EP1854955A2 - Paroi de séparation comprenant un élément en verre sans cadre - Google Patents

Paroi de séparation comprenant un élément en verre sans cadre Download PDF

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Publication number
EP1854955A2
EP1854955A2 EP07009297A EP07009297A EP1854955A2 EP 1854955 A2 EP1854955 A2 EP 1854955A2 EP 07009297 A EP07009297 A EP 07009297A EP 07009297 A EP07009297 A EP 07009297A EP 1854955 A2 EP1854955 A2 EP 1854955A2
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EP
European Patent Office
Prior art keywords
rail
partition
glass
construction
legs
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.)
Withdrawn
Application number
EP07009297A
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German (de)
English (en)
Other versions
EP1854955A3 (fr
Inventor
Karl Dipl.-Ing. Berger
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.)
Bene AG
Original Assignee
Bene AG
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Bene AG filed Critical Bene AG
Publication of EP1854955A2 publication Critical patent/EP1854955A2/fr
Publication of EP1854955A3 publication Critical patent/EP1854955A3/fr
Withdrawn legal-status Critical Current

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    • EFIXED CONSTRUCTIONS
    • E06DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
    • E06BFIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
    • E06B3/00Window sashes, door leaves, or like elements for closing wall or like openings; Layout of fixed or moving closures, e.g. windows in wall or like openings; Features of rigidly-mounted outer frames relating to the mounting of wing frames
    • E06B3/02Wings made completely of glass
    • EFIXED CONSTRUCTIONS
    • E06DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
    • E06BFIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
    • E06B3/00Window sashes, door leaves, or like elements for closing wall or like openings; Layout of fixed or moving closures, e.g. windows in wall or like openings; Features of rigidly-mounted outer frames relating to the mounting of wing frames
    • E06B3/54Fixing of glass panes or like plates
    • E06B3/56Fixing of glass panes or like plates by means of putty, cement, or adhesives only

Definitions

  • the invention relates to a partition wall having at least one wall part, comprising a frameless glass element, optionally a further glass element arranged behind it for forming a two-layered structure, as well as a floor construction and a ceiling construction for holding the glass element or the glass elements.
  • Such non-loadbearing partitions are used, for example, to divide open-plan offices in individual offices and thereby emphasize the vastness of an office space.
  • a generic partition is from the WO 2004/038151 A known. This is made of glass and comprises at least two frameless side parts, which are held on the floor and a ceiling construction and at least one frameless glass element, which is held on the two side parts and on the ceiling construction. For attachment, it is proposed in this WO-A that these glass elements are fastened with a permanently elastic mass to the ceiling construction or floor construction in a U-shaped profile. As permanently elastic mass acrylic or silicone materials are proposed.
  • the disadvantage is that the permanently elastic masses are associated with a certain curing time, so that the assembly time is limited thereby.
  • Object of the present invention is to simplify the installation of a partition.
  • the one or more glass elements are glued to an outer surface of the floor structure and the ceiling construction.
  • the advantage here is that by bonding with an outer surface, the floor and ceiling construction can be completed in advance and that thus the glass elements must be installed only after completion, the curing time of the adhesive in view of the construction progress no longer plays a significant role , Particularly preferred for bonding a double-sided adhesive tape is used, whereby the curing time is generally eliminated. It can thus be already provided with the adhesive tape, the glass elements, so that a corresponding Vortert Trentistsgrad allows becomes.
  • the bonding with an outer side achieves that the transparency of the dividing wall is increased both in the corridor area and on the room side, since these glass elements face the viewer.
  • the bonding in the surface creates a visually clear, quiet front image that better meets the modern requirements of the architecture.
  • the dividing wall can be formed as a single shell with a glass element or two-shell with two glass elements arranged one behind the other. Accordingly, the following statements relate either to this Einschalmaschine or on the two-egg.
  • the floor construction of the partition wall may have at least one mechanical load transfer element on which the glass element is supported, optionally with the interposition of two so-called glass blocks, in particular in the form of one or two angle rails (s), depending on whether the floor construction is for a single-shell or two-shelled one Partition is provided - is formed with at least one, at least approximately horizontally projecting leg, wherein the or the glass element (s) on the or the leg (s) is supported or supported.
  • This leg is in the manner of a lisse, wherein an end face of the leg can either be formed flush with the outer surface of the glass element or beyond standing or the opposite to spring back.
  • the or the glass elements can be supported spaced from the ground, whereby the floor cleaning, especially the wet cleaning, is easier, and the risk that with cleaning aids, such as vacuum cleaner, is struck on the glass surface or that the Glass surface is smeared in this lower area with wash water or the like., Is reduced.
  • this angle rail it is possible with this angle rail to further increase the degree of prefabrication of the individual wall parts, ie the glass elements, by this profile angle rail, which is a separate part of the floor construction is already glued to the glass element in advance, so when installing the glass element this angle rail only needs to be attached to the further floor construction.
  • the angle profile rail (s) may have an at least approximately hook-shaped leg viewed in cross-section, wherein at least one further part of the bottom construction may or may have at least partially one or two groove-like recess (s) and wherein the or the at least approximately hook-shaped legs engage or engage in the groove-shaped recess (s).
  • the one or more hook-shaped legs are formed on the back of the angle rail, ie on that side of the angle rail (s), which faces in the direction of the further floor construction and the surface on which the above first leg for holding the or the glass element (e) is located opposite.
  • this glass element with the angle rail only needs to be hooked or clipped into the further part of the floor construction without requiring further assembly steps, such as e.g. the screwing of the angle rail, etc. are necessary.
  • this floor construction has a securing element which is connected to a part of the floor construction and of which a part in the installed state at least partially overlapping with the or the hook-shaped leg ( n) is arranged.
  • this securing element can also be embodied in the form of a pure cover element, if the pure gravity securing over the hook-shaped limb is sufficient. In this case, an insight into the interior of the floor construction and a possible risk of injury is avoided.
  • the covering or securing element can be held pivotably on the floor construction, so that it is possible to install this covering or securing element already before assembly of the glass element or the glass elements on the floor construction.
  • the cover or securing element is operatively connected to a return element, whereby the cover or securing element automatically returns after pivoting it in the starting position, so that this is already immediately after the assembly of the glass element or the glass elements its Function fulfills that no additional handling is required.
  • This return element may for example be a return spring
  • a spring load or the like possible.
  • the ceiling construction can also have one or two angle profile rails, wherein the bonding of the glass element (s) to the angle profile rail (s) is / are arranged.
  • this angle rail already can be pre-mounted on the glass element or the glass elements, so again on the curing time of an adhesive no consideration must be taken or is the installation of this angle rail, for example via an adhesive tape so far simpler perform as this can be done with lying glass element.
  • the ceiling construction can have an at least approximately U-shaped holding element (viewed in cross-section) and one or two at least approximately U-shaped securing element (s) (viewed in cross section), each having a base and two legs each, wherein the further Angle profile rail (s) of the ceiling construction another, at least approximately hook-shaped leg (viewed in cross-section) has or have, and wherein a leg of a securing element at least partially surrounds one of the hook-shaped legs of the angle profile rails and the other leg of the same securing element at least partially surrounds one of the outer legs of the holding element.
  • the ceiling structure may further comprise a first rail with at least approximately U-shaped cross-section with a base and two legs, wherein on the inside of the legs a latching device is arranged, wherein further the ceiling construction, a second rail with at least approximately U-shaped cross section with a base and has two legs and wherein the two legs on the outside have a locking device, which are in operative connection with the latching device of the first rail, wherein the second rail supports a cover rail of the ceiling construction.
  • cover rail with the second rail can be easily inserted into the first rail and is secured due to the locking of the two locking devices against falling. Furthermore, it is thus possible, provided that the locking device of the first rail extends over a larger height range of the legs of this rail, based on the installation position, that in addition this cover rail can be mounted at different heights.
  • the cover rail can be formed pushed onto the second rail, for example via corresponding grooves on the rail or webs, in particular hook-shaped webs on the cover rail, so that the cover rail at any time without problems can be removed, for example, to lead a wiring inside the ceiling construction.
  • the legs of the second rail are formed elastically deformable in their relative position to the legs of the first rail, for example, in which this rail is formed of plastic, and the two legs can be bent towards each other, so that the insertion of this rail is facilitated in the first rail at least in the region of the latching device.
  • the second rail may be formed shorter than the first rail with respect to its longitudinal extent, so that this rail can be arranged at any point within the ceiling structure, for example, to make or arrange corresponding installations inside the ceiling structure.
  • the adhesive tape used may be transparent, so as to further improve the transparency of the entire construction of the partition wall.
  • the adhesive tape is preferably also possible for the adhesive tape to be darkened, in particular black or gray, so that any air bubbles between adhesive tape and metal or plastic profiles arranged behind the glass element, for example an aluminum profile, may also occur later can not or only to a small extent become visible to the viewer.
  • the dyeability of the adhesive tape can be adapted to a Därbmaschine of the glass element.
  • the partition itself may consist of several individual wall parts, in which case the ceiling construction and / or the floor construction at least over the length of several the plurality of wall parts continuously, ie, can extend integrally or can, whereby leveling work in the field of floor construction or ceiling construction are simplified.
  • An adhesive tape may also be arranged between the glass element of two juxtaposed wall elements in order to fill the gap, or a silicone joint may be arranged in this area. It is thus also achieved a lateral cohesion of the frameless glass elements and thus a higher stability of the partition.
  • the glass elements can be formed at least approximately floor to ceiling, so that it is possible to dispense with additional transverse elements in the region of the basic construction of the partition wall, for example transverse frames. It is thus not only the design effort lesser, but also increases the transparency, whereby the light flooding of the entire office space in which these partitions are placed, is not additionally impaired.
  • the width of the wall elements is designed in module-related module dimensions, so that therefore the entire partition wall can be modularly constructed. It is thus possible interchangeability of individual modules if necessary, for example, in which they are assembled differently than originally arranged. Building module dimensions are understood to mean that the individual modules, i. whose width, calculated from the total width or total length of the partition.
  • An approximately room-high door element or a door element with skylight can be arranged between two wall elements, wherein this door element can be designed as a revolving door or as a sliding door. It is thus possible to use the partition according to the invention not only as a room divider per se, but to enclose complete spaces with it.
  • the revolving door may have a door frame and a door leaf, wherein an outer surface of the door frame is at least partially covered by the door leaf, so that this door harmoniously integrated into the overall concept of the partition.
  • a door frame of the revolving door can be arranged on a glass element adjacent to the revolving door be, with the door frame at least largely from this glass element outside, ie flurist covered.
  • the sliding door may have at least two rollers on the back, which are guided in a recess of a rail which is fastened to the skylight and an adjacent glass elements of another wall part or the ceiling construction, whereby it is possible to arrange either an adhesive tape in the region of these rollers or to provide this area with a corresponding imprint, in particular a non-transparent imprint, so that the roles for the viewer from the outside are not or hardly visible. It is further achieved by these roles a smooth running of the sliding door.
  • the sliding door may have a bottom-near end rail, which is glued to a door leaf of the sliding door, in particular with an adhesive tape, wherein the door leaf at least partially covers the end rail, whereby a corresponding protection of the door leaf is achieved in the lower region near the bottom. It is also possible here a corresponding pre-assembly of this end rail.
  • At least a linear damper can be arranged on the rear side of the door leaf of the sliding door, which dampens the linear movement of the sliding door in an end area or stop area, whereby on the one hand the comfort in handling the sliding door is increased, but on the other hand an unintentionally strong striking of the sliding door in the end stop avoided and thus the possibility of destruction of the glass elements is reduced.
  • the linear damper is located at the level of the rollers or the end rail, so that it is not visible from the outside and thus the overall picture of the partition is not affected or can be ensured that at a tilting of the door anyway the Damper in the end position strikes.
  • This consists of wall parts 2, which in turn, in turn, a gas element 3, a bottom structure 4 and a ceiling structure 5 for holding the glass element 3 have.
  • the partition 1 is designed to be room-high, so that this partition 1 can be used to divide a larger room into individual rooms or for the separation of areas as a room divider, etc.
  • the glass elements 3 may be formed by a safety glass known from the prior art and this glass may also have a coloring. It consists, for example, of 10 mm, 12 mm or 16 mm thick glass panes and these glass elements 3 are made of toughened safety glass or laminated safety glass, optionally with improved acoustics.
  • a door element 6 can also be arranged between two wall parts 2.
  • This door element 6 can also be designed in glass construction or are also so-called Vollbauten possible, as they are known from the prior art, for example, solid wood doors or doors with veneer or melamine plate coating.
  • the glass thickness itself can also be selected in other dimensions than those mentioned.
  • the partition wall 1 may be formed in a double-shell design, wherein successively two glass elements 3 are arranged which are fixed to respective opposite surfaces of the floor structure 4 and the ceiling structure 5.
  • the partition wall 1 can also be formed as a single shell with only one glass element 3.
  • the glass element 3 or the glass elements 3 are adhesively bonded to an outer surface 7 of the floor construction 4 and the ceiling structure 5, as can be seen in FIGS. 4 and 5. Both the floor construction 4 and the ceiling construction 5 are formed in several parts in the illustrated and described embodiment of the invention.
  • the glass element 3 is shown spaced from the bottom 8 and the ceiling 9 of a room, it is of course possible within the scope of the invention, the glass element 3 at least approximately up to the ceiling 9 and on the floor 8 training to train.
  • a double-sided adhesive tape 10 is used as the adhesive, which is arranged between the glass element 3 and the surface 7 of the ceiling construction 5 or floor construction 4.
  • adhesive tape 10 e.g. Any adhesive tape is used which is suitable for the bonding of glass with metal profiles, in particular aluminum, or plastic profiles.
  • the bottom construction 4 consists in the simplest case of a one-piece rail, on the outer surface 7, the glass element 3 is adhered.
  • a multi-part floor construction 4 is used.
  • this floor construction 4 in the preferred embodiment for mechanical load transfer has an angle profile rail 11 which is connected directly to the glass element 3.
  • This angle rail 11 has in the lower third - based on the distance to the bottom 8 - an at least approximately horizontally projecting angle 12, on which the glass element 3 is supported.
  • This angle 12 can be arranged in the end region of the angle rail 11 or at any distance to this end region, which is the bottom 8 closest, as shown in FIG. 4 can be seen. It is thus a load transfer of the glass element 3 allows this angle 12, so that so the surface bonding is relieved with the tape 10. By this spaced support of the glass element 3, this is better protected from damage in the region of the bottom 8, as already stated.
  • angle rail 11 may also be another suitable load transfer can be used, on which the glass element 2 is supported.
  • load transfer elements can be used, wherein one leg of the hook engages around the glass element on the outside. It can also load transfer elements with curved surfaces are used, or in general arbitrarily formed, suitable profile elements.
  • glass blocks 13 may be arranged, wherein per glass element 3 two glass blocks 13 are used to replace a linear two-point support of the To allow glass element 3.
  • the ceiling 9 (Fig. 1) facing end portion 14 may be formed at this angle rail 11 also has a leg 15 which is arranged in the opposite direction to the angle 12 and facing away from the glass element 3.
  • An end portion 16 of the leg 15 is formed hook-shaped.
  • this hook-shaped legs 15 it is possible to hook the angle rail 11 in a further part of the floor structure 4. It is thus achieved a hold of the angle rail 11 in the floor construction 4, wherein on additional fasteners, such. Screws or the like can be dispensed with, since the holder is made via this hook-shaped end portion 16.
  • this hook of the leg 15 engages in a device 17 for height leveling of the partition wall 1, in particular a groove-shaped recess 18 which is formed in a second leveling carriage 20 arranged above a first leveling carriage 19.
  • this second leveling carriage 20 may be a profile with a U-shaped cross section, but this second leveling carriage 20 preferably has a central area 21 which projects beyond the outer side walls 22 which point onto the angle profile rail 11. It is thus this groove-shaped recess 18 is formed, in which the hook-shaped leg 15 of the angle rail 11 engages.
  • Both the first lower leveling carriage 19 and the second upper leveling carriage 20 each have an inclined plane 23, which slide on each other.
  • this inclined plane 23 is formed by side walls 24, ie their end faces, which are assigned to the upper leveling carriage 20 and by the lower area of the side walls 22 of the upper leveling carriage 20 resting on the side walls 24 of the lower leveling carriage 19.
  • a spindle element 25 is arranged to extend horizontally, which is operatively connected to the second leveling carriage 20.
  • the spindle element 25 is on the one hand rotatably arranged in the first leveling carriage 19 and also rotatably in the second leveling carriage 20. It is thus possible to change the second leveling carriage 20 by rotating the spindle element 25 in its relative position relative to the first lower leveling carriage 19. The change looks in such a way that thereby lowering or canceling the partition wall 7 or the wall part 2 and the glass element 3 via the hinged angle rail 11 by this change, the relative position of the two leveling slides 19, 20 to each other.
  • the spindle element 25 is designed as a threaded screw, for example as a machine screw, and can be provided with a hexagon head for engaging a wrench or the like at one end, which is supported, for example, by the lower leveling carriage 19.
  • This end of the threaded screw, i. the hexagonal head may protrude beyond an end portion of the lower leveling carriage 19, seen in the vertical direction, so as to provide better accessibility to the rotation of the threaded screw, i. of the spindle element 25, to allow.
  • a first cylindrical holding element with a continuous bore can be arranged on the first, ie upper leveling carriage 20, wherein the internal thread for the engagement of the spindle element 25 is formed on the inner wall of this continuous bore. Since due to the change in the relative position of the two leveling carriage 20 and the inclination of Spindle element 25 changes, it is advantageous if this cylindrical support member is rotatably disposed on the second leveling carriage 20, so that tilting of the spindle member 25 as a result of the movement of the two leveling slides 19, 20 is avoided by the rotation of this cylindrical holding element.
  • the second holder of the spindle element 25 on the first leveling carriage 19 can also be a cylindrical holding element 26 of this type.
  • This can be formed like the first roller-shaped, in which case a recess for holding the spindle element can be arranged in this case.
  • This recess can in turn be designed as a continuous bore, in which case the inside of this bore has no thread, so that the spindle element 25 is loosely held in this bore. Accordingly, this bore preferably has a larger diameter than the spindle element 25 has.
  • this second support member 26 is preferably rotatably supported on the lower leveling slide 19, to again 26 different tendency of the spindle member 25 to compensate better by rotation of this holding element and to be able to make adjustments to the tilting of the spindle element 25 to avoid.
  • Both the first retaining element and the second retaining element 26 may be received, for example, by webs 27, 28 which have at least approximately semicircular recesses. This makes it possible to arrange the first holding element and the second holding element 26 by simply clipping in these recesses.
  • the spindle element 25 has a correspondingly fine, in particular stepless, tuning possibility of height adjustment due to the pitch of the thread.
  • these webs 27, 28, on which the holding element 26 is arranged, and at least over a large part of the length of the leveling slide 19 may be arranged to extend, wherein between these webs and the side walls 24 further, transverse webs for connecting these webs 27, 28 may be formed with the side walls 24.
  • the leveling element formed with these components is preferably arranged in a profiled rail 29, which is mounted on the floor 8. It is thus achieved a greater lateral stiffness. In addition, it is thus possible to mount the rail regardless of bumps in a first step on the floor 8, since the subsequent height compensation via the leveling element.
  • At least partially to arrange at least partially sealing tape 30 between the bottom and the rail 29, for example, this may be performed in a longitudinal groove in the rail 29.
  • This sealing strip 30 can be formed from an elastomeric material, for example rubber, in particular a hard rubber or the like.
  • the rail 29 is preferably bolted to the bottom 8.
  • a plurality of leveling elements are arranged to allow a finer tuning of the compensation over the length of the rail 29.
  • two leveling elements are arranged per glass element 11, in particular one each in the region of the glass blocks 13.
  • the partition wall 1 comprises a plurality of wall parts 2 next to one another, it is furthermore possible that the profile rail 29 does not only extend over a module width of the partition wall 1, but that this profile rail extends at least over two wall parts 2 or over the entire length of the partition wall 1 is trained. It is therefore possible that in a rail 29 per partition 1 more leveling elements are arranged, in particular per glass element 3, two such leveling elements, as described, are arranged.
  • a module width of a glass wall 11 may, for example, up to a range of about 150 cm, with this module width can refer to construction-related module mass, ie that the module width, depending on the overall width of the partition 1 can be made equally wide factory. It is thus the exchange of individual modules with each other possible or it is not necessary to pay attention to the sequence of certain modules of the partition 1 during conversion.
  • the first leveling carriage 19 may have an at least approximately U-shaped cross section with a base 31 and two legs 32, 33 connected thereto. At least one of these legs 32, 33, preferably at both, may be secured to an inner surface, i. that surface which points to the spindle element 25, at least in regions, a web 34 may be formed. This ridge is at least approximately parallel to the inclined plane described above, i. at least approximately parallel to the end faces of the legs 32, 33, which are inclined to the bottom 8 extending. Furthermore, a groove-shaped recess 35 can be arranged at least in regions in a lower area of the second leveling carriage 20, preferably such a recess 35 is again formed on both sides of the leveling carriage 20, as can be seen in FIG. The web 33 or the webs 33, 34 engage in this groove-shaped recesses 35, whereby an additional stability of the leveling element by the guidance of the leveling slides 19, 20 results in one another.
  • the web 33 or the webs 33, 34 and optionally a side wall of the groove-shaped recess 35 and the groove-shaped recesses 35 may be hook-shaped, thus allowing a further security of the leveling slide 19, 20 against lateral displacement. This is particularly advantageous when the upper, i. the second leveling carriage 20 is lifted so far that at least a larger area of the side walls of this leveling carriage 20 projects beyond the profiled rail 29, which is fastened to the floor 8.
  • the groove-shaped recess 35 or the groove-shaped recesses 35 can be formed in a lower region of the second leveling carriage in a side wall extension, which down over the inclined plane 23, ie those plane which slide on the end surfaces of the lower leveling slide 19, formed.
  • the side wall extensions can only be over a portion of the horizontal length of the leveling slide 20 be formed running. It is thus possible, this second leveling slide 20 with its lowermost end, ie that end to which the holding element for the spindle element 25 may be arranged, to the base, ie the surface of the base of the rail 29, which also preferably a U shaped cross-section, lower. It is thus possible a larger adjustment of the leveling element.
  • the base 31 of the lower leveling carriage 19 in that end region of the base 31, which is the end region on which the holding element 26 is arranged for the spindle element 25 is formed opposite, two groove-shaped recesses or two openings, so they two side wall extensions of the upper leveling carriage 20 can engage in these groove-shaped recesses.
  • the leveling carriage 20 it is possible to form the spindle member 25 such that, for example in the manner of a Muter-Kontermuteritati on the spindle member 25 and the threaded screw overrun a certain end position is not possible.
  • those portions of the inclined plane 23 of the first and second leveling slides 19, 20 are formed of a lubricious material, e.g. made of polytetrafluoroethylene.
  • the angle rail 11 is attached to the surface of the gas element 3, a the two legs of the U-shaped rail 29 engages and thus the hook-shaped leg 15 is mounted again.
  • the leveling can be done as usual, for example with blocks or wedges or the like.
  • the rail 29 itself is also leveled, so possibly between the bottom 8 and the rail 29, a gap is formed, however, for example Silicone or the like can be filled.
  • the bottom construction 4 preferably has a cover element 36 which, if appropriate, can also be designed as a securing element in order to prevent unintentional unhooking of the glass wall 11 or of the load transfer element.
  • This is connected to a part of the floor structure 4, wherein in the installed state, as can be seen in Fig. 4, at least part of the securing or covering element 36 is formed overlapping with the hook-shaped leg 15 of the angle rail 11. The angle rail 11 is thus secured against unintentional unhooking or sliding down of a leveling element or of the rail 29.
  • the connection of the cover 36 with the further parts of the floor structure 4 is preferably carried out such that the cover 36 is pivotable.
  • the pivoting is preferably carried out about an axis which extends at least approximately parallel to the rail 29.
  • the securing or covering element 36 is operatively connected to a restoring element 37, by means of which, after opening the securing or covering element 36, this is automatically returned to its starting position.
  • the return element 37 forms the above-mentioned center region 21.
  • this restoring element may be formed by a profile which has a base which is formed in its longitudinal extent at least approximately parallel to the rail 29 and wherein the two legs, which are arranged on the base, extending vertically downward towards the bottom 8 are. In Fig. 4 one of the two legs 38 is shown.
  • the securing or covering element 36 may be subsequently screwed to the restoring element 37, for example, but the securing or covering element 36 is preferably designed to be slidable on the restoring element 37.
  • the postponement can, as in 4, by hook-shaped elements 39 on the underside of the securing or covering element 36 or corresponding hook-shaped elements 40 on the upper side of the restoring element 37, wherein the two hook-shaped elements 39, 40 are arranged opposite to each other and thus an engagement of these Elements 39, 40 is possible.
  • these hook-shaped elements 39, 40 are formed to extend continuously on the restoring element 37 or the securing or covering element 39 or, for example, on the surface of the restoring element 37, these hook-shaped elements 40 extend over only a portion of the same ,
  • a triple combination is conceivable, wherein in an edge region, based on the arrangement of the glass element 3 - one of these elements 40 and in the opposite region, two elements 40 are arranged.
  • the automatic recoverability may e.g. be carried out by spring loading of this restoring element 37 by a force is built up by the pivoting of the securing or covering element 36 by the associated expansion of the spring.
  • the securing or covering element 36 may also be arranged spring-loaded even without intermediate arrangement of the restoring element 37, whereby the same purpose is achieved.
  • a rubber band 42 or a rubber ring or the like is arranged, whereby also the pivotability of the return element is made possible.
  • the restoring element 37 can in the embodiment as a profile with a U-shaped cross section on webs of the upper leveling carriage 20, which are formed between its two legs, which are at least approximately parallel to the rail 29, be held.
  • prongs or the like it is possible for prongs or the like to be formed on these webs or cross braces, into which a longitudinal web, ie the longitudinal extension of the profiled rail 29, web formed on the underside of the restoring element 37 intervenes.
  • the securing or covering element 36 may be formed as an angle profile rail, as shown in Fig. 4, wherein the shorter leg - viewed in cross section - at least approximately perpendicular to the floor 8 can be arranged standing.
  • This one of the two legs preferably covers the open area of the floor construction 4, i. the area where no glass element 3 is arranged in a single-shell construction, so that therefore the interior of the floor construction 4 is not visible to the viewer.
  • the corner region of the angle profile rail, i. the securing or covering element 36, as shown in Fig. 4 is reinforced by a strut, so that a deformability of the angle rail is difficult.
  • a sealing element 43 may be arranged in an end region of the securing or covering element 36 in order to obtain a sealing closure to the interior of the floor construction 4.
  • the pivotability of the securing or covering element 36 also has the advantage that this floor construction 4 does not have to be completely dismantled in order to disassemble the glass element 3 if necessary, but that this securing or covering element 36 only has to be pivoted upwards and thus the hook-shaped leg 15 is released, for unhooking the glass element 3. Maintenance work can be carried out so quickly, without having to re-adjust the height must be.
  • a preferred embodiment of the ceiling construction 5 is shown.
  • the ceiling construction can also be used for leveling or to compensate for different room heights, regardless of the floor construction 4.
  • the ceiling construction 5 a first leveling rail 44 and a ceiling profile and a second leveling rail 45, which is designed as a holding part for a cover on.
  • the two leveling rails 44, 45 are formed according to the course of the partition wall 1 in its longitudinal extent.
  • the leveling rail 45 is connected directly to the ceiling 9, for example screwed to it.
  • This leveling rail 45 may e.g. from a metal profile, e.g. made of aluminum.
  • this leveling rail 45 preferably has two groove-shaped recesses 47 in which, at least in regions, at least one sealing strip 48, which can correspond to the sealing strip 30 of the floor construction 4, is arranged.
  • Both the first leveling rail 44 and the second leveling rail 45 each have latching devices 49, 50 on surfaces facing each other. That the first leveling rail 45, which is fixed directly to the ceiling 9, may have this latching device 49 on an inner surface, while the second leveling rail 45, which is held in the first leveling rail 44, has this latching device 50 on the outer surface.
  • the two leveling rails 44, 45 have, viewed in cross-section, a U-shaped cross section, each having a base 51, 52 and legs 53 to 56 connected thereto.
  • the latching devices 49, 50 are thus formed on the inner surfaces of the legs 53, 54 of the first leveling rail 40 and the outer surfaces of the legs 55, 56 of the second leveling rail 45.
  • these locking devices 49, 50 by a toothing - viewed in cross section - formed.
  • the first leveling rail 44 can have this toothing over a larger area of the surface, for example over the entire inner side of the legs 53, 54, in order thus to achieve a greater adjustment range of the height.
  • this latching device 49 is formed on both leg inner sides 53, 54, although a training on only one of the two inner sides is possible.
  • the latching device 50 of the second leveling rail 45 can extend only over a partial area of the surface of the legs 55, 56.
  • the legs 55, 56 may generally be designed to be elastically deformable in their relative position to the legs 53, 54, whereby the second leveling rail 45 can be more easily introduced into the first leveling rail 44 by compressing these two legs 55, 56. Due to the elastic deformability, these legs 55, 56 return to relief back to the starting position and thus press against the legs 53, 54 of the first leveling rail 44th
  • an expansion element 57 is provided in this leveling element.
  • This expansion element 57 is inserted between the two legs 55, 56 of the lower, second leveling rail 45 to press them against the legs 53, 54 of the first, upper leveling rail.
  • the expansion element 57 may further on an outer side web-shaped extensions 58 which engage in groove-shaped recesses 59 on an inner side of the legs, whereby this expansion element is secured against squeezing one hand and on the other hand it is possible to guide the expansion element 57 during insertion.
  • the groove-shaped recesses 59 can be formed by chop-shaped - viewed in cross-section - projections, which assign each other, the legs 55, 56 of the lower leveling rail 45 in the open end region of the U-shaped profile.
  • the second lower leveling rail 45 may be formed shorter than the first upper leveling rail 44, so that it is possible per glass element 3, if necessary, to arrange a plurality of second leveling rails 45 and to lock them to different heights in the first leveling rail 44.
  • at least two or also three, four or five second leveling rails 45 can be arranged per module width of a wall part 2 or glass element 3.
  • this second lower leveling rail 45 has a length of about 20 cm.
  • first leveling rail 44 may extend over a plurality of module widths of the partition 1, i. single wall parts 2, extend.
  • the web or the web-shaped extensions 58 and the groove-shaped recesses 59 it should be noted that it is possible on the one hand to conically taper the groove-shaped recesses over the longitudinal extent of the expanding element, and the wall thickness of the extensions 58 can also be conically increasingly formed, thereby an additional spreading effect or a further increase in the holding force for the expansion element 57 can be achieved.
  • a Angled profile rail 60 may be arranged and glued to the glass element 3, ie its edge, in particular via the adhesive tape 10.
  • the shorter leg of the angle rail 60 - viewed in cross section - extends at least approximately over the glass thickness of the glass element 3. This leg can thereby spaced apart from the glass element 3 to match the visual appearance of that of the floor structure 4
  • a second leg may be formed on the angle rail 60.
  • This can have a hook element 61 on its end region opposite the first leg, which is preferably formed integrally with the angle profile rail 60.
  • This angle rail 60 in turn preferably consists of a metal, in particular aluminum.
  • the second lower leveling rail 45 starting at the two outer sides of the legs 55, 56 in the region of the base 52, likewise has two hook-shaped angle elements 63.
  • the hook element 61 can thus be brought into abutment with the angle element 63, so that subsequently a securing or covering element 64, which in turn can be designed as an angle profile rail and, for example, can be formed.
  • a securing or covering element 64 which in turn can be designed as an angle profile rail and, for example, can be formed.
  • On the inner surfaces of the legs of this securing or covering element 64 corresponding webs may be provided in order to achieve an additional clamping effect with a better grip of the angle profile rail 60 on the angle elements 63.
  • a further profile rail to be provided in the first leveling rail 44 is arranged, said rail may in turn have a U-shaped cross-section.
  • This profile rail can also be shorter than the leveling rail 44, so that this profile rail can be arranged between two lower, second leveling rails 45.
  • This second profile rail like the lower leveling rail 45, may also be designed to be slidable into the second profile rail, this profile rail having on its legs on the outer surface a latching device, for example toothing described above, which engages in the latching device of the first leveling rail 44.
  • the legs of the second leveling rail are elastically deformable in their relative position to the legs of the first leveling rail, so that they can be pushed together for pushing and these return to their original position after pressure relief and thus engage in the locking device of the leveling rail 44.
  • this profile rail it is possible, for example, to form this profile rail with a cross-section whose inside width widens in the direction of the open end region of the legs.
  • the cover member 65 may in turn be formed as an angle rail, as has already been carried out to the floor construction 4, wherein as apparent from a comparison of Figs. 4 and 5, these angle rails can be considered in cross section and thus it is possible with only one profile element both the cover of the floor construction 4, ie the securing or covering element 36 of the floor construction 4, as well as the covering element 65 of the ceiling construction 5 to form.
  • corresponding hook-shaped holding elements 66 may be formed on the outer surface of the base of the profile element, which engage with the corresponding hook-shaped holding elements of the cover 65 on the inside.
  • the adhesive tape 10 can be made transparent in order to increase or not impair the transparency of the entire dividing wall 1.
  • the adhesive tape 10 is darkened is to make any occurring air bubbles in the region of the adhesive tape 10 less visible to the viewer of the partition 1.
  • a plurality of wall parts 2 can be arranged in a partition wall 1.
  • Adhesive tapes can also be arranged between two of these wall parts 2, or at least one adhesive tape, or it is possible to form the impact area as a silicone joint, so that different thick butt joints are possible.
  • the floor construction 4 is now shown for a two-shell construction.
  • the push-on can also be done via hook-shaped holding webs or hook-shaped elements 39, 40, as has already been carried out for single-shell construction.
  • this bivalve design proves to be particularly advantageous if the securing or covering element 36 and optionally restoring element 37 is pivotally mounted on the bottom structure 4, for example, again via said rubber band 42, since in this case the structure of the partition wall 1 is facilitated.
  • the first glass element 3 - of course after installation of the bottom rail or the rail 29 - mount and secure to the ceiling structure 5 via said securing or covering element 64, then the securing or covering element 36 or Abdeckelement 65 (Fig ), wherein these two elements do not have to be postponed in the course of the partition 1, but can be pushed laterally, whereby the assembly is facilitated accordingly, and then the second glass element 3 again hinged after opening the securing or Abdeckides 36 can be secured on the hook-shaped legs 15 and by the folding back of the securing or Abdeckemias 36 below and above only the cover 64 must be postponed.
  • the ceiling construction 5 in a two-shell construction is almost identical to that in a single-shell construction (FIG. 5) with the exception of the covering element 65, which is not formed here as an angle rail but as a flat rail, in particular slide-flat rail.
  • the covering element 65 which is not formed here as an angle rail but as a flat rail, in particular slide-flat rail.
  • both the floor construction and the ceiling construction are at least approximately symmetrical, as shown in FIGS. 6 and 7 show.
  • a door element 6 is arranged.
  • This door element 6 can be between two wall elements 2 - as can be seen from Fig. 1 - are arranged.
  • the door element 6 itself can be room-high or it can be formed with a skylight - as known from the prior art.
  • Fig. 8 shows a possibility of a ground connection for a door element 6 designed as a revolving door, which construction can be used both for the single-shell and the double-shell construction.
  • the door element 6 in this case has a door frame 67, which in turn at the back, i. room inside (based on the separated space), a glass element 3 is glued to this.
  • an upper part of the frame has a projecting leg 68 which extends at least approximately over the entire glass thickness of the glass element 3, corresponding to the angle 12 of the angle profile rail 11 of the floor construction 4 (FIG. 4).
  • the lower area i.
  • a rail element 69 is arranged, which essentially corresponds in its outer surface configuration to the profile rail 29 of the floor construction 4, with the exception that due to the rotatability of the door, this does not rise on the floor 8.
  • a corresponding sealing element or brush element can be arranged between this rail element 69 and the bottom 8.
  • a door frame against which the door frame of the revolving door strikes is preferably arranged on an adjacent glass wall 11 so that it is covered at least largely flur matter of this glass element 11, whereby the observer of the partition 1 in turn mainly the glass wall 11 faces.
  • a variant of the revolving door is shown in which it has a skylight 70.
  • the skylight 70 can according to the above with the not shown in Fig. 9 ceiling construction 5 and the adjoining wall parts 2, ie
  • the revolving door i. its upper door frame 67 is in turn at the rear, i. room inside, glued to a glass element 3, wherein a part of this upper door frame 67 projects beyond the glass element 3, to abut against a stop 71 of the surface 70 connected to the part of the door frame is formed.
  • a corresponding sealing element can be arranged between these two parts.
  • Fig. 10 the upper stop of a revolving door with skylight 70 is shown for a two-shell construction, wherein the second rear glass element 3 of the skylight 70 shorter, i. less high, is formed so that the inside of the door frame 67 is completely visible.
  • 11 and 12 show the lateral frame configurations of the revolving door, wherein these lateral frame parts are in turn glued surface-side superficially with the glass element 3 of the revolving door and against a corresponding stop, optionally formed with sealing element, stop.
  • a part of the door frame 67 is projecting formed in the form of a Lisene.
  • Fig. 11 also shows the arrangement of a handle set for the revolving door.
  • the door element 6 can also be designed as a sliding door, as shown in FIG. 13 for a design with skylight 70.
  • this top light 70 has through holes and, in addition to the guide rail 72 on the space inside back of the skylight 70, a corresponding support rail 73 is arranged, which via fasteners or screws the guide rail 72 is connected to rollers 74 of the sliding door. It is thus a secure grip and a corresponding ease of sliding door allows.
  • the rollers 74 are connected to the door element 6, ie the sliding door, by means of screws 75, which are guided through corresponding bores of the glass element 3 of the sliding door. Of course, the rotation of the rollers 74 is ensured.
  • the guide rail 72 and the retaining bar 73 arranged on the rear extend not only over the skylight 70, but via a wall element 2 arranged next to it in order to move the sliding door, i. to be able to push the door element 6, at least approximately completely, over the wall element 2 arranged next to it.
  • Fig. 14 the embodiment of door element 6 is shown as a sliding door for a room-height variant of the partition 1.
  • this ceiling construction 5 which corresponds to that according to FIG. 5, at the angle profile rail 60, which is connected to the ceiling construction 5 described above, a spacer 76, which may also be formed as a glass element, in the strength of the other glass elements 3 of the partition 1 and the guide rail 72 is arranged for the rollers 74 on the opposite side of this spacer elements 76, wherein the guide rail 72 in this embodiment, the angle rail 60, ie a leg thereof and thus also the spacer element, is formed across.
  • the angle profile rail 60 may have a corresponding web 77 in said upper side of the ceiling 9, which engages in a groove 78 of the cross-section of the guide rail 72 in order to obtain a corresponding securing of the guide rail 72.
  • the angle rail 60 is connected via corresponding holes or outlets in the spacer element 76 directly to the guide rail 72, for example screwed.
  • FIG. 15 shows the bottom connection for a door element 6 designed as a sliding door.
  • a profile with the glass element 3 via the adhesive tape 10, optionally with the interposition of glass blocks 13 between the glass element 3 and a leg 80 of the profile element 79 is arranged.
  • a further part of the profile element 79 is formed projecting beyond the glass element 3 of the sliding door, which forms the lower end of the sliding door.
  • a strip-shaped element 81 is arranged in a wall element 2 arranged next to it in the region of the lower profile element 79 in order to provide a stop for the profile element 79, after which the sliding door is designed to hang freely below to form and thus prevent damage to the opposite wall element.
  • This profile element 79 thus forms the connecting rail for the sliding door.
  • this linear damper which damps the linear movement of an element, too hard a stop of the sliding door can be damped in an end position and thus again damage can be prevented.
  • Fig. 16 shows the formation of a 90 ° node or a 90 ° corner of two abutting glass elements 3 of the partition wall 1. This corner is cut mitred, between the abutting glass elements 3 preferably again an adhesive tape 10 or more adhesive tapes 10th of the type mentioned are arranged. It can of course be formed but also a silicone joint.
  • Fig. 17 shows a possibility of forming a so-called T-terminal. By means of this T-connection, it is possible to separate further spaces within the space separated by the dividing wall 1.
  • the T-connection provides a vertical profile element 82, which is adhesively bonded in each case to a part of the surface with the wall parts 2 arranged next to one another, so that, if appropriate, an expansion joint 83 is formed between these wall parts 2.
  • the profile element 82 is another, at least approximately 90 ° thereto arranged wall element 2, for example, the glass element 3, attached to this profile element 82, for example, inserted into this, wherein the connection via corresponding sealing lips 84 can take place ,
  • a core element 85 may be arranged in the interior of the profile element to improve the acoustic values, for example gypsum fiber boards or foam boards, which may also be glued to the profile element 82.
  • skirt member 86 e.g. Flat rails, are inserted into corresponding groove-shaped recesses of the profile elements 82.
  • the two strip elements 86 may e.g. made of ABS.
  • FIG. 18 shows a possible wall connection for the single-shell construction, whereby this wall takes place via a wall connection element 87.
  • a wall connection element 87 This may for example be a profile rail with a U-shaped cross-section or a corresponding square timber.
  • a profile element 88 is used, which can be arranged on a further surface of the wall connection element 87 on that surface which is the surface - which is formed opposite to the wall -, this profile element 88 may be similar to the profile element 82, as Figs. 17 and 18 show comparative, so that the number of items required for the construction of the partition 1 can be reduced.
  • Each profile element 88 can in turn be glued to the glass element 3 which adjoins the wall via an adhesive tape 10.
  • FIGS. 19 and 20 show the construction of a T-connection or wall connection for the two-shell construction, it being apparent from these figures that the second shell of the wall part 2 is shorter, i.e. shorter, in space. not as wide as flur note, are formed and these glass elements 3 are arranged distanced to the profile elements 82 and 88, wherein for bridging this distance corresponding sealing elements 89 may be arranged.
  • partition wall 1 With the partition wall 1 according to the invention, therefore, an at least largely frameless partition is made possible, which e.g. up to room heights up to 3.30 m without vertical profiles is available.
  • the partition can be realized with the partition a puristic design and a maximum of technical possibilities.
  • the flat surfaces allow for increased transparency.
  • the characteristic lines on the floor and the ceiling are next to the technicality, as described above, and design feature of the partition 1.
  • the partition thus allows maximum transparency and can also meet the requirements of fire protection and increased sound insulation.
  • the visual perception of the glass surface allows the interior designer sophisticated office architecture.
  • the wall elements or glass elements 3 are linearly mounted on the floor or ceiling construction 4,5.
  • the module widths for example, widths in the range between 40 and 150 cm can be realized.
  • the acoustic values can range between 36 dB and 42 or 48 and 50 dB.

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  • Engineering & Computer Science (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Securing Of Glass Panes Or The Like (AREA)
  • Building Environments (AREA)
EP07009297A 2006-05-12 2007-05-09 Paroi de séparation comprenant un élément en verre sans cadre Withdrawn EP1854955A3 (fr)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
AT8212006A AT503532B1 (de) 2006-05-12 2006-05-12 Trennwand

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EP1854955A2 true EP1854955A2 (fr) 2007-11-14
EP1854955A3 EP1854955A3 (fr) 2008-06-04

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EP07009297A Withdrawn EP1854955A3 (fr) 2006-05-12 2007-05-09 Paroi de séparation comprenant un élément en verre sans cadre

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AT (1) AT503532B1 (fr)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP2570561A1 (fr) 2011-09-16 2013-03-20 DEKO loft + vaeg P/S Mur en verre insonorisant intérieur

Citations (9)

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Publication number Priority date Publication date Assignee Title
DE3434406A1 (de) * 1984-09-19 1986-03-27 Gruenzweig & Hartmann Montage Verglasung fuer reinraeume oder dergleichen
DE3602359A1 (de) * 1986-01-27 1987-08-27 Lindner Akustikbau Vorrichtung fuer den aufbau einer trennwand, insbesondere fuer reinraeume
DE9103422U1 (fr) * 1991-03-20 1991-06-20 Promat Gmbh, 4030 Ratingen, De
DE19634391A1 (de) * 1996-08-26 1998-03-12 Dorma Gmbh & Co Kg Bodenverankerung für Flügel einer ortsveränderbaren Schiebeflügelwand aus Isolierglas
DE19634389A1 (de) * 1996-08-26 1998-03-12 Dorma Gmbh & Co Kg Ortsveränderbare Schiebewand
EP1249548A1 (fr) * 2001-04-12 2002-10-16 H & T Raumdesign AG Elément de paroi d'une paroi coulissante
DE20220773U1 (de) * 2002-10-25 2004-03-18 Dorma Gmbh + Co. Kg Beschlaganordnung, insbesondere für Glastüren
EP1596019A2 (fr) * 2004-05-14 2005-11-16 Lindner Ag Assemblage de cloison vitrée
DE102005010823A1 (de) * 2005-03-07 2006-09-14 Joh. Sprinz Gmbh & Co. Kg Glasplatten-Wandbausystem

Patent Citations (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE3434406A1 (de) * 1984-09-19 1986-03-27 Gruenzweig & Hartmann Montage Verglasung fuer reinraeume oder dergleichen
DE3602359A1 (de) * 1986-01-27 1987-08-27 Lindner Akustikbau Vorrichtung fuer den aufbau einer trennwand, insbesondere fuer reinraeume
DE9103422U1 (fr) * 1991-03-20 1991-06-20 Promat Gmbh, 4030 Ratingen, De
DE19634391A1 (de) * 1996-08-26 1998-03-12 Dorma Gmbh & Co Kg Bodenverankerung für Flügel einer ortsveränderbaren Schiebeflügelwand aus Isolierglas
DE19634389A1 (de) * 1996-08-26 1998-03-12 Dorma Gmbh & Co Kg Ortsveränderbare Schiebewand
EP1249548A1 (fr) * 2001-04-12 2002-10-16 H & T Raumdesign AG Elément de paroi d'une paroi coulissante
DE20220773U1 (de) * 2002-10-25 2004-03-18 Dorma Gmbh + Co. Kg Beschlaganordnung, insbesondere für Glastüren
EP1596019A2 (fr) * 2004-05-14 2005-11-16 Lindner Ag Assemblage de cloison vitrée
DE102005010823A1 (de) * 2005-03-07 2006-09-14 Joh. Sprinz Gmbh & Co. Kg Glasplatten-Wandbausystem

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP2570561A1 (fr) 2011-09-16 2013-03-20 DEKO loft + vaeg P/S Mur en verre insonorisant intérieur

Also Published As

Publication number Publication date
AT503532A1 (de) 2007-11-15
EP1854955A3 (fr) 2008-06-04
AT503532B1 (de) 2013-11-15

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