False ceiling comprising means for wedging panel(s) and method for creating such a false ceiling

Abstract

A false ceiling comprising a bearing structure comprising at least two coplanar and mutually parallel opposite profile members fixed to a ceiling, the profile members between them defining an access opening providing access to the ceiling, each profile member comprising a shoulder defining a horizontal bearing surface facing towards the ceiling, at least one panel positioned between the profile members, the panel being dimensioned to rest on the bearing surface of the profile members, the false ceiling further comprising removable and attached wedging means for transversely wedging the panel between two opposite profile members, the wedging means being arranged on either side of the panel.

Claims

1. A false ceiling comprising a bearing structure comprising at least two coplanar and mutually parallel opposite profile members fixed to a ceiling, the profile members defining an access opening between the profile members, the access opening providing access to the ceiling, each profile member comprising a shoulder defining a horizontal bearing surface facing towards the ceiling, at least one panel positioned between the profile members, the panel being dimensioned to rest on the bearing surface of the profile members by gravity, the false ceiling further comprising removable and attached wedging means for transversely wedging the panel between two opposite profile members, the wedging means being arranged on either side of the panel, wherein the wedging means are arranged to define with the panel a clearance, said clearance allowing the installation of the panel on the profile members, and the panel being removable by pushing while preventing transverse movement of the panel towards one of the profile members with a risk of disengagement at the opposite profile member.

2. The false ceiling according to claim 1, wherein the wedging means are mounted so as to be vertically supported by the bearing surfaces of the profile members.

3. The false ceiling according to claim 1, wherein each wedging means is transversely interposed between a side edge of the panel and a vertical bearing surface of an associated profile member facing towards the opposite profile member.

4. The false ceiling according to claim 3, wherein the panel has a width greater than a width of said access opening, and in that the wedging means have a nominal transverse width set according to the width of the panel and the width of the access opening so as to prevent any transverse displacement of the panel such that one of the side edges of the panel is positioned opposite the access opening.

5. The false ceiling according to claim 1, wherein each wedging means is a wedge bar, an elongate body of which is vertically supported along a bearing surface of an associated profile member, and which is transversely interposed between a side edge of the panel and a vertical bearing surface of the associated profile member facing towards the opposite profile member.

6. The false ceiling according to claim 5, wherein the wedge bar has at least one elongate planar lower face adapted to be supported along a bearing surface of an associated profile member.

7. The false ceiling according to claim 6, wherein the wedge bar has a rectangular or square cross-section so as to comprise two opposite elongate planar side walls adapted to be interposed transversely between a side edge of the panel and a vertical bearing surface of the associated profile member facing the opposite profile member.

8. The false ceiling according to claim 1, wherein the shoulders of the profile members define a bearing surface having a transverse width greater than or equal to 5 mm.

9. The false ceiling according to claim 1, wherein the bearing surfaces of the profile members are located at the same height.

10. The false ceiling according to claim 1, wherein the profile members, having a triangular cross-section, comprise a notch provided in the upper part, with the intersection of two faces of the notch defining the shoulder.

11. The false ceiling according to claim 1, wherein the panel is a bright panel.

12. The false ceiling according to claim 1, wherein the false ceiling comprises a stretched canvas fixed a lower part of the profile members, extending parallel to the panel.

13. A method for installing a panel on a ceiling provided with an existing structure for making a false ceiling, with the existing structure comprising at least two coplanar and mutually parallel opposite rails, the method comprising the steps of: a) fixing a profile member on each rail, with each profile member defining with the profile member fixed to an opposite rail an opening providing access to the ceiling, wherein each profile member, has a triangular cross-section, comprises a notch provided in an upper part, with the intersection of two faces of a notch defining a shoulder, the shoulder defining a horizontal bearing surface facing towards the ceiling, b) obliquely inserting a panel having a cross-section greater than the width of the opening providing access to the space located above the profile members and delimited by the ceiling, c) positioning at least one removable wedging means attached to a bearing surface of one of the profile members, and d) positioning the panel on the bearing surfaces.

14. The method according to claim 13, wherein step c) of positioning is performed before or after the step b) of inserting.

15. The method according to claim 13, further comprising: e) positioning at least another removable wedging means attached to a bearing surface of the other profile member.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) Other objects and advantages of the invention will appear in the following description, with reference to the attached drawings, in which:

(2) FIG. 1 shows a schematic view of a false ceiling according to an example of the realization of the invention,

(3) FIGS. 2a and 2b show the steps for placing a panel on the bearing structure to form the false ceiling shown in FIG. 1.

DETAILED DESCRIPTION

(4) For the understanding of the description and claims, the transverse orientation corresponding substantially to the horizontal orientation of the panel in position, and the longitudinal orientation according to the horizontal direction orthogonal to the plane of the figures, shall be designated.

(5) In connection with FIG. 1, it is described a false ceiling 1 comprising a bearing structure 2, at least one panel 3, advantageously bright, a stretched canvas 5 and means to fix the panel 3 on the bearing structure 2.

(6) Support structure 2 comprises a series of profile members 20, 21 mutually parallel, preferably equidistant from each other, fixed on a ceiling 4. In the example shown, only two transversely opposite profile members 20, 21 are shown. Profiles 20, 21 are fixed to the ceiling 4 via rails 6 carried by the ceiling 4. As will be seen below, when describing the installation of light panel 3, these rails are part of an existing ceiling structure.

(7) Profiles 20, 21 are coplanar and extend mutually parallel. They are symmetrical with respect to each other and are positioned together to define a ceiling access opening 4 of transverse width D.

(8) In the described design mode, each profile 20, 21, of triangular cross-section, has an upper horizontal surface 200, 210, the other two surfaces defining an inner surface 201, 211 inclined and an outer vertical surface 202, 212 of the bearing structure 2.

(9) The inner surface of one profile 20, 21 refers to the surface facing on the side of the access opening and facing the other opposite profile, and the outer surface refers to the surface opposite the inner surface.

(10) At the junction of the upper surface 200, 210 and the inner surface 201, 211 of profile 20, 21, each profile 20, 21 has a notch 7 at right angles, extending along profile 20, 21. Preferably, notch 7 extends over the full length of profile 20, 21.

(11) Notch 7 is thus in the form of a longitudinal groove with a right-angled cross-section similar to an L profile.

(12) Notch 7 defines a shoulder on which panel 3 will rest vertically downward for installation on profile members 20, 21. In the mode of construction shown, each profile 20, 21 has a notch 7 positioned to define a shoulder with a horizontal bearing surface 8 defining a horizontal bearing plane facing towards the ceiling 4. The bearing surfaces 8 of each of the profile members 20, 21 extend in the same plane parallel to the plane of the ceiling 4.

(13) To do this, panel 3 is sized to rest on the horizontal bearing surface 8 of each profile 20, 21. Thus, it has a transverse width greater than the transverse width D of the ceiling access opening, which, in the mode of execution shown, corresponds to the distance D separating the free edges opposite the shoulders.

(14) Preferably, each shoulder has a horizontal bearing surface with a width of 5 mm or more. This has the advantage of limiting the shadow cast on canvas 5 when panel 3 carried by profile members 20, 21 is a luminous panel. Due to the narrow shoulders, panel 3 rests on them only a few millimetres. In order to prevent panel 3 from shifting transversely, and therefore not falling because it is no longer held at one of the shoulders, wedging means 10 are placed on the shoulder of each of the profile members 20, 21, between a side edge 30 of panel 3 and a vertical stop face 9 defining notch 7.

(15) In other words, each notch 7 is delimited by a horizontal bearing surface 8, and a vertical bearing or stopping surface 9.

(16) In the example described, each cushioning means 10 consists of an elongate cushioning bar 10A, 10B.

(17) Each wedge bar is, for example, a straight elongate bar with a rectangular or square cross-section.

(18) In order to ensure that panel 3 is held in place on bearing structure 2, by preventing the panel 3 from moving transversely with respect to profile members 20, 21, or at least by leaving only a clearance that does not allow the panel 3 to move transversely towards one of the profile members 20, 21 with a risk of disengagement at the opposite profile 21, 20, the wedging means 10, here consisting of one or two wedging bars, are appropriately dimensioned.

(19) Each 10A, 10B wedge bar is thus a removable insert component that can be placed in an associated notch 7.

(20) For this purpose, each cushion bar has at least one planar bottom surface 11 which is capable of resting vertically on an associated horizontal bearing surface 8.

(21) Each cushion bar is also delimited by two opposite vertical side faces 12 and 13.

(22) In position in a notch 7, and after mounting panel 3, the outer vertical side face is facing or in contact with a vertical surface 9, while the inner vertical face 13 is facing or in contact with a side edge 30 of panel 3.

(23) Panel 3 is placed on support structure 2 as follows (the movements used to install panel 3 are represented by solid arrows).

(24) First, first wedging means consisting of a first wedge bar 10A are installed in notch 7 of one 21 of the profile members 20, 21, on the corresponding horizontal bearing surface 8 for associated.

(25) Panel 3 is then inserted into the space between ceiling 4 and bearing structure 2 through the access opening at an angle as shown in FIG. 2a.

(26) When panel 3 is sufficiently raised in space, it is pivoted upwards, leaning on the free inner peripheral edge of the horizontal bearing surface 8 (pivoting about the axis formed by the peripheral edge) to place it in a substantially horizontal position, then sliding it towards the wedge bar 10A previously installed on profile 21 (FIG. 2a: movement of the arrows on the right; FIG. 2b: movement of the arrows on the right).

(27) The side 30 of panel 3 opposite the 10A wedge bar is then lifted above the bearing structure 2 in order to install second wedging means consisting here of a second 10B wedge bar on the horizontal bearing surface 8 of profile 20. Once the second 10B wedge bar is installed, the 30 side of panel 3 is lowered to rest on the associated horizontal bearing surface 8 (FIG. 2b: movement of the arrow to the left).

(28) It is understood that the same procedure will be used, but in the opposite direction, to remove panel 3 from support structure 2.

(29) Thus, to proceed with the installation of a panel or slab 3 in one or more parts, the installer may have a set of wedging means in the form, for example, of a set of wedging bars, possibly of different dimensions (length and cross section), which he uses according to the method described above.

(30) The invention is described in the above as an example. It is understood that the skilled person is able to carry out different variants of the invention without going beyond the scope of the invention.

(31) Thus, for example, each panel 3 can be made up of several elements, for example adjacent slabs, but all of the same transverse width.

(32) Similarly, each wedge bar can be in one piece over the entire required length, or in several elements placed adjacent to each other and in the longitudinal extension of each other.