REMKO SLE Series, SLE 40, SLE 80, SLE 60 Assembly And Operating Instructions Manual

Assembly and operating instructions

REMKO SLE series

Pool dehumidifiers

SLE 40, SLE 60, SLE 80

Edition GB - N11

Read the instructions prior to performing any task!

Contents

Dehumidification

Safety information

Unit description

Installation

Commissioning

Care and maintenance

Troubleshooting

Refrigeration circuit

Electrical wiring diagram SLE 40-80

Diagram of unit SLE 40-80

Spare parts list SLE 40-80

Maintenance log

Intended use

4-6

6

7

8

9

10

11

12

13

14

15

16

17

Customer service and warranty

Environmental protection and recycling

Unit dimensions

Technical data

This operating manual is a translation of the German original.

These operating manual must be read carefully before c
ommissioning/using the unit!

17

17

18

19

These instructions are part of the unit and must always be kept near
to the site of installation or on the unit.

Subject to changes; errors and typographical errors excepted!

3

REMKO SLE series

Dehumidification

The interrelated processes occur­ring during dehumidification are
based on physical laws.
These are illustrated here in simpli­fied form in order to explain the
principle of dehumidification.

The use of REMKO
dehumidifiers

– No matter how well windows

and doors are insulated, damp
and moisture can penetrate
even through thick concrete
walls.

– The water volumes required for

binding concrete, mortar, plas­ter, etc. are diffused out initially
after 1-2 months under certain
circumstances.

– Even moisture that has penetrat-

ed masonry following high wa­ter or flooding is only released
very slowly.

– This applies similarly to e.g.

moisture contained in stored
materials.

The moisture (water vapour) es­caping from buildings or materials
is absorbed by the ambient air. This
increases their moisture content
and ultimately results in corrosion,
mould, rot, peeling of paint coat­ings and other unwanted moisture
damage.

The diagram opposite shows an
example of the rate of corrosion,
e.g. for metal at different humidity
levels.

corrosion rate

relative humidity

It can be seen that the rate of
corrosion is insignificant below
50% relative humidity and can be
disregarded below 40% relative
humidity.

The rate of corrosion increases
noticeably from 60% relative hu­midity. This moisture damage limit
applies also to numerous other
materials, e.g. powders, packag­ing, wood or electronic units.

Buildings can be dried out in differ­ent ways:

1. By heating and air exchange:

The room air is heated to absorb

moisture in order to then be dis­charged to the atmosphere. The
total input energy is lost with
the discharged, moist air.

2. By dehumidification:

The moist air in an enclosed

room is continuously dehumidi­fied according to the condensa­tion principle.

In terms of energy consumption,
dehumidification has one decisive
advantage:

Energy expenditure is restricted
solely to the existing room vol­ume. The mechanical heat released
through the dehumidification proc­ess is returned to the room.

With correct use, the dehumidifier
consumes only about 25% of the
energy required for the “heating
and ventilation” principle.

Relative humidity

Ambient air is a gas mixture and
always contains a certain amount
of water in the form of water
vapour. This water volume is ex­pressed in g per kg dry air (abso­lute water content).

1m3 air weighs about 1.2 kg at 20°C

Depending on the temperature,
each kg of air is only able to ab­sorb a certain amount of water va­pour. When this absorptive capac­ity is reached, reference is made to
“saturated” air; this has a relative
humidity of 100%.

Relative humidity is therefore un­derstood to be the ratio between
the amount of water vapour cur­rently contained in the air and the
maximum water vapour volume at
the same temperature.

The ability of air to absorb water
vapour increases with increas­ing temperature. This means that
the maximum (= absolute) water
content increases with increasing
temperature.

4

Temp. Water vapour content in g/m3 at a humidity of

Verdampfer Kondensator

°C

30

25

20

15

% r.F.

100

90

80

70

60

50

40

30

20

10

+

+

-

Lufttemperatur

Luftfeuchte

Verlauf

Luftrichtung

Verdampfer Kondensator

°C

30

25

20

15

% r.F.

100

90

80

70

60

50

40

30

20

10

+

+

-

Lufttemperatur

Luftfeuchte

Verlauf

Luftrichtung

°C 40% 60% 80% 100%

-5 1.3 1.9 2.6 3.3

+10 3.8 5.6 7.5 9.4

+15 5.1 7.7 10.2 12.8

+20 6.9 10.4 13.8 17.3

+25 9.2 13.8 18.4 23.0

+30 12.9 18.2 24.3 30.3

Drying materials

Building materials or structures can
absorb substantial amounts of wa­ter, e.g. bricks 90-190 l/m³, heavy
concrete 140-190 l/m³, lime-sand
bricks 180-270 l/m³.
The drying out of moist materials,
e.g. masonry, takes place as fol-

■

The air enriched with water

vapour continuously circulates
through the REMKO dehu­midifier. It is dehumidified and
leaves the unit at a slightly
higher temperature to absorb
water vapour from anew.

lows:

■

In this way, the moisture con-

■

The contained
moisture
moves from the

tained in the material is gradu­ally reduced.

The material dries!

inside of the
material to its
surface.

■

Evaporation takes place on the

The produced condensate is col­lected in the unit and discharged.

surface = transition as water va­pour to the ambient air.

Condensation of water
vapour

Since the maximum water vapour
volume increases when the air is
heated, the contained water va­pour volume remains the same
however, this results in a reduction
of the relative humidity.

In contrast, when the air is cooled,
the capacity to absorb the maxi­mum water vapour volume reduc­es, the water vapour volume con­tained in the air remains the same
and the relative humidity increases.
If the temperature falls further, the
capacity to absorb the maximum
water vapour volume is reduced
until it is equal to the contained
water vapour volume.
This temperature is called dew­point temperature. When the air
is cooled below the dew-point
temperature, the contained water
vapour volume is larger than the
maximum water vapour volume.
Water vapour is discharged.
This condenses to water. The air is
relieved of moisture.

Examples of condensing are misted
windows in winter or misting of a
cold drinks bottle.

The air flow is cooled on its way through or via the evaporator to
below the dew point. The water vapour condenses and is collected
in a condensate trap and discharged.

Evaporator Condenser

Air temperature

Air flow direction

Air humidity

Trend

The higher the relative humidity,
the higher the dew-point tempera­ture, which is easier to fall below.

5

REMKO SLE series

Heat of condensation

The energy transferred from the
condenser to the air is composed
of:

1. Heat energy previously removed
in the evaporator.

2. Electrical motive energy.

3. Heat of condensation released
during condensation of the water
vapour.

For the change from a liquid to a
gaseous state, energy is necessary.
This energy is termed heat of eva­poration.
It does not cause any rise of tem­perature, it is only necessary for the
change from a liquid to a gaseous
state.

Vice versa, energy is released during
the liquefaction of gas, which is
termed heat of condensation.

The amount of heat of evaporation
and condensation is the same.
For water, this is:

2250 kJ/kg (4.18 kJ = 1kcal)

This shows that a relatively large
amount of energy is released
through the condensation of water
vapour.
If the moisture to be condensed
is not introduced through evapo­ration in the room itself, but from
outside, e.g. via ventilation, the
heat of condensation released in
the process contributes towards
room heating. During dehumidifi­cation, the heat energy is recircu-

lated, which is consumed during
evaporation and released during
condensation.
During dehumidification of the
supplied air, a large amount of
heat energy is produced, which is
expressed in a rise of temperature.

The time necessary for drying
normally does not depend only
on the unit capacity, but is rather
determined by the rate at which
the material or parts of the build­ing release their moisture.

Safety information

The units were subjected to ex­tensive material, functional and
quality inspections and tests prior
to delivery.

However, the units may constitute
a hazard if used by untrained per­sonnel, improperly or not for the
intended purpose.

The following information must
be observed:

■

The units must not be installed
and operated in hazardous lo­cations.

■

The units must not be installed
and operated in atmospheres
containing oil, sulphur or salt.

■

The units must not be exposed
to direct water jets.

■

The air openings must always
be kept free.

■

The air suction grilles must al­ways be kept free of dirt and
loose objects.

■

The units must not be covered
during operation.

■

Never insert foreign objects
into the units.

■

All electrical cables outside the
units must be protected against
damage (e.g. animals, etc.).

■

The units must only be
installed or mounted in the
intended position (horizontal).

■

Free and frost protected
condensate discharge must
always be ensured.

■

The unit connections must
always comply with the
respectively applicable
installation regulations.

ATTENTION

The units must be installed
and mounted so that they
are easily accessible for
monitoring, repair and
maintenance.

6

Unit description

The units are designed for univer­sal and problem-free dehumidifica­tion.
They can be installed at numerous
locations due to their compact size.

The units operate on the conden­sation principle with hermetically
sealed refrigeration system with
silent and low maintenance recir­culation fan(s).

The fully automatic electronic
control, integrated hygrostat and
connections for local condensate
discharge ensure trouble-free, con­tinuous operation.

The units are reliable and easy to
use and comply with the funda­mental health and safety require­ments of the pertinent EU regula­tions.

The units are used wherever dry
rooms are a necessity and dam­age (e.g. due to mould) is to be
avoided.

The units are also used for
dehumidification of:

■

Private swimming pools

■

Wellness spas

Operation

All units are switched on and off
by the integrated hygrostat.
The respective unit function is
shown on the front display.

The recirculation fan sucks in the
humid room air via suction open-open­ings below the front panel.

This is transported via a filter,
evaporator and condenser.
At the cold evaporator, heat is
extracted from the room air and
cooled to below the dew point.
The water vapour contained in the
room air deposits as condensate or
frost on the evaporator gills.

At the condenser (heat ex­changer), the cooled and dehu­midified air is reheated and blown
back into the room via the upper
blow out openings with a slight
rise of temperature of about 5°C
above room temperature.
The conditioned drier air conti­nuously mixes with the room air.
Due to the constant circulation of
the room air through the unit, the
relative humidity in the room is
gradually reduced to the required
humidity (% relative humidity).

The hygrostat is set at the factory
to 60% relative humidity.

Depending on the room air tem­perature and relative humidity or
only during the defrost phase the
condensed water constantly drips
into the condensate trap and sub­sequently via the integrated drain
connection into the condensate
drain to be provided locally.

Safety circuit:

If the temperature at the condens-at the condens­er should exceed 55°C (e.g. due
to fan failure or clogged suction
filter), the compressor automatical-tomatical­ly stops to avoid being overloaded.
The compressor restarts automati-s automati­cally after 45 minutes.

The compressor always starts with
a 30 second delay.

■

Whirlpool areas

■

Sports studios

■

Store rooms/archives

■

Museums

Functional diagram of SLE 40-80 dehumidifier

Heat and dehumidified air

Humid room air

7

318

105

REMKO SLE series

Installation

■

!

ATTENTION

A installation of the unites are
in areas with a higher risk po­tential. In addition to the local
regulations especially the VDE
regulations in terms of protec­tion areas, local equipotential
bonding, equipment, protection
and safety classes are observed.

The unit should not be installed

close to radiators or other heat
sources.

■

The room to be dehumidified

must be closed from the ambi­ent atmosphere.

■

Open windows, doors, etc., as

well as frequent entering and
leaving the room should be
avoided as far as possible.

Access to control

After removing 2 screws at the
top of the unit, lift up the front
panel and remove it from the unit
horizontally.
The control is located in a housing
above the compressor.
Access to the control takes place
by removing the 2 screws on the
front of the housing.

For optimal and reliable unit op­eration, the following information
must be observed in any event:

■

The unit must be mounted or

installed in a suitable location
appropriate to the structural
conditions.

■

The supplied wall bracket with

suitable fixing material (not
included) must be fixed securely
to the wall.

■

The unit must be mounted or

installed horizontally to ensure
free condensate drainage.

■

The unit must be mounted or

installed so that the air is able
to be sucked in and blown out
unhindered.

■

For optimal operation of the

unit, the minimum clearances
from the unit to the ceiling and
floor must be maintained.

■

For optimal room air circulation

by the dehumidifier, the supply
and exhaust air openings must
always be kept free of dirt and
other obstacles.

Wall mounting of units

Condensate drain

The condensate drain is located at
the bottom of the unit.
The condensate drain must be
connected to the supplied drain
connection.
A solid or flexible ½“ drain con­nection can be connected.

■

The drain hose must always be

installed with a minimum gradi­ent of 2% to enable the water
to drain unhindered from the
drip tray.

■

Alternatively, a condensate

pump (accessory) can also be
mounted on the unit in order to
pump the produced condensate
to an outlet.

■

For an outlet through the wall,

specific preparations are neces­sary for correct condensate
drainage prior to installation
of the unit, e.g. the drilling of
holes.

Positioning the condensate drain

8

■

The position of the outlet con-

nection is shown in the diagram
below.

Commissioning

Prior to each commissioning or as
required, the air inlet and outlet
grilles must be checked for clog­ging.

The units operate via an integrated
hygrostat set to 60% relative hu­midity (standard value for swim­ming baths and indoor swimming
pools). The unit does not start at
room air conditions below 60%
relative humidity. If the relative
humidity is above 60%, the unit
automatically starts the dehumidi­fication process.

The front housing panel can be
removed to make any changes to
the hygrostat setting.
The hygrostat is located next to
the evaporator below the com­pressor housing.
Turning the control knob clockwise
reduces the humidity, turning an­ticlockwise increases the humidity.
An external hygrostat (accessory)
can be fitted if required.
Connection option, see under
“Electrical wiring diagram”.

In order to prevent compressor
damage, the units are provided
with reclosing protection, which
prevents immediate reconnection
of the compressor after disconnec­tion

The compressor initially switches
on again after a delay of about 30
seconds!

LED display

The units are provided with an
electronic control. The following
functions are controlled, monitored
and displayed:

■

Safety

■

Monitoring

■

On/off

The LED display is located on the
side of the unit.

NOTE

If the unit is switched on or
off via a main switch, all LEDs
successively show green and
the triangle red.

Symbol legend

The LED shows constant
„green“ when the unit is
connected to the supply.

The LED shows constant
„green“ when the com­pressor is operating and the
unit is dehumidifying.

This LED has no function
for dehumidification.

+

A constant „green“ lightning
symbol indicates that the supply is
connected to the unit.
Alternating „green“ and „red“
flashing LEDs indicate a unit fault
registered via the condenser sensor
(overheating).

If the condenser sensor registers
an excessive temperature, the
compressor is switched off and the
unit remains inoperational for 45
minutes.
After lapse of this time, the unit is
automatically switched on again.
After switching on again, the
„red“ triangle symbol no longer
flashes, the drop symbol continues
to flash.

The lightning symbol shows con­stant „green“.

+

A „green“ flashing drop symbol
and a constant „green“ lightning
symbol indicate that the unit is
functioning, but has been switched
off by the condenser sensor (over-nsor (over­heating).

+

NOTE

Interruption of unit operation
for less than 6 minutes com­pressor operating time will
force a restart lockout of about
4 minutes.

NOTE

If the relative humidity is
below 60%, the unit will not
start, even when the supply is
connected.

NOTE

The flashing drop symbol is
extinguished when the power
is switched off and on again.

9

REMKO SLE series

Care and maintenance

Fan control

When the hygrostat starts the
dehumidifier, the fan(s) is/are
switched on together with the
compressor.

If constant ventilation is required,
i.e. independent of dehumidifica­tion, a jumper can be connected
between terminals 25 and 26.

The fan or fans then operate in a
continuous mode!

Defrosting

At room temperatures below 20°C,
the evaporator will start to frost
after a short time.
When the evaporator sensor
registers a temperature below 5°C
on the evaporator surface, the unit
continues to operate for 30 min­utes in dehumidification mode.
After lapse of this time, the com­pressor stops and passive defrost­ing starts in that the fan or fans
slowly blow room air over the
evaporator and gradually defrost
the same in the process.
When the evaporator sensor regis­ters a temperature above 5°C, the
compressor is switched on again.

Safety circuit

If the temperature at the conden­ser should exceed 55°C (e.g. due
to fan failure or excessive room
temperature (above 36°C), the
compressor automatically stops to
avoid being overloaded.
The compressor restarts automati­cally after 45 minutes.

The drop symbol in the display
flashes!

NOTE

Regular care and maintenance
is a basic precondition for a
long useful life and trouble­free operation of the unit.

All moving parts are provided with
low-maintenance permanent lub­rication. The refrigeration system
is a hermetically sealed system and
must only be repaired by authori­sed specialist companies.

■

Observe regular care and main-

tenance intervals.

■

Depending on the particular

operating conditions, the units
should be tested by an expert
for reliable operation as neces­sary, but at least once a year.

■

Keep the unit free of dust and

other deposits.

■

If the unit should become

fouled, it can be cleaned with
a vacuum cleaner, whereby the
condenser should be thorough­ly cleaned.

■

If the evaporator gills are

heavily fouled, they should be
cleaned carefully with soapy
water.

■

Do not use a direct water jet

e.g. high pressure cleaner, etc.

■

Do not use caustic cleaning

agents or those containing
solvents.

■

Only use suitable cleaning

agents to remove heavy foul­ing.

Cleaning the suction filter

The suction filter should be
checked at regular intervals and
cleaned if necessary.
The filter is fixed in a holder be­hind the suction openings.

ATTENTION

Regularly check the suction
and blow out openings as well
as filters for clogging.

■

A lightly clogged filter can be

cleaned by carefully blowing out
or using suction.

■

A heavily clogged filter can be

washed in a luke warm (maxi­mum 40°C) soap solution. Sub­sequently rinse thoroughly with
clear water and allow to dry!

■

It must be ensured that the

dust filter is completely dry and
undamaged prior to refitting.

■

The units must only be operated

with the dust filter fitted.

NOTE

Heavily clogged dust filters
must be replaced with new
ones.
Only original spare parts must
be used.

Cleaning the condensate
water collecting tray

To ensure that the produced con­densate water is able to drain fre­ely, the condensate collecting tray
and the outlet must be cleaned at
regular intervals.

10

Troubleshooting

Fault Possible cause Remedy

•Theunitdoesnotstart.

•Lightningsymbolindisplaydoes

not light.

•Theunitdoesnotstart.

•Lightningsymbolindisplay

shows constant „green“.

•Thecompressordoesnotstart.

•Thetrianglesymbolinthe

display flashes constant „red“.

No supply voltage. • Indicatesthattheunitisoperating,

but has switched off due to over­heating.

Room humidity too low.

The unit is outside its operating
limits of 10 – 36°C.

The compressor was automati­cally switched off due to exces­sive temperature.

Lack of ventilation.

Excessive ambient temperature.

Clogged filter/suction.

• Checktheintegratedorexternal

hygrostat by setting it to a low rela­tive humidity, e.g. < 40%.

If the unit does not switch on

again, the integrated or external
hygrostat must be checked for a
fault.

• Checktheroomconditionsand

change if necessary.

If the unit does not start after 45 min­utes, the following must be checked:

• Checkthatthefan/fansis/areop­erating.

• Checkwhetherthesuctionlteris

clogged.

• Checkthatthesuctionandblow

out openings are free.

• Checkwhetherthecondensergills

are fouled.

• Checkwhethertheroomtempera­ture is possibly above 36°C. If the
room temperature is above 36°C,
the unit must be switched off.

•Thelightningsymbolinthe

display shows constant „green“.

•Thedropsymbolinthedisplay

flashes constant „green“.

NOTE

If no result is achieved after
carrying out all functional
checks, an authorised service
station should be contacted.

Indicates that the unit is operat­ing, but has switched off due to
overheating.

ATTENTION

All work on the refrigeration
system and electrical equip­ment must be referred to an
authorised specialist!

• Theindicationcanbecancelledby

disconnecting and reconnecting the
supply.

ATTENTION

Prior to carrying out mainte­nance or repairs, the unit must
always be disconnected from
the supply.

11

REMKO SLE series

Refrigeration circuit

7

3

SLE 40

1

5

6

2

4

Legend:

1. Compressor

2. Evaporator

3. Condenser

4. Thermal expansion valve

5. Dry filter

6. Solenoid valve

7. Fan

SLE 60 and SLE 80

7

8

1

3

12

5

6

2

We reserve the right to make dimensional and design changes in the interest of technical advances.

4

Legend:

1. Compressor

2. Evaporator

3. Condenser

4. Thermal expansion valve

5. Dry filter

6. Solenoid valve

7. Fan

8. Non-return valve

Electrical wiring diagram

R3.1 R3.2

HY-G

230V

50 Hz

M 1

M

1~

M

1~

M 2

Y 1

Test

M

1~M1~

M 4M 3

AMB.

NTC

COND.

NTC

EVAP.

NTC

PRES.

THA

WAT.

SENS

HYG TH.

STAT

FAN

0/1

MAINS FANCOMPA VALVE

HEAT

1 2 1 2

2

1

TEST/
COMM

S

C

R

PE

PE

SOLENOID
VALVE

PE

11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 1 2 3 4 5 6 7 8

PE N L14 3 2 1

EA

SLE 40 - SLE 80

Electronic control board

Fan motors:

SLE 40 = Motor M2
SLE 60 = Motor M2 and M3
SLE 80 = Motor M2, M3 and M4

Legend:

EA = Electr. connection box
HY-E = Room hygrostat

(accessories)
HY-G = Hygrostat

Constant ventilation:

If constant air circulation is re­quired, i.e. independent of de­humidification, a jumper can be
connected between terminals 25

and 26.

External hygrostat (accessories):

Remove the both jumper at the
terminals 1+3 and 2+4 in the con­nection box EA.

M 1 = Compressor
M 2 = Fan motor 1
M 3 = Fan motor 2
M 4 = Fan motor 3
Y 1 = Solenoid valve
R3.1 = Condenser sensor
R3.2 = Evaporator sensor

The fan or fans then operate with­out any control and monitoring in
a continuous mode.

Install the external hygrostat at a
suitable location in the room to
be dehumidified and connect to
terminals 1 and 2.

The output voltage on terminals
1 and 2 is 12V.

ATTENTION

Prior to carrying out mainte­nance or repairs, the unit must
always be disconnected from
the supply.

NOTE

A disconnector switch should
be installed in the supply con­nection at a suitable and easily
accessible location.

Only authorised special­ists may install and carry out
maintenance work on the
units!

EA

HY-E

NOTE

% RF

PE N L14 3 2 1

230V

50 Hz

We reserve the right to make dimensional and design changes in the interest of technical advances.

13

REMKO SLE series

Diagram of unit SLE 40 - 80

4

7

6

1

2

8

9

11

5

25

24

16

20

22

18

15

27
28

3

30

35

14

Fig. REMKO SLE 80

We reserve the right to make dimensional and design changes in the interest of technical advances.

12

38

Spare parts list

No. Designation SLE 40 SLE 60 SLE 80

EDP No. EDP No. EDP No.

1 Wall bracket 1109144 1109165 1109177

2 Housing rear 1109145 1109166 1109178

3 Cable gland 1109129 1109129 1109129

4 Condenser 1109146 1109167 1109179

5 Fan complete with 800mm cable 1109147 1109147 1109147

6 Fan complete with 1200mm cable — — 1109168 1109168

7 Fan complete with 1600mm cable — — — — 1109180

8 Evaporator 1109148 1109169 1109181

9 Condensate tray, complete 1109149 1109170 1109182

11 Suction filter 1109150 1109171 1109183

12 Front panel 1109151 1109172 1109184

15 Evaporator sensor (metal) 1109160 1109160 1109111

16 Condenser sensor 1109161 1109161 1109161

18 Thermo valve 1109158 1109173 1109185

20 Hygrostat 1109115 1109115 1109115

22 Dry filter 1109157 1109157 1109157

24 Control board 1109152 1109152 1109152

25 Diode board with cable 1109154 1109154 1109154

27 Terminal, two-pole 1109155 1109155 1109155

28 Capacitor 1109156 1109156 1109156

30 Solenoid valve, complete 1109110 1109110 1109110

35 Non-return valve — — 1109176 1109176

38 Compressor, complete 1109162 1109174 1109186

Spare parts (not illustrated)

Electrical connection box 1109163 1109163 1109163

When ordering spare parts, please always also quote the serial number (see rating plate) in addition to the EDP No.!

15

REMKO SLE series

Maintenance log

Model: .................................. Serial No.: ...................................

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20

Unit cleaned - externally

Unit cleaned - internally

Condenser cleaned

Evaporator cleaned

Fan function checked

Unit checked for damage

Protective devices checked

All fixing screws checked

Electrical safety check

Test run

✍

Remarks: .....................................................................................................................................................

.............................................................................................................................................................................

.............................................................................................................................................................................

.............................................................................................................................................................................

1. Date: ..............

..............................

Signature

6. Date: ..............

..............................

Signature

11. Date: ............

..............................

Signature

2. Date: ..............

..............................

Signature

7. Date: ..............

..............................

Signature

12. Date: ............

..............................

Signature

3. Date: ..............

..............................

Signature

8. Date: ..............

..............................

Signature

13. Date: ............

..............................

Signature

4. Date: ..............

..............................

Signature

9. Date: ..............

..............................

Signature

14. Date: ............

..............................

Signature

5. Date: ..............

..............................

Signature

10. Date: ............

..............................

Signature

15. Date: ............

..............................

Signature

16. Date: ............

..............................

Signature

The unit must only be serviced by authorised specialists in compliance with the statutory requirements.

16

17. Date: ............

..............................

Signature

18. Date: ............

..............................

Signature

19. Date: ............

..............................

Signature

20. Date: ............

..............................

Signature

Intended use Environmental

The units are designed and
equipped for dehumidification
purposes.

The manufacturer is not liable for
any damage attributed to failure
to observe the manufacturer‘s
instructions or applicable statu­tory requirements or unauthorised
changes to the unit.

NOTE

Use for any other purpose
than that described in these
operating instructions is not
permitted.
Failure to observe this rule
will invalidate all liability and
warranty.

Customer service and
warranty

A precondition for any warranty
claims is that the dealer or his cus­tomer has completed and returned
the enclosed “Warranty Docu-
ment” to REMKO GmbH & Co.
KG at the time of sale and com­missioning of the units.

The units have been repeatedly
tested for perfect functioning.
If malfunctions should occur that
cannot be remedied by trouble­shooting, your specialised dealer or
contract partner should be con­tacted.

NOTE

Only authorised specialists
may carry out adjustments and
maintenance.

protection and
recycling

Disposal of packaging

Think of the environment when
disposing of the packaging mate­rial.
Our units are carefully packed for
transport and delivered in sturdy
cardboard packaging on a wooden
pallet, if necessary.
The packaging materials are en­vironmentally-friendly and can be
recycled.
By reusing packaging material,
you make a valuable contribution
towards waste reduction and the
conservation of raw materials.

Only dispose of packaging mate­rial at the facilities provided.

Disposal of old unit

ATTENTION

Copyright
Any copying of this document
in whole or part or use for pur­poses other than the intended
is strictly forbidden without
the prior written permission of

REMKO GmbH & Co. KG.

Important information
on recycling

The units are operated with en­vironmentally-friendly and ozone
neutral refrigerant R407C.
In accordance with legal and lo­cally applicable requirements, the
mixture of refrigerant and oil con­tained in the unit must be disposed
of properly.

Our production is subject to con­stant quality controls.

Only high-quality materials are
used, the majority of which are
recyclable.

Make your contribution towards
environmental protection by
disposing of your old unit in an
environmentally-friendly manner.

Only dispose of your old unit at
an authorised recycling facility or
similar.

17

REMKO SLE series

Unit dimensions

B

315

140

130

A-A

Series Dimensions in mm

A B

SLE 40

SLE 60

950 890

1260 1190

675

50

A

35

90

800

A-A

14

18

SLE 80

Maß- und Konstruktionsänderungen, die dem technischen Fortschritt dienen, bleiben uns vorbehalten.

1800 1730

30

22

52

Technical Data

Series SLE 40 SLE 60 SLE 80

Daily dehumidification capacity at 30°C and 80%
relative humidity

Daily dehumidification capacity at 30°C and 60%
relative humidity

Litre/day 50.4 70.8 100.8

Litre/day 32.2 43.2 64.0

Operating temperature range °C 10 to 36

Humidity operating range

Refrigerant

1)

Max. operating pressure, refrigerant

% rel. humidity

kPa

40 to 100

R407C

1900 / 2800

Refrigerant quantity kg 0.6 0.95 1.6

Max. air capacity m3/h 250 500 750

Sound pressure level LpA 1m

2)

dB (A) 47 49 51

Power supply V/Hz 230/1~/50

Enclosure class IP X4

Max. power consumption kW 0.72 1.05 1.65

Max. rated power consumption A 2.8 4.3 7.2

Depth mm 315 315 315

Width mm 950 1260 1800

Height mm 800 800 800

Weight kg 60 74 101

Serial number 731... 732... 733...

EDP No. 615400 615600 615800

1) Contains greenhouse gas according to Kyoto protocol,

2) Noise measurement DIN 45635 - 13 - Category 3

We reserve the right to make dimensional and design changes in the interest of technical advances.

19

REMKO SLE series

Capacity diagram SLE 40

40

35

30

25

20

Room temperature [°C]

15

A

10

B

C

40% r.F.

A

60% r.F.

B

80% r.F.

C

5

0

0 0,5 1 1,5 2 2,5

Dehumidification capacity [l/h]

Capacity diagram SLE 60

40

35

30

25

40% r.F.

A

60% r.F.

B

80% r.F.

C

Room temperature [°C]

20

15

A

10

5

0

0 0,5 1 1,5 2 2,5 3 3,5

20

B

C

Dehumidification capacity [l/h]

Capacity diagram SLE 80

40

35

30

25

Room temperature [°C]

20

15

A

10

5

0

0 1 2 3 4 5

40% r.F.

A

60% r.F.

B

80% r.F.

C

B

C

Dehumidification capacity [l/h]

21

REMKO SLE series

22

23

REMKO INTERNATIONAL

… and also right in your neighbourhood!
Make use of our experience and advice

REMKO GmbH & Co. KG
Air conditioning and heating technology

Im Seelenkamp 12 D-32791 Lage
PO Box 1827 D-32777 Lage
Telephone +49 52 32 606-0
Telefax +49 5232 6 06-260
E-mail info@remko.de
Website www.remko.de

Consulting

Thanks to intensive training,

our consultants are always

completely up-to-date in terms

of technical knowledge. This has

given us the reputation of being

more than just an excellent,

reliable supplier:

REMKO, a partner

helping you find solutions to

your problems.

Distribution

REMKO offers not just a well

established sales network both

nationally and internationally, but

also has exceptionally highly-

qualified sales specialists.

REMKO field staff are more than

just sales representatives: above

all, they must act as advisers to

our customers in air conditioning

and heating technology.

SFlbCustomer Service

Our equipment operates

precisely and reliably. However,

in the event of a fault, REMKO

customer service is quickly at

the scene. Our comprehensive

network of experienced dealers

always guarantees quick and

reliable service.

We reserve the right to make technical changes, and provide no guarantee as to the accuracy of this data!