Technical field
[0001] The present invention relates to a window system comprising a roof window with a
frame structure including top, side and bottom frame members, a sash structure carrying
a pane element and including top, side and bottom sash members, an operator including
an operator member having a first and a second end and adapted to extend between the
frame structure and the sash structure, said frame structure being adapted to be installed
in a roof structure, the window system further comprising a flashing arrangement surrounding
the said window frame and sash structures and comprising a plurality of flashing members,
and a wind deflecting kit placed outside the periphery of the said frame and sash
structures and on the outside face of the said flashing arrangement, the said wind
deflector kit including a plurality of elements, comprising at least two side elements,
two corner elements, two side mounting flanges and one front element, which elements
are to be assembled to a unitary wind deflector structure placed alongside the outside
of the window frame and sash bottom and partially alongside the lower parts of the
two window frame and sash sides.
Background art
[0002] Roof windows of the kind described above are often used for providing ventilation
of air, heat or smoke, so that a free airflow may be obtained in a building where
a ventilation mechanism is necessary. There is often a need for providing especially
smoke ventilation, where the window system should be arranged such as to automatically
open for example in the presence of fire. In assisting this opening it is generally
known to provide the window systems with an operator member. Likewise, it is known
to include in such window systems a wind deflecting kit placed on the inside of the
window or outside of the frame and surrounding the window. Examples of such kits are
described in
DE 74 05 961 U which describes a bulky window system comprising a window frame structure, a sash
structure, an operator, and wind deflector walls placed at least partially along and
on the outside of the frame structure. In
DE 20 2005 019 510 U is described a window system comprising of a window frame structure, a sash structure,
a set of operators, and a set of movable wind deflector walls placed at least partially
along the inside of the frame structure. Here the wind deflector walls are placed
in a retracted position along the frame sides and rise as the window sash opens via
connection rods. As a common denominator for these known roof window systems, one
could mention their not-so-appealing appearance - being visible and bulky, and limiting
the window opening thus obstructing the view through the opening.
[0003] When it comes to installation of a plurality of roof windows in, for instance, a
mall or similar large building, it is important to have smoke ventilation windows
in order to fullfil the various building regulations and standards administered by
the building authorities. The purpose is to have a regulated draft through and out
of the building enabling the extraction of smoke, fumes and hazardous substances.
This is dealt with by equipping or adapting a calculated number of windows so they
can be opened automatically and effectively extract smoke and fumes originating for
example from a fire in the building.
[0004] When a roof window is to be used as a smoke ventilation roof window, it has to be
CE certified according to EN ISO 12 101-2. In order to comply with the norm and regulations
there has to be a sub pressure at the window opening between 3 - 12 Pa, and the window
is said to be independent of the wind. When a geometric opening area is sufficient,
the roof window can be used without wind deflectors. Otherwise, in situations where
the design of the roof window area and the regulations require that the aerodynamic
free area is used, wind deflectors are necessary. In relation to the CE certification
and the EN, various parameters are measured for a given window area such as different
wind directions, mass flow, Cvw values and the aerodynamic area Av0. These parameters
are well-known to the person skilled in the art.
[0005] In the light of the above it is the object of the present invention to provide a
roof window system of the type mentioned in the introduction, which has a more appealing
and a less bulky appearance and a less obstructed window opening and an almost unobstructed
view through the window opening.
Summary of the invention
[0006] To meet this object, the roof window system according to the invention is further
characterized in that the unitary wind deflector structure is placed, in the longitudinal
direction of the window, at a distance from the roof window bottom equal to the height
of the said deflector structure and, in the lateral direction of the window, at a
distance from the window sides less than half the said height. It may be hereby achieved
that the structure can be placed at a distance from the opening of the roof window
giving the wanted uninterrupted viewpoint both for the window, which is equipped with
the wind deflector and for adjacent placed roof windows, where you don't want to have
the side elements stretching in over neighbouring windows impeding their free viewpoint.
[0007] In another embodiment of the invention, the wind deflector kit has side elements
with a rectangular, square or triangular shape. Hereby is achieved a simple geometrical
configuration having almost the same efficiency with respect to the Cvw and Cva numbers.
The triangular shape being the least efficient of the three and the rectangular being
the better.
[0008] According to another embodiment for the invention, the wind deflector kit comprises
that the side elements are integrated both with the corner elements and the side mounting
flanges to form the unitary wind deflector structure. With this arrangement, a more
straightforward, faster and therefore cheaper construction method may be made possible.
In addition, this arrangement may result in a sturdier wind deflector presenting greater
resistance to mechanical stress, thereby better withstanding threats incurred during
and after installation.
[0009] According to another embodiment for the invention, the wind deflector kit includes
at least two additional centre mounting flanges, placed at distance from the side
mounting flanges. By adding two extra mounting flanges at the centre of the wind deflector
structure, a more robust and solid structure may be achieved, thereby possible offering
better increased resistance to threats incurred during and after installation.
[0010] In a technically simple embodiment, the wind deflector kit comprises that the side
elements are integrated both with the corner elements and the side mounting flanges
and that the said additional centre mounting flanges also are integrated with the
corner elements placed at distance opposite from the side mounting flanges to form
the unitary wind deflector structure.
[0011] According to another embodiment for the invention, the wind deflector kit elements
all have the same height, preferably in the range of 20 to 60 cm, more preferred in
the range of 25 to 50 cm and most preferred in the range from 30 to 40 cm. Hereby
a less bulky and more appealing overall appearance is achieved.
[0012] According to another embodiment of the invention, the unitary wind deflector structure
is placed at a distance from the roof window bottom frame, where the distance is less
than height but greater than half the height of the said deflector structure.
[0013] According to another embodiment of the invention, the unitary wind deflector structure
is placed at a distance above the flashing arrangement to create a clearance area
between the said deflector structure and the flashing arrangement. It may be thereby
made possible for debris, leaves, rainwater etc. to exit through the clearance area
so that the roof window system can be kept clean.
[0014] Other presently preferred embodiments and further advantages will be apparent from
the following detailed description and the dependent claims.
Brief description of drawings
[0015] In the following the invention will be described in further detail by means of examples
of embodiments, with reference to the schematic drawings in which
Fig. 1 shows a perspective view of a prior art roof window,
Fig. 2 shows a perspective view of a window system according to the invention, where
the window is in a closed position,
Fig. 3 is a view corresponding to that of Fig. 2, where the window system is equipped
with the wind deflector,
Fig. 4 is a detail view corresponding to that of Fig. 3, where the window is equipped
with the wind deflector,
Fig. 5 is a detail view corresponding to that of Fig. 3, where the window is equipped
with second embodiment of the wind deflector,
Fig. 6 shows a perspective view of a window system according to the invention, where
the roof window is in an open schematic position,
Fig. 7 shows a schematic drawing of the window system and the opening areas for the
roof window opening and the area between window and deflector,
Fig. 8 shows a perspective view of a third embodiment of a window system with a deflector
according to the invention, where the deflector is shown placed at a single roof window,
and
Fig. 9 shows a perspective view of a third embodiment of a window system with a deflector
according to the invention, where the deflector is shown placed at the middle of three
roof windows arranged side by side.
Description of embodiments
[0016] Fig. 1 illustrates a prior art roof window 1 comprising a frame structure. The roof
window system represented in figure 1 also comprises an operator 8 of a standard type,
e.g. a chain operator to open and close the window, useful for moving the sash with
respect to the stationary frame. The figure also shows a roof window system surrounded
by a smoke deflector attached to the frame of the window.
[0017] A perspective view of a window system according to the invention is shown in figure
2, where the roof window 1 comprising a frame structure comprising a first and a second
pair of mutually opposite frame members is shown. The first pair consists of one member
in the form of a top member and another member in the form of a bottom member. The
two members of the second pair constitute mutually opposite side members, each extending
between the top and bottom members to form a substantially rectangular frame intended
to be built-in in e.g. an inclined roof (not shown). The roof window 1 in figure 2
in a similar manner also comprises a first and a second pair of sash members, a top
sash member 2 and bottom sash member 4 and mutually opposite pair of side sash members
3. The window system is depicted in a closed position, and is placed in a flashing
5 in an underlying roof structure (not shown). In the sash a window pane of any type,
e.g. an insulating unit, may be encased. The inclination may be defined by the roof
pitch, which for example could be in the range 5-15° with respect to a horizontal
plane.
[0018] Fig. 3 is a view corresponding to that of Fig. 2, where the window system is equipped
with the wind deflector 10 in accordance with the invention. The wind deflector kit
10, 10*, 10** should have side elements 130 with a suitable shape so as to facilitate
easy mounting, sturdyness in the mounted condition and effective wind deflection,
such as, but not limited to, a rectangular, square or triangular shape. The wind deflector
kit may also comprise side elements 130 integrated with the corner elements 120, thus
forming a unitary wind deflector structure in this manner.
[0019] The wind deflector kit may be integrated with the side mounting flanges 135, thus
forming a unitary wind deflector structure in this manner.
[0020] The wind deflector kit may include at least two additional centre mounting flanges
110, placed at a distance from the side mounting flanges 130.
[0021] The wind deflector kit may alternatively comprise that the side elements 130 are
integrated both with the corner elements 120 and the side mounting flanges 135 and
that the said additional centre mounting flanges 110 also are integrated with the
corner elements 135 placed at distance opposite from the side mounting flanges 130
to form the unitary wind deflector structure in this manner.
[0022] Said wind deflector kit elements 10, 100, 110, 120, 130 may all have the same height,
preferably in the range of 20 to 60 cm, more preferred in the range of 25 to 50 cm
and most preferred in the range from 30 to 40 cm.
[0023] The unitary wind deflector structure (10, 10*, 10**) is, seen in the longitudinal
direction of the window, at a distance from the roof window bottom equal to the height
of the said deflector structure. Said distance is preferably in the range of 20 to
50 cm, more preferred in the range of 25 to 45 cm and most preferred in the range
from 30 to 40 cm. The unitary wind deflector structure (10, 10*, 10**) is, seen in
the lateral direction of the window, at a distance from the window sides less than
half the said height, preferably in the range of 10 to 50 cm, more preferred in the
range of 10 to 40 cm and most preferred 10 to 30 cm.
[0024] Fig. 6 shows a perspective view of a window system according to the invention, where
the roof window 1 is in an open schematic position, where it is possible to see the
frame and sash structures respectively, with the top members 2 and 20, the side members
3 and 30, and the bottom member 4 and 40. It is also possible to see the operator
member 8, which is intended to open and close the roof window 1. Last, the flashing
structure 5 can be seen.
[0025] Fig. 7 illustrates a schematic drawing of the roof window and the opening areas (A1-A3)
for the window opening and the area (D1-D3) between window and deflector. These values
can indirectly be used to calculate the deflectors influence on the wind flow over
the window opening. The aerodynamic area is calculated using the Cv factor, which
determines the relation between the geometric area and the aerodynamic area of the
window. The Cv factor expresses the effectiveness of the smoke ventilation. The aerodynamic
area of a window is determined by EN 12101-5 (2005). Here the Cv factor is set to
0.7 as this is the physical contraction that occurs when air passes through openings.
A combination of openings renders the resulting aerodynamic area where the total contraction
is greatest, i.e the smallest effective area. That means that a plurality of openings
in series will reduce the effective opening. The formula from EN 12101-5 takes this
into account:
[0026] A indicates the individual opening areas of the window, A
1 is the frame opening area, A
2 is the opening area between the frame and sash bottoms while A
3 is the opening area of the two triangles at the frame and sash sides, see figure
8.
[0027] The opening area for the three sides can then be added so that the window has a total
opening area. As an example, calculations for one size window were made to illustrate
the influence at the aerodynamic area created by the window dimensions and the length
of the operator member, here is used a standard chain operator. The graph in the below
Table 1 shows the ratio of the distance from the deflector to the window and the influence
of the aerodynamic area for the window.
[0028] The deflector distance is divided into respectively; "Afstand foran" (distance in
front) and "Afstand siderne" (distance on the sides), so that it is possible to see
how the two different distances affect the aerodynamic area and thus choose the optimum
location of the deflector. The distance varies from 0.1 to 0.6 m. From this illustration
it becomes evident that the distance between the unitary wind deflector structure
10, 10*, 10** and the roof window bottom 4, 40, should be placed in the range of 20
to 60 cm, and most preferably around 30 to 40 cm. The distance between the sides of
the unitary wind deflector structure 10, 10*, 10** and the window sides 3, 30, preferably
is in the range of 10 to 50 cm, more preferred in the range of 10 to 40 cm and most
preferred 10 to 30 cm. These are the preferred values taking the overall purpose of
the invention into account.
[0029] Fig. 8 illustrates a third embodiment of a roof window system according to the invention
comprising a deflector 10** placed at a flashing 5 at a distance from the window bottom.
This third embodiment is different due to the triangular shape of the wind deflector
side elements 130. The shown wind deflector kit 10, 10*, 10**, includes a plurality
of elements, e.g. two side elements 130, two corner elements 120, two side mounting
flanges 135 and one front element 100. The elements are to be assembled to a unitary
wind deflector structure placed alongside the outside of the window frame and sash
bottom and partially alongside the lower parts of the two window frame and sash sides.
Also shown in the figure 8 is that the wind deflector kit 10, 10*, 10** have the side
elements 130 integrated, not only to the corner elements 120 and the side mounting
flanges 135, but also to the two additional centre mounting flanges 110, placed at
distance and opposite from the side mounting flanges 130. By integration of the four
elements 110, 120, 130 and 135, we achieve a single piece component, thus making this
item less complicated. Two such components can be connected with one front element
100, thus forming the unitary wind deflector structure. Depending upon the length
of the front element 100 and how much it is intended to overlap the corner part of
the single piece component, the overall length of the wind deflector structure can
be adjusted or modified in accordance with the required installation situation, i.e.
dependent on the size of the window and the flashing used.
[0030] Fig. 9 shows a perspective view of a third embodiment of a window system with a deflector
10 according to the invention, where the deflector 10 is shown placed at the middle
of three roof windows 1 arranged side by side. The side elements 130 of the wind deflector
kit 10 only extend minimally in and over the adjacent or neighboring roof windows
1. The front element 100 and the two corner elements 120 of the kit can be seen to
be assembled via common connection means 200 (not disclosed in detail herein).
[0031] The roof window comprises a frame structure including a plurality of frame members,
a sash structure carrying a pane element and including a plurality of sash members,
an operator including an operator member having a first and a second end and adapted
to extend between the frame structure and the sash structure, the sash being pivotally
connected to the frame so that a pivotal opening movement of the sash in relation
to the frame moves the window between a closed position and a fully opened position
where the smoke can exit through the opening.
[0032] Furthermore the roof window may comprise a traditional chain actuator configured
at least for performing the closure of the window. The window being configured with
a chain actuator has the effect of providing closing assisting means, such that the
window for example could be self closing and locking.
[0033] The invention should not be regarded as being limited to the embodiments described
in the above, but various modifications and combinations may be carried out, as defined
in the appended claims. For example this disclosure may be employed in roof windows
which are top hanged, bottom hanged or semi-top hanged.
1. A window system comprising a roof window (1) with a frame structure including top,
side and bottom frame members (20,30,40), a sash structure carrying a pane element
and including top, side and bottom sash members (2,3,4), an operator including an
operator member (8) having a first and a second end and adapted to extend between
the frame structure and the sash structure, said frame structure being adapted to
be installed in a roof structure, the window system further comprising a flashing
arrangement (5) surrounding the said window frame and sash structures and comprising
a plurality of flashing members, and a wind deflecting kit (10) placed outside the
periphery of the said frame and sash structures and on the outside face of the said
flashing arrangement (5), the said wind deflector kit (10, 10*, 10**) including a
plurality of elements, comprising at least two side elements (130), two corner elements
(120), two side mounting flanges (135) and one front element (100), which elements
are to be assembled to a unitary wind deflector structure placed alongside the outside
of the window frame and sash bottom and partially alongside the lower parts of the
two window frame and sash sides,
characterized in that the unitary wind deflector structure (10, 10*, 10**) is placed, in the longitudinal
direction of the window, at a distance from the roof window bottom equal to the height
of the said deflector structure and, in the lateral direction of the window, at a
distance from the window sides less than half the said height.
2. A window system according to claim 1, wherein the wind deflector kit (10, 10*, 10**)
has side elements with a rectangular, square or triangular shape.
3. A window system according to claim 1 or 2, wherein the wind deflector kit (10, 10*,
10**) comprises that the side elements (130) are integrated both with the corner elements
(120) and the side mounting flanges (135) to form the unitary wind deflector structure.
4. A window system according to any one of the previous claims, wherein said wind deflector
kit (10, 10*, 10**) includes at least two additional centre mounting flanges (110),
placed at distance from the side mounting flanges (135).
5. A window system according to claims 3 and 4, wherein the wind deflector kit (10, 10*,
10**) comprises that the side elements (130) are integrated both with the corner elements
(120) and the side mounting flanges (135) and that the said additional centre mounting
flanges (110) also are integrated with the corner elements (120) placed at distance
opposite from the side mounting flanges (135) to form the unitary wind deflector structure.
6. A window system according to any one of the previous claims, wherein the wind deflector
kit elements (10, 100, 110, 120, 130) all have the same height, preferably in the
range of 20 to 60 cm, more preferred in the range of 25 to 50 cm and most preferred
in the range from 30 to 40 cm.
7. A window system according to any one of the previous claims, wherein distance between
the unitary wind deflector structure (10, 10*, 10**) and the roof window bottom, preferably
is in the range of 20 to 50 cm, more preferred in the range of 25 to 45 cm and most
preferred in the range from 30 to 40 cm, and the distance between the sides of the
unitary wind deflector structure (10, 10*, 10**) and the window sides, preferably
is in the range of 10 to 50 cm, more preferred in the range of 10 to 40 cm and most
preferred 10 to 30 cm.
8. A window system according to any one of the previous claims, wherein the unitary wind
deflector structure (10, 10*, 10**) is placed at a distance above the flashing arrangement
(5) to create a clearance area between the said deflector structure and the flashing
arrangement.
1. Fenstersystem, das ein Dachfenster (1) mit einer Rahmenstruktur, die ein oberes, seitliches
und unteres Rahmenelement (20, 30, 40) enthält, eine Flügelstruktur, die ein Scheibenelement
trägt und ein oberes, seitliches und unteres Flügelelement (2, 3, 4) enthält, einen
Betätiger, der ein Betätigungselement (8) enthält, das ein erstes und ein zweites
Ende aufweist, und dazu eingerichtet ist, sich zwischen der Rahmenstruktur und der
Flügelstruktur zu erstrecken, wobei die Rahmenstruktur dazu eingerichtet ist, in einer
Dachstruktur eingebaut zu werden, umfasst, wobei das Fenstersystem ferner eine Anschlussanordnung
(5) umfasst, die die Fensterrahmen- und Flügelstruktur umgibt und mehrere Anschlusselemente
und einen Windableitungssatz (10), der außerhalb des Rands der Rahmen- und Flügelstruktur
und auf der Außenseite der Anschlussanordnung (5) angeordnet ist, umfasst, wobei der
Windableitungssatz (10, 10*, 10**) mehrere Elemente enthält, mindestens zwei Seitenelemente
(130), zwei Eckelemente (120), zwei Seitenmontageflansche (135) und ein Vorderseitenelement
(100) umfasst, wobei die Elemente an eine einstückige Windableitungsstruktur zu montieren
sind, die neben der Außenseite des Fensterrahmens und der Flügelunterseite und teilweise
neben den unteren Teilen der zwei Fensterrahmen- und Flügelseiten angeordnet ist,
dadurch gekennzeichnet, dass die einstückige Windableitungsstruktur (10, 10*, 10**) in Längsrichtung des Fensters
in einem Abstand von der Unterseite des Dachfensters, der der Höhe der Ableitungsstruktur
entspricht, und in seitlicher Richtung des Fensters in einem Abstand von den Fensterseiten,
der weniger als die Hälfte der Höhe beträgt, angeordnet ist.
2. Fenstersystem nach Anspruch 1, wobei der Windableitungssatz (10, 10*, 10**) Seitenelemente
mit rechteckiger, quadratischer oder dreieckiger Form aufweist.
3. Fenstersystem nach Anspruch 1 oder 2, wobei der Windableitungssatz (10, 10*, 10**)
umfasst, dass die Seitenelemente (130) sowohl in die Eckelemente (120) als auch die
Seitenmontageflansche (135) integriert sind, um die einstückige Windableitungsstruktur
zu bilden.
4. Fenstersystem nach einem der vorstehenden Ansprüche, wobei der Windableitungssatz
(10, 10*, 10**) mindestens zwei zusätzliche mittige Montageflansche (110) enthält,
die von den Seitenmontageflanschen (135) beabstandet angeordnet sind.
5. Fenstersystem nach Anspruch 3 und 4, wobei der Windableitungssatz (10, 10*, 10**)
umfasst, dass die Seitenelemente (130) sowohl in die Eckelemente (120) als auch die
Seitenmontageflansche (135) integriert sind, und dass die zusätzlichen mittigen Montageflansche
(110) in einem Abstand gegenüber der Seitenmontageflansche (135) angeordnet ebenso
in die Eckelemente (120) integriert sind, um die einstückige Windableitstruktur zu
bilden.
6. Fenstersystem nach einem der vorstehenden Ansprüche, wobei die Windableitungssatzelemente
(10, 100, 110, 120, 130) alle dieselbe Höhe aufweisen, vorzugsweise im Bereich von
20 bis 60 cm, weiter bevorzugt im Bereich von 25 bis 50 cm und am meisten bevorzugt
im Bereich von 30 bis 40 cm.
7. Fenstersystem nach einem der vorstehenden Ansprüche, wobei der Abstand zwischen der
einstückigen Windableitungsstruktur (10, 10*, 10**) und der Unterseite des Dachfensters
vorzugsweise im Bereich von 20 bis 50 cm, weiter bevorzugt im Bereich von 25 bis 45
cm und am meisten bevorzugt im Bereich von 30 bis 40 cm liegt, und der Abstand zwischen
den Seiten der einstückigen Windableitungsstruktur (10, 10*, 10**) und den Fensterseiten
vorzugsweise im Bereich von 10 bis 50 cm, weiter bevorzugt im Bereich von 10 bis 40
cm und am meisten bevorzugt im Bereich von 10 bis 30 cm liegt.
8. Fenstersystem nach einem der vorstehenden Ansprüche, wobei die einstückige Windableitungsstruktur
(10, 10*, 10**) in einem Abstand über der Anschlussanordnung (5) angeordnet ist, um
einen Zwischenraum zwischen der Ableitungsstruktur und der Anschlussanordnung zu erzeugen.
1. Système de fenêtre comprenant une fenêtre de toiture (1) avec une structure de cadre
comprenant des éléments de cadre supérieur, latéral et inférieur (20, 30, 40), une
structure de châssis portant un élément de vitre et comprenant des éléments de châssis
supérieur, latéral et inférieur (2, 3, 4),
un opérateur comprenant un élément d'opérateur (8) ayant une première et une seconde
extrémité et adapté pour s'étendre entre la structure de cadre et la structure de
châssis, ladite structure de cadre étant adaptée pour être installée dans une structure
de toiture, le système de fenêtre comprenant en outre un agencement à solins (5) entourant
lesdites structures de cadre et de châssis de fenêtre et comprenant une pluralité
d'éléments de solin, et un kit déflecteur de vent (10) placé à l'extérieur de la périphérie
desdites structures de cadre et de châssis et sur la face extérieure dudit agencement
à solins (5), ledit kit déflecteur de vent (10, 10*, 10**) comportant une pluralité
d'éléments, comprenant au moins deux éléments latéraux (130), deux éléments de coin
(120), deux brides de montage latérales (135) et un élément avant (100), lesquels
éléments doivent être assemblés à une structure unitaire de déflecteur de vent placée
le long de l'extérieur du bas du cadre et du châssis de fenêtre et partiellement le
long des parties inférieures des deux côtés du cadre et du châssis de fenêtre,
caractérisé en ce que la structure unitaire de déflecteur de vent (10, 10*, 10**) est placée, dans la direction
longitudinale de la fenêtre, à une distance du bas de la fenêtre de toiture égale
à la hauteur de ladite structure de déflecteur et, dans la direction latérale de la
fenêtre, à une distance des côtés de fenêtre inférieure à la moitié de ladite hauteur.
2. Système de fenêtre selon la revendication 1, caractérisé en ce que le kit déflecteur de vent (10, 10*, 10**) présente des éléments latéraux de forme
rectangulaire, carrée ou triangulaire.
3. Système de fenêtre selon la revendication 1 ou 2, dans lequel le kit déflecteur de
vent (10, 10*, 10**) est caractérisé en ce que les éléments latéraux (130) sont intégrés à la fois avec les éléments de coin (120)
et les brides de montage latérales (135) pour former la structure unitaire de déflecteur
de vent.
4. Système de fenêtre selon l'une quelconque des revendications précédentes, dans lequel
ledit kit déflecteur de vent (10, 10*, 10**) comprend au moins deux brides de montage
centrales supplémentaires (110), placées à distance des brides de montage latérales
(135) .
5. Système de fenêtre selon les revendications 3 et 4, dans lequel le kit déflecteur
de vent (10, 10*, 10**) est caractérisé en ce que les éléments latéraux (130) sont intégrés à la fois avec les éléments de coin (120)
et les brides de montage latérales (135) et en ce que lesdites brides de montage centrales supplémentaires (110) sont également intégrées
avec les éléments de coin (120) et placées à distance à l'opposé des brides de montage
latérales (135) pour former la structure unitaire de déflecteur de vent.
6. Système de fenêtre selon l'une quelconque des revendications précédentes, dans lequel
les éléments de kit déflecteur de vent (10, 100, 110, 120, 130) ont tous la même hauteur,
de préférence dans la plage de 20 à 60 cm, mieux encore dans la plage de 25 à 50 cm
et idéalement dans la plage de 30 à 40 cm.
7. Système de fenêtre selon l'une quelconque des revendications précédentes, dans lequel
la distance entre la structure unitaire de déflecteur de vent (10, 10*, 10**) et le
bas de la fenêtre de toiture est de préférence dans la plage de 20 à 50 cm, mieux
encore dans la plage de 25 à 45 cm et idéalement dans la plage de 30 à 40 cm, et la
distance entre les côtés de la structure unitaire de déflecteur de vent (10, 10*,
10**) et les côtés de fenêtre est de préférence dans la plage de 10 à 50 cm, mieux
encore dans la plage de 10 à 40 cm et idéalement dans la plage de 10 à 30 cm.
8. Système de fenêtre selon l'une quelconque des revendications précédentes, dans lequel
la structure unitaire de déflecteur de vent (10, 10*, 10**) est placée à une distance
au-dessus de l'agencement à solins (5) pour créer une zone de dégagement entre ladite
structure de déflecteur et l'agencement à solins.