EP0114220B1 - Bridge block for fixing glass panes or the like in door or window frames - Google Patents

Bridge block for fixing glass panes or the like in door or window frames Download PDF

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Publication number
EP0114220B1
EP0114220B1 EP83111211A EP83111211A EP0114220B1 EP 0114220 B1 EP0114220 B1 EP 0114220B1 EP 83111211 A EP83111211 A EP 83111211A EP 83111211 A EP83111211 A EP 83111211A EP 0114220 B1 EP0114220 B1 EP 0114220B1
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EP
European Patent Office
Prior art keywords
bridge
spacer block
longitudinal side
faces
block according
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EP83111211A
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German (de)
French (fr)
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EP0114220A1 (en
Inventor
Hans-Dieter Niemann
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Individual
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Individual
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Priority to AT83111211T priority Critical patent/ATE20375T1/en
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    • EFIXED CONSTRUCTIONS
    • E06DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
    • E06BFIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
    • E06B7/00Special arrangements or measures in connection with doors or windows
    • E06B7/14Measures for draining-off condensed water or water leaking-in frame members for draining off condensation water, throats at the bottom of a sash
    • EFIXED CONSTRUCTIONS
    • E06DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
    • E06BFIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
    • E06B3/00Window sashes, door leaves, or like elements for closing wall or like openings; Layout of fixed or moving closures, e.g. windows in wall or like openings; Features of rigidly-mounted outer frames relating to the mounting of wing frames
    • E06B3/54Fixing of glass panes or like plates
    • E06B3/5409Means for locally spacing the pane from the surrounding frame

Definitions

  • the invention relates to a block bridge for fixing glass panes or the like. in grooves in door or window frames, with a strip-like, injection-molded bridge body that has a longitudinal groove that extends in a funnel-like manner on both bridge ends to tapered transverse side surfaces of two supporting webs of the bridge body.
  • a block bridge of this type is already known (DE-GM 78 28 440). It is inserted between an edge of the glass pane and a supporting surface of the frame and allows there with its groove that condensed water or penetrating rainwater can reach the existing water drains. If this water drainage were prevented or significantly impeded, the moisture which would then always be present could lead to damage to the window, in particular to the insulating glass or double panes, the space between which must remain largely free of moisture in order to avoid non-removable fogging on the inside of the panes.
  • the funnel-like widening of the groove at the two ends of the bridge contributes to the fact that the water can run off as completely as possible, that is to say without any jam in front of the transverse side faces of the supporting webs, which must be designed to be comparatively wide for reasons of stress from the glass pane and therefore considerably increase the water flow could hinder.
  • the invention is therefore based on the object to improve a block bridge of the type mentioned so that it can be fixed in the frame without obstructing the water flow through the groove.
  • clamping projections acting on the groove side wall of the door or window frame are present at a distance from the transverse side surfaces on at least one outer longitudinal side surface of the support webs. It is therefore important for the invention that the clamping projections are designed in such a way that a funnel-like expansion of the longitudinal groove is possible and there is no need to take into account the fixing of the block bridge in the frame or the design of the clamping projections required for this.
  • the clamping projections are arranged at a distance from the transverse side surfaces and, above all, are also designed to be discrete, that is to say as elements which essentially effect a point-like clamping.
  • the formation of the block bridge with punctiform clamping avoids that the support webs are weakened over greater lengths by the presence of clamping means, so that the groove would have to be reduced so that the support webs can have the required width.
  • a reduction in the groove width would have to be accepted, which primarily results in a fundamental deterioration in the ventilation of the frame in this area, but also a hindrance to the water flow through enlargement the distance of the groove to the clamping surface of the frame.
  • the clamping surfaces of the outer longitudinal side surfaces are spring tongues pointing upwards to the bridge web and / or downwards to the supporting surfaces.
  • the spring tongues deflect towards the center of the block bridge when the block bridge is inserted and still ensure that the block bridge is firmly seated in the frame.
  • Appropriate dimensioning of the spring tongues means that even relatively large tolerances can be bridged. It is even possible to use a certain block bridge for several widths of the frame's fastening groove. This results in a reduction in the number of types of block bridges, which is associated with considerable savings in manufacturing costs and warehousing costs.
  • the clamping projections receiving recesses are arranged in the longitudinal surfaces of the support webs.
  • the clamping projections can thus move more or less into the recesses when the block bridge is inserted into the frame, which is also in the sense of the aforementioned advantages.
  • a gap between the block bridge and the clamping surface of the frame can be avoided.
  • the portions of the outer longitudinal side surfaces adjacent to the funnel-like extensions of the groove lie closely against the adjacent frame surfaces. Filling a gap between an outer longitudinal side surface and an adjacent frame surface by running water is avoided.
  • the clamping projections designed as spring tongues point away with their free ends from the longitudinal side surfaces carrying them, so that a certain claw effect is achieved by the free ends, which benefits the strength of the seat of the block bridge in the frame.
  • the clamping projections designed as partially annular spring tongues assign with a free end to the long side surface bearing it.
  • their length can be made comparatively large, so that a correspondingly large clamping surface results, which brings about the better fit of the block bridge in the frame.
  • the clamping projections of the outer longitudinal side surfaces are horizontal spring arches which are integral with two ends on a support web. The two-sided attachment of the spring arches to a support web enables significant clamping forces for a correspondingly tight arrangement of a block bridge in the frame.
  • clamping projections are fixed clamping cams
  • advantages result from simple manufacture.
  • the tight fit of such a block bridge is improved if the fixed clamping cam engages, for example, under a retaining rib of a profiled frame, or if the frame is made of wood, so that the tight fit is essentially achieved by deformation of the wood with the clamping cam .
  • fastening pins are attached to the support surfaces of the support webs and / or to the frame-side surface of the bridge web. These can cause an additional fastening of a block bridge, but can also be used exclusively, i.e. without clamping projections, if this is desired to simplify the fastening.
  • one-piece sealing lips protrude laterally from the tapered transverse side surfaces of the support webs in order to seal an intermediate space, possibly as a result of the clamping projections, between a longitudinal side surface of a support web and the adjacent wall of the frame.
  • Such sealing lips can be specially designed projections, but also the z.
  • clamping projections are arranged individually at greater distances, they meet less stringent requirements for a firm fit.
  • Fish scale-like distribution of the clamping projections or their arrangement as parallel ribs on a longitudinal side surface of the block bridge or a support web enable stronger clamping forces and thus a more secure fit.
  • a frame profile 10 which carries an insulating glass pane 11 which is supported vertically on a profile wall 13 via a block bridge 12.
  • a profile strip 14 on one side of the insulating glass pane 11 and a glass retaining strip 15 on the other side of the insulating glass pane 11 serve to hold the glass pane 11.
  • the glass holding strip 15 is engaged with a connecting rib 16 in the profiled wall 13 of the frame profile 10.
  • the lateral support of the insulating glass pane 11 takes place via elastic sealing strips 17 which are fastened to the profiled strip 14 and the glass retaining strip 15 via connecting ribs 18 by latching in corresponding connecting grooves.
  • the block bridge of FIG. 2 has three clamping projections 26 in the form of spring tongues, as shown in FIG. 5, on each outer longitudinal side 25. These clamping projections 26 thus emerge unloaded from a recess 27 in the support web 24 from the outer longitudinal side surface 25 and thus enable the block bridge 12 to be clamped between two vertical ones Profile walls of the frame profile 10, if their distance is less than the distance between two opposing clamping projections 28. When loaded, the clamping projections 28 can more or less step back or dive into the recesses 27, depending on the distance between the vertical profile walls of the frame profile, without the The clamping effect is lost.
  • the clamping projections 28 are directed to the profile wall 13 or down to the support surfaces 28 of the support webs 24.
  • the clamping projections 26, which can also dip into recesses 27, are directed upwards to the glass pane or to the bridge web 29 of the block bridge 12. This achieves a claw effect which counteracts the pulling out of the block bridge 12 out of the frame profile 10.
  • the clamping projections 26 of FIG. 3 are not accommodated within recesses in the support webs 24 and are therefore kept correspondingly thin. They are part-ring-shaped spring tongues which point with their ends 30 to the outer longitudinal side surface 25 which supports them.
  • the right clamping projection 26 of the block bridge 12 of FIG. 3 is intended for only a small space between the longitudinal side surface 25 and the adjacent profile wall, that is, its end 30 abuts the longitudinal side surface 25.
  • the left clamping projection 26 of the block bridge 12 of FIG. 3 is intended for larger gaps between the outer longitudinal side surface 25 and the adjacent wall of the frame profile 10, and therefore maintains a distance from the longitudinal side surface 25 with one end 30.
  • Both clamping projections 26 of the block bridge 12 3 are only shown, for example, with the end 30 directed downward toward the support surface 28 of the support web 24 on the right side and with the end 30 directed upward toward the bridge web 29 on the left side of FIG. 3.
  • Fig. 6 shows in the view of the end face of a block bridge 12, the relatively wide support webs 24, which are provided at their ends with inclined surfaces 32, so that the tapered transverse side surfaces 23 result below the bridge web 29.
  • This block bridge 12 is formed with clamping projections 26 in the form of fixed clamping cams, which cause this block block to be fixed in the frame with elastic deformation of a frame, in particular a wooden frame, and / or the block bridge.
  • Fig. 6 also shows mounting pins 33, 34 which in a frame surface, for. B. the profile surface 20 of the profile wall 13 can be driven and thereby lead to an attachment of the block bridge 12 to the frame.
  • the fastening pins 26 are, for example, pin nails which are injected with their heads 35 into the support surface 28 of the support webs 24.
  • the mounting pin 34 is a z. B. with a setting tool, such as a bolt setting tool or a nail tool, drivable pin nail, which has a disc 36 to limit the driving depth and is to be fastened with a head 37 between two fastening ribs 38 on the inside of the bridge web 29 by the block bridge with its fastening webs 38 is locked on the head 37.
  • the pin nails 33, 34 can be used in connection with the clamping projections 26, but also in the case of block bridges without such clamping projections, expediently using either only the pin nails 33 or only the pin nails 34.
  • FIG. 7 shows a block bridge 12 corresponding to the principle of FIG. 6 with clamping projections 26 which are designed as fixed cams.
  • the block bridge 12 of FIG. 7 is tightly fitted between two vertical profile walls 39, 40 of the frame profile 10.
  • the clamping projections 26 engage on one side in a fastening groove of the vertical profile wall 39 and on the other side under a fastening projection 41 of the frame profile 10.
  • the clamping projections 26 designed as fixed clamping cams are sufficient to remove the block bridge 12 from the frame profile 10 upwards to prevent and a clamping effect of the vertical support webs 24 and / or the clamping projections 26 in the clamping groove or. on the clamping rib 41 are sufficient to prevent longitudinal displacement of the block bridge 12.
  • the clamping projections 26 of FIGS. 7, 8 are horizontal spring arch pieces, the ends of which are each connected in one piece to the support webs 24.
  • the spring arches are arranged essentially in the direction of the longitudinal extension of the support webs 24 and resulted from the fact that the support webs 24 are formed from the outer longitudinal side surface 25 to the inner longitudinal side surface 42 in such a way that a relative movement of the spring arch-like clamping projections 26 is made possible in the horizontal plane.
  • the clamping projections 26 are arranged such that they are at a distance from the transverse side surfaces 23 in the longitudinal direction of the block bridge 12.
  • 23 surface sections 43 are formed on the outer longitudinal side surfaces 25 near the transverse side surfaces, cf. e.g. B. Fig. 2, which can lie tightly against the adjacent profile walls of the frame profile 10 without being significantly affected by the clamping projections 26.
  • This can be done by a corresponding adjustment of the width of the block bridge 12 to the distance between the vertical profile walls of the frame profile 10, but also in that the block bridge in the region of the sections 43 is given a corresponding projecting shape, for. B.
  • sealing lips 44 which are integral with the support webs 24 and the block bridge 12 and seal an existing gap between the block bridge 12 and the frame profile 10.
  • clamping projections 26 are arranged like fish scales distributed on the longitudinal side surface 25 of the support web 24.
  • the left side of FIG. 10 shows clamping projections 26 which are designed as parallel ribs.
  • the clamping projections 26 are either fixed clamping cams or clamping ribs or movable to a small extent according to FIG. 11, so that they can thus dip into the recesses 27 provided for them when they are pressurized accordingly by a vertical profile wall of a frame profile.

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  • Engineering & Computer Science (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Securing Of Glass Panes Or The Like (AREA)

Abstract

1. Bridge spacer block for the fixing of glass sheets or the like in door or window frames, comprising a crutchlike bridge member, especially of injection moulded plastics material, which has a groove extending throughout its length and widening at both ends of the bridge member in funnel-shaped manner towards transverse corner faces at the apices of two support legs of the bridge member, characterized in that a plurality of gripping projections (26) spaced from the transverse corner faces (23) are provided on at least one outer longitudinal side face (25) of the support legs (24).

Description

Die Erfindung bezieht sich auf eine Klotzbrücke zum Festsetzen von Glasscheiben od.dgl. in Nuten von Tür- oder Fensterrahmen, mit einem leistenartigen, aus Spritzkunststoff bestehenden Brückenkörper, der eine längs durchlaufende Nut hat, die an beiden Brückenenden trichterartig erweitert zu zugespitzten Querseitenflächen zweier Stützstege des Brückenkörpers verläuft.The invention relates to a block bridge for fixing glass panes or the like. in grooves in door or window frames, with a strip-like, injection-molded bridge body that has a longitudinal groove that extends in a funnel-like manner on both bridge ends to tapered transverse side surfaces of two supporting webs of the bridge body.

Eine Klotzbrücke dieser Art ist bereits bekannt (DE-GM 78 28 440). Sie wird zwischen einer Kante der Glasscheibe und einer Stützfläche des Rahmens eingesetzt und gestattet dort mit ihrer Nut, daß Kondenswasser oder eingedrungendes Regenwasser zu den vorhandenen Wasserabläufen gelangen kann. Würde dieser Wasserabfluß verhindert oder wesentlich behindert, so könnte die dann infolgedessen stets vorhandene Feuchtigkeit zu Schäden am Fenster führen, insbesondere an den Isolierglas- bzw. Doppelscheiben, deren Zwischenraum weitgehend feuchtigkeitsfrei bleiben muß, um nicht entfernbaren Beschlag an den Innenseiten der Scheiben zu vermeiden. Die trichterartige Erweiterung der Nut an den beiden Brückenenden trägt dazu bei, daß das Wasser so vollständig wie möglich ablaufen kann, also ohne Stau vor den Querseitenflächen der Stützstege, die aus Gründen der Belastung durch die Glasscheibe vergleichsweise breit ausgebildet sein müssen und daher den Wasserdurchfluß erheblich behindern könnten.A block bridge of this type is already known (DE-GM 78 28 440). It is inserted between an edge of the glass pane and a supporting surface of the frame and allows there with its groove that condensed water or penetrating rainwater can reach the existing water drains. If this water drainage were prevented or significantly impeded, the moisture which would then always be present could lead to damage to the window, in particular to the insulating glass or double panes, the space between which must remain largely free of moisture in order to avoid non-removable fogging on the inside of the panes. The funnel-like widening of the groove at the two ends of the bridge contributes to the fact that the water can run off as completely as possible, that is to say without any jam in front of the transverse side faces of the supporting webs, which must be designed to be comparatively wide for reasons of stress from the glass pane and therefore considerably increase the water flow could hinder.

Bei den Klotzbrücken besteht aber darüber hinaus noch das problem, sie im Rahmen festzulegen. Eine solche Festlegung ist z. B. angeraten, um eine Veränderung der Lage der Klotzbrücke im Rahmen zu verhindern, solange die Glasscheibe noch nicht eingesetzt ist, oder wenn die Glasscheibe ausgewechselt werden muß. Das Festsetzen der Klotzbrucken im Rahmen bewirkt dann, daß eine unsachgemäße Anordnung vermieden wird. Darüber hinaus soll das Festsetzen der Klotzbrücke im Rahmen auch in einfacher Weise und dann leicht möglich sein, wenn das Rahmenprofil und/oder die Klotzbrücke maßliche Toleranzen aufweisen.With the block bridges, however, there is also the problem of fixing them in the frame. Such a definition is e.g. B. advised to prevent a change in the position of the block bridge in the frame, as long as the glass pane is not yet inserted, or if the glass pane must be replaced. Fixing the block bridges in the frame then causes an improper arrangement to be avoided. In addition, the fixing of the block bridge in the frame should also be possible in a simple manner and then easily if the frame profile and / or the block bridge have dimensional tolerances.

Der Erfindung liegt also die Aufgabe zugrunde, eine Klotzbrücke der eingangs genannten Art so zuverbessern, daß sie ohne Behinderung des Wasserdurchlaufs durch die Nut im Rahmen festgelegt werden kann.The invention is therefore based on the object to improve a block bridge of the type mentioned so that it can be fixed in the frame without obstructing the water flow through the groove.

Diese Aufgabe wird dadurch gelöst, daß an mindestens einer äußeren Längsseitenfläche der Stützstege mehrere auf die Nutseitenwand der Tü-oder Fensterrahmen wirkende Klemmvorsprünge mit Abstand zu den Querseitenflächen vorhanden sind. Für die Erfindung ist also von Bedeutung, daß die Klemmvorsprünge so ausgebildet sind, daß eine trichterartige Erweiterung der längs durchlaufenden Nut möglich ist und dabei auf die Festlegung der Klotzbrücke im Rahmen bzw. auf die Ausbildung der dazu erforderlichen Klemmvorsprünge keine Rücksicht genommen zu werden braucht. Hierzu sind die Klemmvorsprünge mit Abstand zu den Querseitenflächen angeordnet und vor allem auch diskret ausgebildet, also als im wesentlichen eine punktförmige Klemmung bewirkende Elemente. Die Ausbildung der Klotzbrücke mit punktförmiger Klemmung vermeidet es, daß die Stützstege über größere Längen durch das Vorhandensein von Klemmmitteln geschwächt werden, so daß also die Nut verkleinert werden müßte, damit die Stützstege die erforderliche Breite haben können. Es müßte also zur Vermeidung der vorgeschriebenen Nachteile bei über die Länge der Klotzbrücke durchlaufenden Klemmvorsprüngen eine Verringerung der Nutweite in Kauf genommen werden, was vor allem eine grundsätzliche Verschlechterung der Belüftung des Rahmens in diesem Bereich zur Folge hat, aber auch eine Behinderung des Wasserdurchlaufs durch Vergrößerung des Abstands der Nut zur Klemmfläche des Rahmens.This object is achieved in that a plurality of clamping projections acting on the groove side wall of the door or window frame are present at a distance from the transverse side surfaces on at least one outer longitudinal side surface of the support webs. It is therefore important for the invention that the clamping projections are designed in such a way that a funnel-like expansion of the longitudinal groove is possible and there is no need to take into account the fixing of the block bridge in the frame or the design of the clamping projections required for this. For this purpose, the clamping projections are arranged at a distance from the transverse side surfaces and, above all, are also designed to be discrete, that is to say as elements which essentially effect a point-like clamping. The formation of the block bridge with punctiform clamping avoids that the support webs are weakened over greater lengths by the presence of clamping means, so that the groove would have to be reduced so that the support webs can have the required width. To avoid the prescribed disadvantages in the case of clamping projections running through the length of the block bridge, a reduction in the groove width would have to be accepted, which primarily results in a fundamental deterioration in the ventilation of the frame in this area, but also a hindrance to the water flow through enlargement the distance of the groove to the clamping surface of the frame.

Die Klemmflächen der äußeren Längsseitenflächen sind nach oben zum Brückensteg und/oder nach unten zu den Stützflächen weisende Federzungen. Die Federzungen weichen beim Einsetzen der Klotzbrücke zur Mitte der Klotzbrücke hin aus und bewirken trotzdem einen festen Sitz der Klotzbrücke im Rahmen. Eine entsprechende Bemessung der Federzungen bewirkt, daß auch verhältnismäßig große Toleranzen überbrückt werden können. Es ist sogar möglich, eine bestimmte Klotzbrücke für mehrere Breiten der Befestigungsnut des Rahmens zu verwenden. Dadurch wird eine Verringerung der Typenzahl bei Klotzbrücken erreicht, die mit erheblichen Einsparungen bei den Herstellungskosten und den Lagerhaltungskosten verbunden ist.The clamping surfaces of the outer longitudinal side surfaces are spring tongues pointing upwards to the bridge web and / or downwards to the supporting surfaces. The spring tongues deflect towards the center of the block bridge when the block bridge is inserted and still ensure that the block bridge is firmly seated in the frame. Appropriate dimensioning of the spring tongues means that even relatively large tolerances can be bridged. It is even possible to use a certain block bridge for several widths of the frame's fastening groove. This results in a reduction in the number of types of block bridges, which is associated with considerable savings in manufacturing costs and warehousing costs.

Vorteilhafterweise sind in den Längsflächen der Stützstege die Klemmvorsprünge aufnehmende Ausnehmungen angeordnet. Die Klemmvorsprünge können also beim Einsetzen der Klotzbrücke in den Rahmen mehr oder weniger in die Ausnehmungen ausweichen, was auch im Sinne der vorgenannten Vorteile ist. Vor allem kann aber bewirkt werden, daß ein Spalt zwischen der Klotzbrücke und der klemmenden Fläche des Rahmens vermieden wird. Infolgedessen liegen die den trichterartigen Erweiterungen der Nut benachbarten Abschnitte der äußeren Längsseitenflächen dicht an den benachbarten Rahmenflächen an. Ein Auffüllen eines Spaltes zwischen einer äußeren Längsseitenfläche und einer benachbarten Rahmenfläche durch hineinlaufendes Wasser wird vermieden.Advantageously, the clamping projections receiving recesses are arranged in the longitudinal surfaces of the support webs. The clamping projections can thus move more or less into the recesses when the block bridge is inserted into the frame, which is also in the sense of the aforementioned advantages. Above all, however, a gap between the block bridge and the clamping surface of the frame can be avoided. As a result, the portions of the outer longitudinal side surfaces adjacent to the funnel-like extensions of the groove lie closely against the adjacent frame surfaces. Filling a gap between an outer longitudinal side surface and an adjacent frame surface by running water is avoided.

Die als Federzungen ausgebildeten Klemmvorsprünge weisen mit ihren freien Enden von den sie tragenden Längsseitenflächen weg, so daß durch die freien Enden eine gewisse Festkrallwirkung erzielt wird, die der Festigkeit des Sitzes der Klotzbrücke im Rahmen zugute kommt. In diesem Sinne ist es aber auch vorteilhaft, wenn die als teilringförmige Federzungen ausgebildeten Klemmvorsprünge mit einem freien Ende auf die sie tragende Längsseitenfläche zuweisen. Bei dieser Ausbildung der Klemmvorsprünge kann deren Länge vergleichsweise groß ausgebildet werden, so daß sich eine entsprechend große Klemmfläche ergibt, die den besseren Sitz der Klotzbrücke im Rahmen bewirkt. Die Klemmvorsprünge der äußeren Längsseitenflächen sind in weiterer Ausgestaltung der Erfindung horizontale, mit zwei Enden einstückig an einem Stützsteg sitzende Federbogen. Die beidendige Befestigung der Federbogen an einem Stützsteg ermöglicht bedeutende Klemmkräfte für eine entsprechend fest sitzende Anordnung einer Klotzbrücke in Rahmen.The clamping projections designed as spring tongues point away with their free ends from the longitudinal side surfaces carrying them, so that a certain claw effect is achieved by the free ends, which benefits the strength of the seat of the block bridge in the frame. In this sense, however, it is also advantageous if the clamping projections designed as partially annular spring tongues assign with a free end to the long side surface bearing it. With this design of the clamping projections, their length can be made comparatively large, so that a correspondingly large clamping surface results, which brings about the better fit of the block bridge in the frame. In a further embodiment of the invention, the clamping projections of the outer longitudinal side surfaces are horizontal spring arches which are integral with two ends on a support web. The two-sided attachment of the spring arches to a support web enables significant clamping forces for a correspondingly tight arrangement of a block bridge in the frame.

Wenn die Klemmvorsprünge feststehende Klemmnocken sind, ergeben sich Vorteile durch einfache Herstellung. Auch der feste Sitz einer derartigen Klotzbrücke ist verbessert, wenn der feststehende Klemmnocken beispielsweise unter eine Halterippe eines profilierten Rahmens greift, oder wenn der Rahmen aus Holz-besteht, so daß also der feste Sitz im wesentlichen durch eine Verformung des Holzes mit dem Klemmnocken erzielt wird.If the clamping projections are fixed clamping cams, advantages result from simple manufacture. The tight fit of such a block bridge is improved if the fixed clamping cam engages, for example, under a retaining rib of a profiled frame, or if the frame is made of wood, so that the tight fit is essentially achieved by deformation of the wood with the clamping cam .

In Ausgestaltung der Erfindung sind an den Stützflächen der Stützstege und/oder an der rahmenseitigen Fläche des Brückenstegs Befestigungsstifte angebracht. Diese können eine zusätzliche Befestigung einer Klotzbrücke bewirken, jedoch auch ausschließlich verwendet werden, also ohne Klemmvorsprünge, falls das zur Vereinfachung der Befestigung gewünscht wird.In an embodiment of the invention, fastening pins are attached to the support surfaces of the support webs and / or to the frame-side surface of the bridge web. These can cause an additional fastening of a block bridge, but can also be used exclusively, i.e. without clamping projections, if this is desired to simplify the fastening.

In Weiterbildung der Erfindung springen von den zugespitzten Querseitenflächen der Stützstege einstückige Dichtlippen seitlich vor, um einen etwa infolge der Klemmvorsprünge vorhandenen Zwischenraum zwischen einer Längsseitenfläche eines Stützsteges und der benachbarten Wand des Rahmens abzudichten. Derartige Dichtlippen können in besonderer Weise ausgebildete Vorsprünge sein, jedoch auch die z. B. nadelspitzen Querseitenflächen der Stützstege selbst, wenn diese durch eine entsprechende. Formung der Klotzbrücke abweichend von einem rechteckigen Umriß seitlich vorspringen.In a further development of the invention, one-piece sealing lips protrude laterally from the tapered transverse side surfaces of the support webs in order to seal an intermediate space, possibly as a result of the clamping projections, between a longitudinal side surface of a support web and the adjacent wall of the frame. Such sealing lips can be specially designed projections, but also the z. B. needle-pointed transverse side surfaces of the support webs themselves, if this by a corresponding. Form the block bridge, projecting laterally from a rectangular outline.

Werden die Klemmvorsprünge in größeren Abständen einzeln angeordnet, so genügen sie geringeren Anforderungen an einen festen Sitz. Fischschuppenartige Verteilung von Klemmvorsprüngen oder ihre Anordnung als parallelrippen auf einer Längsseitenfläche der Klotzbrücke oder eines Stützstegs ermöglichen stärkere Klemmkräfte und damit einen festeren Sitz.If the clamping projections are arranged individually at greater distances, they meet less stringent requirements for a firm fit. Fish scale-like distribution of the clamping projections or their arrangement as parallel ribs on a longitudinal side surface of the block bridge or a support web enable stronger clamping forces and thus a more secure fit.

Die Erfindung wird anhand von in der Zeichnung dargestellten Ausführungsbeispielen erläutert. Es zeigt:

  • Fig. 1 eine perspektivische Ansicht eines Fensterrahmenendes mit einer von einer Klotzbrücke getragenen Glasscheibe,
  • Fig. 2 eine Untersicht auf eine erfindungsgemäß ausgebildete Klotzbrücke,
  • Fig. 3 bis 5 Querschnitte durch Klotzbrücken mit Federzungen,
  • Fig. 8 eine Ansicht einer Querseitenfläche einer mit Befestigungsstiften versehenen Klotzbrücke,
  • Fig. 7 eine Frontansicht eines Rahmenprofils mit darin eingesetzter, gemäß der Erfindung ausgebildeter Klotzbrücke,
  • Fig. 8 eine Teiluntersicht einer erfindungsgemäßen Klotzbrücke,
  • Fig. 9 die Klotzbrücke der Fig. 8 im Bereich einer Klemmstelle,
  • Fig. 10 eine Seitenansicht einer Längsseitenfläche einer Klotzbrücke mit speziellen Klemmvorsprüngen und Fig. 11 den Fig. 3 bis 5 entsprechende Schnittdarstellungen eines Stützstegs mit den Klemmvorsprüngen der Fig. 10.
The invention is explained with reference to exemplary embodiments shown in the drawing. It shows:
  • 1 is a perspective view of a window frame end with a glass pane carried by a block bridge,
  • 2 is a bottom view of a block bridge designed according to the invention,
  • 3 to 5 cross sections through block bridges with spring tongues,
  • 8 is a view of a transverse side surface of a block bridge provided with fastening pins,
  • 7 is a front view of a frame profile with a block bridge inserted therein, designed according to the invention,
  • 8 is a partial bottom view of a block bridge according to the invention,
  • 9 the block bridge of FIG. 8 in the area of a clamping point,
  • 10 shows a side view of a longitudinal side surface of a block bridge with special clamping projections, and FIG. 11 shows sectional views corresponding to FIGS. 3 to 5 of a support web with the clamping projections of FIG. 10.

In Fig. 1 ist ein Rahmenprofil 10 dargestellt, das eine Isolierglasscheibe 11 trägt, die über eine Klotzbrücke 12 auf einer Profilwand 13 vertikal abgestützt ist. Zur Halterung der Glasscheibe 11 dienen eine profilleiste 14 auf einer Seite der Isolierglasscheibe 11 und eine Glashalteleiste 15 auf der anderen Seite der Isolierglasscheibe 11. Die Glashalteleiste 15 ist mit einer Verbindungsrippe 16 in die profilwand 13 des Rahmenprofils 10 eingerastet. Die seitliche Abstützung der Isolierglasscheibe 11 erfolgt über elastische Dichtungsleisten 17, die mit der profilleiste 14 und der Glashalteleiste 15 über Verbindungsrippen 18 durch Verrastung in entsprechenden Verbindungsrillen befestigt sind.In Fig. 1, a frame profile 10 is shown, which carries an insulating glass pane 11 which is supported vertically on a profile wall 13 via a block bridge 12. A profile strip 14 on one side of the insulating glass pane 11 and a glass retaining strip 15 on the other side of the insulating glass pane 11 serve to hold the glass pane 11. The glass holding strip 15 is engaged with a connecting rib 16 in the profiled wall 13 of the frame profile 10. The lateral support of the insulating glass pane 11 takes place via elastic sealing strips 17 which are fastened to the profiled strip 14 and the glass retaining strip 15 via connecting ribs 18 by latching in corresponding connecting grooves.

Trotz der Dichtungsleisten 17 kann es im Raum zwischen der Isolierglasscheibe 11 und dem Rahmenprofil 10 unterhalb der Dichtungsleisten 17 zu Kondenswasseranfall kommen oder zu Ansammlung von infolge schadhafter oder nicht sachgemäß angebrachter Dichtungsleisten 17 auftretendem Leckwasser. Es sind daher im Rahmenprofil 10 Entwässerungsbohrungen 19 vorgesehen, welche die das anfallende Wasser sammelnde Profilfläche 20 zu entwässern gestatten. Da diese Entwässerungsbohrungen 19 nur in Abständen voneinander angeordnet sind, muß das Wasser zu ihnen fließen können, beispielsweise infolge geringer Neigung der profilfläche 20 oder infolge von Schwenkbewegungen des Flügels. Damit dieses Abfließen des angefallenen Wassers nicht behindert wird, hat die Klotzbrücke 12 eine Nut 21, die den Durchfluß grundsätzlich gestattet und gemäß Fig. 2 an den Brückenenden trichterförmige Erweiterungen 22 aufweist, damit entsprechend zugespitzte Querseitenflächen 23 der Stützstege 24 der Klotzbrücke 12 entstehen und das Abfließen des Wassers praktisch nicht behindert wird.Despite the sealing strips 17, condensation can occur in the space between the insulating glass pane 11 and the frame profile 10 below the sealing strips 17 or accumulation of leakage water which occurs as a result of damaged or improperly fitted sealing strips 17. There are therefore 10 drainage holes 19 provided in the frame profile, which allow the profile surface 20 collecting the water to be drained. Since these drainage holes 19 are arranged only at intervals from one another, the water must be able to flow to them, for example as a result of a slight inclination of the profile surface 20 or as a result of pivoting movements of the wing. So that this flow of the resulting water is not hindered, the block bridge 12 has a groove 21, which basically allows the flow and has funnel-shaped extensions 22 at the bridge ends, as shown in FIG Drainage of water is practically not hindered.

Die Klotzbrücke der Fig. 2 hat an jeder äußeren Längsseite 25 drei Klemmvorsprünge 26 in Gestalt von Federzungen, wie sie in Fig. 5 dargestellt sind. Diese Klemmvorsprünge 26 treten also unbelastet aus einer Ausnehmung 27 im Stützsteg 24 aus der äußeren Längsseitenfläche 25 hervor und ermöglichen so das Festklemmen der Klotzbrücke 12 zwischen zwei vertikalen Profilwänden des Rahmenprofils 10, wenn deren Abstand geringer ist, als der Abstand zweier gegenüberliegender Klemmvorsprünge 28. Bei Belastung können die Klemmvorsprünge 28 je nach Abstand der vertikalen Profilwände des Rahmenprofils 10 mehr oder weniger in die Ausnehmungen 27 zurücktreten bzw. eintauchen, ohne daß dadurch die Klemmwirkung verlorengeht.The block bridge of FIG. 2 has three clamping projections 26 in the form of spring tongues, as shown in FIG. 5, on each outer longitudinal side 25. These clamping projections 26 thus emerge unloaded from a recess 27 in the support web 24 from the outer longitudinal side surface 25 and thus enable the block bridge 12 to be clamped between two vertical ones Profile walls of the frame profile 10, if their distance is less than the distance between two opposing clamping projections 28. When loaded, the clamping projections 28 can more or less step back or dive into the recesses 27, depending on the distance between the vertical profile walls of the frame profile, without the The clamping effect is lost.

In Fig. 5 sind die Klemmvorsprünge 28 auf die Profilwand 13 bzw. nach unten zu den Stützflächen 28 der Stützstege 24 gerichtet. In Fig. 4 sind die Klemmvorsprünge 26, die ebenfalls in Ausnehmungen 27 eintauchen können, nach oben zur Glasscheibe bzw. zum Brückensteg 29 der Klotzbrücke 12 gerichtet. Dadurch wird eine dem Herausziehen der Klotzbrücke 12 aus dem Rahmenprofil 10 nach oben entgegenwirkende Krallwirkung erzielt..In Fig. 5, the clamping projections 28 are directed to the profile wall 13 or down to the support surfaces 28 of the support webs 24. In Fig. 4, the clamping projections 26, which can also dip into recesses 27, are directed upwards to the glass pane or to the bridge web 29 of the block bridge 12. This achieves a claw effect which counteracts the pulling out of the block bridge 12 out of the frame profile 10.

Die Klemmvorsprünge 26 der Fig. 3 sind nicht innerhalb von Ausnehmungen der Stützstege 24 untergebracht und daher entsprechend dünn gehalten. Es sind teilringförmige Federzungen, die mit ihren Enden 30 auf die sie tragende äußere Längsseitenfläche 25 weisen. Der rechte Klemmvorsprung 26 der Klotzbrücke 12 der Fig. 3 ist für nur geringen Zwischenraum zwischen der Längsseitenfläche 25 und der benachbarten Profilwand bestimmt, liegt also mit seinem Ende 30 an der Längsseitenfläche 25 an. Der linke Klemmvorsprung 26 der Klotzbrücke 12 der Fig. 3 ist dagegen für größere SPalte zwischen der äußeren Längsseitenfläche 25 und der benachbarten Wand des Rahmenprofils 10 bestimmt, wahrt deswegen mit einem Ende 30 einen Abstand von der Längsseitenfläche 25. Beide Klemmvorsprünge 26 der Klotzbrücke 12 der Fig. 3 sind nur beispielsweise mit nach unten zur Stützfläche 28 des Stützstegs 24 gerichtetem Ende 30 auf der rechten Seite und mit nach oben zum Brückensteg 29 gerichtetem Ende 30 auf der linken Seite der Fig. 3 dargestellt.The clamping projections 26 of FIG. 3 are not accommodated within recesses in the support webs 24 and are therefore kept correspondingly thin. They are part-ring-shaped spring tongues which point with their ends 30 to the outer longitudinal side surface 25 which supports them. The right clamping projection 26 of the block bridge 12 of FIG. 3 is intended for only a small space between the longitudinal side surface 25 and the adjacent profile wall, that is, its end 30 abuts the longitudinal side surface 25. The left clamping projection 26 of the block bridge 12 of FIG. 3, on the other hand, is intended for larger gaps between the outer longitudinal side surface 25 and the adjacent wall of the frame profile 10, and therefore maintains a distance from the longitudinal side surface 25 with one end 30. Both clamping projections 26 of the block bridge 12 3 are only shown, for example, with the end 30 directed downward toward the support surface 28 of the support web 24 on the right side and with the end 30 directed upward toward the bridge web 29 on the left side of FIG. 3.

Fig. 6 zeigt in der Ansicht der Stirnseite einer Klotzbrücke 12 die verhältnismäßig breiten Stützstege 24, die an ihren Enden mit Schrägflächen 32 versehen sind, so daß sich die zugespitzten Querseitenflächen 23 unterhalb des Brückenstegs 29 ergeben. Diese Klötzbrücke 12 ist mit Klemmvorsprungen 26 in Gestalt feststehender Klemmnocken ausgebildet, die unter elastischer Verformung eines Rahmens, insbesondere Holzrahmens, und/oder der Klotzbrücke die Festsetzung dieser Klotzbrücke im Rahmen bewirken.Fig. 6 shows in the view of the end face of a block bridge 12, the relatively wide support webs 24, which are provided at their ends with inclined surfaces 32, so that the tapered transverse side surfaces 23 result below the bridge web 29. This block bridge 12 is formed with clamping projections 26 in the form of fixed clamping cams, which cause this block block to be fixed in the frame with elastic deformation of a frame, in particular a wooden frame, and / or the block bridge.

Fig. 6 zeigt außerdem Befestigungsstifte 33, 34, die in eine Rahmenfläche, z. B. die Profilfläche 20 der profilwand 13 angetrieben werden können und dadurch zu einer Befestigung der Klotzbrücke 12 am Rahmen führen. Die Befestigungsstifte 26 sind beispielsweise Stiftnägel, die mit ihren Köpfen 35 in die Stützfläche 28 der Stützstege 24 eingespritzt sind. Der Befestigungsstift 34 ist ein z. B. mit einem Setzgerät, wie einem Bolzensetzgerät oder einem Nagelgerät eintreibbarer Stiftnagel, der eine Scheibe 36 zur Begrenzung der Eintreibtiefe hat und mit einem Kopf 37 zwischen zwei Befestigungsrippen 38 an der Innenseite des Brückenstegs 29 zu befestigen ist, indem die Klotzbrücke mit ihren Befestigungsstegen 38 auf dem Kopf 37 verrastet wird. Die Stiftnägel 33, 34 können in Verbindung mit den KlemmvorsPrüngen 26 verwendet werden-, jedoch auch bei Klotzbrücken ohne derartige Klemmvorsprünge, wobei zweckmäßigerweise entweder nur die Stiftnägel 33 oder nur die Stiftnägel 34 verwendet werden.Fig. 6 also shows mounting pins 33, 34 which in a frame surface, for. B. the profile surface 20 of the profile wall 13 can be driven and thereby lead to an attachment of the block bridge 12 to the frame. The fastening pins 26 are, for example, pin nails which are injected with their heads 35 into the support surface 28 of the support webs 24. The mounting pin 34 is a z. B. with a setting tool, such as a bolt setting tool or a nail tool, drivable pin nail, which has a disc 36 to limit the driving depth and is to be fastened with a head 37 between two fastening ribs 38 on the inside of the bridge web 29 by the block bridge with its fastening webs 38 is locked on the head 37. The pin nails 33, 34 can be used in connection with the clamping projections 26, but also in the case of block bridges without such clamping projections, expediently using either only the pin nails 33 or only the pin nails 34.

Fig. 7 zeigt eine im prinzip der Fig. 6 entsprechende Klotzbrücke 12 mit Klemmvorsprüngen 26, die als feststehende Nocken ausgebildet sind. Die Klotzbrücke 12 der Fig. 7 ist zwischen zwei vertikale Profilwände 39, 40 des Rahmenprofils 10 dicht eingepaßt. Die Klemmvorsprünge 26 greifen auf einer Seite in eine Befestigungsrille der vertikalen Profilwand 39 und auf der anderen Seite unter einen Befestigungsvorsprung 41 des Rahmenprofils 10. Die als feststehende Klemmnocken ausgebildeten Klemmvorsprünge 26 reichen sicher aus, um ein Entfernen der Klotzbrücke 12 aus dem Rahmenprofil 10 nach oben zu verhindern und eine Klemmwirkung der vertikalen Stützstege 24 und/oder der Klemmvorsprünge 26 in der Klemmrille-bzw. an der Klemmrippe 41 reichen aus, um ein Längsverschieben der Klotzbrücke 12 zu verhindern.FIG. 7 shows a block bridge 12 corresponding to the principle of FIG. 6 with clamping projections 26 which are designed as fixed cams. The block bridge 12 of FIG. 7 is tightly fitted between two vertical profile walls 39, 40 of the frame profile 10. The clamping projections 26 engage on one side in a fastening groove of the vertical profile wall 39 and on the other side under a fastening projection 41 of the frame profile 10. The clamping projections 26 designed as fixed clamping cams are sufficient to remove the block bridge 12 from the frame profile 10 upwards to prevent and a clamping effect of the vertical support webs 24 and / or the clamping projections 26 in the clamping groove or. on the clamping rib 41 are sufficient to prevent longitudinal displacement of the block bridge 12.

Die Klemmvorsprünge 26 der Fig. 7, 8 sind horizontale Federbogenstücke, deren Enden jeweils einstückig mit den Stützstegen 24 verbunden sind. Die Federbogen sind dabe im wesentlichen in Richtung der Längserstreckung der Stützstege 24 angeordnet und dadurch entstanden-, daß die Stützstege 24 von der äußeren Längsseitenfläche 25 zur inneren Längsseitenfläche 42 so durchbrochen ausgebildet sind, daß eine Relativbewegung der federbogenartigen Klemmvorsprunge 26 in horizontaler Ebene ermöglicht wird.The clamping projections 26 of FIGS. 7, 8 are horizontal spring arch pieces, the ends of which are each connected in one piece to the support webs 24. The spring arches are arranged essentially in the direction of the longitudinal extension of the support webs 24 and resulted from the fact that the support webs 24 are formed from the outer longitudinal side surface 25 to the inner longitudinal side surface 42 in such a way that a relative movement of the spring arch-like clamping projections 26 is made possible in the horizontal plane.

Bei allen vorbeschriebenen Ausführungsformen sind die Klemmvorsprünge 26 so angeordnet, daß sie in Längsrichtung der Klotzbrücke 12 Abstand von den Querseitenflächen 23 haben. Infolgedessen werden an den äußeren Längsseitenflächen 25 nahe den Querseitenflächen 23 Flächenabschnitte 43 gebildet, vgl. z. B. Fig. 2, die an den benachbarten profilwänden des Rahmenprofils 10 dicht anliegen können, ohne dabei durch die Klemmvorsprünge 26 wesentlich beeinträchtigt zu werden. Das kann durch eine entsprechende Abstimmung der Breite der Klotzbrücke 12 auf den Abstand der vertikalen profilwände des Rahmenprofils 10 erfolgen, aber auch dadurch, daß der Klotzbrücke im Bereich der Abschnitte 43 eine entsprechende vorspringende Form gegeben wird, z. B. in Gestalt von Dichtlippen 44, die mit den Stützstegen 24 bzw. der Klotzbrücke 12 einstückig sind und einen etwa vorhandenen Spalt zwischen der Klotzbrücke 12 und dem Rahmenprofil 10 abdichten. Diese Dichtlippen 44 bzw. die Ausgestaltung der Klotzbrücke 12 im Bereich 43 ist infolge einer Ausbildung der Klotzbrücke aus Spritzkunststoff ohne weiteres möglich, wie auch die entsprechende Formgebung der beschriebenen Klemmvorsprünge 26 und die Festlegung der Befestigungsstifte 33, 34.In all of the above-described embodiments, the clamping projections 26 are arranged such that they are at a distance from the transverse side surfaces 23 in the longitudinal direction of the block bridge 12. As a result, 23 surface sections 43 are formed on the outer longitudinal side surfaces 25 near the transverse side surfaces, cf. e.g. B. Fig. 2, which can lie tightly against the adjacent profile walls of the frame profile 10 without being significantly affected by the clamping projections 26. This can be done by a corresponding adjustment of the width of the block bridge 12 to the distance between the vertical profile walls of the frame profile 10, but also in that the block bridge in the region of the sections 43 is given a corresponding projecting shape, for. B. in the form of sealing lips 44 which are integral with the support webs 24 and the block bridge 12 and seal an existing gap between the block bridge 12 and the frame profile 10. These sealing lips 44 and the design of the block bridge 12 in Area 43 is readily possible as a result of the block bridge being formed from injection-molded plastic, as is the corresponding shaping of the clamping projections 26 described and the fixing of the fastening pins 33, 34.

Gemäß Fig. 10, rechte Seite, sind die Klemmvorsprünge 26 fischschuppenartig verteilt auf der Längsseitenfläche 25 des Stützstegs 24 angeordnet. Die linke Seite der Fig. 10 zeigt Klemmvorsprünge 26, die als Parallelrippen ausgebildet sind. Die Klemmvorsprünge 26 sind entweder feststehende Klemmnocken bzw. Klemmrippen oder gemäß Fig. 11 in geringem Umfang beweglich, so daß sie also in die für sie vorgesehenen Ausnehmungen 27 eintauchen können, wenn sie durch eine vertikale Profilwand eines Rahmenprofils entsprechend druckbeaufschlagt werden.10, right side, the clamping projections 26 are arranged like fish scales distributed on the longitudinal side surface 25 of the support web 24. The left side of FIG. 10 shows clamping projections 26 which are designed as parallel ribs. The clamping projections 26 are either fixed clamping cams or clamping ribs or movable to a small extent according to FIG. 11, so that they can thus dip into the recesses 27 provided for them when they are pressurized accordingly by a vertical profile wall of a frame profile.

Claims (10)

1. Bridge spacer block for the fixing of glass sheets or the like in door or window frames, comprising a crutchlike bridge member, especially of injection moulded plastics material, which has a groove extending throughout its length and widening at both ends of the bridge member in funnel-shaped manner towards transverse corner faces at the apices of two support legs of the bridge member, characterised in that a plurality of gripping projections (26) spaced from the transverse corner faces (23) are provided on at least one outer longitudinal side face (25) of the support legs (24).
2. Bridge spacer block according to claim 1, characterised in that the gripping projections (26) of the outer longitudinal side face (25) are resilient tongues projecting upwardly towards the bridge cross-piece (29) and/or projecting downwardly towards the support faces (28).
3. Bridge spacer block according to claim 1 or 2, characterised in that recesses (27) accommodating the gripping projections (26) are arranged in the outer longitudinal side faces (25) of the support legs (24).
4. Bridge spacer block according to one of claims to 3, characterised in that the gripping projections (26) formed as resilient tongues have their free ends directed away from the longitudinal side faces (25) which carry them.
5. Bridge spacer block according to one of claims to 3, characterised in that the gripping projections (26) formed as part-circular resilient tongues have their free ends (30) directed towards the longitudinal side faces (25) which carry them.
6. Bridge spacer block according to one of claims to 3, characterised in that the lateral projections (26) of the outer longitudinal side faces (25) are horizontal resilient hoops having two ends integrated with a support leg (24).
7. Bridge spacer block according to one of claims to 3, characterised in that the gripping projections (26) are fixed gripping detents.
8. Bridge spacer block according to one of claims to 7, characterised in that fastening pins (33, 34) are mounted on the support faces (28) of the support legs (24) and/or on the frame-side faces of the bridge crosspiece (29).
9. Bridge spacer block according to one of claims to 7, characterised in that integral sealing lips (44) project out laterally from the transverse corner faces (23) of the support legs (24).
10. Bridge spacer block, grating spacer block or the like, particularly according to one of claims 1 to 9, characterised in that the gripping projections (26) are distributed in the manner of fish scales but individually with greater spacings, or are arranged as parallel ribs on one longitudinal side face (25) of the bridge spacer block (12), of a grating spacer block or of a support leg (24).
EP83111211A 1982-12-23 1983-11-10 Bridge block for fixing glass panes or the like in door or window frames Expired EP0114220B1 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
AT83111211T ATE20375T1 (en) 1982-12-23 1983-11-10 BLOCK BRIDGE FOR SECURING GLASS PANES OD. DGL. IN DOOR OR WINDOW FRAMES.

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
DE3247691 1982-12-23
DE19823247691 DE3247691A1 (en) 1982-12-23 1982-12-23 BLOCK BRIDGE OR GRID BLOCK FOR FIXING GLASS PANELS OD. DGL. IN DOOR OR WINDOW FRAMES

Publications (2)

Publication Number Publication Date
EP0114220A1 EP0114220A1 (en) 1984-08-01
EP0114220B1 true EP0114220B1 (en) 1986-06-11

Family

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Family Applications (1)

Application Number Title Priority Date Filing Date
EP83111211A Expired EP0114220B1 (en) 1982-12-23 1983-11-10 Bridge block for fixing glass panes or the like in door or window frames

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EP (1) EP0114220B1 (en)
AT (1) ATE20375T1 (en)
DE (1) DE3247691A1 (en)

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DE8715004U1 (en) * 1987-11-11 1988-01-14 Niemann, Hans Dieter, 5014 Kerpen, De
DE3923288A1 (en) * 1989-07-14 1991-02-07 Deflex Dichtsysteme Gmbh Glazing joints and inserts - are mfd. with multiple configuration or uses and engaged conical shaped supports
GB9009945D0 (en) * 1990-05-02 1990-06-27 Glazpart Ltd Self-adjusting packing members
DE9108808U1 (en) * 1991-07-17 1991-09-12 Niemann, Hans Dieter, 5014 Kerpen, De
DE9405657U1 (en) * 1994-04-06 1994-05-26 Deflex Dichtsysteme Gmbh Glazed seam insert
FR2726857B1 (en) * 1994-11-15 1997-01-24 Ind De Moules Et Moulagesplast GLASS HOLDER
DE29509133U1 (en) * 1995-06-02 1996-10-02 Niemann Hans Dieter Supporting elements of a glass pane
DE19822291C2 (en) * 1998-05-18 2001-09-20 Deflex Dichtsysteme Gmbh Glazed seam insert
DE29820399U1 (en) * 1998-11-14 2000-03-30 Niemann Hans Dieter Support element of a glass pane
GB2420145A (en) * 2004-11-13 2006-05-17 Plastics Const Self supporting glazing support
JP6556070B2 (en) * 2016-02-22 2019-08-07 Ykk Ap株式会社 Joinery

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Also Published As

Publication number Publication date
EP0114220A1 (en) 1984-08-01
ATE20375T1 (en) 1986-06-15
DE3247691A1 (en) 1984-06-28

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