A modular roof system for a building and method for installing the modular roof system includes roofing modules (M) which are designed to be arranged alongside each other substantially with continuity on a supporting structure (C, T). Each roofing module (M) includes a supporting base (20; 120) whic
A modular roof system for a building and method for installing the modular roof system includes roofing modules (M) which are designed to be arranged alongside each other substantially with continuity on a supporting structure (C, T). Each roofing module (M) includes a supporting base (20; 120) which is designed to receive at least one functional element of the roofing and rests on the support structure (C, T) in an installation condition, and a top covering part (22; 122) supported on the base (20; 120). The base (20; 120) is shaped so as to define at least one free channel (26′; 126′) extending substantially along a first direction of juxtaposition of the modules (M) and each roofing module (M) has interlocking members for joining together with adjacent modules (M) along at least one direction of juxtaposition of the modules (M).
대표청구항▼
1. Modular roof system for a building, comprising a plurality of roofing modules in a side by side arrangement on a supporting structure, each roofing module comprising a support base resting on the supporting structure of the assembled roofing modules and a top covering part supported on said base,
1. Modular roof system for a building, comprising a plurality of roofing modules in a side by side arrangement on a supporting structure, each roofing module comprising a support base resting on the supporting structure of the assembled roofing modules and a top covering part supported on said base, wherein the base of at least one of the roofing modules has at least one functional element, wherein each roofing module has interlocking joining means for joining together with adjacent modules along at least one direction of juxtaposition of the modules;wherein the base of each of the modules comprises at least one lateral free channel connected to corresponding free channels of adjacent modules along a predetermined roof covering direction and over an entire extension of a roof pitch, the free channels and corresponding free channels being arranged side-by-side and forming a continuous service duct laterally in at least one of the adjacent modules, the service duct extending between two facing lateral elements of pairs of adjacent modules along a direction orthogonal to said predetermined roof covering direction, the service duct receiving connecting elements from said functional elements of said at least one module;wherein the base of the module includes a bottom platform and a top insulation block receiving at least one functional element of said roofing, said block defining a free channel connectable in a side by side arrangement to a corresponding˜channel defined in an adjacent module in a predetermined roof covering direction;wherein at least two side of the module have seals extending along the length of the respective side. 2. System according to claim 1, wherein the base of the module includes a housing space designed to receive at least one functional element of said roofing, comprising first lateral elements extending along a first dimension of the module and designed to define a respective free channel extending parallel to said housing space and designed to be connected with continuity to a corresponding channel defined in the base of an adjacent module along a predetermined covering direction of the roof, and second lateral elements extending along a second dimension of the module substantially orthogonal to the first dimension and designed to define said means for joining together in an interlocking manner adjacent modules along a second direction of juxtaposition of the modules. 3. System according to claim 2, wherein said housing space is defined by a box-like structure bounded in the perimetral direction by a pair of first facing lateral elements and by a pair of second facing lateral elements adjacent to said first elements. 4. System according to claim 3, wherein said joining means defined by said lateral elements comprise a groove formed in a front element and a projection with a shape corresponding to that of said groove, formed in a rear element. 5. The modular roof system for a building according to claim 1, wherein the insulation block has an arrangement which is offset with respect to the bottom platform which defines said interlocking joining means. 6. The modular roof system for a building according to claim 5, wherein the insulation block of a module projects with respect to the bottom platform on two adjacent sides of the module along a first and a second orthogonal direction of juxtaposition of the modules, wherein a module is joined to the adjacent modules by insertion of the module's platform underneath the insulation block of two first modules adjacent along both the directions of juxtaposition of the modules and by mounting the insulation block above the platform of two adjacent modules adjacent along both the directions of juxtaposition of the modules. 7. The modular roof system for a building according to claim 1, wherein at least one functional element of said roofing is a device consisting of one or more of illuminating devices, energy production devices, surveillance devices, communication devices, environmental control devices, domestic user installation devices, mechanical mounting devices and furnishing elements. 8. The modular roof system for a building according to claim 7, wherein said device is exposed to the outside of the building and forms said top covering part. 9. The modular roof system for a building according to claim 7, wherein said device is exposed to the inside of the building, so that the base of the module is passed through by the device to allow exposure of the device inside the building. 10. The modular roof system for a building according to claim 1, wherein a service duct is formed by at least one free channel extending parallel to a pair of adjacent modules and receiving elements connecting the functional element of at least one of said modules to a building installation. 11. The modular roof system for a building according to claim 10, wherein the service duct includes insulation at least partially retaining and surrounding the elements connecting the functional devices routed along the service duct. 12. The modular roof system for a building according to claim 11, wherein a service channel is formed by the juxtaposition of a plurality of modules from a gutter line to a roof ridge, extends in a predetermined covering direction of the roof and merges into a header channel running along the roof ridge. 13. The modular roof system for a building according to claim 1, wherein the top covering part of the module is a shaped covering sheet. 14. The modular roof system for a building according to claim 1, wherein the top covering part of the module includes a plurality of parts, wherein one of the plurality of parts comprises a plurality of battens which support roof covering articles.
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이 특허에 인용된 특허 (6)
Taylor Mark (7680 W. Chatfield Ave. Littleton CO 80123) Taylor Laura B. (7680 W. Chatfield Ave. Littleton CO 80123), Drainage roofing tile.
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