EP4339395A1 - Structure de terrasse avec profils de visibilité - Google Patents

Structure de terrasse avec profils de visibilité Download PDF

Info

Publication number
EP4339395A1
EP4339395A1 EP23197373.6A EP23197373A EP4339395A1 EP 4339395 A1 EP4339395 A1 EP 4339395A1 EP 23197373 A EP23197373 A EP 23197373A EP 4339395 A1 EP4339395 A1 EP 4339395A1
Authority
EP
European Patent Office
Prior art keywords
profile
support
terrace structure
structure according
support part
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.)
Pending
Application number
EP23197373.6A
Other languages
German (de)
English (en)
Inventor
Michael Mette
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.)
Moeller & Co Kg GmbH
Original Assignee
Moeller & Co Kg 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 Moeller & Co Kg GmbH filed Critical Moeller & Co Kg GmbH
Publication of EP4339395A1 publication Critical patent/EP4339395A1/fr
Pending legal-status Critical Current

Links

Images

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
    • E04F15/02044Separate 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
    • E04F2015/02055Separate elements for fastening to an underlayer with load-supporting elongated furring elements between the flooring elements and the underlayer with additional supporting elements between furring elements and underlayer
    • E04F2015/02061Separate elements for fastening to an underlayer with load-supporting elongated furring elements between the flooring elements and the underlayer with additional supporting elements between furring elements and underlayer adjustable perpendicular to the 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
    • E04F2015/02066Separate elements for fastening to an underlayer with load-supporting elongated furring elements between the flooring elements and the underlayer with additional fastening elements between furring elements and flooring elements
    • E04F2015/02077Separate elements for fastening to an underlayer with load-supporting elongated furring elements between the flooring elements and the underlayer with additional fastening elements between furring elements and flooring elements the additional fastening elements located in-between two adjacent flooring elements
    • E04F2015/02094Engaging side grooves running along the whole length of the flooring elements

Definitions

  • the invention relates to a terrace structure with visible profiles, wherein profile supports, on which the visible profiles are supported on a top support surface, are arranged at a distance from one another, with one profile support further having a longitudinal extent and two adjacent profile supports extending at a distance viewed transversely to the longitudinal extent, which distance results between carrier side walls facing one another, with an underpinning beam extending between two profiled beams in a direction transverse to the longitudinal extent and over the distance, with a support part further being attached to the profiled beam, on which the lowering beam is supported at each end .
  • a structure of the type in question, such as this one from the EP 3 246 489 B1 is known, is used in particular for the design of essentially horizontal surfaces, such as sidewalks or terraces.
  • the visible profiles supported by a substructure formed by the profile supports can also be, for example, panels made of stoneware, wood or ceramic, but also possibly also, for example, planks made of wood or hard plastic or even panels or planks made of Wood Plastic Composite (WPC ).
  • WPC Wood Plastic Composite
  • the substructure is essentially composed of a plurality of profile beams, which can be connected to one another via add-on parts.
  • the profile supports can also be arranged at an angle to one another (with reference to a floor plan).
  • Two or more profile beams can also run essentially parallel to one another, whereby In particular in such an arrangement between two profile beams running next to one another, a distance viewed transversely to the longitudinal direction of the profile beam remains.
  • a balcony structure is known in which a subfloor is supported laterally on a profile frame consisting of profile supports via a spacer connected to the profile support, which forms the sole direct support for a balcony floor made of panels.
  • the balcony floor runs laterally offset from the profile frame that absorbs the loads.
  • the invention has the task of advantageously designing a substructure of the type mentioned.
  • a possible solution to the problem is given in a terrace structure in which it is intended that the visible profiles for support on the profile supports run in overlap with the profile supports.
  • a terrace structure which is characterized by a high level of safety with a structurally favorable design.
  • the underpinning beam provided in the area of the substructure essentially formed by the profile beams extends underside of the visible profiles, thereby underpinning at least one area of the Visual profile that extends freely between two profile supports in a direction transverse to the longitudinal extent.
  • the distance between the profile beams is bridged by the undercarriage which is supported at each end on the associated profile beam.
  • protection against excessive bending or even breakthrough protection can be achieved, which can in particular prevent a person from breaking through a viewing profile. Without such protection, a person breaking through in this way can lead to significant injuries, for example if a viewing profile breaks, for example due to material fatigue or weathering, or even if the viewing profile is overloaded.
  • the arrangement of an undercarriage ensures that the visible profile can be supported on the undercarriage even if the visible profile breaks.
  • the underpinning beam can support the visible profile at a vertical distance between the top of the lowering beam and the underside of the visible profile when in use, which distance is preferably equal to or smaller than the visible profile thickness viewed in the same direction. This distance can also be essentially zero. If necessary, the visible profiles can also be supported in the sense of additional support by the undercarriage and the support part.
  • the profile supports alone are initially sufficient to support the visible profiles.
  • the support part held on the profile beam and the undercarriage supported on it in turn enables the additional required static security, for example against breakthrough.
  • a static proof of safety is possible, largely independent of the structure and/or material of the visual profile used may otherwise make any type approval required for each individual design of a terrace or balcony superfluous. Practically all visible profiles available on the market can be installed. No type approval is required, for example with regard to the visible profiles.
  • the visible profiles for support on the profile supports - with reference to a vertical projection in the usual position of use - run in overlap with the profile supports. Due to this overlapping arrangement, the supporting force for the visible profiles can essentially be derived solely and directly into the profile supports.
  • the teaching of the invention can alternatively or in combination also consist of the visible profiles being supported directly on the profile supports.
  • the visible profiles are preferably supported exclusively on the profile supports, with a possible intermediate layer of a preferably permanently elastic support profile, for example in the form of a rubber or elastomer strip, between the support surface of the profile support and the underside of the visible profile facing this support surface means direct support in the sense of the invention.
  • the design can be chosen so that when the structure is used normally, the loads are transferred directly into the profile supports via the visible profiles, essentially bypassing the support parts or the undercarriage supports.
  • the underpinning construction can permanently (co-)support the visible profiles on the underside, so that loads can also be partially dissipated via this underpinning construction.
  • the support part is further preferably held on the outside on a side wall aligned with this support surface in a cross section transverse to the longitudinal extent.
  • the upper side of the lower support beam can also extend essentially in the same plane, which is horizontal in the usual state of use, as the upper side of the profile beam, so that a relevant vertical distance between the upper side of the lower beam and the lower side of the visible profile can possibly be determined solely by the thickness viewed in the vertical direction a mounting means for attaching the visible profile to the profile support.
  • all or at least approximately all of the distances resulting from the distance between two profile beams that are covered by visible profiles are bridged by the arrangement of underpinning beams.
  • the underpinning beams can extend in a common second level below the visible profiles arranged in a common first level.
  • the above-mentioned levels can each be defined by the surfaces of the visible profiles or the underpinning beams that point upwards in the state of use.
  • the undercarriage can be connected directly or indirectly to the profile beam. In particular, this ensures that load is transferred - especially in the event of breakage - from the undercarriage into the profile beam or beams.
  • the undercarriage as well as its support on the profile beams, can also be designed and selected in such a way that retrofitting is possible of an already existing substructure - after temporarily removing the visible profiles.
  • the proposed design creates a system solution for visual profile protection that is structurally simple to implement and statically verifiable.
  • the visible profiles are preferably supported only on the profile beams without the intervention of an underpinning beam.
  • the load is preferably transferred solely via the support areas of the visible profiles on the top support surfaces of the profile supports.
  • a corresponding load on the undercarriage beams via the visible profiles only arises, for example, in the event of a break.
  • the undercarriage can also have a support profile for contact with the visible profiles from below.
  • the support profile can, as preferred, consist of a rubber or elastomer material.
  • the support part can be profiled like a channel. This makes it possible, for example through the undercarriage to the support part, preferably with a corresponding oblique alignment of a relevant line surface of the undercarriage, for water, in particular rainwater, to be diverted via that
  • the support part can be derived as a further line part and, for example, converted into a rain gutter or rain drain pipe.
  • these profile beams can be connected to one another by means of an attachment.
  • the attachment can be mounted on the front side of one profile support and can also be held on the other profile support, preferably in the area of the support side wall.
  • the support part can be designed in two parts and consist of an upper overlay part and a lower support part - based on the usual state of use.
  • the support part can, as preferred, be overlapped by the overlay part for mounting on the profile support.
  • Such a support part can be designed in such a way that this support part is only held in the position supporting the undercarriage in cooperation with the overlay part. Accordingly, in a preferred embodiment, the support part can only be used in cooperation with the overlay part.
  • One, several or all sections of the support part can be designed as hollow profiles.
  • the (one-piece or two-part) support part of the undercarriage can be plug-in and plug-in to the attachment part with the profile support.
  • a plug-in receptacle provided in the area of the carrier side wall is also suitable for plug-in mounting of an attachment and, alternatively, a support part of the undercarriage.
  • the above-described division of the support part can be provided, in which division the lower support part can be overlapped by the upper overlay part and held in the active position.
  • the support part can also have a fastening section for fixing the support part to the profile beam, and a support section on which the undercarriage can sit.
  • the undercarriage can also be connected to the support part in the support position on the support part, for example by a screw or rivet connection.
  • the undercarriage can also be formed directly with the support part.
  • the profile beam can also have a support section on which the undercarriage can be placed.
  • the support part in particular the support section of the support part, can extend in the longitudinal extent of the profile part, more preferably forming the support section for the undercarriage substantially over the entire length.
  • the support part can also be mounted on the outside of the profile carrier in the area of the profile carrier side wall.
  • the support part can thus further form a plug-in tab in a cross section transverse to the longitudinal extent, which can be assigned to a plug-in receptacle in the area of the profile support side wall.
  • a plug-in assignment in the vertical direction is preferred, more preferably with reference to the usual position of use from top to bottom.
  • the plug connection can, as is also preferred, be designed to be reversible.
  • the assumption of the plug connection position, as well as the cancellation of this plug connection position, can also be achieved without tools.
  • the attached support part can be secured against lifting upwards, for example by a closure part.
  • the closure part can assume a locking position in the securing position, in which position the closure part can, for example, be supported on the support part and on the profile carrier at the same time.
  • the closure part can be movable between a release position and a securing position in which the closure part engages in a positive locking receptacle on the profile support.
  • this can be a rotational movement of the closure part around a vertical axis of rotation - based on the position of use.
  • the undercarriage can be formed like a profile when viewed in a cross section transverse to the longitudinal orientation of the undercarriage. As a result, high stability can be achieved with a comparatively low weight of the undercarriage.
  • This can be, for example, a tube or square tube profile, but also, for example, a C or T profile.
  • a bottom profile is preferred, which bottom profile has a trapezoidal profile in the cross section.
  • underpinning beams arranged next to one another in the longitudinal direction can extend between two profile beams.
  • Such a plurality of underpinning supports can be selected, which enable at least almost complete filling of the distance area between the profile supports.
  • the several underpinning supports can be chosen the same - especially with regard to their cross-sectional design and dimensions.
  • the undercarriage is formed as a trapezoidal sheet.
  • This trapezoidal sheet is preferably, as is the possible design of individual underpinning beams, made of a metallic material, i.e. further, for example, made of aluminum or steel sheet and, in terms of its horizontal extension in the state of use, adapted by cutting to the given distance dimensions between the profile beams.
  • This is preferably a substructure 1 for supporting visible profiles 2 arranged in a common horizontal plane in the form of wooden or plastic planks or in the form of for example stoneware, ceramic or wooden tiles.
  • the view profiles 2 are in the Figures 3 and 4 only reproduced in dash-dotted line style.
  • the substructure 1 is essentially composed of a plurality of profile supports 3, 3 ', preferably of the same cross-section.
  • a profile carrier 3, 3 ' can be designed as an extruded aluminum part, whereby the same profile carrier 3, 3' can be achieved in different dimensions in their longitudinal extent L.
  • the profile supports 3, 3 ' can be made with reference to a floor plan of the substructure 1 according to Figure 1 be connected to one another by means of attachments 4, including an angle to one another. So profile supports 3 and 3 'enclose angles of preferably 90 degrees to one another for clamping a rectangular substructure 1. But there are also, for example, in Figure 3 shown, angles of less than 90 degrees between two profile beams 3 and 3 'are possible due to the design.
  • the profile supports 3 and 3 ' can be provided via a structure made of base supports 47, for example structural supports made of wood or, as shown, made of steel, which is preferably regularly spaced apart from one another in their longitudinal extent L and / or transversely thereto, and is optionally connected to the underside of the profile support 3 with these on the surface 6 to be covered by the visible profiles 2.
  • base supports 47 for example structural supports made of wood or, as shown, made of steel, which is preferably regularly spaced apart from one another in their longitudinal extent L and / or transversely thereto, and is optionally connected to the underside of the profile support 3 with these on the surface 6 to be covered by the visible profiles 2.
  • the base supports 47 can rest on essentially vertically aligned supports 48 and be connected to them.
  • a so-called projection balcony can be formed in this way.
  • the substructure 1 can also be as in Figure 4 shown as an example, if necessary with the interposition of the previously described base support 47, supported on the surface 6 via, for example, plate-like feet 5.
  • the profile supports 3 and 3' also have a normal state of use Figure 1 downward-pointing support base 7, with a pocket 8 running along the longitudinal extension L, into which, for example, locking projections 9 can engage for connection, for example, to the base supports 47 or, if necessary, to the feet 5.
  • a further receiving pocket 11 can be formed on the top side, in the area of a support blanket 10, a further receiving pocket 11 can be formed.
  • This is also provided continuously with respect to the longitudinal extent L and serves for the preferred locking reception of holding means 12 for the visible profile 2 to be carried.
  • the profile support 3, 3 'in a preferred embodiment is with respect to a center plane M which is aligned vertically in the longitudinal direction L and in the state of use designed mirror-symmetrically.
  • the visible profiles 2 can, as is also preferred, be supported directly and solely on the profile support 3, 3' in vertical overlap with the supporting profile support 3, 3 ', in particular on an upwardly directed support surface 45 assigned to the support ceiling 10.
  • ""Immediately” also takes into account an arrangement in which a permanently elastic support profile 49, for example in the form of a rubber or elastomer strip, which is optionally provided in the area of the aforementioned support surface 45, is provided, on which support profile 49 the visible profile 2 can rest.
  • the support profile 49 can be in a plug-in receptacle 50 in the area of the support surface 45 be held so that the support profile 49 is a direct part of the profile support 3 or 3 '.
  • Each assigned to a carrier side wall 13, the profile carrier 3, facing the carrier ceiling 10, can have a receptacle A that is at least partially open both upwards and laterally in the usual state of use, for the entry of a partial section of the profile carrier 3 with a further profile carrier 3 and 3 ' connecting attachment 4.
  • This receptacle A can, as is also preferred, have a web 14 which projects freely upwards in the area of the receptacle A, optionally in an extension of the carrier side wall 13 and which delimits a rear grip pocket 15 to the outside.
  • the carrier base 7 can be designed to protrude laterally beyond the carrier side walls 13 and have a cross-section at each end Figure 6 carry an upwardly pointing capture web 16 that is essentially parallel to the carrier side wall 13.
  • This capture web 16 has a free vertical extension, which can essentially correspond to the relevant extent of the web 14, this vertical extent of one or both webs being approximately 0.1 to 0.35 times the height viewed in the same direction of the profile carrier 3 can correspond overall.
  • the web 14, in combination with the catch web 16, can serve to hold the attachment 4, via which attachment 4, for example, a further profile support 3 or 3 'can be attached to the profile support 3 or 3', including an angle.
  • the attachment 4 is initially and essentially designed to be a plug-in holder in the end face area of a profile support 3 or 3 '.
  • the attachment 12 can have an insertion section 18 which is preferably adapted to the cross section of the cavity 17 of the profile support 3 or 3 '.
  • underpinning profiles 21 can be arranged below the visible profiles 2, essentially in the group of planes spanned by the substructure 1, further in particular within the height h of the profile supports 3, 3 ', which correspondingly underpin the visible profiles 2 over the distance a (also compare Figure 7 ).
  • a high bead 22 is connected via rising and falling sections 24 and 25 to the deep bead 23 following in a direction transverse to a longitudinal orientation L 'of the lower profile 21, the sections 24 and 25 being connected to both the adjoining high bead 22 and the deep bead 23 include an obtuse angle.
  • the deep beads 23 form a support surface 26 with their underside.
  • the plurality of underpinning profiles 21 or the trapezoidal sheet T representing a plurality of them extends between two profile supports 3, 3 ', bridging the distance a, and is supported on support parts 27, which in turn are held on the profile supports 3, 3' below the support surfaces 45 are.
  • the support parts 27 are designed for plug-in fastening on the profile supports 3, 3 ', in particular for plug-in fastening in the receptacles A in the area of the support side walls 13.
  • a support part 27 is provided with a fastening section 28, which is used for plug-in interaction with the web 14 and the Catching web 16 of the profile support 3, 3 'can be provided, like the attachment 4, with an attachment section 29 and a receiving groove 30 (see Figure 8 ).
  • the length of a bottom profile 21 in the direction of the longitudinal alignment L ' is adapted to the distance a, and also corresponds to approximately 0.9 to 0.99 times the distance a.
  • the surface 33 of the lower profile 21, such as the surface of the trapezoidal profile T in the area of the raised beads 22, can run at a vertical distance b from the facing lower surface 32 of the visible profile 2, which distance b can be chosen to be smaller than it corresponds to the thickness dimension c of the visible profile 2.
  • a distance b can be selected, which can correspond, for example, to 0.1 to 0.3 times the thickness.
  • distance dimensions are also possible which may correspond to the thickness dimension c or can correspond to approximately 1.5 to 3 times the thickness dimension c.
  • the surfaces 44 (visible surface) of the visible profiles 2 preferably extend into a common first plane E - horizontal in the usual state of use.
  • the surfaces 33 of the underpinning profiles 21 preferably extend in a common, more preferably second plane E', which is oriented essentially parallel to the first plane E (cf Figure 7 ).
  • a viewing profile 2 that may break due to the user stepping on it does not lead to the user's foot breaking through. Rather, at least in this break situation, the visible profile 2 is supported by the bottom profile 24.
  • the arrangement can also be chosen so that the visible profile 2 is supported on the bottom profile 21 in the usual position of use.
  • the support part 27 can extend over the entire free length of the profile support 3, 3 'in the longitudinal direction L. Alternatively, a plurality of individual support parts 27 can also be provided.
  • FIGS. 10 and 11 show a further development in which the plug-in holder position can be secured against lifting of the support part 27 upwards against the plug-in direction.
  • a closure part 34 can be used for this purpose.
  • the closure part 34 is preferably part of the attachment part 4.
  • the closure part 34 can be designed independently of the attachment part 4.
  • the closure part 34 which is present here as a loose part, is essentially designed as a rotatable locking part, with a locking plate 35 which is essentially horizontally aligned in the usual state of use and which forms two opposite, preferably identically designed security wings 36.
  • These securing wings 36 protrude radially beyond a central, cup-shaped rotating projection 37, which rotating projection 37 according to the illustrated embodiment can have a slot-shaped receptacle 38, for example for receiving the blade of a screwdriver or the like.
  • the closure part 34 can have a pivot pin 40 centrally.
  • the closure part 34 is rotated about the axis of rotation x when the attachment part 12 is plugged in, preferably by a rotation angle of 90 degrees, with the safety wings 36 on the one hand in a pocket-like horizontal form-fitting receptacle 41 of the profile support 3, 3 'in the area of the support side wall 13 above the receptacle A and on the other hand in a groove-like form-fitting receptacle 42 of the support part 27 which opens horizontally outwards and runs through the longitudinal extension L.
  • the securing position can also be locked in place, for example due to the arrival of spherical locking elevations 46, a trough-shaped locking receptacle 43, which can also accommodate the pivot pin 40 at the same time.
  • the securing position can preferably only be canceled by turning the closure part 34 back against the screwing direction.
  • the closure part 34 like the support part 27 as a whole, can be reused even after the securing position has been lifted.
  • such a rotatable closure part 34 can also be captively held on the support part 27, for example by a locking holder of the pivot pin 40 in the area of the channel 43 that allows rotation.
  • FIG 12 A possible embodiment is shown in which the lower profile 21, which is trapezoidal in cross section, forms a contact formation 51 which runs in a line-like manner in the longitudinal orientation L 'of the lower profile 21 or of the trapezoidal sheet T in the area of the raised bead 22.
  • This contact formation 51 can be formed by a corresponding embossing or deformation of the raised bead 22 and serves, for example, for additional, partial support of the visible profiles 2 in addition to the basic and direct support of the same on the profile supports 3 or 3 '.
  • Such an additional support for the viewing profiles 2 can also be made according to the illustrations in the Figures 13 and 14 can be achieved by arranging a support profile 52 on the bottom profile 21.
  • the support profile 52 preferably extends transversely to the longitudinal orientation L 'of the bottom profiles 21 or of the trapezoidal sheet T as a whole, and preferably rests on the upward-facing surface of the raised bead 22.
  • the support profile 52 can also be attached to the bottom profile 21 or to the trapezoidal sheet T, for example via screws 53. Riveting is also possible in this regard.
  • the support profile 52 can be designed essentially U-shaped in a direction transverse to the longitudinal orientation L 'of the bottom profiles 21, with a sheet-like U-web 54, over which the support profile 52 rests on the raised beads 22.
  • the support surfaces 45 'of the U-legs 55 which point upwards in the position of use, preferably extend in the same horizontal plane as the support surfaces 45 of the profile supports 3 and 3' in this position of use (see in particular Figure 12 ).
  • support profiles 49' can be provided, which can be held in plug-in receptacles 50' of the U-legs 55 of the support profile 52.
  • the visible profiles 2 can also be supported on the bottom profiles 21 via the support profiles 49' and the support profile 52.
  • the support profiles 49 'offer a line-like Support for the viewing profiles 2, so that sufficient ventilation is still provided in this embodiment.
  • the viewing profiles 2 are prevented from slipping due to the support on the rubber-like support profiles 49 and 49 '. This also means that any rattling or creaking noises that may otherwise occur can be avoided.
  • the Figures 15 and 16 show an embodiment in which the underpinning beams 21 or the trapezoidal sheet T are arranged continuously in a plane below the transverse profile beams 3 '.
  • the profile beams 3 are first provided with a greater height h - vertical in the usual orientation of use - than the profile beams 3 'that run transversely thereto and are connected to the profile beams 3 via the add-on parts 4.
  • Their lower h ' preferably corresponds to approximately 0.3 to 0.8 times, for example approximately 0.4 to 0.5 times, the height h of the profile beam 3, with further preference being given to the support surfaces 45 of the profile beam 3 and 3' can extend in a common plane.
  • the underpinning beams 21 or the trapezoidal sheet T can be arranged continuously.
  • the area covered by the viewing profiles 2 can be completely and liquid-tightly supported by the underpinning supports 21.
  • a profile carrier 3 can be designed in an upper section essentially in accordance with the previously described exemplary embodiments be.
  • the resulting support base 7 can essentially extend in a common plane with the support bases of the transverse profile supports 3'.
  • the profile support 3 can have a supplementary support section 56, which can more preferably be formed in one piece and of the same material with the upper support section.
  • the carrier section base 57 formed in this way can, as shown, be designed with a pocket 8 for the snap-in accommodation of locking projections 9.
  • a further capture web 58 can be formed on the carrier side wall 13, which also extends over the carrier section 56, in the area of a carrier section side wall 68 which forms below the carrier base 7.
  • a support part 27 for the bottom profile 21 can be fixed, for example, as is also preferred, by latching, for which purpose the support part 27 according to the exemplary embodiments described above can have a fastening section 28 with slip-on sections 29 or 29 '.
  • a plug-on section 29 can be designed for plug-in interaction with the catch web 16 of the receptacle A (see in particular Figure 16 ). If necessary, a further plug-on section 29 'offset in the height direction can be formed on the fastening section in order to cooperate with the further catching web 58.
  • attachments 4 For the arrangement of the attachments 4 and the necessary interaction between the carrier-side capture web 16 and the attachment-side receiving groove 20, one of the number can be viewed over the length of the support part 27 A corresponding number of notches can be provided on attachments 4 in the area of the fastening section 28, in particular in the area of the attachment section 29. These notches provide the necessary space for the catching web 16 to engage in the receiving groove 20.
  • the support part 27 is designed in two parts, with an upper overlay part 62 in the installed state and a lower support part 63.
  • the overlay part 62 has an overlay section 64 which is essentially horizontally aligned in the installed state and which overhangs the underlay profile 21 when installed and in use in order to secure the underlay profile 21 in a vertically upward direction - for example in wind.
  • a two-part support part 27 designed in this way is preferably positioned - with reference to the longitudinal extent L of the profile beam 3 - between two attachment parts 4 each holding transverse profile beams 3 '.
  • transverse profile support 3 ' can also rest on the above-described overlay section 64.
  • the vertically extending web which has the receiving groove 20 for interaction with the catching web 16 and carries the overlay section 64 is, in the installed state, extended downwards beyond the overlay section 64 to form an overlapping section 65 (see also FIG. 18).
  • the support part 63 is with reference to the one in the Figures 17 and 18 shown vertical cross section essentially formed as a hollow profile, in particular with regard to the fastening section 28 and the support section 31.
  • the support part 63 is only designed for insertion with the lower receptacle of the profile support 3 in the installed state, and accordingly only has a lower plug-on section 29 ', for Interaction with the profile-side catch bar 58.
  • the chamber-like fastening section 28 can lie flat on the facing surface of the support section side wall 68, which extends downwards beyond the support base 7, with the upper free end section of the fastening section 28 in the installed state, forming a contact section 66, having a greater thickness when viewed in the horizontal direction can have more than the fastening section 28 (see Figure 18 ).
  • a screw connection can be made between the fastening section 28 and the support section side wall 68 solely for temporary fixation.
  • the overlapping section 65 of the overlay part 62 lies against the contact section 66, so that the support part 63 is securely held in the contact position on the facing support section side wall 68 via the plug-in support part 62.
  • the support section 31 of the support part 27 or the lower support part 63 runs in relation to the cross section Figures 13 and 14 or 17 and 18 channel-like, initially starting from the fastening section 28 having a substantially right-angled channel section 59 which runs approximately in a horizontal plane in the position of use and which extends via a vertical step 60, which laterally delimits the channel section 59, into an acute angle ⁇ from about 10 to 45 degrees to the channel section 59 extending diverter section 61.
  • the bottom profile 21 or the entire trapezoidal sheet T is supported on the edge.
  • underpinning profiles 21 or the trapezoidal sheet T which completely and closedly underpin the profile supports 3', with a usual gradient of, for example, 1 or 2 percent in the longitudinal orientation L' of the underpinning profiles 21, reliable drainage below the visible profile level can be achieved.
  • rainwater can be drained via the trapezoidal sheet T into the gutters provided at the ends of the support parts 27 and via these - with a corresponding slope of the gutter sections 59 in the direction of their longitudinal extent - into gutters at the ends, for example.
  • the area under the substructure 1 and therefore also people underneath are protected from liquids and dirt from above.
  • a terrace structure B which is characterized in that the visible profiles 2 run for support on the profile supports 3, 3 'in overlap with the profile supports 3, 3'.
  • a terrace structure B which is characterized in that the support part 27 is held on the outside of the profile support 3, 3 ', below the support surface 45 and in the area of the support side wall 13.
  • a terrace structure B which is characterized in that the visible profiles 2 are supported only on the profile supports 3, 3 'without the mediation of an underpinning support 21.
  • a terrace structure B which is characterized in that two profile supports 3, 3 'enclosing an angle to one another are connected to one another by means of an attachment 4.
  • a terrace structure B which is characterized in that the support part 27 is designed in two parts and consists of an upper overlay part 62 and a lower support part 63, wherein, preferably, the support part 63 is overlapped by the overlay part 62 for mounting on the profile support 3, 3 ' is, and / or several or all sections of the support part 63 are designed as a hollow profile.
  • a terrace structure B which is characterized in that the support part 27 or an undercarriage support 21 can be plugged into the attachment part 4 with the profile support 3, 3 'in an interchangeable manner.
  • a terrace structure B which is characterized in that the support part 27 extends in the longitudinal extent L of the profile beam 3, 3 '.
  • a terrace structure B which is characterized in that the attached support part 27 is secured by a closure part 34 against being lifted upwards.
  • a terrace structure B which is characterized in that the closure part 34 can be moved between a release position and a securing position in which the closure part 34 engages in a positive locking receptacle 41 of the profile support 3, 3 '.
  • a terrace structure B which is characterized in that the underpinning beam 21 is formed like a profile in a cross section transverse to a longitudinal orientation L 'of the underpinning beam 21.
  • a terrace structure B which is characterized in that a plurality of undercarriage supports 21 arranged next to one another in the longitudinal direction L extend between two profile supports 3, 3 '.
  • a terrace structure B which is characterized in that the undercarriage 21 is profiled in a trapezoidal manner in the cross section.
  • a terrace structure B which is characterized in that the undercarriage 21 is formed as a trapezoidal sheet.
  • a terrace structure B which is characterized in that the support part 27 is attached to a first profile beam 3 with a larger vertical height h and runs below a second profile beam 3 'with a lower vertical height h', which is arranged at an angle to the first profile beam 3.
  • a terrace structure B which is characterized in that the support part 27 is profiled like a channel.
  • a terrace structure B which is characterized in that the underpinning beam 21 has a support profile 49 'for contact with the visible profile 2 from below.
  • the invention also relates to designs in which individual features mentioned in the above description are not implemented, in particular to the extent that they are clearly dispensable for the respective intended use or can be replaced by other technically equivalent means.
  • Substructure 28 Fastening section 2 View profile 29 Clip-on section 3 Profile beam 29' Clip-on section 3' Profile beam 30 receiving groove 4 Attachment part 31 Support section 5 Foot 32 subsurface 6 underground 33 surface 7 Support floor 34 Closure part 8th Bag 35 locking plate 9 locking projection 36
  • Safety wing 10 Carrier blanket 37 Turning projection 11 Recording bag 38 Recording 12 Holding means 39 edge edge 13 Carrier sidewall 40 Pivot 14 web 41 Positive fit 15 Rear access pocket 42 Positive fit 16 catchment bridge 43 gutter 17 cavity 44 surface 18 Insert section 45 Support surface 19 Clip-on section 45' Support surface 20 receiving groove 46 Raster elevation 21 Underpinning profile 47 Basic support 22 High beading 48 support 23 deep well 49 Support profile 24 ascending section 49' Support profile 25 descending section 50 Plug-in

Landscapes

  • Engineering & Computer Science (AREA)
  • Architecture (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Mutual Connection Of Rods And Tubes (AREA)
  • Floor Finish (AREA)
EP23197373.6A 2022-09-15 2023-09-14 Structure de terrasse avec profils de visibilité Pending EP4339395A1 (fr)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
DE102022123638.2A DE102022123638A1 (de) 2022-09-15 2022-09-15 Terrassenaufbau mit Sichtprofilen

Publications (1)

Publication Number Publication Date
EP4339395A1 true EP4339395A1 (fr) 2024-03-20

Family

ID=85174737

Family Applications (1)

Application Number Title Priority Date Filing Date
EP23197373.6A Pending EP4339395A1 (fr) 2022-09-15 2023-09-14 Structure de terrasse avec profils de visibilité

Country Status (2)

Country Link
EP (1) EP4339395A1 (fr)
DE (1) DE102022123638A1 (fr)

Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE19538366A1 (de) 1995-10-14 1997-04-17 Werzalit Ag & Co Nachträglich anbaubarer Balkon
US6164019A (en) * 1998-11-30 2000-12-26 Salley; Doug Dry deck rain trays
DE202015105013U1 (de) * 2015-09-22 2015-10-30 Ips Gmbh Industrial Polymer Solutions Unterbausystem für Terrassen mit Profilstangen und Verbindungsstücken
EP3246489B1 (fr) 2016-05-17 2019-04-17 Kinley Systems Ltd. Connecteur, système de support de platelage et méthode de montage
US10526796B1 (en) * 2017-06-26 2020-01-07 Crescent Equipment Company Deck systems and related methods
EP3940168A1 (fr) * 2020-07-06 2022-01-19 Möller GmbH & Co. KG Sous-construction destinée à la réception des profilés visibles, ainsi que pièce rapportée

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE19538366A1 (de) 1995-10-14 1997-04-17 Werzalit Ag & Co Nachträglich anbaubarer Balkon
US6164019A (en) * 1998-11-30 2000-12-26 Salley; Doug Dry deck rain trays
DE202015105013U1 (de) * 2015-09-22 2015-10-30 Ips Gmbh Industrial Polymer Solutions Unterbausystem für Terrassen mit Profilstangen und Verbindungsstücken
EP3246489B1 (fr) 2016-05-17 2019-04-17 Kinley Systems Ltd. Connecteur, système de support de platelage et méthode de montage
US10526796B1 (en) * 2017-06-26 2020-01-07 Crescent Equipment Company Deck systems and related methods
EP3940168A1 (fr) * 2020-07-06 2022-01-19 Möller GmbH & Co. KG Sous-construction destinée à la réception des profilés visibles, ainsi que pièce rapportée

Also Published As

Publication number Publication date
DE102022123638A1 (de) 2023-03-02

Similar Documents

Publication Publication Date Title
EP0293460A1 (fr) Fenetre de pan de comble a corniere de montage.
CH621593A5 (en) Drainage channel
EP3643868B1 (fr) Construction de support en verre et construction de cadre
EP3208403B1 (fr) Dispositif de retenue pour un auvent et système d'auvent
DE10240939B4 (de) Vorrichtung für die In-Dach-Verbindung von wenigstens zwei plattenförmigen Bauteilen auf einem Schrägdach
EP4339395A1 (fr) Structure de terrasse avec profils de visibilité
DE102007023930B4 (de) Anordnung zur Eindeckung einer insbesondere geneigten Dachunterkonstruktion und Verwendung einer Sturmklammer zur Sicherung von Dach- und Fassadeneindeckelementen
DE20214938U1 (de) Fassadensystem aus keramischen Fassadenplatten zum Einsatz als vorgehängte hinterlüftete Fassade an einer tragenden Bauwerkswand
EP3293336B1 (fr) Rail de retenue pour un balcon français ainsi que dispositif et système de retenue associés
EP0647747A1 (fr) Structure porteuse pour la couverture et/ou le recouvrement extérieur des bâtiments
EP2270403A1 (fr) Rail de support
DE102007040735A1 (de) Trägersystem für Photovoltaikelemente
DE19910824A1 (de) Entwässerungsrinne aus Stahlblech
DE4011624A1 (de) Geruestboden
DE102020101479A1 (de) Abdeckvorrichtung für eine Entwässerungsrinne und Rinnensystem
EP3733995A1 (fr) Dispositif de plancher en bois résistant aux intempéries
EP0914528A1 (fr) Dispositif de fixation de parties accessoires de toiture
EP2425069B1 (fr) Dispositif d'aide à la mise à niveau pour des supports en bois/en poutre, notamment de recouvrements de balcon et de terrasse
AT520870B1 (de) Modulare Abdeckung für Lichtschächte, mit der Möglichkeit unterschiedliche Designs darzustellen
DE202020103926U1 (de) Unterkonstruktion zur Aufnahme von Sichtprofilen sowie Anbauteil
DE202023100697U1 (de) Podest für Bühnen
DE102022121711A1 (de) Tragkonstruktion
EP4229264A2 (fr) Système de retenue et système de recouvrement
DE10062298B4 (de) Vorrichtung zum vorübergehenden Einsetzen in eine Tür- oder Fensteröffnung
DE20209468U1 (de) Schalungselement

Legal Events

Date Code Title Description
PUAI Public reference made under article 153(3) epc to a published international application that has entered the european phase

Free format text: ORIGINAL CODE: 0009012

STAA Information on the status of an ep patent application or granted ep patent

Free format text: STATUS: THE APPLICATION HAS BEEN PUBLISHED

AK Designated contracting states

Kind code of ref document: A1

Designated state(s): AL AT BE BG CH CY CZ DE DK EE ES FI FR GB GR HR HU IE IS IT LI LT LU LV MC ME MK MT NL NO PL PT RO RS SE SI SK SM TR

STAA Information on the status of an ep patent application or granted ep patent

Free format text: STATUS: REQUEST FOR EXAMINATION WAS MADE