EP0696667A1 - Profile system for covering the joints or the edges of coverings - Google Patents

Profile system for covering the joints or the edges of coverings Download PDF

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Publication number
EP0696667A1
EP0696667A1 EP95111595A EP95111595A EP0696667A1 EP 0696667 A1 EP0696667 A1 EP 0696667A1 EP 95111595 A EP95111595 A EP 95111595A EP 95111595 A EP95111595 A EP 95111595A EP 0696667 A1 EP0696667 A1 EP 0696667A1
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EP
European Patent Office
Prior art keywords
webs
rail system
profile rail
tensioning element
screw
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EP95111595A
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German (de)
French (fr)
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EP0696667B1 (en
Inventor
Helmut Seiss
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Individual
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Individual
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    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04FFINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS
    • E04F19/00Other details of constructional parts for finishing work on buildings
    • E04F19/02Borders; Finishing strips, e.g. beadings; Light coves
    • E04F19/06Borders; Finishing strips, e.g. beadings; Light coves specially designed for securing panels or masking the edges of wall- or floor-covering elements
    • E04F19/065Finishing profiles with a T-shaped cross-section or the like
    • E04F19/066Finishing profiles with a T-shaped cross-section or the like fixed onto a base profile by means of a separate connector
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04FFINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS
    • E04F19/00Other details of constructional parts for finishing work on buildings
    • E04F19/02Borders; Finishing strips, e.g. beadings; Light coves
    • E04F19/06Borders; Finishing strips, e.g. beadings; Light coves specially designed for securing panels or masking the edges of wall- or floor-covering elements
    • E04F19/062Borders; Finishing strips, e.g. beadings; Light coves specially designed for securing panels or masking the edges of wall- or floor-covering elements used between similar elements

Definitions

  • the invention relates to a profile rail system for bridging joints or edges in coverings.
  • Such a transition profile is known, for example, from US Pat. No. 2,996,751. It consists of a curved, clampable rail for bridging joints, a base part inserted into the joint and an elastic spring between the rail and base part, the base part being a base plate with two walls mounted vertically on it, each with an inwardly projecting shoulder to accommodate the Has spring and the walls of the base plate are slidably guided on the outside of the rail arranged parallel to them. Both the inward heels of the vertically attached walls and the rear part of the spring are arched so that in principle only a line contact with a correspondingly low fixing force is achieved, which is also dependent on the force of the spring.
  • the invention has for its object to provide a mounting rail system of the type specified, which permanently connects the cover strip of the mounting rail system with the base part and which allows multiple assembly and disassembly without high costs.
  • the tensioning element By designing the tensioning element as a displaceable component, which is provided within the webs of the base plate, it can easily be positioned at any desired location within the profile.
  • the desired clamping force can be individually tailored to the requirements. For example, it is conceivable to increase the profile rail in the door area, where experience has shown that high loads occur.
  • the space between the webs is preferably designed to widen downward, so that the tensioning element engages behind the webs. This ensures a good fixation of the clamping element when tightening the screw.
  • the tensioning element could also be designed such that it is spread when the screw is screwed in and wedged with the webs of the base part.
  • the tensioning element can be pushed below the inward-facing heels on the webs vertically attached to the base plate to the intended fastening point.
  • the shoulder on the webs of the base part towards the center line has an inward and upward inclined surface, since then the tensioning element can be easily pressed into the funnel-shaped base part from above. The strength of the connection is not affected in any way.
  • the shoulders of the clamping element have inclined surfaces, so that the clamping element is wedge-shaped downwards. These simplify pushing the clamping element into the base part.
  • the tensioning element has a groove on the underside.
  • This groove is preferably slightly narrower than the core of the screw.
  • the screw When the screw is screwed into the clamping element, it pushes the two shoulders apart, so that a positive, secure connection between the base part and the clamping element is created.
  • the shoulders of the clamping element can yield due to the longitudinal groove. This allows a simple and convenient assembly of the mounting rail system.
  • a longitudinal groove extending over the entire length of the tensioning element allows the tensioning element to be elastically bent along an axis, so that the elasticity of the material is optimally utilized. It is important that the groove is at least as deep as the height of the heel so that the heel is resilient inward.
  • the embodiment according to claim 6 is particularly advantageous because when the screw is screwed in, the legs of the tensioning element pointing downward are printed outwards.
  • the clamping element therefore jams with its shoulders between the webs of the base part. Nevertheless, this fixed connection can be loosened very easily by loosening the screw.
  • the design of the tensioning element according to claim 7 is favorable because the screw can be rotated into the tensioning element very easily without great effort. A blasting of the clamping element by the screw is impossible. Nevertheless, the screw is held very securely in the clamping element.
  • the tensioning element is inelastic, it can only be pressed with permanent deformation against the shoulders of the webs of the base part or inserted from one side between the webs of the base plate. It is therefore advantageous if the tensioning element according to claim 8 due to its design, for example by means of axially directed recesses, or due to its material, such as. Plastic that is elastic in the radial direction.
  • the abutting surfaces of the two shoulders of the webs of the base part and the tensioning element are oriented perpendicular to the center line of the profile rail system, the largest possible contact surface is advantageously ensured for secure fastening. Nevertheless, the tensioning element can be easily removed from the space between the webs of the base part in the released state.
  • the stop surface of the tensioning element could also point obliquely upwards, which allows the tensioning element to be removed from the base part very easily.
  • the stop surface of the clamping element could also be undercut like a saw tooth.
  • a profile rail system 1 according to FIG. 1 is essentially symmetrical to a center line M and consists of a curved cover strip 2 with two hanging webs 4 attached perpendicularly to it 3 allow a clean kinking of the cover strip 2.
  • a leg 2c By tapping a leg 2c, a height compensation for bridging coverings B of different heights is therefore achieved in a very simple manner. If larger height differences have to be overcome, the two legs 2c can also be of different lengths.
  • the cover strip 2 overlaps with its hanging webs 4 an upright part 7 of a Base part 6. This has a base plate 8 with two webs 10 mounted perpendicularly thereon.
  • a clamping element 12 serves to connect the cover strip 2 to the base part 6.
  • the cover strip 2 and the base part 6 are connected to one another by a screw 14.
  • the legs 2c of the cover strip 2 are slightly elastic, so that when the cover strip 2 is connected to the base part 6 via the screw 14, the surfaces 2a of the legs 2c are pressed firmly against the covering (not shown).
  • the lower surfaces 2a of the legs 2c need not be flat; you can e.g. also be designed as a sealing lip that prevents liquid from flowing into the joint between two covering parts.
  • the base part 6 consists of the base plate 8 and the upright part 7, which is formed by two webs 10 which are vertically arranged on the base plate 8 at a distance from one another.
  • a clamping element 12 is provided as an independent component between these webs 10.
  • the covering parts B are so thick that it is sufficient for a sufficiently firm attachment of the mounting rail system 1, by means of the screw 14 via the clamping element 12, the webs 10 of the base part 6 against the hanging webs 4 of the cover strip 2 and thus also against the edges of the To press covering parts B.
  • it may be necessary to firmly connect the base panel to the base for example by gluing or screwing it on, using a known adhesive that does not attack the base.
  • bores 8c can be provided centrally in the base plate 8 for receiving holding means.
  • the base part is optimally held in this way.
  • the width of the base plate 8 for the base is increased at least in sections.
  • the widened part 8a of the base plate 8 or of the adjacent covering part B is preferably formed with a smaller thickness in order to ensure a uniform thickness of the covering B. This widened part 8a is pushed under the adjacent covering B, so that the base part 6 is securely clamped to the covering B after the screws 14 have been tightened.
  • the webs 10 mounted vertically on the base plate 8 have at their upper ends inward shoulders 10a with an inward and upward sloping surface 10b.
  • the shoulders 10 a each end with a stop surface 10 c directed perpendicular to the center line M.
  • the webs 10 are designed to be flexible inwards and outwards in order to be able to press the tensioning element 12 more easily past the shoulders 10a in the direction of the base plate 8.
  • a flexible connection between webs 10 and base plate 8 is e.g. achieved if both are made of elastic plastic or the webs 10 have a very small wall thickness ..
  • the clamping element 12 is generally a cuboid-shaped part which has outwardly directed shoulders 12a with outwardly and downwardly directed inclined surfaces 12b.
  • the shoulders 12a each end on the upper side with a stop surface 12c directed perpendicular to the center line M.
  • the tensioning element 12 has a central longitudinal groove 12d.
  • a central opening 12e is provided in the upper region, which can have a thread in order to receive a screw 14 with its thread 14a. In this way, the cover strip 2 is connected to the base part 6.
  • the release groove 12d of the tensioning element 12 is in the area of its shoulders 12a slightly narrower than the core of the screw 14 and tapers downwards in order to press the shoulders 12a against the webs 10 of the base part 6.
  • a plurality of screws 14 can also be provided for fixing.
  • the length of the screws 14 depends on the thickness of the bridged coverings B and should be dimensioned such that the end of the screw 14 extends far enough into the longitudinal groove 12d of the clamping element 12 to spread the clamping element 12.
  • the screw 14 must be able to be screwed in completely.
  • the clamping element 12 can be pressed against the webs 10 of the base plate 8 by deforming its longitudinal groove 12d by means of the screw 14.
  • the tensioning element 12 is elastic, that is, if its end in the area of the shoulders 12a has, for example, recesses in the axial direction and / or the entire tensioning element 12 is made of elastic plastic.
  • the curved cover strip 2 has a recess 2b corresponding to the countersunk head 14b of the screw 14. It is possible to use this countersunk head 14b in a known manner, e.g. cover by a suitable button, which is pressed into a bore of the countersunk head 14b and corresponds to the appearance of the cover strip 2.
  • FIG. 2 showing a profile rail that has been fully assembled between two covering parts B.
  • the base part 6 is placed in the joint between two covering parts B, the tensioning element 12 already being between the webs 10 of the base part 6 and past the shoulders 10a in the direction of the base plate 8 or in the longitudinal direction of the base plate 8 was pushed into the intended position.
  • the cover strip 2 is placed over the joint, the screw 14 is inserted into the recess 2b provided in the cover strip 2 and screwed into the tensioning element 12.
  • the clamping element 12 with the stop surfaces 12c of its shoulders 12a is pulled against the stop surfaces 10c of the shoulders 10a of the webs 10 of the base part 6.
  • the cover strip 2 is pressed by further screws against the covering or plate parts which are to be bridged by the mounting rail system 1.
  • the hanging webs 4 of the cover strip 2 slide along the outer surfaces of the webs 10 attached to the base plate 8 until the webs 10 of the base part 6 abut the cover strip 2, or the lower surfaces 2a of the cover strip sit on the covering B.
  • the lower end of the screw 14 presses against the narrowed longitudinal groove 12d of the tensioning element 12 and thus its shoulders 12a against the webs 10 of the base part 6.
  • the webs 10 of the base part 6 in turn become against the hanging webs 4 of the cover strip 2 pressed. This creates the stable connection between the cover strip 2 pressed onto the covering parts B and the base element 6.
  • the cover strip 2 Since the cover strip 2 is curved, the hanging webs 4 of the cover strip 2 are pressed outwards against the narrow sides of the covering parts B by tightening the screw 14. This pressure is sufficient for a certain thickness of the covering parts B such as with parquet floors, in order to securely anchor the profile rail system 1 between the covering parts, without damaging the underlay, for example, through screw holes.
  • the base plate 8 can be provided with an adhesive layer known per se in order to securely fix the base plate 8 to the base.
  • 8b holes 8c can be provided in the base plate for receiving screws. These bores 8c lie either on the center line M or outside the webs 10.
  • the base plate 8 makes sense to increase the width of the base plate 8 on one side or on both sides, and this part 8a of the base plate 8, possibly reduced in thickness, under the covering parts B to arrange.
  • the holes 8c are then provided in the area of the widening 8a.
  • the thickness of covering B can be reduced in this area if necessary.
  • FIG. 3 shows a sectional view along the section line S from FIG come.
  • the screw 14 engages in the longitudinal groove 12d of the clamping element 12 so that its shoulders 12a are pressed against the webs 10 of the base part 6. In this way, the clamping element 12 is wedged in the base part 6, so that there is a particularly firm connection.

Abstract

The profile rail system (1) has a basic part (6) and a part (7) standing vertically and engaging in the seam. Over the vertical part a cover strip (2) grips with two suspended ribs (4) and is secured with at least one screw (14). The vertical part comprises two spaced ribs (10) formed vertically to the floor plate (8), between which a tension component (12) is displaceably held and secured by the screw engaging the cover strip. The ribs have two inwardly extending projections (10a) which have downwardly directed stop surfaces (10c).

Description

Die Erfindung bezieht sich auf ein Profilschienensystem zum Überbrücken von Fugen oder Rändern bei Belägen.The invention relates to a profile rail system for bridging joints or edges in coverings.

Beim Verlegen von Bodenbelägen wie Parkett, Teppichware, PVC od. dgl. entsteht eine Fuge dort, wo zwei Beläge oder Platten von unterschiedlicher Starke aneinanderstoßen. Zum Überbrücken dieser Fugen dienen Deckleisten, die in der Höhe möglichst wenig auftragen, und dennoch die beiden Belagteile fest und unverrückbar verbinden.When laying floor coverings such as parquet, carpet, PVC or the like, a joint is created where two coverings or panels of different thicknesses meet. To bridge these joints, cover strips are used, which apply as little height as possible, and yet connect the two covering parts firmly and immovably.

Ein solches Übergangsprofil ist z.B. aus der US-PS 29 96 751 bekannt. Es besteht aus einer gewölbten, festspannbaren Schiene zum Überbrücken von Fugen, einem in die Fuge eingesetzten Basisteil und einer elastischen Feder zwischen Schiene und Basisteil, wobei das Basisteil eine Bodenplatte mit zwei senkrecht auf ihr angebrachten Wänden mit jeweils einem nach innen vorspringenden Absatz zur Aufnahme der Feder aufweist und die Wände der Bodenplatte an parallel zu ihnen außen angeordneten Wänden der Schiene gleitend geführt sind. Sowohl die nach innen gerichteten Absätze der senkrecht angebrachten Wände als auch der hintergreifende Teil der Feder sind gewölbt ausgebildet, so daß im Prinzip nur eine Linienberührung mit entsprechend geringer Festlegekraft erzielt wird, die überdies von der Kraft der Feder abhängig ist.Such a transition profile is known, for example, from US Pat. No. 2,996,751. It consists of a curved, clampable rail for bridging joints, a base part inserted into the joint and an elastic spring between the rail and base part, the base part being a base plate with two walls mounted vertically on it, each with an inwardly projecting shoulder to accommodate the Has spring and the walls of the base plate are slidably guided on the outside of the rail arranged parallel to them. Both the inward heels of the vertically attached walls and the rear part of the spring are arched so that in principle only a line contact with a correspondingly low fixing force is achieved, which is also dependent on the force of the spring.

Ein anderes aus der DE-PS 37 43 895 bekanntes Übergangsprofil verwendet einen Treibkanal in einem aufrechten Teil, um darin mittels Schrauben ein Abdeckteil festzulegen. Aufgrund dieser Ausbildung ist dieses Übergangsprofil relativ massiv und damit teuer. Außerdem ist die Festlegekraft einer Schraube in einem Treibkanal relativ gering, so daß sich die Verbindung der Abdeckleiste bei Trittbelastung sehr leicht lockert. Muß eine Schraubverbindung wieder gelöst werden, so ist der Treibkanal an den entsprechenden Stellen eingekerbt, so daß ggf. das gesamte Profil ausgetauscht werden muß.Another known from DE-PS 37 43 895 transition profile uses a drive channel in an upright part to fix a cover part therein by means of screws. Because of this training, this transition profile is relatively massive and therefore expensive. In addition, the tightening force of a screw in a drive channel is relatively low, so that the connection of the cover strip loosens very easily when treading. If a screw connection has to be loosened again, the drive channel is notched at the corresponding points, so that the entire profile may have to be replaced.

Der Erfindung liegt die Aufgabe zugrunde, ein Profilschienensystem der angegebenen Art zu schaffen, das dauerhaft fest die Abdeckleiste des Profilschienensystems mit dem Basisteil verbindet und das ohne hohen Kostenaufwand ein mehrfaches Montieren und Demontieren gestattet.The invention has for its object to provide a mounting rail system of the type specified, which permanently connects the cover strip of the mounting rail system with the base part and which allows multiple assembly and disassembly without high costs.

Die Aufgabe wird mit den Merkmalen des Kennzeichens des Anspruchs 1 gelöst.The object is achieved with the features of the characterizing part of claim 1.

Durch das Ausbilden des Spannelements als verschiebbares Bauteil, das innerhalb der Stege der Bodenplatte vorgesehen ist, kann es leicht an jeder gewünschten Stelle innerhalb des Profils positioniert werden. Insbesondere durch den Einsatz von Spannelementen unterschiedlicher Lange kann die gewünschte Spannkraft individuell auf die Erfordernisse abgestimmt werden. So ist beispielsweise vorstellbar, die Profilschiene im Türbereich, wo erfahrungsgemäß hohe Belastungen auftreten, zu erhöhen. Vorzugsweise ist der Raum zwischen den Stegen nach unten erweiternd ausgebildet, so daß das Spannelement die Stege hintergreift. Dies gewährleistet eine gute Festlegung des Spannelements beim Anziehen der Schraube. Alternativ könnte das Spannelement auch so ausgebildet sein, daß es beim Eindrehen der Schraube gespreizt wird und sich mit den Stegen des Basisteils verkeilt.By designing the tensioning element as a displaceable component, which is provided within the webs of the base plate, it can easily be positioned at any desired location within the profile. In particular by using clamping elements of different lengths, the desired clamping force can be individually tailored to the requirements. For example, it is conceivable to increase the profile rail in the door area, where experience has shown that high loads occur. The space between the webs is preferably designed to widen downward, so that the tensioning element engages behind the webs. This ensures a good fixation of the clamping element when tightening the screw. Alternatively, the tensioning element could also be designed such that it is spread when the screw is screwed in and wedged with the webs of the base part.

Nach außen vorspringende Absätze, die an Absätzen der Stege anliegen, ergeben gemäß Anspruch 2 eine sehr feste Verbindung zwischen Basisteil und Spannelement, so daß sich ein sehr sicherer Halt der Abdeckleiste ergibt. Die Klemmkraft wird mit einer Schraube eingestellt, so daß die Verbindung zwischen Abdeckleiste und Basisteil nicht von der Elastizität des Spannelements abhängt. Durch die flächige Anlage der einander zugeordneten Absätze von Stegen und Spannelement wird der Reibeingriff zwischen den Absätzen so verstärkt, daß am Belag auftretende Schwingungen sich praktisch nicht mehr auf die Befestigung auswirken können. Ein Lösen der Schraube infolge punktueller Trittbelastung ist daher ausgeschlossen. Bei gelöster Schraube läßt sich das Spannelement leicht verschieben, wobei es wie auf einer Schiene entlang der Stege gleitet. Vorzugsweise sind die Anschlagflächen der Stege und des Spannelements horizontal ausgerichtet, so daß die Klemmkraft zwischen beiden kein Ausweichen der Stege nach außen bewirkt.Outwardly projecting heels, which rest against heels of the webs, result in a very firm connection between the base part and the tensioning element, so that the cover strip is held very securely. The clamping force is adjusted with a screw so that the connection between the cover strip and the base part does not depend on the elasticity of the tensioning element. Due to the planar contact of the mutually assigned shoulders of webs and tensioning element, the frictional engagement between the shoulders is increased so that vibrations occurring on the covering can practically no longer have any effect on the fastening. A loosening of the screw due to punctual treading is therefore impossible. When the screw is loosened, the tensioning element can be easily moved, whereby it slides along the webs like on a rail. The stop faces of the webs and the tensioning element are preferably aligned horizontally, so that the clamping force between the two does not cause the webs to deflect outwards.

Das Spannelement kann unterhalb der nach innen gerichteten Absätze an den senkrecht auf der Bodenplatte angebrachten Stegen an die vorgesehene Befestigungsstelle geschoben werden. Für eine schnelle Montage ist es jedoch vorteilhaft, wenn gemäß Anspruch 3 der Absatz an den Stegen des Basisteils zur Mittellinie hin eine nach innen und oben gerichtete Schrägfläche aufweist, da dann das Spannelement leicht von oben in das trichterförmig ausgebildete Basisteil hineingedrückt werden kann. Dabei wird die Festigkeit der Verbindung in keiner Weise beeinflußt.The tensioning element can be pushed below the inward-facing heels on the webs vertically attached to the base plate to the intended fastening point. For quick assembly, however, it is advantageous if, according to claim 3, the shoulder on the webs of the base part towards the center line has an inward and upward inclined surface, since then the tensioning element can be easily pressed into the funnel-shaped base part from above. The strength of the connection is not affected in any way.

Gemäß Anspruch 4 ist es vorteilhaft, wenn auch die Absätze des Spannelements Schrägflächen aufweisen, so daß das Spannelement nach unten keilförmig ausgebildet ist. Diese vereinfachen das Hineindrücken des Spannelements in das Basisteil.According to claim 4, it is advantageous if the shoulders of the clamping element have inclined surfaces, so that the clamping element is wedge-shaped downwards. These simplify pushing the clamping element into the base part.

Für ein formschlüssiges Anpressen des Spannelements an die Stege des Basisteils ist es vorteilhaft, wenn das Spannelement gemäß Anspruch 5, eine unterseitige Nut aufweist. Diese Nut ist vorzugsweise geringfügig schmäler als der Kern der Schraube. Beim Hineindrehen der Schraube in das Spannelement drückt sie die beiden Absätze auseinander, so daß eine formschlüssige, sichere Verbindung zwischen dem Basisteil und dem Spannelement entsteht. Beim Eindrücken des Spannelements zwischen die Stege des Basisteils können die Absätze des Spannelements aufgrund der Längsnut nachgeben. Dies erlaubt eine einfache und bequeme Montage des Profilschienensystems. Eine sich über die gesamte Lange des Spannelements erstreckende Längsnut erlaubt eine elastische Biegung des Spannelements entlang einer Achse, so daß die Elastizität des Materials optimal ausgenutzt wird. Dabei ist es wichtig, daß die Nut mindestens so tief wie die Höhe des Absatzes ist, so daß der Absatz elastisch nach innen nachgiebig ist.For a positive locking of the tensioning element to the webs of the base part, it is advantageous if the tensioning element has a groove on the underside. This groove is preferably slightly narrower than the core of the screw. When the screw is screwed into the clamping element, it pushes the two shoulders apart, so that a positive, secure connection between the base part and the clamping element is created. When the clamping element is pressed in between the webs of the base part, the shoulders of the clamping element can yield due to the longitudinal groove. This allows a simple and convenient assembly of the mounting rail system. A longitudinal groove extending over the entire length of the tensioning element allows the tensioning element to be elastically bent along an axis, so that the elasticity of the material is optimally utilized. It is important that the groove is at least as deep as the height of the heel so that the heel is resilient inward.

Die Ausführungsform gemäß Anspruch 6 ist besonders vorteilhaft, da beim Hineindrehen der Schraube die nach unten weisenden Schenkel des Spannelements nach außen gedruckt werden. Das Spannelement verklemmt sich daher mit seinen Absätzen zwischen den Stegen des Basisteils. Trotzdem kann diese feste Verbindung sehr einfach durch Lösen der Schraube gelockert werden.The embodiment according to claim 6 is particularly advantageous because when the screw is screwed in, the legs of the tensioning element pointing downward are printed outwards. The clamping element therefore jams with its shoulders between the webs of the base part. Nevertheless, this fixed connection can be loosened very easily by loosening the screw.

Die Ausbildung des Spannelements gemäß Anspruch 7 ist günstig, da die Schraube sehr leicht ohne große Kraftanstrengung in das Spannelement gedreht werden kann. Ein Sprengen des Spannelements durch die Schraube ist ausgeschlossen. Trotzdem ergibt sich ein sehr sicherer Halt der Schraube im Spannelement.The design of the tensioning element according to claim 7 is favorable because the screw can be rotated into the tensioning element very easily without great effort. A blasting of the clamping element by the screw is impossible. Nevertheless, the screw is held very securely in the clamping element.

Wenn das Spannelement inelastisch ist, kann es nur unter bleibender Verformung gegen die Absätze der Stege des Basisteils oder von einer Seite zwischen die Stege der Bodenplatte eingeführt gepreßt werden. Es ist deshalb vorteilhaft, wenn das Spannelement gemäß Anspruch 8 aufgrund seiner Ausbildung, etwa mittels axial gerichteter Aussparungen, oder aufgrund seines Materials, wie z.B. Kunststoff, in Radialrichtung elastisch ist.If the tensioning element is inelastic, it can only be pressed with permanent deformation against the shoulders of the webs of the base part or inserted from one side between the webs of the base plate. It is therefore advantageous if the tensioning element according to claim 8 due to its design, for example by means of axially directed recesses, or due to its material, such as. Plastic that is elastic in the radial direction.

Um das Spannelement leicht von oben an den Absätzen an den Stegen des Basisteils vorbei in Richtung auf die Bodenplatte hineindrücken zu können, ist es gemäß Anspruch 9 vorteilhaft, wenn die Stege des Basisteils federelastisch ausgebildet sind.In order to be able to press the tensioning element slightly past the shoulders past the webs of the base part in the direction of the base plate, it is advantageous according to claim 9 if the webs of the base part are resilient.

Eine bleibende Deformation der Stege oder des Spannelements wird daher sicher vermieden.A permanent deformation of the webs or the tensioning element is therefore reliably avoided.

Wenn die aneinander anliegenden Flächen der beiden Absätze der Stege von Basisteil und Spannelement gemäß Anspruch 10 senkrecht zur Mittellinie des Profilschienensystems ausgerichtet sind, wird in vorteilhafter Weise die größtmögliche Anlagefläche für eine sichere Befestigung gewährleistet. Trotzdem läßt sich im gelösten Zustand das Spannelement leicht aus dem Raum zwischen den Stegen des Basisteils entnehmen. Alternativ könnte die Anschlagfläche des Spannelements auch schräg nach oben weisen, was ein sehr einfaches Herausnehmen des Spannelements aus dem Basisteil erlaubt. Für einen besonders festen Halt des Spannelements könnte die Anschlagfläche des Spannelements auch sägezahnartig hinterschnitten sein.If the abutting surfaces of the two shoulders of the webs of the base part and the tensioning element are oriented perpendicular to the center line of the profile rail system, the largest possible contact surface is advantageously ensured for secure fastening. Nevertheless, the tensioning element can be easily removed from the space between the webs of the base part in the released state. Alternatively, the stop surface of the tensioning element could also point obliquely upwards, which allows the tensioning element to be removed from the base part very easily. For a particularly firm hold of the clamping element, the stop surface of the clamping element could also be undercut like a saw tooth.

Anhand der Zeichnung wird ein Ausführungsbeispiel des Erfindungsgegenstandes beschrieben. Dabei zeigt:

Figur 1
eine perspektivische Darstellung des Profilschienensystems bei Beginn der Montage,
Figur 2
eine perspektivische Darstellung des Profilschienensystems nach beendigter Montage und
Figur 3
einen Querschnitt entlang der Schnittlinie S aus Figur 2.
An exemplary embodiment of the subject matter of the invention is described with the aid of the drawing. It shows:
Figure 1
a perspective view of the mounting rail system at the start of assembly,
Figure 2
a perspective view of the mounting rail system after assembly and
Figure 3
3 shows a cross section along the section line S from FIG. 2.

Ein Profilschienensystem 1 gemäß Figur 1 ist im wesentlichen symmetrisch zu einer Mittellinie M und besteht aus einer gewölbten Abdeckleiste 2 mit zwei senkrecht zu ihr angebrachten Hängestegen 4. Unmittelbar an den Hängestegen 4 in Richtung des Randes weist die Abdeckleiste 2 je eine Stauchnut 3 auf Diese Stauchnuten 3 gestatten ein sauberes Abknicken der Abdeckleiste 2. Durch Niederklopfen eines Schenkels 2c wird daher auf sehr einfache Weise ein Höhenausgleich zum Überbrücken von Belägen B unterschiedlicher Höhen erreicht. Sind größere Höhendifferenzen zu überwinden, so können die beiden Schenkel 2c auch unterschiedlich lang ausgebildet sein. Die Abdeckleiste 2 übergreift mit ihren Hängestegen 4 einen aufrechten Teil 7 eines Basisteils 6. Dieser weist eine Bodenplatte 8 mit zwei senkrecht auf ihr angebrachten Stegen 10 auf. Ein Spannelement 12 dient zur Verbindung der Abdeckleiste 2 mit dem Basisteil 6. Die Abdeckleiste 2 und das Basisteil 6 werden durch eine Schraube 14 miteinander verbunden.A profile rail system 1 according to FIG. 1 is essentially symmetrical to a center line M and consists of a curved cover strip 2 with two hanging webs 4 attached perpendicularly to it 3 allow a clean kinking of the cover strip 2. By tapping a leg 2c, a height compensation for bridging coverings B of different heights is therefore achieved in a very simple manner. If larger height differences have to be overcome, the two legs 2c can also be of different lengths. The cover strip 2 overlaps with its hanging webs 4 an upright part 7 of a Base part 6. This has a base plate 8 with two webs 10 mounted perpendicularly thereon. A clamping element 12 serves to connect the cover strip 2 to the base part 6. The cover strip 2 and the base part 6 are connected to one another by a screw 14.

Die Schenkel 2c der Abdeckleiste 2 sind geringfügig elastisch, so daß beim Verbinden der Abdeckleiste 2 mit dem Basisteil 6 über die Schraube 14 die Flächen 2a der Schenkel 2c fest gegen den - nicht dargestellten - Belag gepreßt werden. Die Unterflächen 2a der Schenkel 2c brauchen nicht plan zu sein; sie können z.B. auch als Dichtlippe ausgebildet sein, die verhindert, daß eine Flüssigkeit in die Fuge zwischen zwei Belagteilen fließt.The legs 2c of the cover strip 2 are slightly elastic, so that when the cover strip 2 is connected to the base part 6 via the screw 14, the surfaces 2a of the legs 2c are pressed firmly against the covering (not shown). The lower surfaces 2a of the legs 2c need not be flat; you can e.g. also be designed as a sealing lip that prevents liquid from flowing into the joint between two covering parts.

Das Basisteil 6 besteht aus der Bodenplatte 8 und dem aufrechten Teil 7, der von zwei mit Abstand voneinander auf der Bodenplatte 8 senkrecht angebrachten Stegen 10 gebildet wird. Zusätzlich ist zwischen diesen Stegen 10 ein Spannelement 12 als selbständiges Bauteil vorgesehenen. In vielen Fällen sind die Belagteile B so dick, daß es für ein ausreichend festes Anbringen des Profilschienensystems 1 genügt, mittels der Schraube 14 über das Spannelement 12 die Stege 10 des Basisteils 6 gegen die Hängestege 4 der Abdeckleiste 2 und damit auch gegen die Ränder der Belagteile B zu pressen. Bei dünneren Platten kann es notwendig werden, die Bodenplatte - z.B. durch Kleben oder Anschrauben - fest mit der Unterlage zu verbinden, wobei ein an sich bekanntes Klebemittel verwendet wird, das die Unterlage nicht angreift. Alternativ können Bohrungen 8c zur Aufnahme von Haltemitteln zentral in der Bodenplatte 8 vorgesehen sein. Insbesondere bei sehr engen Fugen und weichen Belägen ist auf diese Weise ein optimaler Halt des Basisteils gegeben. Andererseits ist es vorteilhaft, wenn in solchen Fällen die Breite der Bodenplatte 8 zur Unterlage wenigstens abschnittsweise vergrößert ist. Dabei wird der verbreiterte Teil 8a der Bodenplatte 8 bzw. des anliegenden Belagteils B vorzugsweise mit einer geringeren Dicke ausgebildet um eine gleichmäßige Dicke des Belags B zu gewährleisten. Dieser verbreiterte Teil 8a wird unter den anliegenden Belag B geschoben, so daß das Basisteil 6 nach dem Anziehen der Schrauben 14 sicher am Belag B festgeklemmt ist.The base part 6 consists of the base plate 8 and the upright part 7, which is formed by two webs 10 which are vertically arranged on the base plate 8 at a distance from one another. In addition, a clamping element 12 is provided as an independent component between these webs 10. In many cases, the covering parts B are so thick that it is sufficient for a sufficiently firm attachment of the mounting rail system 1, by means of the screw 14 via the clamping element 12, the webs 10 of the base part 6 against the hanging webs 4 of the cover strip 2 and thus also against the edges of the To press covering parts B. In the case of thinner panels, it may be necessary to firmly connect the base panel to the base, for example by gluing or screwing it on, using a known adhesive that does not attack the base. Alternatively, bores 8c can be provided centrally in the base plate 8 for receiving holding means. Especially with very tight joints and soft coverings, the base part is optimally held in this way. On the other hand, it is advantageous if in such cases the width of the base plate 8 for the base is increased at least in sections. The widened part 8a of the base plate 8 or of the adjacent covering part B is preferably formed with a smaller thickness in order to ensure a uniform thickness of the covering B. This widened part 8a is pushed under the adjacent covering B, so that the base part 6 is securely clamped to the covering B after the screws 14 have been tightened.

Die auf der Bodenplatte 8 senkrecht angebrachten Stege 10 weisen an ihren oberen Enden nach innen gerichtete Absätze 10a mit nach innen und oben gerichteten Schrägfläche 10b auf. Die Absätze 10 a enden jeweils mit einer senkrecht zur Mittellinie M gerichteten Anschlagfläche 10c. Die Stege 10 sind nach innen und außen nachgiebig ausgebildet, um das Spannelement 12 leichter an den Absätzen 10a vorbei in Richtung auf die Bodenplatte 8 drücken zu können. Eine nachgiebige Verbindung zwischen Stegen 10 und Bodenplatte 8 wird z.B. erzielt, wenn beide aus elastischem Kunststoff hergestellt sind oder die Stege 10 eine sehr geringe Wandstärke besitzen..The webs 10 mounted vertically on the base plate 8 have at their upper ends inward shoulders 10a with an inward and upward sloping surface 10b. The shoulders 10 a each end with a stop surface 10 c directed perpendicular to the center line M. The webs 10 are designed to be flexible inwards and outwards in order to be able to press the tensioning element 12 more easily past the shoulders 10a in the direction of the base plate 8. A flexible connection between webs 10 and base plate 8 is e.g. achieved if both are made of elastic plastic or the webs 10 have a very small wall thickness ..

Das Spannelement 12 ist in der Regel ein quaderförmiges Teil, das nach außen gerichtete Absätze 12a mit nach außen und unten gerichteten Schrägflächen 12b besitzt. Die Absätze 12a enden oberseitig jeweils mit einer senkrecht zur Mittellinie M gerichteten Anschlagfläche 12c. Das Spannelement 12 weist eine zentrische Längsnut 12d auf. Im oberen Bereich ist eine zentrische Öffnung 12e vorgesehen, die ein Gewinde aufweisen kann, um eine Schraube 14 mit ihrem Gewinde 14a aufzunehmen. Auf diese Weise wird die Abdeckleiste 2 mit dem Basisteil 6 verbunden. Die Lösungsnut 12d des Spannelements 12 ist im Bereich seiner Absätze 12a geringfügig schmaler als der Kern der Schraube 14 und nach unten verjüngend ausgebildet, um die Absätze 12a gegen die Stege 10 des Basisteils 6 zu pressen. In Abhängigkeit von der Länge des Spannelements 12 können anstelle einer einzigen Schraube 14 auch mehrere Schrauben 14 zur Festlegung vorgesehen sein. Die Länge der Schrauben 14 hängt dabei von der Dicke der überbrückten Beläge B ab und sollte so bemessen sein, daß das Ende der Schraube 14 weit genug in die Längsnut 12d des Spannelements 12 greift um das Spannelement 12 zu spreizen. Dabei muß die Schraube 14 vollständig eingedreht werden können. Das Spannelement 12 kann durch Verformen seiner Längsnut 12d mittels der Schraube 14 gegen die Stege 10 der Bodenplatte 8 gepreßt werden. Es ist jedoch für die Montage des Profilschienensystems 1 einfacher, wenn das Spannelement 12 elastisch ausgebildet ist, also wenn sein im Bereich der Absätze 12a befindliches Ende beispielsweise Aussparungen in Achsrichtung aufweist und/oder das gesamte Spannelement 12 aus elastischem Kunststoff besteht.The clamping element 12 is generally a cuboid-shaped part which has outwardly directed shoulders 12a with outwardly and downwardly directed inclined surfaces 12b. The shoulders 12a each end on the upper side with a stop surface 12c directed perpendicular to the center line M. The tensioning element 12 has a central longitudinal groove 12d. A central opening 12e is provided in the upper region, which can have a thread in order to receive a screw 14 with its thread 14a. In this way, the cover strip 2 is connected to the base part 6. The release groove 12d of the tensioning element 12 is in the area of its shoulders 12a slightly narrower than the core of the screw 14 and tapers downwards in order to press the shoulders 12a against the webs 10 of the base part 6. Depending on the length of the clamping element 12, instead of a single screw 14, a plurality of screws 14 can also be provided for fixing. The length of the screws 14 depends on the thickness of the bridged coverings B and should be dimensioned such that the end of the screw 14 extends far enough into the longitudinal groove 12d of the clamping element 12 to spread the clamping element 12. The screw 14 must be able to be screwed in completely. The clamping element 12 can be pressed against the webs 10 of the base plate 8 by deforming its longitudinal groove 12d by means of the screw 14. However, it is easier for the mounting of the profile rail system 1 if the tensioning element 12 is elastic, that is, if its end in the area of the shoulders 12a has, for example, recesses in the axial direction and / or the entire tensioning element 12 is made of elastic plastic.

Die gewölbte Abdeckleiste 2 hat eine Aussparung 2b entsprechend dem Senkkopf 14b der Schraube 14. Es ist möglich, diesen Senkkopf 14b in bekannter Weise z.B. durch einen passenden Knopf abzudecken, der in eine Bohrung des Senkkopfes 14b eingepreßt wird und dem Aussehen der Abdeckleiste 2 entspricht.The curved cover strip 2 has a recess 2b corresponding to the countersunk head 14b of the screw 14. It is possible to use this countersunk head 14b in a known manner, e.g. cover by a suitable button, which is pressed into a bore of the countersunk head 14b and corresponds to the appearance of the cover strip 2.

Die Montage des Profilschienensystems 1 wird anhand der Figuren 1 und 2 erläutert, wobei die Figur 2 eine zwischen zwei Belagteilen B fertig montierte Profilschiene zeigt. Zur Montage des Profilschienensystems wird das Basisteil 6 in die Fuge zwischen zwei Belagteilen B gesetzt, wobei das Spannelement 12 sich bereits zwischen den Stegen 10 des Basisteils 6 befindet und an den Absätzen 10a vorbei in Richtung auf die Bodenplatte 8 gedrückt oder in Längsrichtung der Bodenplatte 8 in die vorgesehene Stellung eingeschoben wurde. Dann wird die Abdeckleiste 2 über die Fuge gelegt, die Schraube 14 in die in der Abdeckleiste 2 vorgesehenen Aussparung 2b eingeführt und in das Spannelement 12 geschraubt. Dadurch wird das Spannelement 12 mit den Anschlagflächen 12c seiner Ansätze 12a an die Anschlagflächen 10c der Absätze 10a der Stege 10 des Basisteils 6 gezogen. Durch weiteres Schrauben wird die Abdeckleiste 2 gegen die Belag bzw. Plattenteile gedrückt, die vom Profilschienensystem 1 überbrückt werden sollen. Dabei gleiten die Hängestege 4 der Abdeckleiste 2 an den Außenflächen der an der Bodenplatte 8 angebrachten Stege 10 entlang, bis die Stege 10 des Basisteils 6 an der Abdeckleiste 2 anstoßen, oder die Unterflächen 2a der Abdeckleiste am Belag B aufsitzen. Etwa gleichzeitig oder kurz danach preßt das untere Ende der Schraube 14 gegen die verengte Längsnut 12d des Spannelements 12 und damit dessen Absätze 12a gegen die Stege 10 des Basisteils 6. Auf diese Weise werden wiederum die Stege 10 des Basisteils 6 gegen die Hängestege 4 der Abdeckleiste 2 gedrückt. So entsteht die stabile Verbindung zwischen der auf die Belagteile B gedrückten Abdeckleiste 2 und dem Basiselement 6.The assembly of the profile rail system 1 is explained with reference to FIGS. 1 and 2, FIG. 2 showing a profile rail that has been fully assembled between two covering parts B. To assemble the profile rail system, the base part 6 is placed in the joint between two covering parts B, the tensioning element 12 already being between the webs 10 of the base part 6 and past the shoulders 10a in the direction of the base plate 8 or in the longitudinal direction of the base plate 8 was pushed into the intended position. Then the cover strip 2 is placed over the joint, the screw 14 is inserted into the recess 2b provided in the cover strip 2 and screwed into the tensioning element 12. As a result, the clamping element 12 with the stop surfaces 12c of its shoulders 12a is pulled against the stop surfaces 10c of the shoulders 10a of the webs 10 of the base part 6. The cover strip 2 is pressed by further screws against the covering or plate parts which are to be bridged by the mounting rail system 1. The hanging webs 4 of the cover strip 2 slide along the outer surfaces of the webs 10 attached to the base plate 8 until the webs 10 of the base part 6 abut the cover strip 2, or the lower surfaces 2a of the cover strip sit on the covering B. Approximately simultaneously or shortly thereafter, the lower end of the screw 14 presses against the narrowed longitudinal groove 12d of the tensioning element 12 and thus its shoulders 12a against the webs 10 of the base part 6. In this way, the webs 10 of the base part 6 in turn become against the hanging webs 4 of the cover strip 2 pressed. This creates the stable connection between the cover strip 2 pressed onto the covering parts B and the base element 6.

Da die Abdeckleiste 2 gewölbt ausgebildet ist, werden durch das Anziehen der Schraube 14 die Hängestege 4 der Abdeckleiste 2 nach außen gegen die Schmalseiten der Belagteile B gepreßt. Dieser Druck reicht bei einer gewissen Dicke der Belagteile B wie z.B. bei Parkettböden aus, um das Profilschienensystem 1 sicher zwischen den Belagteilen zu verankern, ohne die Unterlage etwa durch Schraubenlöcher zu beschädigen. Bei einer geringeren Dicke der Belagteile B kann die Bodenplatte 8 mit einer an sich bekannten Klebeschicht versehen werden, um die Bodenplatte 8 sicher an der Unterlage zu befestigen. Alternativ können in der Bodenplatte 8 Bohrungen 8c zur Aufnahme von Schrauben vorgesehen sein. Diese Bohrungen 8c liegen entweder auf der Mittellinie M oder außerhalb der Stege 10. Im letzten Fall ist es sinnvoll, die Breite der Bodenplatte 8 einseitig oder beidseitig zu vergrößern und diesen - in seiner Dicke evtl. verringerten - Teil 8a der Bodenplatte 8 unter den Belagteilen B anzuordnen. Die Bohrungen 8c sind dann im Bereich der Verbreiterung 8a vorgesehen. Um die Gesamtdicke von Belagteil B und Bodenplattenteil 8a der Dicke des Belagteils B anzupassen, kann die Dicke des Belags B in diesem Bereich gegebenenfalls verringert werden. Durch das Andrücken der Abdeckleiste 2 auf die Belagteile B werden diese dadurch gleichzeitig gegen den verbreiterten Abschnitt 8a der Bodenplatte 8a gepreßt und damit das Basisteil 6 des Profilschienensystems 1 sicher festgehalten. Gegebenenfalls können daher die Löcher 8c in der Bodenplatte 8 entfallen.Since the cover strip 2 is curved, the hanging webs 4 of the cover strip 2 are pressed outwards against the narrow sides of the covering parts B by tightening the screw 14. This pressure is sufficient for a certain thickness of the covering parts B such as with parquet floors, in order to securely anchor the profile rail system 1 between the covering parts, without damaging the underlay, for example, through screw holes. In the case of a smaller thickness of the covering parts B, the base plate 8 can be provided with an adhesive layer known per se in order to securely fix the base plate 8 to the base. Alternatively, 8b holes 8c can be provided in the base plate for receiving screws. These bores 8c lie either on the center line M or outside the webs 10. In the latter case, it makes sense to increase the width of the base plate 8 on one side or on both sides, and this part 8a of the base plate 8, possibly reduced in thickness, under the covering parts B to arrange. The holes 8c are then provided in the area of the widening 8a. In order to adapt the total thickness of covering part B and base plate part 8a to the thickness of covering part B, the thickness of covering B can be reduced in this area if necessary. By pressing the cover strip 2 onto the covering parts B, they are simultaneously pressed against the widened section 8a of the base plate 8a and thus the base part 6 of the profile rail system 1 is securely held. If necessary, the holes 8c in the base plate 8 can therefore be omitted.

Zur Verdeutlichung der Verbindungen der einzelnen Teile des montierten Profilschienensystems 1 zeigt Figur 3 eine Schnittdarstellung entlang der Schnittlinie S aus Figur 2. Die Schraube 14 zieht das Spannelement 12 nach oben, so daß die Anschlagflächen 10c, 12c der Stege 10 und des Spannelements 12 zur Anlage kommen. Die Schraube 14 greift in die Längsnut 12d des Spannelements 12 ein, so daß dessen Absätze 12a gegen die Stege 10 des Basisteils 6 gedrückt werden. Auf diese Weise verkeilt sich das Spannelement 12 im Basisteil 6, so daß sich eine besonders feste Verbindung ergibt.To illustrate the connections of the individual parts of the assembled mounting rail system 1, FIG. 3 shows a sectional view along the section line S from FIG come. The screw 14 engages in the longitudinal groove 12d of the clamping element 12 so that its shoulders 12a are pressed against the webs 10 of the base part 6. In this way, the clamping element 12 is wedged in the base part 6, so that there is a particularly firm connection.

BezugszeichenlisteReference list

11
ProfilschienensystemProfile rail system
22nd
AbdeckleisteCover strip
2a2a
UnterflächenSub-surfaces
2b2 B
AussparungRecess
2c2c
Schenkelleg
33rd
StauchnutenCompression grooves
44th
HängestegeHanging walkways
66
BasisteilBase part
77
aufrechter Teilupright part
88th
BodenplatteBase plate
8a8a
verbreiterter Teilwidened part
8b8b
Teil zwischen StegenPart between bridges
8c8c
Bohrungdrilling
1010th
Stege des BasisteilsCrossbars of the base part
10a10a
Absätze der StegeHeels of the webs
10b10b
SchrägflächenBevels
10c10c
AnschlagflächenAbutment surfaces
1212th
SpannelementClamping element
12a12a
Absätze des SpannelementsHeels of the tensioning element
12b12b
SchrägflächenBevels
12c12c
AnschlagflächenAbutment surfaces
12d12d
LängsnutLongitudinal groove
12e12e
Öffnungopening
1414
Schraubescrew
14a14a
Gewindethread
14b14b
SenkkopfCountersunk head
MM
MittellinieCenter line
SS
SchnittlinieCutting line
BB
Belagcovering

Claims (10)

Profilschienensystem (1) zum Abdecken und/oder Überbrücken von Fugen und/oder Rändern insbesondere bei Bodenbelägen (B) mit einem Basisteil (6), das eine Bodenplatte (8) und einen in die Fuge greifenden aufrechten Teil (7) aufweist, und mit einer über den aufrechten Teil (7) mit zwei Hängestegen (4) greifenden Abdeckleiste (2), die mit mindestens einer Schraube (14) festgelegt ist, dadurch gekennzeichnet, daß der aufrechte Teil (7) zwei beabstandete und senkrecht an der Bodenplatte (8) angeformte Stege (10) aufweist, zwischen denen ein Spannelement (12) verschiebbar gehalten ist, das von der die Abdeckleiste (2) festlegenden Schraube (14) verspannend erfaßt ist.Profile rail system (1) for covering and / or bridging joints and / or edges, in particular in the case of floor coverings (B), with a base part (6) which has a base plate (8) and an upright part (7) which engages in the joint, and with a cover strip (2) which grips over the upright part (7) with two hanging webs (4) and which is fixed with at least one screw (14), characterized in that the upright part (7) has two spaced and perpendicular to the base plate (8 ) has integrally formed webs (10), between which a tensioning element (12) is slidably held, which is gripped by the screw (14) fixing the cover strip (2). Profilschienensystem nach Anspruch 1, dadurch gekennzeichnet, daß die Stege (10) nach innen vorspringende Absätze (10a) aufweisen, die nach unten gerichtete Anschlagflächen (10c) besitzen, und das Spannelement (12) gegen die Stege (10) vorspringende Absätze (12a) mit nach oben gerichtete Anschlagflächen (12c) aufweist, die mit den Anschlagflächen (10c) der Stege (10) korrespondierend ausgebildet sind.Profile rail system according to claim 1, characterized in that the webs (10) have inwardly projecting shoulders (10a) which have downwardly directed abutment surfaces (10c), and the tensioning element (12) projects against the webs (10) shoulders (12a) with upwardly directed stop surfaces (12c) which are designed to correspond to the stop surfaces (10c) of the webs (10). Profilschienensystem nach Anspruch 2, dadurch gekennzeichnet, daß die einander zugewandten Flächen (10b) der Stege (10) des Basisteils (6) oberhalb des Absatzes (10a) nach oben divergierend ausgebildet sind.Profile rail system according to claim 2, characterized in that the mutually facing surfaces (10b) of the webs (10) of the base part (6) above the shoulder (10a) are formed diverging upwards. Profilschienensystem nach Anspruch 1 oder 2, dadurch gekennzeichnet, daß das Spannelement (12) im wesentlichen quaderförmig und unterhalb der Anschlagfächen (12c) keilförmig nach unten verjüngend ausgebildet ist.Profile rail system according to Claim 1 or 2, characterized in that the tensioning element (12) is essentially cuboid and tapers in a wedge shape below the stop faces (12c). Profilschienensystem nach mindestens einem der Ansprüche 1, 2 und 4, dadurch gekennzeichnet, daß das Spannelement (12) unterseitig eine Längsnut (12d) aufweist, die vorzugsweise über die gesamte Länge des Spannelements (12) verläuft und in ihrer Tiefe sich mindestens bis auf die Höhe des Absatzes (12a) erstreckt.Profile rail system according to at least one of Claims 1, 2 and 4, characterized in that the tensioning element (12) has a longitudinal groove (12d) on the underside, which preferably extends over the entire length of the tensioning element (12) and its depth is at least as low as Height of the paragraph (12a) extends. Profilschienensystem nach Anspruch 4 oder 5, dadurch gekennzeichnet, daß die Längsnut (12d) des Spannelements (12) die Form eines Schwalbenschwanzes aufweist.Profile rail system according to claim 4 or 5, characterized in that the longitudinal groove (12d) of the clamping element (12) has the shape of a dovetail. Profilschienensystem nach mindestens einem der Ansprüche 1, 2 und 4 bis 6, dadurch gekennzeichnet, daß das Spannelement (12) eine bis zur Längsnut (12d) durchgehende Öffnung (12e) zur formschlüssigen Aufnahme der Schraube (14) aufweist.Profile rail system according to at least one of claims 1, 2 and 4 to 6, characterized in that the tensioning element (12) has an opening (12e) which extends through to the longitudinal groove (12d) for the positive reception of the screw (14). Profilschienensystem nach mindestens einem der Ansprüche 1, 2 und 4 bis 7, dadurch gekennzeichnet, daß das Spannelement (12) mindestens im Bereich der Absätze (12a) federelastisch ausgebildet ist.Profile rail system according to at least one of Claims 1, 2 and 4 to 7, characterized in that the tensioning element (12) is designed to be resilient at least in the area of the shoulders (12a). Profilschienensystem nach mindestens einem der Ansprüche 1 bis 3, dadurch gekennzeichnet, daß die an der Bodenplatte (8) angebrachten Stege (10) federelastisch ausgebildet sind.Profile rail system according to at least one of claims 1 to 3, characterized in that the webs (10) attached to the base plate (8) are resilient. Profilschienensystem nach mindestens einem der Ansprüche 1 bis 9, dadurch gekennzeichnet, daß die aneinander anliegenden Anschlagflächen (10c, 12c) der beiden Absätze (10a, 12a) der Stege (10) und des Spannelements (12) in etwa senkrecht zur Mittellinie (M) des Spannelements (12) ausgerichtet sind.Profile rail system according to at least one of Claims 1 to 9, characterized in that the abutting abutment surfaces (10c, 12c) of the two shoulders (10a, 12a) of the webs (10) and the tensioning element (12) are approximately perpendicular to the center line (M) of the clamping element (12) are aligned.
EP95111595A 1994-08-11 1995-07-24 Profile system for covering the joints or the edges of coverings Expired - Lifetime EP0696667B1 (en)

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DE9412987U 1994-08-11
DE9412987U DE9412987U1 (en) 1994-08-11 1994-08-11 Profile rail system for bridging joints or edges on coverings

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EP0696667B1 EP0696667B1 (en) 1998-03-04

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WO1997036525A1 (en) * 1996-04-01 1997-10-09 Sas Component A floor strip system for levelling the transition between two abutting floorings
US6138323A (en) * 1996-04-01 2000-10-31 Sas Component Floor strip system for levelling the transition between two abutting floorings
US6230385B1 (en) 1996-11-01 2001-05-15 Premark Rwp Holdings, Inc. Molding affixed with wedged divider track
EP0949393A1 (en) * 1998-04-07 1999-10-13 Premark RWP Holdings, Inc. Molding affixed with wedged divider track
EP1039066A3 (en) * 1999-03-26 2000-10-18 Premark RWP Holdings, Inc. Coupling assembly, connecting member and articles manufactured therefrom
US6340264B1 (en) 1999-03-26 2002-01-22 Premark Rwp Holdings, Inc. Coupling assembly, connecting member and articles manufactured therefrom
US6647680B2 (en) * 2001-01-11 2003-11-18 Proline Profil System Gmbh Bottom rail
CN100374671C (en) * 2004-01-16 2008-03-12 赫尔姆·费里德尔·昆尼有限及两合公司 Section pressing strip device for transition area of ground layout
EP2409891A1 (en) * 2010-07-20 2012-01-25 Bombardier Transportation GmbH Floor for vehicles and assembly kit for a floor with a floor rail with a hollow profile
CN103375018A (en) * 2012-04-25 2013-10-30 丹阳市圣象地板配件有限公司 Novel aluminum alloy depression bar and installing method thereof
WO2017181238A1 (en) * 2016-04-20 2017-10-26 Classic Group Global Pty Ltd A mat
EP3258031B1 (en) * 2016-06-15 2019-10-09 Frank Sondermann Profile rail system for covering at least one fitting edge

Also Published As

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DE9412987U1 (en) 1994-10-27
ATE163717T1 (en) 1998-03-15
DE59501526D1 (en) 1998-04-09
EP0696667B1 (en) 1998-03-04

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