• 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:
    Arc-shaped roof device intended for placement between a first and a second elevation, comprising an elongate first receiving structure directed in a longitudinal direction on the first elevation; an elongated second receiving structure in the longitudinal direction on the second upright; at least a first and second transverse arc directed in a transverse direction between the first and the second recording structure, each transverse arc being provided with an arcuate wire-receiving channel extending in the transverse direction; at least a first wire lattice with a first cross wire that is slid into the wire receiving channel of the first crossbow and a second cross wire that has slid into the wire receiving channel of the second crossbow; a covering arranged above the first wire gratings.
    公开号:BE1024498B1
    申请号:E2016/5646
    申请日:2016-08-19
    公开日:2018-03-19
    发明作者:Jean Marc Gilles Glorieux
    申请人:Jean Marc Gilles Glorieux;
    IPC主号:
    专利说明:

    (30) Priority data:
    (73) Holder (s):
    GLORIEUX Jean Marc Gilles 8554, ZWEVEGEM Belgium (72) Inventor (s):
    GLORIEUX Jean Marc Gilles 8554 ZWEVELGEM (Sint-Denijs) Belgium (54) Arc-shaped roof device and method for placing it (57) Arc-shaped roof device intended for placement between a first and a second curb, comprising a longitudinally-oriented elongated first receiving structure on the first rebellion; a longitudinally-oriented elongated second recording structure on the second curb; at least a first and second transversely oriented transverse arc between the first and the second recording structure, each transverse arc comprising a transversely extending arcuate thread receiving channel; at least a first wire lattice with a first transverse thread slid into the thread take-up channel of the first crossbow and a second transverse thread slid into the thread take-up channel of the second crossbow; a covering arranged above the first wire grids.
    FIG. 1
    BELGIAN INVENTION PATENT
    FPS Economy, K.M.O., Self-employed & Energy
    Intellectual Property Office
    Publication number: 1024498 Filing number: BE2016 / 5646
    International classification: E04D 13/03 Date of issue: 19/03/2018
    The Minister of Economy,
    Having regard to the Paris Convention of 20 March 1883 for the Protection of Industrial Property;
    Having regard to the Law of March 28, 1984 on inventive patents, Article 22, for patent applications filed before September 22, 2014;
    Having regard to Title 1 Invention Patents of Book XI of the Economic Law Code, Article XI.24, for patent applications filed from September 22, 2014;
    Having regard to the Royal Decree of 2 December 1986 on the filing, granting and maintenance of inventive patents, Article 28;
    Having regard to the application for an invention patent received by the Intellectual Property Office on 19/08/2016.
    Whereas for patent applications that fall within the scope of Title 1, Book XI, of the Code of Economic Law (hereinafter WER), in accordance with Article XI.19, § 4, second paragraph, of the WER, the granted patent will be limited. to the patent claims for which the novelty search report was filed, when the patent application is the subject of a novelty search report indicating a lack of unity of invention as referred to in paragraph 1, and when the applicant does not limit his filing and does not file a divisional filing in accordance with the search report.
    Decision:
    Article 1
    GLORIEUX Jean Marc Gilles, Beerboslaan 10, 8554 ZWEVEGEM Belgium;
    represented by
    D'HALLEWEYN Nele Veerle Trees Gertrudis, Meir 24 box 17, 2000, ANTWERP;
    a Belgian invention patent with a term of 20 years, subject to payment of the annual fees as referred to in Article XI.48, § 1 of the Code of Economic Law, for: Arc-shaped roof layout and method of installation.
    INVENTOR (S):
    GLORIEUX Jean Marc Gilles, Beerboslaan 10, 8554, ZWEVELGEM (Sint-Denijs);
    PRIORITY:
    BREAKDOWN:
    Split from basic application: Filing date of the basic application:
    Article 2. - This patent is granted without prior investigation into the patentability of the invention, without warranty of the Merit of the invention, nor of the accuracy of its description and at the risk of the applicant (s).
    Brussels, 19/03/2018,
    With special authorization:
    2016/5646
    BE2016 / 5646
    Arc-shaped roof device and method for placing it
    The present invention relates to an arcuate roof device intended for placement between two curbs, and in particular to roof structures for use in skylights and the like.
    FR 2 948 953 in the name of Domeca SA describes an arcuate roof construction with a grid intended to prevent the covering of the roof construction from falling down in the event of an impact or in case of fire.
    Furthermore, the Belgian patent with publication number BE 1017118, and the Belgian patents with application numbers BE 2012/0438 and BE 2013/0865 describe roofing devices of the type mentioned in the opening paragraph.
    The object of the present invention is to propose an improved arcuate roofing device that is easy to place, and is particularly suitable for tighter roof constructions and is fall-proof for persons.
    To this end, the present invention provides an arcuate roofing device intended for placement between a first and a second curb, comprising a first and a second receiving structure, a first and second transverse arch located therebetween, a first wire grid, and a cover. The first and second recording structures extend in a longitudinal direction on the first and second curbs, respectively. The first and second transversely oriented transverse arc are each provided with a transversely extending arcuate thread receiving channel. The first wire lattice has a first cross wire slid into the wire take up channel of the first crossbow and a second cross wire slid into the wire take up channel of the second crossbow. The cover is applied above the first wire grid.
    By working with a wire grid that can be slid with its transverse edges in a first and second wire receiving channel of first and second transverse arches, the roof construction can be easily assembled, also for long constructions in which two and more grids and three and more transverse arcs can be used.
    2016/5646
    BE2016 / 5646
    In an advantageous embodiment, at least two wire grids (comprising said first wire grating), viewed in the longitudinal direction, are arranged side by side. In such an embodiment, at least three transverse arcs (comprising said first and second transverse arcs) are provided. Each wire grid is then provided with a first transverse thread slid into the thread take-up channel of a first crossbow and a second transverse thread slid into the thread take-up channel of a second crossbow. In such an embodiment, the transverse arcs are preferably provided with two wire receiving channels for receiving a transverse wire from a first wire grid and a transverse wire from an adjacent second grid.
    Preferably, each wire grid comprises a plurality of transverse wires and a plurality of longitudinal wires attached thereto. The first and second thread take-up channels are then preferably provided with a transverse arcuate slot through which the plurality of longitudinal threads protrude, the height of the slot being greater than the thickness of a longitudinal thread and less than the sum of the thickness of the longitudinal thread and the cross thread. In this way, a crosswire is anchored in the thread take-up channel.
    Preferably, the first and second thread take-up channels are each formed with a hook-shaped member which partially extends over the first and second cross threads such that the first and second cross threads remain anchored in the first and second thread take-up channels upon impact on the cover. The hook-shaped element preferably adjoins the slot. The hook-shaped element is formed, for example, by an upright wall which is inwardly directed at an upper end, over the first / second transverse thread present in the first / second thread take-up channel.
    In one embodiment, a transverse arch is provided with a separating member between adjacent transverse edges of adjacent plates that form the cover. A thread receiving channel can be provided on either side of the separating part for accommodating adjacent transverse threads of adjacent thread grids.
    In one embodiment, the cover has a first and a second longitudinal edge attached in or to the first and second recording structures, respectively. Furthermore, the first wire grid may comprise a first and second longitudinal wire included in the first and second recording structures, respectively.
    In one embodiment, each receiving structure is formed as a longitudinal profile with a support flange supported on the respective upstand, a longitudinal channel for receiving the respective longitudinal edge of the cover, and with a connecting flange between the support flange and
    2016/5646
    BE2016 / 5646 the longitudinal channel for forming an intermediate space in which the respective end of each crossbow is included. Such a receiving structure has the advantage that a good anchoring of the various roof elements is possible on the curb.
    In one embodiment, the cover comprises at least a first and a second longitudinally arranged plate, preferably a plastic plate, and an elongated sealing profile is provided for sealing a space between a transverse edge of the first plate and a transverse edge of the second plate. The sealing profile is formed with an elongated top flange extending over the space between said transverse edge of the first plate and said transverse edge of the second plate. A first end of the sealing profile is attached to the first receiving structure, and a second end of the sealing profile is attached to the second receiving structure. In this way a good sealing can be obtained and the plates are further secured between the first and second receiving structure.
    Further advantageous embodiments are described in the dependent councils.
    In addition, a second aspect of the invention provides a method of placing an arcuate roof device between a first and a second curb. The method includes the following steps. An elongated first recording structure is attached to a first curb, and an elongated second recording structure is attached to a second curb in parallel. At least a first and second transversely oriented transverse arc is provided between the first and the second recording structure, each transverse arc comprising a transversely extending arcuate thread receiving channel. A first crosswire of a first wire grid is slid into the wire take-up channel of the first crossbow and a second crosswire of the first wire grate is slid into the wire take-up channel of the second crossbow. A cover is applied over the first wire grid.
    In one embodiment, at least two wire grids (including the first wire grating), viewed in the longitudinal direction, are arranged side by side. At least three transverse arcs (including the first and second transverse arcs) are provided between the first and second take-up structures, and for each wire grating, a first transverse wire thereof is slid into the transverse wire receiving channel of the at least three transverse arcs and a second transverse wire slid into a wire take-up channel of another transverse arc of the at least three transverse arcs.
    2016/5646
    BE2016 / 5646
    Preferably, a first longitudinal edge of the cover is attached in or to the first recording structure and a second longitudinal edge thereof in or to the second recording structure. Preferably, applying the cover comprises: arcuating a first plate between the first and the second curb, wherein a first longitudinal edge of the first plate is applied in the first recording structure, and a second longitudinal edge of the first plate is applied in the second recording structure; arcuating a second plate between the first and the second curb, wherein a first longitudinal edge of the second plate is arranged in the first recording structure, and a second longitudinal edge of the second plate is arranged in the second recording structure; arranging an elongated sealing profile for sealing a space between a transverse edge of the first plate and an adjacent transverse edge of the second plate, the sealing profile being formed with an elongated top flange disposed over the space between said transverse edges; and attaching a first end of the sealing profile to the first receiving structure, and a second end of the sealing profile to the second receiving structure.
    The present invention will be further elucidated on the basis of a number of non-limiting exemplary embodiments of an arcuate roof construction according to the invention with reference to the annexed drawings, in which:
    Figure 1 illustrates an exploded perspective view of an embodiment of an arcuate roof device;
    Figure 2 illustrates a cross-section of an embodiment of a crossbow of an arcuate roof device;
    Figure 2A shows a detail view of Figure 2;
    Figure 3 illustrates a cross-section of an embodiment of a recording structure of an arcuate roof device;
    Figure 3A shows a detail view of Figure 3;
    Figure 4 illustrates a cross-section of an embodiment of a crossbow with cover; and
    Figure 5 illustrates a cross-section of an embodiment of a crossbow with stirrup.
    Figure 1 illustrates an embodiment of a portion of an arcuate roof device between a first curb O and a second curb (not shown, but analogous to curb O). The roofing device comprises a longitudinally-oriented first receiving structure in the form of a first longitudinal profile 400 on the first upstand O, a longitudinally-oriented second receiving structure in the form of a second longitudinal profile on the second upstand (not shown),
    2016/5646
    BE2016 / 5646 a plurality of crossbows D directed in a transverse direction D (only one of which is shown in Figure 1), a first and second grating 100, and a cover 300. The cover 300 extends arcuately between the first curb O and the second curb .
    The transverse arc shown in Figure 1 extends between the first and second recording structures.
    The transverse arc 200 is provided on both sides with a transversely extending arcuate wire take-up channel 210, see also Figure 2. Each wire grid 100 has a first transverse wire 110 on a first transverse edge, which is slid into a corresponding wire take-up channel 210 of a first transverse arc 200 and a second transverse edge a second transverse thread slid into a thread take-up channel of a second transverse arc (not shown).
    Although Figure 1 shows only one transverse arch 200, the person skilled in the art understands that for two wire grids 100, preferably three transverse arches 200 are provided. Furthermore, those skilled in the art understand that crossbows on either side may include a transversely extending arcuate thread take-up channel 210, but it is also possible to provide a thread take-up channel 210 on one side only. The latter is in particular the case for transverse arches located at one end of the roof device, where only one transverse wire 110 is to be received. However, it is also possible in Figure 1, between two adjacent wire grids 100, instead of one crossbow 200 with two wire take-up channels 210, to provide two crossbows 200 with one take-up channel 210 each.
    Wire grid 100 includes a plurality of transverse wires 110, 111 and a plurality of longitudinal wires 120, 121 attached thereto. In the example shown, the multiple longitudinal wires 120, 121 are above the plurality of transverse wires 110, 111, and these wires 110, 111, 120, 121 are welded together at the intersections between the longitudinal and transverse wires. The wires of the wire grids are preferably made of metal, such as steel, even more preferably of stainless steel.
    The crossbow 200 is shown in more detail in Figure 2 and Figure 2A. The transverse arc 200 includes a center portion 220 which is provided at the bottom with a left and right wire take-up channel 210 in which a cross wire 110 of a left and right wire grid 100 arranged side by side is received, respectively. The wire take-up channel 210 here is a substantially U-shaped channel with a first side wall 211 attached to the center part 220, a bottom wall 212, and a second side wall 213. The wire take-up channel 210 is bounded at the top by a top wall 214 which forms part of the middle part 220. Between the top wall 214 and the second side wall 213, a transversely directed arcuate slot 216 extends through which the plurality of longitudinal wires 120, 121 protrude. The
    2016/5646
    BE2016 / 5646 height h of the slot 216 is greater than the thickness di of a longitudinal thread and less than the sum of the thickness of the longitudinal thread di and the thickness of the transverse thread d d . In this way, the cross thread 110 is anchored in the thread take-up channel 210. The thread take-up channel 210 is further formed with a hook-shaped element 213,215 which partially extends over the cross thread 110 such that the cross thread 110 remains anchored in the thread take-up channel 210 upon impact on the cover. . The hook-shaped element is formed by the side wall 213, which is inwardly directed at an upper end 215, over the transverse wire 110 present in the thread take-up channel 210.
    The transverse arc 200 further includes a separator portion 230 which extends upwardly from the center portion 220 and is intended to form a partition between adjacent transverse edges 310 of a first and second plate 300, these plates 300 forming the cover. The plates 300 are typically plastic plates, and multi-walled plastic plates, for example. The plates 300 are preferably made from a material from the group: polycarbonate, acrylate, and other thermopiasts. The plates are preferably flexible such that they can be bent in the transverse direction to a radius of curvature of at least 10 meters.
    An elongated sealing profile 500 is provided for sealing a space between a transverse edge 310 of the first plate 300 and a transverse edge 310 of the second plate 300. The sealing profile 500 is formed with an elongated top flange 510 extending across the space between the transverse edge 310 of the first plate 300 and the transverse edge 310 of the second plate 300. A first end of the sealing profile 500 is attached to the first longitudinal profile 400, and a second end of the sealing profile 500 is attached to the second longitudinal profile.
    For this purpose a screw channel 560 is provided on the underside of top flange 510, in which a bolt 610 passing through an opening in the longitudinal profile 400 is tightened at both ends, see figure 3. In this way, the sealing profile 500 can be clamped in an arc-shaped manner between the first curb and the second rebellion.
    The separating part 230 of the crossbow 200 is here formed by two upright walls 231,
    232 and the screw channel 560 is sized to be accommodated between the upright walls
    231, 232. In this way, a good positioning of the sealing profile 500 is ensured.
    The middle part 220 of the crossbow 200 is provided on its underside with a transverse screw channel 260 in which a bolt 620 passing through an opening in the longitudinal profile 400 is tightened at both ends, see figure 3. In this way the
    2016/5646
    BE2016 / 5646 crossbow 200 can be further secured between the first curb and the second curb. These bolts 620 are optional.
    Other possible embodiments of sealing profiles 500 are described in Belgian patent application BE 2016/5060, the text of which is incorporated herein integrally by reference. More particularly, the sealing profile can be an elongated profile made of plastic. For example, the sealing profile may be formed with an elongated top flange, an elongated bottom flange, a connecting flange, and an elongated screw receiving channel. The elongated top flange extends over the space between the edges of the plates, sealingly cooperating with a top of the first plate and a top of the second plate. The top flange may include sealing strips arranged near a first edge and near a second edge which are arranged to cooperate with the top of the first and second plates in a sealing manner. In an advantageous embodiment, the sealing profile is made of the same material as the plates, so that the coefficients of expansion of the plates and of the sealing profile are the same. For example, the plates and the sealing profile can both be manufactured by extrusion from a polycarbonate material. The sealing strips can then be coextruded, whereby a good sealing material is chosen for the sealing strips, preferably a soft plastic such as a thermoplastic elastomer (TPE).
    The first longitudinal profile 400 is intended to receive a first longitudinal edge 320 of a plate 300 and to receive a longitudinal edge formed by the first longitudinal wire 120 of the grid 100. Analogously, the second recording profile (not shown) is intended for receiving a second longitudinal edge of the plate and for receiving a second longitudinal wire from the grid. The longitudinal profile 400 here is an extrusion profile formed with a longitudinal channel 420 with a top wall 421, a bottom wall 422 and a side wall 423. These walls are dimensioned such that a longitudinal edge 320 of a plate 300 fits between the top wall 421 and the bottom wall 422. , see also figure 3A. Furthermore, one end of the screw channel 560 also fits in this longitudinal channel 420 and the bolt 610 passes through an opening in the side wall 423. In this way, a longitudinal edge 320 of a plate 300 can thus be firmly fixed in the longitudinal channel 420 of the longitudinal profile 400. The longitudinal profile further comprises a longitudinally extending support flange 430 which rests on the upright O. The ends of the crossbows 200 are supported on this support flange 430. Between the support flange 430 and the longitudinal channel 420, a spacing 450 is provided for the longitudinal wires 120 and the ends of the transverse arcs 200. The support flange 430 is connected to the longitudinal channel 420 by means of a connecting flange 460. The end of the screw channel
    2016/5646
    BE2016 / 5646
    260 is located in the gap 450 and the optional bolt 620 protrudes through an opening in the connecting flange 460.
    Figure 4 illustrates a further embodiment of a transverse arc 200. The transverse arc includes a center portion 220 which is provided at the top with a left and right wire take-up channel 210 in which a cross wire 110 of a left and a right wire grille 100, respectively, is received. The wire take-up channel 210 here is a substantially U-shaped channel with a first side wall 211 attached to the center part 220, an upper wall 212, and a second side wall 213. The wire take-up channel 210 is bounded at the bottom by a bottom wall 214 which forms part of the middle part 220. Between the bottom wall 214 and the second side wall 213, a transversely directed arcuate slot 216 extends through which the plurality of longitudinal wires 120, 121 protrude. As in the variant of Figure 2A, the height of the slot 216 is greater than the thickness of a longitudinal thread and less than the sum of the thickness of the longitudinal thread and the thickness of the transverse thread. Optionally, the thread take-up channel 210 may be formed with a hook (not shown) element which partially extends over the transverse thread such that the transverse thread remains anchored in the thread take-up channel upon impact on the cover. The center section 220 of the crossbow 200 is further provided at its top with a transverse screw channel 260 into which a bolt passing through an opening in the longitudinal profile 400 can be tightened at both ends, in a manner similar to that previously was described with reference to Figure 3. In this way, the crossbow 200 can be further secured between the first curb and the second curb.
    Furthermore, the variant of Figure 4 comprises an elongated sealing profile 500 for sealing a space between a first transverse edge 310 of a first plate 300 and a transverse edge 310 of a second plate 300. The sealing profile 500 is formed with an elongated top flange 510 extending across the space between the transverse edge 310 of the first plate 300 and the transverse edge 310 of the second plate 300. A first end of the sealing profile 500 is attached to the first longitudinal profile 400, and a second end of the sealing profile 500 is attached to the second longitudinal profile. To this end, a screw channel 560 is provided at the top of top flange 510 in which a bolt passing through an opening in the longitudinal profile 400 can be tightened at both ends, in a manner similar to that illustrated with reference to Figure 3. On that In this way, the sealing profile 500 can be tensioned in an arc between the first curb and the second curb. Furthermore, the elongated top flange 510 at the bottom thereof, substantially in the center, is provided with a downwardly directed dividing wall 530 at the end of which a support flange 540 is provided. In this way, a transverse edge 310 can be received between the elongated top flange 510 and the elongated one
    2016/5646
    BE2016 / 5646 support flange 540. For good sealing, the top flange 510 can be provided at the bottom with elongated sealing strips 511 which can optionally be formed by coextrusion. Similarly, the support flange 540 may include sealing strips 541 adapted to engage the undersides of the first and second plates 300.
    Figure 5 illustrates a cross-sectional view of a crossbow 200 analogous to the crossbow 200 shown in Figure 2A, except that a bracket 700 is provided around wire take-up channel 210. Such brackets 700 may be provided at various locations viewed in the transverse direction D These brackets 700 provide additional reinforcement and can prevent the wire take-up channels 210 from bending open upon impact. For example, the brackets 700 may be secured with screws 710 for securing the brackets 700 to the side wall 211 of the thread take-up channel 210.
    Embodiments of the invention are typically used in so-called skylights, wherein a number of multi-walled plastic sheets can be arranged side by side in a transverse direction between a first and a second curb. In this case, a number of layers of plates are often applied one above the other, and the covering can, for example, also comprise a curved plate made of a composite material. Further possible embodiments in which the present invention is applicable are described in the Belgian patent with publication number BE
    1017118, in the Belgian patent with application numbers BE 2012/0438 and BE 2013/0865, and the content of these patents (in the name of Applicant) is incorporated here by reference.
    Those skilled in the art will appreciate that the invention is not limited to the above-described embodiments, and that many modifications and equivalent embodiments are possible within the scope of the invention, which is determined only by the following claims.
    2016/5646
    BE2016 / 5646
    权利要求:
    Claims (20)
    [1]
    Arc-shaped roof device intended for placement between a first and a second curb, comprising:
    [2]
    Arc-shaped roof device according to claim 1, wherein at least two wire grids comprising the first wire grille, viewed in the longitudinal direction, are arranged side by side;
    At least three transverse arches comprising the first and second transverse arches are provided; and wherein each wire grid of at least two wire grids is provided with a first transverse wire which is slid into the wire receiving channel of a crossbow of the at least three transverse arcs and a second transverse wire which is slid into the second wire receiving channel of a transverse arc of the at least three transverse arcs .
    [3]
    Arc-shaped roof device according to the preceding claim, wherein a transverse arc of the at least three transverse arches is provided with a separating part, and wherein a thread receiving channel is provided on either side of the separating part for accommodating adjacent transverse wires of adjacent wire grids of the ten at least two
    30 wire shelves.
    [4]
    Arc-shaped roofing device according to the preceding claim, the covering comprising at least two longitudinally adjacent plates, and wherein the separating part is located between adjacent transverse edges of two adjacent plates.
    2016/5646
    BE2016 / 5646
    [5]
    5 is attached in or to the first recording structure and a second longitudinal edge thereof is fixed in or to the second recording structure.
    Wire grids are made of metal, preferably steel, even more preferably stainless steel.
    5 of the slit is greater than the thickness of a longitudinal thread and is less than the sum of the thickness of the longitudinal thread and the transverse thread.
    Arc-shaped roof device according to any one of the preceding claims, wherein each wire grid comprises a plurality of transverse wires and a plurality of longitudinal wires attached thereto; and wherein the first and second thread receiving channels are provided with a transverse arcuate slot through which the plurality of longitudinal threads protrude, the height
    5 - a longitudinally oriented elongated first recording structure (400) on the first curb;
    - a longitudinally oriented elongated second recording structure on the second curb;
    - at least a first and second transverse crossbeam (200) between
    [6]
    Arc-shaped roof device according to any one of the preceding claims, wherein the first and second thread receiving channel are each formed with a hook-shaped element which is partly
    [7]
    Arc-shaped roof device according to claims 5 and 6, wherein the hook-shaped element is adjacent to the slot.
    [8]
    Arc-shaped roof device according to claim 6 or 7, wherein each hook-shaped element is formed by an upright wall which is inwardly directed at an upper end, over the first / second transverse thread present in the first / second thread receiving channel.
    20
    [9]
    An arcuate roofing device according to any one of the preceding claims, wherein the covering has a first and a second longitudinal edge attached in or to the first and second receiving structure, respectively; and / or wherein the first wire grid comprises a first and second longitudinal wire included in the first and second recording structures.
    10. Arc-shaped roof device according to the preceding claim, wherein the first and second receiving structure is formed as a first and second longitudinal profile, each with a supporting flange supported on the first and second curb respectively, a longitudinal channel for receiving a first and second longitudinal edge, respectively. of the cover, and with a connecting flange between the support flange and the longitudinal channel to form a gap in which
    30, a first and a second end of each crossbow are included, respectively.
    [10]
    10 wherein a first longitudinal edge of the first plate is arranged in the first recording structure, and a second longitudinal edge of the first plate is arranged in the second recording structure;
    - the arcuate arrangement of a second plate between the first and the second curb, wherein a first longitudinal edge of the second plate is arranged in the
    10 extends over the first and second cross threads such that the first and second cross threads remain anchored in the first and second thread take-up channel at impact on the cover.
    10 the first and second recording structures, each transverse arc having a transversely extending arcuate thread receiving channel (210);
    - at least a first wire grid (100) with a first cross wire (110) slid into the thread take-up channel (210) of the first crossbow (200) and a second cross thread slid into the thread take-up channel of the second
    [11]
    Arc-shaped roof device according to any one of the preceding claims, wherein the covering comprises at least a first and a second longitudinally arranged plate, and an elongated sealing profile is provided for sealing a space between a
    Transverse edge of the first plate and a transverse edge of the second plate; said sealing profile formed with an elongated top flange extending across the space between said transverse edge of the first plate and said transverse edge of the second plate; and wherein a first end of the sealing profile is attached to the first
    2016/5646
    BE2016 / 5646 recording structure, and a second end of the sealing profile is attached to the second recording structure.
    [12]
    Arc-shaped roof device according to any one of the preceding claims, characterized in that it
    [13]
    Arc-shaped roof device according to any one of the preceding claims, characterized in that the covering comprises a multi-walled plastic sheet.
    [14]
    Arc-shaped roof device according to any one of the preceding claims, characterized in that the covering is made of a material from the group: polycarbonate, acrylic, and other thermopiastes.
    [15]
    A first recording structure, and a second longitudinal edge of the second plate is arranged in the second recording structure;
    - arranging an elongated sealing profile for sealing a space between a transverse edge of the first plate and an adjacent transverse edge of the second plate, wherein the sealing profile is formed with an elongated
    15. Arc-shaped roof device according to any one of the preceding claims, characterized in that the covering is flexible such that it can be bent in the transverse direction to a radius of curvature of at least 10 meters.
    15 crossbow;
    - a cover (300) arranged above the first wire grids.
    [16]
    16. Method for placing an arcuate roof device between a first and a
    20 second rebellion, comprising:
    - applying an elongated first recording structure to the first curb, and parallel to it an elongated second recording structure to the second curb;
    - providing at least a first and second transversely oriented transverse arc between the first and the second recording structure, each transverse arc
    25 is provided with a transversely extending arcuate thread receiving channel;
    - sliding a first transverse wire of a first wire grid into the wire take-up channel of the first crossbow and a second cross wire of the first wire grate into the wire take-up channel of the second crossbow;
    30 - applying a covering over the first wire grid.
    [17]
    A method according to the preceding claim, wherein at least two wire grids comprising the first wire grille, viewed in the longitudinal direction, are arranged side by side; wherein at least three transverse arches include the first and the second
    Transverse arch are provided between the first and second recording structures; and wherein for each wire grid of the at least two wire grids, a first transverse wire is slid into a wire take-up channel of a transverse arc of the at least three transverse arcs and a
    2016/5646
    BE2016 / 5646, the second transverse thread is slid into a thread receiving channel of another transverse arc of the at least three transverse arcs.
    [18]
    The method of claim 16 or 17, wherein a first longitudinal edge of the cover
    [19]
    The method of the preceding claim, wherein applying the cover comprises:
    - the arcuate arrangement of a first plate between the first and the second curb,
    [20]
    Top flange arranged over the space between said transverse edges;
    - attaching a first end of the sealing profile to the first receiving structure, and of a second end of the sealing profile to the second receiving structure.
    BE2016 / 5646
    BE2016 / 5646
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    同族专利:
    公开号 | 公开日
    BE1024498A1|2018-03-13|
    PL3284875T3|2019-12-31|
    EP3284875A1|2018-02-21|
    EP3284875B1|2019-01-30|
    BE1024498A9|2018-04-05|
    BE1024498B9|2018-04-09|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    WO2003106780A1|2002-06-14|2003-12-24|Societe Industrielle Du Haras|Device for mounting obstructing means on the edge of an opening|
    AT506626A4|2008-07-10|2009-10-15|Likunet Linhart Und Buchegger|Illuminating roof e.g. barrel shaped light band, for use in e.g. industrial building, has strands provided with bulge units at ends of strands, where units are inserted into recesses in collar and/or in frames and secure strands|
    FR2948953A1|2009-08-07|2011-02-11|Domeca|Covering device for building, has cover surfaces carried by carrying elements and extending between longitudinal banks, and grid extending between longitudinal banks, where grid is arched and extends between carrying elements|
    法律状态:
    2018-03-21| FG| Patent granted|Effective date: 20180319 |
    优先权:
    申请号 | 申请日 | 专利标题
    BE20165646A|BE1024498B9|2016-08-19|2016-08-19|Arc-shaped roof device and method for placing it|BE20165646A| BE1024498B9|2016-08-19|2016-08-19|Arc-shaped roof device and method for placing it|
    EP17186670.0A| EP3284875B1|2016-08-19|2017-08-17|Arched roof device and method for placing thereof|
    PL17186670T| PL3284875T3|2016-08-19|2017-08-17|Arched roof device and method for placing thereof|
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