completion.
FITTING INSTRUCTIONS
A
Top Edge
B
E
C
D
A = Flexible Connector
B = Top Strap
C = Side Strap
D = Side Strap
E = Bottom Strap
3
250
A
B
6
INSTALLATION
Water Supply
Bleed Control
Mains connection is made to the
float valve fitted in the reservoir.
The float valve must be set to
maintain the reservoir water level
about 10 mm below the overflow
level. (Fig. 5). The mains water
supply should be fitted with a ball
valve and connection to the unit
from the stopcock be made with
the appropriate copper pipe and
fittings.
NOTE:
Flush the mains supply before
connection to the unit to remove
any foreign matter which may foul
the valve seat. Remember to use
a Pipe Cutter to cut copper pipe.
To reduce the accumulation of salts and
minerals in the cooler when running for
long periods it is essential to bleed a
certain amount of water. Increased flow of
make up water reduces the salt content.
The bleed rate will vary with the water
supply quality, but should initially be set to
the minimum recommended bleed rates
as set out in Bleed System (page 7). If
your water supply is of poor quality, higher
bleed off rates are necessary to ensure
reasonable pad life and cooler
performance. Place the hose from the
bleed tap into the overflow pipe. ( Fig. 6)
Connect suitable pipe work to bottom of
the overflow bush so that water drains
directly to waste. Drain plumbing must be
in accordance with local regulations
C
D E
B
A
H
G
IJK
F
A = Brass Nut
B = Washer
C = Brass Adaptor
D = Plastic Elbow
E = Plastic Nut
F = Valve
G = Float
H = Overflow
I = Tank
J = Plastic Nut
K = Threaded Bush
L = O Ring (between H & K)
L
4
KJ
I
H
H = Overflow
I = Tank
J = Plastic Nut
K = Threaded Bush
10
5
7
INSTALLATION
Bleed System
Water Management System (optional)
The bleed control tap is located
externally on a corner pillar.
Adjustment to the bleed rate is
made by turning the black/red
tap control to the desired setting.
Check the bleed rate by running
into a graduated container for a
set time, say 10 minutes.
BLEED CONTROL
Max
Min
B
A
C
D
E
A = Bleed Tap
B = Min/Max Label
C = Corner Pillar
D = Supply Hose from Pump
E = Bleed Hose to Drain
Recommended Bleed Rates
Model lp10 min lph
RPC250 1.2 7
RPC320 1.6 10
RPC400 2.0 12
RPC450 2.0 12
IL L 746-B
D
A
B
C
E
F
G
A = Drain Valve
B = Power Lead (plugs into control box)
C = O-Ring
D = Tank
E = Nut
F = Drain Adaptor
G = Lock Nut
An optional Water Manager Kit, Part #
073392, can be supplied with the cooler or
at a later date if required. The water
manager, which is fully automatic, is
controlled by the CPMD electronics
combined with your Braemar wall control.
The system is designed to ensure that the
water is always fresh, maintains your cooler
in good condition and ensures optimum
cooling performance.
When the cooler is off for 72 hours, the
drain valve will open automatically and
empty water from the cooler. When the
cooler is turned on again, fan operation will
delay for a few minutes while the tank refills
and the cooling pads are saturated again.
At any time when the wall control is OFF,
you can drain the cooler by pressing and
holding and for 1 second. The display
will show "dr" to confirm the operation has
activated.
Note: For Two Speed Coolers use KIT
077444
6
7
8
INSTALLATION
Electrical Connection
8
Mains Supply
It is required that all units be connected to the
mains supply through an independent circuit,
suitably protected by fuse or circuit breaker.
Ensure that the power supply is sufficient for the
rating indicated on the serial plate. Wire the unit in
accordance with all state and local regulations.
NOTE
Mains cable must be double insulated if both
mains and control cables are run in the same
conduit. Please ensure that the hole in the
reservoir and any penetration through the roof are
adequately sealed with an approved sealant.
Control Circuit Wiring
Variable Speed - 20 metre Low Voltage cable
supplied with cooler.
Two Speed - Control circuit wiring is via a 240V
5 wire system. (not supplied)
Cooler Controls
Variable Speed - Braemar wall control with
Auto/Manual
Two Speed - 240V Clipsal switch plate pattern.
Cooler Control Location
Variable Speed - It is advisable to locate the controller about 1.5 metres above
the floor level in the room that will be lived in most. Avoid positioning the control in
direct sunlight, an outside wall or near any heat source ( refrigerator etc. ), do not
position in direct line with a cooling outlet. Placing the controller near a heat source
or cooling outlet will effect its temperature readings.
Two Speed - Place the control switch in a room or area that is the most
convenient for you.
SERVICE CORD &
LOOM FROM BASE
OF COOLER
POWER OUTLET
ATTACHED TO
RAFTER BEAM
Æ50mm
HOLE TO BE
CUT INTO SIDE
OF DROPPER
PASS PLUG AND
CONTROL WIRING
THROUGH GROMMET
SCREW GROMMET
TO THE DROPPER
AS SHOWN
COOLER
CONTROL
WIRING
CONNECT PLUG
TO OUTLET
9
INSTALLATION
Electrical Connection
9
10
11
Connection
Down Discharge Units
A hole is provided in the side of the
blower housing for electrical entry.
The mains lead and control cable are
passed through this hole and wired to
the control box. On installation pass the
cables through the hole into the dropper
and then into the roof cavity.
Side Discharge Units
Knock outs are provided on the outlet
panel for mains and control cable loom.
Alternatively, entry can be made to the
unit from beneath. The entry must be on
the flat raised centre section of the tank
above the water line and directly below
the blower housing. Use only water tight
fittings and thoroughly seal all entry
points.
Top Discharge Units
Entry for mains and control cable loom
can be made through the cabinet Top.
Alternatively, entry can be made to the
unit from beneath. The entry must be on
the flat raised centre section of the tank
above the water line and directly below
the blower housing. Use only water tight
fittings and thoroughly seal all entry
points.
10
INSTALLATION
Commissioning The Electronics Module (Variable Speed only)
Connection Points
A = Inlet Solenoid
B = Drain Valve (or Shorting Plug)
C = Wall Control
D = Water Probes
E = Fan Motor Minimum Speed Adjustment
F = Pump
G = Red Diagnostic LED
H = Tricolour Diagnostic LED
We recommend that you have a short test lead on hand for Coolers with a hard wired
control system. You can then take the wall control to the roof and control the cooler
from there. This will save you a lot of time. The short test looms are available from your
Seeley spare parts distributor (P/No. 831534).
Power up the cooler using the on / off switch on the Electronics control module. Test
motor and pump operation. Look at the front of the module where two light emitting
diodes (LEDs) are situated. The left LED is "Tricolour" and can glow green, red or
amber. The right LED is red only. If the LED (fig 12 item G) is double flashing,
everything is ok, this is normal operation.
The following information allows quick diagnostics at start up. For more detailed
information, consult the CPMD service guide.
The "Tricolour LED"
- acts as a general diagnostic indicator, and will function as follows.
Green double flash every 2 seconds indicates the control is running normally.
If it does not glow at all, then there is no power to the electronics module. (Check
isolating switch, circuit breaker, plug and socket connection), or a failure has occurred.
Red flashing indicates one or more of the following faults is present.
1 red ash indicates...... Fault code #1 - Communication failure
2 red ashes indicate...... Fault code #2 - Failure to detect water probes. (only for coolers
with Solenoid, Probes and Drain Valve).
4 red ashes indicate...... Fault code #4 - Failure to clear probes during drain. (only for
coolers with Solenoid, Probes and Drain Valve).
7 red ashes indicate...... Fault code #7 - Incorrect Supply Frequency
The "Red" LED
- indicates the status of the Water Manager
measurement circuit and will function as follows.
1 ash indicates....... Water manager is operating
and the measured salinity is below the set point.
2 ashes indicate...... Water manager is operating
and the measured salinity is above the set point.
3 ashes indicate...... The salinity control method =
Drain every 65 minutes.
4 ashes indicate...... Incorrect salinity control
method selected.
Continuously On indicates...... The probes are in
open circuit, or measured salinity is less than
20us/cm (the water is very pure, ie. has very little
salt in it).
C
A
B
D
E
G
H
F
12
11
INSTALLATION
Setting The Motor Current
13
Important! The motor pulley and belt
tension need to be adjusted to ensure
that the motor is running at its rated
capacity.
If the current is set to low, the cooler
willnotperformtoitsoptimum
capacity, and the motor speed control
may not work effectively.
The RPC two Speed units need to
have full load amps checked on high
and low speeds.
Before setting the current please
ensure that;
- The electronics module is fitted securely, and all leads have been connected
correctly.
- All ducting and registers are in place.
- Windows and doors in rooms are opened sufficiently, and
- All pad frames except the ones on the motor side and pulley side are in place.
1..... Run the motor at maximum speed by operating the cooler with the wall control
set to MANUAL mode, maximum fan speed, ventilation only. WARNING! Ensure
that the pump is not running.
2...... Continue running the motor for ten minutes (warms up the motor) before
proceeding with the current measurement. During this period carry out general
system checks including airflow, etc.
3...... Measure the motor current with a clamp meter. Attach the clamp meter
around one of the motor cables as shown (fig 13).
Compare the measured current with the rated current located on the motor. If the
measured current is less than, or greater than the rated current, the adjustable
pulley should be altered accordingly. Refer heading Pulley Adjustment.
The measured current should be equal to, or within half an amp below that of the
rated current. It must never be more than the rated current.
Replace all covers and switch off clamp meter when adjustments are made.
12
INSTALLATION
Pulley Adjustment
A = Fixed Sheave
B = Motor
C = Grub Screw
D = Adjustable Sheave
E = Locking Cap
F = Locking Cap Fixing Screw
All RPC units are fitted with a variable
pitch pulley so that the full potential of
the motor can be utilised. The pulley is
set at the factory to approximate the
full motor load with the unit at free
delivery. When installed and operating
against system resistance, (with doors
and windows open fully) adjustment
may be made to the pulley in order that
all the available power is utilised.
Method of Pulley Adjustment
Important!Neverattemptthis
adjustment with the cooler operating.
Pulley adjustment is made with the
Coolerpowerisolatedatthe
Electronics Module.
1..... Remove the drive belt.
2..... To adjust the pulley; Remove the securing screw that holds the locking cap in
place. The adjustable half of the pulley is free to be adjusted by rotating it on its
thread. (fig 14)
3..... To increase the blower speed and therefore increase the motor amps, the two
halves of the pulley must be closer together, ie. turn the adjustable half clockwise
(pulley in).
4..... To decrease the blower speed and therefore decrease the motor amps, the
two halves of the pulley must be further apart, ie. turn the adjustable half of the
pulley anti-clockwise (pulley out).
5..... When an adjustment is made; Replace the locking cap, aligning the screw
hole with the nearest hole in the adjustable sheave. Lock it in place with the
securing screw. Refit the drive belt (ensure tension is correct, ie. no slipping and
not too tight, as this effects the motor current (fig 15) then check the amps
6...... Smaller adjustments should be made each time you approach the desired
setting. Refer heading Belt Tension
14
P
U
L
L
E
Y
O
U
T
P
U
L
L
E
Y
I
N
B
A
C
D
E
F
13
INSTALLATION
Belt Tension
D
AB C
E F
A = Motor Pulley
B = Motor
C = Blower Housing
D = Belt Tension Screw
E = V Belt
F = Blower Pulley
15/20 mm
15
Note! This adjustment must be done
immediately after the motor current
adjustment has been completed.
Belt tension is important, if it is too tight
there will be excessive belt and bearing
wear. If belt tension is too loose there will
bebeltslipandexcessivewear,
accompanied with noise and loss of
cooler performance.
Note! Adjusting belt tension is not the
correct way to alter motor current, The
current can only be altered by adjusting
the motor pulley.
The belt tension should be adjusted so
that the maximum deflection is 15mm to
20mmwhenareasonableforce
(approx..... 1.5kg) is applied.
It is important to check the motor current
rating again after making any alterations
to the belt tension. This may require a
further adjustment to the motor pulley,
which may have been slipping, giving
an incorrect reading.
Two Speed Single Phase Wiring Diagram
WIRING INSTRUCTIONS
1. THE INCOMING MAINS POWER MUST
BE TAKEN DIRECTLY TO THE COOLER.
2. 5 WIRES ARE REQUIRED BETWEEN THE
COOLER AND THE WALL SWITCH.
3. FOR DRAIN KIT 077444 WIRING
INSTRUCTIONS SEE MANUAL SUPPLIED
IN KIT OR VISIT OUR WEB SITE
www.braemar.com.au
ALL FIELD WIRING IS SHOWN AS
1
2
C
2
1
2
1
LO/HI FAN COOL
LO HI C
2 SPEED
FAN MOTOR
(VIEWED FROM REAR)
E NA
PUMP
8
7
6
5
4
3
2
1
9 10 11 12
LOW
HIGH
COMMON
BLUE
BROWN
EARTH
EARTH
4 POLE ISOLATOR
FUSE
FUSE
RED
WHITE
BROWN
BROWN*
BROWN
BROWN
BROWN
BLUE
EARTH *
PUMP
ACTIVE
FAN LOW
FAN HIGH
8 6 4 2
7 5 3 1
NA E
MAINS IN
NEON1 NEON2
BLUE
WHITE
BROWN
ORANGE
Electronics
enclosure
Drain
Valve
DRAIN KIT COMPONENTS
Sensor
Solenoid
14
INSTALLATION
Motor Low Speed Setting (Variable Speed Only
16
RPC coolers fitted with the Electronics
Module and Variable Speed Wall Control,
will function across a wide speed range.
The minimum speed has been factory set,
and should not require any adjustment
under normal circumstances. However,
some adjustment may be necessary to
suit specific installations.
After you have set the motor current and
belt tension correctly, check the speed
variation of the cooler. When the control is
changed from maximum to minimum
settings, there should be an easily
recognizable difference in fan speed.
If not, check the following;
1.... That windows and doors are open.
Rule of thumb is to have 2 times the area
of the outlet grille open for exhaust in
each room.
2..... The weather damper is able to move freely (where fitted).
If the above are all correct then proceed as follows.
3..... Set the fan speed to minimum using the wall control, so that only one bar is
displayed.
5..... Turn the minimum speed adjustment knob clockwise or anti-clockwise, until
the belt is running at approximately one revolution per second (this equates to a fan
speed of approximately 600 rpm). The fan will give a burst on start up to open the
weather damper (where fitted). Switch the fan off then on again, to ensure that the
fan spins fast enough to open the weather damper and keep it open. It is important
to allow the cooler to run for a while on minimum speed, to ensure the weather
damper remains in the fully open position.
15
INSTALLATION
Mounting the Variable Speed Wall Control
17
18
20
19
When selecting a position for the wall
control, avoid the following locations:
Direct sunlight
An outside wall
Any heat sources
(eg. refrigerator, heater etc.)
A position in direct line of a cooling outlet
Mounting the wall control in a position
near any heat source or cooling outlet will
affect its ability to control temperature.
It is advisable to locate the wall control
about 1.5 metres above the floor level in
the room that is used or most lived in.
Plaster Board
To mount the wall control on a plaster board
wall, use the controller cradle as a template,
and drill a 20mm hole (Fig 18-1) for the low
voltage cable and 2 10mm holes (Fig 18-2)for
the mounting hooks. Insert mounting hooks
into the holes(Fig 19).
Align and screw the cradle into position.
1
2
Cradle
Cradle
16
INSTALLATION
Mounting the Variable Speed Wall Control
23
22
21
Plaster Board
Pull the low voltage cable through the large hole
and plug it into the wall control.
Feed the excess cable back into the hole and seal.
Slide the wall control over the protruding bracket
tabs.
Pull the wall control down so that the bracket tabs
engage with the keyway slots on the back of
controller
To mount the wall control on a brick wall, follow the
previous instruction using the wall plugs and
screws provided. Note that the wall plugs require a
6mm hole.
Brick
17
WALL CONTROL FUNCTIONS
Starting Your Cooler
Automatic Mode
24
25
26
The POWER button turns the cooler on and
off.
There are two modes of operation to choose
from, Automatic mode or Manual mode.
When the cooler is turned on, it will start in
the mode of operation it was in when last
turned off.
If your cooler has not been operated for a
while, then when you start it, "Pre Cool
Cycle" may sometimes flash on the display
as shown. This indicates that the water pump
will operated to saturate the cooling pads for
a few minutes before the fan is turned on.
This is to ensure that when the fan starts,
only cool air enters the building.
TheAUTObuttonswitches between
Automatic mode and Manual mode. When
"Auto" is displayed the cooler is under
Automatic control and will operate to the
temperature sensed at the wall control.
When the cooler is turned on, it will read the
temperature and set the cooler operation
accordingly. If the temperature increases at
the wall control, then fan speed will increase.
As the temperature decreases the fan speed
will decrease until the cooler turns off.
Press or to override the automatic
cooling level setting and adjust your room
temperature.
ILL1085-A
ILL1096-A
AUTOMATIC MODE DISPLAY
This manual suits for next models
2
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