• 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:
    A false luminous wall device comprising: - a frame 1 consisting of at least one profile, said frame 1 comprising an upper part directed towards a wall to cover the wall or ceiling type, and a lower part; a taut diffused canvas 2 hooked on the frame 1 and stretched at the lower part of the frame 1; - Lighting means 8 arranged between the wall and the fabric 2, diffusing a light in the direction of the fabric 2. This device is characterized in that the frame 1 is provided with means for increasing the luminous intensity of the means lighting 8.
    公开号:FR3053709A1
    申请号:FR1656506
    申请日:2016-07-06
    公开日:2018-01-12
    发明作者:Edwin Kouijzer;Jean-Marc Scherrer
    申请人:Normalu SAS;
    IPC主号:
    专利说明:

    The invention relates to a luminous false wall device intended to be fixed to a wall such as a wall or a ceiling. The invention therefore relates to the technical field of false ceilings and false stretch walls, behind which is a light source.
    State of the art
    There are known false-wall devices comprising a stretched canvas fixed to the base of a frame, generally parallelepiped, which consists of the association of sections which form each of its sides. To this end, the fabric includes a fastening means fixed along its periphery. For example, as described in patent FR 2 630 476, the fabric can be provided with a peripheral edge in the shape of a harpoon. Another means of attachment consists of clips inserted in the profiles and in which the fabric can be hooked by pinching. The stretched canvas is for example made of textile or a synthetic polymer material, such as polyvinyl chloride (PVC). A light source illuminates the canvas, which itself is translucent, so that light can propagate through the canvas and thus illuminate the room in which the false wall device is installed.
    In particular, in a light box type application, the fabric / sash assembly is placed in an external frame, which is provided with side walls, a bottom, and lighting means. In this case, the frame is fixed to the external frame, and the light scattered by the lighting means passes through the fabric which is translucent.
    Whether it is a false ceiling, a false wall, or a light box, the light intensity at the exit of the fabric is sometimes insufficient compared to the desired result. On the one hand, the translucent fabric generally has a transmittance of around 50%, which generates a loss of 50% of light intensity. On the other hand, the light source can be distant from the canvas, which weakens the light intensity arriving on the canvas.
    Solutions consist in bringing the light source closer to the canvas, multiplying the number of light sources, and choosing high power sources. However, these solutions still have limits in their implementation. In addition, a minimum safety distance is necessary between the light sources and the fabric in order not to degrade it. Thus, despite these solutions, the problem of insufficient light intensity persists.
    On the other hand, the profiles forming the frame generally have a rectangular cross section, with an upper part directed towards the wall and a lower part directed towards the fabric. The fabric generally completely covers the lower part of the profiles. Thus, when we observe the stretched canvas, the lower part of the frame is visible by transparency or by the shadow that it carries on the canvas, which creates an unsightly shadow area around the entire perimeter of the canvas under -face.
    A known solution, disclosed in patent EP 2 494 121, consists in using profiles having a cross section in the shape of a right triangle, one point of which is directed towards the fabric, and of which the hypotenuse constitutes the internal part or face of the frame. In this way, only the point directed at the canvas can still be visible and light can pass along the hypotenuse. This solution improves the lighting of the peripheral periphery of the canvas, but still does not allow to obtain a uniform lighting over the entire surface of the canvas. Indeed, the profile itself, even triangular, always creates a shadow cast on the canvas, resulting in a shaded area at the periphery of the canvas on the underside, with a light intensity lower than that of the rest of the Web.
    Summary of the invention
    The aim of the present invention is to overcome the various drawbacks set out above, by means of a device making it possible to increase the light intensity at the outlet of the fabric in general, and making it possible to homogenize the light intensity over the whole. of the canvas area by eliminating the traditional peripheral shaded area. The device must be simple to implement, and adapt as well to a false ceiling, as a false wall, or even as a light box.
    This object is achieved thanks to a luminous false-wall device comprising:
    - a frame consisting of at least one profile, said frame comprising an upper part directed towards a wall to be covered of the wall or ceiling type, and a lower part;
    - a stretched diffusing fabric hung on the chassis and stretched at the bottom of the chassis;
    - lighting means arranged between the wall and the canvas, diffusing a light in the direction of the canvas.
    This device is mainly characterized in that the chassis is provided with means for increasing the light intensity of the lighting means.
    The main idea of this invention is to use the frame itself to increase the light intensity at the exit of the fabric, instead of playing directly on the parameters of the lighting means as was practiced in the prior art.
    More concretely, said means for increasing the light intensity consist of a reflective surface capable of reflecting incident rays, coming from the lighting means, towards the canvas. The invention is therefore focused on optical principles, in particular the principle of total reflection, using the reflective surface of the chassis. Depending on the orientation of this surface, the reflection properties of this surface, the shape of this surface, and the orientations of the incident light rays from the lighting means, it is possible to increase the light intensity. out of the canvas.
    According to the different embodiments of the invention, which can be taken together or separately:
    each profile has an upper face arranged opposite the wall, an external face oriented perpendicular to the upper face, and an internal face arranged opposite the external face, said reflecting surface being located on said internal face of at least one profile : the section of the profile can be rectangular or triangular for example, the reflecting surface is preferably located on the internal face of all the profiles: in this way, the light is reflected by the whole frame in a homogeneous manner.
    said reflecting surface has a reflectance of around 100% and a transmittance of around 0%: this means that there is total reflection on the surface, no light ray passes through it. It can for example be aluminized.
    said reflecting surface consists of a layer of paint having reflective properties applied to said internal face, said reflecting surface consists of a reflecting plate secured to said internal face: this plate can be glued, or clipped for example.
    said internal face of the profile has a recess capable of accommodating said reflective plate: if the width of the plate is less than the width of the internal face of the profile, this recess makes it possible to maintain a smooth internal surface, therefore without roughness, at the level of the profiled, said reflecting plate consists of a mirror.
    for each profile, the internal face directly connects a longitudinal edge of the upper face to a longitudinal edge of the external face: in this case, the profile has only three faces.
    the internal face consists of a flat surface: in this case, the section of the profile is triangular, the hypotenuse corresponding to the internal face. This flat surface may have a break.
    the internal face consists of a concave surface, with a rounded orientation towards the inside of the device: in this case, the section of the profile consists of a quarter of an oval or a quarter of a round for example. The concave surface can have a more complex shape depending on the desired reflection.
    the frame creates a shaded area on the canvas at its peripheral periphery located opposite the frame, said reflecting surface being configured so as to redirect a part of the light rays coming from the lighting means towards said shaded area to balance the level of brightness over the entire surface of the fabric, said lighting means consist of at least one light source of the LED type: other types of light source can be used, such as fluorescent, halogens, etc.
    said lighting means consist of a plurality of light sources distributed homogeneously within the device: this distribution is calculated so that the light is projected uniformly over the entire surface of the canvas, so that there are no areas brighter than others.
    said fabric consists of a translucent diffusing fabric, preferably of textile or PVC, having a light transmission rate of at least 50%.
    a tablecloth is interposed between the canvas and the wall, and also fixed to the frame: it can have a protective function against insects by preventing them from coming to deposit on the canvas in visible underside, or it can have an acoustic function to improve the acoustic performance of the device, or even have a diffusion function to improve the light distribution on the canvas, etc.
    this translucent diffusing sheet, preferably made of textile or PVC, with a light transmission rate of at least 50%. the canvas completely covers the lower part of the chassis: in this way, the very structure of the chassis is not visible, which improves the aesthetics of the device.
    The invention also relates to the use of this light false wall device, as described above, for the production of light boxes.
    Presentation of the figures
    The invention will be better understood, and other objects, details, characteristics and advantages thereof will appear more clearly during the detailed explanatory description which will follow, of at least one embodiment of the invention given in title of example purely illustrative and not limiting, with reference to the attached schematic drawings.
    In these drawings:
    - Figures 1 to 5 illustrate, in perspective, different examples of false wall devices to which the present invention can be applied;
    Figure 6 is an enlarged view of the light path through a part of the false wall device according to the invention;
    - Figure 7 schematically shows the false wall device according to the invention;
    - Figures 8 to 11 show different possible shapes of profile section for the false wall device according to the invention;
    - Figure 12 shows the integration of a reflective plate on the internal face of a profile.
    detailed description
    It should be noted that, in the figures, the structural and / or functional elements common to the different embodiments can have the same references. Thus, unless otherwise stated, such elements have identical structural and material properties.
    Figure 1 illustrates a possible example of a false wall device.
    This device contains a frame 1 formed by a set of profiles having a complex structure. It is fixed to the vertical walls of a room, by screwing or by any other fixing means.
    For example, in order to create a false wall on a ceiling, the frame has four profiles extending over the four walls of the room.
    A canvas 2 is stretched between these four profiles, at the bottom of the frame, that is to say the distal part of the ceiling. This fabric 2 is provided at its peripheral edges with a harpoon-shaped attachment means 5.
    Each profile has, in the lower part, a groove 16 having a U-shaped section and being delimited by two side walls 17,18 and a bottom wall 19. The ends of the U-shaped side walls, opposite to the bottom wall 19, define an opening for the passage of the harpoon 5 of the fabric 2 in the groove 16. In order to secure the harpoon 5 in the groove 16, the internal face of one of the side walls has a shoulder 20 for longitudinal attachment . In the example illustrated, the shoulder 20 is formed on the internal face of the side wall 17.
    There are several techniques for hanging the stretched fabric 2.
    Instead of the harpoon, a rod can be sewn on the peripheral edges of the fabric 2. This rod has a boss allowing it to be hooked with the shoulder of the groove.
    It is also possible to insert a clip beforehand within the groove, the support of which is always ensured by the shoulder. Then the bare peripheral edges of the fabric 2 slide into the clip and are retained by pinching.
    Other techniques can be envisaged in the context of the present invention.
    So that the room in which this false wall device is installed can be lit, lighting means are provided on the ceiling, and the stretched fabric 2 located under the lighting means is diffusing in order to let the light through.
    Preferably, this diffusing fabric 2 is translucent, with a light transmission rate of at least 50%. It can be made of textile or PVC, or any other suitable material.
    Another fabric, which will be called "tablecloth" 3 to avoid any risk of confusion, can optionally be installed between the lighting means and the canvas 2. This tablecloth 3 is also diffusing, translucent, with a transmission rate at least 50% of light, in order to let in as much light as possible. This sheet 3 can fulfill several functions, namely:
    - a protective function, in order to prevent insects from coming to settle on the canvas 2 in visible underside;
    - an acoustic function, with properties making it possible to increase the acoustic performance of the room, for example in terms of soundproofing;
    - a lighting function, with a homogeneous distribution of the light leaving the sheet 3.
    This sheet 3 is stretched and fixed to the frame 1 in the same way as the fabric 2, but at the level of another groove 21 located in the upper part of the frame 1, therefore proximal to the ceiling. In the example presented, the ply 3 is provided at its peripheral edges with a harpoon 6 capable of sliding into the groove 21.
    This groove 21 has a U-shaped section and is delimited by two side walls 23, 24 and a bottom wall 25.
    The harpoon 6 is held in the groove 21 by means of a shoulder 22 located on the internal face of the side wall 23.
    In this example, the side wall 24 constitutes the upper wall of the frame 1. This wall 24 projects a shadow 7 onto the fabric 2 in the vicinity of its peripheral edges. When we observe the canvas 2 on the underside, there is therefore a shaded area 7 around the entire periphery of the canvas 2.
    FIG. 2 represents a light box able to be suspended by means of hooks 15 from a ceiling.
    This box comprises a frame 1 of rectangular shape, also constituted by an assembly of four sections. The profiles have a different shape from those of FIG. 1, but their function remains identical. Indeed, they are used to stretch the fabric 2. These sections have a rectangular section.
    In this example, unlike FIG. 1, the fabric 2 completely covers the lower part of the chassis, then rises along its outer side so that its harpoon 5 comes to be fixed in a groove located in the upper part.
    In this case, the lower part of the frame 1, directly in contact with the fabric, induces a drop shadow 7 around the entire periphery of the fabric 2, since it prevents the light rays coming from the lighting means 8 from arriving on the periphery of the canvas 2 located just under the frame.
    To avoid this, profiles with triangular sections, as illustrated in Figures 3 to 5, are preferred. This type of section still allows light to pass around the edge of the canvas.
    However, the upper part of the profiles always carries a shadow 7 around the periphery of the fabric, certainly less obvious than for the case in FIG. 2, but still present.
    FIG. 3 shows an example of lighting means 8, consisting of a neon attached to the ceiling 4. However, any kind of lighting means 8 falls within the scope of the present invention, in particular ceiling lights or LED tiles, less consuming energy and diffusing less heat, which is advantageous from a safety point of view to avoid the risks of fire and degradation of the fabric 2.
    In each of these FIGS. 3 to 5, the fabric 2 is stretched at the level of the lower part of the chassis 1, and a ply 3 is stretched at the level of the upper part of the chassis 1.
    In all cases, these frame / canvas assemblies are suitable for covering a wall of a room, therefore by being positioned vertically, or a ceiling of a room, therefore by being positioned horizontally. The frame 1 can be fixed directly to the ceiling via rails, or indirectly by being suspended, or be fixed to the wall by screwing as in Figure 3. The frame / canvas can also be summarized as a light box covering only one part of a ceiling or wall, in a decorative way. All possible configurations are included within the scope of this invention.
    Referring to Figure 6, the device according to the invention is shown in detail, with a profile having a triangular section.
    More concretely, the profile has an upper face 9 directed towards the wall to be covered, an external face 10, and an internal face 11 situated opposite the external face 10, the internal 11 and external 10 faces joining at level of the point 14 of the triangle.
    The fabric 2 covers this point 14 and comes to hang in the profile at the level of a groove 26, equivalent to the groove 16 of FIG. 1, made in the external face 10.
    A groove 27, formed in the inner face in the upper part of the profile, is provided to optionally accommodate a protective sheet 3.
    The upper face 9 of the profile projects a shadow 7 on the peripheral periphery of the fabric 2, as explained above.
    The internal face 11 is coated with a layer allowing it to be reflective. In particular, this reflecting surface 28 reflects the light coming from the lighting means 8. In this example, it is a LED panel, therefore a multi-source device.
    The reflective layer can be obtained by applying a specific layer of paint on the internal face 11, or by hanging a reflective plate on the internal face 11, or by fixing a mirror on the internal face 11, or by any other means making it possible to obtaining a reflecting surface 28 with total reflection, that is to say with a reflectance of the order of 100% and a transmittance of the order of 0%.
    Figure 6 shows different paths of light rays coming from the ceiling light. In this example, the internal face 11 has a break separating a first section 11 a from a second section 11 b, the two sections 11 a and 11 b therefore having a different angle of reflection. However, as explained later in the description, this is only one example among others, and the internal face 11 could very well be entirely flat.
    Certain incident rays Î1, i2, i3 arrive directly on the fabric 2, without touching the profile. They are then slightly refracted by the fabric 2, so as to form refracted rays t1, t2, t3. These rays are present in the shadow area 7, whether the profile is provided with a reflecting surface 28 or not.
    Other incident rays Î7, i8, i9 arrive on the reflecting surface 28, and are then reflected towards the fabric 2, and more particularly towards the shadow area 7. These reflected rays r7, r8, r9 are then slightly refracted by the canvas 2, and form the rays t7, t8, t9 at the exit of the canvas. In the prior art, these incident rays Î7, i8, i9, were stopped or absorbed by the profile, therefore not reflected. The existence of the reflective surface 28 therefore makes it possible to increase the quantity of light rays arriving as far as the fabric 2.
    The incident rays i10, i11, i12 also arrive on the reflecting surface 28, at the level of a section 11b of the internal face 11 having a different angle from the section 11a of the internal face 11 where the rays i4 to i9 arrive. This section 11b therefore reflects light with a different angle, thus forming the reflected rays r10, r11, r12 which arrive on the fabric 2, then which form the refracted rays t10, t11, t12 at the exit of the fabric 2. These rays also arrive in the shadow zone 7, while they were stopped at the level of the profile in the prior art.
    In this example, the rays t1, t2, t3, t7, t8, t9, t 10, t 11, t 12 all arrive at the peripheral periphery of the fabric, while in the prior art only the rays t1, t2 , t3 did it. This consequent increase in the number of rays reaching the peripheral periphery of the fabric 2 makes it possible to greatly attenuate, or even eliminate, the shadow area 7.
    This reflecting surface 28 therefore makes it possible to homogenize the distribution of the light on the fabric 2, in order to improve its aesthetics.
    On the other hand, this reflecting surface 28 also makes it possible to increase the level of lighting in general on the canvas 2.
    Indeed, for example, the incident rays Î4, i5, i6 are reflected by the reflecting surface 28, forming reflected rays r4, r5, r6 projected onto the canvas 2 outside the shadow area, that is ie in the central zone of the fabric 2. These rays are then slightly refracted, and form the refracted rays t4, t5, t6 at the exit of the fabric 2. These incident rays Î4, i5, i6 were stopped by the profile in the prior art, and are now projected onto the canvas 2, thus creating a general increase in the light power at the output of the canvas 2, even outside the shadow area 7.
    This is best represented in FIG. 7, where the incident rays il4, i15 form reflected rays r14, r15 arriving on a more central area of the fabric 2, before being slightly refracted into rays t14, t15 at the exit of the fabric 2.
    It should be noted that the paths of the light rays are purely indicative, and that other angles of incidence, reflection and refraction can be obtained by playing on many parameters, such as the orientation of the light sources, the inclination of the inner face 11, the reflection properties of the reflecting surface 28, the refraction properties of the fabric 2, etc. The addition of a layer 3 also modifies the path of the incident rays.
    In particular, depending on the desired result on leaving the fabric, the internal face 11 can take various forms.
    In FIG. 8, the internal face 11 of the profile is entirely flat.
    In FIG. 9, the internal face 11 of the profile has a break 11c separating two flat sections 11a and 11b, thus taking up the form illustrated in FIGS. 6 and 7.
    In FIG. 10, the internal face 11 is of concave shape, with the rounding oriented towards the inside of the device. The rounding corresponds to a quarter of an oval.
    In FIG. 11, the internal face 11 is of concave shape, with the rounding oriented towards the inside of the device. The rounding corresponds to a quarter of a circle.
    Of course, other shapes can be envisaged, in order to best reflect the rays coming from the light sources 8.
    With reference to FIG. 12, in the case of a reflective plate 28 whose width is less than the width of the internal face 11 of the profile, a recess 29 can be made on the internal face 11 in order to accommodate the plate therein. 28. The width of the recess is substantially equal to the width of the plate 28, so that the external appearance of the profile, at the level of the internal face, is completely smooth, therefore without roughness. This allows the light to be properly reflected.
    The reflecting surface 28 can be used in all the examples described in FIGS. 1 to 5. In particular, the internal face 11 of the frame 1 (a fortiori of the profiles) can be provided with a reflecting surface 28.
    The light intensity at the output of fabric 2 will generally be increased.
    In addition, the light will be distributed evenly over the entire surface of the fabric 2, even at the level of the shading area 7, except for the device in FIG. 2 where the shading area 7 will persist across the width of the lower part of the chassis 1 in contact with the fabric 2.
    In the examples described, the frame 1 forms a rectangle with four profiles so as to take the traditional rectangular shape of a ceiling or a wall or a box. However, it is possible to envisage a chassis having a circular or oval shape, with one or more shaped profiles. The invention encompasses all of these embodiments.
    With regard to the description above, the optimal dimensional relationships for the parts of the invention, including variations in size, materials, shapes, function and modes of operation, assembly and use , are considered to be apparent and obvious to those skilled in the art, and all relationships equivalent to that illustrated in the drawings and that described in the specification are intended to be included in the present invention.
    权利要求:
    Claims (15)
    [1" id="c-fr-0001]
    1. Illuminated false wall device comprising:
    - a frame (1) consisting of at least one profile, said frame (1) comprising an upper part directed towards a wall to be covered of the wall or ceiling type, and a lower part;
    - a stretched diffusing fabric (2) attached to the frame (1) and stretched at the bottom of the frame (1);
    - lighting means (8) arranged between the wall and the fabric (2), diffusing a light in the direction of the fabric (2);
    characterized in that the frame (1) is provided with means for increasing the light intensity of the lighting means (8).
    [2" id="c-fr-0002]
    2. Light false wall device according to the preceding claim, characterized in that said means for increasing the light intensity consist of a reflecting surface (28) capable of reflecting incident rays, coming from the lighting means ( 8), towards the canvas (2).
    [3" id="c-fr-0003]
    3. Illuminated false wall device according to the preceding claim, characterized in that each profile has an upper face (9) disposed opposite the wall, an external face (10) oriented perpendicular to the upper face, and an internal face. (11) disposed opposite the external face (10), said reflecting surface (28) being located on said internal face (11) of at least one profile.
    [4" id="c-fr-0004]
    4. Light false wall device according to one of the preceding claims 2 to 3, characterized in that said reflecting surface has a reflectance of around 100% and a transmittance of around 0%.
    [5" id="c-fr-0005]
    5. Illuminated false wall device according to one of claims 2 to 4, characterized in that said reflecting surface (28) consists of a layer of paint having reflective properties applied to said internal face (11).
    [6" id="c-fr-0006]
    6. Light false wall device according to one of claims 2 to 4, characterized in that said reflecting surface (28) consists of a reflecting plate secured to said internal face (11).
    [7" id="c-fr-0007]
    7. Light false wall device according to the preceding claim, characterized in that said reflecting plate consists of a mirror.
    [8" id="c-fr-0008]
    8. Illuminated false wall device according to one of claims 3 to 7, characterized in that, for each profile, the internal face (11) directly connects a longitudinal edge of the upper face (9) to a longitudinal edge of the external face (10).
    [9" id="c-fr-0009]
    9. Illuminated false wall device according to the preceding claim, characterized in that the internal face (11) consists of a flat surface.
    [10" id="c-fr-0010]
    10. A false false wall device according to claim 8, characterized in that the internal face (11) consists of a concave surface, with a rounded face towards the inside of the device.
    [11" id="c-fr-0011]
    11. Illuminated false wall device according to one of claims 8 to 10, characterized in that the frame (1) creates a shaded area (7) on the fabric (2) at its peripheral periphery located opposite the frame (1), said reflecting surface (28) being configured so as to redirect a part of the light rays coming from the lighting means (8) towards said shaded area (7) to balance the level of brightness over the whole of the canvas surface (2).
    [12" id="c-fr-0012]
    12. Light false wall device according to one of the preceding claims, characterized in that said lighting means (8) consist of at least one light source of the LED type.
    [13" id="c-fr-0013]
    13. Light false wall device according to one of the preceding claims, characterized in that said lighting means (8) consist of a plurality of light sources distributed homogeneously within the device.
    [14" id="c-fr-0014]
    14. Light false wall device according to one of the preceding claims, characterized in that said fabric (2) consists of a translucent diffusing fabric (2), preferably of textile or PVC, having a light transmission rate. at least 50%.
    [15" id="c-fr-0015]
    15. Use of a light false wall device according to any one of the preceding claims for the production of light boxes.
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    同族专利:
    公开号 | 公开日
    AU2017293056A1|2019-01-24|
    FR3053709B1|2019-10-18|
    JP2019519899A|2019-07-11|
    WO2018007125A1|2018-01-11|
    US20190242123A1|2019-08-08|
    CN109790713A|2019-05-21|
    EP3482012A1|2019-05-15|
    US10697176B2|2020-06-30|
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    EP2977518B1|2014-07-24|2016-11-16|Normalu|Luminous wall plate for stretched-fabric false wall and false wall comprising such a wall plate|
    US10563850B2|2015-04-22|2020-02-18|DMF, Inc.|Outer casing for a recessed lighting fixture|
    KR20160144784A|2015-06-09|2016-12-19|엘지이노텍 주식회사|Lighting apparatus|
    US10101002B2|2015-11-09|2018-10-16|Apple Inc.|Light fixture with fabric layer having printed dots|DK3482011T3|2016-07-08|2020-09-21|Kvadrat Soft Cells As|Panel for a suspended ceiling or the like and method of mounting a fabric on a frame of a suspended ceiling or the like|
    FR3101653B1|2019-10-02|2022-02-18|Newmat|PROFILE ELEMENT FOR FALSE WALL WITH STRETCHED CANVAS, FALSE WALL COMPRISING SUCH PROFILE ELEMENT|
    法律状态:
    2018-01-12| PLSC| Search report ready|Effective date: 20180112 |
    2018-01-25| PLFP| Fee payment|Year of fee payment: 2 |
    2018-06-21| PLFP| Fee payment|Year of fee payment: 3 |
    2019-06-21| PLFP| Fee payment|Year of fee payment: 4 |
    2020-06-23| PLFP| Fee payment|Year of fee payment: 5 |
    2021-06-23| PLFP| Fee payment|Year of fee payment: 6 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1656506A|FR3053709B1|2016-07-06|2016-07-06|LUMINOUS LOWERING DEVICE|
    FR1656506|2016-07-06|FR1656506A| FR3053709B1|2016-07-06|2016-07-06|LUMINOUS LOWERING DEVICE|
    AU2017293056A| AU2017293056A1|2016-07-06|2017-06-16|Lighting false-wall device|
    US16/315,402| US10697176B2|2016-07-06|2017-06-16|Luminous false-wall device|
    JP2018566916A| JP2019519899A|2016-07-06|2017-06-16|Light emitting pseudo wall device|
    EP17730176.9A| EP3482012A1|2016-07-06|2017-06-16|Lighting false-wall device|
    CN201780052749.2A| CN109790713A|2016-07-06|2017-06-16|Shine vacation wall device|
    PCT/EP2017/064742| WO2018007125A1|2016-07-06|2017-06-16|Lighting false-wall device|
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