Key features Chilled water cassette Cooling ( pipes) and heating (4 pipes or electrical heating) ECM version for low energy consumption Beautiful design, six different sizes, high control flexibility, easy maintenance: the new AGIRII chilled water cassette is the result of an extended design development. It combines high performances, silent operation and wide choice of controls. The air diffuser is available in two different aesthetical appearance, a steel grill-module (RAL 900) and an ABS grille module with louvres (RAL 900). Every unit can be supplied with cooling water coil, heating water coil or electrical heater. The cassette can have fresh air intake and a remote air diffuser can be connected to the unit. The integrated condensate pump is very quiet and has a max. head of 6 mm. A version is also available with a built-in control board to be controlled by an infrared remote control or to be connected to the building management system through the Modbus. Some units can be equipped with a low energy consumption ECM motor that is controlled by an inverter card that makes possible continuous air variations. Quick Selection Entering air temperature: 7 C dry bulb - 9 C wet bulb Entering water temperature: 7 C, Δt 5 C Table : Cooling - standard version QFDK-0 QFDK-0 QFDK-0 QFDK- QFDK- QFDK-60 Air m/h 70 880 0 80 Cooling.68 4. 5.0 6.6 9.5.0 Sound Pressure Lp db(a) 6 44 9 44 49 QFDK-0 QFDK-0 QFDK-0 QFDK- QFDK- GB 07.0.0 6 s from 0 to 60 (Q = 0 80 m/h & P =.8 -. ). -pipe system: - rows for 0, (cooling or heating). rows for 0, 0,, 60 (cooling or heating). 4-pipe system - additional row for heating. ECM motor for low energy consumption Versions: Model 600 x 600 mm - 0, 0, 0 to fit into standard ceiling module. Model 800 x 800 mm -,, 60 which allows the best outcome in terms of quietness and of price/performance ratio for these high capacity models. noise level. Easy to assemble, use and maintain. Product code example Chilled water cassette QFDK Table : Cooling - ECM version Specifications Air m/h 55 70 880 65 770 Cooling.75 4. 5.0 6. 0.75 (9) Sound Pressure Lp db(a) 8 45 5 9 48 QFDK-0---0- Metal grill-module QFDZ-0-06
- Description Filter Aesthetic ABS grill-module Condensate pump An elegant designed standard ABS grill-module with louvres (standard colour RAL 900). Float switch centrifugal pump with 6 mm of maximum head, integral with the unit and wired to the main control panel. Aesthetic metal grill-module The high quality material used for the ceiling grille ensures no discolouration occurs. The product's hygiene qualities are maintained from a very low static dust collection. The powder coated metal grille (standard in RAL 900) can be customised to specifier's/architect's choice. Synthetic washable filter, easily removable Control valve kit - or 4-way control valves for ON/OFF operation, are available as standard accessory and delivered separately (not unit mounted). Casing Made of galvanized steel with inside thermal insulation (closed cell polyethelene 0 mm thick) and outside anticondensate lining. Electrical connections All electrical wires are connected to an easy accessible, external box which can include the electronic board. Fandeck - Standard version The fan assembly mounted on anti-vibrating supports is extremely silent. The single air inlet radial fan is connected to a 6 speed electric motor with single phase 0V/Hz supply, insulation class B with an integrated Klixon thermal contact for motor protection. The units are standard supplied with speeds connected and it is possible to change them on site if necessary. Fandeck - ECM version The fan assembly mounted on anti-vibrating supports is extremely silent. The fans are connected to a BLAC three phase permanent magnet DC brushless electronic motor that is controlled with current reconstructed according to a sinusoidal wave. The inverter board that controls the motor operation is powered by 0 Volt, singlephase and, with a switching system, it generates a threephase frequency modulated, wave form power supply. The electric power supply required for the machine is therefore single-phase with voltage of 0 - V and frequency of - 60 Hz. Heat exchanger Made of copper tubes and aluminium fins bonded onto the tubes for maximum transfer contact. In the -pipe units the coil consist of or rows depending the s (only and 4 have a row coil). In the 4-pipe units we have rows for cooling and row for heating (the inner row of the coil is used for heating). Inletmodule/driptray density ABS polystyrene foam driptray, shaped in order to optimize the air diffusion, fire retardant rating B to DIN. GB 07.0.0 (9)
Nominal performances QFDK, Standard version -pipe units Heating Entering air temperature: 0 C Entering water temperature: C Same water rate as for the cooling Cooling Entering air temperature: 7 C dry bulb - 9 C wet bulb Entering water temperature: 7 C, Δt 5 C Air Cooling, total capacity Cooling, sensible capacity Heating ΔP Cooling ΔP Heating Sound power Sound pressure Fan content Dimensions m/h kpa kpa db(a) db(a) W A 0.84.5. 6 4.9 4. 4 5 0..4 QFDK-0.4.75.90 7.6 6. 0.5.4.68.04.5 46 9.7 8. 45 6 44 0.0.4 60 4..0 5. 74 0.9 6.7 4 0.5.0 QFDK- 80 4.9.58 6.0 845 4. 9.9 48 0..0 6.6 4.59 7.77 060.6 5. 48 9 77 0.6.0 mm Air Cooling, total capacity Cooling, sensible capacity Heating ΔP Cooling ΔP Heating Sound power Sound pressure Fan content Dimensions m/h kpa kpa db(a) db(a) W A mm QFDK-0 0 0 70.5.4 4..57.9.8.56.9 5. 87 574 745 4.6 9.4 5..0 6. 9.7 45 5 4 6 44 5 44 68 0. 0.0 0.... 575 x 575 x 75 70 5..7 6. 9 9.4 7.9 4 5 4 0.8 4.0 80 QFDK- 970 0 6.78 9.5 4.80 6.94 8.0.70 66 66 4.7 6.9.4.0 5 44 6 0 0.8 0.5 4.0 4.0 x 80 x 0.94.08.4 6 7.5 6.7 4 0.5. QFDK-0 60.88.8 4.6 667.4. 49 57 0.7. 880 5.0.74 6.7 86 9.7 7.7 59 90 0.45. 70 5..7 6. 9 9.4 7.9 4 5 4 0.8 4.0 QFDK-60 80 8.45 6.09 0.0 45.8 8.6 48 9 95 0.4 4.0 80.0 8.5 4.00 909 5.6 0.6 58 49 70 0.74 4.0 Operation limits MA. working pressure 8 bars Air Suitable relative humidity 5-75% Supply Installation Single phase 0V Hz Max height 4 m. GB 07.0.0 MIN. entering water temperature: + 5 C MA. entering water temperature: + 80 C MIN. entering air temperature: + 6 C MA. entering air temperature: + C (9)
Nominal performances QFDK, Standard version 4-pipe units Cooling Entering air temperature: 7 C dry bulb - 9 C wet bulb Entering water temperature: 7 C, Δt 5 C Air Cooling, total capacity Cooling, sensible capacity ΔP Cooling Heating ΔP Heating Sound power Sound pressure Fan Cool. water cont. Heat. water cont. Dimensions Air Cooling, total capacity Cooling, sensible capacity ΔP Cooling Heating ΔP Heating Sound power Sound pressure Fan Cool. water cont. Heat. water cont. Dimensions m/h kpa kpa db(a) db(a) W A l l mm m/h kpa kpa db(a) db(a) W A l l mm Heating Entering air temperature: 0 C Entering water temperature: 70 C, Δt 0 C 0.85.4 8 4.6.4 09 5.7 4 5 0..4 0.7 QFDK-0.6.7 6 6.9.0 60 8.5 0.5.4 0.7.70.98 464 8.8.46 98 0.8 45 6 44 0.0.4 0.7 0.85.4 8 4.6.4 09 5.7 4 5 0..4 0.7 575 QFDK-0 0 70.65.4.98.56 456 574 8.8.4.46 4. 98 78 0.8 6.6 45 5 6 44 44 68 0.0 0..4.4 0.7 0.7 x 575 x 75.6.75 6 7..0 67 8.8 4 0.5.4 0.7 QFDK-0 60.0.9 59..97 4.8 49 57 0.7.4 0.7 880.8.97 655 7.0 4.95 46 0.5 59 90 0.45.4 0.7 60 4.4.96 7 8.8 5.9 8 9.8 4 0.5.0.4 QFDK- 80 5.0.65 865.5 7.9 68 4.0 48 0..0.4 6.4 4.69 090 8.9 9.0 78.4 48 9 77 0.6.0.4 70 4.5.5 777 0. 6.45 555.5 4 5 4 0.8.0.4 80 QFDK- 970 0 5.66 7.7 4.5 5.8 974 6 5.4 6.9 8.0.0 697 946 7.4 9.9 5 44 6 0 0.8 0.5.0.0.4.4 x 80 x 0 70 4.5.5 777 0. 6.45 555.5 4 5 4 0.8.0.4 QFDK-60 80 6.9 5.8 9. 9.98 858 5. 48 9 95 0.4.0.4 80 8.89 6.84 59 4.7.70 09 8.8 58 49 70 0.74.0.4 The sound pressure levels are valid for a room of 00 m and a reverberation time of 0.5 sec Operation limits MA. working pressure 8 bars Air Suitable relative humidity 5-75% Supply Installation Single phase 0V Hz Max height 4 m. GB 07.0.0 MIN. entering water temperature: + 5 C MA. entering water temperature: + 80 C MIN. entering air temperature: + 6 C MA. entering air temperature: + C 4 (9)
Cooling selection tables - QFDK, Standard version -pipe units Table : Entering air temperature: 7 C dry bulb - 9 C wet bulb 0 0 0 60 Air m/h 0 70 0 0 880 60 80 60 0 970 70 80 80 70 EWT 5 - LWT 0 ( C) Total Sensible 554.. 48.80.9 47.4.64 96 5.8.64 75 4.5.77 8.95.94 049 6.0 4.7 85 4.85.6 6.68.44 64 7.5 5.00 00 5.8.9 858 4.99. 94.0 7.59 74 7.99 5.7 070 6. 4.06 77.4 9.0 7 0.0 6.88 070 6. 4.06 EWT 7 - LWT ( C) Total Sensible 46.68.98.4.7 7.84. 745 4.. 575.4.5 87.5.55 86 5.0.66 667.88.76 6.94.05 060 6.6 4.48 845 4.9. 7 4..97 65 9.5 6.80 66 6.78 4.7 9 5..64 909.0 8.07 454 8.45 5.98 9 5..64 EWT 9 - LWT 4( C) Total Sensible 6.0.75 7.84. 76.6.9 67.59.87 48.8.8 49.0.5 694 4.0.9 559.5.57..9 8 4.88.95 674.9.09 580.7.6 0 7.57 5.99 99 5.46 4.5 7 4.0.0 5 8.78 7. 6 6.75 5.7 7 4.0.0 EWT - LWT 7 ( C) Total Sensible 5.47.47 0.8.8 88.09.09.44.44 9.86.86 5.. 479.79.79 76.9.9 8.65.65 57.. 45.6.6 84.. 880 5. 5. 6.56.56 44.5.5 044 6.07 6.07 775 4.5 4.5 44.5.5 EWT 9 - LWT 4 ( C) Total Sensible 74.8.79 09.80.44 67.55. 467.7.0 74.8.79 67.55. 5.98.56 4..00 7.96.59 864 5.0 4.04 69 4.0.5 57..56 046 6.08 5.0 775 4..57 6.6.8 99 6.97 5.98 94 5.48 4.46 6.6.8 EWT - LWT 7 ( C) Total Sensible 60.5.5 0.. 77.0.0 0.9.9 60.5.5 77.0.0 66.. 88.67.67.5.5 586.4.4 46.68.68 74.7.7 7.6 4. 4. 54.05.05 4.9.9 849 4.94 4.94 646.75.75 4.9.9 4-pipe units Table : Entering air temperature: 7 C dry bulb - 9 C wet bulb 0 0 0 60 Air m/h 0 70 0 0 880 60 80 60 0 970 70 80 80 70 EWT 5 - LWT 0 ( C) Total Sensible 569..6 465.7.8 98..55 78 4.8.9 569..6 98..55 79 4.60. 6.67.5.97.0 99 7.55 5. 07 5.97 4.00 84 4.89.4 588 9. 6.5 58 6.7 4.5 90 5.5.56 86 0.67 7.4 4 8.7 5.64 90 5.5.56 EWT 7 - LWT ( C) Total Sensible 465.70.98 5.6.70 8.85. 574.4.49 455.65.9 8.85. 656.8.89.0.4 5.6.70 090 6.4 4.58 866 5.0.57 7 4.4.90 7 7.7 5.69 974 5.66 4.06 778 4.5.9 59 8.89 6.66 9 6.9 5.05 778 4.5.9 LWT = Leaving water temperature, EWT = Entering water temperature. Correction factors for cooling capacities - different working conditions. Multiply the factors by the capacity figures in the 7 - C table above. ( C) 7/ 0/5 4/8 5 C / 8 C /.7% 0.8 0.56 0.5 Total capacity (db / wb / RH) 6 C / 8.5 C 8 C / 0 C / 48.7% / 48% 0.89. 0.6 0.8 0.4 0.5 GB 07.0.0 5 (9) Sensible capacity (db / wb / RH) 5 C / 8 C 6 C / 8.5 C 8 C / 0 C /.7% / 48.7% / 48% 0.90 0.94.06 0.7 0.78 0.90 0. 0.58 0.7
Heating selection tables - QFDK, Standard version -pipe units Table : Entering air temperature: 0 C Air m/h 0 70 0 0 880 60 80 60 0 970 70 80 80 70 0 0 0 60 EWT 45 LWT ( C) 48.80 47.4 56.07 787 4.57 59.45 4.9 90 5.5 70 4.08.0 8 6. 865 5.0 74 4.7 68 9.78 46 6.67 876 5.09 05.7 47 8.55 876 5.09 EWT LWT ( C) 66.0.69 98. 4 5. 4.89 5.7 4 5.86 94 4.58 94.4 64 7.6 486 5.65 45 4.8 95.06 655 7.6 5 5.87.7 84 9.70 5 5.87 EWT 60 LWT ( C) 77 4.9 7.80 79.5 69 7.9 467 5.4 6.79 709 8.5 55 6.4 4.77 878 0. 68 7.9 578 6.7 7 5.4 906 0.54 694 8.07 586 8.45 6. 694 8.07 EWT 70 LWT 60 ( C) 488 5.68 4 4.9 60 4.9 795 9.5 598 6.96 45 4.8 94 0.6 709 8.5 54 6.0 0.4 874 0.6 74 8.6 699 9.76 55.4 88 0.5 07.68 484 7.6 88 0.5 EWT 80 LWT 70 ( C) 599 6.97 5 5.96 44 5. 97.0 70 8.48 5 5.87 8.00 866 0.070 69 7.4 8 6.08 067.4 90 0. 07 4.08 6. 068.4 486 8.9 807.0 068.4 EWT LWT ( C) 49.7 0.5 0.0 84.4 46.69 0.0.45 66.94 0.5 4.76 4.77 67. 49 5.7 65 4.5 9.9 569 6.6 449 5. 9.9 EWT 60 LWT ( C) 8.54 9. 5.76 70.4 4.48 5.76 0.60 44.84 9. 596 6.9 47 5.48 88 4.5 78 8.4 5 6.7 4 4.9 89 9.64 65 7.60 4 4.9 EWT 70 LWT 60 ( C) 88.4 5.9 99. 57 4.5 8.8 99. 4.76.75 5.9 78 9.0 68 7.9 8 5.9 94 0.97 697 8.0 554 6.45 09.68 858 9.98 554 6.45 EWT 80 LWT 70 ( C) 58 4.7.6 47.87 444 5.7 4.07 47.87 5.9 4.67.6 970.8 766 8.90 69 7..70.60 864 0.04 686 7.98 5 5.74 064.7 686 7.98 4-pipe units Table 4: Entering air temperature: 0 C Air m/h 0 70 0 0 880 60 80 60 0 970 70 80 80 70 0 0 0 60 EWT 45 LWT ( C) 8.65 47.44 96.4 5.04 77.6 96.4.4 7.84 47.44 77 4.48 609.54.9 99 5. 686.99 547.8 074 6.4 845 4.9 547.8 Note! Other selections are available from our computer program. Ask your local sales representative. LWT = Leaving water temperature, EWT = Entering water temperature. GB 07.0.0 6 (9)
pressure drop - QFDK, Standard version 4-pipe unit cooling Pressure drop (kpa) /60 0 / 0 0 -pipe unit 0 0 0 9 8 7 6 5 4,5 00 00 0 600 800 000 000 000 C 0 0 60 70 80 K 0.94 0.90 0.86 0.8 0.78 0.74 0.70 C 0 0 60 70 80 K 0.94 0.90 0.86 0.8 0.78 0.74 0.70 Pressure drop for mean water temperature of 0 C, for different temperatures multiply the pressure drop figure by the K correction factors in the table. Pressure drop for mean water temperature of 0 C, for different temperatures multiply the pressure drop figure by the K correction factors in the table GB 07.0.0 7 (9)
Pressure drop (kpa) 0 / 0/0 / /60 4-pipe unit heating 0 0 0 9 8 7 6 5 4,5 00 00 0 600 800 000 000 000 C 60 70 80 K.4.08.0 0.96 0.90 Pressure drop for mean water temperature of 65 C, for different temperatures multiply the pressure drop figure by the K correction factors in the table. GB 07.0.0 8 (9)
Performances - QFDK, ECM version -pipe units Cooling Entering air temperature: 7 C dry bulb - 9 C wet bulb Entering water temperature: 7 C, Δt = 5 K Air Cooling, total capacity Cooling, sensible capacity Heating ΔP Cooling ΔP Heating Sound power Sound pressure Fan content Dimensions m/h kpa kpa db(a) db(a) W l mm Heating Entering air temperature: 0 C Entering water temperature: C Same water rate as for the cooling QFDK ECM-0 QFDK ECM-0 QFDK ECM-0 0 80 55 0 445 70 60 60 880.84.7.75.4.05 4..56.87 5.0.5.6.09.57.7.8.8.8.74..67.44.55.58 5.4.96 4.6 6. 7 7 47 85 54 744 44 666 864 4.9 6.6 0. 4.6 9.4 5. 5.9.4 9.7 4 5.5 8.7.6 6.6. 4.7 0.5 7.7 9 47 4 54 7 60 4 0 8 4 4 45 8 4 5 5 8 6 5 7 6.4.4.4...... 575 x 575 x 75 575 x 575 x 75 575 x 575 x 75 QFDK ECM- 60 870 65 4. 5.5 6..0.77 4.7 5. 6.5 8.0 7 885 089 0.9 5.6.7 8.7.8 9.5 9 48 4 0 9 0 7.0.0.0 80 x 80 x 0 QFDK ECM- 70 0 770 5.9 7.7 0.75.69 5.5 7.94 5.89 8.8.7 909 8 848 9.4 8.5.6 7. 4.9 8.8 4 47 57 5 8 48 0 08 4.0 4.0 4.0 80 x 80 x 0 4-pipe units Cooling Entering air temperature: 7 C dry bulb - 9 C wet bulb Entering water temperature: 7 C, Δt = 5 K Air Cooling, total capacity Cooling, sensible capacity ΔP Cooling Heating ΔP Heating Sound power Sound pressure Fan Cooling water content Heating water content Dimensions m/h kpa kpa db(a) db(a) W l l mm Heating Entering air temperature: 0 C Entering water temperature: 60 C / 70 C QFDK ECM-0 QFDK ECM-0 QFDK ECM-0 QFDK ECM- 0 80 55 0 445 70 60 60 880 60 870 65.85.8.77.09.8.9.8.5 4.5 4. 5.8 6.5.4.6.08.49.04.95.7.6.46.08.84 4.8 8 75 476 59 48 676 9 608 779 7 908 0 4.6 6. 9.5.5 5.7 0.5 4. 8.4. 9.4.6 9.8.4.85.6.98.5.5..06.79 6.4 7.54 9.6 09 45 70 7 88 89 6 6 58 649 805 5.7 7.6.7.5 5.5 9 4.5 7.5 0.5 5.5.5 9 47 4 54 7 60 9 48 4 0 8 4 4 45 8 4 5 4 0 9 5 8 6 5 7 6 0 7.4.4.4.7.7.7.7.7.7.0.0.0 0.7 0.7 0.7 0.5 0.5 0.5 0.5 0.5 0.5.4.4.4 575 x 575 x 75 575 x 575 x 75 575 x 575 x 75 80 x 80 x 0 QFDK ECM- 70 0 770 4.98 7.7 9.87.5 5. 7.4 856 697 8.8 7 0. 5. 7.6 9.5 449 66 88 6.5 8 4 47 57 5 8 48 0 08.6.6.6... 80 x 80 x 0 Operation limits MA. working pressure 8 bars Air Suitable relative humidity 5-75% Supply Installation Single phase 0V Hz Max height 4 m. GB 07.0.0 MIN. entering water temperature: + 5 C MA. entering water temperature: + 80 C MIN. entering air temperature: + 6 C MA. entering air temperature: + C 9 (9)
Cooling selection tables - QFDK, ECM version -pipe units Table 5: Entering air temperature: 7 C dry bulb - 9 C wet bulb Model QFDK ECM-0 QFDK ECM-0 QFDK ECM-0 QFDK ECM- QFDK ECM- Air m/h 55 80 0 70 445 0 880 60 60 65 870 60 770 0 70 EWT 5 - LWT 0 ( C) EWT 7 - LWT ( C) EWT 9 - LWT 4 ( C) EWT - LWT 7 ( C) Total Sensible Total Sensible Total Sensible Total Sensible 570.. 47.75.09 68.4.84 66.54.54 448.6.8 7.7.6 9.7.4 07.. 79..5 7.84.5.45.8 74.0.0 888 5.7.55 744 4..8 588.4.8.8.8 6.6.4 54.05.7 49.4.9 8.6.6 45.6.75 85.4.57.8.8 04.8.8 05 6.0 4.8 864 5.0.74 678.94. 48.8.8 79 4.6.5 666.87.8 58.07.48 6...0.0 44.56.8 54.06.59 5.7.7 04 7.58 5.7 089 6. 4.7 857 4.98 4.7 604.5.5 055 6. 4. 885 5.5.77 70 4.07. 48.8.8 859 4.99.9 7 4..0 576.5.67 9.8.8 0.85 8.88 848 0.75 7.94 456 8.47 7 0 5.99 5.99 574 9.5 6.8 8 7.7 5.5 059 6.6 4.86 78 4.8 4.8 068 6. 4. 909 5.9.69 74 4.7.4 48.8.8 4-pipe units Table 6: Entering air temperature: 7 C dry bulb - 9 C wet bulb Model QFDK ECM-0 QFDK ECM-0 QFDK ECM-0 QFDK ECM- QFDK ECM- Air m/h 55 80 0 70 445 0 880 60 60 65 870 60 770 0 70 EWT 5 - LWT 0 ( C) EWT 7 - LWT ( C) EWT 9 - LWT 4 ( C) EWT - LWT 7 ( C) Total Sensible Total Sensible Total Sensible Total Sensible 57.. 476.77.08 7.7.8 64.54.54 448.6.79 75.8.6 96.7.4 06.. 78..5 8.85.4 5.46.8 7 8 4.7.9 676.9.95 58.07.6 78.. 576.5.8 48.8.04 8..79 6.5.5 45.47.66 59.09.49 87.67. 9.. 9 5.46.86 779 4.5.46 606.5.05 44.57.57 79 4.4.9 608.5.6 477.77. 7.96.96 486.8.9 9.8.7 5.89.5.9.9 4 7.79 5.4 0 6.5 4.8 88 5. 4.6 69.6.6 08 6.9 4. 908 5.8.84 79 4.8.8 497.89.89 877 5..45 7 4..08 590.4.7 98.. 05.8 8.6 697 9.87 7.4 7.74 6.5 95 5.5 5.5 467 8.5 5.8 7.7 5. 979 5.69 4.58 67.9.9 00 5.87.9 856 4.98.5 687.99.09 457.66.66 LWT = Leaving water temperature, EWT = Entering water temperature. Correction factors for cooling capacities - different working conditions. Multiply the factors by the capacity figures in the 7 - C table above. ( C) 7/ 0/5 4/8 5 C / 8 C /.7% 0.8 0.56 0.5 Total capacity (db / wb / RH) 6 C / 8.5 C 8 C / 0 C / 48.7% / 48% 0.89. 0.6 0.8 0.4 0.5 GB 07.0.0 0 (9) Sensible capacity (db / wb / RH) 5 C / 8 C 6 C / 8.5 C 8 C / 0 C /.7% / 48.7% / 48% 0.90 0.94.06 0.7 0.78 0.90 0. 0.58 0.7
Heating selection tables - QFDK, ECM version -pipe units Table 7: Entering air temperature: 0 C QFDK ECM-0 QFDK ECM-0 QFDK ECM-0 QFDK ECM- QFDK ECM- Air m/h 55 80 0 70 445 0 880 60 60 65 870 60 770 0 70 EWT 45 LWT ( C) 49.87 8. 8.85 749 4.6 5.98 65. 886 5.5 66.85 4.46 5 6.7 9 5. 74 4.7 87 0.56 6 7.4 84 4.9 EWT LWT ( C) 7.7.48 78.07 4.89 90.8 09.4 494 5.75 7 4.4 4.8 64 7.47 5 5.95 45 4.8 05.8 7 8.9 48 5.6 EWT 60 LWT ( C) 0.8 57.99 4.49 5 5.87 47 4.04 49.9 595 6.9 448 5. 88.5 774 9 65 7.5 497 5.78 4. 854 9.9 574 6.67 EWT 70 LWT 60 ( C) 87 4.49 00.49.9 589 6.85 4 4.7 89.6 696 8.09 5 6.07 5.89 904 0.5 77 8.4 578 6.7 48 6.6 994.56 666 7.74 EWT 80 LWT 70 ( C) 0 5.8 87 4.5.75 758 8.8 57 6.0 68 4.8 896 0.4 670 7.79 47 4.96 65.54 9 0.7 74 8.6 87.7 74 4.8 849 9.87 4-pipe units Table 8: Entering air temperature: 0 C Model QFDK ECM-0 QFDK ECM-0 QFDK ECM-0 QFDK ECM- QFDK ECM- Air m/h 55 80 0 70 445 0 880 60 60 65 870 60 770 0 70 EWT 45 LWT ( C) 05.78 4.4 05.9 79.6. 65 0.96 5.8 55.48 84.07 79 4.6 69.7 5.0 800 4.65 60.5 4.56 EWT LWT ( C) 6.87 7.48 08.6 9.6 06. 8 0.97 56.8 7.48 9.08 4 4.9.96 78. 4 4.8.6 9.67 EWT 60 LWT ( C) 98. 56.8.55 76.04.55 05. 98. 6.87 7.6 57 6.0 47 4.85.96 54 5.97 88 4.5 84. EWT 70 LWT 60 ( C) 6.74 86.6 58.84.48 6.87 7.47 4.8 95.7 4.64 6 7. 494 5.75 4.68 65 7.5 464 5.9 9.94 EWT 80 LWT 70 ( C).6 45.85 09.4 88.5 7.5 70.98 6.79 6.06 89. 805 9.6 649 7.54 58 6.4 88 9.5 66 7.6 449 5. LWT = Leaving water temperature EWT = Entering water temperature GB 07.0.0 (9)
pressure drop - QFDK, ECM version 4-pipe unit cooling -pipe unit C 0 0 60 70 80 C 0 0 60 70 80 K 0.94 0.90 0.86 0.8 0.78 0.74 0.70 K 0.94 0.90 0.86 0.8 0.78 0.74 0.70 Pressure drop for mean water temperature of 0 C, for different temperatures multiply the pressure drop figure by the K correction factors in the table. Pressure drop for mean water temperature of 0 C, for different temperatures multiply the pressure drop figure by the K correction factors in the table GB 07.0.0 (9)
4-pipe unit heating C 60 70 80 K.4.08.0 0.96 0.90 Pressure drop for mean water temperature of 65 C, for different temperatures multiply the pressure drop figure by the K correction factors in the table. GB 07.0.0 (9)
Acoustic data Often sound levels are the key influencing factor in the selection of equipment. The notion sound power is often confused with the notion sound pressure. The two notions can be defined as follows : Sound power (Lw) Sound pressure (Lp) Sound power is the output required producing sound pressure waves. It is not, as such, directly measurable. Sound power is established by measuring the sound pressure on the inner surface of a sphere placed around the source. It is measured and stated in Watts. Sound power is therefore a measurement, which is not dependent on area or distance, and it is used as a basis for all acoustic data. This is the alternating pressure produced by waves from a sound source. It is a measure of the noise level or noise intensity. Sound pressure is dependent on the average absorption factor of the room, distance from the sound source, the position of the unit in the room, the occupation and is therefore not suitable for calculations of sound propagation or spread. An explanatory example : The sound power level can be compared with the heating capacity of a boiler. This capacity will remain the same regardless of the thermal characteristics of the installation. The sound pressure level can be compared with the temperature obtained in a room supplied from the boiler. Obviously, the temperature will vary depending upon the room characteristics and so it is with sound pressure. Therefore, accurate comparisons between competing equipment should always be made, in the case of the boiler, by comparing boiler capacity and in case of fan coil units by comparing the sound power levels. Conversion : Sound power level db(a)» Sound preassure level db(a) 0 Absorption surface 5m Sabin 0 DL = Lw - Lp ( db ) 5 6 6 7 0 0 hou 00 5 00 0 000 5 fact o ri e s ro s a = a= om 0.0 0.0 s, of a = 5 sw i m fic 0. mi n rea es, ho g h din t o e hal spit l ro g ro l s om al r om oom, big c s, te s hur ra d s, li a l e vi ch io s ttle sion = 0.5 tud chu es ios stud me r ch etin es io a= g ro 0.4 a= o mu 0. ms, th sic 5 st ro o ore eaters ms s ses 0 clas 000 0 00 e Fr iel ef Sound level difference d Unit is fixed in a corner 5 8 4 Unit is fixed into the ceiling 5 Delivery factor Unit is fixed to the wall 00 0 000 000 00 0000 0000 0000 Room volume (m ) Unit can radiate in all directions 0,5 4 4 5 6 8 0 5 0 0 60 70 Distance from the sound source in meters Office 5.5 m x 4.5 m x.75 m» Room volume: 60 m QFDK-0 : Sound power level at low speed is db(a) Absorption factor a : 0.5 Distance from the source : m Direction factor : ΔL: 6 db GB 07.0.0 Sound pressure level: Lp = Lw(A) - ΔL Lp = - 6 = 7 db(a) 4 (9)
Air throw data The air throw indicated in the tables must only be considered the maximum value, as it may change significantly in relation to the dimensions and the positioning of the furniture related to the room in which the cassette unit is installed. The useful throw "L" refers to the distance between the appliance and the point where the air speed is 0. m/sec. Air throw distance chart - ABS grill-module with adjustable air diffusion louvres In cooling mode it is recommended that the louver has a gradient of 0,the so-called Coanda effect will occur Air throw L m.0 QFDK-0.5.8.0 QFDK-0.8 4.5.5 QFDK-0 4. 5.0. QFDK-.7 4..4 QFDK- 4.0 5.0.4 QFDK-60 4.6 6.5 In heating mode it is recommended that the louver has a gradient of 45,there will be a downwards throw. Air throw L Height H Air throw L Distance B m m m m....5 QFDK-0.9 4..6.8.9 4..9. GB 07.0.0....5 QFDK-0 4. 4.8.8. 4. 4.8..6.9.6.9.9 QFDK-0 4.5 5..0.4 4.5 5..4.9 5 (9).5..5.7 QFDK- 4. 4.8.6.0 4. 4.8..8.8.4.8.0 QFDK- 4.6 5.4.8.4 4.6 5.4.6 4..8.4.8.0 QFDK-60 5. 5.8..6 5. 5.8 4.0 4.6
Dimensions and weights Model 600 x 600 mm - 0, 0, 0 57 75 86 86 60 4 4 67 5 4.5 6.5.5 44 70 4 7 55 55 445 48 4 6 8 00 00 5 ext. 4 8. Inlet heating (4-pipe). Inlet cooling/heating. Outlet heeting (4-pipe) 4. Outlet cooling/heating connections / BSP 4 67 4 59 44 07 6 585 07 597 6 60 54 48 57 4 57 670 5 55 7 0.5 64 0 9.5 0 57 8 6 0 of the unit 0-0 - 0 GB 07.0.0 64 670 0 Unit weight (kg) 4 6 (9) 7 55 70 Diffuser weight (kg)
Model 800 x 800 mm -,, 60 80. Inlet heating (4-pipe). Inlet cooling/heating. Outlet heating (4-pipe) 4. Outlet cooling/heating 89 9 4.5 56 4 645 6 75 99 55 59 6 7 75 49.5 0.5 9.5 55 0 9.5 connections -pipe units cooling/heating /4" BSP 4-pipe units cooling /4" BSP heating /" BSP 85 5 89 4 8 08 965 of the unit - - 60 GB 07.0.0 8 4 6 7 55 0 5.5 06.5 8 60 9 4 89 560 560 56 77 965 57 705 89 49.5 76 0 4 705 8 5 ext. 45 0 Unit weight (kg) 9 7 (9) Diffuser weight (kg) 6
Practical guidelines Control system Precautions to be taken before and during installation Units are carefully inspected and tested prior to delivery. The water system must be carefully designed and balanced if the fan coil system is to perform correctly. The units should be installed in such a way to allow easy access for maintenance and adjustments. It is important that the unit is placed level or slopes slightly towards the condensate drain side. Sufficient slope of the drain system shall be assured for a quick condensate removal = % (min. cm/m). The inlet water connections for cooling and heating are always the lower of the coil connection. Although units equipped with water control valves have been carefully checked at the factory, it is advisable to check the tightness of all pipe connections on site using a spanner. Make sure that the condensate will drain off freely. Do not connect the drain system directly to the drainpipe of the main driptray but use the drainpipe of the auxiliary driptray for the evacuation of the condensate. It is recommended to seal the joint between the unit and the auxiliary driptray with a sealer. The distance between the air intake side and the floor or wall should be minimum 00 mm. Make sure that no shelving or furniture obstructs free air circulation. Dispose of packaging material in accordance with local requirements. Electrical connections All motors are tested prior to delivery. The voltage of the motor is stated on the identification label of each unit. The electrical wiring of the units should be done by an authorised electrician in accordance with the local regulations. The electrical heating elements must only be factory installed. The electrical installation should be of permanent type and the unit protected by means of fuses in the power supply from the mains. Incorrect field wiring will cause motor damage. Always use the same power supply circuit for the fan coil system (fan coil units, thermostats, etc...) Do not connect more than one fan coil unit to one common speed selector switch. In master/slave applications, check carefully the equipotentiality of the electrical connections. GB 07.0.0 8 (9) When the fans are not running, it is strongly advisable to ensure that the chilled water supply to the coils is automatically shut off, to prevent condensation in and on the unit. Units equipped with electrical heating elements must be connected to a regulation with permanent ventilation. Starting-up Check that the coils have been cleaned after the installation work. Check the water system and open the valves for the water supply. Check that the water connections do not leak. Open the venting screws and check that there is no air in the coils. Equalisation of the pressure drop across the whole water system is recommended. Check that the fan impeller rotates freely and in the correct direction. Run the fan at high, medium and low speed and check that no mechanical noise can be heard. Check that the unit is well secured and does not vibrate. Check the performance of the supervisory system. Maintenance Before performing any service or maintenance operations, turn OFF the main power supply. Inspect the unit at regular intervals. The frequency of cleaning the coil and the driptray depend on local conditions. The coil should be cleaned on both sides. Use a vacuum cleaner with a rubber nozzle. Work carefully to avoid damaging the coil surfaces. Check that the drainpipe is clean and not clogged. The motor bearings are permanently lubricated and do not require lubrication. The standard filters are of the washable type and should be cleaned when clogged. Check min. once a month the filter final pressure drop is recommended up to 5 Pa. The frequency of filter cleaning or replacement is dependent on the dust content in the return air. (our recommendation: Max. month after starting-up period and further min. every months) WARNING! The cooling and heating output of the unit will be reduced if the unit is running with clogged filters. Unit mounted electrical heating elements can influence the sound level of the units. Dirty/clogged filters will increase the sound level and are harmful to the operation and workingexpenses of the units.
Prolonged operation with a dirty / clogged filter may lead to deterioration of the motor. To avoid breaks caused by ice, please empty the watercircuit when the roomtemperature goes down to 0 C. Prior to installation, we recommend that you study the condensate drainage system thoroughly and take special note of the following points: The slope of drain pipes must be at least cm per meter (%). The diameter must be at least mm and, in all cases, must be adapted to the number of units. An air vent must be installed downpipe to avoid pressurizing the drainage line. The drain pipe must be fitted with a syphon trap. All pipes must be fastened securely and at regularly intervals. The system must never have a counter slope. Elevation must take place as close to the unit s outlet as possible. Elbows must have a sufficient curvature radius so as not to cause significant pressure drop. Never exceed the recommended pump head stipulated in the unit s manual. Respect the diameter of the drainage pipe specified in the unit s manual. GB 07.0.0 9 (9)
Practical guidelines Problem Symptom Length too long The slope, although respecting the maximum discharge height H, is too long. The quantity of water contained in the tube is thus greater than the capacity of the condensate tray The pump cycles but nothing is drained. Overs sometimes occur. Remedy Use the diameter of tubing specified in the unit's operating manual. H H Pipe inappropriate The maximum height is respected although pipe diameter is not in compliance. The quantity of water contained in the pipe is thus greater than the capacity of the condensate tray. The pump cycles but nothing is drained. Overs sometimes occur. Use the diameter of tubing specified in the unit's operating manual. H Manometric delivery head too high The height H is greater than the value specified in the unit's operating manual. Difference in height too high. If the installation cannot be adapted, install an intermediate drain pump. The pump operates continuously without discharging condensates and overing may reslut. H H Conduit poorly secured The main drainage pipe is not properly secured. Under the effect of heat (in attic space, for example), the tube softens slightly and a water pocket forms. When the pump stops, siphonage of this pocket may occur. Secure all drainage tubes solidly and at regular intervals (approx. every meter) The pump cycles but nothing is drained. Overs sometimes occur. H H Tube enters too far into drainage fitting Siphonage may be initiated when the drainage tube is inserted too far into the main drain line connection. Overing may result. back sometimes occurs when the pump stops overing may reslut. Place the tube in the highest position possible. H Insufficient slope accumulation occurs in the main conduit and causes overing due to siphonage. Insufficient diameter In case of high ambient humidity, the instantaneous delivery may become sufficient to prevent the lifting pumps of the last units from operating. GB 07.0.0 Increase the slope of the main drainage line, and split the line as required. The last units over regularly. Increase the diameter of the main drainage line, and split the line as required. The last units over regularly. 0 (9)
Accessories for QFDK Installation MAIN AIR INLET AIR DISTRIBUTION AIR INTAKE The air duct is connected quickly and easily. After removing the blank and the insulation inside the appliance, the mounting plate is rolled back and the air duct with its V-shaped section must be pushed into the unit. The duct is then fixed to the mounting plate. Ø QFDZ-0-0 Fresh air connection/adaption piece The cassette is fitted with inlets for fresh air to be mixed with room air inside the unit. Note! The fresh air is limited to 0% of the total fan coil air at medium speed and 00 m/h for each treated air inlet. Fresh air must be filtered. Installation: The fresh air inlets are designed for the insertion of standard 0 x 55 mm rectangular ducts. Note! Not installed when delivered. Ø 05 GB 07.0.0 (9)
Accessories for QFDK Air distribution data for separate supply air outlets Two air outlets are provided on the side of the unit. They can be used to supply air from the cassette unit to distant areas of a room or even to a different room. The total air does not change. The air at high speed depending on the air duct pressure drop which is shown in the tables below. used air outlets Pressure drop (Pa) Pressure drop (Pa) used air outlet 0 0 0 0 0 0 0 00 00 00 4 00 0 0 0 0 0 5 00 0 0 00 00 Air (m/h) 5 00 4 00 5 00 Pressure drop (Pa) Pressure drop (Pa) 4 00 0 60 0 0 0 00 Air (m/h) 00 00 00 4 00 5 00 0 0 0 0 0 0 0 Air (m/h) 00 00 00 Air (m/h) Grill-modules Ordered and delivered separately QFDZ-5-06 QFDZ-0-06 ABS grill-module - with louvers for size 0, 0, 0 (600x600) Metal grill-module for size 0, 0, 0 (600x600) - RAL 900 - RAL 900 QFDZ-5-08 ABS grill-module - with louvers for size,, 60 (800x800) - RAL 900 GB 07.0.0 (9)
Cover cabinet The cover cabinet is designed for all environments where false ceilings are not featured or cannot be constructed. The installation height is up to 5m due to the highly flexible adjustment of the air distribution louvers. It is designed for pipe units only and there is no possibility to use it in combination with fresh air intake (QFDZ-0-0) or electrical heater. The casing is painted in RAL 900. The special casing is delivered in separate packaging; this must only be fitted after having installed the QFDK cassette unit and completed the water and electrical connections. QFDZ-0-06, for QFDK size 0-0 QFDZ-0-08, for QFDK size -60 Weight: 5 kg (7.5 kg incl packaging) Weight: 0.5 kg (.5 kg incl packaging) Electrical and water connections must enter from above the unit and must not interfere with the casing. Valve kits for connection from above QZAZ--0-5-0-0, for QFDK size 0-0 QZAZ--5-5--0, for QFDK size -60 Connections /4" Connections " GB 07.0.0 (9)
Electronic board for infrared control & modbus communication Infra red remote control Electronic board The infrared remote control QZAZ-05-90 allows setting by a remote position the fan coil operation parameters. It integrates the following functions: A electronic board can be mounted as per standard on the cassette and is set to carry out different functions and adjustment modes in order to meet the installation requirements. These modes are selected by setting the configuration dip switches on the board: /4 pipe system. Fan ON/OFF thermostatic control. Valve ON/OFF thermostatic control and continuous ventilation. Valve and simultaneous ventilation ON/OFF thermostatic control. Fan operation control depending on the coil temperature (cut-out probe fitted), which can be activated only in heating mode or heating and cooling mode. Automatic switch of the operating mode by means of water probe (optional) applied on the pipe system. Seasonal switch by means of remote contact. ON/OFF of the fan coil by means of the remote contact (window or clock contact). Electric heater control Switch the appliance ON and OFF. Temperature set. Set the fan speed (low, medium, high or autofan). Set the operation mode (fan only, cooling, heating; auto for 4 pipe systems with mode selection depending on the air temperature). Time setting. 4 hours ON/OFF program. Application/Control operations: By activating the cut-out T probe function, the fan is stopped in winter when the coil temperature is lower than C and started when the temperature reaches 6 C. In summer mode, the fan stops when the temperature inside the coil exceeds C and starts when it drops below 8 C. The following connections are located on the power board: Receiver for infrared remote control (QZAZ-05-9 or QZAZ-05-94). QZAZ-05-95 wall mounted control. RS 485 serial connection to manage several fan coils in Master/Slave configuration or to create a supervisory network (Modbus). The remote control QZAZ-05-90 must be ordered separately. The QFDK unit must be ordered with the electronic board. The infrared receiver must be ordered separately (see table below) and mounted on the unit. Not mounted IR receiver QZAZ-05-94 QZAZ-05-9 GB 07.0.0 4 (9) Product QFDK with ABS grille (QFDZ-5-bb) QFDK with metal grille (QFDZ-0-bb)
Control valve kits (valve & actuator) -way control valve kit with micrometric lockshield Table 9: Characteristics s Valve Cooling valve Heating valve Cooling valve Cooling valve 0-0-0 --60 Kvs (m /h).5.5 4.5.5 Δpmax ( kpa ) a) Diameter (Ø) /4" /4" " /4" b) a) Maximum pressure difference for valve to close b) External thread, flat seal M II I III R V Table 0: 0V, ON/OFF (Honeywell) s 0-0-0 --60 Code for -pipe unit, fitted QZAZ--0--0- QZAZ--5--- Code for -pipe unit, not fitted QZAZ--0--0-0 QZAZ--5---0 Code for 4-pipe unit, fitted QZAZ--0--- QZAZ--5--- Code for 4-pipe unit, not fitted QZAZ--0---0 QZAZ--5---0 Code for 4-pipe unit, fitted QZAZ--0-4-- QZAZ--5-4-- Code for 4-pipe unit, not fitted QZAZ--0-4--0 QZAZ--5-4--0 Table : 4V, ON/OFF (Johnson controls) s 0-0-0 --60 Code for -pipe unit, fitted QZAZ--0-4-0- QZAZ--5-4-- Code for -pipe unit, not fitted QZAZ--0-4-0-0 QZAZ--5-4--0 -way control valve kit with micrometric lockshield valve Table : Characteristics s 0-0-0 --60 Valve Cooling valve Heating valve Cooling valve Cooling valve Kvs (m /h).8.8 5..8 a) Δpmax ( kpa ) 60 Diameter (Ø) /4" /4" " /4" b) a) Maximum pressure difference for valve to close b) External thread, flat seal M R V GB 07.0.0 5 (9)
Table : 0V, ON/OFF (Honeywell) s 0-0-0 --60 Code for -pipe unit, fitted QZAZ--0--0- QZAZ--5--- Code for -pipe unit, not fitted QZAZ--0--0-0 QZAZ--5---0 Code for 4-pipe unit, fitted QZAZ--0--- QZAZ--5--- Code for 4-pipe unit, not fitted QZAZ--0---0 QZAZ--5---0 Code for 4-pipe unit, fitted QZAZ--0-4-- QZAZ--5-4-- Code for 4-pipe unit, not fitted QZAZ--0-4--0 QZAZ--5-4--0 Table 4: 4V, ON/OFF (Johnson controls) s 0-0-0 --60 Code for -pipe unit, fitted QZAZ--0-4-0- QZAZ--5-4-- Code for -pipe unit, not fitted QZAZ--0-4-0-0 QZAZ--5-4--0 Operation limits Pressure drop (kpa) Kv s Kv 4,5 s5, 6 bar C 0 C 0V-/60 Hz VA IP 4 approx min. % Kv s Kv,5 s,8 Rated pressure Maximum ambient temperature Maximum water temperature Power Rating Protection Travel time Maximum glycol content of water 5 0 0 9 8 7 6 5 4 00 00 0 600 800 000 000 000 Note! The maximum pressure drop accross the fully open valve should not exceed 5 kpa for cooling operation and 5 kpa for heating operation. GB 07.0.0 6 (9)
Product code Chilled water cassette QFDK-aa-b-c-d-e Version Accessories Accessories must be specified separately. The accessories are ordered and delivered separately. Valve kit K = cassette without grill-module (accessory) QZAZ--bb-cc-dd-e (aa) Connection size (bb) 0, 0, 0 (600 x 600 mm) 0 = /4" (for QFDK size0-0),, 60 (800 x 800 mm) 5 = " (for QFDK size - 60) Control arrangement (b) Valve & actuator (cc) 0 = Standard control board (for STRA controller) = -way Micrometric lockshields, 0V, ON/OFF = Electronic board for standard motor (only for e=) 4 = -way Micrometric lockshields, 4V, ON/OFF = Electronic board for ECM motor (only for e=5) = -way Micrometric lockshields, 0V, ON/OFF Coil arrangement (c) 4 = -way Micrometric lockshields, 4V, ON/OFF = -pipe system (one water coil) - cooling or heating 5 = -way valve, 0V, ON/OFF (for QFDZ-0-bb) 4 = 4-pipe system (two water circuits) - cooling and heating Coil arrangement (dd) 0 = -pipe size 0-0 Electrical heating elements (d) = -pipe size -60 0 = without = 4-pipe size 0-0 = with = 4-pipe size -60 for size 0 (P =.5 /0 V/ ph + N) Delivery execution (e) for size 0-0 (P =.5 /0 V/ ph + N) 0 = Supplied loose for size -60 (.0 /0 V/ ph + N) = Factory fitted Motor arrangement (e) = standard AC motor - 0V / / Hz (only for b=0 or ) Fresh air connection/ adaption piece QFDZ-0-0 5 = ECM motor - 0V//Hz (0-0 V output) (only for sizes 0 - and b=0 or ) IR control QZAZ-05-bb Grill-module QFDZ-aa-bb 90 = Remote control Material, execution (aa) 9 = IR-reciever, not mounted for QFDZ-0-06 0 = painted metal, color RAL 900, size 0-0 9 = IR-reciever, mounted for QFDZ-5-bb 5 = ABS with louvers, color RAL900, size 0-60 94 = IR-reciever, not mounted for QFDZ-5-bb (bb) Control equipment is included in a separate catalogue "Control equipment" and must be specified separately. 06 = for sizes 0-0, 600 x 600 mm Cover Cabinet 08 = for sizes - 60, 800 x 800 mm QFDZ-aa-bb Execution (aa) 0 = Cover cabinet, color RAL 900 (bb) 06 = for sizes 0-0 08 = for sizes - 60 GB 07.0.0 7 (9)
Order example Here is an guide to assist in placing an order complete with typical accessories. For more information about orders or specific requirements for special units, please contact your nearest sales office. Stand alone unit with AC-motor, wallmounted controller & factory fitted valves kits Unit ABS-grille Control Power unit / Relay Transformer Valve kit, factory fitted 4-pipe valve kit QFDK--0-4-0- QFDZ-5-08 QZAZ-05- N/A N/A -way, 0V ON/OFF QZAZ--5--- STRA-07-00-0-00 STRZ-4--0-0-0 STRZ-4- -way, 4V ON/OFF QZAZ--5-4-- Stand alone unit with EC-motor, wallmounted controller and factory mounted valve kit Unit ABS-grille Control Power unit / Relay Transformer Valve kit, factory fitted -pipe valve kit QFDK-0-0--0-5 QFDZ-5-06 QZAZ-05-76 QZAZ-05-77/78 N/A -way, 0V ON/OFF QZAZ--0--0- STRA-7-00-0-00 N/A STRZ-4- -way, 4V ON/OFF QZAZ--0-4-0- QFDK-0---0- QFDZ-0-06 QZAZ-05-90 QZAZ-05-9 -way, 0V ON/OFF for -pipe, supplied loose QZAZ--0--0-0 QFDK---4-0-5 QFDZ-5-08 QZAZ-05-90 QZAZ-05-94 -way, 0V ON/OFF for 4-pipe, factory fitted QZAZ--5--- Stand alone units with IR-control Unit ABS-grille IR remote control IR sensor Valve kit GB 07.0.0 8 (9)
Spare parts Below is a table listing the available spare parts for the QFDK Cassette unit Code QFDK-99-0-- QFDK-99-0-4- QFDK-99-0-5- QFDK-99-0--5 QFDK-99-0-4-5 QFDK-99-0-- QFDK-99-0-4- QFDK-99---6 QFDK-99---8 QFDK-99-06-- QFDK-99--- QFDK-99-0-0 QFDK-99-0- QFDK-99-07-0- QFDK-99-07-- QFDK-99-07-- QFDK-99-0-- QFDK-99-0--5 QFDK-99-0-8- QFDK-99-0-8-5 Identification AC-motor, size 0, 0, 0 AC-motor, size AC-motor, size -60 EC-motor, size 0, 0, 0 EC-motor, size, Blower, size 0, 0, 0 Blower, size,, 60 Main condensate tray, size 0, 0, 0 Main condensate tray, size,, 60 Condensate pump Float switch Filter, size 0, 0, 0 Filter, size,, 60 Auto-transformer, size 0, 0, 0 Auto-transformer, size Auto-transformer, size, 60 Drain pump electrical board for QFDK Drain pump electrical board for QFDK-EC Drain pump electrical board for QFDK-MB Drain pump electrical board for QFDK-EC-MB GB 07.0.0 QFDK-aa-0-c-d- QFDK-aa-0-c-d-5 QFDK-aa--c-d- QFDK-aa--c-d-5 9 (9)