[0001] The subject of the invention is an under window filling profile of adjustable width,
in particular a profile that provides support for windows and doors joinery.
[0002] The basic way of fitting elements of window or door joinery is mounting them in a
casing in such a way that the window or door made of plastic, wood or metal are placed
inside a dedicated opening in a support wall, or inside an opening relocated into
insulation zone by means of profiles. A characteristic feature of this type of fitting
is that the bottom surface of the casing, whether in the wall or protruding, constitutes
a support and a basic space for joinery fitting. To provide a firm fitting, the weight
of the window must be distributed uniformly on the bottom part of the casing. The
remaining surfaces of the casing, i.e. vertical and horizontal top surface are moved
away from the surfaces constituting the external outline of the joinery. Thus an expansion
gap is created to compensate for possible changes of external dimensions of windows
and doors resulting from changes of temperature, or difference in pressure on two
sides of the window, or ageing of the material used for window production, or other
factors. This gap is filled with expanding polyurethane foam or pre-compressed foam
tape or any other material that provides thermal and acoustic insulation as well as
air-tightness.
[0003] There are well known solutions such as plastic, wooden and metal elements that provide
point support for the bottom of the window in two or more points. They are not recommended
in case of PCV windows, as the bottom part of the window frame may deform due to creeping
of the material used for window production.
[0004] There are also continuous profiles, also known as subsill profiles or strips, made
of plastic or metal, that provide support for the window along its length. Those profiles
are equipped with latches and they are latched onto the window frame to guarantee
secure and tight connection of the profile and the frame. Their disadvantage is, however,
that a particular profile is dedicated for only one or several types of windows frame
or door frame, equipped with latches in predetermined distances . Their another disadvantage
is that they are solid, one-piece structures or optionally chamber structures, which
adversely affects thermal and acoustic insulation properties.
[0005] Another known solution are monolithic profiles made of foamed materials. This solution
provides good thermal insulation properties, but features at least one of following
disadvantages, depending on the specific gravity (from 18 kg/m
3 to 500 kg/m
3) and used material (polystyrene, polyvinyl chloride, polyurethane, or others): insufficient
load capacity, water absorption, no UV resistance or atmospheric conditions resistance,
susceptibility to damage during water freezing and thawing, impossible indirect fitting
due to insufficient screw tearing force, limited or lack of possibility to form latches,
susceptibility to ageing, low acoustic insulation level, increased inflammability,
difficult or impossible use of adhesive. Similarly to solid structures, it is necessary
to match the shape of a monolithic profile to the window profile width and latches
location.
[0006] EP 2 628 880 A1 discloses an under window profile that provides support for the joinery product,
especially windows or doors joinery, which on horizontal sides of the vertical walls
can have latches, that during the assembly mesh with the latches located on the bottom
side of the window frame; and the vertical walls are parallel to each other.
[0007] The aim of the invention is to develop a structure of profile of adjustable width
to enable using the profile for window frames and door frames of various width and
with diverse distribution of fixing latches. The profile structure is composed of
more than one element to limit the disadvantages occurring in other known solutions.
[0008] The profile carrying the weight of the window, in accordance with the invention,
also called an under window filling profile, consists of two elements movable in relation
to one another, that create the external vertical walls of the profile and transfer
independently the pressure of the joinery element onto the substrate, and in between
there is an element made of one or multiple materials, whose horizontal dimension
(on cross-section the dimension perpendicular to the carried load) may be increased
or decreased by sliding apart or together the load carrying elements in the direction
perpendicular to the direction of carried load. The movable elements of the profile,
as described in the invention, are made of solid, hard material, preferably plastic
or metal, and the connecting element, located between movable elements, or at least
one of its layers, is made of flexible material, such as, for example, flexible foam
made of plastic material. A flexible material, as understood in this invention is,
is a material that doesn't deform permanently when subjected to compression.
[0009] In another embodiment the rigid movable elements are equipped with latches formed
as protrusions or tenons to enable connection of the strip and the window, so that
the compression of the strip in direction perpendicular to the carried loads is possible,
which is equivalent to decreasing distance between the protrusions or tenons and when
the strip is pressed to the bottom part of the window and then the pressure is released,
the expanding flexible material between the movable elements will cause the increase
of distance between the protrusions or tenons and wedge them with the catch on the
window.
[0010] The operation mechanism of the profile constituting the subject of the invention
is also efficient when the strip is equipped with two or more latches, whether the
latches are made of the same material as the strip elements, or their hardness varies
after the co-extrusion process, or when there is a combination of latches made of
various materials.
[0011] In another embodiment of the invention, the movable elements are made of foamed material
or cellular material, and at least one layer is made of foamed or cellular material.
In this embodiment the vertical wall that carries load is moved away from the contour
wall, therefore this embodiment provides easy assembly of the external window sill
by means of screws, as well as tightness due to use of sealing fitted into dedicated,
shaped groove.
[0012] In each of described variations of the under window filling profile the vertical
load carrying elements are equipped with horizontal guides, that provide for the movement
in horizontal plane only and prevent such movement of elements against one another
that could make them not parallel in cross-section in relation to one another.
[0013] In one of the embodiments of the under window filling profile the load of the window
is carried by the outmost vertical walls as well as by the central part of the profile
that is the subject of this invention. The central element is made of multiple materials,
at least of the flexible foam, and the hard part made of solid plastic or rigid foam,
the hard part is equipped with guides or surfaces providing space for movement of
horizontal protrusions of each of the external elements. As a result, the load is
carried by the horizontal guide, belonging to the side element, to the central part
of the strip
[0014] The subject of the invention is presented, as an example of embodiment, in a drawing,
where figure 1 presents a view of the cross-section of an under window filling profile
of adjustable width; figure 2 presents cross-section of a profile embodiment equipped
with latches, and figure 3 presents a view of the cross-section of an under window
profile with movable elements made as cellular profile with cells.
[0015] As presented in fig. 1, the subsill strip that carries load of the joinery, in accordance
with the invention, is characteristic in that the vertical oblong walls
1, parallel to each other, are connected in such a way that they can move in relation
to each other in perpendicular plane for each of the walls' planes.
[0016] Both walls
1 are equipped with horizontal protrusions
3 acting as guides limiting movement of the walls
1 in relation to each other so that the cross-sections of the walls are always parallel.
[0017] In the embodiment presented in fig. 3 the vertical oblong side wall
1.1 and/or the opposite parallel oblong side wall
2 is/are cellular elements.
[0018] In the embodiment the wall
1.1 is equipped with protrusions
3.1, and the other wall
2 is equipped in long pockets
3.2 that are a reflection of a/m protrusions, due to this arrangement the walls
1.1 and
2 are directly, though not permanently, connected with each other.
[0019] In each case between the profiles in which the walls
1 or
1.1 and
2 are a part of, there is flexible foam 4, shaped as long strip, that may cause unlimited
spreading of the profiles. That means the foam expands after compression. The foam
may be a single component, as presented in fig. 3, or it may be used as many strips,
as presented in fig.1.
[0020] The oblong walls
1 (or in variation
1.1 and
2) create extruded profiles together with protrusions
3.3, or in the variation protrusions
3.1 and guides
3.2, and those profiles are equipped with mechanism limiting their movement in relation
to one another, as presented in fig. 1, showing the shape of a protrusion
3 meshing with another profile
5 (single-walled or cellular) belonging to the skeleton of a part that connects the
walls
1, i.e. a mechanism, in which one profile has grooves and the other functions as a
latch.
[0021] In the variation presented in fig. 2 a profile made of foamed material
5.1 functions as a skeleton for the material that joins profiles created by the walls
1, which improves thermal insulation properties and the soundproofing abilities.
[0022] It is also possible to use latches
6 and/or
6.1, that are a variation of the profile movement limiting mechanism created by the walls
1 or
1.1 and
2, the walls are arranged is such a way that at least one latch is on a profile. Those
latches lock with latches on the bottom part of the window frame. A latch may constitute
an integral part of the profile, such as latch
6 presented in fig.2, or may be made of another plastic material in co-extrusion or
post-extrusion process, such as latch
6.1 presented in fig. 2.
[0023] In another variation the profile, or both profiles, creating the construction element
that constitutes the subject of the invention, are equipped with pockets
7 where seals are located to act as the protrusions limiting movement of the element
after assembly on the bottom part of the window frame.
1. An under window profile of adjustable width that provides support for the joinery
product, especially windows or doors joinery, which under window profile has vertical
walls and which on horizontal parts (3) which protrude from the vertical walls (1)
can have latches (6,6.1), that during the assembly mesh with latches located on the
bottom side of the window frame; and wherein the vertical walls (1) are parallel to
each other, and said horizontal parts (3) are equipped with elements limiting the movement of the vertical walls (1), whereas the space between the walls is filled with a flexible expanding material
(4) such that the vertical walls are elastically movable in relation to each other.
2. A profile, as described in Claim 1, characterised in that the filler between the walls (1) is composed of flexible expanding foam (4) and solid profile (5) that is the skeleton of the strip.
3. A profile, as described in Claim 1, characterised in that the filler between the walls (1) composed of flexible expanding foam (4) and rigid foamed profile (5.1) that is a skeleton of the strip.
4. A profile, as described in Claim 1, characterised in that one of the vertical walls (1) is equipped with horizontal protrusions (3.1), and the other one is equipped with horizontal pocket (3.2) that is a guide for the protrusion (3.1), together those elements create a system to limit the movement of walls (1) in relation to the movement in plane perpendicular to the surface of the walls (1).
5. A profile, as described in Claim 1, characterised in that the horizontal sides (3) that limit the movement in the direction outwards from their internal surface, are
equipped with elements shaped as grooves, that mesh with latches located on the ends
of the horizontal arms of a solid profile (5).
6. A profile, as described in Claim 1, characterised in that at least one of the walls (1) is a multi-layer wall (1.1), preferably of cellular type.
7. A profile, as described in Claim 6, characterised in that it is equipped with pockets (7) for a seal, located in the cellular profile (1.1) and meshing with the latches on the bottom part of the window frame.
1. Das Füllprofil unter einem Fenster mit einstellbarer Breite, das eine Stütze für ein
Bautischlerei- oder Bauschreinerprodukt, insbesondere für Fenster- und Türgerähme
bildet, das senkrechte Wände besitzt und das an waagerechten, aus den senkrechten
Wänden (1) herausragenden Seiten (3) Haken (6, 6.1) aufweisen kann, die während der
Montage mit den auf der Unterseite des Fensterrahmens angebrachten Haken verzahnen;
und worin senkrechte Wände (1) parallel zueinander verlaufen und die obengenannten
waagerechten Seiten (3) mit Elementen versehen sind, die die Bewegung der senkrechten
Wände (1) begrenzen, und der freie Raum zwischen den Wänden mit flexibler Ausdehnungsmasse
(4) auf solche Art und Weise gefüllt wird, dass senkrechte Wände sich elastisch zueinander
bewegen können.
2. Profil nach dem Anspruch 1. gekennzeichnet dadurch, dass Füllung zwischen den Wänden (1) aus anpassungsfähigem, ausdehnbarem Schaumstoff (4)
und Vollprofil (5) besteht, das Gerüst für die Leiste bildet.
3. Profil nach dem Anspruch 1. gekennzeichnet dadurch, dass Füllung zwischen den Wänden (1) aus anpassungsfähigem, ausdehnbarem Schaumstoff (4)
und Hartschaumprofil (5.1) besteht, das Gerüst für die Leiste bildet.
4. Profil nach dem Anspruch 1. gekennzeichnet dadurch, dass eine der senkrechten Wänden (1) mit waagerechten Vorsprüngen (3.1) ausgestattet ist,
und die zweite mit horizontaler Sitzfläche (3.2), der als Führungsbahn für den Vorsprung
(3.1) dient, die gemeinsam ein System bilden, das Bewegungen der Wände (1) gegenüber
der Bewegungsrichtung in einer senkrecht zu Wandflächen (1) stehenden Ebene begrenzen
soll.
5. Profil nach dem Anspruch 1. gekennzeichnet dadurch, dass waagerechte Seiten (3), die Bewegungsrichtung von seiner Innenfläche begrenzen, mit
Elementen in Form von Rillen versehen sind, die mit an Enden der waagerechten Armen
des Vollprofils (5) angeordneten Sperrklinken mitwirken.
6. Profil nach dem Anspruch 1. gekennzeichnet dadurch, dass wenigstens eine der Wände (1) in Form einer mehrschichtigen Wand (1.1) ausgeführt
wird, vorteilhafterweise eines Hohlkammerprofils,
7. Profil nach dem Anspruch 6. gekennzeichnet dadurch, dass es mit im Hohlkammerprofil (1.1) platzierten Sitzflächen (7) für die Dichtung ausgestattet
ist, die mit den am unteren Teil des Fensterrahmens angebrachten Haken verzahnt.
1. Profil de sous-fenêtre de largeur réglable, assurant le support du produit de menuiserie,
notamment la menuiserie de fenêtres ou de portes, qui dispose des parois verticales
et qui, sur les côtés horizontaux (3) saillant des parois verticales (1), peut avoir
des loquets (6, 6.1) engrenant pendant l'installation avec des loquets placés sur
le dessous du cadre de fenêtre ; et dans lequel les parois verticales (1) sont parallèles
les unes aux autres et les côtés horizontaux (3) sont équipés d'éléments limitant
le mouvement des parois verticales (1), tandis que l'espace entre les parois est rempli
du matériau flexible expansif (4) de telle sorte que les parois verticales sont élastiquement
mobiles les unes par rapport aux autres.
2. Profil, tel que décrit dans la revendication 1, caractérisé en ce que le remplissage entre les parois (1) est composé d'une mousse flexible et expansive
(4) et du profil plein (5) constituant le squelette de la latte.
3. Profil, tel que décrit dans la revendication 1, caractérisé en ce que le remplissage entre les parois (1) est composé d'une mousse flexible et expansive
(4) et du profil expansé rigide (5.1) constituant le squelette de la latte.
4. Profil, tel que décrit dans la revendication 1, caractérisé en ce que l'une des parois verticales (1) est équipée de saillies horizontales (3.1) et l'autre
est équipée d'une poche horizontale (3.2) qui sert de dispositif de guidage pour la
saillie (3.1), ces éléments réunis constituent un système limitant le mouvement des
parois (1) par rapport au mouvement dans le plan perpendiculaire à la surface des
parois (1).
5. Profil, tel que décrit dans la revendication 1, caractérisé en ce que les côtés horizontaux (3) limitant le mouvement vers l'extérieur de leur surface
interne, sont équipés d'éléments en forme de rainures, qui s'engrènent avec des verrous
situés aux extrémités des bras horizontaux du profil plein (5).
6. Profil, tel que décrit dans la revendication 1, caractérisé en ce qu'au moins une des parois (1) est une paroi multicouche (1.1), de préférence de type
cellulaire.
7. Profil, tel que décrit dans la revendication 6, caractérisé en ce qu'il est équipé de poches (7) situées dans le profil cellulaire (1.1) pour un joint
d'étanchéité engrenant avec des loquets placés sur le dessous du cadre de fenêtre.