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Intro

Before starting assembly, please carefully read the safety instructions, which can be found at the end of these assembly instructions. Before starting installation, please make sure that you use the latest assembly instructions.

The installation system should be designed and planned using the Alumero Solar.Pro.Tool software. Please refer to the project report, which you will receive from the Solar.Pro.Tool or from your Alumero sales partner, for the required materials and the positions and arrangement of the individual components. This data is calculated statically and is of great importance for the safe and flawless functioning of the system.

Before installation, the installer of the photovoltaic system must ensure that the given roof substructure is designed for the additional loads that arise.

These assembly instructions explain the assembly processes of the eponymous system, the attachment to the roof substructure and the installation of the modules.

In the case of sheet metal roofs, the modules are usually mounted vertically so that the support profiles are parallel to the ridge. Two carrier profiles per module row are used as standard.

ALUMERO photovoltaic systems are designed exclusively to accommodate PV modules. Any other use is considered improper use.

The system is designed exclusively to accommodate PV modules. Any other use is considered improper use.

Assembly may only be carried out by trained specialists. In particular, work on the roof covering should be carried out by a roofer.

If you have any further questions, please use ALUMERO's professional and comprehensive consulting service. Our competent civil engineers and construction technicians are happy to help you.

General information

Usage:

Corrugated roof, corrugated iron roof

Roof pitch:

Up to 65°

Connection:

Hanger screws, solar fasteners

Module orientation:

Vertical/horizontal

Max. module field size:

12 m length

Screw assembly:

M8 (A2-70) - 15 Nm

M10 (A2-70) - 30 Nm

38/300
Montagedetails für ALUMERO-Trapezblechdach Systeme
158/250
Montageinformationen für ALUMERO Trapezblechdach-Systeme
39/333.3
Montageinformationen für ALUMERO Trapezblechdach-Systeme
38/300
Montagedetails für ALUMERO-Trapezblechdach Systeme
158/250
Montageinformationen für ALUMERO Trapezblechdach-Systeme

Tools needed

Electric drill
Bit inserts, see below.
Allen wrench
Bit inserts, see below.
Torque wrench
Bit inserts, see below.
Measuring tape
Bit inserts, see below.
Chalk line
Bit inserts, see below.
Spirit level
Bit inserts, see below.
Bit inserts:
SW6

Components

Standard

Hanger bolt 2.1
Product number:
8024xx
Solar fastener 2.1
Product number:
80245x
Carrier profile
Product number:
80210x
Profile connector
Product number:
80215x
End clamp pre-assembled with pin
Product number:
802304-xxV P1
End clamp pre-assembled
Product number:
802304-xxV
End clamp "Click" with pin
Product number:
802304C P1 30-42
End clamp "Click" without pin
Product number:
802304C
Middle clamp "Click" 2.1 with pin 30-45
Product number:
802301C P1 30-45
Middle clamp "Click" 2.1 30-45
Product number:
802301C 30-45

Optional components

Accessories

Variants

AC 2.1+ flat roof

297 mm distance 10° internal shading angle
Abmessungen für ALUMERO AC 2.1 Flachdach-Systeme

AC 2.1+ flat roof

464 mm distance 8° — 18° internal shading angle
Maße für ALUMERO AC 2.1 Flachdach-Systeme

AC 2.1 S5 flat roof

178 mm distance 30° internal shading angle
Abmessungen für ALUMERO AC 2.1 Flachdach-Systeme

AC 2.1 S5 flat roof

335 mm distance 15° internal shading angle
Abmessungen für ALUMERO AC 2.1 Flachdach-Systeme

AC 2.1 S10 flat roof

380 mm distance 25° internal shading angle
Abmessungen für ALUMERO AC 2.1 Flachdach-Systeme

AC 2.1 S10 flat roof

527 mm distance 18° internal shading angle
Abmessungen für ALUMERO AC 2.1 Flachdach-Systeme

AC 2.1 S15 flat roof

571 mm distance 25° internal shading angle
Abmessungen für ALUMERO AC 2.1 Flachdach-Systeme

AC 2.1 S15 flat roof

790 mm distance 18° internal shading angle
Abmessungen für ALUMERO AC 2.1 Flachdach-Systeme

Components

easyLIGHT East/West

Montageinformationen für ALUMERO AC 2.1 Flachdach-Systeme
1
Starting foot with building protection mat
2
Center support with building protection mat
3
Connector (long/short) with structural protection mat
4
End clamp
5
AC center terminal pre-assembled with pins

Ballasting

Komponenten für ALUMERO AC 2.1 Flachdach-Systeme
1
Gate strap screw, M8×20
2
washer
3
Allen nut, M8 SW6
4
Long ballast pan, BT1800, BT-2050, BT-2300
5
Short ballast tub, BT-880
6
Building protection mat, PES

Alpine supports

Alpinstützen für ALUMERO AC 2.1 Flachdach-Systeme
1
Alpine support at the front with structural protection mat
2
Center support with building protection mat
3
Connector (long/short) with structural protection mat

Accessories

KC-1 edge clip incl. cable tie

easyLIGHT South 5°

Komponenten für ALUMERO AC 2.1 Flachdach-Systeme
1
Starting foot S5 with structural protection mat
2
S5 connector with building protection mat
3
S5 end foot with construction protection mat
4
AC center terminal pre-assembled with pins
5
AC terminal pre-assembled with pins
6
S5 wind deflector
7
Allen screw and shim

easyLIGHT South 10°

Komponenten für ALUMERO AC 2.1 Flachdach-Systeme
1
Starting foot S10 with structural protection mat
2
S10 connector (long/short) with structural protection mat
3
S10 end foot with construction protection mat
4
AC center terminal pre-assembled with pins
5
AC terminal pre-assembled with pins
6
S10 wind deflector
7
Allen screw and shim
8
Edge clip

easyLIGHT South 15°

Komponenten für ALUMERO AC 2.1 Flachdach-Systeme
1
Starting foot S15 with structural protection mat
2
S15 connector (long/short) with structural protection mat
3
S15 end foot with construction protection mat
4
AC center terminal pre-assembled with pins
5
AC terminal pre-assembled with pins
6
S15 wind deflector
7
Allen screw and shim
8
Edge clip

Ballasting

Komponenten für ALUMERO AC 2.1 Flachdach-Systeme
1
Gate strap screw, M8×20
2
washer
3
Allen nut, M8 SW6
4
Long ballast pan, BT1800, BT-2050, BT-2300
5
Short ballast tub, BT-880
6
Building protection mat, PES

Alpine supports

Komponenten für ALUMERO AC 2.1 Flachdach-Systeme
1
Alpine support front (S5/S10/S15) with construction protection mat
2
Alpine rear support (S5/S10/S15) with construction protection mat

Accessories

KC-1 edge clip incl. cable tie

AC G+ open space

Komponenten für ALUMERO AC G+ Freiland-Systeme
1
initial foot
2
center support
3
connector
4
AC terminal pre-assembled with pins
5
AC center terminal pre-assembled with pins

ballasting

Komponenten für ALUMERO Systeme
1
Gate strap screw, M8×20
2
washer
3
Allen nut, M8 SW6
4
Long ballast pan, BT1800, BT-2050, BT-2300
5
Short ballast tub, BT-880
6
460 mm ground anchor

accessory

KC-1 edge clip incl. cable tie

components

beaver tail replacement plate

Der ALUMERO Biberschwanzersatzziegel
1
Beaver tail replacement plate AS 2.1 180 × 380 × 13 mm (W × L × H)
2
TX20 pan head screws 4 × 30mm
3
Compriband 15 × 30 × 180 mm

Hanger bolts / solar fasteners

Measure and mark positions

Measure and mark the positions of the hanger bolts on the roof according to the ALUMERO Solar.Pro.Tool project report.

Please also pay attention to the module clamping areas, which can be found in the installation instructions for the modules used.

Pre-drilling

Both the corrugated ternite plate and the substructure must be pre-drilled. Please comply with the following guidelines:

wooden substructure

M10 stud bolt:

  • Eternite plate drilling diameter 13 mm
  • Substructure drill diameter 7 mm
  • Minimum anchoring depth 8 cm

M12 hanger bolt:

  • Eternite plate drilling diameter 15 mm
  • Substructure drill diameter 8 mm
  • Minimum anchoring depth 10 cm

steel substructure

Substructure thickness 1.5-3.0 mm -> drill hole diameter 6.8 mm

Substructure thickness 3.0 - 5.0 mm -> drill hole diameter 7.0 mm

Substructure thickness 5.0 - 7.0 mm -> drill hole diameter 7.2 mm

Substructure thickness > 7.0 mm -> drill hole diameter 7.4 mm

Assembly of hanger screws/solar fasteners

Screw the hanger bolt into the pre-drilled hole. Position the quick assembly adapter up to 50 mm away from the wave mount. Secure this and the EPDM seal with the locking nut (M10/M12) over the hole.

Please note: The connection points must always lie on a wave peak of the wave ternite plate!

Install the remaining stick screws/solar fasteners according to the pre-drilled holes.

Adjust the quick-assembly adapters so that the carrier profiles can be installed straight and tension-free.

During installation, make sure that the hanger screws/solar fasteners are mounted straight and centrally on a wave crest.

Please note:

  • The screwing depth of the M10 hanger bolts should be at least 80 mm and for M12 at least 100 mm.
  • The recommended purse width in the fiber direction for M10 hanger bolts is 100 mm.
  • The recommended purse width in fiber direction for M12 hanger bolts is 120 mm.
  • We recommend that roof coverings be carried out only by specialists (roofers).

Please note: The hanger bolts are not tightened via torque! The seal should be slightly compressed and rest over the entire surface!
designation
length (mm)
diameter (mm)
Component thickness (mm)
JT3-D-2H-6.5/7.0x100 E16
100
6.5
16-50
JT3-D-2H-6.5/7.0x120 E16
120
6.5
36-70
JT3-D-2H-6.5/7.0x140 E16
140
6.5
56-90
JT3-D-2H-6.5/7.0x160 E16
160
6.5
76-110
JT3-D-2H-6.5/7.0x180 E16
180
6.5
96-130
JT3-D-2H-6.5/7.0x200 E16
200
6.5
116-150
JT3-D-2H-6.5/7.0x220 E16
220
6.5
136-170
JT3-D-2H-6.5/7.0x220 E16
240
6.5
156-190
JT3-D-2H-6.5/7.0x240 E16
260
6.5
176-210
JT3-D-2H-6.5/7.0x260 E16
280
6.5
196-230
JT3-D-2H-6.5/7.0x300 E16
300
6.5
216-250

Single-layer carrier profiles - horizontal modules

Install carrier profiles

Install carrier profiles vertically, parallel to the local area, with the correct side facing upwards and tighten with a torque of 15 Nm.

Connect carrier profiles

Required if the width of the module field is greater than the length of the support profile.

Insert the profile connector halfway into the first support profile and then push the second support profile onto the profile connector.

Please note:

  • Fix each support profile to at least two attachment points ()!
  • (🔗) Carrier profile joints with profile connectors must not be in the area of attachment points.

  • Carrier profile length: max. 12 m!
  • After a maximum of 12 m, form an expansion joint of at least 5 cm!
  • The suspension of the support profiles over the last attachment should be the same on both sides. See sketch. Last attachment is marked with ().

  • According to the Solar.Pro.Tool project report, measure the positions of the profile connectors on the roof and optionally screw the profile connectors together.

designation
length (mm)
diameter (mm)
Component thickness (mm)
JT3-D-6H-5.5/6.3x67 E16
67
5.5
30-48
JT3-D-6H-5.5/6.3x87 E16
87
5.5
41-68
JT3-D-6H-5.5/6.3x107 E16
107
5.5
51-88
JT3-D-6H-5.5/6.3x127 E16
127
5.5
71-108
JT3-D-6H-5.5/6.3x147 E16
147
5.5
91-128
JT3-D-6H-5.5/6.3x167 E16
167
5.5
111-148
JT3-D-6H-5.5/6.3x197 E16
197
5.5
141-178
JT3-D-6H-5.5/6.3x237 E16
237
5.5
171-218
JT3-D-6H-5.5/6.3x267 E16
267
5.5
201-248

Cross-linked carrier profiles - vertical modules

Install the “base rail” support profiles

Install the “base rail” support profile vertically, parallel to the town, with the correct side facing upwards and tighten with a torque of 15 Nm.

Install the cross connector

Insert the cross connector into the “base rail” and tighten with a torque of 15 Nm.

Please note: If the “base rail” carrier profiles are mounted vertically, parallel to the local corridor, the support profile fixing screw of the cross connector must always be oriented upwards towards the ridge.

Install the “modular rail” support profiles

Install the “module rail” support profile horizontally, parallel to the ridge, with the correct side facing up on the cross connector and tighten with a torque of 15 Nm.

Connect carrier profiles

Required if the width of the module field is greater than the length of the support profile.

Insert the profile connector halfway into the first support profile and then push the second support profile onto the profile connector.

Install end caps

Press end caps into the wearer end with your hand.

Please note:

  • Fix each support profile to at least two attachment points ()!
  • (🔗) Carrier profile joints with profile connectors must not be in the area of attachment points.

  • Carrier profile length: max. 12 m!
  • After a maximum of 12 m, form an expansion joint of at least 5 cm!
  • The suspension of the support profiles over the last attachment should be the same on both sides. See sketch. Last attachment is marked with ().

  • According to the Solar.Pro.Tool project report, measure the positions of the profile connectors on the roof and optionally screw the profile connectors together.

Assembly modules

Install end clamp

Start with the lowest row of modules. Place the first module on the carrier profiles and align them.

Click the Click end clamp slightly at an angle and push it towards the module frame.
Allen screw with a torque of 15 Nm tighten.

The presentation is exemplary and depicts the system, tending not to the profiles used.

Assembly of ALUMERO end clamps


Please note: The end clamps must be attached at least 20 mm from the end of the respective mounting profile.

Distance between ALUMERO end clamps and profile end
Attention: When using end clamps with threaded plates, attention must be paid to the orientation. The threaded plate must be positioned transversely to the profile channel.


Install the center clamp

Place the Click center clamp on the frame of the previous module and click in at a slight angle. Push the module so that both modules are firmly in place.
Allen screw with a torque of 15 Nm tighten.

Assembly of ALUMERO middle clamps

The last module in a series of modules with terminators, as before
described, assemble. Assembly of the remaining module rows analogously.

The presentation is exemplary and depicts the system, tending not to the profiles used.

The click mechanism of ALUMERO clamps

Please note:

  • Distance from the clamp to the ends of the support profile: min. 20 mm!
  • Middle clamps must not be mounted directly on the support joint!
  • Clamp the modules only at prescribed mounting areas! These can be found in the module manufacturer's data sheet.
  • Distance (horizontal and vertical) between modules: approx. 20 mm!

module cable | potential equalization | grounding

Fasten module cable

Module cables should not hang down or rest on the roof covering. Push the clip attached to the cable tie into a profile channel of the support profile. Use the cable tie to tie the cable together.
Remove the clip by sliding it laterally out of the profile channel.

Fastening the profile cables to ALUMERO profiles with cable clips

Potential equalization

Potential balancing between the individual plant components must be carried out in accordance with the respective country-specific regulations. One way of grounding the ALUMERO sheet metal folding roof system is shown below. Cable averages and overall grounding concept are not included in these instructions and must be calculated or prepared by the contractor in accordance with the applicable standards and guidelines. Professional grounding methods other than those listed here are also possible.

Grounding of carrier profile rows

In each row of carrier profiles, insert a wire clamp into the lower profile channel of the carrier profile. Insert the aluminum wire into the wire clamp and secure by tightening the screw. In this way, connect all rows of modules to each other conductively.

Fastening the aluminum wire with a wire clamp
Fastening the aluminum wire with a wire clamp

Fastening the grounding wire with a hammerhead screw
Fastening the grounding wire with a hammerhead screw

Earthing the modules

Whether the modules need to be grounded is specified by the module manufacturer in the respective module data sheet. If so, the potential equalization of the modules can be created in the following way, recommended by ALUMERO:

To integrate the modules into potential equalization, you can use ALUMERO end and middle terminals with pins. The pins sit in the terminals, pierce the anodized layer of the module frames and thus conductively connect all module rows together.

The ALUMERO “Click” end and center clamp with pin
Click end and middle clamp with pin

All product images included in these assembly instructions are for illustrative purposes and are not true to scale. Subject to changes and errors!

Optional: potential equalization | grounding

Install grounding/potential equalization

The grounding/potential equalization is attached to the edge of a module field on a foot with a screw (max. M8). The components are not included.

  • Securely connect the ground wire (on site) to the cable lug.
  • Install the shim and cable lug with the screw in the order shown.

Potential equalization at the start/end foot of the ALUMERO AC 2.1 system

Safety and warning notices

Please note the following information!

We recommend that you read the following notes carefully as they are very important when using the product. Please also check the safety regulations for the other system components.

Safety and warning notices

ALUMERO mounting systems are designed exclusively to accommodate PV modules. Any other use is considered improper use. Proper use also includes compliance with the instructions in these assembly instructions. ALUMERO is not liable for damage resulting from failure to comply with the assembly instructions, in particular the safety instructions, or from misuse of the product.

  • ALUMERO assumes no liability for loss of performance or damage to the module of any kind.

You should follow these instructions carefully when working on the PV system. Installation, commissioning, maintenance and repair may only be carried out by persons who are suitably qualified and authorized.

Please comply with the applicable regulations and safety instructions.

You must take these accident prevention regulations into account:

  • BGV A 1 — General regulations
  • BGV A 3 — Electrical systems and equipment
  • BGV C 22 — Construction work (personal protective equipment against falls)
  • BGV D 36 — ladders and steps
  • Professional association rules for safety and health at work BGR 203 (roof work) and DIN EN 516 facilities for entering the roof
  • Work clothes and occupational safety regulations in accordance with the regulations of the professional association

Please comply with the applicable regulations and safety instructions.

You must comply with the following DIN standards:

  • DIN 18299 — General regulations for all types of construction
  • DIN 18338 — Roofing and roof sealing work
  • DIN 18360 — metal construction, locksmith work
  • DIN 4102 — Fire behavior of building materials and components

Work on Alumero Systematic Solutions GmbH's systems may only be carried out by authorized personnel. The operator of the plant has the following safety-related obligations:

  • We require that the installed ALUMERO components and roof covering be inspected and serviced at least once a year.
  • At a minimum, the following points should be checked:
  • all mechanical connections are in correct fit and strength
  • the position of the system on the roof and the system itself with regard to deformations
  • keeping the cabling intact
  • the PV modules for damage

The frame may only be assembled by persons with appropriate qualifications, manual skills and basic mechanical knowledge.

It must be ensured that the commissioned persons are able to assess the work assigned to them and identify potential hazards. The assembly instructions are part of the product and must be available during installation.

The assembly instructions are part of the product and must be available during assembly.

It must be ensured that the installation instructions and in particular the safety instructions are read and understood by authorized personnel before installation.

The regulations of the professional association, local occupational safety regulations and technical rules must be complied with.

Suitable hoists and ladders must be used for installation. Staff ladders must not be used.

It is necessary to have the existing building statics checked by an expert civil engineer with regard to the additional loads from a PV system.

Any general load limits imposed by Alumero Systematic Solutions GmbH (e.g. the need to remove snow to limit the snow load) must be taken into account.

Warranty/product liability (exclusion)

The sizing instructions contained in these instructions are only practical tips. Binding assembly frame statistics can be created with the Alumero Solar.Pro.Tool program.

As an installer, you are responsible for the correct installation. Alumero Systematic Solutions GmbH is not liable for the sizing instructions contained in commercial plant offers.

As an installer, you are responsible for the mechanical durability of the assembled interface connections on the building envelope, in particular for their tightness. The components of Alumero Systematic Solutions GmbH are designed for this purpose in accordance with the expected loads and the current state of the art. To do so, as part of the request/order to Alumero Systematic Solutions GmbH, you must provide all general technical conditions in the project data sheet (information on the supporting structure, snow load zone, building heights, wind loads, etc.) in writing.

Alumero Systematic Solutions GmbH is not liable for improper handling of the installed parts.

To prevent corrosion, the aluminum structure must only come into contact with media (solid, liquid, gaseous) that have a pH of 4.5 to 8.5.

With proper handling, dimensioning in accordance with static conditions and normal environmental and environmental conditions, Alumero Systematic Solutions GmbH provides a 2-year product warranty on the lifetime and durability of the frame systems. This applies within the framework of generally prevailing weather and environmental conditions.

Material and workmanship guarantee: Alumero Systematic Solutions GmbH provides a material and workmanship guarantee of 10 years on the materials used. For more information, please see the separate warranty conditions.

Electrical installation notes

You may only carry out all electrical work if you are a qualified electrician. The applicable DIN standards, VDE regulations, VDEW guidelines, VDN guidelines, accident prevention regulations and the regulations of local electricity supply companies (EVU) are decisive.

  • DIN VDE 0100 (installation of heavy-current systems with nominal voltages up to 1000 V)
  • VDEW guideline for the parallel operation of self-generating plants with the low voltage power supply network
  • VDI 6012 Guideline for Decentralized Energy Systems in Buildings: Photovoltaics
  • Information sheet on the VDEW guideline “Self-generation systems on the low-voltage grid”
  • VDN guideline “Self-generating systems on the low-voltage grid”
  • DIN/VDE regulations, DIN/VDE 0100 “Installation of high-voltage systems with line voltages up to 1000 V”, in particular VDE 0100 part 410 “Protection against direct and indirect contact” (DC voltages > 120 V, < 1000 V DC voltage) and the “Accident prevention regulation of commercial professional associations” VBG4 “Electrical systems and equipment”
  • DIN VDE 0100-540 Selection and Installation — Grounding, Protective Conductor and Potential Equalization Conductor
  • VDE 0185 Construction of a lightning protection system and VDS 2010

Important warnings

Solar modules generate electricity as soon as they are exposed to light and are therefore always under voltage. Although the fully insulated plug contacts provide protection against contact, you must pay attention to the following when handling the solar modules:

  • Do not insert any electrically conductive parts into the plugs and sockets.
  • Do not install solar panels and cables with wet plugs and sockets.
  • Perform all work on the pipes with extreme caution.
  • Do not perform an electrical installation when it is damp.
  • Even with low lighting, the series connection of solar modules produces very high DC voltages, which are life-threatening when touched. In particular, consider the possibility of secondary damage in the event of electric shock.

High contact voltages can occur in the inverter even when switched off:

  • Be particularly careful when working on the inverter and cables
  • After switching off the inverter and carrying out further work, be sure to follow the time intervals specified by the manufacturer so that the high-voltage components can discharge.
  • Please also note the inverter manufacturer's installation instructions.
  • Opening a closed string (e.g. when disconnecting the DC line from the inverter under load) can result in a deadly arc:
  • Never disconnect the solar generator from the inverter while it is connected to the grid.

Standards and guidelines

All standards and guidelines listed have been published and applied for Germany. They must be considered in their current version. Outside of Germany, please also comply with the relevant national standards and guidelines.

Frame installation instructions

For installation in the roof area, you must comply with the currently valid rules of construction technology, in particular the requirements set out in the DIN standards and in the “German Roofing Trade Rules”.

  • Check that all screw connections are tight.
  • Maintain the specified torques.
  • Regardless of verifiable statics, you must ensure in advance of each installation that the product meets the static requirements on site in accordance with DIN EN 1991.
  • DIN standard EN 1991 “Effects on structures” — and all related national application documents
    Part 1-1: Weights, dead weight and payloads in building construction
    Part 1-3: Snow Loads
    Part 1-4: Wind Loads
  • DIN standard EN 1990: “Principles of structural engineering” — and all related national application documents
  • The assembly frame is measured in accordance with DIN EN 1993 “Design and construction of steel structures” and DIN EN 1999 “Design and construction of aluminum structures”
  • Make sure that the substructure is suitable in terms of load capacity (dimensions, state of preservation, suitable material characteristics), supporting structure and other layers affected by it (e.g. insulation layer).
  • Make sure that the runoff of rainwater is not impeded.
  • Take into account aspects of building physics (e.g. possible condensation when penetrating insulation layers).
  • For installation in the roof area, you must comply with the currently valid rules of construction technology, in particular the requirements set out in the DIN standards and in the “German Roofing Trade Rules”.

Product liability

The technical documentation is part of the product. Alumero Systematic Solutions GmbH is not liable for damage resulting from failure to comply with the assembly instructions, in particular the safety instructions, or from misuse of the products.

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