EP3816366A1 - Construction d'appui pourvu de plusieurs éléments profilés allongés - Google Patents

Construction d'appui pourvu de plusieurs éléments profilés allongés Download PDF

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Publication number
EP3816366A1
EP3816366A1 EP20205281.7A EP20205281A EP3816366A1 EP 3816366 A1 EP3816366 A1 EP 3816366A1 EP 20205281 A EP20205281 A EP 20205281A EP 3816366 A1 EP3816366 A1 EP 3816366A1
Authority
EP
European Patent Office
Prior art keywords
groove
fastening
profile
elements
structured
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP20205281.7A
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German (de)
English (en)
Other versions
EP3816366C0 (fr
EP3816366B1 (fr
Inventor
Ralf Johann
Wolfgang Brüll
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Ardex Group GmbH
Original Assignee
Ardex Anlagen GmbH
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Ardex Anlagen GmbH filed Critical Ardex Anlagen GmbH
Publication of EP3816366A1 publication Critical patent/EP3816366A1/fr
Application granted granted Critical
Publication of EP3816366C0 publication Critical patent/EP3816366C0/fr
Publication of EP3816366B1 publication Critical patent/EP3816366B1/fr
Active legal-status Critical Current
Anticipated expiration legal-status Critical

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Classifications

    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04FFINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS
    • E04F15/00Flooring
    • E04F15/02Flooring or floor layers composed of a number of similar elements
    • E04F15/02177Floor elements for use at a specific location
    • E04F15/02183Floor elements for use at a specific location for outdoor use, e.g. in decks, patios, terraces, verandas or the like
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04FFINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS
    • E04F15/00Flooring
    • E04F15/02Flooring or floor layers composed of a number of similar elements
    • E04F15/02044Separate elements for fastening to an underlayer
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04FFINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS
    • E04F15/00Flooring
    • E04F15/02Flooring or floor layers composed of a number of similar elements
    • E04F15/02044Separate elements for fastening to an underlayer
    • E04F2015/0205Separate elements for fastening to an underlayer with load-supporting elongated furring elements between the flooring elements and the underlayer

Definitions

  • the invention relates to a support structure with several elongated profile elements that are connected to one another with connecting elements, the profile elements having an underside and an upper side formed opposite, each having flat and parallel contact surface areas so that the profile elements are placed with the underside on a substrate can and so that floor covering elements can be placed on top of the profile elements, the profile elements having side walls connecting the bottom to the top, in which at least one fastening groove is formed, and wherein the support structure has connecting elements that are each secured by fastening elements engaging laterally in the fastening groove at least one fastening groove can be set by a profile element to be fastened in order to be able to by connecting the connecting element to an adjacent profiled element nt or with an adjoining connecting element fixed to the adjoining profile element to connect the profile element to be fastened to the adjoining profile element.
  • Such support structures are known from practice in various configurations. They can be used to create a usually lattice-shaped structure at a distance from a possibly uneven surface to provide on which floor covering elements can be laid to form a flat floor spaced from the sub-floor.
  • support structures are also known and are advantageous for various applications in which a number of profile elements are arranged parallel to one another and adjacent profile elements are connected to one another at regular or irregular intervals by cross struts.
  • such a support structure is composed of a number of uniformly formed profile elements which are connected to one another with suitable connecting elements.
  • the profile elements can be produced in different lengths and, for example, laid as longitudinal struts and transverse struts and connected to one another.
  • the individual profile elements can be supported with respect to the ground with optionally height-adjustable support elements.
  • the individual profile elements can for example be slats made of wood or a wood composite material or plastic profile elements. In many cases, however, it is advisable to use profile elements made of metal.
  • the profile elements made of metal can be designed as a hollow profile with a rectangular or square cross-section.
  • Angle elements made from a flat sheet metal blank can be used to connect adjacent hollow profiles. While the angle elements can have preconfigured drill holes, it is usually necessary to make the necessary drill holes on the hollow profiles in the intended connection area to an adjacent profile element in order to take the angle elements with them to be able to screw the hollow profiles arranged in the desired position relative to one another and thereby fix them together. The assembly effort for a support structure designed in this way is too considerable.
  • the profile elements on the side walls each have fastening grooves running along a longitudinal direction of the profile and that the connecting elements can be fixed at the desired location in the fastening groove in the profile element with a slot nut adapted to it.
  • the connecting elements can be fixed at the desired location in the fastening groove in the profile element with a slot nut adapted to it.
  • support structures are known from practice in which the connecting elements have complex mechanics in order to be able to fix the slot nuts, which are often not easily accessible, in the fastening groove.
  • each profile element has in at least one side wall at least one surface-structured fastening groove running along a longitudinal direction of the profile, which has a groove base spaced apart from the side wall and two groove walls lying opposite one another and merging from the groove base into the side wall, with at least one groove wall having a Has three-dimensionally structured groove wall surface, so that a fastening screw is screwed into the fastening groove and a threaded section of the fastening screw can be positively fixed between the two groove wall surfaces.
  • the connecting elements do not have to have any complex mechanics and in particular no slot nuts with which the connecting elements can be anchored in the fastening groove and thus fixed to the profile elements. Rather, a connecting element that has a bore adapted to the fastening screw used in the individual case can be fixed by screwing the fastening screw guided through the bore of the connecting element into the fastening groove at any position along the associated profile element.
  • the position of a profile element or the attachment of two profile elements to one another can be subsequently adjusted in a simple manner. Only one fastening screw or, if necessary, several fastening screws have to be unscrewed from the fastening groove until the arrangement of the connecting and profile elements connected to one another can be adapted and corrected in order to then tighten the fastening screw again at a new position within the fastening groove and the connecting element with the To connect profile element.
  • the fastening groove is freely accessible from the outside, so that a subsequent adjustment of the position of a profile element or the fastening of two profile elements to one another can be carried out particularly easily. In contrast to this, with most conventional support structures it is necessary to drill new holes in order to be able to carry out a new screw connection after an adapted and corrected arrangement of the profile elements.
  • the three-dimensionally structured groove wall surface enables, on the one hand, a simple screwing of a threaded section of the fastening screw into the surface-structured fastening groove and, on the other hand, causes the fastening screw to be fixed in a form-fitting manner without the need for a pre-drilling or any other preparatory measure to prepare for receiving the fastening screw in the fastening groove. Because the fastening screws between the three-dimensional structured groove walls are positively fixed, it is not necessary to use the groove base for fixing the fastening screws.
  • the groove bottom can therefore be open or closed by a groove bottom wall.
  • the groove bottom wall can also have regularly or irregularly spaced recesses or openings.
  • a support structure according to the invention can be erected in a simple manner by a number of horizontally extending profile elements which are connected to one another and form a support plane for a floor covering that can be laid on it.
  • the horizontally running profile elements with the fastening grooves also running horizontally therein can be positioned on site and aligned relative to one another before being joined together, in order then to be connected to one another with suitable connecting elements adapted to the profile elements.
  • the connecting elements can be fixed with fastening screws in the fastening grooves that are freely accessible from the outside.
  • connection element only needs to be loosened by unscrewing the fastening screw from the connection groove, in order to then be moved or repositioned along the fastening groove and then fixed again by screwing in the fastening screw on the profile element to become.
  • the support structure erected in this way can be placed on a substrate or else partially or completely supported on individual bases or spacer elements with respect to the substrate and arranged at a distance therefrom. With the support structure according to the invention can quickly and without large assembly effort, a horizontal support surface for a floor covering can also be built on an uneven or sloping surface. The distance between individual profile elements can be adapted to the dimensions of the individual floor covering elements.
  • both groove walls each have a three-dimensionally structured groove wall surface.
  • the production of a three-dimensionally structured groove wall surface in the surface-structured fastening groove is possible with little effort during the production of the profile element.
  • An extruded profile element for example, can have a number of elevations and depressions in the area of the three-dimensionally structured groove wall surface, which can also be advantageously adapted to accommodate a threaded section of a fastening screw.
  • the three-dimensional structuring of the groove wall surface can also be formed subsequently, for example with the aid of a suitable cutting tool or by a forming process with suitable molding tools.
  • a maximum profile depth of the three-dimensional structuring of a groove wall surface may be less than the maximum profile depth in the case of only a three-dimensionally structured groove wall surface in the surface-structured fastening groove, and nevertheless a comparably large retention force can be generated for a screwed-in fastening screw.
  • the support structure has at least one profile element which has at least one surface-structured fastening groove in each of its two side walls. It is preferably provided that each profile element has at least one surface-structured fastening groove in each of its two side walls.
  • the arrangement and alignment of individual profile elements within the support structure is not important, since each profile element is designed identically and has a surface-structured fastening groove on both sides, which enables a connecting element to be easily fixed for connection to an adjacent profile element.
  • surface-structured fastening grooves can be formed in at least one of the two side walls.
  • a surface-structured fastening groove and a conventional fastening groove can also be formed in each side wall, so that Conventional fasteners with a slot nut can be used with the profile elements of the support structure.
  • the three-dimensionally structured groove wall surface of the surface-structured fastening groove has a plurality of grooves, beads or grooves running along the longitudinal direction of the profile.
  • the three-dimensionally structured groove wall surface can have, for example, an undulating course of the surface of the three-dimensionally structured groove wall surface transversely to the longitudinal direction of the profile.
  • Grooves, beads or grooves can be formed in a simple manner during the production of the profile elements, for example using a strand extrusion process.
  • the three-dimensionally structured groove wall surface has a uniform shape along the longitudinal direction of the profile, so that a fastening screw can be screwed into the surface-structured fastening groove and fixed in it at any point along the longitudinal direction of the profile.
  • the three-dimensionally structured groove wall surface does not necessarily have to have a surface structuring that is constant in the longitudinal direction of the profile.
  • the grooves, beads or grooves running along the longitudinal direction of the profile can extend continuously over the entire length of the profile element, or they can each extend over a short section and several parallel grooves, beads or grooves offset in the longitudinal direction be arranged to each other.
  • the three-dimensionally structured groove wall surface has, for example, grooves, beads or grooves running at an angle to the longitudinal direction of the profile, or else has a surface structuring that varies regularly or irregularly in the longitudinal direction of the profile.
  • a characteristic dimension of such variations in the surface structuring is preferably smaller than a circumferential section of a fastening screw which engages with the three-dimensionally structured groove wall surface when it is screwed into the surface-structured fastening groove.
  • one embodiment of the inventive concept provides that the two groove walls of a surface-structured fastening groove have a straight and undercut-free course from the groove base to have an associated side wall edge. A distance between the two groove walls is then constant over the entire depth of the fastening groove and does not change as the depth of penetration of the fastening groove into the profile element increases.
  • the threaded section of the fastening screw can then, depending on the design of the two groove walls, be gripped by at least one three-dimensionally structured groove wall surface and optionally by two opposing three-dimensionally structured groove wall surfaces and form-fit over the entire extent of the threaded section within the surface-structured fastening groove surface-structured fastening groove are gripped and retained.
  • one of the two groove walls or both groove walls initially have a first distance from one another with at least one three-dimensionally structured groove wall surface, in order then to have a greater distance from one another at a distance from the side wall, for example to fix a slot nut behind one through the first section with the smaller distance formed undercut to enable delimited second section with a larger clear width of the two groove walls to one another.
  • fastening elements in principle, it is also possible for other fastening elements to be fixed in the fastening groove in addition to fastening screws or slot nuts.
  • fastening elements made of plastic with laterally protruding latching elements or with resilient clamping elements can be fixed in the fastening groove in a form-fitting or clamping manner and used to fasten a connecting element or an adjoining profile element.
  • the surface-structured fastening groove has two or three sections, each directed from the side wall towards the groove bottom and arranged one behind the other, between which a distance between the two mutually opposite groove walls is reduced in a step-like manner.
  • Each individual section is adapted to a diameter of a fastening screw.
  • a connecting element can be a straight or angled sheet metal strip.
  • a recess for example a borehole, has to be formed in the connection element and then the connection element must be fastened to the surface-structured fastening groove of the profile element with a fastening screw.
  • the connecting elements each have at least one recess for receiving a fastening screw.
  • the recess can, for example, be a bore or a punching.
  • the recess can be a circular cross-sectional area or a slot or an elongated hole extending from a lateral edge of the connecting element. It is preferably provided that the connecting elements have several recesses in order to be able to be reliably fixed to two adjoining profile elements.
  • the connecting elements are made from a flat sheet metal blank.
  • a flat sheet metal blank For a connection of two profile elements arranged one behind the other in the longitudinal direction of the profile, a single flat sheet metal blank is sufficient, without the need for deformation or processing of the flat sheet metal blank.
  • Two profile elements aligned at an angle and preferably at right angles to one another can be connected by a connecting element with two connecting legs aligned at an angle to one another.
  • Such a connecting element can also be produced from a flat sheet metal blank, which is deformed into an angular connecting element by means of a suitable bending process.
  • the support structure has at least one angle connection element in which a first fastening section is pivotable with a second Fastening portion is connected, and the first fastening portion is connected to the surface-structured fastening groove of the profile element to be connected and the second fastening portion is connected to the surface-structured fastening groove of the adjoining profile element.
  • the first fastening section of the angle connecting element is expediently designed to be pivotable by more than 45 degrees or by more than 90 degrees relative to the second fastening section.
  • the first fastening section can be pivoted by up to 180 degrees and possibly beyond that relative to the second fastening section.
  • the individual profile elements are not exclusively aligned at right angles to one another or in a rigidly predetermined angular dimension relative to one another.
  • At least some profile elements have a surface-structured fastening groove running along a profile longitudinal direction on their underside.
  • the surface-structured fastening groove formed on the underside can be used, for example, to connect the profile elements to support elements fastened on the underside.
  • the support elements can have a height adjustment device and thereby make it possible to compensate for an uneven surface.
  • the support elements can also bridge a large distance of more than 50 centimeters or more than one meter and possibly more than two meters or three meters between a substrate and the profile elements attached to the support elements, so that, for example, a floor covering on a flat top of the profile elements can be arranged at a large distance from a substrate.
  • Such a support structure can also be used, for example, for facilities that are only used temporarily, such as, for example, exhibition stands or open-air performances.
  • a connecting element on a side wall of a profile element In order to facilitate a non-rotatable fixing of a connecting element on a side wall of a profile element, it is optionally possible that along a fastening groove in a At least one outwardly projecting edge strip is formed at a distance from the fastening groove.
  • the outwardly projecting edge strip forms a stop for a connecting element fixed in the fastening groove and prevents the connecting element from rotating relative to the profile element.
  • the outwardly projecting edge strip has regular or irregular interruptions along its course parallel to the fastening groove.
  • several individual formations or subsequently attached stop elements arranged at a distance from one another and parallel to the fastening groove can be formed or fixed on the side wall of the profile element, of which a single formation or a single stop element is a stop for a non-rotatably fixable connecting element forms.
  • the spacing of the formations or stop elements from one another can also be so small that a single connecting element is connected to two at the same time or three or even more formations or stop elements rests laterally and is thereby fixed in its alignment.
  • an outwardly protruding edge strip or outwardly protruding formations or stop elements are formed or fixed along the course of the fastening groove on both sides alternately or continuously.
  • a connecting element can rest positively on both sides and be fixed in a rotationally fixed manner.
  • outwardly projecting edge strips are formed on the side walls of the profile element, the spacing of which corresponds to one another on both side walls.
  • a connecting element fixed to the side wall can be arranged with a contact surface extending in the longitudinal direction of the profile element between the outwardly protruding edge strips so that the protruding edge strips prevent the connecting element from twisting between the edge strips.
  • a distance between the two edge strips of the profile element protruding on a side wall is adapted to a width of the connecting element or to a width of a contact surface of the connecting element so that the connecting element can be inserted with sufficient play between the protruding edge strips and fixed on the side wall in a torsion-proof manner.
  • Profile element 1 shown in a sectional view has an approximately rectangular outer contour with a planar upper side 2 and with an opposite lower side 3.
  • the underside 3 has two planar contact surface areas 4 formed at a distance from one another.
  • the profile element 1 can be placed with the flat contact surface areas 4 on its underside 3 on a substrate.
  • the upper side 2 of the profile element 1 has a planar contact surface area 5 which essentially completely covers the upper side 2. On this contact surface area 5 of the profile element 1, in Figure 1 Flooring elements not shown are placed.
  • the bottom 3 is connected to the top 2 of the profile element via two opposing side walls 6.
  • a plurality of connecting webs 8 which connect and support the bottom 3, the top 2 and the two side walls 6 with one another.
  • a surface-structured fastening groove 9 is formed in each of the two side walls 6.
  • the surface-structured fastening groove 9 has a groove base 10 spaced apart from the relevant side wall 6 as well as groove walls 11 lying opposite one another and merging from the groove base 10 into the side wall 6.
  • the groove walls 11 have a straight and undercut-free course from the groove bottom 10 to a respective associated side wall edge 12 of the side wall 6, in which the surface-structured fastening groove 9 is formed.
  • the two groove walls 11 of the surface-structured fastening groove 9 each have a three-dimensionally structured groove wall surface 13.
  • a number of grooves 14 arranged next to one another are formed in each case.
  • the profile element 1 extends over a production-related predetermined length along a profile longitudinal direction, in which in Figure 1 The representation shown runs perpendicular to the image plane.
  • Both the surface-structured fastening groove 9 and the grooves 14 formed in the groove wall surfaces 13, like the side walls 6, extend along the longitudinal direction of the profile.
  • the grooves 14 in the three-dimensionally structured groove wall surface 13 are expediently designed in terms of their dimensions so that a commercially available and in Figure 1 fastening screw, not shown, with a
  • the thread section is screwed into the surface-structured fastening groove 9 and individual threads of the thread section come into engagement with the grooves 14, so that a form-fitting engagement of the fastening screw with the surface-structured fastening groove 9 is effected without excessive deformation of the surface-structured fastening groove 9 of the profile element 1 being forced got to.
  • edge strips 15 are formed, the spacing of which corresponds to one another on both side walls 6.
  • the two contact surface areas 4 protruding downward on the underside 3 also have a distance from one another which corresponds to the distance between the edge strips 15.
  • connecting elements adapted to this can be secured against rotation.
  • the profile element 1 has a further surface-structured fastening groove 9 on its underside 3. Fastening screws can optionally also be screwed into this surface-structured fastening groove 9, thereby securing connecting elements. It is also possible that support elements (not shown) are fastened to the underside 3 of the profile elements 1 with the aid of fastening screws, so that the profile elements 1 with the support elements can be arranged at a distance from a substrate.
  • the support elements can be adjustable in height so that unevenness in the subsurface can be compensated for in a simple manner.
  • FIG. 2 a differently designed profile element 1 is shown for illustration purposes only. No separate contact surface areas are formed on the underside 3, but a completely planar contact surface area 16.
  • the two surface-structured fastening grooves 9 in the side walls 6 have a greater depth than in the case of FIG Figure 1 embodiment shown. In contrast, the surface-structured fastening groove 9 formed on the underside 3 is formed less deep.
  • the connecting webs formed in the interior 7 have a different design than that in FIG Figure 1 Shown embodiment on predetermined shape.
  • the connecting element 17 shown by way of example has a central contact section 18 and two fixing legs 19 protruding at right angles from the opposite ends of the contact section 18.
  • a borehole 20 is arranged both in the contact section 18 and in the fixing legs 19.
  • a plurality of boreholes 20 could also be provided in each case.
  • the contact section 18 of the connecting element 17 In order to connect two profile elements 1 to one another, the contact section 18 of the connecting element 17 must first be fixed at any point on a side wall 6 of a profile element 1 to be connected by inserting a fastening screw through the borehole 20 of the contact section 18 of the connecting element 17 and then in the surface-structured The fastening groove 9 of the profile element to be connected is screwed in until the contact section 18 of the connecting element 17 is pressed tightly against the side wall 6 between the edge strips 15.
  • a The width of the contact section 18, measured transversely to a distance line between the two securing legs 19, is expediently adapted to a distance between the two edge strips 15 on each side wall 6 so that the contact section 18 can be secured against rotation between the two edge strips 15.
  • an end region of an adjoining profile element 1 can be inserted between the two protruding fixing legs 19 of the connecting element 17 and fastened to the connecting element 17 via two fixing screws by inserting the fixing screws through the drill holes 20 in the fixing legs 19 into the surface-structured fixing grooves 9 of the adjoining profile element 1 be screwed in.
  • FIG 4 a differently configured connecting element 21 is shown as an example, with which two profile elements 1 arranged one behind the other in the longitudinal direction of the profile can be connected to one another.
  • the angle connection element 22 has a first fastening section 23 and a second fastening section 24 connected to it pivotably. While the first fastening section 23 has a contact section 25 and a pivot plate 26 protruding at right angles, the second fastening section 24 has a shape similar to that in FIG Figure 3 shown connecting element 17 with a middle section 27 and two fixing legs 28 protruding at right angles, with an angled swivel plate 26 in the middle section 27 is arranged.
  • the two pivot plates 26 of the first fastening section 24 and of the second fastening section 25 are connected to one another in a pivotable manner with a rivet 29.
  • the second fastening section 24 is shown in two different pivoting positions relative to the first fastening section 23.
  • the angle connecting element 22 can be used in the same way as that in FIG Figure 3
  • the connecting element 17 shown here can be used to fasten a profile element 1 to be connected to an adjacent profile element 1, whereby not only a right-angled alignment of the two profile elements 1 with respect to one another, but an arbitrary alignment of the two profile elements 1 within a pivoting range specified by the angle connection element 22 is possible.
  • the two swivel plates 26 cannot be positively but swiveled to one another not by a rivet 29, but by a protruding engagement element 30 and a recess 31 adapted to it.
  • FIGS 9 and 11 various connections between two profile elements 1 which can be used for the establishment of a support structure according to the invention are shown merely by way of example. While in Figure 9 two profile elements 1 with an in Figure 3 The connecting element 17 shown are connected to one another in a right-angled alignment with the aid of fastening screws 32 are shown in FIG Figure 10 two profile elements 1 in Arranged one behind the other in the longitudinal direction and with an in Figure 4 The connecting element 21 shown is connected to one another by means of fastening screws 32. In Figure 11 are two profile elements 1 with the in the Figures 7 and 8 shown angular connecting element 22 connected to one another in a non-perpendicular alignment.

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  • Engineering & Computer Science (AREA)
  • Architecture (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Mutual Connection Of Rods And Tubes (AREA)
EP20205281.7A 2019-11-04 2020-11-02 Construction d'appui pourvu de plusieurs éléments profilés allongés Active EP3816366B1 (fr)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
DE202019106094.8U DE202019106094U1 (de) 2019-11-04 2019-11-04 Stützkonstruktion mit mehreren länglichen Profilelementen

Publications (3)

Publication Number Publication Date
EP3816366A1 true EP3816366A1 (fr) 2021-05-05
EP3816366C0 EP3816366C0 (fr) 2023-09-13
EP3816366B1 EP3816366B1 (fr) 2023-09-13

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Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP2899412A1 (fr) * 2013-12-06 2015-07-29 Ulrich Reif Dispositif doté d'une liaison vissée pour une infrastructure, en particulier d'une couverture de terrasse et de balcon
EP2899411A1 (fr) * 2013-12-06 2015-07-29 Ulrich Reif Système de liaison de composants, en particulier de deux composants d'une infrastructure, en particulier de couvertures de terrasse et de balcon
DE202019106518U1 (de) * 2019-11-22 2020-01-08 Groen & Janssen GmbH Kunststoffvertrieb Unterkonstruktionsprofil für Unterkonstruktionen von Dielenterrassen und Dielenklemme

Family Cites Families (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE3933072A1 (de) * 1989-10-04 1991-04-11 Plan Object Gmbh Profilschiene als bauelement fuer den moebel- und gestellbau
DE20007445U1 (de) * 2000-04-14 2001-08-16 Bfti Fassaden Technik Berlin I Raum-Modul-System sowie Tragsäule und Strangpressprofil
DE102016105848A1 (de) * 2015-04-10 2016-10-13 Rittal Gmbh & Co. Kg Befestigungsanordnung, insbesondere für die Befestigung eines Kühlgeräts an einem Ausschnitt in einer Schaltschranktür oder einem Schaltschrankseitenteil

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP2899412A1 (fr) * 2013-12-06 2015-07-29 Ulrich Reif Dispositif doté d'une liaison vissée pour une infrastructure, en particulier d'une couverture de terrasse et de balcon
EP2899411A1 (fr) * 2013-12-06 2015-07-29 Ulrich Reif Système de liaison de composants, en particulier de deux composants d'une infrastructure, en particulier de couvertures de terrasse et de balcon
DE202019106518U1 (de) * 2019-11-22 2020-01-08 Groen & Janssen GmbH Kunststoffvertrieb Unterkonstruktionsprofil für Unterkonstruktionen von Dielenterrassen und Dielenklemme

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DE202019106094U1 (de) 2021-02-05
EP3816366C0 (fr) 2023-09-13
EP3816366B1 (fr) 2023-09-13

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