EP0635618A1 - Elastic sealing strip for windows, doors and the like - Google Patents

Abstract

The invention relates to an elastic sealing profile having a lower sealing foot (2) and an upper sealing head (1) which is connected to said foot via a rear web (3), forms a closed hollow cross-section (II) and exhibits a side web (4) for abutment against a counter-surface to be sealed. In the case of said elastic sealing profile, the side web (4) is connected to the rear web (3) via an upper transverse web (5) and, at the bottom, merges into a connecting web (6) which, at a distance from the rear web (3), opens into a second transverse web (7) projecting therefrom. Said second web runs obliquely downwards from the rear web (3) and, at its end, is supported with respect to the sealing foot (2) via a supporting web (9), the second web forming a closed hollow cross-section (II) with the rear web (3) and the supporting web (9). The connecting web (6) has two web regions (6', 6''), of which the first (6') is fastened at the bottom of the side web (4), is essentially rectilinear and runs approximately parallel to the second transverse web (7). The second web region (6'') is curved, runs non-tangentially from the first web region (6'), and can be laid, essentially over its entire length (L) on the second transverse web (7) if the sealing gap reaches a predetermined gap width. <IMAGE>

Description

The invention relates to an elastic sealing profile for windows, doors or the like., With a lower sealing foot, which has at least one retaining lip, and with an upper sealing head connected to this via a back web, which forms a closed hollow cross section and one opposite the back web Has side web for contact with a counter surface to be sealed, the side web being connected at its upper end to the upper end of the back web via an upper transverse web which can be spring-loaded in the event of a sealing engagement in the direction of the interior of the hollow cross section of the sealing head, and at its lower end via a connecting web to a second, from the back web projecting obliquely downward cross web is connected, into which the connecting web opens at a distance from the back web, and with a cover lip for covering the opening of a receiving groove in a fold of a window, a door or the like. With inserted seal foot.

In such a known seal, a closed, round, tubular hollow cross section is attached to the lower end of the side web, into which the side web opens tangentially on the side facing away from the back web. On the opposite side of the hollow cross section facing the back web, the connecting web runs tangentially in an orientation parallel to the back web (in the unloaded state of the seal). If, during sealing engagement, the closing process leads to an approach of the side web in the direction of the back web, the closed hollow cross-section at the lower end of the side web is also moved with corresponding pivoting of the connecting web in the direction of the back web, to which it reaches when a predetermined sealing gap width is reached (which can be viewed as a design size of the profile). If the sealing gap is to be further reduced after that, with full sealing engagement via the hollow cross-section on the back web, additional elastic support of the side web is achieved, which leads to the build-up of greater elastic restoring forces with a further reduction in the sealing gap and thus to an increased sealing effect. However, as a result of the connection formed by the closed hollow cross section at the end of the side web between the latter and the connecting web and by the tangential entry of both webs into the connecting hollow cross section, there is a geometrical definition of the mutual alignment of the end regions of both webs entering the hollow cross section. Since with increasing deflection of the sealing head or reduction in the size of the sealing gap in the event of a sealing engagement, a change in the position of the hollow cross section occurs due to the lateral offset of the hollow cross section and the simultaneous pivoting of the connecting web, which the side web, which is positively guided by its abutment on the counter surface, does not follow can, there is a change in the relative orientation of the two webs to one another such that the position of the two webs, which is determined by the initial geometry, also changes relative to the hollow cross section connecting them. As a result, forced stresses occur not only in the side but also in the connecting web and in the walls of the hollow cross section connecting the two. These constrained stresses, in connection with the fact that the connecting web triggers a small vertical offset of the hollow cross section when pivoting in the direction of the back web, also leads to the occurrence of certain constraining conditions in the contact surface (sealing surface) between the side web and the counter surface to be sealed, whereby even small relative movements can occur here. which can impair the sealing function and lead to wear. Due to the relatively short length of the connecting web and the likewise only limited pivoting angle, this known seal also does not have a very large tolerance acceptance with regard to a sealing gap region which can be covered with a sufficient sealing effect.

Proceeding from this, the object of the invention is to design a sealing profile of this known shape so that, while largely avoiding the disadvantages mentioned, it is particularly suitable for use for larger sealing gap tolerances which, with full sealing engagement, both the occurrence of constraining forces in the area of the side and the Connecting web avoids and at the same time the build-up of stronger restoring forces and an even further improved sound insulation effect in the sound entry direction.

According to the invention, this is achieved with an elastic sealing profile of the type mentioned at the outset in that the connecting web has a cross section which is essentially straight, connected to the lower end of the side web, approximately parallel to the second cross web or to this (in the direction of the Seen from the back web) by a maximum of 20 ° web area and further a second, with a rounded, open to the second cross web cross section provided from the first web area towards the interior of the hollow cross section of the sealing head bulging second web area, and that in addition, the second crosspiece is extended so far beyond the junction of the second web region in the direction away from the back web that, when a sealing engagement occurs, the first web region essentially extends over its entire length when a predetermined width for the sealing gap is reached the second crossbar can be put on and is connected at its end facing away from the backrest to a support web which runs up to the backrest in the region of the sealing foot and with which it likewise forms a closed hollow cross section together with the backrest. The curvature of the second web area is particularly preferably carried out in such a way that there is a circular cross-section in the unloaded state of the sealing profile.

In the sealing profile according to the invention, in contrast to the generic seal, no further closed hollow cross-section is present within the hollow profile of the sealing head until a predetermined sealing gap width corresponding to the design of the profile is reached. In particular, the side web is not connected to the connecting web via a closed hollow cross section, so that the constraint conditions which occur for this reason in the case of the generic seal seal engagement are eliminated. By forming the connecting web into two web areas, the first web area connected to the lower end of the side web is essentially straight and also approximately parallel to the second cross web (or at a slight inclination to this, which can be up to 20 °) runs, in connection with the adjoining second web area of the connecting web, which has a cross section which is round in cross section but open to the second cross web, ensures an almost completely unimpeded deflection when the side web approaches in the direction of the profile web. The non-tangential protrusion of the second web area relative to the first web area of the connecting web such that the curvature is oriented towards the interior of the hollow cross-section also ensures a defined deformation behavior of the second web area when the sealing head deflects, which increases as the side web approaches in the direction of the back web leads at the same time to a continuous approach of the first web area of the connecting web in the direction of the second cross web, against which it finally comes to rest (when a predetermined sealing gap width is reached). The individual areas of the connecting web as well as the side web during the approach movement of the same almost do not interfere with sealing engagement, so that this results in a particularly "soft" behavior of the seal in the initial area of the sealing engagement, which the user of the window or the like. is perceived as pleasant. As soon as the first area of the connecting web then comes into contact with the second crossbar, the second web area of the connecting web together with the second crossbar also forms a closed hollow cross section within the hollow cross section of the sealing head, against which the side web with its inside then also comes into contact can. The shape and dimensioning of the first and second web area of the connecting web is particularly preferably carried out in such a way that when the first web area of the connecting web comes into contact with the second transverse web, the inner surface of the side web also abuts the outer surface of the second web area of the connecting web at about the same time . This state, which is generally referred to as "full sealing engagement" and gives a design state when designing a sealing profile, then leads to a very effective support of the side web in the seal according to the invention, which both at its free end (via the end of the first there Web area of the connecting web), as is additionally supported at a distance from it in an intermediate position between its two ends by the bulging second web area of the connecting web. Because the second land area is at a distance from the back land of the sealing profile is attached, it can also, compared to the generic seal, a relatively earlier start of the side web against the second web area of the connecting web, which in connection with the possible rebound width of the side web in the unloaded state of the seal overall to a greater tolerance in terms of sealable area leads to gap widths for the sealing gap than in the generic seal.

By supporting the second crossbar section by means of a support web which projects down into the foot region of the seal, it is also possible to achieve a particularly effective support of the two web regions of the connecting web by the second web section. At the same time, there is the additional advantage that due to the closed hollow cross-section that the second crossbar, the support web and the back web form together, there is a good stiffening of the entire sealing profile down into the foot area, which makes assembly of the seal easier when inserting the same leads to a better absorption and dissipation of the supporting forces occurring than in the generic seal in the receiving groove of the corresponding receiving fold and with full sealing engagement. With full sealing engagement, the seal shape according to the invention thus results in the formation of two closed hollow cross sections lying behind one another from the lower end of the side web within the hollow cross section of the sealing head, which results in improved sound insulation in the direction of sound entry as well as better heat insulation.

Due to the almost complete absence of constraining forces in the case of sealing engagement and due to the improved support effect on the side web with full sealing engagement, a somewhat improved sealing effect is achieved overall compared to the generic seal and the occurrence of a (if only.) Caused by relative movements in the contact area between the side web and the counter surface to be sealed minor) wear is virtually eliminated.

A particularly preferred embodiment of the sealing profile according to the invention is that the curvature of the second web area of the connecting web extends over an angular range of more than 180 °, which, in the event of a sealing engagement, favors a particularly slight and guided change in the curvature of the second web area of the connecting web from its open, arched initial shape to its closed final shape (with full sealing engagement). The second web area of the connecting web preferably runs from its first web area at an angle greater than 90 °, which also favors the transition of the second web area during the sealing engagement from its arched open initial shape into its closed final shape. This is also made easier if, in a further preferred embodiment of the invention, the second web area of the connecting web runs into the second cross web at an angle of less than 90 °.

Preferably, the junction of the second, arched web area of the connecting web in the second crossbar, seen relative to the sealing foot, is arranged so that it is higher than the junction of the second web area of the connecting web in the first web area, which is also particularly advantageous when deflecting Overall kinematics can be achieved.

It is also advantageous if, in the case of the seal according to the invention, the support web on the sealing foot opens directly into the back web above the retaining lip attached there (or, if there are several retaining lips, directly above the uppermost retaining lip). As a result, a favorable stiffening of the corner for installation and a good application in the back of the fold is achieved at the same time, which prevents the corner from being undesirably turned when the seal is inserted into the groove.

The support web can be designed in different ways, depending on the specific requirements. In most cases, it is advantageously designed to be essentially rectilinear in cross-section. Another preferred embodiment can also consist in the fact that the second crossbar consists of two crossbar sections which are essentially rectilinear in cross-section and extend at an angle of incidence to one another, the first crossbar section splaying obliquely downwards from the back web at a predetermined angle, while the second crossbar section in runs essentially parallel to the back web and is connected at its lower end to the support web leading directly to the sealing foot. Such a design is particularly advisable if, for example, a thickening for connection to a fitting or an edge gear is arranged in the lower region of the second crossbar section.

In the sealing profile according to the invention, the upper transverse web, the side web and the connecting web are very particularly preferably made of a material which is softer than the material of all other parts of the sealing profile, a foamed elastic plastic in particular being able to be used for this. The "softer" material is preferably chosen to have a Shore A hardness of 55 or less, while the "harder" sections should have a Shore A hardness of 85 or greater.

It is furthermore particularly advantageous if, in the case of a sealing profile according to the invention, the side web at its lower and / or its upper end merges into the first web area of the connecting web or the upper cross web via a connecting section which is rounded in cross section, preferably in the form of a circular section, such a connecting section runs tangentially into the side web as well as into the first web area of the connecting web or the upper cross web. This allows a particularly "soft" deflection behavior to be achieved until full sealing engagement is achieved.

It is further preferred if the second crossbar or its first crossbar section on the one hand and the support web on the other hand are of the same length or at the same angle of attack (albeit towards one another).

The cover lip is very particularly preferably attached to the front end of the second crossbar or crossbar section in a direction slightly angled upwards in such a way that it is when the first web region of the connecting web abuts against the second crossbar or its first section , is additionally held at its lower end by the cover lip.

In the present context, "top" or "bottom" always refers to an orientation towards the sealing head ("top") or towards the sealing foot ("bottom"), irrespective of the installation position in which the seal is in use.

• Fig. 1 bis 3 jeweils vergrößerte Querschnitte durch drei verschiedene Ausführungsformen eines erfindungsgemäßen Dichtungsprofils, sowie
• Fig. 4 bis 7 das Dichtungsprofil aus Fig. 1 im Einbauzustand in vier Phasen eines Dichtungseingriffs, wobei Fig. 4 den Beginn des Dichtungseingriffs und Fig. 7 das Erreichen des vollen Dichtungseingriffs darstellen.

The invention is explained in more detail below by way of example with reference to the drawing. Show it:

• Fig. 1 to 3 each enlarged cross-sections through three different embodiments of a sealing profile according to the invention, and
• 4 to 7 show the sealing profile from FIG. 1 in the installed state in four phases of a sealing engagement, FIG. 4 showing the beginning of the sealing engagement and FIG. 7 the reaching of the full sealing engagement.

In the following description of the figures, the same reference symbols are used in the individual figures for identical or corresponding parts.

The sealing profile shown in cross section in FIG. 1 (in the unloaded state, ie before installation) has a sealing head 1 at the top and a sealing foot 2 at the bottom, which are connected to one another along a back web 3. The sealing head 1 is designed in the form of a closed cavity I and has a side web 4 opposite the back web, which is used for contacting the counter surface to be sealed and, in the unloaded state, has an orientation which is not completely parallel to the back web 3 but under one small angle to this is. At its upper end, the side web 4 is connected to the back web 6 via a first cross web 5. The first crossbar 5 has, as can be seen from FIG. 1, a V-shaped cross-section protruding into the interior of the cavity I and is via a connecting piece 12 with a round cross section both with the side web 4 and with the upper end the back bridge 3 connected. Likewise via an intermediate piece 11 which is rounded in cross section, a connecting web 6 is attached to the lower end of the side web 4, which web web has two web sections 6 ', 6''and protrudes downwards from the back web 3 at an acute angle α opens out second crossbar 7 at a distance A from the back web 3.

As shown in detail in FIGS. 1 to 3, the first web area 6 'of the connecting web 6 consists of a web section which is essentially rectilinear in cross-section, to which the second web area 6' 'adjoins, which rounds one over its entire longitudinal extent , here: has a cross-sectional profile that is circular in section and open downward to the second transverse web 7. The second web area 6 ″ of the connecting web 6 projects at an angle (FIG. 3) that is greater than 90 °, non-tangentially upwards from the upper end of the first web area 6 ′ and opens at an acute angle at a distance A from the back bridge 3 into the second cross bridge 7.

The first web area 6 ′ of the connecting web 6 has, as the figures show, an orientation that is inclined by a small angle ϑ (FIG. 2) to the alignment of the second cross web 7, the inclination towards one increasing with distance from the back web 3 leads from the spreading relative position of both webs. However, it would also be possible to align the two webs parallel or approximately parallel to one another, i.e. that ϑ = 0.

In the embodiment according to FIG. 1, as seen from the back web 3, the second cross web 7 is extended beyond the junction point of the second web region 6 ″ of the connecting web 6 by such a length that the first web region 6 ′ extends with a sufficiently strong approach of the side web 4 against the back web 3 in the case of sealing engagement against the top of the second connecting web 7 can be supported over its full length. In this case, a cover lip 8 is attached to the lower end of the second cross bar 7, which includes an angle between 90 ° and 180 ° with the second cross bar 7, the length of the second cross bar 7 and the arrangement of the cover lip 8 can be chosen so that at System of the first web area 6 'against the top of the second cross bar 7, the cover lip 8 bears against the lower rounding of the connecting section 11 and thus provides additional support for the side bar 4 upwards. In the illustration shown in the figures, the second crosspiece is 7, however, a little longer, so that the cover lip, as shown in FIGS. 4 to 7, does not yet come into contact with the connecting section 11 when the sealing engagement is complete.

At its lower end, the second transverse web 7 is connected via a support web 9 to the profile back 3 in the foot region 2 of the seal. The support web 9 runs, in cross section essentially rectilinearly, all the way down into the foot region 2 and there it opens into the profile back at a point which lies directly above the single support rib 10 attached to the lower end of the foot region 2. The support rib 10 is provided in order to lock the foot area 2 within the receiving groove 15 of a corresponding fold 16 (cf. FIGS. 4 and 7), with an additional pointed to improve the mounting in the holding groove 15 on the underside of the holding lip 10 Locking projection 14 is attached.

The sealing profiles of FIGS. 2 and 3 differ from that of FIG. 1 only in that the second transverse web 7 consists of two web sections 7 'and 7' 'which are bent at an angle to one another. The first crosspiece section 7 'runs, like the crosspiece 7 in the example from FIG. 1, at an acute angle α from the back of the profile or back piece 3, while the second crosspiece portion 7' 'is aligned approximately parallel to the profile piece 3 is. 2 and 3 show the seal in the unloaded, i.e. not installed condition. In the embodiment according to FIG. 2, the covering lip 8, which - as shown in FIGS. 4 to 7 - serves the upper cover of the receiving groove 15 when the seal is inserted, is at the lower end of the second transverse web section 7 ″ directly above the junction point of the supporting web 5 appropriate. The sealing profile shown in Fig. 3, on the other hand, has a thickening 13 at this point, which e.g. serves for a bevel gear.

In the representations of FIGS. 1 to 3, the back web 3, the cross web 7 (or the cross web sections 7 'and 7'') and the support web 9 each form a closed hollow cross section, which overall results in a considerable stiffening of the seal results in the foot area, which still forms an additional stiffening there by the mouth of the support web 9 just above the lower end of the sealing foot 2.

This rigid overall structure enables a problem-free insertion of the seal into the receiving groove 15 of a corresponding retaining fold 16 (FIGS. 4 to 7), the additional stiffening due to the opening of the support web 9 directly above the lower end of the back web 3 causing undesired turning of the seal at the Avoid assembly safely.

As indicated in FIGS. 1 to 3 by a different hatching, the upper (first) transverse web 5, the side web 4, the connecting web 6 and the connecting sections 11 and 12 each consist of an elastic material that is "softer" than the material of the other seal parts. An elastic plastic with a Shore A hardness of at most 55 is particularly suitable for this, while one with a Shore A hardness of at least 85 should be used for the other sealing parts. The difference in hardness can be brought about by different plastic materials or else by foaming the "softer" sections or by foaming them more than the other sections. There is even the possibility that the inner cavity I of the sealing head 1 is foamed with a coarse-pored plastic foam, which can be of interest for certain applications.

4 to 7 the seal from FIG. 1 is shown in the installed state in four successive phases of a sealing engagement, FIG. 4 the beginning of a sealing engagement, FIGS. 5 and 6 intermediate positions and FIG. 7 the seal with "full" sealing engagement shows.

The seal is in a receiving groove 15 of a receiving fold 16 of a wooden door, a wooden window or the like. introduced, the receiving gap 15 above the cover lip 8 against the ingress of moisture or the like. is closed.

The counter surface 17 to be sealed of the window, the door or the like. is approached with increasing closing process to the side web 4 and finally comes to this to the flat system (Fig. 4). When the closing process is continued, the sealing head 1 is increasingly compressed elastically while reducing the sealing gap while the side web 4 is approaching the back web 5. The first web area 6 'of the Connecting web 6 increasingly the top of the second crossbar 7, wherein at the same time the second web region 6 ″ rounded in cross section bends in the direction of the formation of a closed, round, hollow cross-sectional shape. With full sealing engagement, ie when a sealing gap width D is reached which corresponds to a predetermined design state, the first web area 6 'of the connecting web 6 comes into contact with the second cross web 7, as shown in FIG. 7. At the same time, the curved second web area 6 ″ of the connecting web 6, together with the second cross web 7, forms a closed hollow cross section 20 (FIG. 7). In addition, a further closed hollow cross section 21 occurs, which is enclosed on the outside by the end region of the second web section 6 ″ in the region of its connection to the first web region 6 ′, by the latter, by the connecting section 11 and by the side web 4. Overall, as can be seen from FIG. 7, this results in a closed arrangement of closed sealing chambers 21, 20 and the rest of the remaining hollow cross-section I, which results in excellent sound insulation, especially against the direction of sound entry, as well as good thermal insulation.

In the case of full sealing engagement, that is to say in the position as reached in FIG. 7, the side web 4 is supported at its lower end via the connecting web 11 and in an intermediate position between its two ends with its inside opposite the outside of the second web area 6 '. ', whereby overall there is a support at several points with respect to the second crossbar 7, the support forces being transmitted via this and the support web 9 to the profile back 3 and being supported there by the receiving fold 16.

The embodiment shown in the figures, in particular for the design of the sealing head 1, allows a "soft" deformation of the sealing head 1 in the event of a sealing engagement, ie the individual sealing webs (side web 4, connecting web 6, upper cross web 5) can deform almost unaffected from one another, as a result of which The occurrence of constraining forces is practically eliminated. In addition, the side web 4, after it has come to rest against the surface to be sealed, can easily compensate for its movements not only in the direction of the back web 3, but also any changes in its altitude, without it being caused by the upper cross web 5 or would be prevented by the connecting web 6, so that the occurrence of undesirable constraints in its contact area against the counter surface to be sealed is also eliminated. 4, a sealing effect can be achieved even with a relatively large sealing gap, ie the tolerance in the gap width of the sealing gap that can be accommodated by this seal is comparatively very large.

Claims (14)

Elastic sealing profile for windows, doors or the like, with a lower sealing foot, which has at least one retaining lip, and an upper sealing head, which is connected to it via a back web, and which forms a closed hollow cross section, and a side web opposite the back web for contact with a counter surface to be sealed This side web is connected at its upper end to the upper end of the back web via an upper transverse web which can be deflected in the event of a sealing engagement in the direction of the interior of the hollow cross section of the sealing head, and at its lower end via a connecting web to a second, obliquely downwards from the back web projecting transverse web is connected, into which the connecting web opens at a distance from the back web, and with a cover lip for covering the opening of a receiving groove in a rebate of a window, a door or the like when the sealing foot is inserted,
characterized in that the connecting web (6) has a cross-section which is substantially rectilinear, connected to the lower end of the side web (4) and, in the unloaded state of the sealing profile, approximately parallel to the second cross web (7) or in the direction of the back web ( 3) seen, up to 20 ° inclined web area (6 ') and a second, with a rounded, open to the second crossbar (7) cross section provided from the first web area (6') towards the interior of the hollow cross section (I) of the sealing head (1) non-tangentially bulging second web area (6 ''),
and that the second transverse web (7) is extended beyond the junction of the second web area (6 '') in the direction away from the back web (3) to such an extent that the sealing bar engages the first web area (6 ') when a predetermined one is reached Width (D) for the sealing gap can be applied essentially over its entire length (L) to the second transverse web (7) and at its end facing away from the back web (3) with one to the back web (3) in the region of the sealing foot (2) extending support web (9) is connected, with which it also forms a closed hollow cross section (II) together with the back web (3). Elastic sealing profile according to claim 1, characterized in that the second web area (6 '') has a circular cross-section in the unloaded state of the sealing profile. Elastic sealing profile according to claim 1 or 2, characterized in that the curvature of the second web area (6 '') extends over an angular area (β) of more than 180 °. Elastic sealing profile according to one of claims 1 to 3, characterized in that the second web area (6 '') runs from the first web area (6 ') at an angle () greater than 90 °. Elastic sealing profile according to one of claims 1 to 4, characterized in that the second web area (6 '') runs into the second crossbar (7) at an angle () of less than 90 °. Elastic sealing profile according to one of claims 1 to 5, characterized in that the curvature of the second web area (6 '') is selected so that when the first web area (6 ') bears against the second crossbar (7), the side web also engages when sealing (4) comes to rest against the second land area (6 ''). Elastic sealing profile according to one of claims 1 to 6, characterized in that the junction of the second, arched web area (6 '') in the second transverse web (7) relative to the sealing foot (2) is higher than the junction of the second web area (6 ') ') lies in the first web area (6'). Elastic sealing profile according to one of claims 1 to 7, characterized in that the support web (9) on the sealing foot (2) opens directly above the (top) retaining lip (10) in the back web (3). Elastic sealing profile according to claim 7 or 8, characterized in that the support web (9) is essentially rectilinear in cross-section. Elastic sealing profile according to one of claims 1 to 9, characterized in that the second crossbar (7) consists of two crossbar sections (7 ', 7' ') which are essentially rectilinear in cross-section and extend at an angle (), the first crossbar section (7 ') spreads obliquely downwards from the back web (3) at an angle (α), while the second cross web section (7' ') runs essentially parallel to the back web (3) and at its lower end with that to the sealing foot (2 ) leading support web (9) is connected. Elastic sealing profile according to one of claims 1 to 10, characterized in that the upper transverse web (5), the side web (4) and the connecting web (6) consist of a material which is softer than the material of all other parts of the sealing profile. Elastic sealing profile according to claim 11, characterized in that the upper transverse web (5), the side web (4) and the connecting web (6) consist of foamed elastic plastic. Elastic sealing profile according to one of claims 1 to 12, characterized in that the side web (4) in each case at its lower and / or its upper end via a connecting section (11; 12) which is rounded in cross section, preferably in the form of a circular section, into the first web area (6 ') of the connecting web (6) or the upper transverse web (5) passes over. Elastic sealing profile according to one of claims 1 to 9, characterized in that the second crossbar (7) or the first crossbar section (7 ') and the support web (9) are of equal length.

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