EP3460141B1 - System zur ausrichtung von geländerplatten - Google Patents

System zur ausrichtung von geländerplatten Download PDF

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Publication number
EP3460141B1
EP3460141B1 EP18195667.3A EP18195667A EP3460141B1 EP 3460141 B1 EP3460141 B1 EP 3460141B1 EP 18195667 A EP18195667 A EP 18195667A EP 3460141 B1 EP3460141 B1 EP 3460141B1
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EP
European Patent Office
Prior art keywords
sliding part
railing panel
railing
support part
clamping device
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.)
Active
Application number
EP18195667.3A
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German (de)
English (en)
French (fr)
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EP3460141A1 (de
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.)
Q Railing Europe GmbH and Co KG
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Q Railing Europe GmbH and Co KG
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Publication of EP3460141A1 publication Critical patent/EP3460141A1/de
Application granted granted Critical
Publication of EP3460141B1 publication Critical patent/EP3460141B1/de
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Anticipated expiration legal-status Critical

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    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04FFINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS
    • E04F11/00Stairways, ramps, or like structures; Balustrades; Handrails
    • E04F11/18Balustrades; Handrails
    • E04F11/181Balustrades
    • E04F11/1851Filling panels, e.g. concrete, sheet metal panels
    • E04F11/1853Glass panels
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04FFINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS
    • E04F11/00Stairways, ramps, or like structures; Balustrades; Handrails
    • E04F11/18Balustrades; Handrails
    • E04F11/181Balustrades
    • E04F11/1812Details of anchoring to the wall or floor
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04FFINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS
    • E04F11/00Stairways, ramps, or like structures; Balustrades; Handrails
    • E04F11/18Balustrades; Handrails
    • E04F11/181Balustrades
    • E04F11/1817Connections therefor
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04FFINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS
    • E04F11/00Stairways, ramps, or like structures; Balustrades; Handrails
    • E04F11/18Balustrades; Handrails
    • E04F11/181Balustrades
    • E04F11/1851Filling panels, e.g. concrete, sheet metal panels
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04FFINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS
    • E04F11/00Stairways, ramps, or like structures; Balustrades; Handrails
    • E04F11/18Balustrades; Handrails
    • E04F11/181Balustrades
    • E04F11/1817Connections therefor
    • E04F2011/1823Connections therefor between balustrade filling members, e.g. balusters or panels, and horizontal or sloping balustrade members

Definitions

  • the invention relates to a system for aligning the vertical inclination of handrail plates in a handrail plate holder with a support part to be inserted into the handrail plate holder and a sliding part that can be displaced longitudinally relative to the support part in the direction of the railing, the system having at least one inner contact side that determines the vertical inclination of the handrail plate that is fixed in the end and at least one support against the railing plate receiving ensuring outer contact side forms and by means of the resulting from the longitudinal displacement of the sliding part different positioning of the sliding part relative to the support part, a different vertical inclination inner contact side can be adjusted.
  • U-shaped retaining profiles to be anchored to a structure spaced-apart individual floor clamps to be anchored to the structure preferably on the floor, or groove-like plate receptacles introduced directly into a structure come into consideration as railing plate receptacles.
  • the railing plate is not penetrated by a fastening means, but rather is tensioned in a non-positive manner in the plate holder by the clamping force exerted on the surface of the railing plate by means of the clamping system.
  • the invention is also based on such basically known railing plate receptacles and clamping devices.
  • Such all-glass railings are regarded as design objects and high demands are placed on the visual appeal and quality impression of such a railing.
  • One aspect that is of great importance in this context is that the individual railing plates arranged in series with one another in such a railing must be precisely aligned with one another so that a railing that extends over a longer distance with its numerous individual plates in the railing direction as a whole gives a coherent overall picture.
  • the retaining profiles and the railing plates can be manufactured with low tolerances, the parts of the building in particular on which the retaining profiles are mounted are often not sufficiently aligned, so that the possibility of adjusting the vertical inclination of individual railing plates is necessary so that the railing plates are exactly in the direction of the railing can be aligned with each other.
  • the German utility model discloses a possibility of adjusting the vertical inclination DE 20 2013 104 330 U1 .
  • the railing plate is clamped between a clamping wedge and a plate carrier within a floor profile that serves as a railing plate holder.
  • the vertical inclination of the plate carrier is adjusted by longitudinally moving a sliding element.
  • moving the sliding element adjusts the vertical inclination of the railing plate without the system being able to adapt to the simultaneously occurring change in the gap geometry on both sides of the railing plate. Any change in the inclination of the side of the plate support facing the railing plate also necessarily changes the inclination of the side facing the inner wall of the floor profile.
  • the gap geometry also changes on the side of the clamping wedge as a result of a change in the incline of the railing plates, without the clamping wedge used compensating for this change. Therefore, the plate girder and the clamping wedge support the railing plate due to the lack of Adaptability to a gap geometry that changes with the inclination of the railing plates does not decrease evenly and optimally over the entire surface, regardless of the inclination of the railing plates.
  • the uneven distribution of the clamping force at the individual force application point as well as over several clamps extending along the railing plate receptacle can lead to warping of the glass plate and resulting stress peaks in the glass.
  • the object of the invention is therefore to provide a system for holding railing panels, in particular all-glass railing panels, and its components, which largely minimizes the disadvantages of the known system described above and provides optimized accommodation and support for the railing panel in the overall system.
  • the system should be easy to manufacture, manage with few components, allow a robust, resilient mounting of the railing plates in the railing plate receptacle, be easy to assemble on site and allow simple and preferably reversible adjustability of the vertical inclination of the railing plates.
  • a system is sought in which the railing plates can be easily removed from the railing plate holder for repair or replacement purposes.
  • the invention solves the problem with a system in which the sliding part and support part interact in such a way that a longitudinal displacement of the sliding part changes the vertical inclination of the inner contact side independently of the vertical inclination of the outer contact side.
  • the longitudinal displacement of the sliding part is intended to result in an inclination adjustment of the inner contact side determining the vertical inclination of the railing plate, while the vertical inclination of an outer contact side resting against the railing plate receptacle remains unchanged.
  • the invention is therefore based on the finding that by moving the sliding part, not only the inclination adjustment of a plate carrier separate from the sliding part, which is also supported on the outside against an inner wall of the floor profile, but also the inclination adjustment of the inner contact side, which determines the inclination of the railing plates, from the outer one resting against the inner wall of the railing plate receptacle to decouple the investment side of the system.
  • the inclination of the railing plate can be adjusted while the contact sides of the system that support the clamping force are able to adapt to the change in the gap geometry at the same time and optimal contact with the adjacent surfaces is maintained.
  • the system of support and sliding part can also function when the weight of the railing plate rests on support parts that are separate components from the support and sliding part, it is preferably provided that the support part is designed as a plate support that absorbs the weight of the railing plate.
  • the support part is thus immovably fixed within the railing plate receptacle, while the sliding part can also be moved when the railing plate is inserted, because the weight of the railing plate rests on the plate carrier and not on the sliding part.
  • the inclination adjustment system enables the railing plate to be moved largely without force even when the railing plate is inserted into the railing plate holder and resting on the carrier parts or the support part Sliding part and in particular a setting that changes the inclination of the railing plate when the railing plate is positioned without tension in the railing plate.
  • the inner contact side which specifies the railing plate inclination, is then the inside of the support part facing the railing plate and the outer contact side is then the outside of the sliding part pointing to the lateral inner wall of the railing plate receptacle.
  • an embodiment is preferred in which the sliding part, when the railing plate is inserted, is guided on at least one side of the railing plate between the railing plate and the support part.
  • the inner contact side which specifies the railing plate inclination, is then the inside of the sliding part facing the railing plate and the outer contact side is then the outside of the support part pointing to the lateral inner wall of the railing plate receptacle.
  • the support part forms the inner contact side on both sides of the railing plate or in which the sliding part forms the inner contact side on both sides of the railing plate
  • configurations are also conceivable in which the sliding part forms the inner contact side on one side of the railing plate
  • the contact side forms and on the other side of the railing plate a support part, in particular also a clamping device acting as a support part, forms the inner contact side.
  • the inner contact side is preferably in direct contact with the railing plate surface and the outer contact side is in direct contact with the system-facing inner surface of the railing plate receptacle on at least one side of the railing plate.
  • the fact that the inner contact side is supported against the railing plate and the outer contact side is supported against the railing plate mount does not necessarily mean that the inner contact side is in direct contact with the railing plate and the outer contact side is in direct contact with an inner surface of the railing plate mount.
  • the sliding part and support part are designed in such a way that the system can adapt to the change in the gap geometry between the railing plate and the railing plate receptacle on both sides of the railing plate as a result of an adjustment of the vertical inclination of the railing plate.
  • both the sliding part and the supporting part can be designed with a U-shaped cross section, at least in sections.
  • the preferred U-shaped configuration results in a synchronous adjustment of the adjustment system on both sides of an inserted railing plate to a gap geometry that also changes as a result of the change in the inclination of the railing plate.
  • the sliding part is preferably guided on the inside of the support part and accordingly moves during a longitudinal displacement and when the railing plate is inserted between an inner side of the support part facing the railing plate and the railing plate surface.
  • An embodiment in which the sliding part is guided on the outside of the support part and moves in the event of a longitudinal displacement between the inner wall of the railing plate receptacle and an outside of the support part facing this inner wall is also conceivable.
  • an embodiment is also conceivable in which the sliding part is guided on one side of the railing plate on the inside of a first support part and in which the sliding part is guided on the other side of the railing plate on the outside of the first support part or a further, second support part.
  • mutually facing guide sides of the support part and sliding part form guide surfaces at least over a partial area of the surfaces spanned by the guide sides ( preferably, the entire surface spanned by the guide sides is designed as a guide surface, which are twisted corresponding to one another in the railing direction.
  • the mutually facing guide surfaces preferably follow the course of a partial surface of an imaginary helical or spiral twisted body. Lines following the twisting of the guide surfaces can describe a section of an imaginary (single or multiple) helix.
  • the sliding part guided within the support part rotates about an axis parallel to the railing direction, so that its inward-facing side, which in this case forms the inner contact side, changes its vertical inclination, while the outer contact side changes from the outside of the support member is formed.
  • the sliding part guided outside of the support part twists the support part located inside the sliding part during its longitudinal displacement, so that the inside of the support part forms the inner contact side, while the outer contact side is formed by the outside of the sliding part sliding along the inner wall of the railing plate receptacle.
  • the support part preferably remains stationary, since it preferably acts as a support part that absorbs the weight of the panels.
  • the inner contact side that determines the vertical inclination of the railing plate changes without the vertical inclination of the outer contact side also changing.
  • the twisted guide sides or the guide surfaces of the sliding part and support part formed on them are preferably matched to one another in such a way that there is an angular displacement of approximately ⁇ 1° between two end positions of the sliding part.
  • the sliding part can preferably be moved longitudinally in two directions to a displacement end position in each case, with one end position being an inclination adjustment of the railing plate of about -1° and the other end position allows a tilt adjustment of about +1° compared to the neutral position.
  • the sliding part and the supporting part are preferably matched to one another in such a way that the sliding part is guided at least on one side of the railing plate within the supporting part and when the end positions of displacement, which are dictated by end stops formed on the supporting part or on the sliding part, are reached, the supporting part does not move in the longitudinal direction towers over
  • the support part and/or the sliding part is designed in two parts and preferably comprises two, in particular axisymmetric, identical parts which, when put together, result in a support part or sliding part that is U-shaped at least in sections.
  • Horizontal support legs with a support height H which absorb the weight of the railing plate are preferably provided on the support part.
  • the support legs preferably form the bottom legs of the at least partially U-shaped or L-shaped support part.
  • the load-bearing height is dimensioned and matched to the height h of a floor leg of the sliding part, which is at least partially U-shaped or L-shaped, so that when the railing plate is inserted into the railing plate receptacle, the sliding part does not support any weight of the railing plate and therefore remains largely load-free and can be displaced longitudinally.
  • Such support legs are preferably provided on both sides at the edge of the U-shaped support part, i.e.
  • the sliding part preferably has at least one recess on the underside accommodates the at least one support leg on the support part in at least one displacement position.
  • the support part and the sliding part preferably interact in such a way that the support legs on the support part can move into the recess on the sliding part when the sliding part is moving into the displacement end positions.
  • the sliding part is not formed by two identical parts, but by two differently designed parts that interlock in a form-fitting manner at least in the longitudinal direction of the railing.
  • a first part of the multi-part sliding part can be L-shaped and a second part can be plate-shaped.
  • the plate-shaped second part of the sliding part at its edge pointing downwards when positioned as intended in the railing plate receptacle, can form-fit with the free edge of the horizontal leg of the L-shaped first part of the sliding part, which preferably reaches under the railing plate on the underside, at least as seen in the longitudinal direction of the railing to be engaged.
  • a tool attachment for attaching a tool to the plate-shaped second part of the sliding part is preferably provided, so that the first part is dragged along on the other side of the railing plate via this part.
  • a tool attachment for a displacement tool can be formed on the sliding part, which is also accessible when the railing plate is inserted as intended into the railing plate receptacle.
  • This tool attachment is preferably designed in such a way that it can interact with the same tool that is also used as a twisting tool for a clamping device.
  • One and the same tool is preferably used both as a displacement tool and as a twisting tool.
  • the system therefore has at least one sliding part with a tool attachment and a clamping device with a tool attachment, with the tool attachments on the sliding part and on the clamping device being designed in such a way that a tool assigned to the system with the identical tool part as well as a displacement tool with the tool attachment provided on the sliding part as well as a twisting tool to be brought into engagement with the tool attachment provided on the clamping device when the railing plate is used as intended.
  • a particularly advantageous embodiment of the inclination adjustment system provides a clamping device that applies the clamping force for fixing the railing plate, which is assigned to the support part or the sliding part in such a way that a change in the vertical inclination of the inner contact side results in a corresponding change in the alignment of the railing plate that is effective when the railing plate is clamped Clamping surfaces of the clamping device leads.
  • the clamping device Via the support part, which is preferably designed as a support part that cannot be displaced when the railing plate is inserted, the clamping device can also be positioned in a stationary manner for receiving the railing plate, without the clamping device being displaced when the sliding part is displaced.
  • the clamping device may be associated with the sliding part, in particular to be accommodated in a receptacle arranged in the sliding part, preferably open at the top, and for the clamping device to move with the sliding part when it moves.
  • a system for holding railing panels in which the clamping surface vertical inclination of a clamping device to be attached to the clamping side of the railing panel adapts to a vertical inclination adjustment of an inner contact side of the system located on the other side of the railing panel, can also be achieved without a longitudinally displaceable sliding part if a first System component that forms the inner contact side and a second system component that forms the support surface, on the vertical inclination of which the vertical inclination of the clamping surface is oriented, coupled to one another or even formed in one piece in such a way that the vertical inclination adjustment of the inner contact side also entails a corresponding vertical inclination adjustment of the support surface, on which the clamping device is supported.
  • the clamping device is assigned to the support part, it is preferably held stationary relative to the support part when the sliding part is longitudinally displaced in the longitudinal direction.
  • the clamping device is in engagement with the support part, so that the clamping device is held stationary to the support part and thus stationary in the railing plate receptacle when the sliding part is moved in the longitudinal direction of the railing.
  • the intervention if it is designed in such a way that it allows the effective clamping surfaces of the clamping device to be pivoted together with the change in the vertical inclination of the inner side of the system, or the assignment of the clamping device to the sliding part, that also corresponds to the change in the vertical inclination of the inner side of the system the vertical inclination of the effective clamping surfaces of the clamping device changes.
  • the inner contact side is formed by the sliding part and the part of the sliding part forming the inner contact side is guided behind the clamping device on the side of the clamping device facing away from the railing plate.
  • the clamping device is gripped from behind in such a way that when the sliding part is longitudinally displaced, the change in the vertical inclination of the inner contact side is transmitted at least indirectly to the clamping device.
  • a guide surface is formed on the side of the clamping device facing away from the railing plate, on which a guide surface on the sliding part facing the railing plate sweeps past when the sliding part is moved.
  • the guide surfaces that contribute to changing the vertical inclination are on the side of the sliding part that faces the railing plate side and on the side of the clamping device that faces away from the railing plate.
  • the clamping device itself thus forms a support part or, in other words, the clamping device is part of a support part on the clamping side.
  • This configuration in which the clamping device itself acts as a support part, is particularly useful if a first support part, which forms the outer contact side, is arranged on the side of the railing plate that is not the clamping side, and only on the clamping side of the railing plate a holding part is provided, which is set up to hold the clamping device in place in the longitudinal direction of the railing when the sliding part is moved to adjust the vertical inclination of the railing plate, without the holding part simultaneously forming an inner or outer contact side.
  • An advantageous embodiment provides that the first support part provided on one side of the railing plate is guided under the railing plate and forms the retaining part on the other side of the railing plate, in particular on the clamping side.
  • the support provided on one side of the railing plate and the holding part provided on the other side of the railing plates can therefore be formed by a single component which reaches under the railing plates and is preferably at least partially U-shaped.
  • the clamping device can be formed by a simple clamping wedge that is to be driven into a clamping gap that is formed between the railing plate and the clamping force-supporting inner surface of the railing plate receptacle.
  • the component limiting the clamping gap on the side of the clamping wedge facing away from the railing plate can in particular be an inner side of the sliding part pointing towards the railing plate, the vertical inclination of which also adjusts when it is displaced corresponding to the inclination adjustment of the inner contact side.
  • the clamping device is preferably formed by a rotary wedge system with a first clamping part and a second clamping part, which interact in such a way that a displacement of one clamping part relative to the other clamping part from a mounting orientation into a clamping orientation for generating the clamping force increases the effective clamping width of the clamping device causes one clamping part and the other clamping part to be rotated relative to one another when the clamping device is arranged within the clamping gap in order to generate the clamping force.
  • Such a clamping device is in the German utility model application DE 20 2017 105 698 described in detail, the disclosure of which is made the subject of this application with regard to the design of the clamping device and a twisting tool that can be used to actuate the clamping alignment and that can also be used as a displacement tool in view of the invention described here.
  • the order of arrangement between the railing plate surface and the inner surface of the railing plate receptacle can be freely selected.
  • the clamping device can be supported with the side facing away from the railing plate also on the inner surface of the railing plate receptacle and with the side facing the railing plate on the sliding part or the support part.
  • the clamping device forms a guide surface on the side facing away from the railing plate, which is in direct or indirect contact with the guide side of the sliding part facing the railing plate and with this a guide surface pairing that determines the vertical inclination adjustment forms.
  • the components used to limit the clamping gap on both sides are preferably selected such that the clamping gap geometry does not change as a result of the longitudinal displacement of the sliding part.
  • the vertical legs forming the contact sides and guide sides of the support part and/or sliding part preferably have a lattice-like structure.
  • figure 1 shows an all-glass railing system with a tilt adjustment system for adjusting the vertical tilt of the railing plate 1 in an exploded view.
  • a railing plate 1 is inserted into a railing plate receptacle 2 formed by an extruded floor profile, with a sliding part 3 and a supporting part 4 reaching under the railing plate.
  • a clamping device 5 is provided for clamping the railing plate 1 in the railing plate receptacle 2 .
  • a tool 6 that can be used for various purposes in the inclination adjustment system shown - both use as a displacement tool for displacing the sliding part 4 and use as a twisting tool for twisting a clamping part of the clamping device 5 is possible with the same tool when the railing plate is inserted as intended into the railing plate receptacle shown in dashed lines in two different positions of use.
  • Figure 2a shows the support part 4 in a perspective individual view and Figure 2b shows the support part in a front view directed towards the end face.
  • the support part 4 has a cross-sectional structure that is at least partially U-shaped and has two opposite vertical legs 74 with a lattice-like structure and also forms a horizontal bottom leg 84 at each of its two outer ends, which with its load-bearing height H ( figure 3 ) serves as a support leg to absorb the weight of the railing plate within the railing plate holder.
  • figure 3 illustrates the construction of the support part 4 from two axisymmetric identical parts, which can be brought into engagement with one another by means of engagement means that correspond to one another.
  • Figure 4a shows the sliding part 3 in a perspective individual view and Figure 4b shows the sliding part in a front view directed towards the end face.
  • the sliding part 3 also has a structure that is at least partially U-shaped in cross section, with two vertical legs 73 and a horizontal bottom leg 83 .
  • the bottom leg 83 is broken through by recesses 9, into which when the sliding part 3 is moved in the direction of two end positions ( Figures 7b and 7c ) the supporting legs of the support part can retract.
  • the resulting contact between the sliding part and the supporting part forms a neutral center position on both sides ( Figure 7a ) End stops that limit the displacement path of the sliding part in relation to the support part.
  • FIG figure 5 Finally, FIG figure 1 Apparent clamping device 5, as it can be inserted into the railing plate receptacle before the intended use of the railing plate.
  • the vertical legs 73 of the sliding part on the outside and the vertical legs 74 of the support part 4 on the inside form or span corresponding guide surfaces 113 and 114 .
  • these guide surfaces are wound helically or spirally with a very high pitch, so that the vertical inclination of the inner sides of the vertical leg 73 of the sliding part 3 changes when it is in the railing direction or in the longitudinal direction L ( figure 5 ) is moved within the support part 4 is changed.
  • the outside of the vertical leg 74 of the support part which is placed against the inner surface of the railing plate receptacle when the inclination adjustment system is used as intended, thus forms an outer contact side 13 of the inclination adjustment system that retains its vertical inclination even when the sliding part is displaced. Due to this interaction of sliding part and support part or their interacting guide surfaces 113 and 114, a vertical inclination adjustment of the inner contact side pointing to the railing plate and determining its vertical inclination does not affect the vertical inclination of the outer contact side supported against the railing plate receptacle. The two sides of the system are decoupled from each other and are therefore able to lay flat against the adjacent component regardless of the vertical inclination of the railing plate.
  • the inclination adjustment system is in a neutral or middle position, in which the vertical inclination of the railing plate is 0° to the vertical or 90° to the horizontal.
  • the sliding part 3 is arranged in the middle relative to the supporting part 4 . If the sliding part is shifted to the right relative to the supporting part ( Figure 7b or 8b), the inner contact side 12 of the sliding part 3 (which is in the Figures 7a-c and 8a-c in the illustrations on the left, in each case from the left on the inner side of the sliding part lying against the railing plate) increasingly to the left (counterclockwise).
  • Figures 6a-6d show the clamping device 5 used in a preferred embodiment figure 5 It can be seen that on the clamping device 5 there is an engagement extension 14 which serves to engage in the support part 4 and by means of which the clamping device 5 can be attached at least in the vertical direction to a vertical leg 74 of the support part 4 can be arranged or hung therein.
  • the vertical leg 74 has a receptacle in the form of a recess that is matched to the engagement extension 14 .
  • figure 5 also shows, as otherwise also Figures 7a-c that a vertical leg 73 of the sliding part 3 is guided behind the clamping device 5 arranged on the support part 4 .
  • the effect of this is that the inclination adjustment of this vertical leg, which slides past the rear of the clamping device during the longitudinal displacement of the sliding part, is transferred via the rear of the clamping device, which rests firmly against the inside of the vertical leg when the railing plate is fixed as intended, to the front clamping surface of the clamping device.
  • the inclination adjustment system is thus able to adapt to the change in the clamping gap geometry on the part of the clamping device that is associated with the change in the vertical inclination of the railing plate.
  • Figures 6a-d also clarify the functionality of the in figures 1 and 5 shown clamping device 5.
  • a preferably disc-shaped first clamping part 16 facing the railing plate acts with wedge surfaces 18 formed on its rear surface (the surface that faces away from the railing plate) with corresponding wedge surfaces which are formed on the surface of the second clamping part 17 facing the railing plate, together in such a way that rotating the first clamping part relative to the second clamping part causes an increase in the clamping width of the clamping device and thus the application of a clamping force.
  • Figure 6a shows that same tool that in figure 5 serves as a displacement tool for the sliding part and can be attached to the tool attachment 103 provided on the sliding part, and can also be attached to the tool attachment 105 provided on the clamping device 5 .
  • Both the tool attachment 103 provided on the sliding part and the tool attachment 105 provided on the clamping device 5 can also be reached with the tool when the sliding part 3 and clamping device 5 are arranged as intended in the railing plate receptacle with the railing plate also being inserted into the railing plate receptacle.
  • Such a design for at least one side of the railing plate is in the Figures 11a until 12c shown, with the added feature here that on the side of the railing plate that is not the clamping side, a plate carrier that absorbs the weight of the railing plate is provided as the first support part 4', which with its outer side 13 facing the inside of the railing plate receptacle is the outer contact side forms, while a first part 3' of a multi-part sliding part forms the inner contact side 12.
  • the guide surface pairing 114/113 determining the vertical inclination adjustment is formed by the first part 3' of the multi-part sliding part and by the first support part 4' functioning as a plate carrier.
  • a second part 3" of the sliding part forms the outer contact side 13 while a clamping device 5 also acts as a second support part 4" or while a clamping device 5 is formed on a second support part 4" and forms the inner contact side 12
  • the first support part 4' acts on the clamping side only as a holding part, which secures the second support part 4" forming the clamping device 5 against displacement in the longitudinal direction of the railing plate and holds it at a defined height within the clamping gap.
  • the guide surface pairing 113/114 that determines the vertical inclination adjustment is thus formed by the second part 3" of the multi-part sliding part and a clamping device 5 that simultaneously functions as a second support part 4".
  • the guide surface pairing 113/114 between the first support part 4' and the first part 3 ⁇ of the multi-part sliding part specifies the inclination adjustment that results from sliding the sliding part 373" opposite
  • the guide sides 113 on the first part 3 ⁇ of the multi-part sliding part and 112 on the first supporting part 4 ⁇ which face one another and form the guide surfaces, slide off one another when the sliding part 3'/3" is moved, changing the vertical inclination.
  • the first part 3 ⁇ of the sliding part forms the inner contact side 12 and the first support part 4 ⁇ the outer contact side 13.
  • corresponding guide members On the guide side of the first support part 4' and on the guide side of the first part 3' of the sliding part and also on a horizontally aligned leg of the first, partially L-shaped support part 4' and on a horizontally aligned leg of the first, partially L-shaped part 3' of the sliding part, corresponding guide members (guide groove 19 and guide extension 20) are formed, which ensure that the sliding of the sliding part 373" relative to the first support part 4', which absorbs the weight of the railing plate, and the parts do not cant against one another.
  • base legs 84 are provided on the support part (here on the first support part) to absorb the weight of the railing plate.
  • Figure 11a and Figure 11b also show that on the clamping side of the railing panel, i.e. on the side on which the clamping device 5 to be actuated to fix the railing panel is provided, a second part 3" of the multi-part sliding part is provided. Unlike on the other side of the railing panel, this forms second part 3" of the sliding part on the clamping side, the outer contact side 13.
  • the guide surface pairing 113/114 determining the vertical inclination adjustment when the sliding part 373" is moved is on the side of the second part 3" of the sliding part pointing towards the railing plate and the side of the sliding part pointing away from the railing plate Clamping device 5 formed.
  • the clamping device 5 thus forms a second support part 4" on the clamping side itself, or is a component thereof.
  • spring-loaded snap-in fingers 23' are provided on the first support part 4 ⁇ , which acts as a holding part on the clamping side, and lie over snap-in edges 23" provided on the clamping device 5 or on the second support part 4" when the clamping device is placed on the holding part.
  • Figures 12a-c clarify - analogous to the representations in Figures 7a-c and Figures 8a-c - the mode of operation of the inclination adjustment system based on different positionings of the multi-part sliding part 373" relative to the first support part 4 ⁇ or relative to the clamping device 5 forming the second support part 4".
  • the sliding part 3 ⁇ /3" is in a neutral central position.
  • the handrail plate 1 is not inclined in relation to the handrail plate holder 2. If the sliding part is to the right in the in Figure 12b shifted from the position shown, the railing plate 1 inclines, as can be seen from the illustration on the left in Figure 12b seen, counterclockwise to the left. If, on the other hand, the sliding part is turned to the left into the in Figure 12c shifted from the position shown, the railing plate 1 inclines, as can be seen from the illustration on the left in Figure 12c visible, clockwise to the right.
  • an adjustment of the inclination adjustment system to a change in the gap geometry resulting from an inclination adjustment of the railing plate does not have to take place on both sides of the railing plate. It may be sufficient to provide this on one side of the railing plate.
  • a clamping device that compensates for the change in the gap geometry is then preferably used.
  • the inner contact side does not necessarily have to be in direct contact with the railing plate and the outer contact side does not necessarily have to be in direct contact with an inner lateral support surface of the railing plate receptacle.
  • Other system components can also be arranged between the inner contact side and the railing plate and/or between the outer contact side and the inner lateral support surface of the railing plate receptacle, such as protective inserts made of soft plastic or rubber or similar intermediate parts that close the gap between the inner contact side and the railing plate surface or between the outer contact side and the inner lateral Bridge the support surface of the railing plate mount.

Landscapes

  • Engineering & Computer Science (AREA)
  • Architecture (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Bridges Or Land Bridges (AREA)
  • Steps, Ramps, And Handrails (AREA)
  • Control And Safety Of Cranes (AREA)
  • Paper (AREA)
  • Body Structure For Vehicles (AREA)
EP18195667.3A 2017-09-20 2018-09-20 System zur ausrichtung von geländerplatten Active EP3460141B1 (de)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
DE202017105703.8U DE202017105703U1 (de) 2017-09-20 2017-09-20 System zur Ausrichtung von Geländerplatten

Publications (2)

Publication Number Publication Date
EP3460141A1 EP3460141A1 (de) 2019-03-27
EP3460141B1 true EP3460141B1 (de) 2023-06-07

Family

ID=61167254

Family Applications (1)

Application Number Title Priority Date Filing Date
EP18195667.3A Active EP3460141B1 (de) 2017-09-20 2018-09-20 System zur ausrichtung von geländerplatten

Country Status (4)

Country Link
EP (1) EP3460141B1 (da)
DE (1) DE202017105703U1 (da)
DK (1) DK3460141T3 (da)
ES (2) ES2954304T3 (da)

Families Citing this family (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE102016112775B3 (de) * 2016-07-12 2017-10-05 Bohle Ag Vorrichtung zum Befestigen eines plattenförmigen Bauteils in einer Aufnahmenut einer Tragschiene
TR201819875A2 (tr) * 2018-12-19 2019-02-21 Besan Metal Insaat Taahhuet Sanayi Ve Dis Ticaret Ltd Sirketi Profi̇ller i̇çi̇n cam montaji terti̇bati
IT201900019988A1 (it) * 2019-10-29 2021-04-29 Logli Massimo S P A Supporto per pannello con bloccaggio laterale
SK582021A3 (sk) 2021-08-10 2024-05-09 Ing. Lacko Vladimír Naklápací upínací systém
SK442022A3 (sk) 2022-05-02 2024-05-22 Lacko Vladimir Ing Naklápací posuvný systém
DE202022104866U1 (de) 2022-08-29 2022-10-12 Onlevel Holding Bv Zweiteiliger Klemmkeil mit Positionssicherung
DE202022104870U1 (de) 2022-08-29 2022-10-11 Onlevel Holding Bv Glasträgerelement mit montageseitig und fallseitig verschiebbaren Innenkeilen
DE202022104868U1 (de) 2022-08-29 2022-10-12 Onlevel Holding Bv Fallseitige Komponente eines Glasträgerelement mit unabhängiger montageseitiger Einstellung und Fixierung
DE202022104871U1 (de) 2022-08-29 2023-03-01 Onlevel Holding Bv Glasträgerelement mit variablem Schenkelboden
DE102022121809A1 (de) 2022-08-29 2024-02-29 Onlevel Holding Bv Auf mehr als einer Ebenen verstellbares Glasträgerelement für Glasgeländerplatten mit einer Positionssicherung für einen eingebrachten Glaskeil

Family Cites Families (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE202013104330U1 (de) 2013-09-22 2013-10-21 Onlevel B.V. Fixiersystem für Glasgeländer
DE202015106963U1 (de) * 2015-12-21 2017-03-22 Mogla-Tech Ag Glasgeländer-Halteanordnung und Keil-Profilteil zur Verwendung in einer solchen Anordnung
DE102016007268A1 (de) * 2016-06-15 2017-12-21 Klaus Peter Abel Vorrichtungen und Verfahren zur Einstellung der Vertikalneigung von Geländerplatten
IL247757B (en) * 2016-09-11 2020-11-30 Tomak Ltd System and method for aligning a panel
DE202017105698U1 (de) 2017-09-20 2017-12-21 Q-Railing Europe Gmbh & Co. Kg System zum Fixieren von Geländerplatten

Also Published As

Publication number Publication date
ES1220344Y (es) 2019-02-08
DK3460141T3 (da) 2023-09-11
DE202017105703U1 (de) 2018-01-24
ES2954304T3 (es) 2023-11-21
ES1220344U (es) 2018-11-13
EP3460141A1 (de) 2019-03-27

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