VENTILATED FAÇADES


While one part of the energy is reflected, the other enters the ventilation chamber and only a small part of it enters the building, thus controlling the temperature inside the building. This avoids the heat accumulation, resulting in energy savings.
  • Increase in energy efficiency
  • Avoids condensation and humidity
  • Extends the life of the façade
  • Avoids condensation and humidity
  • Reduces structural movements
  • Improves acoustic and thermal insulation
  • Requires less maintenance
  • Adds value to the building
It is a sealed air chamber separated by two glass panes. The construction limits and guarantees a volume of dry air between the glasses used. The sealed air gap between the two panes reduces the heat transfer between the inside and outside, while a well-chosen selection of glasses will not only reduce the amount of the radiant solar energy but will also minimize noise significantly.
  • Reduces heat transformation in more than 50%
  • Avoids condensation on the inner glass pane
  • Provides acoustic control
  • Offers security and protection
  • 99% of the damaging effects of UV radiation are filtered by using a laminated glass in a double-glazed construction.

DVH


Geometría Solar


t is used in the design of buildings based on bioclimatic architecture. Through the appropriate location, design and orientation of the buildings, the properties of the materials and the architectural elements are used in the most optimal and efficient way.
Windows, walls and floors are made to collect, store and distribute solar energy in the form of heat during the winter, and they reject solar heat in the summer.
  • Total savings of the energy used to heat or cool the house.
  • No greenhouse gases are emitted.
  • Personalized installation.
  • Passive solar energy offers significant savings and can be combined with other type of active solar or renewable energies to achieve even major savings.
  • It is renewable and environmentally friendly.