Operating ambient temperatures
Suggested retail price
Technology
Aluminium heat exchanger with hydrophilic coating
Improved wettability of the heat exchanger aluminum plates which have a special coating with a hydrophilic layer, ensuring rapid removal of condensate from the indoor unit that does not allow to quickly form of mold and bacteria, providing a more efficient operation of the air conditioner.
Compresor DC inverter
Compressor with inverter DC can increase the efficiency of the air conditioner, thus reducing power consumption saves your costs. This system is much more economical and safer than air conditioners with a constant output of the compressor.
Wired remote control the chiller
Supplied with the chiller;
Provides restart with pre-set parameters, with the loss of elektenergii;
It has an informative liquid crystal display, which displays the operating modes and fault codes when they occur.
Multi-Bend Heat Exchanger
Increased heat. This unit uses the heat exchangers with tubes of a special design, the inner surface of which has trapezoidal notches "Innergrove cooper", which provides maximum heat transfer surface area increased. Due to this heat increases by 28%, reduced power consumption, and hence increases the efficiency of the system.
Sine-Wave Inverter
Technology 180° -gradusnogo wave inverter conversion - control voltage without the "pulse" effects (jagged sinusoid).
Compared with the current standard of 120° rectangular wave has the following advantages:
- Ability to work with a wider range of supply voltage and frequency.
- Most of the energy efficiency and energy conservation.
- More soft start, lower noise and vibration.
- more control.
Description
- The hydraulic module integrated in the monoblock allows to simplify the connection to the fan coil network or to other heat exchange circuits as much as possible;
- Highly efficient plate heat exchanger;
- Ozone-safe refrigerant R-410a;
- Simple installation and convenient maintenance (plate heat exchangers are used, the system control module has developed built-in monitoring and protection functions;
- Work on cooling and heating, the possibility of using non-freezing glycol solutions;
- A wired indoor remote control is standard.
Specifications
Характеристики / Модель | MGC-V5W/D2N1 | MGC-V7W/D2N1 | MGC-V10W/D2N1 | MGC-12W/D2RN1 | MGC-V14W/D2RN1 | MGC-V16W/D2RN1 | MGC-V18W/D2VN1 |
---|---|---|---|---|---|---|---|
Компрессор, тип | DC-Inverter | DC-Inverter | DC-Inverter | DC-Inverter | DC-Inverter | DC-Inverter | DC-Inverter |
Электропитание, В/Гц/Ф | 220/50/1 | 220/50/1 | 220/50/1 | 380/50/1 | 380/50/1 | 380/50/1 | 220/50/1 |
Мощность охлаждения, кВт | 5,0 | 7,0 | 10,0 | 11,2 | 12,5 | 14,5 | 17,0 |
Мощность обогрева, кВт | 6,2 | 8,6 | 11,5 | 13,0 | 15,1 | 16,5 | 18,5 |
Потребляемая мощность при охлаждении, кВт | 1,55 | 2,25 | 2,95 | 3,38 | 3,9 | 4,53 | 5.60 |
Потребляемая мощность при обогреве, кВт | 1,70 | 2,50 | 3,14 | 3,72 | 4,25 | 4,85 | 5.78 |
Макс. расчетный ток, А | 14,6 | 15,6 | 25 | 8,9 | 9,6 | 10,1 | 9.6 |
Тип водяного насоса | RS15/6-3-WILO | RS15/6-3-WILO | RL25/8.5 | RL25/8.5 | RL25/8.5 | RL25/8.5 | RL25/8.5 |
Потребл. мощность водяного насоса, Вт | 93/67/46 | 93/67/46 | 210/175/120 | 210/175/120 | 210/175/120 | 210/175/120 | 210/175/120 |
Напор, м | 5,5 | 5,5 | 8 | 8 | 8 | 8 | 8 |
Номинальный проток., м³/час | 0,86 | 1,20 | 1,72 | 1,92 | 2,15 | 2,49 | 1,72(2,92) |
Гидросопротивление теплообменника, кПа | 15 | 15 | 18 | 18 | 18 | 19 | 23 |
Давл. на входе, макс./мин., кПа | 500/150 | 500/150 | 500/150 | 500/150 | 500/150 | 500/150 | 500/150 |
Диаметр водных портов на входе-выходе, inch | 1 | 1 | 1-1/4” | 1-1/4” | 1-1/4” | 1-1/4” | 1-1/4” |
Хладагент, тип | R410А | R410А | R410А | R410А | R410А | R410А | R410А |
Габариты без упаковки, (ШхВхГ), мм | 990x966x354 | 990x966x354 | 970×1327×400 | 970×1327×400 | 970×1327×400 | 970×1327×400 | 970×1327×400 |
Вес нетто, кг | 81 | 81 | 110 | 110 | 111 | 111 | 112 |
Уровень шума, дБ (А) | 58 | 58 | 59 | 59 | 60 | 60 | 60 |