Mitsubishi Electronics R410A Drainage piping work, Electrical work, Additional refrigerant charge

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4. Installing the refrigerant piping

* The figure to the left is an example only. The stop valve shape, service port po- sition, etc., may vary according to the model.

* Turn section A only.

(Do not further tighten sections A and B together. )

C Charge hose

DService port

Fig. 4-8

Precautions when using the charge valve (Fig.4-8)

Do not tighten the service port too much when installing it, otherwise, the valve core could be deformed and become loose, causing a gas leak.

After positioning section B in the desired direction, turn section A only and tighten it. Do not further tighten sections A and B together after tightening section A.

4.6. Additional refrigerant charge

Refrigerant of 3 kg [6.6 lbs] equivalent to 50 m [165 ft] total extended piping length is already included when the outdoor unit is shipped. Thus, if the total extended piping length is 50 m [165 ft] or less, there is no need to charge with additional refrigerant.

Calculation of Additional Refrigerant Charge

If the total extended piping length exceeds 50 m [165 ft], calculate the required additional refrigerant charge using the procedure shown below.

If the calculated additional refrigerant charge is a negative amount, do not charge with any refrigerant.

<Additional Charge>

Additional

 

Liquid pipe size

 

Liquid pipe size

 

Refrigerant

refrigerant charge

 

Total length of

 

Total length of

 

amount for

 

=

ø9.52 0.06 kg

+

ø6.35 0.024 kg

outdoor unit

 

[3/8" 0.041 lbs]

[1/4" 0.016 lbs]

 

kg

 

(m) 0.06 (kg/m),

 

(m) 0.024 (kg/m),

 

3.0 kg

[lbs]

 

[ft] 0.041 [lbs/ft]

 

[ft] 0.016 [lbs/ft]

 

[6.6 lbs]

 

 

 

 

 

 

 

<Example>

 

 

 

(Please see the lower half of Fig. 4-1.)

 

 

 

Outdoor model : P48

 

 

 

Indoor

 

 

 

1: P24 A: ø9.52 [3/8"] 30 m [98 ft]

a : ø9.52 [3/8"]

15 m [49 ft]

At the

2: P15

b : ø6.35 [1/4"]

10 m [33 ft]

conditions

3: P08

c : ø6.35 [1/4"]

10 m [33 ft]

below:

4: P06

d : ø6.35 [1/4"]

20 m [66 ft]

 

The total length of each liquid line is as follows

ø9.52 [3/8"] : A + a = 30 m + 15 m = 45 m [98 ft + 49 ft = 147 ft]

ø6.35 [1/4"] : b + c + d = 10 m + 10 m + 20 m = 40 m [33 ft + 33 ft + 66 ft = 132 ft] Therefore,

<Calculation example> Additional

refrigerant charge = 45 m 0.06 kg + 40 m 0.024 kg – 3.0 kg = 0.7 kg (rounded up) = [147 ft 0.041 lbs + 132 ft 0.016 lbs – 6.6 lbs = 1.54 lbs]

5. Drainage piping work

Outdoor unit drainage pipe connection

When drain piping is necessary, use the drain socket or the drain pan (option).

Drain socket

Drain pan

P36·P48

PAC-SG61DS-E

PAC-SG64DP-E

6. Electrical work

6.1. Caution

1Follow ordinance of your governmental organization for technical standard re- lated to electrical equipment, wiring regulations and guidance of each electric

power company.

2Wiring for control (hereinafter referred to as transmission line) shall be (5 cm [2 inch] or more) apart from power source wiring so that it is not influenced by elec- tric noise from power source wiring. (Do not insert transmission line and power

source wire in the same conduit.)

3Be sure to provide designated grounding work to outdoor unit.

4Give some allowance to wiring for electrical part box of indoor and outdoor units,

because the box is sometimes removed at the time of service work.

5Never connect the main power source to terminal block of transmission line. If connected, electrical parts will be burnt out.

6Use 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.

7Only the transmission line specified should be connected to the terminal block for outdoor unit transmission.

(Transmission line to be connected with indoor unit : Terminal block TB3 for trans-

mission line, Other : Terminal block TB7 for centralized control) Erroneous connection does not allow the system to operate.

8In case to connect with the upper class controller or to conduct group operation in different refrigerant systems, the control line for transmission is required between the outdoor units each other.

Connect this control line between the terminal blocks for centralized control. (2-

wire line with no polarity)

When conducting group operation in different refrigerant systems without con- necting to the upper class controller, replace the insertion of the short circuit connector from CN41 of one outdoor unit to CN40.

9Group is set by operating the remote controller.

8

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Contents PUMY-P·NHMU -BS Confirmation of parts attached ContentsSafety precautions Installation location When installing multiple outdoor units Ventilation and service spaceWhen installing a single outdoor unit Installing the outdoor unit Installing the refrigerant pipingPrecautions for devices that use R410A refrigerant Windy location installationConnecting pipes Fig Stop valve opening method Refrigerant pipe airtight testing methodRefrigerant piping Fig Additional refrigerant charge Drainage piping workElectrical work Control box and connecting position of wiring Fig Wiring transmission cablesSchematic Drawing of Wiring Example Fig Wiring of main power supply and equipment capacityNET Remote Controller MA Remote Controller Test run Before test runTest run Refrigerant collecting Pump downContenido Confirmación de las piezas incluidasMedidas de Seguridad Cuestiones previas a la instalaciónDimensiones exteriores Unidad exterior Fig Lugar de instalaciónAntes de la instalación eléctrica Antes de realizar las pruebas de funcionamientoCuando instale varias unidades exteriores Ventilación y espacio de servicioCuando se instala una unidad exterior simple Instalación de la unidad exterior Instalación de los tubos del refrigeranteInstalación en lugares expuestos al viento Instalación de la unidad exteriorTubos de conexión Fig Método de abertura de la válvula de retención Tubos de refrigerante FigPrueba de fuga de gas del tubo de refrigerante Tubería de drenaje Trabajo eléctricoCarga adicional de refrigerante CuidadoCaja de control y posición de conexión de los ca- bles Fig Tendido de cables de transmisiónControlador remoto M-NET Controlador remoto MA Dibujo esquemático del cableado ejemplo FigPrueba de funcionamiento Antes de realizar las pruebasPrueba de funcionamiento Recuperación de refrigerante vaciadoAvant l’installation Avant l’installation déplacementIndex Vérification des pièces livréesEmplacement d’installation Avant l’installation électriqueDimensions extérieures Appareil extérieur Fig Avant la marche d’essaiLors de l’installation de plusieurs appareils extérieurs Ventilation et espace de serviceLors de l’installation d’un seul appareil extérieur Installation de l’appareil extérieur Installation de la tuyauterie du réfrigérantInstallation à un endroit exposé au vent Installation de l’appareil extérieurConnexion des tuyaux Fig Ø9,52 3/8 Ø15,88 5/8 C, d, e, f Mm inch Numéro de modèleCouple de serrage 100 120Comment ouvrir la vanne d’arrêt Mise en place des tuyaux de réfrigérant FigTest d’étanchéité des tuyaux de réfrigérant Installations électriques Mise en place du tuyau d’écoulementCharge supplémentaire de réfrigérant PrécautionMise en place des câbles de transmission Commande à distance M-NET Commande à distance MA Schéma du câblage exemple FigUtilisation de la télécommande Marche d’essaiMarche d’essai Récupération du réfrigérant AspirationBG79U872H02

R410A specifications

Mitsubishi Electronics R410A is a highly regarded refrigerant widely used in modern HVAC systems, particularly air conditioning units. This hydrofluorocarbon (HFC) refrigerant has gained popularity due to its environmental benefits and performance characteristics that meet the demands of contemporary cooling solutions.

One of the main features of R410A is its high energy efficiency. The refrigerant operates at a higher pressure compared to its predecessor, R22, which allows for smaller, more compact systems. This higher efficiency translates to lower energy consumption during operation, making R410A an environmentally friendly option that contributes to reducing greenhouse gas emissions. The energy savings not only benefit the environment but also reduce operational costs for end-users.

R410A also boasts excellent cooling capacity. Its thermodynamic properties enable effective heat exchange, making it suitable for various applications ranging from residential air conditioners to commercial chillers. The ability to maintain effective cooling performance even at high outdoor temperatures is a crucial characteristic, especially in warmer climates where high reliability is essential.

In terms of safety, R410A is classified as non-flammable and has a low toxicity level, making it a safer choice for use in both residential and commercial installations. It carries an ozone depletion potential (ODP) of zero, aligning with global efforts to phase out substances that deplete the ozone layer. As such, it complies with various international environmental regulations, ensuring that users are contributing to a sustainable future.

Mitsubishi Electronics integrates advanced technologies in their heating and cooling systems that utilize R410A. Features such as variable speed compressors and advanced control systems optimize performance, enhancing both comfort and energy efficiency. Additionally, the systems are designed to offer quiet operation, catering to users who prioritize noise reduction in their living or working environments.

In conclusion, Mitsubishi Electronics R410A refrigerant presents a combination of high energy efficiency, excellent cooling capacity, and safety attributes, solidifying its role as a vital component in contemporary HVAC technology. By utilizing R410A, Mitsubishi Electronics demonstrates its commitment to sustainability and performance, offering solutions that cater to the diverse needs of consumers while minimizing environmental impact.