Bell Sports PQRY-P72-96TGMU-A installation manual Wiring, Thermal insulation of refrigerant piping

Page 12

GB

9.4. Thermal insulation of refrigerant piping

Be sure to give insulation work to refrigerant piping by covering high press. (liquid) pipe and low press. (gas) pipe separately with enough thickness heat-resistant polyethylene, so that no gap is observed in the joint between indoor unit and insu- lating material, and insulating materials themselves. When insulation work is insuf- ficient, there is a possibility of condensation drip, etc. Pay special attention to insu- lation work to ceiling plenum.

[Fig. 9.4.1] (P.4)

A

Steel wire

B

Piping

C

Asphaltic oily mastic or asphalt

D

Heat insulation material A

EOuter covering B

Heat

Glass fiber + Steel wire

insulation

Adhesive + Heat - resistant polyethylene foam + Adhesive tape

material A

 

 

Outer

Indoor

Vinyl tape

Floor exposed

Water-proof hemp cloth + Bronze asphalt

covering B

Heat source

Water-proof hemp cloth + Zinc plate + Oily paint

 

Note:

When using polyethylene cover as covering material, asphalt roofing shall not be required.

No heat insulation must be provided for electric wires.

[Fig. 9.4.2] (P.4)

A

High press. pipe

B

Low press. pipe C Electric wire

D

Finishing tape

E

Insulator

[Fig. 9.4.3] (P.4)

Penetrations

[Fig. 9.4.4] (P.4)

<A> Inner wall (concealed)

<B> Outer wall

<C> Outer wall (exposed)

<D> Floor (waterproofing)

<E> Roof pipe shaft

<F> Penetrating portion on fire limit and boundary wall

A Sleeve

B Heat insulating material

C Lagging

D Caulking material

E

Band

F

Waterproofing laye

G

Sleeve with edge

H

Lagging material

IMortar or other incombustible caulking

JIncombustible heat insulation material

When filling a gap with mortar, cover the penetration part with steel plate so that the insulation material will not be caved in. For this part, use incombustible materi- als for both insulation and covering. (Vinyl covering should not be used.)

Insulation materials for the pipes to be added on site must meet the following specifications:

 

Pipe size

 

ø6.35 to 25.4 mm [1/4 to 1 in]

ø28.58 to 38.1 mm [1-1/8 to 1-1/2 in]

Thickness

10 mm min. [13/32 in min]

15 mm min. [19/32 in min]

Temperature Resistance

100 °C [212 °F] min.

*Installation of pipes in a high-temperature high-humidity environment, such as the top floor of a building, may require the use of insulation materials thicker than the ones specified in the chart above.

*When certain specifications presented by the client must be met, ensure that they also meet the specifications on the chart above.

10. Wiring

10.1. 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 or more [2 in or more]) apart from power source wiring so that it is not influenced by electric 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 heat source unit.

4Give some allowance to wiring for electrical part box of indoor and heat source 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 trans- mitting and receiving will cause erroneous operations.

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

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

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

8In the case of connecting with an upper class controller or to conduct group operation in different refrigerant systems, the control line for transmission is required between the heat source units.

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 heat source unit to CN40.

9Group is set by operating the remote controller.

10.2.Control box and connecting position of wiring

1.Connect the indoor unit transmission line to transmission terminal block (TB3), or connect the wiring between heat source units or the wiring with the central control system to the central control terminal block (TB7).

When using shielded wiring, connect shield ground of the indoor unit transmis-

sion line to the ground screw () and connect shield ground of the line be- tween heat source units and the central control system transmission line to the

shield (S) terminal of the central control terminal block (TB7) shield (S) termi- nal. In addition, in the case of heat source units whose power supply connector CN41 has been replaced by CN40, the shield terminal (S) of terminal block

(TB7) of the central control system should also be connected to the ground screw ().

Fix the wiring securely in place with the cable strap at the bottom of the termi- nal block so that the external force if not applied to the terminal block. External force applied to the terminal block may damage the block and short-circuit, ground fault, or fire may result.

[Fig. 10.2.1] (P.4)

A Power source

B Transmission line

CGround screw

2.Conduit mounting plates (ø27 [1-3/32 in]) are being provided. Pass the power supply and transmission wires through the appropriate knock-out holes, then remove the knock-out piece from the bottom of the terminal box and connect the wires.

3.Fix power source wiring to terminal box by using buffer bushing for tensile force (PG connection or the like).

4.Narrow the opening by using a conduit to keep small animals out.

10.3. Wiring transmission cables

1Types of control cables

1. Wiring transmission cables

Types of transmission cables: Shielding wire CVVS or CPEVS or MVVS

Cable diameter: More than 1.25 mm2 [AWG16]

Maximum wiring length: Within 200 m [656 ft]

Maximum length of transmission lines for centralized control and indoor/out- door transmission lines (Maximum length via indoor units): 500 m [1640 ft]

MAX

The maximum length of the wiring between power supply unit for transmission lines (on the transmission lines for centralized control) and each outdoor unit and system controller is 200 m [656 ft].

2. Remote control cables

M-NET Remote Controller

Kind of remote control cable

Sheathed 2-core cable (unshielded)

Cable diameter

0.3 to 1.25 mm2 [AWG22 to 16]

 

(0.75 to 1.25 mm2 [AWG18 to 16])*

 

When 10 m [32ft] is exceeded, use cable with

Remarks

the same specifications as 1. Wiring transmis-

 

sion cables.

 

 

• MA Remote Controller

 

 

 

Kind of remote control cable

Sheathed 2-core cable (unshielded) CVV

Cable diameter

0.3 to 1.25 mm2 [AWG22 to 16]

 

(0.75 to 1.25 mm2 [AWG18 to 16])*

Remarks

Within 200 m [656ft]

*Connected with simple remote controller.

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Contents PQRY-P72·96TGMU-A = 8 m 26 ft Side piping Top pipingUnit mm 55 ~High press Low press ¬ Liquid pipe Gas pipe Ø15.88 5/8 Ø9.52 3/810.2 10.3 10.4Contents Safety precautionsSpecifications Before getting installedBefore installation electrical work About the productInstallation of unit and service space Water pipe installationConfirmation of parts attached Lifting methodRefrigerant piping installation Pump interlockRefrigerant piping system Additional refrigerant charge Calculation of additional refrigerant chargeAirtight test, evacuation, and refrigerant charging Airtight testOnly use refrigerant R410A EvacuationWiring Control box and connecting position of wiringWiring transmission cables Thermal insulation of refrigerant pipingWiring examples Transmission boosterWiring of main power supply and equipment capacity Test runInformation on rating plate Following phenomena do not represent trouble emergencyTable des matières Consignes de sécuritéAvant de procéder à l’installation Avant de procéder à l’installation élec- triqueAvant d’effectuer l’essai Installation de l’appareil et espace de service Le produitAssociation aux appareils intérieurs Vérification des pièces livréesInstallation du tuyau d’eau Précautions à prendre pendant l’instal- lationMise en place de l’isolation Traitement de l’eau et contrôle de la qualité de l’eauInstallation des tuyaux de réfrigérant PrécautionSystème de mise en place des tuyaux de réfrigérant Faites très attention lors de l’utilisation d’outilsCharge supplémentaire de réfrigérant Calcul de la charge supplémentaire de réfrigérantNe pas utiliser de liquide de détection de fuite Test d’étanchéité à l’air10. Câblage Isolation thermique des tuyaux de ré- frigérant10.1. Précaution Types de câbles de commande Commande à distance M-NETCommande à distance MA Mise en place des câbles de transmis- sionAuxiliaire de transmission Schéma du câblage exempleInformations sur la plaque signalétique Essai de fonctionnementPage Page WT04680X01

PQRY-P72-96TGMU-A specifications

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