Sliding Roof T-SR
Usage
Suitable for spaces where the passage of natural light and air through the roof is desired, with additional requirements for bioclimatic architectural design.
Operation
Pressing the button causes the movable parts of the system to slide and park under the fixed structure.
Features
Double glazed panels, aluminum frame with thermal break, motorized mechanism.
Aluminum Profile
With thermal break.
Roof Type
Retractable.
The T-GR glass retractable roof is our company’s top proposal in the field of glass roofs. Constructed from thermally broken aluminum profiles, it offers complete protection from external weather conditions and significantly improves the building’s energy efficiency. This exceptionally durable construction, with the press of a button, can provide you with all the benefits of outdoor space. Thanks to its pioneering design, it adds stylistic superiority to the spaces where it is installed, remaining completely watertight even in heavy rain and wind conditions.
The sliding glass roof consists of aluminum rafters on which the glass panels, forming the system, are supported. Electric motors slide the movable frames with the help of belts, parking them under the corresponding fixed ones, releasing two-thirds of the total opening. It has a perfectly smooth movement due to the system of multiple bearings it possesses. It is constructed with structural glass panels that contribute to the drainage of rainwater, as they do not create barriers, while simultaneously providing a minimal, contemporary design.
The T-GR glass retractable roof finds countless applications in both private and public spaces. Its energy-efficient design makes it an ideal solution even for residential interiors. Moreover, it meets all specifications for use in public buildings such as schools and hospitals, making it an ideal choice as it reduces the energy demands of the space while simultaneously contributing to the improvement of the health and psychological well-being of the building’s users.
Ecological Design: The T-GR glass retractable roof is constructed from thermally broken aluminum profiles. By combining these profiles with energy-efficient glass panels, we achieve resource and energy savings with significant environmental and economic benefits.
Weather Protection: The glass retractable roof with thermal break and energy-efficient glass panels ensures thermal comfort conditions within buildings.
Healthy Environment: Harnessing available natural light and outdoor air through the glass retractable roof improves the quality of life and psychology of people. Additionally, outdoor air penetrates the space, acting as natural cooling necessary for good health, especially since we spend most of our time indoors.
Pleasant Atmosphere: The glass retractable roof with thermal break, when using appropriate reflective glass, contributes to the proper distribution of light within the building space, creating conditions of visual comfort and improving the aesthetic of the space.
Innovative Design: The glass retractable roof system is one of Salinox’s most significant innovations (patent No 1009052). The aluminum trusses that make up the system feature an advanced water drainage system. Moreover, the double glazing is constructed using the structural bonding method. This means that the glass panel is at the same level as the aluminum profile, preventing any gaps. This contributes to both protecting the roof from possible water ingress and maintaining the cleanliness of the system.
Minimalist Aesthetic: Simple and modern design that maximizes the glass surface of the roof using structural glass panels.
Design Flexibility: The glass retractable roof can be constructed to the specific dimensions of the building opening. Depending on the space requirements, the number and configuration of frames can be adjusted. Additionally, there is the option to choose the number of panels that will be constructed as operable. For example, to reduce material costs, we can choose to open only half of the panels without affecting the visual harmony of the structure.
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