EP3954838A1 - Système d'éléments de raccordement pour profilés plats à installer au niveau du sol dans des cellules sanitaires - Google Patents

Système d'éléments de raccordement pour profilés plats à installer au niveau du sol dans des cellules sanitaires Download PDF

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Publication number
EP3954838A1
EP3954838A1 EP20190655.9A EP20190655A EP3954838A1 EP 3954838 A1 EP3954838 A1 EP 3954838A1 EP 20190655 A EP20190655 A EP 20190655A EP 3954838 A1 EP3954838 A1 EP 3954838A1
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EP
European Patent Office
Prior art keywords
connection
element system
axis
flat
along
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Pending
Application number
EP20190655.9A
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German (de)
English (en)
Inventor
Bernhard Kessel
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Kessel AG
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Kessel AG
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Publication date
Application filed by Kessel AG filed Critical Kessel AG
Priority to EP20190655.9A priority Critical patent/EP3954838A1/fr
Publication of EP3954838A1 publication Critical patent/EP3954838A1/fr
Pending legal-status Critical Current

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    • EFIXED CONSTRUCTIONS
    • E03WATER SUPPLY; SEWERAGE
    • E03FSEWERS; CESSPOOLS
    • E03F5/00Sewerage structures
    • E03F5/04Gullies inlets, road sinks, floor drains with or without odour seals or sediment traps
    • E03F5/0407Floor drains for indoor use

Definitions

  • the present invention relates to a connecting element system for flat profiles to be installed flush with the floor in wet rooms, in particular in showers, according to the preamble of the independent device claim and an associated mounting system, an associated installation method and an associated use.
  • Such flat profiles are installed flush with the floor in the wet room and are usually provided on the upper side, which remains visible after installation, with a slope that drains waste water towards a waste water outlet integrated in the flat profile.
  • a cross-sectionally L-shaped floor drain rail can be extended at both ends with extension rail pieces.
  • the cross-sectionally dovetail-shaped connecting pieces are inserted along a common connecting axis in cross-sectionally complementary receptacles located on the underside of the floor drain rail and located on the underside of the respective extension rail piece.
  • the connecting pieces serve as assembly aids for the extended floor drain rail when gluing it into the floor of the wet room.
  • the connecting pieces are provided with a structure, such as a fleece, on their underside, which is intended to provide an adhesion bridge to the tile adhesive.
  • the present invention is based on the object of providing a system which enables simple and reliable assembly of multi-part or extended flat profiles in the wet room area and can also prevent undesirable gap formation between adjacent flat profiles or individual flat profile parts.
  • the present invention solves this problem with a connecting element system according to the features of the independent device claim.
  • connection element system is set up to connect two flat profiles for wet cells to be installed flush with the floor along a connection axis without the use of tools.
  • connection element system is set up to connect two flat profiles for wet cells to be installed flush with the floor so that they are secured against drifting apart along the connection axis in the connected state.
  • the connecting element system is designed in such a way that it can not only connect two flat profiles to be connected to one another without tools, but can also secure them against unwanted drifting apart along the connecting axis.
  • the connecting element system can have connecting elements which are set up to connect two flat profiles to be installed at floor level with one another by positive connections and to secure them against drifting apart.
  • form-fitting connections enable a reliable connection and at the same time secures the flat profiles against drifting apart. Furthermore, form-fitting connections enable defined stops and dimensions when connecting flat profiles.
  • connection element system can have at least one connection element that can be variably positioned in the connection axis direction for connection to a flat profile.
  • Such a variably positionable connecting element makes it possible to realize different connection points to a flat profile in the direction of the connection axis. This makes it possible, for example, that the same connection element system can be used for different flat profiles with differently positioned connection points. Furthermore, such a variable connecting element system enables flat profiles to be adjusted to the installation situation on site in any length along the connecting axis, i.e. shortened, and the connecting element system can then still be connected with a precise fit to a connection point other than the one intended without shortening.
  • the connecting element system can have at least one connecting element that can be variably positioned in the direction of the connecting axis for two flat profiles that are to be connected to one another. This gives the aforementioned variability for both flat profiles to be connected to one another.
  • the connecting element system it is possible for the connecting element system to have at least one connecting element, which is firmly positioned in the direction of the connecting axis, for connecting to a flat profile.
  • Such a firmly positioned connecting element enables a connection point with a flat profile that is easy to implement and is locally defined in the direction of the connection axis.
  • connection element system for two flat profiles to be connected to one another has at least one connecting element fixedly positioned in the connection axis direction, also allows two flat profiles to be connected to one another to be connected to one another in a simple and reliable manner in the connection axis direction.
  • the connecting element system can have a main body extending along the connecting axis and at least one connecting pin for undercut engagement, viewed along the connecting axis, in a flat profile.
  • the connecting pin and the main body can be set up in such a way that the connecting pin can assume different locking positions on the main body along the connecting axis.
  • This design allows for a reliable connection between the connecting pin and a flat profile, while the ability for the connecting pin to have different locking positions on the main body along the connection axis allows for great variability for connecting to different connection points along the connection axis of the flat profile. Furthermore, despite the given variability, the locking prevents an unwanted change in the position of the connecting pin.
  • An undercut one Engaging the connecting pin in a flat profile is a reliable solution for connecting to a flat profile that is easy to implement in practice.
  • the combination of undercut engagement of the connecting pin in a flat profile with different locking positions of the connecting pin on the main body allows for a variable yet reliable connecting element system, which can connect flat profiles with differently positioned connecting points for engagement by the connecting pin and can also secure them against drifting apart along the connecting axis .
  • the main body can have a guide extending in the direction of the connection axis, in which the connection pin can be accommodated in different locking positions.
  • the guide can guide the connecting pin in a movement towards the desired locking position relative to the main body, so that it is also possible to move the main body relative to the connecting pin when the connecting pin itself is not accessible for movement, but only the main body.
  • An optional provision of the guide with a profiled latching connection path, with which the connecting pin can be brought into different locking positions along the connecting axis, also allows a desired guidance together with a reliable and resilient locking ability of the connecting pin.
  • connection element system is designed as a plug-in system.
  • connection element system designed as a plug-in system represents an easy-to-use and reliable variant of a tool-free connection element system for on-site assembly.
  • the connecting element system can be inserted along the connecting axis into two flat profiles that are to be connected to one another, which further increases the handling and assembly-friendliness.
  • the connecting element system designed as a plug-in system can be completely inserted along the connecting axis into two flat profiles to be connected to one another.
  • the connecting element system can favorably have a number of individual parts which can be brought into a locked position in relation to one another.
  • individual parts of the connection element system can first be connected to hard-to-reach connection points of a flat profile or two flat profiles before these individual and then usually more easily accessible parts are brought into a locked position relative to one another with other parts of the connection element system.
  • Another possible embodiment relates to a mounting system for flat profiles to be installed in wet cells that are flush with the floor, having at least one flat profile for installation in a wet cell that is flush with the floor, which can be connected to another flat profile for installation that is flush with the floor in a wet cell along a connection axis, and a connecting element system according to one of the different Embodiments as previously described here.
  • the flat profile and connection element system can be precisely matched to one another.
  • the at least one flat profile can be designed without a gradient over a partial length along the connection axis directly at one of its two free ends, in particular at both of its free ends.
  • An embodiment of the profile over a partial length at the free end without a water-draining gradient makes it possible, for example, to insert a connecting element system in this area without a gradient-related narrowing of the cross section of the flat profile being able to impair insertion. It is also possible to shorten the flat profile in the non-sloping section on site, with the shortened point still being able to abut an adjacent flat profile without any offset, since the cross sections of both flat profiles are still the same.
  • the at least one flat profile can have connection points spaced apart from one another and arranged along the connection axis for connection to the connection element system, in particular can have connection points in the form of recesses.
  • connection element system to select the most suitable connection point for the design of the connection element system from a number of possible connection points. Furthermore, it is also possible that after the flat profile has been shortened at a point along the connection axis and thus after at least one connection point has been cut away, suitable connection points for the connection element system are still available.
  • connection points in the form of recesses in the flat profile is a reliable variant that is easy to manufacture.
  • the at least one flat profile has a profile that extends like a tunnel along the connection axis and into which the connection element system can be inserted.
  • a tunnel-like profile for inserting the connection element system gives the combination of flat profile and inserted connection element system particular stability and resilience, also in directions transverse to the connection axis.
  • the object according to the invention is achieved by a method according to the independent method claim.
  • This relates to a method for the floor-level installation of flat profiles in a wet cell, comprising a tool-free connection of two flat profiles by means of a connection element system, in particular by means of a connection element system according to one of the aforementioned versions, along a connection axis in preparation for the floor-level installation, and securing the two connected flat profiles against drifting apart along the connection axis through the connection element system.
  • connection element systems can also be used to prevent unwanted drifting apart of the flat profiles is prevented or at least noticeably reduced.
  • the method also includes tool-free connection of a first separate part of the connection element system to one of the flat profiles and subsequent tool-free connection of a second separate part of the connection element system to the first part of the connection element system.
  • connection element system can be easily connected to a flat profile, even if this has a complex geometry with connection points that are difficult to access.
  • the first part of the connecting element system can be connected to a connection point of the flat profile that is difficult to access, for example, and then the second part of the connecting element system can be connected to the first part at a point that is then more easily accessible.
  • a tool-free connecting element system in particular a connecting element system according to one of the embodiments described here above, for securing two flat profiles installed flush with the floor in a wet room and connected to one another along a connecting axis against drifting apart along the connecting axis.
  • a tool-free connecting element system can not only be used to connect two flat profiles as an assembly aid, but can also be used at the same time to prevent or at least reduce an undesired drifting apart of the flat profiles.
  • connection element system according to one of the embodiments described above brings with it further advantages, which become clear from the respective associated explanations.
  • connecting element systems according to the present invention are set up to secure two flat profiles to be connected to one another against drifting apart up to a drift apart force applied in the connecting axis direction of at least 300 Newtons, in particular at least 600 Newtons.
  • connection axis mentioned in connection with the connection element system according to the invention is parallel to or coincide with a main axis of extension of the connecting element system and/or parallel to or coincident with a main axis of extension of the flat profile to be connected, in particular parallel to or coincident with the respective main axes of extension of both flat profiles to be connected to one another.
  • the flat profiles to be connected to one another have a length along their main extension axis in the range from 20 cm to 200 cm, in particular in the range from 60 cm to 160 cm.
  • possible widths of said flat profiles can be in the range of 3 cm to 15 cm.
  • possible thicknesses or depths of said flat profiles can be in the range from 2 mm to 20 mm, in particular in the range from 5 mm to 15 mm.
  • flat profiles in connection with the invention are made of metal, in particular partially or completely made of stainless steel.
  • connection element system according to the invention is made partially or entirely of plastic, for example ABS plastic.
  • At least one of the two flat profiles to be connected to one another is provided with a waste water conducting slope on its upper side, which is still visible after installation at floor level.
  • connection axes B of the connection element systems are parallel to the longitudinal axes or main extension axes A of the respective flat profiles.
  • All three flat profiles 2a, 2b, 2c together create a large waste water drainage channel on the floor of a wet room, such as on the floor of a larger shower room.
  • Shower waste water here runs over a tiled floor slope onto the flat profiles 2a, 2b, 2c and is then directed through a slope on the top of the flat profiles above ground to the nearest floor drain opening 1a, 1b, 1c.
  • Each of the flat profiles 2a-2c has a water-draining slope along its main axis A on its upper side 4a-4c.
  • each flat profile has on its upper side 4a - 4c a section 5a - 5c without a gradient along the main axis of extension A, which runs parallel to or coincident with the connection axis B of the connection element systems used, as will be described in more detail later.
  • the length of the section 5a, 5b, 5c without a gradient is preferably in the range from 2 cm to 15 cm.
  • the flat profile 2a - 2c can be shortened to a desired length on site by the fitter.
  • each of the flat profiles 2a - 2c is here at least along a section in a cross-sectional profile perpendicular to the main axis of extension A, and thus also perpendicular to the connection axis, channel-like.
  • Two connecting element systems 6 are inserted here into the open end of the left flat profile 2a. These are inserted into two tunnel-like profiles 7a of the flat profile 2a extending along the main axis of extension of the flat profile A and thus also extending along the respective connection axis B, approximately up to half their length.
  • the tunnel-like profiles 7a, 7b run in the lower area of the flat profile 2a - 2c, which is no longer visible after installation at ground level.
  • the connecting element system 6 is designed as a plug-in system which can be inserted completely along the connecting axis B into the two flat profiles 2a, 2b to be connected to one another.
  • the connecting element system 6 extends in this first embodiment along a main axis, which at the same time forms the connecting axis B of the connecting element system 6 .
  • the connecting element system 6 has a connecting element that is firmly positioned in the connecting axis direction B, here in the form of a resilient latching lug 10 .
  • connection element system 6 of this embodiment is designed in one piece.
  • connection points for the connection element system 6 in the form of through-hole-like recesses 11 in the tunnel-like profile 7a, 7b on their underside, which is glued to the screed of the wet room with tile adhesive during installation.
  • the connection points are arranged at regular intervals along the connection axis B and thus also along the main axis A of the flat profile.
  • the resilient latching lug 10 of the connecting element system 6 is in this case snapped or hooked into the recess 11 in a form-fitting manner, that is to say undercut to the flat profile 2a when viewed in the connecting axis direction B.
  • both flat profiles 2a, 2b are then connected to one another along the connection axis B without tools in such a way that they are secured against drifting apart along the connection axis B in the connected state, in particular in the state installed later on the floor.
  • the outer cross-sectional shape of the connecting element system 9 is adapted to the inner cross-section of the respective tunnel-like profiles 7a, 7b of the flat profiles 2a, 2b, so that the connecting element system 6 can be inserted into the tunnel-like profiles 7a, 7b in the connection axis direction B and thereby can be supported on the inner walls of the tunnel-like profile 7a, 7b.
  • the two flat profiles 2a, 2b are also secured against drifting apart or against displacement in other directions transversely to the connection axis B by the connection element system 6.
  • This second embodiment is also designed as a plug-in system, but this time as a multi-part system.
  • the connecting element system 12 is inserted halfway along its extension length in the connection axis direction B, i.e. in the direction of its main extension axis, into a flat profile 13a, more precisely into a tunnel-like profile 14a on the bottom side of the flat profile 13a.
  • the outer cross-sectional shape of the connecting element system 12 is adapted to the inner cross-section of the tunnel-like profiles 14a-14c of the flat profiles 13a-13c to be connected with one another, so that the connecting element system 12 can be inserted into the tunnel-like profiles 14a-14c in the connection axis direction B and here can be supported on the inner walls of the tunnel-like profiles 14a-14c.
  • the two flat profiles 13a, 13c; 13c, 13b; 13a, 13b is also secured against drifting apart in other directions transversely to the connection axis B by the connection element system 12.
  • connection element system 12 in this embodiment has a main body 15, which extends along a main axis of the connection element system 12 and thus along the connection axis B of the connection element system, and a total of four connection elements in the form of connection pins 16 that can be variably positioned in the connection axis direction B.
  • the connecting pins 16 are separate parts here, each of which is guided in a guide 17 extending along the connecting axis B.
  • each guide has a profiled latching connection section 18 .
  • the snap-in connection section 18 can have a profile, for example, which allows a non-destructive relative movement of the connecting pin 16 to the main body 15 in both directions along the connection axis B when great force is exerted, for example a wave-shaped snap-in profile, or can have a snap-in profile, which only allows a non-destructive movement in one which allows both directions along the connection axis B, for example a sawtooth profile with steeper flanks in one direction. In such a case, the non-destructive direction of movement would be from the free end of the main body 15 in the connection axis direction B towards the center of the main body 15.
  • Each connecting pin 16 has a correspondingly complementary profile 19 at its contact points with the latching connection section 18, so that regardless of the specific latching profile geometry (whether wavy or sawtooth-shaped), there is always at least a slight form fit between the connecting pin and latching connection section, i.e. always at least a slight undercut of the interlocking profiles, when viewed in the connection axis direction, is given.
  • connection element system 12 also has on its in figure 8 bottom right, shown in each of its two halves, a firmly positioned connecting element, here in the form of resilient locking lugs 20.
  • additional connecting elements 20 can serve as additional or alternative connecting elements to a flat profile 13a -13c, depending on the specific design of the respective flat profile .
  • a secure connection between the connecting element system 12 and each of the two flat profiles 13a, 13b, 13c can thus be established via one or more connecting elements that can be variably positioned in the connecting axis direction B, for example in the form of connecting pins 16, and/or via a fixedly positioned connecting element, for example in the form of a resilient Detent 20 are produced.
  • One The coexistence of both connecting elements 16, 20 in the connecting element system 12 increases the versatility of the connecting element system 12 for different flat profile designs 13a-13c.
  • the two connecting pins 16 of one half of the connecting element system 12 each engage with their lower section 21, which is located below a step-like stop 22 of the connecting pin 16 for the surrounding profile wall, in a form-fitting manner in two recesses 23 on the Flat profile 13a, ie undercut when viewed in the connection axis direction B, a.
  • the connecting element system 12 is securely connected to the one flat profile 13a, so that the flat profile 13a cannot be removed from the connecting element system 12.
  • the connecting element system 12 can also be connected to a second flat profile 13c or 13b on its half which is still free.
  • both flat profiles 13a, 13c; 13a, 13b; 13c, 13b are connected to each other without tools by the connecting element system 12 along the connecting axis B, in such a way that both flat profiles are secured against drifting apart, here against drifting apart along the connecting axis B, and thus along the common main axis of extension A, as well as in others Directions transverse to the connection axis B.
  • figure 9 shows a schematic, possible installation situation, in which a flat profile in the form of a corner connector profile 13c is connected at its two open ends to a flat profile 13a, 13b, which has a waste water inlet opening 1, and the flat profiles 13a - 13c are secured against drifting apart in all directions .
  • the corner connector profile 13c In comparison to the flat profiles 13a, 13b with the waste water inlet opening 1, the corner connector profile 13c has no waste water-carrying gradient here on its upper side.
  • the corner connector profile 13c extends along two main axes C1, C2, which here are at a 90° angle to one another.
  • the corner connector profile 13c thus also has two potential connection axes B if it is connected at both ends to a further flat profile in each case by connection element systems 12 according to the invention.
  • the main axes C1, C2 and thus the connection axes in such corner connector profiles 13 can also have any other axis angle positions relative to one another, such as 45°, 135° or 180°. At 180°, the flat profile would no longer be a corner connector profile 13c, but rather an extension or intermediate piece for flat profiles 13a, 13b without a gradient.
  • the corner connector profile 13c also has a tunnel-like profile 14c at both of its open ends, into which the connection element system 12 can be inserted up to halfway along the connection axis B.
  • the corner connector profile 13c On the underside of the tunnel-like profile 14c, not shown, is the corner connector profile 13c with recesses 23 along the two connecting or main axes C1; C2 provided, in which in this embodiment of the connecting element system 12, the variably positioned connecting pins 16 and fixed-positioned locking lugs 20 can engage.
  • figure 11 shows a schematic perspective cross-sectional representation of a floor-level installation of flat profiles 13a - 13c, wherein, among other things, a flat profile 13a with waste water inlet opening 1 and underlying floor drain unit 3 is connected to a flat profile in the form of a corner connector profile 13c with a previously described connecting element system 12.
  • the flat profiles 13a - 13c are laid flush with the floor when installed, i.e. flush with the floor of the wet cells, i.e. usually with the backsplash.
  • the flat profiles 13a, 13b have at their respective ends on their upper side sections 24a, 24b that can be cut to length and without a water-conducting gradient.
  • the fitter When assembling the in Figures 2 to 5
  • the fitter inserts the first end of the connecting element system 6 halfway into the first tunnel-shaped profile 7a of a first flat profile 2a to be connected, until the resilient latching lug 10 of the connecting element system 6 engages in a form-fitting manner in a recess 11 provided.
  • the fitter then repeats the process with a further connection element system 6 according to the invention for the second tunnel-shaped profile 7a, which is located parallel next to the first tunnel-shaped profile 7a of the first flat profile 2a to be connected.
  • the ends of the two connecting element systems 6, 6 that are still free are inserted into corresponding tunnel-shaped profiles 7b, 7b of a second flat profile 2b, each along the connection axis, until the locking lugs 10 of the free ends also engage in a form-fitting manner in the recesses 11 provided in the second flat profile 2b.
  • a similar process is repeated for connecting the flat section 2b to the flat section 2c.
  • the three flat profiles 2a, 2b, 2c that are now connected to one another can then be glued to the wet cell screed using tile adhesive.
  • the fitter ensures that the floor drain openings 1a, 1b, 1c of the flat profiles 2a - 2c come to rest in a suitable manner with the floor drain units 3 already preinstalled in the wet cell floor.
  • corner connector profiles is just as possible in this first embodiment of the connecting element system 6 as required, as explained above in connection with the figures of the second embodiment.
  • the connecting element systems 6 enable easy handling of the flat profiles 2a, 2b, 2c connected to one another as a unit and prevent, for example, an unwanted vertical or horizontal offset of the flat profiles 2a, 2b, 2c from one another during the assembly process, in particular when gluing to the wet cell floor.
  • each connecting element system 6 secures its respective connected flat profiles 2a-2c after installation at floor level by the snapped-in locking lugs against drifting apart along the connecting axis B, which lies parallel to the main extension axes A, so that unwanted gap formation at the joints of adjacent flat profiles is prevented.
  • connection element system differs from the first embodiment in that, in a first step, two of the connecting pins 16, which are still separate at the beginning of assembly, are individually inserted from the inside into corresponding recesses 23 in the comparatively narrow tunnel-like profile 14a-14c of the corresponding flat profile 13a-13c. Both connecting pins 16 come into a defined seat in the respective recess 23 via the stop 22 provided on the connecting pin 16. Since initially only individual connecting pins 16 have to be positioned in the tunnel-like profile 14a, 14b, 14c, this is possible for the installer despite the difficult accessibility easily possible.
  • the main body 15 is then pushed in along the connection axis B and also along the main extension axis A or C1, C2 of the flat profile 13a-13c and thus also of the tunnel-like profile 14a-14c.
  • the respective connecting pin 16 then moves relatively along the guide 17 over a certain length of the latching connection path 18 until the main body 15 can no longer be pushed further into the first flat profile, eg 13a, for example via a stop provided.
  • the connecting element system 12 is now securely connected to the first flat profile, eg 13a, and the connecting pins 16 have assumed a locked position on the main body 15, which, depending on the design, can only be released with a great deal of force or no longer without being destroyed.
  • the fitter can then, for example, shorten a second flat profile that is still too long, e.g repeat second flat profile 13b.
  • the connecting pins 16 are then inserted into the first available recesses 23 of the then shortened flat profile 13b and then connected to the main body 15 in the manner described by pushing in the still free end of the main body 15 .
  • the connecting pins 16 thus assume locked positions relative to the main body 15 and thus connect the two flat profiles 13a, 13b flush with each other by means of a form fit, securely against drifting apart along the connecting axis B.
  • the coordinated inner dimensions of the respective tunnel-like profile 14a and the outer dimensions of the connecting element system 12 are the two flat profiles, eg 13a, 13b, are also secured against drifting apart in other directions transverse to the connection axis direction.
  • corner connector profiles 13c can be used during assembly, as required figure 10 described and further in figures 9 and 11 shown to be used.
  • the latching lugs 20 of the connecting element system 12 which are firmly positioned in the connection axis direction B, can be securely connected to corresponding recesses 23 on the underside of the corner connector profile 13c, either in addition to the connection by means of connecting pins 16 or instead of using the connecting pins 16.

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  • Health & Medical Sciences (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Hydrology & Water Resources (AREA)
  • Public Health (AREA)
  • Water Supply & Treatment (AREA)
  • Floor Finish (AREA)
EP20190655.9A 2020-08-12 2020-08-12 Système d'éléments de raccordement pour profilés plats à installer au niveau du sol dans des cellules sanitaires Pending EP3954838A1 (fr)

Priority Applications (1)

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EP20190655.9A EP3954838A1 (fr) 2020-08-12 2020-08-12 Système d'éléments de raccordement pour profilés plats à installer au niveau du sol dans des cellules sanitaires

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
EP20190655.9A EP3954838A1 (fr) 2020-08-12 2020-08-12 Système d'éléments de raccordement pour profilés plats à installer au niveau du sol dans des cellules sanitaires

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EP3954838A1 true EP3954838A1 (fr) 2022-02-16

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Citations (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE202008002774U1 (de) * 2008-01-30 2008-06-19 Aco Severin Ahlmann Gmbh & Co. Kg Beleuchtete Duschrinne
US20110047695A1 (en) * 2009-08-26 2011-03-03 James Daniel Niedens Drain assembly
EP2468969A2 (fr) * 2010-12-23 2012-06-27 Heinrich Meier Eisengiesserei GmbH & Co. KG Dispositif de recouvrement pour un caniveau
DE102013001234A1 (de) 2013-01-25 2014-07-31 Dallmer Gmbh & Co. Kg Vorrichtung für einen in der Nähe einer Wand angeordneten Bodenablauf
US20150240464A1 (en) * 2014-02-21 2015-08-27 Lawrence G. Meyers Linear Drain Assemblies and Methods of Use
US20160130794A1 (en) * 2013-05-15 2016-05-12 Josef Erlebach Elongated Shower Drain
US20160281346A1 (en) * 2015-03-25 2016-09-29 Fin Pan, Inc. Linear Drain System
US10017933B1 (en) * 2014-05-19 2018-07-10 Goof Proof Products, Llc Linear drain having adjustable length
EP3680406A1 (fr) 2019-01-09 2020-07-15 Dallmer GmbH & Co. KG Dispositif de drainage pour l'installation dans le sol d'une salle

Patent Citations (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE202008002774U1 (de) * 2008-01-30 2008-06-19 Aco Severin Ahlmann Gmbh & Co. Kg Beleuchtete Duschrinne
US20110047695A1 (en) * 2009-08-26 2011-03-03 James Daniel Niedens Drain assembly
EP2468969A2 (fr) * 2010-12-23 2012-06-27 Heinrich Meier Eisengiesserei GmbH & Co. KG Dispositif de recouvrement pour un caniveau
DE102013001234A1 (de) 2013-01-25 2014-07-31 Dallmer Gmbh & Co. Kg Vorrichtung für einen in der Nähe einer Wand angeordneten Bodenablauf
US20160130794A1 (en) * 2013-05-15 2016-05-12 Josef Erlebach Elongated Shower Drain
US20150240464A1 (en) * 2014-02-21 2015-08-27 Lawrence G. Meyers Linear Drain Assemblies and Methods of Use
US10017933B1 (en) * 2014-05-19 2018-07-10 Goof Proof Products, Llc Linear drain having adjustable length
US20160281346A1 (en) * 2015-03-25 2016-09-29 Fin Pan, Inc. Linear Drain System
EP3680406A1 (fr) 2019-01-09 2020-07-15 Dallmer GmbH & Co. KG Dispositif de drainage pour l'installation dans le sol d'une salle

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