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11

7.2. Test run

7.2.1. Using remote controller

Refer to the indoor unit installation manual.

• Be sure to perform the test run for each indoor unit. Make sure each indoor

unit operates properly following the installation manual attached to the unit.

• If you perform the test run for all indoor units at once, you cannot detect any

erroneous connection, if any, of the refrigerant pipes and the connecting wires.

* The compressor operation is not available for 3 minutes at least after the

power is supplied.

• The compressor can emit noise just after turn on the power supply or in case

of low outside air temperature.

About the restart protective mechanism

Once the compressor stops, the restart preventive device operates so the compres-
sor will not operate for 3 minutes to protect the air conditioner.

7.2.2. Using SW3 in outdoor unit

Note:
In case of the test run from outdoor unit, all indoor units operate. Therefore,
you can not detect any erroneous connection of refrigerant pipes and the con-
necting wires. If it aims at detection of any erroneous connection, be sure to
carry out the test run from remote controller with reference to “7.2.1 Using
remote controller”.

SW3-1

ON

Cooling operation

SW3-2

OFF

SW3-1

ON

Heating operation

SW3-2

ON

* After performing the test run, set SW3-1 to OFF.
• A few seconds after the compressor starts, a clanging noise may be heard from the

inside of the outdoor unit. The noise is coming from the check valve due to the small
difference in pressure in the pipes. The unit is not faulty.

The test run operation mode cannot be changed by DIP switch SW3-2 during
the test run. (To change the test run operation mode during the test run, stop
the test run by DIP switch SW3-1. After changing the test run operation mode,
resume the test run by switch SW3-1.)

7. Test run

7.3. Refrigerant collecting (Pump down)

Before removing air conditioners for transfer to another location, always close the
stop valve (for both liquid and gas pipes) located at the outdoor unit, then remove the
indoor and outdoor units. At this time, the refrigerant in the indoor unit will be dis-
charged. To minimize the refrigerant discharged, a pump down operation is required.
This operation collects the refrigerant present inside the air conditioner and sends it
into the heat exchanger located in the outdoor unit.

Pump down procedure

1

Operate all indoor units in cooling mode and check that the operation mode has
changed to “COOL”. (Set the units so that cooling operation mode is activated
during the pump down operation (when the TEST RUN button is pressed).)

2

Connect a gauge manifold valve (with pressure gauge) to the stop valve of the
gas pipe, to enable measurement of refrigerant pressure.

3

After setting the outdoor service switch SW3-2 to OFF, set the switch SW3-1 to
ON. (The unit will start in cooling mode.)

4

After the cooling operation has been carried out for approximately five minutes,
set the outdoor service switch SW2-4 (pump down switch) from OFF to ON.

5

Close the stop valve on the liquid pipe, with the cooling operation still ON. (Pump
down operation will start.)

6

When the reading of the pressure gauge reaches 0 to 0.1 MPa [14.5 PSIG] or
when approximately 5 minutes have elapsed following the start of the pump down
operation, fully close the stop valve on the gas pipe and stop the air conditioner
by setting the switch SW3-1 to OFF immediately.

7

Set the outdoor service switch SW2-4 from ON to OFF.

8

Remove the gauge manifold valve and put the cap back onto each stop valve.

Note:

1

Never carry out pump down operation if the amount of refrigerant inside
the indoor unit is larger than the amount of charge-less refrigerant.
Carrying out a pump down operation when the amount of refrigerant ex-
ceeds the amount of charge-less refrigerant will cause an extreme pres-
sure rise and may result in an accident.

2

Do not continue to operate for a long time with the switch SW2-4 set to ON.
Make sure to switch it to OFF after pump down is completed.

3

Test run can be carried out when the test run switch SW3-1 is ON.  Switch
SW3-2 is used to operating mode selection. (On: Heating, OFF: Cooling)

4

Time required for a pump down operation is three to five minutes after the
stop valve on the liquid pipe has been closed. (It depends on the ambient
temperature and amount of refrigerant inside the indoor unit.)

5

Ensure that the reading of the pressure gauge does not drop below 0 MPa
(0 PSIG). If it drops 0 MPa [0 PSIG] (i.e. vacuum is created), air will be drawn
into the unit if there are any loose connections.

6

Even if the reading of the pressure gauge does not drop below 0 MPa [0
PSIG], always stop the pump down operation within approximately five min-
utes after the stop valve on the liquid pipe has been fully closed.

7.1. Before test run

s

After completing installation and the wiring and piping of the indoor and
outdoor units, check for refrigerant leakage, looseness in the power supply
or control wiring, wrong polarity, and no disconnection of one phase in the
supply.

s

Use a 500-volt M-ohm tester to check that the resistance between the power
supply terminals and ground is at least 1 M

.

s

Do not carry out this test on the control wiring (low voltage circuit) termi-
nals.
 Warning:

Do not use the air conditioner if the insulation resistance is less than 1 M

.

Insulation resistance

After installation or after the power source to the unit has been cut for an extended
period, the insulation resistance will drop below 1 M

 due to refrigerant accumulat-

ing in the compressor. This is not a malfunction. Perform the following procedures.
1. Remove the wires from the compressor and measure the insulation resistance of

the compressor.

2. If the insulation resistance is below 1 M

, the compressor is faulty or the resist-

ance dropped due the accumulation of refrigerant in the compressor.

3. After connecting the wires to the compressor, the compressor will start to warm

up after power is supplied. After supplying power for the times indicated below,
measure the insulation resistance again.

The insulation resistance drops due to accumulation of refrigerant in the com-
pressor. The resistance will rise above 1 M

 after the compressor is warmed

up for four hours.
(The time necessary to warm up the compressor varies according to atmos-
pheric conditions and refrigerant accumulation.)

To operate the compressor with refrigerant accumulated in the compressor,
the compressor must be warmed up at least 12 hours to prevent breakdown.

4. If the insulation resistance rises above 1 M

, the compressor is not faulty.

 Caution:

The compressor will not operate unless the power supply phase connection
is correct.

• Turn on the power at least 12 hours before starting operation.

- Starting operation immediately after turning on the main power switch can result in

severe damage to internal parts. Keep the power switch turned on during the op-
erational season.

s

The followings must be checked as well.

• The outdoor unit is not faulty. LED on the control board of the outdoor unit flash

when the outdoor unit is faulty.

• Both the gas and liquid stop valves are completely open.

Summary of Contents for PUMY-P36NHMU

Page 1: ...l MANUAL DE INSTALACIÓN Para un uso correcto y seguro lea detalladamente este manual y el manual de instalación de la unidad interior antes de instalar la unidad de aire acondicionado PARA EL INSTALADOR For use with R410A Français MANUEL D INSTALLATION Avant d installer le climatiseur lire attentivement ce manuel ainsi que le manuel d installation de l appareil intérieur pour une utilisation sûre ...

Page 2: ...frig erant and do not allow air to remain in the lines Air enclosed in the lines can cause pressure peaks resulting in a rupture and other hazards Use only accessories authorized by Mitsubishi Electric and ask a dealer or an authorized technician to install them If accessories are incorrectly in stalled water leakage electric shock or fire may result Do not alter the unit Consult a dealer for repa...

Page 3: ... or moisture enters the refrig erant lines refrigeration oil deterioration may result Do not use a charging cylinder If a charging cylinder is used the composi tion of the refrigerant will change and the efficiency will be lowered 2 Installation location 2 1 Refrigerant pipe Refer to Fig 4 1 2 2 Choosing the outdoor unit installation location Avoid locations exposed to sources of heat Select a loc...

Page 4: ... 500 mm 19 11 16 inch or more 6 Obstacles at rear sides and above only Fig 2 7 Do not install the optional air outlet guides for upward airflow 2 4 2 When installing multiple outdoor units Leave 10 mm 13 32 inch space or more between the units 1 Obstacles at rear only Fig 2 8 2 Obstacles at rear and above only Fig 2 9 No more than three units must be installed side by side In addition leave space ...

Page 5: ... on site Warning The unit must be securely installed on a structure that can sustain its weight If the unit is mounted on an unstable structure it may fall down and cause damage or injuries The unit must be installed according to the instructions in order to minimize the risk of damage from earthquakes typhoons or strong winds An incor rectly installed unit may fall down and cause damage or injuri...

Page 6: ...ring of R410A refrigerant pipes The size adjustment gauge can be used to confirm A measurements A mm inch Å Liquid pipe ı Gas pipe PUMY ø9 52 3 8 ø15 88 5 8 B C D mm inch Ç Total capacity of indoor units Å Liquid pipe ı Gas pipe ø9 52 3 8 ø15 88 5 8 a b c d e f mm inch Î Model number Å Liquid pipe ı Gas pipe P06 P08 P12 P15 P18 ø6 35 1 4 ø12 7 1 2 P24 P30 P36 P48 P54 ø9 52 3 8 ø15 88 5 8 Branch ki...

Page 7: ... surrounding temperature and refrigerant pressure 3 If the specified pressure holds for about one day and does not decrease the pipes have passed the test and there are no leaks If the surrounding temperature changes by 1 C 1 8 F the pressure will change by about 0 01 MPa 1 5 PSIG Make the necessary corrections 4 If the pressure decreases in steps 2 or 3 there is a gas leak Look for the source of ...

Page 8: ...s sometimes removed at the time of service work 5 Never connect the main power source to terminal block of transmission line If connected electrical parts will be burnt out 6 Use 2 core shield cable for transmission line If transmission lines of different systems are wired with the same multiplecore cable the resultant poor transmit ting and receiving will cause erroneous operations 6 Electrical w...

Page 9: ...the transmission cable terminal block of the indoor unit IC that has the most recent address within the same group to the terminal block on the remote controller RC d Connect together terminals M1 M2 and terminal S on the terminal block for central control TB7 for the outdoor unit OC e The jumper connector CN41 on the control panel does not change f Connect the terminal S on the terminal block for...

Page 10: ...r than breaker and fuse with correct capacity Using fuse and wire or copper wire with too large capacity may cause a malfunction of unit or fire 30 A 30 mA 0 1 sec or less 30 A 5 3 AWG10 5 3 AWG10 Indoor Unit Main Cable 2 Minimum Wire Thickness mm2 AWG Breaker for Current Leakage Model Outdoor Unit P36 P48 Breaker for Wiring 1 Ground 6 Electrical work Thickness of Wire for Main Power Supply and On...

Page 11: ...manifold valve and put the cap back onto each stop valve Note 1 Never carry out pump down operation if the amount of refrigerant inside the indoor unit is larger than the amount of charge less refrigerant Carrying out a pump down operation when the amount of refrigerant ex ceeds the amount of charge less refrigerant will cause an extreme pres sure rise and may result in an accident 2 Do not contin...

Page 12: ...220 y tubos de aleación de cobre sin costuras para conectar los tubos del refrigerante Si los tubos no se co nectan correctamente la unidad no estará bien puesta a tierra y puede pro vocar descargas eléctricas Utilice sólo cables especificados para el cableado Las conexiones se deben realizar con seguridad sin corriente en los terminales Si los cables no están bien conectados o no se han instalado...

Page 13: ...n refrigerante R22 Sustituya las tuercas de abocardado existentes y vuelva a abocardar las seccio nes abocardadas No use tuberías de poco grosor Consulte la página 15 Almacene las tuberías que se deban instalar en el interior y mantenga los orificios tapados hasta el momento de instalarlas Deje las juntas articula das y otras piezas en sus embalajes Si el polvo los restos o la humedad entran en la...

Page 14: ...ólo en la parte trasera y superior Fig 2 9 No se deben instalar más de tres unidades correlativas Además se debe dejar el espacio indicado No utilice las guías para salida de aire opcionales para corriente de aire hacia arriba 3 Obstáculos sólo en la parte delantera Fig 2 10 Si utiliza una guía para salida de aire opcional el espacio libre deberá ser de 1000 mm 39 3 8 inch o más 4 Obstáculos sólo ...

Page 15: ...le con otro tipo de refrigerante y vacíe completamente de aire los tubos El aire que quede en los tubos puede provocar picos de presión que causarían su rotura y otros daños Tipo de unidad interior P06 P18 P24 P54 Tubo de líquido ø6 35 mm 1 4 inch ø9 52 mm 3 8 inch grosor 0 8 mm 1 32 inch grosor 0 8 mm 1 32 inch Tubo de gas ø12 7 mm 1 2 inch ø15 88 mm 5 8 inch grosor 0 8 mm 1 32 inch grosor 1 0 mm...

Page 16: ...te Cuando utilice un sellador de tubos normal consulte la Tabla 1 para abocardar tuberías para refrigerante R410A Para confirmar las medidas de A se puede utilizar el ajustador del tamaño A mm inch Å Tubo de líquido ı Tubo de gas PUMY ø9 52 3 8 ø15 88 5 8 B C D mm inch Ç Capacidad total de las unidades interiores Å Tubo de líquido ı Tubo de gas ø9 52 3 8 ø15 88 5 8 a b c d e f mm inch Î Número de ...

Page 17: ...n no se ha reducido 3 Presurice a 3 8 MPa 550 PSIG y tome la temperatura ambiental y la presión del refrigerante 3 Si la presión especificada se mantiene estable durante un día y no se reduce las tuberías han pasado la prueba y no existe riesgo de fugas Si la temperatura ambiental cambia 1 C 1 8 F la presión variará unos 0 01 MPa 1 5 PSIG Haga las correcciones necesarias 4 Si la presión se reduce ...

Page 18: ...uando se realiza el trabajo de man tenimiento 5 No conecte nunca la fuente principal de energía al bloque de terminal de la línea de transmisión Si está conectado las piezas eléctricas se quemarán 6 Use cable blindado de dos almas para la línea de transmisión Si las líneas de transmisión de sistemas diferentes están conectados con los mismos cables de varias almas la pobre transmisión y recepción ...

Page 19: ...s IC que no sea el de IC máster IC máster debe ser secuencial Unidad exterior de 51 a 100 Ajuste la dirección más reciente de las unidades interiores en el mismo sistema de refrigeración 50 La dirección se establece automáticamente en 100 si se configura como 01 50 M NET R C máster de 101 a 150 Ajuste la dirección IC máster 100 M NET R C subordinada de 151 a 200 Ajuste la dirección IC máster 150 M...

Page 20: ... fuga de tierra Si no se instala un disyuntor de fuga de tierra puede producirse un electroshock Use los fusibles y el disyuntor con la capacidad correcta Si emplea un fusible o cable con demasiada capacidad puede haber una disfunción de la unidad o incluso puede producirse un incendio 6 Trabajo eléctrico Grosor del cable para el suministro principal de energía y capacidades on off 6 4 Cableado de...

Page 21: ...cio exterior SW2 4 de ON a OFF 8 Extraiga la válvula distribuidora del medidor y vuelva a colocar el tapón a cada válvula de parada Notas 1 Nunca realice el vaciado si la cantidad de refrigerante del interior de la unidad interior es superior a la cantidad de refrigerante no cargado Si realiza este procedimiento cuando la cantidad de refrigerante es supe rior a la cantidad de refrigerante sin carg...

Page 22: ...duire N utiliser que les câbles spécifiés pour les raccordements Les connexions doi vent être correctement effectuées sans tension sur les bornes Si les câbles ne sont pas correctement connectés ou installés une surchauffe ou un incendie peut se produire Le couvercle du bloc de sortie de l appareil extérieur doit être solidement fixé S il n est pas correctement installé et si des poussières et de ...

Page 23: ...éléphoniques Une mise à la terre incorrecte de l appareil peut provoquer un choc électrique Utiliser des coupe circuits disjoncteur de fuite à la terre interrupteur d isolement fusi ble B et disjoncteur à boîtier moulé à la capacité spécifiée Si la capacité du coupe circuit est supérieure à celle spécifiée une défaillance ou un incendie peut se produire Ne pas toucher les interrupteurs les mains h...

Page 24: ...s Espacer également les appareils comme illustré Ne pas utiliser les guidages de sortie d air en option pour un débit d air vers le haut 3 Obstacles uniquement à l avant Fig 2 10 Lors de l utilisation d un guidage de sortie d air en option le jeu est de 1000 mm 39 3 8 inch minimum 4 Obstacles uniquement à l avant et à l arrière Fig 2 11 Lors de l utilisation d un guidage de sortie d air en option ...

Page 25: ...mélanger avec un autre réfrigérant et faire le vide d air dans les tuyaux La présence d air dans les tuyaux peut provoquer des pointes de pression entraînant une rupture et d autres risques Type d appareil intérieur P06 P18 P24 P54 Conduit de liquide ø6 35 mm 1 4 inch ø9 52 mm 3 8 inch épaisseur 0 8 mm 1 32 inch épaisseur 0 8 mm 1 32 inch Conduit de gaz ø12 7 mm 1 2 inch ø15 88 mm 5 8 inch épaisse...

Page 26: ...e d huile réfrigérante application sur site Si un procédé d étanchéité traditionnel est utilisé pour les tuyaux se reporter au tableau 1 pour l évasement des tuyaux de réfrigérant R410A La jauge de réglage de la taille peut être utilisée pour confirmer les mesures A A mm inch Å Conduit de liquide ı Conduit de gaz PUMY ø9 52 3 8 ø15 88 5 8 B C D mm inch Ç Puissance totale des appareils intérieurs Å...

Page 27: ...nt ou d être endommagé à cause d une infiltration d eau et de poussières A Vanne d arrêt côté liquide B Vanne d arrêt côté gaz C Orifice pour l entretien D Section d ouverture fermeture E Tuyau local A Couvercle de la tuyauterie avant B Couvercle de la tuyauterie C Vanne d arrêt D Panneau de service E Rayon de cintrage 100 mm 150 mm F Hermétique idem pour le côté gaz G Fourrure du tuyau H Ne pas u...

Page 28: ...5 Ne jamais raccorder la source d alimentation principale au bloc terminal de la ligne de transmission car cela brûlerait les composants électriques 6 Utiliser un câble blindé à deux fils comme ligne de transmission Si les lignes de trans mission des différents systèmes devaient être reliées par le même câble à fils multi ples la transmission et la réception seraient mauvaises ce qui conduirait à ...

Page 29: ...eils extérieurs OC e Le cavalier CN41 du panneau de commande ne change pas f Raccorder la borne S du bloc de sorties du contrôle centralisé de l unité d alimentation à la borne de terre du boîtier des composants électriques g Régler les commutateurs d adresses comme indiqué ci dessous 6 Installations électriques 2 Câbles de la télécommande M NET Type de câble de télécommande Diamètre du câble Rema...

Page 30: ...ce coupe circuit n est pas installé il peut y avoir danger d électrocu tion Ne jamais utiliser de coupe circuits ou de fusibles autres que ceux possédant la valeur adéquate L utilisation de fusibles et de fils fils en cuivre surdimensionnés risque de provoquer un mauvais fonctionnement de l appareil voir un incendie 6 Installations électriques Section des câbles pour l alimentation principale et c...

Page 31: ...la vanne collective à jauge et remettre le capuchon en place sur chacune des vannes d arrêt Remarque 1 Ne jamais procéder au pompage si la quantité de réfrigérant dans l appareil inté rieur est supérieure à la quantité de réfrigérant sans charge supplémentaire Le pompage lorsque la quantité de réfrigérant dépasse la quantité de réfrigérant sans charge provoquera une forte augmentation de pression ...

Page 32: ... on this manual before handing it to the customer This product is designed and intended for use in the residential commercial and light industrial environment HEAD OFFICE TOKYO BLDG 2 7 3 MARUNOUCHI CHIYODA KU TOKYO 100 8310 JAPAN Printed in Japan BG79U872H02 ...

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