All systems
Technical sheet
A.01A.02
SystemS-60

Sawtooth (shed) roof

The toothed roof of factories: a series of asymmetric pitches, one opaque and one glazed, repeated. The glazing, all facing north, brings in a constant, diffuse daylight with no direct sun, glare or overheating; the opaque pitch screens the south. It is the roof born with the factory, to light large spaces evenly from above — demanding only careful valleys and maintenance.

CoperturaNorth-light sawtooth roof
B.01
System build-up6 layers
SUDNORD1. Vetrata a nord2. Manto (falda opaca)3. Isolante4. Capriata5. Compluvio6. Orditura

Technical section of the system, from inside (left) to outside (right).

North-light sawtooth roof
Luce
10-30m
Orientamento vetrate
a nord
Pendenza falda opaca
20-40%
Illuminazione naturale
costante e diffusa
Struttura
acciaio / lamellare
Reazione al fuoco
A1 (struttura)
Descriptive memo

The toothed roof of factories: a series of asymmetric pitches, one opaque and one glazed, repeated. The glazing, all facing north, brings in a constant, diffuse daylight with no direct sun, glare or overheating; the opaque pitch screens the south. It is the roof born with the factory, to light large spaces evenly from above — demanding only careful valleys and maintenance.

A sawtooth roof is the toothed roof of factories: a series of asymmetric pitches, one opaque and one glazed, repeated. The glazing, all facing north, brings in a constant, diffuse daylight, with no direct sun. It is the roof born with the factory, to light large spaces from above.

North light

The principle is simple and brilliant: by facing the glazing north, the space receives the light of the sky — soft, even, present all day — but never the direct sun, which brings glare and overheating. The opaque pitch, facing south, acts as a screen. The result is quality daylight over large areas, with less artificial light.

Structure and valleys

Each tooth is a small structure: a truss or beam (steel, sometimes glulam) carrying the insulated opaque pitch and the glazing. Between one tooth and the next runs a valley — an internal gutter — collecting the water from all the pitches. It is the critical point: sized and inspectable, because a valley that clogs floods the roof.

Tightness, sun, maintenance

The many joints between glass, frames and covering must be sealed with care; condensation on the glazing is handled with double glazing and ventilation. Shading or selective glass can be added if the gains must be controlled. Glazing and valleys need access and planned maintenance, because a sawtooth roof is beautiful when lit but demanding to keep.

Systems architecture

Why it works

North light, even and glare-free
sun (south): screenednorth light: diffusethe opaque south pitch screens the direct sun (glare, heat); the glazing faces northso the hall gets the soft, even light of the sky, constant all day

The sawtooth roof is a daylighting machine. Its repeated teeth each pair a gentle opaque pitch with a steep glazed one, and the whole secret is which way the glazing faces: north. Northern light is the light of the sky, not of the sun — soft, diffuse, almost constant from morning to evening and across the seasons. By taking only this, the hall is filled with an even, shadow-free brightness ideal for working, while the direct southern sun — which brings glare, hot spots and overheating — is shut out by the opaque pitch acting as a built-in shade. The price of all that glazing is upkeep: every tooth needs a structure, and between the teeth run internal valley gutters that carry the water of the whole roof. Those valleys are the critical point — sized generously and kept inspectable, because one that clogs floods the building from above. Sealing the many glass-to-frame joints and managing condensation complete a roof that is demanding to keep but unmatched for natural light.

Even north light over a deep floor

Comparison · insulants
Sawtooth (north-light)
even, deep
Monitor rooflights
even
Flat rooflights
good, some glare
Side windows only
edges only

Longer bar = the more even, glare-free daylight reaching deep into a wide plan from above. The sawtooth lights the centre of a deep shed where side windows never reach.

Nodal details

Critical junctions · sections
123456
D.01
Valley gutter

Where the opaque pitch meets the glazed one, an internal valley gutter collects the water of both. The waterproofing is turned well up each side, and the gutter is sized generously and made inspectable with an outlet, because it carries a lot of water and a blockage floods the building from above. It is the critical detail of the whole roof.

  1. Opaque pitch (left)
  2. Glazing (right)
  3. Valley gutter
  4. Membrane turned up
  5. Outlet
  6. Insulation
123456
D.02
Glazing fixing

The north glazing is clamped to the steel mullion by a pressure plate over gaskets, inner and outer. A small channel inside collects the condensation that forms on the cold glass and drains it out by a weep, while the inner gasket makes the air seal. A drip throws the water clear of the frame.

  1. Double glazing
  2. Steel mullion
  3. Pressure plate + gasket
  4. Condensation channel
  5. Drip / weep
  6. Inner air seal

Installation controls

Specification · checklist

01 · Frame

Trusses to design
Coating / galvanising
Falls and gutters set

02 · Glazing

North slope angle
Insulating glass
Bars drained, capped

03 · Ridge & flashings

Ridge detail watertight
Generous laps
Glass-to-opaque junction

04 · Valley gutters

Sized with overflow
Leaf guards
Access for cleaning

05 · Opaque slope

Insulation continuous
Membrane lapped to valley
Vapour control

Recurring defects

Diagnostics · site
Termo-igrometrica
Leakage at the glazing ridge
CauseThe junction between the glazed north slope and the opaque south slope, and the glazing bars, are the weak line where wind-driven rain and snowmelt get in.
PreventionA well-detailed ridge flashing, drained and capped glazing bars, generous laps, the glass set to shed water clear.
Termo-igrometrica
Condensation on the north glazing
CauseThe cold north glass of a humid workshop runs with condensation that drips inside and rots the framing if it is single-glazed and not drained.
PreventionInsulating glazing, a condensation channel that drains outside, ventilation of the space, a thermal break in the bars.
Termo-igrometrica
Clogged valley gutters
CauseThe internal valley gutters between the teeth collect leaves and debris; once blocked they overflow back into the building, the classic sawtooth failure.
PreventionGenerously sized valleys, leaf guards and overflows, safe access for cleaning, a regular maintenance plan.
Termo-igrometrica
Corrosion of the steel frame
CauseCondensation, leaks and an aggressive industrial atmosphere corrode the steel trusses and glazing bars where the protective coating has failed.
PreventionGalvanising or a maintained coating, drainage that keeps the steel dry, inspection of the bars, repair of the coating.

Component materials

The network · materials
Structural alloy
Steel S235 / S355
Insulating Glass
Insulated Glass Unit (IGU)
Bitumen-Polymer Membrane
Ardesia Bituminous Sheet

Reference regulations

2 norms

Informational links to the regulatory framework. Always verify the current text on the official source.