Mitsubishi Electric CITY MULTI CMB-WP108NU-AA Manual De Instalación página 10

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[Fig. 5.1.3]

E F

A HBC controller

C To Sub-HBC controller (Hot water)

E To Sub-HBC controller (Cold water)

5.2. Water pipe insulation

1. Connect the water pipes of each indoor unit to the same (correct) end connection

numbers as indicated on the indoor unit connection section of each HBC controller.

If connected to wrong end connection numbers, there will be no normal operation.

2. List indoor unit model names in the name plate on the HBC controller control box

(for identification purposes), and HBC controller end connection numbers and

address numbers in the name plate on the indoor unit side.

In case of using cover caps for unused end connections, please use dezincification resist-

ant brass (DZR) (field supply). Not using the rubber end caps will lead to water leakage.

3. Be sure to add insulation work to water piping by covering water pipework sepa-

rately with enough thickness heat-resistant polyethylene, so that no gap is

observed in the joint between indoor unit and insulating material, and insulating

materials themselves. When insulation work is insufficient, there is a possibility of

condensation, etc. Pay special attention to insulation work in the ceiling plenum.

[Fig. 5.2.1]

A Locally procured insulating material for pipes

B Bind here using band or tape.

D Lap margin: more than 40 mm [1-5/8 in] E Insulating material (field supply)

F Unit side insulating material

•

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

specifications:

HBC controller

20 mm [13/16 in] or more

-indoor unit

HBC controller

20 mm [13/16 in] or more

-Sub-HBC controller

•

This specification is based on copper for water piping. When using plastic

pipework, choose a thickness based on the plastic pipe performance.

•

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.

4. Expansion vessel

•

Install an expansion vessel to accommodate expanded water.

•

Please install expansion vessel at same height level of HBC controller.

Expansion vessel selection criteria:

• The water containment volume of the HBC controller and the indoor unit.

Unit model

HBC controller

PEFY-WL06NMAU

PEFY-WL08NMAU

PEFY-WL12NMAU

PEFY-WL15NMAU

PEFY-WL18NMAU

PEFY-WL24NMAU

PEFY-WL27NMAU

PEFY-WL30NMAU

PEFY-WL36NMAU

PEFY-WL48NMAU

* For other indoor units, refer to the installation manual for each.

B Sub-HBC controller

D From Sub-HBC controller (Hot water)

F From Sub-HBC controller (Cold water)

C Do not leave any opening.

(Unit: L)

Water volume

0.9

1.2

2.1

2.7

3.7

• The maximum water temperature is 60°C [140°F].

• The minimum water temperature is 5°C [41°F].

• The circuit protection valve set pressure is 370-490kPa.

• The circulation pump head pressure is 0.24MPa.

• The design pressure of the expansion vessel is the charged water pressure

(the reading of the pressure gauge).

• Tank volume of expansion vessel is as follows:

Tank volume = ε × G/(1 - (Psupply + 0.1)/0.29) × 1.2

ε = The expansion coefficient of water

(= 0.0171)

* Please choose ε for using antifreeze solution on the type and temperature range

used.

ε = Max density/Min density - 1

G [L] = (HBC controller [L] + Indoor unit [L] + Pipe [L]) × 1.1

Psupply: Water supply pressure [MPa]

5. Leakproof the water pipework, valves and drain pipework. Leakproof all the way

to, and include pipe ends so that condensation cannot enter the insulated pipe-

work.

6. Apply caulking around the ends of the insulation to prevent condensation getting

between the pipework and insulation.

7. Add a drain valve so that the unit and pipework can be drained.

8. Ensure there are no gaps in the pipework insulation. Insulate the pipework right

up to the unit.

9. Ensure that the gradient of the drain pan pipework is such that discharge can

only blow out.

10. HBC controller water pipe connection sizes and pipe sizes.

[Fig. 5.2.2]

Connection size

Model name

Water inlet

PEFY-WL06-18

NMAU-A

O.D. 22 mm

PEFY-WL24-48

NMAU-A

* For other indoor units, refer to the indoor unit installation manual.

* The pipe diameter depends on the capacity of indoor units.

Refer to the indoor unit installation manual for details.

[Fig. 5.2.3]

Total down-stream

Pipe size between Main-HBC and Sub-HBC

indoor unit capacity

WL06 - WL36

WL37 - WL72

WL73 - WL108

WL109 - WL144

WL145 - WL180

WL181 - WL200

Fig. A

Fig. B

A To outdoor unit

B End connection (brazing)

C Main-HBC controller

D Sub-HBC controller

E Indoor unit

F Branch joint (field supply)

G Up to three units for 1 branch hole; total capacity: below 30 (but in same mode,

cooling/heating)

H Shutoff valve (field supply)

I Pressure control valve (field supply)

J Auto air vent valve (Highest point on the water pipe for each branch) (field supply)

K Water pipework

L Pump 1 circuit

M Pump 2 circuit

Pipe size

Water outlet

Water out

Water return

I.D. ≥ 20 mm

[13/16 in]

O.D. 22 mm

I.D. ≥ 30 mm

[1-3/16 in]

I.D. ≥ 20.0 mm

I.D. ≥ 25.8 mm

I.D. ≥ 30.0 mm

I.D. ≥ 33.3 mm

I.D. ≥ 36.2 mm

I.D. ≥ 36.8 mm

10 11

13 14 15 16

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Mitsubishi Electric CITY MULTI CMB-WP108NU-AA Manual De Instalación página 10

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