EP3705658A1

EP3705658A1 - Terrace skylight with many glass unit panels

Info

Publication number: EP3705658A1
Application number: EP19217336.7A
Authority: EP
Inventors: Artur BORUSZEWSKI
Original assignee: Ergo Plus Polska
Current assignee: Ergo Plus Polska
Priority date: 2019-03-07
Filing date: 2019-12-18
Publication date: 2020-09-09
Anticipated expiration: 2039-12-18
Also published as: EP3705658B1; PL429175A1; PL3705658T3

Abstract

The skylight contains a support frame (2), the inner surface of which is divided in a grid arrangement by beams (3) and the rectangular fields separated between them are covered by panels (1) of glass units with at least one inter-glass chamber, limited by the centrifugal distance from the edges of the inner glass (7) spacers (4). The panels (1) are pressed against the support surfaces (P) located in the common plane (O-O) on the upper walls of the beams (3), by screw connectors (8) and seals (9, 10). Along the median symmetry plane of the beams (3), holes are made in their upper and lower walls, through which screw holes (8) are routed through the holes in the upper wall, pressing against the support surfaces (P), the edge areas of the internal glass (5) covered by seals lower (9) and upper (10) and from above through rigid termination bar (11). The bolt pins (8) between the support surface (P) and the pressure strip (11) are covered by flexible sleeves (12). The inter-panel chambers (X) above the termination bar are filled with thermal insulation material (13), preferably lightweight concrete. The slots (s) between the edges of the outer glass (7) are closed by a seal (14) of a one-component polyurethane mass, and the holes (15) in the bottom walls of the beams (3) are closed by detachably pressed plugs (16).

Description

The subject of the invention is a terrace skylight with many glass unit panels, which, in a building partition which is essentially horizontal, can be arranged in a linear arrangement to create a light band or a two-dimensional extended surface, for example a glass unit terrace above a garage or above a room with an indoor pool.
The terrace skylight is a glass unit surface of a ceiling, permeable to natural light in order to illuminate the space below - and despite its structural similarity to fixed skylights and the structure of the façade panel fixing and its association with the function of a recreational area - is a rare solution in building architecture. One publication known for many years that depicts a terrace skylight with a surface formed of many adjacent rectangular glass unit plate is patent document GB 163667 . This skylight includes a support frame mounted on the periphery of the opening in the ceiling building partition. The internal surface of the support frame is partitioned by beams in a grid arrangement. Rectangular fields separated by beams are covered by glass unit plates, supported along the edges on beams in a common plane of supporting surfaces. Water permeating through the slots between the glass unit plates is discharged outside through a gutter system formed of support beams. The terrace elements do not protrude above the outer surface of the panels, but the gutter and grid arrangement of the beams requires sealing in all cross nodes. Moreover, the skylight is characterized by a very low level of thermal insulation.
Sealed solutions for skylights are used today, with sealed areas between the edges of adjacent glass unit panels. Among others, such solutions are described in patents EP1020578 , PL201511 and RU163667Y . These solutions have a support frame with beams in a grid arrangement. The surfaces separated between the beams are filled with glass unit panels with at least one inter-glass chamber. The beams have a rectangular cross-section, wherein edge areas of adjacent panels are pressed to their upper wall using a screw connector through a termination bar, covered by the upper and lower seal. The termination bar is located on the outer glass. In prototypes EP1020578 and PL201511 , the termination bar with the screw connector head is protected from above by a snap-fitted cover bar. In the EP1020578 version, an insulating element is additionally placed on the bolt of the screw connector in the inter-panel chamber, with laterally protruding elastic slats along the inter-panel chamber, which adhere to the spacers and front surfaces of the glass of adjacent panels after assembly - with the task of eliminating the thermal air bridge along the grid system of the inter-panel chambers. The cited inventions with easy access from the outside to the screw connector do not prevent criminals from breaking into the building through the skylight.
Glass unit panels are offered with inter-glass chambers limited by spacers located in the alignment position or centred at the edges of the inner glass.
The present invention solves the technical problem of developing a terrace skylight with a technologically simple structure with an outer surface without any protrusions, without unevenness hindering the movement of people, especially the disabled, and at the same time preventing the building from being easily broken into via a skylight.
This terrace skylight, according to its invention and similarly to existing skylight solutions, includes a support frame whose internal surface is divided in a grid arrangement by box-shaped beams. Rectangular fields separated between the beams are covered with glass unit panels with at least one inter-glass chamber, tightly limited by spacers centred at the edges of the inner glass unit. The panels are pressed against the supporting surfaces of the beams and the supporting frame by means of screw connectors through the seals, which are located in a common plane.
The disclosure of the invention is based on the fact that the support surfaces are comprised of the flat surfaces of the upper wall of each beam and that along the median plane of symmetry of the beams - in their upper and lower wall - there are holes from which screw connectors are inserted through the holes in the top wall. The fasteners press against the supporting surfaces, edge areas of the internal glass covered by bottom and top seals, and from above by rigid termination bar. The bolts of the screw connectors between the support surface and the termination bar are covered by flexible sleeves, specially made of elastomer. The inter-panel chambers between the edges of adjacent panels, limited by a termination bar, spacers and edge areas of the outer glass are filled with heat-insulating material, preferably lightweight concrete, while the gaps between the edges of the outer glass are closed with a one-component polyurethane sealant. The holes in the bottom walls of the beams are closed by detachably push-in plugs.
An embodiment in which the thermal insulation material consists of three linear fittings wedge-fastened is preferred along with filled inter-panel chambers. The central fitting has a lower end in the shape of an isosceles trapezoid with a larger upper base with a gap dimension between the outer glass and two side fittings with the same cross-section adhere on both sides to the wedge-narrowing walls of the central fitting and the remaining dimensions fill the other areas of the internal space.
It is also preferred if the panels located on the perimeter of the skylight are pressed - through seals covering the edge areas of the inner unit - to the support surfaces of the support frame by brackets attached to the support frame with screws so that they can slide.
The skylight, according to the invention, is described by the outline of the exemplary embodiment shown in the drawing, where Fig. 1 shows a vertical cross-section through the edge portion of the skylight surface and in Fig. (2) the enlarged detail of the inter-panel chamber is shown, fastening the adjacent panels.
The described example of a skylight terrace is built into the highest horizontal partition in a high multi-apartment building. The reinforced concrete glass ceiling serves as a recreational terrace for residents and at the same time separates the swimming pool located below. The surface of the skylight is made of many panels (1) of the glass unit, tightly fixed on the support frame (2), which is peripherally attached to the building partition. The inner surface of the support frame (2) is divided in a lattice arrangement by beams (3) with a rectangular cross section, which are welded or rigidly bolted together with the support frame (2). The dimensions of the beams (3) are adapted to the loads associated with the dimensions of the skylight surface and the operational load. 3 rectangular fields separated between the beams are covered by glass panels (1), having two inter-glass chambers, tightly separated and connected by spacers (4) between two bonded inner glass (5), inner glass 6 and three bonded outer glass (7). The spacers (4) are centred off the edges internal glass (5).
On the support frame (2) and beams (3) there are support surfaces P located in a common O-O plane, which in beams (3) consist of the flat upper surfaces of the upper walls. Along the median symmetry plane of the beams (3), there are holes in their upper and lower walls, from which screw connectors are routed through the holes in the upper wall (8). Screw connectors (8) - through the bottom (9) and upper (10) seals covering the edge areas of the inner glass (5) and through the rigid termination bar (11)- tightly press the panels (1) to the support surfaces P. The bolts of the screw connectors (8) between the support surfaces P and the termination bar (11) are covered by flexible sleeves (12), specially made of elastomer - protecting against damage to the glass during assembly. The inter-panel chambers (X), located between the edges of adjacent panels (1) and bounded by termination bars (11), spacers (4) and edge areas of the outer glass (7) are filled with thermal insulation material (13), preferably lightweight concrete. The slots between the edges of the outer glass (7) are closed by a seal (14) of a one-component polyurethane mass, and the mounting holes (15) in the bottom walls of the beams (3) are closed by detachably pressed plugs (16). Installation operations are significantly simplified when the thermal insulation material (13) consists of three linear fittings; the middle (17) and two side (18), wedge-fastened and filling inter-panel chambers (X). The middle fitting (17) has a cross-section in the cross section in the shape of an isosceles wedge with the upper larger base having the dimension of gap s, while the side fittings 18 have the same cross section, on both sides adhere to the wedge-shaped inclined walls of the central fitting (17) and the remaining dimensions fill the areas of the inner space (X). The fittings (17) and (18), in addition to the thermal insulation of the inter-panel space (X), relieve the screw connectors (8) in transferring pressure from the outer glass (7).
In the described example of skylight solution, the panels (1) located on the perimeter are pressed - by seals (9) and (10) covering the edge areas of the inner glass (5) - to the support surfaces (P) of the support frame (2) by means of brackets (19) fastened with screws (20) to the vertical wall of the support frame (2). Supporting frame (2) has a profile that opens outwards downwards, which allows the pool surface to be exposed to natural light. From the inside, the slots of the support frame (2) and beams (3) are covered with alubutyl tape and the surface of the beams (3) is masked with protective elements made of aluminum sheets with powder coating.

List of markings in the drawing

1.: panel
2.: supporting frame
3.: beam
4.: spacer
5.: inner glass
6.: middle rail
7.: outer glass
8.: screw connector
9.: bottom seal
10.: top seal
11.: termination bar
12.: flexible sleeve
13.: thermal insulation material
14.: seal
15.: mounting hole
16.: plug
17.: middle fitting
18.: side fitting
19.: bracket
20.: screw

O-O.: plane of support surfaces
P.: supporting surface
X.: inter-panel chamber
s.: the slot between the outer glass

Claims

Terrace skylight with many glass unit panels, including a support frame (2), the inner surface of which is divided in a grid arrangement by beams (3) with a rectangular box section, and rectangular fields separated between beams (3) are covered by glass unit panels (1) with at least one inter-glass chamber, tightly limited by centred from the edges of the inner glass (7) spacers (4), where the panels (1) are pressed against the support surfaces (P) located in the common plane (O-O) on the beams (3) by screw connectors (8) and seals (9, 10), characterized in that the support surfaces (P) are flat surfaces of the upper wall of each beam (3) and that along the median plane of symmetry of the beams (3) in their upper and lower walls there are holes from which screw connectors (8) are routed through the holes in the upper wall, which press against the support surfaces (P) edge areas of the inner glass unit (5) covered by bottom seals (9) and upper (10) and rigid termination bar (11) from above, with bolt pins (8) between the support surface (P) and the termination bar (11) are covered by flexible sleeves (12), specially made of elastomer, and the inter-panel chambers (X) between the edges of adjacent panels (1) limited by termination bar (11), spacers (4) and edge areas of outer glass units (7) are filled with thermal insulation material (13), preferably lightweight concrete, and the slots (s) between the edges of the outer glass units (7) are closed with a seal (14) made of one-component polyurethane mass, and that the holes in the bottom walls of the beams (3) are closed by detachable push-in plugs (16).
The skylight, according to claim 1, is characterized in that the heat-insulating material (13) consists of three linear fittings (17, 18) wedge-fastened and filling inter-panel chambers (X), of which the central fitting (17) has a lower end in the shape of an isosceles trapezoidal cross-section with the upper larger base with the dimension of the slots (s) and two side fittings (18) with the same cross-section that adhere on both sides to the wedge-narrowing walls of the central fitting (17) and the remaining dimensions fill the areas of the internal space (X).
The skylight, according to claim 1, is characterized in that the panels (1) located on the perimeter of the skylight are pressed - by the inner glass (5) seal areas (5) of the seal (9, 10) - to the support surfaces (P) of the support frame (2) by a bracket (19) attached with screws (20) to the support frame (2) so that it can slide.