To defend the city, the historical centre of Vitoria-Gasteiz sits on a small hill and literally adapts to
The single trade streets are laid out concentrically and the cantons correspond to the sides with
the steepest slopes.
This hilly topography made it possible for the urban structure of the historical centre to remain
intact. Nevertheless, it has also led to the creation of ghettos and to isolation from the rest of the
Objective of the intervention
We did a study in accessibility and it showed the need to potentiate transit without barriers on the
transversal axis that crosses the hill on its lower side, through the Canton de la Soledad and the
Canton de San Francisco Javier.
The programme contemplates the creation of covered mechanical ramps, 4 and 3 stretches
respectively, completely covered, on both cantons.
The decision to cover the ramps guarantees their use, given the extreme winter conditions in
In addition to keeping snow and ice off the surface of the ramp, water entrance is reduced.
The architectural design has a close relationship to the improvement of the visual impact that is
We understand that uncovered ramps would have a machine-looking impact that would be too
obvious. As it is covered, it camouflages this aspect and brings more attention to the architectural
element, which will focus the view and interest of the user.
The covering will be both complex and simple.
It will be complex in its apparent three-dimensional perception and simple in its conception from
equal pieces, uniquely placed among each other.
The basic stainless steel and glass portico works like the frames of a film, by means of short
revolving movements around a virtual axis in one-metre sequences.
The sensation of rotational movement that the user perceives uses the sliding movement of the
ramp to create a linked sequence which maintains interest while going up, creating different views
on different stretches and locations along the way.
The permanent view outside contributes to this sensation produced by the continuous turning of
On the exterior, the lines of glass which link the different positions of the porticoes make up a
three-dimensional figure of apparent complexity and dynamism. It is, however, a single portico
and thus has a simple and rational construction process.
As all the elements of the porticoes are identical, so are the regular pieces of glass which
complete the covering and are laminated for safety and solar control.
All of this will favour simple and fast construction, but will not lose its contemporary language that
communicates with its physical location.
The covering will be done with 114 AISI 316 (high resistance) stainless steel porticoes on vertical
elements and AISI 304 on horizontal elements.
These porticoes incoporate profiling for the support of the cladding glass, with a regulation
system at the base to ease assembly in different positions. They are anchored on AISI 316
stainless steel trays.
The glass covering is done in extra-clear laminated glass with inserted California laminates,
providing high solar protection.
All stainless steel in contact with the ground resists extreme conditions (marine environment) and
in this way offers the maximum possible quality with zero maintenance.
Intense natural ventilation is proposed, approximately 0.8 m2 for every 2.5 m2 of surface (lower
side on both sides and upper openings), which, with the glass providing solar protection will avoid
any sort of greenhouse effect.
Artificial lighting is incorporated under hand railings, with LED signs at all entrances and exits.
The machinery includes an automatic motion detector using photocells on each side of the band,
which detects human presence along the ramp and allows a remote control to stop and start the
installation without having to verify human presence in situ.
There is also an additional CCTV camera system along the entire ramp, connected to a control
Frequency Variators. Device which maintains low ramp speed when no passengers are present.
This provides energy savings of 30 to 70 percent.
Extreme climate installation. Thermostat to control functioning. Machinery is activated
automatically by low temperatures to avoid ice.
City Hall Vitoria-Gasteiz
Miguel Angel Campo
Gorka Sagasti (Security)
Iñaki Ciganda. Architect. Design
Laura Angulo, Architect
Raquel Ochoa, Architect
Teresa Artola, Architect
Agustín de la Tajada, Coord. work
Eduardo Martín Structural work
Proiekt, Stainless steel
César San Millán, Photographer
Cantón de la Soledad y Cantón San Francisco Javier. Vitoria. Spain