• 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:

    公开号:DK200700295U1
    申请号:DK200700295U
    申请日:2007-12-04
    公开日:2007-12-28
    发明作者:Madsen Johnny Schytz;Hougaard Per
    申请人:Vind Fast Aps;
    IPC主号:
    专利说明:

    iDK 2007 00295 U3
    BACKGROUND OF THE INVENTION 1. Field of the Invention The invention relates to a bracket for mounting a luminous panel in a luminaire in a wall comprising an outer wall and an inner wall.
    Lighting panels are used to cover the parts of the inner wall as well as the insulation which lies between the facing and visible after mounting a window, door or the like. Traditionally, the luminaire panel is attached directly to the inner wall by means of nails or screws. In order to provide a sufficiently stable retention of the luminaire panel, the inner wall then typically has double the thickness of the luminaire, whereby the space between the outer wall and the inner wall becomes very small and thus the substrate more stable. However, this creates a cold bridge around the lighting as the insulation thickness is naturally small.
    It is therefore the object of the invention to enable mounting of lighting panels without or with reduced cooling effect.
    This object is met when the luminaire panel is mounted with a bracket comprising a first element for attachment to the outer wall and a second element for retaining the luminaire panel, which second element comprises two substantially parallel flanges having a spacing substantially equal to one another. to the thickness of the clearing panel.
    When the luminous panel is inserted between the two flanges, it will be retained at its edge sealed by the outer wall and the thickening of the inner wall is thus superfluous. This means that the insulation can be continued with the same thickness all the way to the lighting. The other edge of the luminaire panel, furthest from the outer wall, can, as heretofore, be attached to the inner wall with nails, screws or the like.
    In order to provide effective retention of the luminous panel, the distance between the flanges must be substantially equal to its thickness. If this distance is slightly greater than the thickness of the clearing panel, only the holding of the clearing plane will be maintained. However, the distance can also be made slightly smaller than the thickness of the luminous panel, so that it will be spaced between the flanges, which will provide a hold on all planes and thus facilitate mounting. This effect is most easily achieved by using a bracket where the flanges have some elasticity. It is therefore preferred that the bracket is made of 2 2DK 2007 00295 U3 plastic, but metals can also be used. A plastic bracket will typically be made by casting and may have embedded reinforcements, e.g. in the form of metal bodies.
    The bracket can be attached to the outer wall in many ways depending on the design of the outer wall. If a masonry wall is used, it will be advantageous to wall the first element of a mortar joint, and if a concrete wall is used, it will be advantageous to embed the bracket therein. Usually, it will be most convenient that the first element of the bracket is arranged to lie substantially horizontally in the outer wall of the mounted position.
    For mounting and use stability, it is preferred that it comprises a third member connecting the first and second members and increasing the bracket stiffness in such a way that the second member is prevented from bending relative to the first member. element perpendicular to the flanges. This contributes in two ways to a good fitting of the luminaire panel: firstly, the increased stiffness will facilitate the mounting of the bracket in the outer wall, which will make it sit more precisely, and secondly, the second element will not easily give in to forces applied on the lighting panel during or after mounting thereof.
    Since the orientation of the luminaire panel will be largely determined by the orientation of the flanges of the bracket, it is important that the bracket sits properly in the outer wall. To ensure this, the bracket may be provided with a first positioning body intended for abutment against a surface of the outer wall facing the groove. This element will act as a guide to ensure that the bracket will not sit too deep and at the same time will reduce the risk of turning the bracket.
    The bracket may also be provided with a second positioning body intended for abutment against a surface of the outer wall facing the inner wall. This, in particular, counteracts rotation of the bracket and when used with the first positioning body as described above, the two will together form a right angle which will lie around an inner corner of the outer wall, thus providing a particularly good positioning.
    3 3DK 2007 00295 U3
    If the first element is walled or molded, it is advantageous to have recesses in the surface, thereby enabling increased mortar / concrete bonding. Holes that provide all the way through the element will have the same effect and may even work better than recesses.
    Holes in the elements of the bracket can also be used to increase the stiffness of the bracket and especially the third element can therefore advantageously be provided with one or more holes. The most appropriate design and placement of the holes depends on the material selection and dimensions and is determined by experiment or calculation.
    Finally, holes or recesses can be used to promote proper use of the bracket, as they can make the bracket easier to handle and can indicate the intended orientation of the bracket.
    A wall structure in which the liner is designed for use with a fabric according to the invention differs from the conventional as mentioned above in that the thickness of the inner wall and the insulation are constant. Furthermore, in a preferred embodiment, the inner wall is slightly retracted relative to the illumination, so that while the flange of the visit closest to the illumination lies substantially in plane with a surface of the exterior wall facing the illumination, a surface of the inner wall, which faces the groove, substantially in plane with the flange of the bracket which is farthest from the groove. The term "in line with" here is meant as an indication of overall location and not as the two parts being at exactly the same level. For example, it does not matter if the flange closest to the illumination is located with one or the other surface at the level of the outer wall surface or somewhere between and slight variations in mounting will also not cause the structure to fall outside the scope of the invention.
    The above considerations apply both to fittings for use at the top and bottom of the groove and for fittings for use at its sides. However, the detailed design of fittings for these two applications may vary, particularly because the first element is in any case preferred to mount horizontally. Differences and similarities will be described below with reference to the drawing, which illustrates preferred embodiments of the two mounting variants.
    The drawing shows:
    FIG. 1 is a vertical section through a wall in which a luminous panel is mounted at the top of the lumen with a bracket according to the invention; FIG. 2 is a perspective view of the embodiment of FIG. 1; FIG. Fig. 3 is a horizontal section through a wall with luminous panel mounted with a bracket according to the invention; 4 is a perspective view of the embodiment of FIG. 3, and FIG. 5 is a vertical section similar to that of FIG. 1, just at the underside of the groove.
    A bracket 1 according to the invention is shown in FIG. 1 used for mounting a luminous panel 2 in a wall 3. A first bracket element 11 is lined in the outer wall 31, more specifically in the mortar joint 311 immediately above the reinforced wall beam 312. A second bracket element 12 comprises two parallel flanges 121 and 122, the first 121 is located in extension of the lower edge of the masonry beam, while the second 122 is substantially flush with the lower edge of the inner wall 32. The luminous panel 2 is interposed between the two flanges and thus covers the underside of the insulation 33 and of the inner wall 32.
    The first and second bracket members 11, 12 are connected to each other by means of a third bracket member 13. In the embodiment shown, this third member is formed as a plate perpendicular to the plane of the illumination to give the bracket stiffness but more flimsy designs. can also be used.
    Finally, the bracket has two positioning bodies 14, 15, one 14 abutting the bottom edge of the outer wall, while the other 15 abutting its inside and thus can be said to form part of the third bracket element 13. Together, the two positioning elements form an angle , which spans the lower, inner corner of the outer wall.
    In the illustrated embodiment, the first positioning body 14 is in extension of the first flange 121, but it should be understood that these may also be slightly displaced relative to each other, so that the flange 121 will instead lie with its underside is in line with the underside of the outer wall.
    Both the second positioning body 15 and the third bracket element 13 are shown in FIG. 1 performed higher than the distance from the second bracket member 12 to the first 11 and thus rise above the latter. This results in a further increased positioning stability, since the positioning body also abuts against the rock 313 lying above the mortar joint 311 and partly an increased stiffness.
    In the example shown, a window 4 is mounted in the clearing and its frame 41 covers the bracket so that it is neither visible from the inside or from the outside. Of course, the exact design and positioning of the window can vary, just as a door or other can be mounted in the window, but due to the relatively limited size of the bracket, it will normally be covered for all time.
    In the embodiment shown in FIG. 1, the window 4 is mounted by means of a screw 42 passed through the illumination panel 2. This, of course, requires the use of an illumination panel of an appropriate strength, e.g. of plywood. In other embodiments, the window 20 can also be attached directly to the outer wall 31 and then less strong materials can be used for the luminaire panel, e.g. plasterboard.
    The bracket of FIG. 1 is a perspective view of FIG. 2. As can be seen, the first bracket member 11 is provided with recesses 111, 112 in the sides. Upon grouting, the mortar will settle into these recesses and after curing this will provide a greatly increased resistance to extraction. A similar effect can, of course, be achieved by providing the fitting element with through holes and to a lesser extent also by providing it with recesses perpendicular to the surface.
    Both the first positioning body 14 and the upper part of the second positioning body 15 are here given a triangular shape, but can also be rectangular or curved.
    The bracket of FIG. 2 can also be used to attach the luminous panel to the bottom of the window, as it simply turns the other way around.
    For attaching the luminaire panel to the luminaire sides, 6 bracket 2007 00295 U3 uses a bracket with a slightly different design. Such a bracket 5 is shown in FIG. 3 and 4. As seen in a comparison of FIGS. 2 and 4, the design of the second and third brackets 52, 53 of the side bracket 5 corresponds closely to the design of the corresponding elements 12, 13 of the top / bottom bracket 1. The difference between the two brackets lies in the design of the first bracket element 51, which here is perpendicular to the flanges 521, 522, while at the top / bottom bracket it is parallel to them. As a result, the second positioning element 55 also looks slightly different, but in effect it does not differ from that of the top / bottom bracket 1.
    The bracket 5 is, as seen in FIG. 4, provided with four holes 511 of different sizes in the first element 51. The purpose of these is as described for the recesses 111 in the top / bottom bracket. 3, the side bracket 5 is seen walled into the outer wall 31 of the wall 3, the overall structure of which corresponds closely to that of FIG. 1. Thus, the inner wall 32 is here also retracted relative to the outer wall over a distance corresponding to the thickness of the luminous panel and the window 4 is mounted in the same way. The bracket also lies here with the two positioning bodies 54.55 ending around the outer corner of the outer wall. The only difference, as explained above, is that the first decision element is angled differently, so that it is also placed here in a horizontal mortar joint between bricks.
    FIG. 5 shows a bracket 6 which corresponds substantially to the bracket of FIG. 1 and 2, but without the positioning body 14 and with a significantly greater distance between the first element 61 and the second element 62,
    The first positioning body is here omitted to enable a better seal 43 to be obtained between the window frame 41 and the sole bench 314. Also, in the case where the underside of the groove is constituted by a roller change, the use of a positioning body corresponding to the 14 which is shown in FIG. 1 and 2, be inappropriate.
    As seen in FIG. 5, the bracket 6 spans the sole bench 314 and the two underlying stones 315, 316. The extra height also allows the bracket to be used in cases where the outer wall is finished with a 7 7DK 2007 00295 U3 roller switch, where the bricks stand upright, or where the bracket should span a pedestal.
    A fitting such as that shown in FIG. 5, can also be used immediately at the top of the groove, simply reversing.
    In a preferred embodiment, the bracket is designed so that it can be used at both the top and bottom sides of the groove, thereby minimizing the risk of misalignment. It will therefore often be preferable that the shorter bracket described in connection with FIG. 1 and 2, is formed without the second positioning body 14 or the longer bracket 6 is also used at the upper side. The use of the longer bracket at the top also allows the use of more powerful overlays.
    In the embodiments shown, molded plastic fittings and all of their parts are 11,51,61; 12,52,62; 13,53,63; 14,54; 15,55,65 are plate-shaped with substantially the same thickness. However, if desired, one or more parts may be designed differently. For example, the first positioning body 14,54 could be formed as two protruding pins or the first bracket member 11,51,61 as a horseshoe-shaped hanger. Since such a bracket is in principle merely to be regarded as a plate with a hole in and rounded corner, it may also, by appropriate design, replace one or both flanges 121,122; 521,522; 621,622.
    In the foregoing, the first bracket member is described as walled or embedded in the outer wall in a horizontal position. However, it should be understood that the bracket can also be designed for fastening with screws or nails and that it may then be necessary to give the first bracket element a different design than that illustrated and described. Such a modification will be immediately comprehensible to one skilled in the art.
    The dimensions and shapes of the individual parts of the bracket and their relative size can be varied as required and are therefore not limited to those shown. Similarly, it should be understood that the spacing and angle of the parts can be varied as long as the bracket can be used for its purpose as described above and in the claims.
    权利要求:
    Claims (10)
    [1]
    8 8GB 2007 00295 U3
    [2]
    A bracket for mounting a chute panel in a groove in a wall comprising an outer wall and an inner wall, which bracket comprises a first member for attachment to the outer wall and a second member for retaining the groove panel, said second member comprising two in the main case. parallel flanges having a spacing substantially equal to the thickness of the luminous panel.
    [3]
    A bracket according to claim 1, wherein the first element is designed for wall-mounting or embedding in the outer wall. 3. A bracket according to any one of the preceding claims, comprising a third member connecting the first and second members and increasing the bracket stiffness in such a way that the second member is prevented from bending relative to the first member. element perpendicular to the parallel flanges.
    [4]
    A bracket according to any one of the preceding claims, further comprising a first positioning body intended for abutment against a surface of the outer wall facing the groove.
    [5]
    The fitting according to any one of the preceding claims, further comprising a second positioning body intended for abutment against a surface of the outer wall facing the inner wall,
    [6]
    A fitting according to any one of the preceding claims, wherein one or more of the first, second and third elements are provided with recesses or holes.
    [7]
    A bracket according to any one of the preceding claims, which bracket is made of plastic, preferably by casting.
    [8]
    A bracket comprising at least one bracket according to any one of claims 1-7, wherein the flanges of the second element are parallel to the first element and at least one bracket according to any one of claims 1-7, wherein the flanges of the second element is perpendicular to the first element.
    [9]
    Wall comprising an outer wall and an inner wall, in which a wall panel is mounted in a wall, characterized in that the DK 2007 00295 U3 9 wall panel is mounted by at least one bracket, where a first element of the bracket is attached to the outer wall. while the luminous panel is retained in another element of the bracket, the luminous panel being interposed between two substantially parallel flanges of the second element, which flanges have a spacing corresponding to the thickness of the luminous panel.
    [10]
    The wall according to claim 9, wherein the flange of the bracket closest to the groove is substantially flush with a surface of the outer wall facing the groove, and a surface of the inner wall 10 facing the groove. is generally in plan with the flange of the bracket which is farthest from the groove.
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    同族专利:
    公开号 | 公开日
    DK200700295U3|2008-01-25|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    DK201700057U4|2017-05-25|2017-09-22|Winmaster Aps|DECLARATION FOR FIXING LIGHTING PLATES|
    法律状态:
    2017-12-22| UUP| Utility model expired|Expiry date: 20171204 |
    优先权:
    申请号 | 申请日 | 专利标题
    DK200700295U|DK200700295U3|2007-12-04|2007-12-04|Bracket panel mounting bracket|DK200700295U| DK200700295U3|2007-12-04|2007-12-04|Bracket panel mounting bracket|
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