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SELECTION A line-up of three product groups that addresses a wide range of needs. SELECT LOSSNAY Select the most appropriate model according to factors such as the shape of the building and ventilation requirements. LGH SERIES Ceiling-concealed Nine models (1 m 3 /h) LGH SERIES Ceiling-suspended 4m 3 /h LGH-1 to 1RX-E Applications: Stores, Schools, Etc. / airflow control Can be controlled using separately sold mechanical switches VL SERIES Wall-mounted 1m 3 /h LGH-1 and RX-E Applications: Offices, Stores, Etc. total heat-exchange Excellent airflow control (Extra,, and Extra ) Multi-ventilation Mode Can be interconnected with other Mitsubishi Electric air conditioners Exclusive ssnay remote-control system Mr. Slim remote controller can be used for some systems Application: Prefabricated offices (container houses), Residences, Etc. / airflow control Pull-string switch SELECT OPTIONS Remote controller (PZ-6DR-E) - filter 1 8-Language dot-matrix display Weekly timer Source power requirement Number of LOSSNAY units controlled by PZ-6DR-E 1 1 13 Power received from a LOSSNAY unit, TM4 19 Number of filters Applicable model per set PZ-RFM PZ-3RFM PZ-RFM PZ-6RFM PZ-8RFM PZ-1RFM LGH-1RX-E, LGH-RX-E LGH-3RX-E LGH-RX-E LGH-6RX-E LGH-8RX-E, LGH-1RX-E (sets) LGH-1RX-E, LGH-RX-E (sets) Incorporation into the main unit is simple, and filter changes can be performed via the main unit inspection. Filter material Non combustible fiber (Polyester polyolefin) (EU-F7) * Options listed above are exclusively for LGH-_RX-E models. 14
LOSSNAYSYSTEM ssnay ventilation systems are renowned industry-wide for their. They offer environment-friendly energy recovery and humidity control, and enable air conditioning systems to simultaneously provide optimum room comfort and energy savings. One Adult Needs 4 Litres (Equivalent to Two Barrels) of Fresh Air Every Hour In everyday life, occasionally there are times you might feel out of breath, for example, when you re in a closed room or a crowded train. This is because the air becomes carbon-rich; that is, the carbon dioxide (CO) that people exhale accumulates in closed spaces, thereby increasing the carbon gas density. The average person exhales about litres of carbon-rich gas per hour. If there is no ventilation, the carbon gas density increases in the room as the oxygen density decreases, and various problems could occur. To live comfortably, every person needs a surprising 4 litres of fresh air per hour; a volume equivalent to two large barrels. Main Gaseous Contaminants Found Indoors Contaminant Name Carbon Monoxide Sulfurous Gases (sulfur oxide) Nitrous Gases Nitric oxide Nitrogen dioxide Carbon Dioxide Gas Bad Odours Chemical Formula CO SO NO NO CO Harm Causes severe damage to the body Damages the body; causes asthma; reacts with metals, generates rusting Direct harm to the body is unclear; becomes NO when bound with oxygen, causes indirect harm; irritates the throat and lungs, possibly causing serious damage. No direct harm unless the gas is very dense Bad odours found inside residences do not cause serious damage health-wise, but may create discomfort Source: An Introduction to Home Environment Studies. S. Fuji, Shoukokusha Publications Oxygen density and deficiency disorders Normal air density 1% Safety limit (ppm) 4 3 3 1 1 1 1 Increase in breath and pulse rate, headaches, queasiness, nausea Dizziness, nausea, muscular weakness (Potentially fatal) Facial pallor, unconsciousness, vomiting Coma (Death within 8 minutes) Respiratory arrest, convulsions, death 6% 1% 8% 1% Oxygen density 18% 16% Ventilation and Change in Amount of CO Exhaled Before 1 smoking Window closed Window open After 1 3 4 6 7 8 9 smoking Smoking time (min) Ventilation Supporting Both Heating and Cooling When using a ventilating system, indoor air that has been heated or cooled escapes causing the room to become cold in winter or hot in summer. As the heated/cooled air dissipates, the environment becomes uncomfortable, precious energy and money are wasted, and the increasing amount of contaminated indoor air that needs to be ventilated turns into a major problem. The reason for this phenomenon is that heating/cooling and ventilation have an incompatible relationship that is inversely proportional. For air conditioning, Mitsubishi Electric proposes heating and cooling systems that provide effective ventilation at the same time. Energy escapes during ventilation More energy used to maintain room temperature Heating/cooling results Inverse relationship Ventilation becomes necessary Facility maintenance costs increase Ventilation volume Contamination occurs Ventilation is sacrificed 141
Simple Construction, Performance That s ssnay Air Ventilation Simple Construction As shown in the illustration, the ssnay element design adopts a cross-flow shape and plate-fin construction that enables total heat exchange using specially processed paper dividers and interval plates. Since the dividers separate the intake and exhaust passages, fresh air is always inducted without mixing with exhaust air. Indoor-air supply (fresh heating/cooling air) Divider (specially processed paper) Indoor Outdoor Outdoor air outlet (dirty indoor-air expelled) Outdoor-air intake (fresh air) Operating Principle The ssnay element skillfully provides total heat exchange temperature (i.e., sensible heat) and humidity (latent heat) using specially processed paper dividers and moisture permeability characteristics; enabling dirty indoor-air to be expelled outside and fresh outdoor-air to be inducted inside, passing through the ssnay without ever mixing. The principle can be explained by a simple experiment. Roll a sheet of paper into a tube shape and blow through it. The warmth of the air is transferred to your hand, and conversely, if cold air is blown through the tube, the coldness would be transferred to your hand. The same special properties of the paper are used for the ssnay total heat exchanger. What are Sensible Heat and Latent Heat? Sensible heat is the heat resulting from temperature changes (i.e., rise/fall) in a substance, and latent heat is that which is generated or dissipates according to changes in the state of a substance (e.g., evaporation, condensation, etc.). Temperature (sensible heat) exchange Thermal conduction and heat transfer through the divider in all temperature ranges. Humidity (latent heat) exchange Water vapor transference through the divider in all temperatures ranges based on differences in water vapor pressure. Indoor-air intake (dirty heating/cooling air) Interval plate (specially processed paper) Comfortable Air Ventilation Regardless of Being Hot or Cold In summer Temperature difference between air supply and room: 1.7 C In winter About 4kg/h of water vapor is recovered. Supply air Dry bulb temperature (ºC) LOSSNAY 7.7 Conventional ventilator 33 Supply air Dry bulb temperature (ºC) LOSSNAY 16 Conventional ventilator Absolute humidity (g/kg'(da)) Relative humidity 13.4 8.1 63 Exhaust air Absolute humidity (g/kg'(da)) Relative humidity. 46 1.9 Exhaust air (kj/kg(da)) 6.1 84.6 (kj/kg(da)) 9. 4.7 Total heat recovered (kw) 7. Total heat recovered (kw) 8. Outdoor air load (kw) 3.1 1.6 Outdoor air load (kw) 3.1 11.3 Outdoor air load ratio 9 1 Outdoor air load ratio 7 1 Room air Outdoor air Room air Outdoor air Dry bulb temperature 6ºC Dry bulb temperature 33ºC Dry bulb temperature ºC Dry bulb temperature ºC Air conditioner Absolute humidity Relative humidity 1.g/kg'(DA) % Absolute humidity.1g/kg'(da) Relative humidity 63% Air conditioner Absolute humidity Relative humidity 7.3g/kg'(DA) % Absolute humidity Relative humidity 1.9g/kg'(DA) %.9kJ/kg(DA) 84.6kJ/kg(DA) 38.kJ/kg(DA) 4.7kJ/kg(DA) Energy-recovery calculating equation Indoor supply-air = Outdoor Outdoor Indoor Temp recovery temperature ( C) temperature ( C) { temperature ( C) temperature ( C) } Calculation example: 7.7 C=33 C (33 C 6 C) 76% *The above applies to the case of LGH-1RX ( fan speed). Energy-recovery calculating equation Indoor supply-air = Indoor Outdoor Temp recovery + Outdoor temperature ( C) { temperature ( C) temperature ( C) } temperature ( C) Calculation example: 16 C=( C C) 8%+ C Other Features ssnay provides better air ventilation because air is inducted and expelled concurrently, thereby offering more efficient operation than traditional air ventilation (exhaust ventilation only). Exhaust air If air is not supplied, the air pressure in the room drops and the entire space is not properly ventilated. If ssnay is used Supply air Exhaust air By inducting and expelling air concurrently, ssnay constantly provides sufficient ventilation and maintains a good air environment indoors. 14
Mr. Slim & ssnay Interconnected Ventilation Systems -quality Air Conditioning Systems Fusing Comfort and Economy Mr. Slim Outdoor Unit Mr. Slim Indoor Unit Mr. Slim A-control Remote Controller ssnay Six Major Merits of Interconnected Ventilation Systems Problems Indoor-air is contaminated by odour, dust, etc. Air induction is insufficient, resulting in insufficient ventilation. Heating/Cooling airflow doesn t reach foot level Conditioned air expelled outside with exhaust air running cost Separate switches for air conditioner and ventilation systems makes operation troublesome Detailed zone-by-zone operation not possible Air conditioner and ventilation fan operation noise annoying Outside traffic noise annoying Maintenance such as changing the filter is difficult Merits Efficient, fresh-air ventilation Comfortable airflow Energy-saving ventilation Control with a single remote controller Quiet operation 1-year no-maintenance filter CO Sensor The system allows you to measure CO density and thereby control the amount of fresh air supplied. By connecting a CO sensor to the connector CN16, which is added to the LOSSNAY main unit, the setting can be switched to,, or Extra operation, which is selected when the sensor is turned ON. This system produces additional energy conservation. CO density Fan speed COSensor CO density Fan speed Extra- COSensor Air volume can be set using a pin position. To force fan speed externally CO sensor, etc. (When CO increases: Closed) SW1 SW1: fan speed operation switch (When closed: For fan speed operation) Remote display adaptor (Optional) PAC-88HA-E Brown 1 Red Orange 3 Yellow 4 Green Not used. Insulate completely. Max wiring 1 m LOSSNAY control board CN16 Fan speed/ Ventilation mode selection When SW1 is ON, fan speed of the LOSSNAY will be set to (Extra-) regardless of the remote control setting. Use this in such a way that it ventilates at or Extra- fan speed normally, and when the external sensor detects contamination of indoor air, it changes to (Extra ) fan speed operation. One Remote Controller for All Operations Control both Mr. Slim and ssnay units with a single controller, the new MA Remote Controller. Compared to conventional air conditioning and ventilation systems that require a separate remote controller for each unit, operation is greatly simplified. A variety of features are incorporated, such as a Ventilation Changeover Switch for independent operation of the ssnay when running for long periods of time. Mr. Slim Air Conditioners Connectable with ssnay Ventilation Units PAR-3MAA Type Name Type Name Ceiling Cassette (4-way) PLA-BA/SLZ-KA Ceiling PCA-KAQ/HAQ Ceiling-concealed PD-JA/P-GAQ Wall-mounted PKA-HA/KA SEZ-KD Floor-standing P-GA * The wired remote controller must be set before it can be used to operate individual ssnay units. 143
System Example Connection Method A-control Mr. Slim outdoor unit Slim-ssnay connection cable (enclosed accessory) Slim-ssnay connection cable (enclosed with ssnay unit).mm to 1mm sheathed PVC cable A-control Mr. Slim indoor unit ssnay unit LGH-RX-E ssnay external control input TM Mr. Slim CNL indoor unit A-control remote controller m No more than ssnay Function Table (Interlocked settings) Item Number of indoor units that can be set to interlocked operation with 1 ssnay unit in each group Number of ssnay units that can be set to interlocked operation with 1 indoor unit Operation of ssnay unit only (When indoor unit is stopped) Independent ssnay unit start and stop (When indoor unit is operating) 1 unit 1 unit Possible Not possible Details Delayed operation (Optional setting) Fan speed switching Ventilation mode Filter indicator Error indicator Restrictions and precautions 3 minute delayed operation when indoor unit cooling/heating is started /* Automatic None None The ssnay remote controller cannot be used for systems interlocked with Mr. Slim. * Cannot select extra-low fan speed when using the MA Remote Controller. Controller Function Table for ssnay Units Switched and display : Group only (or function available) : Not available cal remote MA Remote Controller ssnay Remote Controller PAR-1MAA PAR-3MAA PZ-6DR-E Start/Stop Operation Fan speed switching (/)* Ventilation mode switching Priority instructions cal permitted/prohibited (Automatic) (Automatic) Monitoring Status (Operation/Stop) Fan speed switching (/) Ventilation mode Error indicator Error content Cannot be used with interlocked ssnays Filter sign cal permitted/prohibited * Cannot select extra-low fan speed when using the MA Remote Controller. 144
Specifications / Dimensions LGH-1RX-E LGH-1RX-E Power Supply (V/Phase/Hz) -4 / Single / Extra-Hi.44-.46 96-11 Hi.37-.38 8-9.-. 3-9 Extra-.14-.1 3-3 Extra-Hi.4-.46 97-11 Hi.37-.38 81-91.-.6 4-61 Extra-.14-.1 3-3 1 1 11 7 1 1 11 7 (L/s) 4 4 31 19 4 4 31 19 (mmho) 1.-1.7 6.6-7.1 3.6-4.1 1.4 1.-1.7 6.6-7.1 3.6-4.1 1.4 () 1-1 6-7 3-4 14 1-1 6-7 3-4 14 Temperature Efficiency 8. 8. 84. 8. Efficiency Heating 7. 7. 77. 81. Cooling 73. 73. 76. 81. (measured at 1.m under the center 7.-8 6.-7-3. 18 8.-9 7-8 3-4 18-19.8A *The air outlet noise (4 o angle,1. meters in front of the unit) is about 1dB higher than the indicated value at high fan speed. 9 8 7 6 m mh O 3 1 1 3 1 1 Hz/Single-phase, V (Heating) (Cooling) 1 1 1mm m 1m 1m m 9 8 7 6 mmh O 3 1 1 3 1 1 Hz/Single-phase, 4V 1 1 (Heating) (Cooling) 1mm m 1m 1m m 73 3 More than 6 1 ~ 13 1 1 768 78 78 (4-13x oval) 13 Core, air filter, high- 6 6 73 9 3 - filter (sold separately) 1 3 4 6 7 1 3 4 6 7 3 97. 11 LGH-RX-E LGH-RX-E Power Supply (V/Phase/Hz) -4 / Single / Extra-Hi Hi Extra- Extra-Hi Hi Extra-.-. 113-19.47-.48 1-114.6-.7 6-6.17-.18 36-4.3-. 11-131.47-.48 13-11.6-.7 6-63.17-.18 36-4 (mmho) 8.-8.7.1-6.1 1 -. 1.9 8.-8.7.1-6.1 1 -. 1.9 (L/s) () 69 8-8 69-6 43-9 9 69 8-8 69-6 43-9 9 Temperature Efficiency.. 81. 83. Efficiency Heating 69. 69. 74. 77. Cooling 68. 68. 7. 76. (measured at 1.m under the center of apanel in an anechoeic chamber) 6-7 -6-1. 18-19 6.-7..-6..- 18-19.9A *The air outlet noise (4 o angle,1. meters in front of the unit) is about 1dB higher than the indicated value at high fan speed. 9 8 7 6 mmh O 1 1 1 1 1 (Heating) (Cooling) Hz/Single-phase, V 1 1 3 3 3 4 6 7 8 9 1 4 1 4m 3m m 1m 9 8 7 6 mmh O 1 1 P a 1 1 1 1 Hz/Single-phase, 4V (Heating) 3 (Cooling) 1 3 4 6 7 8 9 3 1 4 1 4m 3m m 1m 73 3 More than 6 1 ~ 3 1 768 78 (4-13x oval) Core, air filter, high 1 6 3 73 - filter (sold separately) 63 78 63 14 16 6 9 14
LGH-3RX-E LGH-3RX-E Power Supply (V/Phase/Hz) -4 / Single / Extra-Hi.9-.9 19-1 Hi.74-.74 16-169.-.1 1-116 Extra-.8-.3 8-69 Extra-Hi.93-.94 197-17 Hi.77-.77 164-173.1-. 1-116 Extra-.8-.3 8-69 Air volume 3 3 1 11 3 3 1 11 (L/s) 97 97 8 3 97 97 8 3 (mmho) 1.8-16.3 7.6-8..-3.1.9 1.8-16.3 7.6-8..-3.1.9 () 1-16 7-8 -3 9 1-16 7-8 -3 9 Temperature Efficiency 8. 8. 8. 88. Efficiency Heating 71. 71. 76. 81. Cooling 71. 71. 7. 81. (measured at 1.m under the center 3-3 8.-9. 1.-3 18 3.-3. 9.-3. 1.-4 18 9.4A *The air outlet noise (4 o angle,1. meters in front of the unit) is about 1dB higher than the indicated value at high fan speed. 9 8 Hz/Single-phase, V (Heating) 9 8 Hz/Single-phase, 4V (Heating) 14 87 (4-13x oval) 8 7 3 7 3 6 m m H O 3 1 1 P a 3 1 1 (Cooling) Extra low 1 1 3 3 4 4 1mm 3m m 1m 6 mm H O 3 1 1 3 1 1 (Cooling) 1 1 3 3 4 4 1mm 3m m 1m Core, air filter, high 874 6 More than 6 1~ 14 64 91 888 64 8 31 - filter (sold separately) 14 16 9 LGH-RX-E 4 6 8 1 1 14 4 6 8 1 1 14 LGH-RX-E Power Supply (V/Phase/Hz) -4 / Single / Extra-Hi Hi Extra- Extra-Hi Hi Extra- 1.-1. 1.-1..8-.8.4-.4 1.-1. 1.-1..8-.8.4-.4-86 7-8 17-19 8-9 6-9 1-3 18-19 8-9 39 18 39 18 (L/s) 139 139 18 139 139 18 (mmho) 1.3-1.8 6.6-9. 4.1-6.1 1. 1.3-1.8 6.6-9. 4.1-6.1 1. () 1-1 6-9 4-6 1 1-1 6-9 4-6 1 Temperature Efficiency 78. 78. 81. 86. Heating 69. 69. 71. 78. Cooling 66. 66. 68. 77. (measured at 1.m under the center 33-34 3.-3 6.-8 19 34-3 31-3. 7-9 19 3 3.A *The air outlet noise (4 o angle,1. meters in front of the unit) is about 16dB higher than the indicated value at high fan speed. Hz/Single-phase, V Hz/Single-phase, 4V 9 14 9 87 6 8 4 8 4 7 3 3 Temperature exchange exchange (Heating) 7 3 3 (Heating) 6 mmh O 3 1 1 3 1 1 1 3 4 (Cooling) 6 7 mm 6m m 4m 3m m 1m 6 mmh O 3 1 1 (Cooling) 3 1 1 1 3 4 6 mm 6m m 4m 3m m 1m 7 Core, air filter, high 116 74 More than 6 1~ 14 888 163 6 31 3 - filter (sold separately) 19 8 9 4 6 8 1 1 14 16 18 4 6 8 1 1 14 16 18 3 Air filters(eu-g3) 146
LGH-6RX-E LGH-6RX-E Power Supply (V/Phase/Hz) -4 / Single / Extra-Hi 1.7-1.8 3-38 Hi 1.-1. 38-3 1.-1. 48-6 Extra-.6-.6 1-14 Extra-Hi 1.7-1.8 3-38 Hi 1.-1. 31-33 1.-1. -6 Extra-.6-.6 1-14 6 6 6 6 6 6 (L/s) 181 181 144 74 181 181 144 74 (mmho) 11.-1. 6.1-8. 4.1-.1.8 11.-1. 6.1-8. 4.1-.1.8 () 11-1 6-8 4-8 11-1 6-8 4-8 Temperature Efficiency 77. 77. 8. 86. Heating 68. 68. 7. 78. Cooling 66. 66. 68. 77. (measured at 1.m under the center 34-34. 3-33 8.-31. 34.-3 3.-33. 8.-3. -. 4 4.4A *The air outlet noise (4 o angle,1. meters in front of the unit) is about 1dB higher than the indicated value at high fan speed. 9 8 Temperature Hz/Single-phase, V exchange 9 8 Hz/Single-phase, 4V 133 89 (4-13x oval) 7 7 6 mmh O 4 4 3 3 1 1 4 4 3 3 1 1 exchange exchange (Cooling) (Heating) 1 3 4 6 7 8 9 mm m 4m 3m m 1m 7 6 mmho 4 4 3 3 1 1 4 4 3 3 1 1 1 3 (Heating) exchange (Cooling) 4 6 7 8 9 mm 6m m 4m 3m m 1m Core, air filter, high 94 69 More than 6 1~ 133 98 11 7 - filter (sold separately) 19 8 386 9 LGH-8RX-E 7 1 1 1 17 7 1 1 1 17 LGH-8RX-E Power Supply (V/Phase/Hz) -4 / Single / Extra-Hi Hi Extra- Extra-Hi Hi Extra- 1.7-1.7 38-41 1.6-1.6 34-37 1.4-1.4 31-34.6-.6 1-14 1.7-1.7 38-41 1.6-1.6 34-37 1.4-1.4 31-34.6-.6 1-14 (mmho) 8 14.8-1.3 8 1.7-1. 7 8.-9.7 3 8 14.8-1.3 8 1.7-1. 7 8.-9.7 3 (L/s) () 14-1 1-1 194 8-9 99 14-1 1-1 194 8-9 99 Temperature Efficiency.. 8. 87. Heating 71. 71. 7.. Cooling 7. 7. 71.. (measured at 1.m under the center 33.-34. 3-33 3-31 34.-3. 33-34 31-3 3 3.8A *The air outlet noise (4 o angle,1. meters in front of the unit) is about 16dB higher than the indicated value at high fan speed. 9 8 7 6 mmh O 4 3 1 4 3 1 Hz/Single-phase, V exchange (Heating) (Cooling) 4 6 8 1 1 6 mm 1m 8m 6m 4m m 9 8 7 m mh O 4 3 1 4 3 1 Hz/Single-phase, 4V exchange (Cooling) 4 6 (Heating) 8 1 1 mm 1m 8m 6m 4m m Core, air filter, high 14 69 More than 6 1~ 16 16 389 399 11 (4-1x oval) 136 1144 - filter (sold separately) 4 8 9 1 1 3 3 1 1 3 3 Air filters(eu-g3) 147
LGH-1RX-E LGH-1RX-E Power Supply (V/Phase/Hz) -4 / Single / Extra-Hi Extra- Extra-Hi Hi Extra-.3-.4-3.1-.1 44-47 1.7-1.7 3-38.9-.9 17-.3-.4 1-.1-.1 46-48 1.7-1.7 36-39.9-.9 17- (mmho) 1 16.3-17.3 1 1.-11. 7.6-6.1 41 1.8 1 16.3-17.3 1 1.-11. 7.6-6.1 41 1.8 (L/s) () 78 16-17 78 1-11 1-6 11 18 78 16-17 78 1-11 1-6 11 18 Temperature Efficiency 8. 8. 83. 87. Heating 7. 7. 74. 8. Cooling 71. 71. 73.. (measured at 1.m under the center 36-37 34-3 31-3. 1-37-38 3-36 3-33 1-9 4.6A *The air outlet noise (4 o angle,1. meters in front of the unit) is about 17dB higher than the indicated value at high fan speed. 9 8 Hz/Single-phase, V 9 8 Hz/Single-phase, 4V (Heating) 16 11 (4-1x oval) 7 6 mm H O 4 3 1 4 3 1 (Heating) (Cooling) mm 1m 8m 6m 4m m 4 6 8 1 1 14 4 6 8 7 6 mmh O 4 3 1 4 3 1 (Cooling) 1 1 14 mm 1m 8m 6m 4m m Core, air filter, high 131 917 More than 6 1~ 16 163 1144 399 - filter (sold separately) 4 8 9 1 LGH-1RX-E Power Supply (V/Phase/Hz) 1 3 3 (L/s) (mmho) () Temperature Efficiency Heating Cooling (measured at 1.m under the center 4 1 1 3 3 Extra-Hi Hi 3.-3. 3.-3..9-.9 76-83 69-74 63-68 1 1 13 417 417 361 16.3-17.8 13.3-13.8 9.7-1. 16-17 13-13 9-1 8. 8. 81. 7. 7. 7. 7. 7. 71. 38-39 36-37. 33.-3 Core, air filter, high LGH-1RX-E -4 / Single / 1 7.3A *The air outlet noise (4 o angle,1. meters in front of the unit) is about 19dB higher than the indicated value at high fan speed. 9 8 7 6 (m mh O) 4 3 1 () 4 3 1 (Heating) (Cooling) Hz/Single-phase, V 1 1 1 3 4 6 7 9 8 7 6 (m mh O) 4 3 1 () 4 3 1 Hz/Single-phase, 4V (Heating) (Cooling) 1 1 1 3 4 6 7 4 14 69 More than 6 7 7 1~ 7 44 11 1144 (4-1x3 oval) 69 14 7 - filter (sold separately) 4 8 399 8 11 Extra-Hi Hi 3.-3. 3.-3..9-.9 76-83 69-74 63-68 1 1 13 417 417 361 16.3-17.8 13.3-13.8 9.7-1. 16-17 13-13 9-1 39-4. 37.-39 3.-37 4 8 148
LGH-RX-E Power Supply (V/Phase/Hz) (L/s) (mmho) () Temperature Efficiency Heating Cooling (measured at 1.m under the center Extra-Hi Hi 4.8-4.8 4.-4. 3.4-3.4 13-11 91-98 71-78 18 6 6 439 16.3-16.8 1.-1.7 6.1-6.6 16-16 1-1 6-6 8. 8. 83. 7. 7. 73. 71. 71. 7. 39.-4 37-38 3.-34 LGH-RX-E -4 / Single / 118 11.9A *The air outlet noise (4 o angle,1. meters in front of the unit) is about db higher than the indicated value at high fan speed. Extra-Hi Hi 4.8-4.8 4.-4. 3.4-3.4 14-111 91-98 7-78 18 6 6 439 16.3-16.8 1.-1.7 6.1-6.6 16-16 1-1 6-6 4.-41 38-39 33.-3 9 8 7 6 4 4 (Heating) (Cooling) Hz/Single-phase, V 9 8 7 6 4 4 (Heating) (Cooling) Hz/Single-phase, 4V 131 917 7 7 11 (4-1x3 oval) 917 17 11 (m mh O) 3 1 () 3 1 1 1 (m mh O) 3 1 () 3 1 1 1 Core, air filter, high More than 6 1~ 44 1144 399 8 - filter (sold separately) 7 4 8 1 3 4 6 7 1 3 4 6 7 7 LGH-4ES-E Supply Power Supply Power Consumption Temperature Recovery Voltage Frequency Recovery Efficiency Noise Weight (W) (V) (Hz) (m 3 Efficiency (db(a)) (kg) /h) (L/s) Heating Cooling 1-phase Hi 13-146 4 111 6 4 4 41-43 ~4 8-9 69 66 4 48 3-34 *The value of noise was measured at an anechoic chamber. it may vary depending on the room structure, building materials or the way the main was installed. 4 8 Hz 8 7 6 Temperature recovery recovery (Heating) 1 3 (Supply air ) (Return air) Ceiling suspension fixture (4 pcs.) 17. 4 () recovery (Cooling) 3 1 1 3 4 Air volume 98 9 terminal (Outside-air (Exhaustair outlet) block intake) * cord 6 at the top 84 9 * cord 49 693 68 Control Switch (PZ-3SLP-E) 1..4 116 6. Power lamp Fan speed selector switch 1 Power switch Terminal board Switch box 117 149
VL-1EU-E VL-1U-E 1 cover_b.indd 1 13.1.17 :7:9 PM