Actuator solutions for building louvres
There is increased focus on energy conservation in domestic and commercial buildings. A demand for natural light increases and so is the amount of glass used. To optimise comfort and energy costs, the level of light and temperature entering a building must be controlled. Electric actuator solutions help you adjust louvres on your building – and they come with benefits such as:
- Easy installation and no maintenance requirements
- Tested and certified to perform flawlessly in all types of weather
- Low energy consumption and environmentally-friendly
Indoor climate is on the agenda everywhere. Experts promote natural light as a way to improve employee efficiency, and air quality needs to be optimal. In order to maintain an optimal indoor temperature, humidity and ventilation need to be controlled. Building louvres are an invaluable aid, and with intelligent actuator solutions, they are easy to adjust.
Installation is easy and requires no maintenance
Electric actuators have no hoses, pumps or compressors. Subsequently, installation is easy as LINAK actuators only require power to operate and a data cable to communicate with the overall climate control system. The LINAK plug-and-play setup makes it even easier. Furthermore, maintenance is obsolete in modern LINAK solutions for louvres. This is convenient as louvres are often located out of normal reach.
Actuators perform in all sorts of weather
Temperature and sunlight change a lot during the day – or a week or through a year. LINAK actuators are tested and certified to perform flawlessly regardless of weather conditions. With an integrated controller the actuator solutions integrate easily with existing climate control systems. This gives the customer the ability to care for a building both outside and inside.
Green solutions save you money
LINAK actuators have a low energy consumption compared to other solutions. Integrated with your building’s general climate control system, electric actuators will help balance temperature and optimise efficiency inside the building – significantly reducing power consumption and producing a smaller CO₂ footprint.
