• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The invention relates to a gutter with an elongated, especially as a metal component made gutter body (1) for installation in a building ground (19), in particular a concrete surface on which a surface coating (25) is applied, for a watertight connection to the gutter on at least a side projecting coating flange (7) of the channel body (1) is applied, wherein for forming a material reinforcement (27) in the surface coating (25) of the coating flange (7) at least partially by a height offset (h) in the direction of the gutter body bottom ( 11) is reset.
    公开号:AT12545U1
    申请号:TGM307/2011U
    申请日:2011-05-26
    公开日:2012-07-15
    发明作者:
    申请人:Buchberger Gmbh Profilsysteme;
    IPC主号:
    专利说明:

    Austrian Patent Office AT 12 545 Ul 2012-07-15
    The invention relates to a drainage channel for liquids for installation in floor surfaces of buildings, such as parking garages, according to claim 1 and an installation arrangement in a building floor of such building according to claim 15.
    The use of such gutters in parking decks, multi-storey car parks or underground garages is known for example from DE 92 11 253 U1, according to which a gutter has an elongated channel body which is cast in the installation position in a concrete ceiling. The gutter body has at its upper edges laterally horizontally projecting flanges, which merge flush in the bottom surface and are exposed accordingly upwards.
    Further, it is well known, on the building floor for surface protection, a surface coating of a potting compound, such as epoxy, to install, creating a waterproof surface seal is achieved.
    However, a permanently watertight connection of such a surface coating on the gutter is difficult to achieve. By occurring thermal and mechanical loads, such as when driving over the gutter with heavy vehicles, namely the risk that the surface coating breaks off or breaks at a contact point to the gutter. By then resulting joints, water can enter the structure floor and lead to structural damage.
    The object of the invention is to provide a gutter and an installation arrangement of the gutter in a building floor, in which with simple structural measures tearing or breaking the surface coating in the region of the gutter is prevented.
    The object is solved by the features of claim 1 or claim 15.
    According to claim 1, the gutter body of the gutter on at least one laterally projecting coating flange. Its upper side is in the installed position with the surface coating in surface sealing contact. By applying the surface coating directly on the coating flange results in a stable and waterproof connection of the surface coating on the gutter body. In order to further reduce the risk of tearing or breaking of the surface coating, the coating flange is at least partially set back by a height offset in the direction of the gutter body floor. This height offset results in an additional free space that can be filled with the material of the surface coating. The resulting material reinforcement of the surface coating reinforces a stable and intimate contact with the channel body. Overall, it is ensured by these measures that the surface coating can not tear off the gutter body even at high thermal and mechanical loads and thus the waterproofness is maintained.
    The invention is based on the finding that in the gutter body and in the adjacent building soil at thermal / mechanical loads due to different materials used (ie metal and concrete) different voltages and thus changes in shape occur. As a result, the surface coating must compensate for the different shape changes. Here, in particular at the transition between an outer end of the coating flange and the adjacent potting compound the risk that the surface coating breaks or breaks, if the surface coating is applied with a constant coating thickness on the building floor and the coating flange.
    According to the invention by contrast, the coating thickness of the surface coating is varied by adjusting the geometry of the coating flange so that the surface coating can follow the changes in shape of gutter body and building soil, without the risk of tearing or breaking. [0010] In a variant which is particularly easy to realize in terms of production technology, the coating flange can run continuously at an angle laterally downwards in the direction of the gutter body bottom. The outer peripheral edge of the coating flange is therefore set back in comparison to a horizontal orientation down to the aforementioned height offset.
    In this case, therefore, the cross section of the surface coating applied to the coating flange is reduced in a wedge shape in the direction of the channel body. Due to the wedge-shaped reducing cross section, the ability of the surface coating to change the shape can be increased so that there is no risk of tearing or breaking. In contrast, the material reinforcement according to the invention is formed directly at the transition point between the peripheral edge of the coating flange and the potting compound, that is to say the concrete.
    The transition between the outer end of the coating flange and the adjacent concrete may preferably be accomplished steplessly. In this case, the outer peripheral edge of the coating flange can be flush with the surface into the adjacent concrete.
    In a structurally preferred variant, the coating flange on a transitional edge of the same material and / or in one piece directly pass into a side wall of the channel body. Preferably, the gutter body together with the coating flange is a bent sheet-metal profile part whose sheet thickness may be, for example, in a range of 2 to 4 mm. The coating flange may also be placed at a flange width in the range of 20 to 40mm at an angle between 3 ° to 7 ° obliquely downwards.
    In order to avoid water damage in the building floor, a watertight connection of the surface coating along the entire longitudinal extent of the gutter is required. Against this background, it is preferred if the cross-sectional profile of the coating flange according to the invention remains consistently constant in the longitudinal direction of the channel body. Accordingly, the connection production formed in the surface coating extends continuously in the longitudinal direction of the channel body.
    The gutter body may have at least one edge protection element, which projects beyond the coating flange by a predetermined excess. In the installation position, the edge protection element forms a conclusion for the surface coating. The upper edge of the edge protection element can be aligned substantially flush with the surface coating. For manufacturing reasons, it is preferred if the edge protection element is arranged as a separate component, such as a flat steel, on the inside of the respective side wall of the U-shaped profile body.
    Between the two edge protection elements, a grid can be provided which covers the upwardly open channel body. In particular, the grate can be supported directly on the gutter body bottom, so that the edge protection elements do not have to take on any additional supporting function for holding the grate.
    Instead of the above-mentioned inclination of the coating flange in a further embodiment may have a stepwise downwardly recessed outer edge web. The outer edge web can be formed parallel to the actual coating flange.
    For a stable installation of the gutter whose gutter body can be attached to the bottom side on a flat load flange. The load flange can in turn be fixed via fastening anchors at the bottom of the mounting recess.
    Hereinafter, an embodiment of the invention will be described with reference to the accompanying drawings.
    In the drawing: [0021] FIG. 1 shows in a side sectional view a drainage channel in isolation; 2/7 Austrian Patent Office AT 12 545 Ul 2012-07-15 [0022] FIG. 2 shows the gutter in a perspective view; and Fig. 3 shows an installation arrangement of the gutter in a building floor.
    1, the gutter on a trough-shaped channel body 1 with laterally vertically raised side walls 3. The side walls 3 of the channel body 1 merge at upper transition edges 5 into laterally projecting coating flanges 7. On the inner sides of the two raised side walls 3 each flat steel 9 are welded on indicated welds. The two flat steels 9 form edge protection elements described later, each of which projects beyond the transition edges 5 of the side walls 3 to the coating flanges 7 with an excess of Am. Between the two flat steels 9, a grid 10 is arranged according to FIG. 1, which can be screwed in a conventional manner with the bottom 11 of the channel body 1. The flat gutter body bottom 11 is welded on its underside with a horizontal load flange 13, each having lateral helical attachment anchors 15.
    1 and 2, the two coating flanges 7 of the channel body 1 at their transition edges 5 obliquely downwards from the horizontal plane by the angle α of 5 ° in the direction of the gutter body floor 11 is turned off. The coating flanges 7 have a flange width b of 30 mm. This results between an outer peripheral edge 17 and the transition edge 5 of the respective coating flange 7, a height offset Ah of about 2mm.
    As is apparent from the figures, the gutter is composed of sheet steel profile parts. The trough-shaped channel body 1 is formed in four folds of the same material and integrally formed with the laterally projecting coating flanges 7. The cross-sectional profile of the obliquely downwardly deposited coating flanges 7 is formed continuously constant throughout the entire production direction of the channel body 1.
    In Fig. 3, an installation arrangement is shown, in which the gutter is installed in a mounting recess 16 of a concrete ceiling 19. The gutter lies with its load flange 13 on a relining mortar 21. For a suitable height adjustment, the gutter is pressed during assembly in the moist relining mortar 21 so that the outer peripheral edges 17 of the coating flanges 7 extend approximately flush with the surface of the concrete ceiling 19.
    In addition, the gutter is anchored with the helical mounting anchors 15 in the concrete ceiling 19. This results in a height-correct and stable fixation of the channel body 1 and the coating flanges 7 relative to the concrete ceiling 19. Subsequently, the mounting recess 17 with a potting compound 23, such as concrete, filled. The potting compound 23 is aligned flush with both the concrete ceiling 19 and with the marginal edges 17 of the coating flanges 7, resulting in a smooth, smooth transition from the potting compound 23 to the coating flanges 7. On the concrete surface 19 is then applied a surface coating 25, such as epoxy resin. According to FIG. 3, the surface coating 25 covers the upper side of the coating flanges 7 and terminates in each case on the edge protection element 5 of the gutter.
    Due to the obliquely downwardly deposited coating flanges 7, the surface coating 25 does not extend with constant material thickness on the coating flanges 7, but in each case results in a material reinforcement 27. The material reinforcement 27 widened starting from the edge protection elements 5 wedge-shaped laterally outward. In the area of the outer marginal edges 17 of the coating flanges 7, this results in a maximum material thickness As (see also the height difference Am in FIG. 1) in the order of magnitude of approximately 4 mm.
    By this wedge-shaped extension of the material thickness of the surface coating 25 whose cross-sectional area is continuously increased in the direction of the concrete 23 to the transition point steel concrete. The coating thickness is therefore in the range of Beschich- 3/7
    权利要求:
    Claims (15)
    [1]
    Austrian Patent Office AT12 545U1 2012-07-15 7 reduced, whereby the surface coating 25 can follow the changes in shape of the coating flange 7 easier. The material reinforcement 27 of the surface coating 25 also lies directly at the transition point between the peripheral edge 17 of the respective coating flange 7 and the concrete material 23, whereby a tearing or breaking of the surface coating 25 is prevented. A gutter with an elongated channel body (1), in particular as a metal component, for installation in a building floor (19), in particular a concrete floor, on which a surface coating (25) is applied, which for a watertight connection to the gutter on at least one to form a material reinforcement (27) in the surface coating (25) of the coating flange (7) at least partially by a height offset (Ah) in the direction of the gutter body bottom (11 ) is reset.
    [2]
    2. Drainage channel according to claim 1, characterized in that the coating flange (7) extends continuously obliquely downwards.
    [3]
    3. Drainage gutter according to claim 1 or 2, characterized in that the coating flange (7) has a flange width (b) in a range of 20 to 40mm and / or placed at an angle (a) of 3 ° to 7 ° obliquely downward is.
    [4]
    4. Drainage channel according to claim 1, 2 or 3, characterized in that the outer peripheral edge (17) of the coating flange (7) against a channel body side transition edge (5) of the coating flange (7) by the height offset (Ah) is reset.
    [5]
    5. Drainage channel according to one of the preceding claims, characterized in that in the installation position of the gutter body (1) in a mounting recess (17) of the building floor (19) is used, which is filled with a potting compound (23), in particular made of concrete, on the upper side of which the coating flange (7) of the channel body (1) is arranged.
    [6]
    6. Drainage channel according to one of the preceding claims, characterized in that the coating flange (7) on a transition edge (5) of the same material and / or integrally into a side wall (3) of the channel body (1) passes.
    [7]
    7. gutter according to one of the preceding claims, characterized in that the gutter body (1) together with the coating flange (7) forms a folded sheet metal profile part, the sheet thickness is in particular in a range of 2 to 4mm.
    [8]
    8. gutter according to one of the preceding claims, characterized in that the cross-sectional profile of the coating flange (7) in the longitudinal direction of the gutter body (1) is constant throughout.
    [9]
    9. gutter according to one of the preceding claims, characterized in that the gutter body (1) has at least one edge protection element (9), the transition edge (5) to the coating flange (7) surmounted by an excess (Am) and a conclusion for the surface coating (25), wherein in particular an upper edge of the edge protection element (9) is substantially flush with the surface coating (25).
    [10]
    10. gutter according to claim 9, characterized in that the edge protection element (5) as a separate component, such as a flat steel, on the inside of the side wall (3) of the channel body (1) is arranged, in particular attached thereto. 4/7 Austrian Patent Office AT 12 545 Ul 2012-07-15
    [11]
    11. Drainage channel according to one of the preceding claims, characterized in that the coating flange (7) has mutually stepped flange portions, of which a flange to the fleas offset (Ah) is reset stepwise.
    [12]
    12. Drainage channel according to claim 11, characterized in that the stepped recessed flange portion forms an outer edge web which extends parallel to the coating flange (7).
    [13]
    13. Drainage gutter according to one of the preceding claims, characterized in that the gutter body (1) on the bottom side on a load flange (13) is fixed, which is fixable via fastening anchor (15) on the building floor.
    [14]
    14. Drainage channel according to one of the preceding claims, characterized in that the upwardly open channel body (1) with a grate (10) is covered, which is supported in particular on the gutter body floor.
    [15]
    15. Installation arrangement in a building floor (19) with a gutter according to one of the preceding claims. For this 2 sheets drawings 5/7
    类似技术:
    公开号 | 公开日 | 专利标题
    EP1763613B1|2009-09-09|Bridging device
    AT12545U1|2012-07-15|DRAINAGE CHANNEL
    DE2724755A1|1977-12-15|FALL TO SUPPORT THE OUTER WALL LAYER FROM MASONRY OVER WALL OPENINGS
    DE202013100629U1|2013-05-17|web profile
    DE102010045483A1|2011-04-14|Cladding and drainage element for the front of components such as balconies, terraces, porticos, flat roof edges and the like
    EP2405070A2|2012-01-11|Steel beam for prefabricated floors
    DE10262101B4|2013-07-11|insulating board
    DE3533144C2|1990-04-26|
    DE4135891C2|1994-10-27|Connection of roof elements
    EP0227937A1|1987-07-08|Balcony for subsequent fixation to a building
    AT502807B1|2007-06-15|METHOD FOR PRODUCING A FLAT ROOF OR TERRACE
    DE102007017612A1|2008-10-16|Frame for a balcony or a terrace and method for its production
    DE19646811C1|1998-02-05|Watertight expansion seam for parking deck, underground garage, etc.
    DE2627105C3|1980-11-20|Box-shaped room cell
    EP1857605B1|2009-04-22|Floor covering for a building part
    EP1162322A2|2001-12-12|Dismantable building cell
    DE10200527C2|2003-11-13|balcony
    DE4422471A1|1995-01-12|Border profile for a roof gravel stop of a building
    AT14227U1|2015-06-15|Receiving device for a Behangeinrichtung
    AT511725B1|2013-04-15|FUNDING FOR THE INTRODUCTION OF VERTICAL AND HORIZONTAL FORCES IN THE UNDERGROUND
    DE19953328B4|2020-03-26|Joint sealing device
    DE102011018963A1|2012-01-05|Drainage arrangement and gutter element
    DE4237074C2|1998-01-15|Kit for creating a loggia
    DE2605771A1|1977-08-18|Prefabricated concrete parapet or screen - with panels locked in channel in plinth fixed in load bearing base
    DE102005029361B3|2006-09-21|Ridge or grating cover element has stiffening profiles arranged in overlapping regions between ventilation elements and fixing strips
    同族专利:
    公开号 | 公开日
    DE102010024018A1|2011-12-22|
    DE202010017610U1|2012-03-14|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    EP0666378A1|1994-02-03|1995-08-09|Ab Sjöbo Bruk|Device at discharge chute|
    DE29714959U1|1997-07-23|1997-11-27|Wilhelm Hafner Gmbh|Installation channel for laying in a floor|
    FR2837221A1|2002-03-13|2003-09-19|Sb Ballestrero|Expansion sealing joint for gutter comprises two corner irons screwed to gutter bottom and vertical face to form gap, watertight covering covers corner irons and gutter walls, other corner irons support grate|
    EP1577452A2|2004-03-18|2005-09-21|Jered Nijhof|Drainage channel|
    AT8349U1|2005-05-06|2006-06-15|Aschl Roman Ing|SLOTTED CHANNEL|
    DE202009007350U1|2009-04-23|2010-05-12|Schmidt, Daniel|Drainage channel for the sanitary area|FR2996104A1|2012-09-28|2014-04-04|Isabelle Rolland|SHREDDING JUICE EXHAUST PIPE OF A SCRAPING CHAMBER AND CORRESPONDING SCRUB|
    DE202013005735U1|2013-06-26|2014-09-29|Wiedemann Gmbh|Clamping profile or clamping cover for a floor inlet channel|DE9211253U1|1992-08-21|1992-10-29|Edelstahl-Technik-Ulm Gmbh, 7910 Neu-Ulm, De|
    DE20212287U1|2002-08-09|2003-12-11|Wiedemann Gmbh|Stainless steel rainwater gutter to drain surface water from the vicinity of buildings has side-flange anchorage strip|NL2008916C2|2012-06-01|2013-12-04|Easy Sanitairy Solutions Bv|DRAIN SINK WITH FLANGE PLATE.|
    DE102013101207A1|2013-02-07|2014-08-21|Dallmer Gmbh & Co. Kg|draining device|
    DE102013104405A1|2013-04-30|2014-10-30|Birco Gmbh|Drainage channel system|
    CN112726786A|2020-12-12|2021-04-30|何璟桐|Floor drain capable of automatically cleaning, discharging, blocking and preventing|
    法律状态:
    2018-01-15| MM01| Lapse because of not paying annual fees|Effective date: 20170531 |
    优先权:
    申请号 | 申请日 | 专利标题
    DE102010024018A|DE102010024018A1|2010-06-16|2010-06-16|Discharge groove for mounting arrangement in concrete floor in e.g. multi-storey car parking place in building to discharge fluid, has flange that is set back around height displacement toward body base to form reinforcement unit|
    [返回顶部]