EP2604782B1 - Window leaf profile for the mounting of glazing bridges or the like - Google Patents

Description

The present invention relates to a sash profile with different height levels in the hinge area for receiving at least one block bridge, carrying block and glazing.
Different casement profiles are known in the art. Such profiles have, in particular in their rebate area on function carrier, which are formed by a special geometry to attach additional components on the sash profile. The additional components may include, for example, additional strips, reinforcing elements, partial profiles of a material other than the basic profile, glazing beads or support strips. The DE 200 01 821 U1 discloses a fastener on the sash profile which serves to secure a block bridge. So will in DE 10 2006 042 423 A1 presented a window frame profile made of plastic, in which the rebate area for the installation of different, the basic profile functionally complementary profile components is suitable. For this purpose, the frame profile on a folding geometry, the various connection profile elements, such as projections, chambers, undercuts, etc., which serve to fix the additional profile components form fit to the base profile.
A disadvantage of this design is that the profile components that are secured in a form-fitting manner must be inserted into the basic profile prior to the assembly of profile sections to form complete frames.
In the DE 10 2004 027 281 B4 a window element is described that has a wooden glazing bar that positions the glazing on the rebate area of the base frame profile. In this case, the glass strip has latching means which correspond with latch receiving means, which are embedded in a frame strip. The frame strip is held by the glass strip. On the other hand, nothing is disclosed about an attachment of the block bridges, or supporting blocks, described here as bearing elements and about the design of these components.

In the DE 2 261 090 A a kit of matched profiles for the production of glare and sash for windows, doors or the like is disclosed. A guide profile for a roller shutter can be connected to a frame base profile via a snap-like snap connection. In addition, a cover strip is provided, which can be set via an undercut of the base profile. On the other hand, nothing is disclosed about an attachment of the block bridges, or supporting blocks, described here as bearing elements and about the design of these components.

The invention is therefore based on the object to provide a sash profile, in particular with corresponding thereto, but differently shaped block bridges, which offers the possibility to attach block bridges, which are used for receiving and positioning of supporting blocks, in a simple manner on the window sash element, so that the support blocks can always be inserted in accordance with relevant Verklotzungsrichtlinien for glazing before glazing in the rebate area of the sash profile.

The invention solves this problem in that the sash profile has at least three different means for non-positive and positive attachment of geometrically different shaped block bridges.

By an optimal position for the support blocks is ensured in a particularly advantageous manner that the blockage of the glazing is always arranged so that the weight of the glazing is distributed in the sash so that the sash securely holds the glass and the sash does not in his fitness is impaired, the window sash remains in its intended position in the window element and does not jam in the frame.

In addition, it is particularly advantageous and safe to ensure that the glazing at any point has direct contact with the window frame profile. In addition, the assembly of the glazing can be done time-saving and possibly also automatable.

The window sash profile according to the invention particularly preferably has a functional groove and a fastening web which serve for the attachment of geometrically differently shaped block bridges. The window sash profile according to the invention also has a radius which, in interaction with an undercut, serves for the attachment of geometrically differently shaped block bridges. An essential function carrier of the window sash profile according to the invention is a spring element for the attachment of geometrically different shaped block bridges

The block bridge according to the invention preferably has different spring elements, with which the block bridge can be positively and positively mounted on a window sash profile according to the invention.

Furthermore, a block bridge according to the invention has a stop lug and / or a holding web with which a support block can be securely positioned on the block bridge.

Embodiments of the window profile according to the invention with spring element are shown in the drawings and will be described in more detail below.

Figur 1:

die Vordereinsicht eines Fensterflügels mit Verglasung und Klotzungsbrücken sowie Öffnungssymbolen, in diesem Fall für einen kombinierten Dreh- und Kippflügel.

Figur 2a:

eine Schnittdarstellung eines erfindungsgemäßen Profils für die Montage von Klotzungsbrücken

Figur 2b:

eine Ausschnittsvergrößerung der Schnittdarstellung in Figur 2a, die insbesondere die Montageebene der Klotzbrücke detaillierter zeigt

Figur 2c:

eine Ausschnittsvergrößerung der Dichtlippe des Profils aus Figur 2b mit einer eingearbeiteten Verschwächung, die die Funktion einer Sollverformungsstelle übernimmt und einer Dichtlippenfußgeometrie, die eine Federfunktion übernimmt

Figur 3a:

eine Schnittdarstellung einer weiteren Ausführungsvariante eines erfindungsgemäßen Profils für die Montage von Klotzbrücken

Figur 3b:

eine Ausschnittsvergrößerung der Schnittdarstellung in Figur 3a, die insbesondere die Montageebene der Klotzbrücke detaillierter zeigt

Figur 3c:

eine Ausschnittsvergrößerung der Dichtlippe des Profils aus Figur 3b mit einer eingearbeiteten Verschwächung, die die Funktion einer Sollverformungsstelle übernimmt und einer Dichtlippenfußgeometrie, die eine Federfunktion übernimmt

Figur 4a.:

eine Schnittdarstellung eines erfindungsgemäßem Fensterflügelprofils nach Figur 2a, 2b, 2c oder 3a, 3b, 3c und einer Ausführungsvariante einer erfindungsgemäßen Klotzbrücke mit montiertem Tragklotz und eingestellter Verglasung mit dreischeibigem Aufbau

Figur 4b:

eine Schnittdarstellung nach Fig. 4a mit montierter Klotzbrücke, jedoch ohne Tragklotz und Verglasung

Figur 4c:

eine räumliche Darstellung nach Fig. 4b mit montierter Klotzbrücke, jedoch ohne Tragklotz und Verglasung

Figur 4d:

eine Schnittdarstellung nach Fig. 4a mit montierter Klotzbrücke und montiertem Tragklotz, jedoch ohne Verglasung

Figur 4e:

eine räumliche Darstellung nach Fig. 4d mit montierter Klotzbrücke und montiertem Tragklotz, jedoch ohne Verglasung

Figur 4f:

ein vergrößerter Ausschnitt aus Fig. 4d

Figur 5a:

eine Schnittdarstellung eines erfindungsgemäßem Fensterflügelprofils nach Figur 2a, 2b, 2c oder 3a, 3b, 3c und einer weiteren Ausführungsvariante einer erfindungsgemäßen Klotzbrücke mit montiertem Tragklotz und eingestellter Verglasung mit dreischeibigem Aufbau

Figur 5b:

eine Schnittdarstellung nach Fig. 5a mit montierter Klotzbrücke, jedoch ohne Tragklotz und Verglasung

Figur 5c:

eine räumliche Darstellung nach Fig. 5b mit montierter Klotzbrücke, jedoch ohne Tragklotz und Verglasung

Figur 5d:

eine Schnittdarstellung nach Fig. 5a mit montierter Klotzbrücke und montiertem Tragklotz, jedoch ohne Verglasung

Figur 5e:

eine räumliche Darstellung nach Fig. 5d mit montierter Klotzbrücke und montiertem Tragklotz, jedoch ohne Verglasung

Figur 5f:

Eine Ausschnittsvergrößerung nach Fig. 4a, 4b und 4d die das Detail der Federelemente an der Klotzbrücke sowie die konturkongruente Anformung der Federelemente an die Kontur der Hinterschneidung des Fensterflügelprofils zeigt.

Figur 6a - 6d:

jeweils Schnittdarstellungen von Ausführungsvarianten eines erfindungsgemäßen Federelements

Figur 6e - 6h:

jeweils Schnittdarstellungen von Ausführungsvarianten einer erfindungsgemäßen Haltedichtung mit integriertem Federelement

Figur 7:

eine Schnittdarstellung eines erfindungsgemäßem Fensterflügelprofils nach Figur 2a, 2b, 2c oder 3a, 3b, 3c und einer weiteren Ausführungsvariante einer erfindungsgemäßen Klotzbrücke mit montiertem Tragklotz und eingestellter Verglasung mit dreischeibigem Aufbau

Figur 8a:

eine Vorderansicht einer erfindungsgemäßen Ausführungsvariante der Klotzbrücke nach Fig. 7

Figur 8b

eine Seitenansicht einer erfindungsgemäßen Ausführungsvariante der Klotzbrücke nach Fig. 7

Figur 8c

eine Draufsicht einer erfindungsgemäßen Ausführungsvariante der Klotzbrücke nach Fig. 7

Figur 8d

eine Rückansicht einer erfindungsgemäßen Ausführungsvariante der Klotzbrücke nach Fig. 7

Show it:

FIG. 1:

the front view of a window sash with glazing and padding bridges as well as opening symbols, in this case for a combined turn and tilt wing.

FIG. 2a:

a sectional view of a profile according to the invention for the assembly of block bridges

FIG. 2b:

an enlarged detail of the sectional view in FIG. 2a which shows in particular the mounting plane of the block bridge in more detail

FIG. 2c:

an enlarged detail of the sealing lip of the profile FIG. 2b with a built-in weakening, which takes over the function of a Sollverformungsstelle and a Dichtlippenfußgeometrie, which assumes a spring function

FIG. 3a:

a sectional view of another embodiment of a profile according to the invention for the assembly of block bridges

FIG. 3b:

an enlarged detail of the sectional view in FIG. 3a which shows in particular the mounting plane of the block bridge in more detail

FIG. 3c:

an enlarged detail of the sealing lip of the profile FIG. 3b with a built-in weakening, which takes over the function of a Sollverformungsstelle and a Dichtlippenfußgeometrie, which assumes a spring function

Figure 4a .:

a sectional view of an inventive window sash profile Figure 2a, 2b, 2c or 3a, 3b, 3c and an embodiment of a block bridge according to the invention with mounted support block and set glazing with dreischeibigem structure

FIG. 4b:

a sectional view to Fig. 4a with mounted block bridge, but without support block and glazing

FIG. 4c:

a spatial representation after Fig. 4b with mounted block bridge, but without support block and glazing

FIG. 4d:

a sectional view to Fig. 4a with mounted block bridge and mounted support block, but without glazing

FIG. 4e:

a spatial representation after Fig. 4d with mounted block bridge and mounted support block, but without glazing

FIG. 4f:

an enlarged section Fig. 4d

FIG. 5a

a sectional view of an inventive window sash profile Figure 2a, 2b, 2c or 3a, 3b, 3c and a further embodiment of a block bridge according to the invention with mounted support block and adjusted glazing with dreischeibigem structure

FIG. 5b:

a sectional view to Fig. 5a with mounted block bridge, but without support block and glazing

FIG. 5c:

a spatial representation after Fig. 5b with mounted block bridge, but without support block and glazing

FIG. 5d:

a sectional view to Fig. 5a with mounted block bridge and mounted support block, but without glazing

FIG. 5e:

a spatial representation after Fig. 5d with mounted block bridge and mounted support block, but without glazing

FIG. 5f:

A detail enlargement after Fig. 4a, 4b and 4d showing the detail of the spring elements on the block bridge and the contour-congruent Anformung the spring elements to the contour of the undercut of the sash profile.

FIGS. 6a-6d:

respectively sectional views of embodiments of a spring element according to the invention

FIGS. 6e-6h:

respectively sectional views of embodiments of a holding seal according to the invention with integrated spring element

FIG. 7:

a sectional view of an inventive window sash profile Figure 2a, 2b, 2c or 3a, 3b, 3c and a further embodiment of a block bridge according to the invention with mounted support block and adjusted glazing with dreischeibigem structure

FIG. 8a:

a front view of an embodiment variant of the block bridge according to the invention Fig. 7

FIG. 8b

a side view of an embodiment variant of the block bridge according to the invention Fig. 7

FIG. 8c

a top view of an embodiment variant of the block bridge according to the invention Fig. 7

FIG. 8d

a rear view of an embodiment variant of the block bridge according to the invention Fig. 7

FIG. 1 shows a combined hinged and tilt wing 1 with glazing 2 and mounted block 3 of the glazing 2. The block 3 has been made here according to the relevant glazing provisions respectively at the edge regions of the side edges of the glazing 2, but with a corresponding distance from the corner regions of the glazing 2 in order to distribute the weight of the glazing 2 in such a way that the window sash 1 is optimally supported, the sash 1 is not impaired in its ductility, so that the sash 1 always remains in the correct position in the window element and the edges of the glazing 2 at no point have direct contact with the sash 1.

The Figures 2a, 2b and 2c show representations of an embodiment of a window sash profile 4 according to the invention for the assembly of block bridges.

The sash profile 4 is designed as a one-piece, completely self-contained, hollow profile and has a basic cross-section which can be described by a lying on the side "Z". The sash profile 4 is preferably made of a hard plastic, such as PVC by extrusion. However, other, metallic materials such. B. aluminum for the production of a sash profile 4 according to the invention can be used. The sash profile 4 is usefully not designed to save material massively, but is traversed in its cavity 5 by a series of stiffening struts 6.

Furthermore, the sash profile 4 has a plurality of T-shaped grooves. The groove 7 in the region of the upper inner side of the sash profile 4 receives an outer rebate seal 8, with which the outer gap between the glazing 2 (not shown) and sash profile 4 is sealed. The groove 9 on the lower inner side of the sash profile 4 seals the gap between sash profile and sash profile (not shown).

Another, dovetail-shaped Funktionsnut 10 is located in the rebate region 12 of the sash profile 4 and is used to define a block bridge 20 after Fig. 7 , or 8a to 8d. The functional groove is located next to the groove 10 'for receiving glazing beads and runs parallel to this.

The folding area 11 of the sash profile 4 is designed as a stepped level with three different height levels I, II, III, the area provided for the mounting of the glazing 2 (not shown) having two different height levels I and II.

Due to the different height levels in the folding area 11 of the sash profile 4, the possibility is created to mount a block bridge 20 (not shown) so space-saving that they mounted at height level II forms a continuous level with height level I, so that a continuous, flat and stable Support surface for the use of supporting blocks 21 (not shown) for professional Verklotzung the glazing 2 (not shown) is created, which meets the requirements of the relevant glazing regulations in a particularly advantageous manner.

In addition, the Glasfalzhöhe -also the distance between sash profile and glazing- be particularly small (2 - 8 mm, preferably 3 - 5 mm) which improves the overall thermal insulation properties of the window.

The area of the height level III has a fastening web 12, which runs flush with the height level II and projects into the space above the height level III. The height level III is over a transition radius 13 in the form of a Undercut 14 continued in the direction of the outer side 15 of the sash profile 4 in the vertically upward extension direction of the sash profile 4. So that results in a total of a contour, which is reminiscent of an undercut, as he is known from the cutting technology relevant.

In the transition region between height level I and II, a holding seal 16 is arranged, which is materially connected to the sash profile 4. So that the holding seal 16 can fulfill its function, a plastic material with rubber-elastic properties is preferably selected for the holding seal 16. However, other suitable materials can also be selected for a holding seal 16 according to the invention, the elastic properties being essential. The cohesive connection between retaining gasket 16 and sash profile 4 - if the sash profile is made of plastic - can be done in a particularly advantageous manner by co-extrusion. But there are also other joining technologies for producing a cohesive connection of the two elements within the meaning of the present invention conceivable. If the sash profile 4 is made of a metallic material, the retaining gasket 16 is fastened in a corresponding retaining groove (not shown) in the sash profile 4.

In the foot region of the holding seal 16, the holding seal 16 is designed so that a film-hinge-like predetermined deformation point 17 results. In addition, by reducing the cross section, this region has a reduced stiffness compared to a massively shaped foot region, so that an additional spring function of the foot region results for the foot region of the holding seal 16 in interaction with a rubber-elastic material. The foot region of the holding seal 16 is therefore equipped with an integrated spring element 18.

The transitional area between the height levels I and II is designed substantially in relation to the level of the height levels I and II as a vertical-vertical extending paragraph. The heel thus acts as a fixed abutment W for the spring element 18, over which the spring forces acting essentially horizontally to the heel are compensated or supported.

The FIGS. 3a, b and 3c show representations of a further embodiment of a window sash profile 4 according to the invention for the assembly of block bridges.

The main difference to the embodiment according to FIGS. 2a, 2b and 2c lies in the embodiment according to Fig. 3a, 3b and 3c in the structural design of the foot region of the retaining gasket 16. According to the invention, the foot region of the holding gasket 16 is designed such that the function of the nominal deformation point 17 and of the spring element 18 is realized by two separate functional members.

As a result of the functional separation, the spring element 18 can be structurally provided with a cavity 19, so that the deformability of the spring element 18 is improved in a particularly advantageous manner by such a geometric design.

The preferred effective direction of the spring element 18 is horizontal, or parallel to the height levels I and II, particularly preferably below the height level I.

In the FIGS. 4a to 4f a variant embodiment of a block bridge 20 according to the invention in connection with a variant of a window sash profile 4 according to the invention as well as supporting blocks 21 and the adjusted glazing 2 is shown.

The block bridge 20 in this case has such a thickness that it balances the difference between height level I and height level II, so that a common plane between height level I and the top of the assembled block bridge 20 results, can be placed on the support blocks 21.

The block bridge 20 does not completely fill the existing space in the area of the height level II, so that when mounted block bridge 20, the retaining seal 16 can put into the existing gap between block bridge 20 and the foot of the retaining gasket 16. The width of the block bridge 20 is equal to b ₁ . The height the holding seal 16 perpendicular to the height level II is equal to h. The following applies: width b ₁ + height h is at most equal to the width of the plane of the height level II. Due to this structural design of the block bridge 20, the retaining seal 16 for the assembly of the support blocks 21 must not be removed in sections, so that a particularly simple and time-saving Assembly results.

For safe determination of the block bridge 20 to the sash profile 4 hook-shaped first spring elements 22 are mounted on the side facing the outside of the sash profile 4 side of the block bridge 20. One or more further lower spring elements 23 (facing away from the insulating glass oriented) of the block bridge 20 engage in the mounted state, the mounting bar 12, so that the block bridge is set translationally in both vertical directions.

Further lateral spring elements 24 nestle in the assembled state of the block bridge 20 under tension contour matching in the undercut 14, so that the block bridge 20 in conjunction with the lower spring elements 23 in both horizontal directions translationally and rotationally about an imaginary pivot point at the top of the fixing web 12th is fixed and thus safely positioned on the sash profile 4.

In this case, the fastening web 12 preferably absorbs forces acting on the horizontal plane of the height levels I, II, III with respect to the vertical-vertical direction, or enables a particularly secure fixing of a block bridge 20.

For positioning of supporting blocks 21 are located on the side of the lateral spring elements 24 vertically upwardly extending stop lugs 25 on which the support blocks 21 can be applied.

In the FIGS. 5a to 5f a variant embodiment of a block bridge 20 according to the invention in connection with a variant of a window sash profile 4 according to the invention as well as supporting blocks 21 and the adjusted glazing 2 is shown.

An essential difference to the embodiment according to FIGS. 4a to 4f lies in the embodiment according to Fig. 5a to 5f in the width b _{2 of} the block bridge 20. The width is dimensioned in this embodiment variant according to the invention that covers the entire surface of the height level II of the folding area 11 on the sash profile 4 through the block bridge 20, so that the block bridge 20 in addition to the two spring elements 23rd , 24 on the block bridge 20 also by that spring element 18 of the retaining gasket 16 is set. Thus, b ₂ is equal to the width of the height level II. This results in a clamping in both translationally horizontal directions, so that a particularly advantageous and secure fixing of the block bridge 20 takes place on the sash profile 4.

At the holding seal 16, the sealing lip is preferably severed at the predetermined deformation point 17 in the area of the block bridge 20 to be assembled, so that only the spring element 18 remains. This can be done manually with simple manual cutting tools or alternatively automated. Advantageously, the support block 21 is secured against slipping ( Fig. 5e ). Alternatively, a variant of the retaining gasket 16 may be used, which consists only of the spring element 18, possibly with integrated fastening web 12 a, so that the actual sealing function is omitted in this case.

The Fig. 6a to 6e show inventive embodiments of the retaining gasket 16th

The Fig. 6a and 6b show inventive embodiments of the retaining gasket 16, in connection with a block bridge 20 according to the invention after Fig. 5a to 5e be used. In these embodiments, the retaining gasket 16 is reduced to the spring element 18, wherein both variants have an integrated into the spring element 18 fastening web 12a. The embodiment according to Fig. 6b moreover, has a cavity 19, which according to the deformability of the spring element 18 in particular in connection with a block bridge 20 according to the invention Fig. 5a to 5e improved. Both variants are provided for sash profiles 4, which differ from Fig. 2b . 3b and 5b just have two height levels - in this case, the height levels I and III-, so that a pad bridge 20 comes to lie directly on the height level I.

The Fig. 6c and 6d show inventive embodiments of the retaining gasket 16, in connection with a block bridge 20 according to the invention after Fig. 5a to 5e be used. In these embodiments, the retaining gasket 16 is reduced to the spring element 18, wherein both variants have an integrated into the spring element 18 fastening web 12a. The embodiment according to Fig. 6d moreover, has a cavity 19, which according to the deformability of the spring element 18 in particular in connection with a block bridge 20 according to the invention Fig. 5a to 5e improved.

Due to the absence of the sealing lip, it does not have to be separated in sections, so that a particularly simple, time-saving and therefore advantageous assembly of the block bridge 20 results.

The Fig. 6e and 6f show inventive embodiments of the retaining gasket 16, in connection with a block bridge 20 according to the invention after Fig. 5a to 5f be used. To use the retaining gasket 16 according to Fig. 5a to 5f the sealing lip of the retaining gasket 16 is removed in the area of the block bridge 20, so that only the area of the spring element 18 remains on the sash profile 4.

In the embodiment according to the invention according to Fig. 6e are the functions of the spring element 18 and the predetermined deformation point 17 by a corresponding weakening of the foot of the retaining gasket 16, which is particularly easy to implement manufacturing technology, realized in summary, while in the embodiment of the invention according to Fig. 6f the spring element 18 and the predetermined deformation point 17 are divided by a film hinge-like execution of the desired deformation point 17 into two separate function carriers.

The Fig. 6g and 6h show further inventive embodiments of the retaining gasket 16, which in connection with a block bridge 20 according to the invention Fig. 5a to 5e be used.

In the embodiment according to the invention according to Fig. 6g In addition to the functions of the spring element 18 and the predetermined deformation point 17, the function of the fastening web 12a is integrated into the retaining gasket. The inventive variant according to Fig. 6f additionally has a hollow space 19 in the spring element 18.

The spring elements 18 after 6a to 6h are preferably designed so that they have the greatest spring deflection in horizontal, or in a direction of action lying parallel to the height levels I, II, III.

In the FIG. 7 a variant embodiment of a block bridge 20 according to the invention in connection with a variant of a window sash profile 4 according to the invention as well as supporting blocks 21 and the adjusted glazing 2 is shown.

An essential difference to the embodiment according to FIGS. 4a to 4f , respectively. Fig. 5a to 5f lies in the embodiment according to Fig. 7 in the determination of the block bridge via spring element 26 which engages in the functional groove 10 in the sash profile 4, so that the block bridge 20 is also determined by the spring element 26 in addition to the spring element 24 on the block bridge. This results in a clamping in both translationally horizontal directions, so that a particularly advantageous and secure fixing of the block bridge 21 takes place on the sash profile. The central position of the spring element 26 on the block bridge results in interaction with the two externally mounted spring elements 24, a three-point clamping, so that the block bridge 20 is securely clamped in a particularly advantageous manner.

The log bridge after Fig. 7 or 8a to 8d is supported in the mounted state on the height levels I and II of the sash profile 4, so that there is no continuous level with the height level I of the sash profile in this case. The Block bridge 20 has a ribbing 27 on its underside. By ribbing 27 results in a correspondingly rigid design of the block bridge 20, wherein the ribbing 27 also saves material in the production of the block bridge 20. In addition, 27 corresponding bearing points can be formed by a meaningful arrangement of the ribbing, with which the block bridge 20 is supported on the height level II of a window sash profile 4 according to the invention. This ensures optimum introduction of the weight of the glazing 2 into the sash profile 4.

The holding seal 16 deforms when mounting a block bridge according to the invention Fig. 7 in the area of the block bridge 20 to be assembled at the predetermined deformation point 17 and is received after the assembly of the block bridge 20 in a cavity 28 formed by the ribbing 27 of the block bridge 20.

On both sides of the block bridge 20 according to the invention Fig. 7 , or 8a to 8d are holding webs 29 are formed, which prevent the mounting block to be mounted in addition to the stop lugs 25 on a movement on the block bridge 20, so that it can be particularly securely positioned on the block bridge 20.

From the description, it follows that a window sash profile according to the invention has at least two different means for applying geometrically different block bridges.

LIST OF REFERENCE NUMBERS

1.

casement

Second

glazing

Third

setting blocks

4th

Casement profile

5th

cavity

6th

stiffening struts

7th

T-slot on the upper inside

8th.

Outer rebate seal

9th

T-slot on the lower inside

10th

functional groove

10 '

groove

11th

folding area

12th

Fixing bar on the window sash profile

12a

Fixing web to the retaining gasket

13th

radius

14th

undercut

15th

Outside of the profile

16th

holding seal

17th

Intended deformation point

18th

spring element

19th

cavity

20th

Glazing bridge

21st

carrying Klotz

22nd

spring elements

23rd

lower spring element

24th

lateral spring element

25th

stop lug

26th

spring element

27th

ribbing

28th

cavity

29th

holding web

Claims (12)

1. A window sash profile (4) having various height levels (I, II, III) in the rebate region (11) for accommodating at least one glazing bridge (20), a setting block (21), and a glazing (2), characterized in that

   a. the window sash profile (4) has at least three different means for the friction-locked and formfitting attachment of geometrically differently formed glazing bridges (20),

   b. wherein one of the means for the friction-locked and formfitting attachment of geometrically differently formed glazing bridges (20) is a function groove (10) of the window sash profile (4),

   c. wherein a further of the means for the friction-locked and formfitting attachment of geometrically differently formed glazing bridges (20) is a fastening web (12) of the window sash profile (4), and

   d. wherein a third means for the friction-locked and formfitting attachment of geometrically differently formed glazing bridges (20) is a radius (13) of the window sash profile (4) in cooperation with an undercut (14) of the window sash profile (4).
2. The window sash profile according to any one of the preceding claims, characterized in that a fourth of the means for the friction-locked and formfitting attachment of geometrically differently formed glazing bridges (20) is at least one spring element (18).
3. The window sash profile (4) according to any one of Claims 1 to 2 having a glazing bridge (20) attached thereon, characterized in that the glazing bridge (20) has at least one further, lower spring element (23).
4. The window sash profile (4) according to Claim 3 having a glazing bridge (20) attached thereon, characterized in that the glazing bridge (20) has at least one further lateral spring element (24).
5. The window sash profile (4) according to any one of Claims 3 or 4 having a glazing bridge (20) attached thereon, characterized in that the glazing bridge (20) has at least one further spring element (26) for engaging in a function groove.
6. The window sash profile (4) according to any one of Claims 3 to 5 having a glazing bridge (20) attached thereon, characterized in that the glazing bridge (20) has at least one stop lug (25).
7. The window sash profile (4) according to any one of Claims 3 to 8 having a glazing bridge (20) attached thereon, characterized in that the glazing bridge (20) has a ribbing (27).
8. The window sash profile (4) according to any one of Claims 3 to 7 having a glazing bridge (20) attached thereon, characterized in that the ribbing (27) of the glazing bridge (20) has a cavity (28), which accommodates the deformed sealing lip of the retention seal (16) during installation.
9. The window sash profile (4) according to any one of Claims 3 to 8 having a glazing bridge (20) attached thereon, characterized in that the glazing bridge (20) has at least one retention web (29), which laterally positions the inserted setting block during installation.
10. The window sash profile (4) according to any one of Claims 3 to 9 having a glazing bridge (20) attached thereon, characterized in that the glazing bridge (20) completely fills up at least one height level (I, II, III) of the rebate region (11), so that a continuous plane is formed with the adjoining height level (I, II, III) of the rebate region (11).
11. The window sash profile (4) according to any one of Claims 3 to 10 having a glazing bridge (20) attached thereon, characterized in that the glazing bridge (20) fills up at least one height level (I, I III) of the rebate region (11) only enough that there is sufficient space in the part remaining open to accommodate the sealing lip of the retention seal (16), so that a plane, which is interrupted by the space for the sealing lip, is formed with the adjoining height level (I, II, III) of the rebate region (11).
12. The window sash profile (4) according to any one of Claims 3 to 11 having a glazing bridge (20) attached thereon, characterized in that the glazing bridge (20) occupies more than one height level (I, II, III) of the rebate region.

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