Irfts Easy roof m-1 evolution User manual

Information and Non-contractual visuals. Subject to technical change without notice.

This document is the property of IRFTS. It shall not be reproduced or shared with third party without agreement IRFTS

For :

Residential, Commercial, Public building, Agricultural and Industrial roofs

INS-INO2-14-O255 Version 1.3 29/07/14

Document validated by NEW TECHNICAL SURVEY No. L14CC0075

The EASY ROOF system is insured provided that the modules have approvals IEC 61215 and IEC 61730

INSTALLATION INSTRUCTIONS

EASY ROOF

Model "M-1" EVOLUTION

For module 60 cells - 6" LANDSCAPE

See the module on compatibility at www.irfts.com

Applicable to instructions marked with "M-1 "

Information and Non-contractual visuals. Subject to technical change without notice.

This document is the property of IRFTS. It shall not be reproduced or shared with third party without agreement IRFTS

Table of Contents

1. Nomenclature .................................................................................................................................................4

1.1. Parts provided in the kit ..........................................................................................................................4

1.2. Parts not provided in the kit....................................................................................................................4

1.3. Presentation of Easy-Roof kit parts .........................................................................................................5

1.4. Presentation assembly principle..............................................................................................................6

2. Marking of parts..............................................................................................................................................6

3. Under lay film..................................................................................................................................................6

4. Illustration of possible assembly combinations ............................................................................................7

4.1. Possibility of shifting modules in the direction of the rake.....................................................................8

5. Parts to be prepared prior to kit assembly....................................................................................................9

6. PV module grounding ....................................................................................................................................10

7. Dimension of the photovoltaic field.......................................................................................................... 11-12

7.1. Dimension of the area to be untiled.................................................................................................... 13-14

8. Technical definition of the installation and dimension of the EASY ROOF Evolution support ...................15

8.1. Normal area, current part installation, lower edge, lateral edge and roof angle .....................16

8.2. Seaside area, current part installation, lower edge, lateral edge and roof angle .....................17

8.3. Snow pressure normal area and seaside, installation of all roof areas..................................................18

9. Easy-Roof system assembly instructions ......................................................................................................20

9.1. PV array centered on rake

9.1.1. Removal of tiles ........................................................................................................................20

9.1.2. Definition of bottom flashing support batten ...........................................................................20

9.1.3. Positioning the reference support batten .................................................................................21

Installation of bottom flashing support batten .........................................................................21

9.1.4. Installation of the bottom flashing............................................................................................22

9.2. PV array placed at the gutter/eave

9.2.1. Removal of tiles ........................................................................................................................23

9.2.2. Position of the flooing at the gutter/eave.................................................................................23

9.2.3. Specific position of the reference support batten for PV field at the gutter/eave...................24

9.2.4. Installation of the bottom metal sheet .................................................................................25 à 28

9.3. Flooring installation for all PV field installation ..................................................................................29

9.3.1. Installation of the battens for assembly of 4 and 6 fixing brackets ..........................................30

9.3.2. Intallation of leaning battens ....................................................................................................31

9.4. Installation of the system EASY ROOF Evolution..................................................................................32

9.4.1. Installation of the system EASY ROOF Evolution.......................................................................32

9.4.2. Installation and fixing of the frames and middle brackets....................................................33 à 38

9.4.3. Installation and fixing of left flashings.................................................................................... 39-40

9.4.4. Installation and fixing of right flashings.................................................................................. 41-42

9.4.5. Installation of of the system EASY ROOF Evolution................................................................ 43-44

9.5. Installation of the photovoltaic modules .......................................................................................... 45-46

9.5.1. Grounding ...............................................................................................................47

9.6. Put back the tiles around the PV field ....................................................................................................48

Model "M-1" 60 Cells 6" Landscape

Information and Non-contractual visuals. Subject to technical change without notice.

This document is the property of IRFTS. It shall not be reproduced or shared with third party without agreement IRFTS

Table of Contents

3 Model "M-1" 60 6 Cells "Landscape

Annex 1 Pyramid assembly ..............................................................................................................................49 à 55

Annex 2 Lateral Edge metal sheet definition ................................................................................................56

Annex 3 Tile’s alignment over the Top Flashing....................................................................................... .57 à 58

Annex 4 Connection of electric cables and grounding…………………………………… ………………59 à 62

Annex 5 Installation on long slope ……………………………………………………… ………………………………………………….63 à 67

Information and Non-contractual visuals. Subject to technical change without notice.

This document is the property of IRFTS. It shall not be reproduced or shared with third party without agreement IRFTS

Installation guide for building integration system Easy-Roof IRFTS

(1) See module compatibility list with M-1 format.

(2) Choose the length of screw to be used according to the PV module thickness .

(3) Dimensions of these support batten can vary according to the design of the roof structure and the

geographical zone of the building site, see table p. 17 to 19. These support batten will have to be same

thickness as the tiles batten .

(4) Dimensions of this bottom flashing batten can vary according to the roof slope , see table p. 14.

(5) For installation at the gutter.

(6) From 2m slope above the pv field.

Number Description Item Number

1 Frame M-1 Evolution

P001MV40 ... ( * )

2 Left flashing M-1 Evolution

P002MV40 ... ( * )

3 Right flashing M-1 Evolution

P003MV40 ... ( * )

Top Deflector M-1 Evolution (6) P004MV40 ... ( * )

5 Simple fixing clamp Evolution

A001V40

Double fixing clamp Evolution (1) A002V40

Double (large) fixing clamp Evolution (1) A009V40

Double Bracket Evolution A004V40

9 Single bracket Evolution

A003V40

10 Stainless steel rounded end screw 6x40 - A2

V003V02

clamp screw M6 x 40 stainless steel - A2 (module from 40 to 50) (2) V013V02

clamp screw M6 x 30 stainless steel - A2 (module from 30 to 40) (2) V012V02

13 EASY ROOF mounting tool M-1

OUT003V01

Double fixing black clamp Evolution (1) A002V40N

Double (large) black fixing clamp Evolution (1) A009V40N

16 Simple fixing blackclamp Evolution

A001V40N

17 Simple black bracket Evolution

A003V40N

18 Lateral frieze 30/15

F001V40

* : Coding changes according to chosen material

Parts provided in the kit

Optional Parts

Number Description

a Countersunk Screw six lobes 5x60 Stainless Steel A2 (wood)

b Counter sunk Head Screws six lobes 5x30 Stainless Steel A2 (flashings)

c Bottom flashing/Skirt

d Batten 250x27 (3)

e Batten 30x27 (3)

f Batten40x15 (create a belever) (4)

g Batten 150x18 (4)

k Batten 180x18 (solin) (4)

m Bottom metal sheet (5)

Parts not supplied in the kit

1.1)

1.2)

4 Model "M-1" 60 6 Cells "Landscape

Information and Non-contractual visuals. Subject to technical change without notice.

This document is the property of IRFTS. It shall not be reproduced or shared with third party without agreement IRFTS

Representation of parts

2 3

8 9

1.3)

5 Model "M-1" 60 6 Cells "Landscape

Top flashing included in

the frame

Information and Non-contractual visuals. Subject to technical change without notice.

This document is the property of IRFTS. It shall not be reproduced or shared with third party without agreement IRFTS

(Exploded View)

Part markings

P001MV40...(*) frame

P002MV40...(*) Left flashing

P003MV40...(*) Right flashing

P004MV40...(*) Top deflector

* : Codification can change according to the choice of the material

Roofing felt / Roofing underlay

We impose the installation of a roofing felt / roofing underlay before the

installation of the system of integration EASY ROOF.

This roofing felt/roofing underlay must comply with local regulation

1lateral flashing by frame height1.4)

6 Model "M-1" 60 6 Cells "Landscape

Information and Non-contractual visuals. Subject to technical change without notice.

This document is the property of IRFTS. It shall not be reproduced or shared with third party without agreement IRFTS

Use different flashings depending on the configuration

of the PV field

Multiple combination for clearing the roof window or chimney

PANEL

Chim

ney

Roof

window

PANEL

X column

Line 1

7 Model "M-1" 60 6 Cells "Landscape

Information and Non-contractual visuals. Subject to technical change without notice.

This document is the property of IRFTS. It shall not be reproduced or shared with third party without agreement IRFTS

Model "M-1" 60 6 Cells "Landscape

4.1) Possible shift of panels vertically

Shift with constant step

Variable shift

step

Support batten End clamp and bracket

Middle

clamp and

bracket

Frame

End clamp and bracket

Information and Non-contractual visuals. Subject to technical change without notice.

This document is the property of IRFTS. It shall not be reproduced or shared with third party without agreement IRFTS

Parts to prepare before assembling the kit

2) Middle clamp preparation.

1) Preparation of frames

1) Remove the six centering wedge which are located within the frame.

2) Remove the high frieze support which is indimension the frame.

3) For an installaiton with 6-bracket per module, remove the plug in the center of the frame.

4) For all frames except those placed on top of the PV field, remove the plug for the middle bracket

passage.

PV module width ≤ 985

986 ≤ PV module width ≤ 994

995 ≤ module width ≤ 1001

Pre-mount a centering wedge in the slides of each middle clamp (6).

Select the model of module centering wedge according to the module width.

For a PV module length < or equal to 992 mm, LARGE middle clamp must be used.

9 Model "M-1" 60 6 Cells "Landscape

4 4

Information and Non-contractual visuals. Subject to technical change without notice.

This document is the property of IRFTS. It shall not be reproduced or shared with third party without agreement IRFTS

Several solutions are possible for carrying out grounding:

a) Connect the wire grounded directly to the PV module.

b) Connect the ground wire to one middle bracket (8) for two PV modules.

b1) The connection between the PV module and

the mounting bracket connected to the earth is

done using the middle clamp. (See Installation

on page 47 of this document)

Middle clamp

b2) It is possible to make the link between the

PV module and the middle bracket (8)

connected to ground using a claw. (See

manufacturer documentation)

Preparation of the grounding of the PV modules6)

(View with local section)

Claw on the PV module

10 Model "M-1" 60 6 Cells "Landscape

Information and Non-contractual visuals. Subject to technical change without notice.

This document is the property of IRFTS. It shall not be reproduced or shared with third party without agreement IRFTS

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16

X size 1787 3488 51116 68126 8591 10292 11993 13694 15395 17096 18797 20498 22199 23900 25601 16360

Number of modules in width with standard lateral flashings

E.g.: (1701 x 12) (2 x 43) = 12280

Dimensions of the PV field

(Visible part of installation)

PV field centered on rake direction

X= 1701 x Nbx + (2 x 43)

Lateral eave installation

X= 1701 x Nbx + (2 x 55)

Nbx : Number of columns of PV module

Field width (mm)

Dimension of the photovoltaic field

dimension X

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16

X MINI size 1811 3512 5213 6914 8615 10316 12017 13718 15419 17120 18821 20522 22223 23924 25625 27326

Number of modules in width with assembly to lateral edges

E.g.: (1701 x 12) (2 x 55) = 20522

a) Common installation (with tiles on both side)

b) Edge installation (no tiles on each side)

1) Calculate the width of the visible field

a1) Find the position of the PV field

With profiled tiles dimension B must be positioned on hollow tiles.

40 mm MAXI

1701 mm x Nbx

43mm

40 mm MAXI

1701 mm x Nbx

dimension B (B> X)

43 mm

dimension X

55 mm MINI

55 mm MINI 1701 mm x Nbx

dimension

X MINI

Model "M-1" 60 6 Cells "Landscape

NOTE: see drawings

page 55

Information and Non-contractual visuals. Subject to technical change without notice.

This document is the property of IRFTS. It shall not be reproduced or shared with third party without agreement IRFTS

dimension

7178

Number of

modules in height

System vertical step

Warning : Please check

the PV module

compatibilty list on :

www.irfts.com

Dimension Y

1020

1058

2078

3098

4118

5138

6158

E.g.: (1020 x (3-1)) 956 102 = 3098

Dimensions of the PV field

(Visible part of installation)

2) Calculate the height of the visible field

b) Determination the dimension Y

Dimension of the visible field

= dimension Y + dimension A

a) a) Determination of dimension A (Bottom flashing batten)

The « C » dimension is the Minimum batten width necessary to avoid

reverse slope on the bottom flashing. It’s possible to use a wider

batten, this will simply raise up the PV field

Example:

Dimension of the photovoltaïc field

PV field centered on rake direction

Gutter / eave installation

Step : Step of the system in rake direction, see table below

Nby : Number of line of PV module

Field height (mm)

Y= Step x (Nby-1) + 956 + 102

Roof inclination (°)

Minimum batten width C dimension

(mm)

Mini A dimension

(mm)

10 to 12 250 260

13 to 16 220 230

17 to 19 180 190

20 to 24 150 160

25 to 50 120 130

Model "M-1" 60 6 Cells "Landscape

NOTE: For adjusting the tiles above the PV field, it may be necessary to increase

dimension A to raise the field (see Annexe 3 on p. 57-58).

Adjustment of tiles

above the PV field

Information and Non-contractual visuals. Subject to technical change without notice.

This document is the property of IRFTS. It shall not be reproduced or shared with third party without agreement IRFTS

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16

L size 2089 3790 5491 7192 8893 10594 12295 13996 15697 17398 19099 20800 22501 24202 25903 27604

Number of modules in width with standard lateral flashings

E.g.: (1701 x 12) (2 x 194) = 20800

PV field centered on rake direction

L= 1701 x Nbx + (2 x 194)

Lateral eave installation

L= 1701 x Nbx + (2 x 25)

Nbx : Number of columns of PV module

Field width (mm)

Dimension of the photovoltaïc field

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16

L MINI size 1811 3512 5213 6914 8615 10316 12017 13718 15419 17120 18821 20522 22223 23924 25625 27326

Number of modules in width with assembly of lateral edges

E.g.: (1701 x 12) (2 x 55) = 20522

a) Common installation (with tiles on both side)

b) Edge installation (no tiles on each side)

1) Calculate the width of system dimensions to be installed

Dimensions of Easy Roof system

(with flashings)

7.1)

1701 1701 194194

194 1701

The length of the support batten d* is equal to

the dimension L + a sufficient length on each side

to lean on the rafter exterior to the frame.

dimension L

* Reference nomenclature

55 mm MINI

55 mm MINI 1701 mm x Nbx

dimension L

MINI

Model "M-1" 60 6 Cells "Landscape

NOTE: see

drawings page 56

Information and Non-contractual visuals. Subject to technical change without notice.

This document is the property of IRFTS. It shall not be reproduced or shared with third party without agreement IRFTS

7411

Number of

modules in height

System vertical step

Warning : Please check

the PV module

compatibilty list on :

www.irfts.com

H size

1020

1291

2311

3331

4351

5371

6391

E.g.: (1020 x (3-1)) 956 335 = 3331

a) Determination of dimension A (Bottom flashing batten)

The « C » dimension is the Minimum batten width necessary to

avoid reverse slope on the bottom flashing. It’s possible to use a

wider batten, this will simply raise up the PV field.

2) Calculation of the overall height of the installed system

b) Determination of dimension H

Dimensions of Easy Roof system

(with flashings)

7.1)

field size with flashings =

dimension H + dimension A

PV field centered on rake direction

H= Step x (Nby-1) + 956+335

Gutter/ eave installation

H= Step x (Nby-1) + 956+335

Step : Step of the system in rake direction, see table below

Nby : number of line of PV module

Field height (mm)

Dimension of the photovoltaïc field

Example:

Roof inclination (°)

Minimum batten

width C dimension

(mm)

Mini A

dimension

(mm)

10 to 12 250 260

13 to 16 220 230

17 to 19 180 190

20 to 24 150 160

25 to 50 120 130

Model "M-1" 60 6 Cells "Landscape

NOTE: For a PV field positioned at the ridge, it is

possible to shorten the upper frames of 80 mm MAXI

row. (See Appendix p. 58)

dimen

sion H

dimen

sion A

Information and Non-contractual visuals. Subject to technical change without notice.

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Model "L-1" 60 Cells 6" Portrait

(Technical definition)

15 Model "L-1" 60 Cells 6" Portrait

The selection and sizing of support battens (wood reinforcements) of the EASY-ROOF system is based on the

type of roof structure. The EASY ROOF system only installs on roofs with slopes ranging from 10 ° to 50 °,

buildings must be closed (closed roof).

Using the following tables, define the dimensional values of the support battens you can use for assembly.

Define the wood and number of brackets / table of depression " by 8.1 and 8.2 ". Verified against the snow

zones " by 8.3 ".

The number of bracket points for PV panels may vary from 4 to 6 depending on the boards that have been

selected for the Installation of the PV field and/or the implantation field (roof edge, sea side...)

The values in the table below apply only to geographic zones 1 through 4 of the snow and wind regulation

according to standard NF EN 1991-1-4 and for an altitude of less than 900m. For zone 5. a technical and feasibility

study must be carried out on a case by case basis.

It is important to follow these dimension instructions.

The maximum admissible loads are :

Upward :

With 4 brackets per module : 3700 Pa

With 6 brackets par module : 5540 Pa

downward :

With 4 brackets per module : 3900 Pa

With 6 brackets par module : 5850 Pa

Note that the warranty can only be applied if the Installation was carried out in accordance with procedures

prescribed in this manual and various annexe rules to which it could refer.

In the case of a PV field of more than 12 m in height in the direction of the slope, it is mandatory to place

horizontal deflectors (perpendicular to slope) between the PV modules (max 15m).

COMPATIBILITY MODULE

Ensure that the model of PV module selected for installation is in the compatibility list established by

IRFTS (www.irfts.com).

For the installation of the EASY ROOF system on a building housing an intensive livestock or located on

the sea side, it is mandatory that the type of PV module is validated according to standard NF EN 61701.

TRAINING

IRFTS offers "installation training " provided by itself or a service provider.

SAFETY NOTICE

Before any work installation, it is necessary to implement appropriate security for stakeholders working

at heights: safety devices necessary to prevent accidents with CPS or use of PPE for each stakeholder.

QUALIFICATION OF INSTALLERS

In order to become an installer of the Easy roof system, you must be a professional and have expertise in

roofing and electricity.

Information and Non-contractual visuals. Subject to technical change without notice.

This document is the property of IRFTS. It shall not be reproduced or shared with third party without agreement IRFTS

Model "L-1" 60 Cells 6" Portrait

1616 Model "L-1" 60 Cells 6" Portrait

ELECTRICAL SAFETY OF PHOTOVOLTAIC field

•The parts provided for the different modules can confirm that they comply with EN61 215 and EN

61730 (guaranteed electrical and thermal performance. Class A according to EN 61730 up to 1000 V

DC).

•Some datasheets module manufacturers say the types of items are subject to change without notice.

It will be the responsibility of the installer to ensure that the panels are always class A.

•PV modules have removable connectors, IP65 rated and Class A

•Given the reference in the specifications, it will be the responsibility of the installer to ensure the

class of these materials and the degree of protection are IP65 and A respectively.

Information and Non-contractual visuals. Subject to technical change without notice.

This document is the property of IRFTS. It shall not be reproduced or shared with third party without agreement IRFTS

8.1) Normal zone, common and eave and angle installation

(Technical definition)

Model "M-1" 60 Cells 6" Landscape

(1) : 2 Screws / intersection if metallic

structure

422 250 2422 250 2422 250 2422 250 3 5x70/32 5x50/32

427 250 2427 250 2427 250 2427 250 3 5x80/32 5x60/32

440 250 2440 250 2440 250 2440 250 3 5x90/32 5x70/32

622 250 2622 250 3622 250 0622 250 3 5x70/32 5x50/32

427 250 2427 250 3427 250 0427 250 3 5x80/32 5x60/32

440 250 2440 250 3440 250 0440 250 3 5x90/32 5x70/32

430 250 3430 250 3430 250 0430 250 3 5x80/32 5x60/32

440 250 3440 250 3440 250 0440 250 3 5x90/32 5x70/32

427 250 3427 250 3427 250 0427 280 35x80/32 5x70/32

440 100 3440 100 3440 120 0440 120 35x90/32 5x80/32

430 180 3430 180 3430 190 0430 220 3 5x80/32 5x60/32

440 100 3440 100 3440 110 0440 120 3 5x90/32 5x70/32

422 250 2422 250 2422 250 0422 250 3 5x70/32 5x50/32

427 250 2427 250 2427 250 0427 250 3 5x80/32 5x60/32

440 250 2440 250 2440 250 0440 250 3 5x90/32 5x70/32

622 250 2622 250 3622 250 0622 250 3 5x70/32 5x50/32

427 250 3427 250 3427 250 0427 250 3 5x80/32 5x60/32

440 250 3440 250 3440 250 0440 250 3 5x90/32 5x70/32

430 250 3430 250 3430 250 0430 250 3 5x80/32 5x60/32

440 250 3440 250 3440 250 0440 250 3 5x90/32 5x70/32

627 180 3627 180 3627 180 0627 200 35x80/32 5x70/32

440 110 3440 120 3440 120 0440 140 35x90/32 5x80/32

630 180 3630 180 3630 180 0630 180 3 5x80/32 5x60/32

440 100 3440 100 3440 120 0440 140 3 5x90/32 5x70/32

422 250 2422 250 2422 250 0422 250 3 5x70/32 5x50/32

427 250 2427 250 2427 250 0427 250 3 5x80/32 5x60/32

440 250 2440 250 2440 250 0440 250 3 5x90/32 5x70/32

622 250 3622 250 3622 250 0622 250 3 5x70/32 5x50/32

427 250 3427 250 3427 250 0427 250 3 5x80/32 5x60/32

440 250 3440 250 3440 250 0440 250 3 5x90/32 5x70/32

430 250 3430 250 3430 250 0630 250 3 5x80/32 5x60/32

440 250 3440 250 3440 250 0440 250 3 5x90/32 5x70/32

627 250 3627 250 3627 250 0627 250 35x80/32 5x70/32

440 110 3440 120 3440 140 0440 160 35x90/32 5x80/32

430 250 3430 250 3430 250 0630 250 3 5x80/32 5x60/32

440 100 3440 120 3440 140 0440 160 3 5x90/32 5x70/32

622 250 2622 250 3622 250 0622 250 3 5x70/32 5x50/32

427 250 2427 250 3427 250 0627 250 3 5x80/32 5x60/32

440 250 2440 250 3440 250 0640 250 3 5x90/32 5x70/32

622 250 3622 250 3622 250 0622 250 3 5x70/32 5x50/32

427 250 3427 250 3427 250 0627 250 3 5x80/32 5x60/32

440 250 3440 250 3440 250 0640 250 3 5x90/32 5x70/32

430 250 3430 250 3630 250 0630 250 3 5x80/32 5x60/32

440 250 3440 250 3440 250 0440 250 3 5x90/32 5x70/32

627 240 3627 240 3627 240 0627 250 35x80/32 5x70/32

440 110 3440 140 3440 160 0440 180 35x90/32 5x80/32

430 250 3430 250 3630 200 0630 200 3 5x80/32 5x60/32

440 120 3440 140 3440 160 0440 180 3 5x90/32 5x70/32

Lateral edge

Angle

Number of brackets

Centre distance ≤600

Rafter centre distance

horizontal support battens

600 < C'tre dist ≤900

Rafter centre distance

horizontal support battens

C'tre Dist Rafter ≤ 1500

horizontal support battens

C'tre Dist Beam ≤ 1500(1)

Sarking

Vertical support battens

C'tre Dist ≤ 1500

Wood or metal structure

Vertical support battens

Centre distance ≤600

Rafter centre distance

horizontal support battens

600 < C'tre dist ≤900

Rafter centre distance

horizontal support battens

C'tre Dist Rafter ≤ 1500

horizontal support battens

C'tre Dist Beam ≤ 1500(1)

Sarking

Vertical support battens

h: Tile batten thickness

b : Width mini suppport batten

Common part

Gutter / Eave

Depression Normal

Site

Number of brackets

h: Tile batten thickness

b : Width mini suppport batten

Number of

Screws/intersection (1)

Centre distance ≤600

Rafter centre distance

horizontal support battens

600 < C'tre dist ≤900

Rafter centre distance

horizontal support battens

C'tre Dist Rafter ≤ 1500

horizontal support battens

C'tre Dist Beam ≤ 1500(1)

Sarking

Vertical support battens

C'tre Dist ≤ 1500

Wood or metal structure

Vertical support battens

Screwing on slat and counter-

slat/Stainless Steel countersunk screw

A2 lg miniif connecting bolts wooden

frame or Etanco screws 6.3 x lgx if

metal frame

Roof mounting with screwing directly

on chevron/Stainless Steel

countersunk screw A2 lg miniif

connecting bolts wooden frame or

Etanco screws 6.3 x lgx if metalframe

Wind Zone 1

Wind Zone 2

Wind Zone 3

Wind Zone 4

h: Tile batten thickness

b : Width mini suppport batten

Number of

Screws/intersection (1)

b : Width mini suppport batten

Number of

Screws/intersection (1)

Number of brackets

h: Tile batten thickness

Number of

Screws/intersection (1)

Number of brackets

10° to 50° normal site (category IIIa 2 catchment

C'tre Dist Beam ≤ 1500(1)

Sarking

Vertical support battens

C'tre Dist ≤ 1500

Wood or metal structure

Vertical support battens

C'tre Dist ≤ 1500

Wood or metal structure

Vertical support battens

Centre distance ≤600

Rafter centre distance

horizontal support battens

600 < C'tre dist ≤900

Rafter centre distance

horizontal support battens

C'tre Dist Rafter ≤ 1500

horizontal support battens

≤1500

C'tre

distance

≤1500

C'tre

distance

C'tre

distance

C'tre

distance

Information and Non-contractual visuals. Subject to technical change without notice.

This document is the property of IRFTS. It shall not be reproduced or shared with third party without agreement IRFTS

8.2) Seadimension zone, standard part installation, low dimension, lateral dimension and

roof angle.

(Technical definition)

Model "M-1" 60 Cells 6" Landscape

C'tre

distance

C'tre

distance

(1) : 2 Screws by intersection

if steel frame

622 250 2622 250 3622 250 3622 250 3 5x70/32 5x50/32

427 250 2427 250 3427 250 3427 250 3 5x80/32 5x60/32

440 250 2440 250 3440 250 3440 250 3 5x90/32 5x70/32

622 270 3622 270 3622 270 3622 270 3 5x70/32 5x50/32

427 250 3427 250 3427 250 3427 250 3 5x80/32 5x60/32

440 250 3440 250 3440 250 3440 250 3 5x90/32 5x70/32

630 250 3630 250 3630 250 3630 250 3 5x80/32 5x60/32

440 250 3440 250 3440 250 3440 250 3 5x90/32 5x70/32

630 180 3630 180 3630 190 3630 220 35x80/32 5x70/32

440 120 3440 140 3440 160 3440 200 35x90/32 5x80/32

630 180 3630 180 3630 190 3630 220 3 5x80/32 5x60/32

440 120 3440 140 3440 160 3440 190 3 5x90/32 5x70/32

622 250 3622 250 3622 250 3622 250 3 5x70/32 5x50/32

427 250 3427 250 3427 250 3427 250 3 5x80/32 5x60/32

440 250 3440 250 3440 250 3440 250 3 5x90/32 5x70/32

622 310 3622 310 3622 310 3622 310 3 5x60/32 5x50/32

427 250 3427 250 3427 250 3627 250 3 5x80/32 5x60/32

440 250 3440 250 3440 250 3440 250 3 5x90/32 5x70/32

630 250 3630 250 3630 250 3630 250 3 5x80/32 5x60/32

440 250 3440 250 3440 250 3440 250 3 5x90/32 5x70/32

630 200 3630 200 3630 220 3630 250 35x80/32 5x70/32

440 130 3440 160 3440 190 3440 220 35x90/32 5x80/32

630 200 3630 200 3630 240 3630 250 3 5x80/32 5x60/32

440 130 3440 160 3440 190 3440 220 3 5x90/32 5x70/32

622 250 3622 250 3622 250 3622 250 3 5x70/32 5x50/32

427 250 3427 250 3427 250 3427 220 3 5x80/32 5x60/32

440 250 3440 250 3440 250 3440 100 3 5x90/32 5x70/32

600 < C'tre dist ≤ 900 627 250 3627 250 3627 250 3627 210 3 5x80/32 5x60/32

Rafter centre distance 440 250 3440 250 3440 250 3440 150 3 5x90/32 5x70/32

C'tre Dist Rafte r ≤ 1500 630 250 3630 250 3630 250 3630 280 3 5x80/32 5x60/32

horizontal support battens 440 250 3440 250 3440 250 3440 250 3 5x90/32 5x70/32

C'tre Dist Beam ≤ 1500(1)

Sarking

630 250 3630 250 3630 250 3630 280 35x80/32 5x70/32

Vertical support battens 440 150 3440 170 3640 150 3640 160 35x90/32 5x80/32

C'tre Dist ≤ 1500 630 230 3630 230 3630 260 3630 280 3 5x80/32 5x60/32

Wood or metal structure

Vertical support battens

440 150 3640 130 3640 150 3640 160 3 5x90/32 5x70/32

Centre distance ≤ 600 622 260 3622 260 3622 260 3622 260 3 5x70/32 5x50/32

427 250 3427 250 3427 250 3427 250 3 5x80/32 5x60/32

440 250 3640 250 3640 250 3640 100 3 5x90/32 5x70/32

600 < C'tre dist ≤ 900 627 250 3627 250 3627 250 3627 230 3 5x80/32 5x60/32

Rafter centre distance

horizontal support battens

440 250 3640 250 3640 250 3640 110 3 5x90/32 5x70/32

C'tre Dist Rafte r ≤ 1500 630 250 3630 250 3630 300 3630 300 3 5x80/32 5x60/32

horizontal support battens 440 250 3440 250 3440 250 3440 300 3 5x90/32 5x70/32

C'tre Dist Beam ≤ 1500(1) 630 250 3630 250 3630 280 3630 300 35x80/32 5x70/32

Sarking

Vertical support battens 440 160 3440 190 3640 160 3640 170 35x90/32 5x80/32

C'tre Dist ≤ 1500 630 250 3630 250 3630 280 3630 300 3 5x80/32 5x60/32

Wood or metal structure

Vertical support battens

440 160 3640 140 3640 150 3640 170 3 5x90/32 5x70/32

10° to 50° exposed site (category 0) 2 sides

Screwing on slat and counter-

slat/Stainless Steelcountersunk screw A2

lg mini if connecting bolts wooden frame or

Etanco screws 6.3 x lgx if metal frame

Roof mounting with screwing directly on

chevron/Stainless Steel countersunk

screw A2 lg mini if connecting bolts

wooden frame or Etanco screws 6.3 x lgx

Wind Zone 1

Wind Zone 2

Wind Zone 3

Wind Zone 4

h: Tile batten thickness

b : Width mini suppport batten

Number of Screws/intersection

(1)

b : Width mini suppport batten

Number of Screws/intersection

(1)

Number of brackets

h: Tile batten thickness

Number of Screws/intersection

(1)

Number of brackets

C'tre Dist ≤ 1500

Wood or metal structure

Vertical support battens

h: Tile batten thickness

b : Width mini suppport batten

Depression Site Seaside

Number of brackets

h: Tile batten thickness

b : Width mini suppport batten

Number of Screws/intersection

(1)

Centre distance ≤600

Rafter centre distance

horizontal support battens

Rafter centre distance

horizontal support battens

a) Current part

Low edge

Number of brackets

Lateral edge

Angle

600 < C'tre dist ≤900

Rafter centre distance

horizontal support battens

C'tre Dist Rafte r ≤ 1500

horizontal support battens

C'tre Dist Beam ≤ 1500(1)

Sarking

Vertical support battens

C'tre Dist ≤ 1500

Wood or metal structure

Vertical support battens

Centre distance ≤600

Rafter centre distance

horizontal support battens

Centre distance ≤600

Rafter centre distance

horizontal support battens

600 < C'tre dist ≤900

Rafter centre distance

horizontal support battens

C'tre Dist Rafte r ≤ 1500

horizontal support battens

C'tre Dist Beam ≤ 1500(1)

Sarking

Vertical support battens

≤1500

C'tre

distance

C'tre

distance

C'tre

distance

C'tre

distance

Information and Non-contractual visuals. Subject to technical change without notice.

This document is the property of IRFTS. It shall not be reproduced or shared with third party without agreement IRFTS

8.3) Normal snow pressure zone and seadimension, installation of

all roof fields.

(Technical definition)

Model "M-1" 60 Cells 6" Landscape

Information and Non-contractual visuals. Subject to technical change without notice.

This document is the property of IRFTS. It shall not be reproduced or shared with third party without agreement IRFTS

9.1.1)

Remove the tiles of the photovoltaic field, for

L and H to see page 12 and 13

* Reference nomenclature

9.1.2)

PV field centered on the slope

This section of the manual applies only to the

installation of the PV field at the center of the slope.

For installations on the eave/gutter, go directly to

page 23 of this document

Definition of bottom flashing support batten

(side view)

Y = X - 8 mm MINI

1) Define the thickness of the bottom flashing batten according to the thickness of the support batten

(d)*.

Reference Support

batten (d)*

(f)

(k)

X: thickness of (d)

Y: thickness of (k)

(f)

2°) Position the batten (F) in order to have the top of the bottom flashing batten (H) flush with the

water flow of the tile, eventually slightly higher (a few millimeters).

(k)

The bottom flashing batten (K) must have a

thickness 8 mm lower than those of the

support batten (d).

Installation Instructions for the Easy-Roof System

Model "M-1" 60 Cells 6" Landscape

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