SUPPORT FOR A LINEAR CEILING PANEL

专利摘要:
A linear ceiling element fastening system with a carrier (1) for fastening linear elements to a ceiling, the carrier (1) extending in the longitudinal direction and having at least one recess (11, 12, 15, 16), the recess (11, 12 , 15, 16) for receiving a linear ceiling element and extending through the cross section of the support (1) and being defined by a surface which has at least a first wall section (22) and a second wall section (24), the recess ( 11, 12, 15, 16) separates the first wall section (22) from the second wall section (24), and the second wall section (24) defines a flange (23) which at least partially extends into the recess (11, 12, 15 , 16), whereby the recess (11, 12, 15, 16) is provided with a neck section (19) and a main section (20), and the neck section (19) at its narrowest point a distance d1 of less than 9 mm, which has the first wall section (2nd 2) separates from the second wall section (24).
公开号:AT16721U1
申请号:TGM50076/2019U
申请日:2016-09-08
公开日:2020-07-15
发明作者:
申请人:Hunter Douglas Ind Bv；
IPC主号:

专利说明:

description
The present invention relates to carriers for attaching covers to a ceiling, in particular for attaching linear elements to a ceiling.
Linear ceiling elements have a length in the longitudinal direction which is substantially greater than their width, the length in the longitudinal direction of the element generally being at least three times the width of the element and generally at least five times the width of the element.
Carriers for fastening ceiling elements are known in the prior art. The beams are attached to or suspended from the load-bearing ceiling or the upper part of a wall which is adjacent to the load-bearing ceiling. The ceiling element is attached to the support and thereby mounted on the ceiling.
The present invention aims to provide an improved support that is suitable for attaching linear elements to the ceiling without the need for glue or mechanical fasteners such as screws to attach the ceiling element to the support.
According to the present invention, in one embodiment thereof, a carrier for fastening linear elements to a ceiling is provided, the carrier extending in the longitudinal direction and having at least one recess formed therein, the recess being for receiving a linear ceiling element , wherein the recess extends through the cross section of the carrier, the recess being defined by a surface which has at least a first wall section and a second wall section, the recess separating the first wall section from the second wall section, and the second wall section a flange defined, which extends at least partially into the recess, whereby the recess is provided with a neck portion and a main portion, and wherein the neck portion at its narrowest point has a distance d1 of less than 9 mm, which separates the first wall portion from the second wall portion .
Advantageously, the distance d1 is less than 4.5 mm and preferably less than 3.2 mm. The distance d1 is preferably at least 1.5 mm.
The carrier may have a plurality of recesses formed therein, each recess being adapted to receive the flange of a linear ceiling element.
The carrier may have a plurality of identical recesses formed therein, each recess being adapted to receive the flange of a linear ceiling element.
Alternatively, the carrier may also have a pair of recesses formed therein, the recesses being mirror images of each other and both recesses configured to each receive a flange of a linear ceiling member. The carrier can advantageously have several pairs of such cutouts. Alternatively, the recesses of a pair can differ from one another.
The present invention further provides a linear ceiling element fastening system having the support defined above and further comprising a linear ceiling element with a flexible, resilient flange which extends along all or part of an edge of the element, the flange thereof is configured to fit into and be held in the recess of the bracket, thereby securing the linear ceiling member to the bracket.
The linear ceiling element fastening system may include a plurality of supports, each of which has a plurality of recesses formed therein, each recess configured to receive the flange of a linear ceiling element, and also a plurality of linear ceiling elements as defined above on-
points.
The linear ceiling element fastening system may include a plurality of supports, each having a plurality of pairs of recesses formed therein, the recesses of each pair being mirror images of one another, and the system further comprising a plurality of linear ceiling elements, each one having a flexible, resilient flange extending along all or part of two opposite edges of the element, both recesses of each pair being adapted to receive one flange each of the linear ceiling element, the flanges of the linear ceiling element being arranged to fit into the recesses of the bracket and to be held therein, thereby securing the linear ceiling member to the bracket.
The distance d1 is preferably about three-quarters to two times the combined thickness of the flange and the part of the element which is adjacent to the flange. The distance d1 is preferably approximately 0.75 to 1.00 times the combined thickness of the flange and the part of the element which adjoins the flange.
Each linear ceiling element preferably has a length in the longitudinal direction which is at least three times, and more preferably at least five times, the width of the element.
In a further embodiment of the present invention, the linear ceiling element fastening system comprises at least one carrier for fastening linear elements to a ceiling, the carrier extending in the longitudinal direction and having at least one recess formed therein, the recess for receiving a linear ceiling element, the recess extending through the cross section of the carrier, the recess being defined by a surface having at least a first wall section and a second wall section, the recess separating the first wall section from the second wall section and the second Wall portion defines a flange that extends at least partially into the recess, whereby the recess is provided with a neck portion and a main portion, and wherein the neck portion is at its narrowest point a distance d1 that the first wall portion from the second wall The portion separates, wherein the linear ceiling element fastening system further comprises a linear ceiling element with a flexible, resilient flange that extends along all or part of an edge of the element, the flange being adapted to fit into and be held in the recess of the carrier to thereby secure the linear ceiling element to the support, and wherein the distance d1 is approximately three-fourths to two times the combined thickness of the flange and the part of the element adjacent to the flange.
Preferably, the distance d1 is about 0.75 to 1.00 times the combined thickness of the flange and the part of the element which is adjacent to the flange.
The carrier may have a plurality of recesses formed therein, each recess being configured to receive the flange of a linear ceiling element.
The carrier may have a plurality of identical recesses formed therein, each recess being adapted to receive the flange of a linear ceiling element.
Alternatively, the carrier may also have a pair of recesses formed therein, the recesses being mirror images of each other and both recesses configured to each receive a flange of a linear ceiling member. The carrier can advantageously have several pairs of such cutouts. Alternatively, the recesses of a pair can differ from one another.
The linear ceiling element fastening system may have a plurality of supports, each of which has a plurality of recesses formed therein, each recess configured to receive the flange of a linear ceiling element, and further a plurality of linear ceiling elements as defined above having.
Advantageously, the linear ceiling element fastening system may have a plurality of supports, each having a plurality of pairs of recesses formed therein, the recesses of each pair being mirror images of each other, and the system further comprising a plurality of linear ceiling elements, each have a flexible, resilient flange that extends along all or part of two opposite edges of the element, both recesses of each pair being adapted to each receive a flange of the linear ceiling element, the flanges of the linear ceiling element being configured into which To fit recesses in the bracket and to be held therein, thereby securing the linear ceiling member to the bracket.
The linear ceiling element fastening system of one of the above-described embodiments may have at least one linear ceiling element with a substantially “U” -shaped cross-section that has a central portion and two side walls that extend from the central portion, the element further being flexible , Elastic flange extending from each of the side walls, the elasticity of the flange acting to preferably maintain the angle between each flange and its corresponding side wall at about 90 ° or less.
The flexible, elastic flange is preferably adapted to be bent in the direction of the corresponding side wall of the element to allow the insertion of the flange and the adjacent side wall of the element into the neck portion of the recess of the carrier, the angle β of the Flange with respect to the adjacent side wall is thereby reduced to 10 ° or less, preferably 5 ° or less and most preferably less than 2 °.
The flexible, elastic flange is preferably formed from one or more of the following: thermoformable, non-woven fiber material; Metal material; Rubber material.
The combined thickness of the flange and the part of the element which is adjacent to the flange is preferably in the range of 2mm - 12mm and more preferably in the range of 2mm - 6mm.
[0026] Each linear ceiling element preferably has a length in the longitudinal direction which is at least three times, and more preferably at least five times, the width of the element.
Further features of the carrier and the linear ceiling element fastening system can be found in the appended claims.
The present invention also provides a method of securing a linear ceiling element in a beam, comprising the steps of: providing a linear ceiling element fastening system as described above; Bending, before or during the attachment of the element, a flange of the element towards an adjacent part of the element; Inserting the flange and the adjacent part of the element into a recess of the carrier so that the flange moves past the neck portion of the recess into the main portion of the recess, the elastic nature of the flange then causing the flange to return to its original configuration, as soon as it is no longer limited by the neck portion of the recess.
[0029] The present invention will now be described by way of example only and with reference to the following drawings, of which:
Figure 1 shows an isometric view of a carrier according to the present invention.
Figure 2 shows an isometric view of another carrier according to the present invention.
Figure 3 shows a side view of a beam in combination with a linear ceiling element to form a linear ceiling element fastening system according to a further embodiment of the present invention.
Figures 4a-4c show side views of a linear ceiling element which is mounted in a carrier according to the present invention.
FIG. 5 shows an isometric view of the linear ceiling element fastening system from FIG. 3.
Figure 6 shows a side view of another linear ceiling element mounting system according to the present invention.
Figure 7 shows a side view of a further linear ceiling element fastening system according to the present invention.
Figures 8a and 8b show side views of two further linear ceiling element fastening systems according to the present invention.
Figure 1 shows a carrier 1 for fastening linear elements to a ceiling according to the present invention. The carrier 1 extends in the longitudinal direction L and comprises a central section 7 and two arms 3, 5 which extend from the central section and are provided along the longitudinal direction of the carrier. The carrier has a cross-sectional shape in the form of an inverted, frustoconical “V”. Holes 9 are provided along the central portion of the beam and / or arms 3, 5 to allow the beam to be attached to or suspended from the ceiling.
The carrier 1 is provided with a plurality of recesses 11, 13, 15, 17, 12, 14, 16, 18, which are arranged in pairs a, b, c, d along the length L of the carrier. Each pair of cutouts includes two cutouts that are mirrored images of one another. In general, each pair of recesses of the carrier are identical for ease of manufacture, but in this example each pair of recesses a, b, c, d are shaped differently to show examples of suitable recesses. Other cutout configurations may also be suitable. Alternatively, the pair of cutouts may also include two cutouts that are not mirror images of each other. In this case, the recesses in the pair may be the same or different.
Each recess extends through the cross section of the carrier and is defined by a surface 21. The surface 21 has a first wall section 22 and a second wall section 24 with the recess between the first and second wall sections. The second wall portion 24 of the surface 21 defines a flange 23 which extends into the recess, whereby the recess is provided with a neck portion 19 and a main portion 20. The neck section 19 is narrower than the main section 20.
At its narrowest point, the neck section 19 has a distance d1 of less than 9 mm, which separates the first wall section 22 from the second wall section 24. The flange 23 can have essentially square edges, as is shown, for example, by the recess pairs a, c, d or, alternatively, can have rounded edges, as the recess pair b shows.
Although the carrier of Figure 1 has an inverted, frusto-conical "V" -shaped cross-section, other cross-sectional shapes such as e.g. Reverse or non-reverse "U", "V", "L" or "Omega" shapes possible. The carrier can have a space between the arms 3, 5, as shown in FIG. 1, or alternatively from a solid
ven rod can be formed with a cross section as defined above. For reasons of cost and production, however, a carrier with arms with an intermediate space is preferred over a solid rod.
FIG. 2 shows a carrier 31 for fastening linear elements to a ceiling in a further embodiment of the present invention. In this example, the carrier 31 extends in the longitudinal direction L and comprises a central section 7 and an arm 3 which extends from the central section and which is provided along the longitudinal direction L of the carrier 31. The carrier has a cross-sectional shape in the form of an inverted “L”. The holes 9 are provided along the central section 7 of the beam and / or the arm 3, so that the beam can be attached to or suspended from the load-bearing ceiling.
The carrier 31 is provided with a plurality of recesses 11, 12, 15, 16 which are arranged along the length of the carrier. In general, each recess is identical for ease of manufacture, but in this example each of the recesses 11, 12, 15, 16 are shaped differently to show examples of suitable recesses. Other cutout configurations may also be suitable.
As described with reference to Figure 1, each recess extends through the cross section of the carrier and is defined by a surface 21. The surface 21 has a first wall section 22 and a second wall section 24 with the recess between the first and second wall sections. The second wall portion 24 of the surface 21 defines a flange 23 which extends into the recess, whereby the recess is provided with a neck portion 19 and a main portion 20. The neck section 19 is narrower than the main section 20, and at its narrowest point the neck section has a distance d1 of less than 9 mm, which separates the first wall section 22 from the second wall section 24.
The flange 23 may have substantially square edges, as shown in the cutouts 12, 15 and 16, for example, or alternatively rounded edges, as shown in the cutout 11.
Although the carrier of Figure 2 has an inverted "L" -shaped cross-section, other cross-sectional shapes, such as e.g. that described above with reference to Figure 1 possible.
FIG. 3 shows a side view of a linear ceiling element fastening system 33 with a carrier 1, which is similar to that shown in FIG. 1. For the sake of simplicity, all pairs of cutouts are shown to be identical and have the shape of pair b from FIG. 1. It should be noted that the cutouts can instead have the shape shown as cutout pair a, c or d or another suitable cutout. Each of the pairs of recesses is preferably identical to simplify manufacture.
[0049] The linear ceiling element fastening system 33 also has a linear ceiling element 35. The element 35 is shaped in such a way that it facilitates the fastening of the element 35 to the carrier 1. In particular, the element comprises a central section 37, two side walls 39, 41 and a flange 43, 45 which extends from each of the side walls 39, 41. The central section, the side walls and flanges can be formed separately, but are preferably formed in one piece with one another. The flanges 43, 45 of the ceiling member 35 are formed from a flexible, resilient material which allows the flanges to bend towards the side wall and, when released, to return to their original position.
Figures 4a-4c show a linear ceiling element, as described in relation to Figure 3, which is mounted in a carrier. FIG. 4a shows the element with its flanges in its original position, shortly before being fixed in the carrier. Figure 4b shows the element being attached and it can be seen that the flanges are bent towards the side walls of the element so that the flange can be passed through the narrow neck portion. Figure 4c shows the element after it is attached to the carrier and the
Flanges have passed the neck portion of the recess and, due to their elastic nature, have returned to their original position insofar as the surface 21 which defines the main portion 20 of the recess permits this.
The flanges 43, 45 are designed so that they fit into the corresponding recesses 11, 13 of the carrier. The angle β between the side wall and the flange is approximately 35 ° in this example, whereby other angles β, preferably in the range of 10 ° -100 °, can be used instead.
Due to the nature of the material from which they are made, the flanges retain a certain flexibility and, as shown in FIG. 4b, can be bent towards the side wall, as a result of which the angle β is reduced. Since the flanges can be bent so far that the flange and the adjacent part of the associated side wall can pass through the neck portion of the recess, the flanges and their adjacent side walls can be inserted into their respective recesses 11, 13 of the carrier. As soon as the elastic flanges are inserted, they tend, as shown in FIG. 4c, to return to their original shape and thus to wedge securely in the recess. The flexible and elastic nature of the flanges ideally makes it possible to bend the flanges so that β is very small, preferably less than 10 °, and can approach or reach zero.
The flange is then essentially parallel to the side wall and touches it almost or actually. In this configuration, the flange and the adjacent side wall can be inserted together through the thin neck portion 19 of the recess. The neck portion 19 must have a gap d1 large enough to allow the flange and adjacent sidewall to be inserted, and should therefore be at least the thickness of the flange plus the thickness of the adjacent sidewall for substantially incompressible materials that are flexible enough to allow the flange to bend so that ß is substantially zero. Once the flange is no longer confined by the neck portion, it returns to its original shape insofar as the surface 21 defining the main portion 20 of the recess permits. Over time, and especially when the ceiling elements are exposed to moisture or excessive heat, the flanges may "open", i.e. bend away from the side walls, the angle β tending to increase. However, due to the configuration of the recess, the flange is restricted and cannot “open” due to the area 21 that defines the recess. As a result, the flange of the element is held securely in the recess without the need for additional fasteners such as adhesives or mechanical fastenings (e.g. screws or flexible locking lips on the carrier).
Although the central portion 37 of the element is shown as substantially parallel to the beam in this example, the central portion of the element 37 may be angled with respect to the beam. Likewise, the side walls of the elements can be provided at an angle other than 90 ° to the central section of the element 37.
The linear ceiling elements 35 are mounted in the carrier 1 such that they extend in the longitudinal direction in a direction substantially perpendicular to the longitudinal direction L of the carrier 1. FIG. 5 shows a linear ceiling element fastening system which has a multiplicity of supports 1 and elements 35, the supports being suspended from a ceiling. The distance between each recess of a pair of the recesses determines the width of the linear ceiling element and the distance between pairs of recesses determines the distance between adjacent linear elements. These distance parameters are determined according to the architectural requirements for the building, including, for example, the desired acoustic properties and cooling mechanisms.
FIG. 6 shows a side view of a linear ceiling element fastening system 50 with a carrier 31, which is similar to that shown in FIG. 2. For the sake of simplicity, all the cutouts 51a, b, c are shown to be identical and have the shape of the cutout 12 from FIG. 2. It should be noted that the cutouts instead serve as the cutouts 11, 15
or 16 shown shape or other suitable shape of recess. The cutout can alternatively be in the form of a mirrored image of the cutouts shown or have pairs of cutouts, as are shown, for example, in FIGS. 1 and 3.
[0057] The linear ceiling element fastening system 50 can furthermore have a linear ceiling element 47 in the form of a baffle. Element 47 is shaped to facilitate attachment of the element to bracket 31. In particular, the element comprises a baffle section 53 and a flange 49 that extends from the baffle section 53. The flange 49 is formed from a flexible, elastic material, as described with reference to FIG. 3. The baffle section 53 and the flange 49 can be formed separately, but are preferably formed in one piece with one another.
The linear ceiling elements 47 are fastened in the carrier 31 such that they extend in the longitudinal direction in a direction substantially perpendicular to the longitudinal direction L of the carrier 31 (i.e. through the paper plane in FIG. 3), similar to the elements shown in FIG. 5. The length in the longitudinal direction of the element 47 is preferably at least 3 x (11 + 12), where 11 is the length of the baffle section 53 and 12 is the length of the flange 49, and preferably at least 5 x (11 + 12).
With regard to the linear ceiling element fastening system 33 from FIG. 3, the flanges 49 of the linear ceiling element fastening system 50 are set up to be received and held in the corresponding recesses 51a, b, c of the carrier 31. In this way, the elements 47 can be fastened on the carrier 31 without the need for adhesives or mechanical fastenings (e.g. screws).
FIG. 7 shows a side view of an alternative linear ceiling element fastening system 55. The linear ceiling element fastening system 55 has a carrier 69 which is similar to that shown in FIGS. 1 and 3, with the exception that the cutouts 57, 59, 61 , 63, 65, 67, which form the recess pairs e, f, g, are each mirrored images of the recesses 11 and 13, which are shown in FIG. It should also be noted here that the pairs of the recesses e, f, g instead mirrored images of the recesses 12 and 14 (pair of recesses a) or mirrored images of the recesses 15 and 17 (pair of recesses c) or smaller images of the recesses 16 and 18 (pair of recesses d ) can be, which are shown in Figure 1.
[0061] Alternatively, any other suitable form of recess can be used.
Here, too, each of the pairs of recesses e, f, g is preferably identical to simplify production.
[0063] The linear ceiling element fastening system 55 further has a linear ceiling element 71. Element 71 is shaped to facilitate attachment of an element to bracket 69. In particular, the element 71 has a central section 73, two side walls 75, 77 and a flange 79, 81 which extends from each of the side walls 75, 77. The flanges 79, 81 are formed from a flexible, elastic material, as described in FIG. 3. The side walls and flanges of the central section can be formed separately, but are preferably formed in one piece with one another. However, instead of extending inward, as in the previous examples, the flanges 79, 81 extend outward to the side walls 75, 77, as can be seen in FIG. Again, the flanges 79, 81 are sufficiently flexible to be bent towards the side walls when the flanges and their adjacent side walls are inserted into their respective recesses 57, 59 via the neck portion of the recesses. Once the elastic flanges are in place, they return to their original shape insofar as the surface 21 defining the main portion 20 of the recesses allows. Here, too, the flanges 79, 81 are designed to fit into the corresponding recesses 57, 59 of the carrier 69 and to be held therein, the surface 21 securely holding the flanges in the recess. As in the previous examples, the linear ceiling elements 71 are so in the carrier
69 fixed that they extend in the longitudinal direction in a direction perpendicular to the longitudinal direction L of the carrier 69 (i.e. through the paper plane in Figure 6). Although the central portions 73 of the elements 71 are shown as substantially parallel to the beam in this example, the central portions 73 of the elements may be angled with respect to the beam. Likewise, the side walls 75, 77 of the element can be provided at an angle other than 90 ° to the central section 73 of the element.
FIGS. 8a and 8b show side views of further alternative linear ceiling element fastening systems 83, 85. FIG. 8a shows a linear ceiling element fastening system 83 which has a carrier 70 similar to that shown in FIG. 7, but with differently shaped recesses 52, 54, and further with a linear ceiling element 86. Element 86 is identical to the elements described in relation to FIG. 7, with the exception that the flanges 87, 88 are designed such that they extend essentially at right angles to the side walls 89, 90 (ie in this example, ß is about 90 °). FIG. 8b shows a linear ceiling element fastening system 85 which has a carrier 72 similar to that in FIG. 3, but with differently shaped recesses 56, 58 and also with a linear ceiling element 91. The element 91 is identical to the elements described in FIG Exception that the flanges 92, 93 extend substantially at right angles to the side walls 94, 95 (ie in this example β is approximately 90 °). Here, too, the flexible, elastic flanges 87, 88 of the elements 86, 91 of FIGS. 8a and 8b are held in the recesses of the supports 70, 72 by the surface 21 of the recesses, without the need for adhesives or mechanical fasteners (e.g. screws). As in the previous example, the linear ceiling elements 86, 91 are mounted in the beams 70, 72 so that they extend in the longitudinal direction in a direction perpendicular to the longitudinal direction L of the beams 70, 72 (i.e. through the paper plane in Figures 8a and 8b).
Although specific angles β are described above, the elements may be shaped so that the angle β between the flange and the adjacent side wall of the element may be any angle that allows the flange when in its original position, to be held in the recess of the carrier. A suitable area is e.g. 10 ° <= ß = 100 °.
The flanges (and the element as a whole) can be formed from any suitable flexible, resilient material. Nonlimiting examples of such materials can include fiber materials including thermoformable non-woven fiber materials; Metals; a mixture of metal and fiber material; Rubber, etc.

权利要求:
Claims (10)
[1]
1. Linear ceiling element fastening system, comprising a carrier for fastening linear elements to a ceiling, the carrier extending in the longitudinal direction and having at least one recess which is formed therein, the recess for receiving a linear ceiling element, the recess extending through the cross section of the carrier, the recess is defined by a surface that has at least a first wall section and a second wall section, the recess separates the first wall section from the second wall section, and the second wall section defines a flange that extends at least partially into the recess , whereby the recess is provided with a neck portion and a main portion, and wherein the neck portion at its narrowest point has a distance d1 that separates the first wall portion from the second wall portion, and wherein the linear ceiling element fastening system further comprises: a lineard corner member having a flexible, resilient flange extending along all or part of an edge of the member, the flange being adapted to fit and be held in the recess of the beam, thereby securing the linear ceiling element to the beam , and wherein the distance d1 is less than 9 mm and / or the distance d1 is approximately three-fourths to two times the combined thickness of the flange and the part of the element which is adjacent to the flange.
[2]
The linear ceiling element fastening system of claim 1, wherein the linear ceiling element fastening system includes a plurality of beams, each having a plurality of pairs of recesses formed therein, the recesses of each pair being mirrored images of each other, and wherein the linear ceiling element fastening system is further one A plurality of linear ceiling elements each having a flexible, resilient flange which extends along all or part of two opposite edges of the element, both recesses of each pair being adapted to each receive a flange of a linear ceiling element, the flanges of the Linear ceiling elements are configured to fit into and be held in the recesses of the carrier, to thereby secure the linear ceiling element to the carrier.
[3]
3. Linear ceiling element fastening system according to claim 1 or claim 2, wherein the distance d1 is less than 9 mm.
[4]
4. Linear ceiling element fastening system according to one of claims 1 to 3, wherein the distance d1 is approximately three-fourths to two times the combined thickness of the flange and the part of the element which is adjacent to the flange.
[5]
5. Linear ceiling element fastening system according to one of claims 1 to 4, wherein the distance d1 is less than 4.5 mm.
[6]
6. The linear ceiling element fastening system according to one of claims 1 to 5, wherein the linear ceiling element has a substantially "U" -shaped cross-section and has a central portion and two side walls extending from the central portion, the element further being flexible , Elastic flange extending from each of the side walls, the elasticity of the flange acting to preferably maintain the angle between each flange and its corresponding side wall at about 90 ° or less.
[7]
7. The linear ceiling element fastening system according to claim 6, wherein the flexible, elastic flange is adapted to be bent in the direction of the corresponding side wall of the element in order to insert the flange and the adjacent side wall of the element into the neck portion of the recess of the carrier enable, the angle β of the flange with respect to the adjacent side wall thereby being reduced to 10 ° or less, preferably 5 ° or less and most preferably less than 2 °.
[8]
8. The linear ceiling element fastening system according to one of claims 1 to 7, wherein the flange of the linear ceiling element is formed from one or more of the following: thermoformable, non-woven fiber material; Metal material; Rubber material.
[9]
9. The linear ceiling element fastening system according to one of claims 1 to 8, wherein each linear element has a length in the longitudinal direction which is at least three times the width of the element, and more preferably at least five times the width of the element.
[10]
10. A method for fastening a linear ceiling element in a carrier, comprising the following steps: providing a linear ceiling element fastening system according to one of claims 1-9; Bending, before or during the attachment of the element, a flange of the element towards an adjacent part of the element; Inserting the flange and the adjacent part of the element into a recess of the carrier so that the flange moves past the neck portion of the recess into the main portion of the recess, the elastic nature of the flange then causing the flange to return to its original configuration, as soon as it is no longer limited by the neck portion of the recess.
5 sheets of drawings

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引用文献:

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公开号 | 申请日 | 公开日 | 申请人 | 专利标题

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FR2697273B1|1992-10-27|1995-01-13|Profilor Sa|Device for fixing and installing slats to form ceilings or sub-basements, or claddings for ceilings and vertical walls.|

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CN101241974B|2007-02-09|2010-09-29|深圳富泰宏精密工业有限公司|Battery and portable electronic device with replaceable shell|

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NL1041463B1|2015-09-08|2017-03-22|Hunter Douglas Ind Bv|Linear Ceiling Panel.|

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CA3048391A1|2018-07-04|2020-01-04|Hunter Douglas Industries B.V.|Ceiling system|IT201700104697A1|2017-09-19|2019-03-19|Giuseppe Cipriani|PROFILE FOR SUPPORT STRUCTURES, OR LOAD-BEARING STRUCTURES, OF CEILINGS|

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US20190136521A1|2017-11-09|2019-05-09|Kach Inc.|Metal skeleton for the reinforcement of concrete walls and floors|

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CA3048391A1|2018-07-04|2020-01-04|Hunter Douglas Industries B.V.|Ceiling system|

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WO2020106770A1|2018-11-19|2020-05-28|Dennis Leblang|Metal framing connectors|

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WO2021195269A1|2020-03-25|2021-09-30|Armstrong World Industries, Inc|Ceiling system and carrier component thereof|

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WO2022016079A1|2020-07-17|2022-01-20|Certainteed Ceilings Corporation|Multi-level carrier for ceiling panels and ceiling panel system|

法律状态:

优先权:

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申请号 | 申请日 | 专利标题

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NL1041464A|NL1041464B1|2015-09-08|2015-09-08|Carrier for a Linear Ceiling Panel.|

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