REMKO RKL DC SERIES Local air conditioners in split design

RKL DC SERIES - Bild 66416 RKL DC SERIES - Bild 66417

REMKO RKL DC SERIES Local air-conditioners in a split design

The air-conditioner in a split design consists of a condenser unit (outdoor unit) and an evaporator unit (indoor unit). The inverter technology provides maximum comfort as temperature fluctuations in exiting air are reduced to a minimum. All units in the series are equipped with a suspension unit which allows it to be attached to an outside wall. The S-Line series convinces with its modern optics in a trendy silver colour.

  • Inverter technology
  • Refrigerant, total length 3m, removable using quick coupling system
  • Programmable 24-hour timer function
  • Air outlet with swing function
  • Gradually adjustable air outlet direction
  • Removable air filter
  • Practical electronic system for operation with digital display of temperature and other operating modes
  • Universal use
  • Compact design requiring minimum space for setup
  • Standard infrared remote control
  • Integrated condensate pump

Variant RKL 495 DC
RKL 495 DC S-Line
Nominal cooling capacity4.3 (1.8-4.6) kW
Energy efficiency rating for coolingB
Basic refrigerant filling volume0.97 kg
Power supply230/1~/50
Max. power consumption1.37 kW
Operating range, indoor unit16-30 °C
Air flow rate of indoor unit per speed setting350/450/550 m³/h
Dimensions H/W/D695/470/335 mm
Weight indoor/outdoor unit 38.0/12.0 kg


User manuals

Energy labels

Declarations of conformity

1616495_B_1_1_1.jpg jpg, 1,672,001,000.0
Assembly drawings
REMKO RKL 495 DC jpg, 234,304,000.0

Cooling load calculation for air-conditioners

The following rule of thumb applies when calculating the cooling capacity:
Approximately 30 W of cooling capacity are required per cubic meter. The cooling capacity for a room with a surface area of 28 m2 and height of 2.5 m can be calculated as follows:

28 m2 x 2,5 m x 30 W/m3 = 2.100 Watt (2,1 kW)

We recommend that you always calculate the cooling capacity for the room precisely.

Cooling load calculation Calculate required cooling capacity

Cooling load calculation