• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The invention relates to a false ceiling, which has parallel and at a distance from each other arranged support profiles (1, 30) which have a downwardly open Einhängenut (4, 32) in which panels (2) hooked with a hook-shaped curved side wall portion from below are. A support profile (1, 30) has on both sides laterally next to the Einhängenut (4, 32) each have a retaining groove (18, 33), in which an element (28, 19), which serves to attach the support profile (1, 30) is anchored. A Abklapphakem (3, 13, 31) which is pivotally connected to the panel (2) and hooked with a the Einhängenut (4, 32) laterally limiting wall is shaped so that the entanglement even during pivoting of the Abklapphakens from the vertical to the horizontal always remains upright.
    公开号:AT515381A2
    申请号:T18/2015
    申请日:2015-01-15
    公开日:2015-08-15
    发明作者:Robert Peer
    申请人:Robert Peer;
    IPC主号:
    专利说明:

    description
    The invention relates to a false ceiling, which has a support profile and hinged panels. Ceilings are often formed by carrying profiles parallel to each other in a, distance from each other in the. Space are arranged and by, panels are attached to each two adjacent support profiles so that they bridge the area between the adjacent support profiles. The support profiles in turn are anchored via a support structure to the overlying raw ceiling and / or lateral walls of the room. Very often, the support profiles have a downwardly open groove, wherein the profile walls, which limit this groove laterally, are curved in the profile of the groove opening in profile view to Nutinneren back. The downwardly open groove is often - and now also in this application - as " hanging groove " designated. The mating panels have at least on two opposite edges upwardly oriented side walls which are curved at its upper end portion in profile view like a hook toward the center of the panel surface. To attach them, the panels are hung on two support profiles which are adjacent to one another such that in each case a hook-like curved profile wall of a support profile hooks with a (in profile view) hook-shaped curved wall of a panel.
    DE 601 03 348 T2 shows a modification of this basic principle. The panels have only on a single longitudinal side on a hook-like curved enclosing wall, on the parallel longitudinal side, the panels have a bordering wall, which is equipped with a locking projection. A panel is hooked to a support profile as described; on the adjacent support profile holds the panel by the said latching projection is there slightly elastic bias of the panel rests. When the frictional connection is released on the locking projection, the panel pivots as intended to the entanglement on the second support profile down without loosening from the second support profile. The construction is easy to install. Disadvantages are that the holding function does not have high security so the panel may only be very light - so may contain, for example, no ceiling heating or ceiling cooling elements and. that a large joint width between adjacent panels must remain to ensure the desired pivoting. Another disadvantage is that the construction in the vertical direction applies high, as from the base surface of the groove in the support profile of a wall for the purpose of mounting the support profile projects upwards and since the enclosing walls of the panels must be quite high, otherwise the required elastic Deformability is not achievable.
    In a widespread modification of the basic principle mentioned at the beginning, the panels have two separate so-called folding hooks. These are hooks which are curved in the same direction as the side walls of the panel and stand slightly upwards from these side walls. The permanent holding function for a panel is accomplished as described by direct hooking two in profile view hook-shaped curved, enclosing walls of the panel, each with a hook-shaped inwardly curved groove edge on a support profile. For the temporary opening of the ceiling, this entanglement of a panel is released and the panel is anchored with two hinged hooks on two adjacent support profiles, the panel to. the connecting line between the two Äbklapphaken is pivotable. The design is highly resilient and therefore also applicable to panels with Deckenheizelementen or ceiling cooling elements. However, the design also means that for assembly and safety reasons disturbing large joint widths must remain between adjacent panels. Furthermore, the construction is relatively high for two reasons. For one thing, because the hinged hooks are always upright from the pa neel and. Therefore, with the panel mounted, project far above the viewing plane of the panels and find space in the downwardly open groove of the support profiles. Second, because the mounting rail from the top of that profile wall, which forms the groove bottom of the downwardly open groove, is attached.
    The main object of the invention is to propose an improved construction for a false ceiling, according to which are hung on inwardly curved groove flanks of a downwardly open groove of support panels panels with upwardly directed in profile view hook-shaped curved walls, the panels also in folded down position by means of folding hooks to support profiles are to be preserved and the panels may also be made very heavy. Compared to the last discussed design of suspended ceilings by which all this is already feasible, the improvement should lie in the fact that - taking into account the economic efficiency - smaller joint widths between adjacent panels are feasible and that one finds the Auslangen with lower overall height.
    To solve the problem, the following two measures are proposed, each of which alone is new and useful applicable, but which are most effective in combination with each other: a) The support profiles are (in profile view) on both sides laterally next to the downwardly open Einhängenut equipped for the panels, each with a further groove in which fasteners of the support profiles are anchored. b) a hinged hook is pivotally mounted on a side wall of a panel and also on the support profile in hinged, state relative to the support profile and slidable along the support profile, wherein the Abklapphaken even if he is at least approximately pivoted in the horizontal, is positively prevented from slip out of the anchorage on the support profile.
    The invention is illustrated by means of somewhat stylized drawings.
    Fig. 1: shows a ceiling according to the invention in Schnittan view with a viewing direction in the profile direction of a support profile.
    2 shows, with a horizontal direction of view, which is aligned normal to the carrying profiles, three partial sectional views of a sequence of movements during the assembly or disassembly of a suspended ceiling according to the invention, FIG.
    Fig. 3: shows in a stylized perspective view of the support profile of Fig. 1 and Fig. 2 and a folding hook.
    FIG. 4: illustrated as a sectional view looking in FIG.
    Profile direction of a support profile a special mounting situation of a ceiling according to the invention.
    Fig. 5: shows a sectional view with a viewing direction in profile direction of a support profile, a further special mounting situation of a ceiling according to the invention.
    Fig. 6: shows essential parts of another version of a ceiling according to the invention in a sectional view with a viewing direction in the profile direction of a support profile.
    Fig. 1 shows a support profile 1, a panel 2 and a folding hook 3 in the assembled state.
    The support profile 1 has on its underside the downwardly open hooking 4, the opening surface is bounded on both sides by a respective profile wall, which is hooked from the underside of the support profile 1 to the interior of the hooking 4 and thus an upwardly open hook. 5 forms.
    The panel 2 is typically made as a flat sheet cassette. The horizontal major surface is laterally bordered by side walls, which are vertically upwards from the main surface. The two parallel to the support section 1 side walls 6 are at least partially hook-shaped curved at its free upper end to the main surface of the panel 2, so that they form a downwardly open hook part 7.
    In a fully assembled state, a panel 2 hangs from support profiles 1, by projecting from below with one side wall 6 into a suspension groove 4 of a support profile 1 extending parallel to this side wall and with the open hook part 7 an upwardly open hook 5 in the Einhängenut 4 of the support profile 1 includes. The two opposite, mutually parallel side walls 6 of the panel 2 engage in each case in one of two adjacent, mutually parallel support profiles 1 a.
    In addition, the panel 2 is connected to each of the two support profiles 1 via a respective so-called Abklapphaken 3, which is made in the embodiment of FIG. 1 and FIG. 2 as Drahtbiege te.i.1. The Abklapphaken 3 is pivotally mounted on the hook part 7 of the panel. On the example of FIG. 1 and FIG. 2, the folding hook 3 is at one end to a. Ring 8 bent and thus includes a metal tongue on the hook part 7. The tongue can be typically formed as a remaining bridge between two punched out of the sheet metal of the hook part 7.
    On the support profile 1, the respective folding hook 3 is also held pivotally mounted. This is his second end, which is also one. Ring 9 bent is mounted in a side chamber 10 of the hanging 4. At both lateral regions, the hook-in groove 4 is provided behind the hook 5 with a side chamber 10 open towards the middle of the hook-in groove 4. The side chamber is formed by at a small distance from the side wall of the support profile of. the upper and the lower cover surface of the
    Carrying profiles each projecting a low profile wall, in unstretched. Condition is the outer diameter of the ring 9 slightly larger than the clear width at the .Dngstelle between the side car 10 and the. Middle part of the hanging groove. With slight transient elastic deformation, the ring 9 can be pushed through said constriction into the side chamber 10 and then slidably in the side chamber in the profile longitudinal direction of the support profile 1 and rotatable about its axis.
    As can be clearly seen in combination with FIG. 1 with FIG. 2, the folding hook 3 has two regions 11, 12 which are at right angles to each other between its ends 8, 9, the region 12 adjoining the ring 9 serving as the transverse part 12 is designated, is aligned normal to the plane of the ring 9, and the adjoining the ring 8 area 11 which is referred to here as a longitudinal part 11, parallel to the plane of the ring 9 is aligned.
    As sketched in FIG. 2, when the direct hooking between the carrier profile 1 and the panel 2 is released, the panel 2 is still held on the two support profiles 1 by means of folding hooks 3 with which it was previously hooked directly. For this purpose, a Abklapphaken 3 each having a side wall 6 of the panel 1 and the. pivotally connected to this side wall supporting profile 1 in the manner described. By the hinged hook 3 is pivotable, it may be formed so that it does not increase in the assembled state, the overall dimension of the lower ceiling in the vertical direction. By the Abklapphaken 3 is positively secured against complete release of the support section 1 and the panel 2, the panel 2 is also held securely against falling down when it is released from the direct entanglement with the support section 1. Due to this safety gain, the direct hooking between panel 2 and support profile 1 can be made flat and short from which low overall height and small joint widths between adjacent panels can be achieved.
    In Fig. 3 is an alternative to the folding hook 3 of Fig. 1 and Fig. 2, which is well made as a wire bending part, a Abklapphaken 13 outlines, which is very good to manufacture as stamped sheet metal part. The Abklapphaken 13 is formed of a metal strip which is bent by two 90 bends about mutually parallel axes in three sections 14, 15, 16 approximately J-shaped. Close to the free end of the longer section 14 there is an opening 17, on which the folding hook 13 can be rotatably connected to a side wall 6 of a panel 2, for example by riveting. It is important that in the installed situation behind the hooks 5 to be arranged on the Einhöngenut 4 end portion 16 of Abklapphakens 13 is longer and wider than the distance between the hook 5 and the upper surface of the support profile 1, so that the end portion 16 is not readily behind the hook 5 can be moved out to the opening surface of the Einhängenut 4 out. So that the folding hook 13 is still rotatable in a position in which the plane defined by its longitudinal sections plane is approximately horizontal - which is important for the low overall height - the width of the cross member 15 of the Abklapphakens 13 compared to the width of the end portion 16 is reduced.
    As already written for the hinged hook 3 also applies to the hinged hook 13: By the Abklapphaken 13 is secured against complete release of the support section 1 and the panel 2 is positively, the panel 2 is also kept safe against falling down when it comes from the direct entanglement is solved with the support profile 1. Due to this security gain, the entanglement between panel 2 and support profile 1 can be made flat and short which low overall height and small joint widths between adjacent panels can be achieved.
    By, the support profile 1 laterally of that profile surface area, which encloses the Einhängenut 4, with a " holding groove " 18 designated groove is provided on which fasteners can be mounted, which serve to anchor the support section l even in the room, this anchorage can be designed so that they for vertical Ge together abm.es solution of the entire, to be formed ceiling very little , in extreme cases, nothing contributes. An extreme case is outlined in Fig. 4 strikingly:
    An anchor part 19, for example a hammer head with the contour of a parallelogram, is inserted into the retaining groove 18. The anchor part 19 is rigidly connected to a bolt 20 which protrudes from the retaining groove and in the longitudinal region laterally adjacent to the support profile 1 by a kind of pipe clamp 21 from below, which is fixed by means of screws 22 to an upper base part 24. At the upper base part 24 is also the support profile 1 with its upper side at the bottom. In an extreme case, the upper fixed base part 24 may be the raw ceiling of a room.
    In addition to the saving in height, the lateral retaining grooves 18 also offer the very valuable advantage that - as can be seen in FIG. 4 - spacers can be formed between adjacent support profiles, by a longitudinal part (bolt 20), which at its two ends with one, Anchoring part 19 is provided, which fits into the retaining grooves 18, with a. End is anchored in the retaining groove of the one (left) support profile and anchored with the other end in the retaining groove of the other (right) support profile. This can be very quickly established a well-defined robust grid of parallel to each other at a certain distance aligned support profiles.
    In practice, the problem frequently arises that both hinged metal panels and non-metallic panels such as plasterboard surfaces must be laid on a false ceiling as surface elements. The hinged metallic panels are used primarily on areas where uncomplicated accessibility of the space above the panels is required. Where said accessibility is not important, the non-metallic panels are preferred for reasons of comfort.
    Until now, it has not been possible in practice to use a single continuous base design for both supporting a suspended ceiling surface area with hinged metallic panels and a suspended ceiling surface area with non-metallic panels. By the construction according to the invention, in which the support profiles for the hinged metal panels can be made very low, this is now possible. An embodiment of this is outlined in FIG. 5:
    The base support structure is - as usual for plasterboard ceilings - formed by box sections 23 (also called "Halfenscliienen"). The profile surface of these box profiles is approximately that of a one-sided open rectangle circumference with the free leg ends are curved inwards. In most cases, the open profile side is lying on top and the box section is held upwards by means of parts which protrude into the profile groove and interlock with the inwardly curved free leg ends. In the example shown in FIG. 5, the upper support structure is formed by box sections 23 arranged parallel to one another and aligned with the open side upwards. Panel elements 25 made of plasterboard are fastened via further box sections 26 to the box sections 23 by the box sections 26 are connected with their underlying base surface with the plasterboard surfaces by screws and by the box sections 23 are connected to the box sections 26 by so-called anchor angle 27. The upper side of the lower box sections 26 rests directly on the lower side of the upper box sections 23. Upper and lower box profiles are aligned normally to each other. For the purpose of fastening hinged metal panels 2 and support profiles 1 are angeord.net parallel to the lower box sections 26 on the underside of the upper box sections 23 and attached. For attachment of the support profiles 1 to the box sections 23 connecting clamps 28 are used, which are anchored on the one hand in the lateral retaining grooves of the support profiles 1 and on the other hand extend to the top of the box sections 23 and supported there against movement down. The common height of support profiles 1 and hinged panels 2 can easily - by appropriately high form the side walls of the panels 2 - be adjusted so that this common height is equal to the common height of the panel member 25 and box section 26, so that the undersides the panel elements 25 made of plasterboard with the undersides of the metallic panels 2 are aligned.
    In the example sketched in FIG. 5, the edge of the panel element 25 running along the support profile 1 is bordered by a profile 29 which projects upwards from the panel element 25 into the hook-in groove of the support profile 1, where it curves into a hook, and is like a hook Side wall of a panel 2 is hooked. Depending on the width of the individual panel elements 25 made of plasterboard (normal to the longitudinal direction of the support profiles 1), it is also possible to dispense with the box sections 26 and the panel elements 25 made of plasterboard exclusively to hang on support profiles 1. Especially if you omit the locking arm in the left part of the profile 29 (Fig. 5) can thus also panel elements 25 made of plasterboard (or other non-metallic material) as well as hinged surface elements form as metallic panels. 2
    Only for reasons of clarity has been omitted in Fig. 4 and Fig, 5 on the representation of Abklapphaken. As a matter of fact, in the cases of application already outlined, flapplates should be used, as shown in and also described in FIGS. 1 to 3; this also applies to the profile 29, which encloses a panel element 25 made of a non-metallic material.
    The exemplary support profile 1 shown in the drawings is easy to manufacture by roll forming sheet metal strip. But it is also well possible to form support profiles according to the invention by extrusion of aluminum.
    FIG. 6 shows a further advantageous embodiment of a support profile 30 according to the invention and a matching folding-off hook 31 to be manufactured from wire.
    The support profile 30 has as well as the support profile 1 according to the previous drawings a downwardly open Einhängenut 32 wherein the profile walls which limit the Einhängenut 32 laterally in the groove opening hook-shaped towards Nutinneren are curved so that they form a hook on which panels as the panels 2, 25 are hooked according to the previous drawings. On both sides of the Einhängenut 32, the support profile 30 is provided with a respective retaining groove 33, which serves to carry the support profile 30 itself. According to hook-like parts protrude from above on the. Carrying profile 30 over and each protrude with its hook tip oriented upward in a retaining groove 33 so that the Trageprof.il 30 rests with the retaining grooves on the hook-shaped parts hanging from above.
    In particular, when support profiles are formed by Rollfomen of sheet metal strip, the construction of the support profile 30 is cheaper than that of the support profile 1, in which the retaining grooves are open to the side and not down. However, can be with the. Supporting profile 30 a construction as outlined in Fig. 4, in which support profiles are adjusted by spacers to each other not so easy to implement.
    It is advantageous if, as shown, the lateral groove wall of the retaining groove 33 facing away from the hanging groove 32 does not protrude as far down as the direct boundary wall of the opening, so that a flatter construction of the ceiling construction is made possible.
    In Fig. 6 two Abklapphaken 31 are outlined. The right hinged hook 31 is shown in the downward-hanging position. He has this position when the panel connected to him is not directly hooked itself to the support section 30, but depends only on Abklapphaken 31. The left hinged hook 31 is shown m the position in which its greatest longitudinal extension is aligned horizontally. He has this position when the panel connected to him himself is hooked directly to the support section 30 and the folding hook 31 has no carrying function.
    In hanging Abklapphaken 31 (in Fig. 6, right) forms the upper part 34 of the Abklapphakens 31 with the vertically downwardly hanging longitudinal part 35 of the Abklapphakens 31 downwardly open hook, which is hooked with the opening of the Einhängenut 32 laterally bounding groove wall , It can be seen that the vertical dimension of the part 34 is at least slightly smaller than the distance of the groove wall laterally delimiting the opening of the hanging groove 32. to the bottom of the hanging groove 32. That is, the folding hook 31 is detachable from the entanglement with the supporting profile 30 when it is vertically aligned and slightly raised from the position shown at the right in Fig. 6 and moved to the left.
    The upper part 34 of the Abklapphakens 31 is mounted as intended. Abklapphaken 31 seen from the opening of the Einhängenut 32 from behind this opening laterally bounding wall of the support profile 1. In hanging aligned Abklapphaken 31, the length of the part 34 in the direction parallel to the profile direction of the support profile 30 direction is significantly greater than the distance of the opening of the It is achieved that the part 34 of the Abklapphakens 31 can not slide to the opening of the Einhängeut 32 out when it is aligned horizontally (in Fig. 6 left) or while he vertical between vertical and horizontal position is swung - as happens in the assembly or disassembly of panels, since the vertical dimension of the part 34 is greater than the distance between the base of the Einhängenut 32 and the opening of the Einhängenut laterally bounding profile wall. It is thus highly secure against unintentional unhooking of the Abklapphakens achieved without that the intended insertion or unmount is difficult.
    It should be understood that in this document, the statement " the retention groove is laterally adjacent to the attachment groove " all constructions are meant in which the center of the cross-sectional area of the retaining groove is located laterally next to the center of the Einhängenut. This is especially true in the construction according to FIG. 6, in which the centers of the cross-sectional surfaces of the retaining grooves 33 are laterally adjacent to the center of the cross-sectional area of the suspension groove 32, although the cross-sectional area of the suspension groove 32 extends farther to the side than the cross-sectional areas of the retaining grooves 33rd
    Each of the folding hooks 3, 13, 31 shown in the drawings has a part 9, 16, 34, which, when the folding hook is hooked on the support section 1, 30, seen from the opening of the Einhängenut 4, 32 from behind the Opening the Einhängenut laterally limiting profile wall and ends in the tip of the hook Abklapphakens. Furthermore, the folding-off hooks 3, 13, 31 each have a longitudinal part 11, 14, 35 which, when the panel is unfolded, hangs substantially vertically downwards from the carrying profile and is aligned approximately horizontally and parallel to the carrying profile 1, 30 when the panel is completely assembled. Third, the folding-off hooks 3, 13, 31 each have a transverse part 12, 15, 36, which respectively connects the longitudinal part .1.1, 14, 35 with the part 9, 16, 34. During, transferring the transfer of the panel 2 from the folded state in the finished assembled state, the folding hooks 3, 13, 31 which connect the panel to the support profile 1, 30 pivoted so that the longitudinal part 11, 14, 35 of the hook from the vertical is transferred to the horizontal state.
    The hook plane of the Abklapphakens 3, 13, 31 is vertically aligned, intended mounted on the support section 1, 30 folding hooks 3, 13, 31 normal to the profile direction of the support profile 1, 30th When transferring a hanging on, Abklapphaken panel 2 from the folded state in the mounted state on the support profile, the hook plane of the Abklapphaken is pivoted about a normal iUr profile direction of the support profile aligned horizontal axis approximately in the horizontal.
    So that during this pivoting of a Äbklapphakens 3, 13, 31 this constantly hooked positively on the support section 1, 30, it is important that the cross member 12, 15, 36 of the Äbklapphakens 3, 13, 31, which the longitudinal part 11, 14, 35 and the part 9, 16, 34 ending in the tip of the hook, in which the direction normal to the hook plane of the Äbklapphakens relative to the part 9, 16, 34 back. By this jumping back the entanglement between the Äbklapphakens 3, 13, 31 and the opening of the Einhängenut 4, 32 laterally delimiting profile wall of the support profile 1, 30 during the pivoting Äbklapphakens of the vertical orientation in the horizontal orientation and back always remains upright.
    Preferably, the cross member 12, 15, 36 - as shown in the drawings - relative to the part 9, 16, 34 in the direction normal to the hook plane on both sides back. Thus, it does not matter in which of the two possible directions the fold-down hook has to be pivoted when it is pivoted from its horizontal orientation to the vertical orientation.
    If a folding hook is used in support profiles 1, 30 which have a retaining groove 18, 33 laterally of the hook-in groove 4, 32, it makes sense, as described, to carry out the folding hook 3, 13, 31 in such a way that it is also during the pivoting in the horizontal with the support profile 1, 30 remains hooked. Otherwise, you can not really use the most significant advantage in terms of lateral retaining grooves - low construction of the support profile.
    Conversely, it is so that when a folding hook is used on the hand of the Abklapphaken 3, 13, 31 type, which remains hooked during and after pivoting in the horizontal with the support profile, a lower support profile than in the prior art can be used even if the support profile has no lateral retaining grooves. The attachment of the support profile upwards can then be formed for example by means of screws which extend through the overhead base surface of the support profile.
    权利要求:
    Claims (12)
    [1]
    1. sub-ceiling, which are parallel and in one. Having spaced apart support profiles (1, 30), as well as panels (2) which are fastened to two adjacent support profiles (1, 30), wherein a support profile (1, 30) has a downwardly open Einhängenut (4, 32nd ), wherein the profile walls which limit the Einhängenut (4, 32) laterally in the region of the groove opening hook-shaped towards Nutinneren are curved so that they form a hook (5), wherein a panel (2) at two opposite edges each one about the underside of the panel (2) upwardly extending side wall (6) which is curved at its upper end to the center of the panel surface and so in profile view a hook portion (7), wherein a panel (2) with two is connected to each other adjacent support profiles (1, 30), wherein in each case a hook (5) having profile wall of a support profile (1, 30) with a hook part (7) of the panel (2) is hooked, characterized, that s a support profile (1, 30) on both sides laterally next to the Einhängenut (4, 32) each have a retaining groove (18, 33), in which an element (28, 19), which serves the attachment of the support profile (1, 30) is anchored.
    [2]
    Second false ceiling according to claim 1, characterized in that the retaining groove (18) is open to the side.
    [3]
    3. false ceiling according to claim 2, characterized in that two adjacent support profiles (1) by elongated parts (20) are interconnected, which are anchored with their ends in the mutually facing retaining grooves (18) of the two support profiles (1).
    [4]
    4. false ceiling according to claim 1, characterized in that the retaining groove (33) is open at the bottom.
    [5]
    5. Ceiling according to one of claims 1 to 4, characterized crekeiin-records that support profiles (1) to which metallic panels (2) are anchored and profiles anchored to which panel elements (25) of a non-metallic material and the support profiles (1) are different, are aligned parallel to each other and are anchored common transverse to extending carrier profiles.
    [6]
    6. false ceiling according to claim 5, characterized in that the profiles on which panel elements (25) are anchored from a non-metallic material and the common carrier profiles, box sections (26, 23).
    [7]
    7. A false ceiling according to claim 5 or claim 6, characterized in that the lower surfaces of the metallic panels (2) and the lower surfaces of the panel elements (25) are aligned with each other.
    [8]
    8. A false ceiling according to any one of claims 1 to 7, characterized in that it comprises a panel element (25) made of a non-metallic material, which is bordered at an edge with a profile (29), which in the Einhängenut (4) of a Carrying profile (1) extends into it and is entangled therein.
    [9]
    9. soffit according to one of claims 1 to 7, characterized in that an elongated Abklapphaken (3, 13, 31) pivotally mounted on a side wall. (6) of the panel (2) is anchored, in the Einhängenut (4, 32) of the support profile (1, 30) projects, with a transverse part (12, 15, 36) a the opening surface of the Einhängenut (4, 32) laterally delimiting Profile wall in, the inside of the Einhängenut (4, 32) comprises and a part (9, 16, 34), which is seen from the opening surface of the Einhän-groove (4, 32) from behind the opening surface laterally delimiting profile wall, wherein the part (9, 16, 34) in the direction normal to the hooking plane of the Abklapphakens (3, 13, 31) lying greater direction than the transverse part (12, 15, 36).
    [10]
    10. A false ceiling according to claim 10, characterized in that the transverse part (12, 15, 36) opposite the Te.i.1 (9, 16, 34), which seen from the opening surface of the Einhängenut (4, 32) from behind the the opening surface laterally limiting profile wall is in the normal direction to the hook plane jumps back on both sides.
    [11]
    11. sub-ceiling, which has parallel and at a distance from each other arranged support profiles (1, 30), and panels (2) which are attached to two adjacent support profiles (1, 30), wherein a support profile (1, 30) one after has downwardly open Einhängenut (4, 32), wherein the Profilwän-de which the Einhängenut (4, 32) laterally bounded in the groove opening hook-shaped towards the Nutinneren are curved so that they form a hook (5), wherein a panel (2 ) has at two opposite edges in each case one beyond the underside of the panel (2) out upwardly extending side wall (6) which is curved at its upper end to the center of the panel surface and so in profile view a hook part (7) forms, wherein a panel (2) with two mutually adjacent support profiles (1, 30) is connected, wherein in each case a hook (5) having profile wall of a support profile (1, 30) with a hook portion (7) of the panel (2) is hooked and wherein a Abklapphaken (3, 13, 31) is pivotally mounted with an end portion on the panel and is formed at the other end portion as a hook, which a the opening surface of the Einhängenut (4, 32) laterally bounding profile wall of the support profile (l, 30) inside the suspension groove (4, 32), characterized in that a part (9, 16, 34) of the Abklapphakens (3, 13, 31) which of the opening surface of the Einhängenut (4, 32) from behind the opening surface laterally bounding profile wall is in the direction normal to the hook plane of Abklapphakens (3, 13, 31) opposite a transverse part (12, 15, 36) of the Abklapphakens (3, 13, 31), which the opening surface of the Einhängenut (4, 32) laterally bounding profile wall in. Inside the Einhängenut (4, 32) includes, springs back.
    [12]
    12. false ceiling according to claim 11, characterized in that the transverse part (12, 15, 36) relative to the part (9, 16, 34), which from the opening surface of the Einhängenut (4, 32) seen from behind the opening surface laterally limiting profile wall is in the normal direction to the hook plane jumps back on both sides.
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    DE2336418A1|1975-02-20|Suspended-ceiling fluorescent light fitting - has carriers on side parts, mounting shackles and reflector
    DE60319315T2|2009-02-26|Locking element for a grid on a drainage channel and tool for removing the same
    WO2017042057A1|2017-03-16|Guide rail for a lift system
    DE2405388C3|1978-05-03|Cross profile clamp for suspended ceilings
    EP2305939A2|2011-04-06|Fixation wedge as squeeze protection for tilting windows
    DE102005058126A1|2007-06-06|Suspended ceiling for use in fire protection area, has carrier for ceiling part that is connected with carrier part by using fasteners, where fasteners are hinged to carrier and manufactured from non-combustible material e.g. steel
    同族专利:
    公开号 | 公开日
    AT514809A4|2015-04-15|
    AT515381B1|2016-02-15|
    AT514809B1|2015-04-15|
    DE102015200528A1|2015-07-16|
    AT515381A3|2016-01-15|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    EP3211149A1|2016-02-25|2017-08-30|Robert Peer|False ceiling, containing a supporting profile and suspended panels|
    WO2018091968A1|2016-10-28|2018-05-24|Jimenez Torres Hector|Structural device for forming construction slabs|DE2641667A1|1976-09-16|1978-03-23|Beck Stahlbau Fertigbau H|Interlocking profiled false lengthwise or transverse ceiling beam - has fish-plates and notches in double bent sidewall flanges|
    DE4327252A1|1993-08-13|1995-02-16|Richter System Gmbh & Co Kg|Sheet metal part with bead|
    DE19612275C2|1996-03-28|1999-04-15|Hilti Ag|Mounting rail|
    US6467228B1|2000-11-22|2002-10-22|Usg Interiors, Inc.|Hinged ceiling panel|
    CN202148629U|2011-01-19|2012-02-22|广州帝森建材有限公司|Novel metal mesh plate ceiling|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    ATA28/2014A|AT514809B1|2014-01-15|2014-01-15|Under the ceiling, which has a support profile and hinged panels|
    ATA18/2015A|AT515381B1|2014-01-15|2015-01-15|Under the ceiling, which has a support profile and hinged panels|ATA18/2015A| AT515381B1|2014-01-15|2015-01-15|Under the ceiling, which has a support profile and hinged panels|
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