Set of a connection lug and a support element of a floor covering element

专利摘要:
Assembly of a connection tab and of a support element of a floor covering element, which support element comprises a base arranged to be placed on an elevation stud, which base comprises a stop member, which connection tab is arranged to connect the support element to the stud, which base of the support element comprises a set of attachment strips, which connection tab comprises a set of first attachment members, the first members attachment being arranged so as to be able to engage between the attachment strips and come into contact with them in order to allow a translational movement between the support member and the connection tab, which connection tab has a clearance second attachment members arranged to take hold in the pad and allow rotation of the connection tab relative to the elevation pad.
公开号:BE1026829B1
申请号:E20190106
申请日:2019-12-17
公开日:2020-09-25
发明作者:Laurent Buzon
申请人:Buzon Pedestal International Sa；
IPC主号:

专利说明:

The present invention relates to an assembly of a connection tab and a support member of a flooring element floor, which support element comprises a base arranged to be placed on a stud for raising a surface, which base comprises at a first longitudinal end a stop member which extends substantially perpendicularly to the base, which connection tab is arranged to connect the support element to the elevation pad.
Such a support element is known from US D 685 745. The known support element comprises a stop member having a geometry in the form of an ellipse, which is placed at a first longitudinal end of the base. The support member serves to be placed on a stud raising a surface and to support a flooring element which is placed on the stud and which is at the height of an edge of wall. It is well known in the art of surface elevation, or of compensating for the tilt of a surface, to make use of elevation studs. These studs are placed on a ground, which is either flat or inclined. When the ground is flat, the studs are used to raise the surface to create a space that can be used to house electrical cables, among other things. When the ground is tilted, the pedestal serves not only to raise the surface, but also to compensate for the slope. The floor covering, for example formed by slabs or a natural or synthetic wood floor, is then placed on the pedestal. To fill the space between a wall or a wall and the first row of studs, use is made of support elements which are applied to the head of the stud and whose stop member is placed against the wall or the wall. .
A disadvantage of the known support member is that its use is limited to straight walls or walls. Modern architecture and construction techniques and materials nowadays allow
-2- the use of geometric shapes other than straight lines.
There is therefore a need for raised surfaces which can be combined with non-rectilinear walls or walls, or which form corners.
The aim of the invention is to provide a support element which can be used with walls and walls of different geometries and which offers great flexibility to be able to adjust the position of the support element relative to the wall or the wall.
To this end, a support element according to the invention is characterized in that the base of the support element comprises a set of fastening strips which extend over at least 70% of the length of the base, which tab connection comprises a set of first fastening members, the first fastening members being dimensioned and arranged so as to be able to engage between the fastening strips of the fastening strip set and come into contact with them in order to allow a translational movement between the support element and the connection tab, which connection tab comprises a set of second fastening members arranged to engage in the elevation stud and allow rotation of the connection tab by relative to the elevation plot.
As the first attachment members can engage between the attachment strips, this cooperation between the first attachment members and the strips will allow the support element to be able to perform a translational movement relative to the stud.
As moreover the second attachment members allow rotation of the connection tab relative to the elevation pad, and as the support element is connected to the connection tab, the rotation of the connection tab will also allow a rotation of the support member relative to the elevation stud.
This therefore provides great flexibility in the adjustment of the support member relative to the wall or the wall.
A first embodiment of a support element according to the invention is characterized in that the base is provided with at least one
-3- first window which extends longitudinally in the base. These first windows are used to introduce intermediate pieces therein which will then extend between the floor covering elements to keep them at a distance from each other.
A second embodiment of a support element according to the invention is characterized in that the set of first fastening members includes two pairs of first fastening members, the first fastening members being arranged so that each time they form an angle of substantially 90 ° between them, one of the pairs being housed between the attachment strips and the other pair penetrates into the first window located between the attachment strips of the first set when the connection tab is connected to the support member. This helps to correctly guide the support element during its translation relative to the elevation stud.
Preferably the base also has a second window which has a curved geometry, which second window extends to the height of a second longitudinal end of the base, which second end is located on the opposite side from that of the first longitudinal end. This makes it possible to place more intermediate pieces and thus to be able to use different geometries in the choice of the covering elements.
A third embodiment of a support element according to the invention is characterized in that the window or windows is or are arranged in a recess provided in the base. This contributes to the ease of being able to move the spacers in the windows.
A fourth embodiment of a support element according to the invention is characterized in that each intermediate piece is arranged to be placed in the window so that it can also perform a translational movement in the window. This offers great flexibility in arranging the spacer.
-4- Preferably the base comprises a series of perforations passing through this base. This allows the support element to be fixed to the elevation post by using the holes to insert screws to secure the support element to the pedestal.
A fifth embodiment of a support element according to the invention is characterized in that the set of first attachment members is arranged on a first face of a disc around a center of this disc. The latter helps to facilitate the translation of the support element.
Preferably each first attachment member comprises a first segment which extends in a direction substantially perpendicular to the first face of the disc and a second segment substantially perpendicular to the first segment and in a direction which goes away from the center. of the disc, a third segment of the first attachment member being connected to the second segment and forming an angle between 15 ° and 35 ° with the first segment. This facilitates the engagement of the connection tab in the attachment strips.
A sixth embodiment of a support element according to the invention is characterized in that the stop member is formed by at least one flap provided with a notch which extends over the height of the flap, the A notch having a depth such as to allow bending and / or removal of a section of the bib located between the notch and a distal end of the bib. The presence of the notch thus makes it possible either to bend said section of the flap, or to remove it, so as to be able to adapt the support element to the geometry of the wall or the wall in front of which it will be placed. As the support element can thus adapt to the geometry of the wall or the wall, it becomes possible to provide a support for the covering element up to the wall or the wall, even if the latter is non-rectilinear. or form a wedge.
-5.
Preferably, the notch is located in a part of the flap located between 1/3 and 2/3, in particular between 4/9 and 5/9, of the length of the flap. This allows on the one hand to always keep a section of the bib which will be in contact with the wall or the wall, and on the other hand to be able to flex the bib sufficiently or remove a section thereof, and to be able to adapt the support element has a wide variety of wall or wall geometry.
Preferably, the flap (s) is or are placed on a third foot and offset from the base. This makes it possible to be able to break part of the bib without, however, denaturing the base of the support element.
Preferably each intermediate piece is arranged to be placed in the window so as to be able to rotate in the window. This helps to facilitate orientation of spacers between the cladding elements.
Preferably the support element is provided with a hole which is located at the height of the first longitudinal end, which hole is dimensioned to fix a spacer therein. This increases the possibility of placing spacers.
The invention will now be described with the aid of the drawings which illustrate embodiments of the support member and of the assembly according to the invention. In the drawings: Figure 1 shows a support element according to the invention and which is placed on an elevation stud; Figures 2a, b and c show an embodiment of a support element according to the invention; Figure 3 shows a bottom view of the embodiment of a support member according to the invention; Figure 4 shows an embodiment of a connection tab for connecting the support member to the pad;
-6- Figure 5 shows a sectional view through the connection tab; Figure 6 shows a side view above the connection tab; FIG. 7 shows the connection tab connected to the pad; Figure 8 shows an embodiment of an insert for use with the support member according to the invention; Figure 9 shows the support member mounted on the connection tab; and Figures 10a, b and c illustrate the use of the support member according to the invention.
In the drawings, the same reference sign has been assigned to the same element or to a similar element.
FIG. 1 shows a support element 1 according to the invention and which is placed on an elevation stud 3. The elevation stud and its use are generally known and are for example described in patents EP 1 027 511 and EP 3,181,779 which belong to the plaintiff.
These studs are used either to compensate for an inclination of the ground, or to raise the ground, for example to build a terrace or to create space for cables or pipes under a raised floor.
The support element is intended to be mounted on the head of the stud.
After having been placed on the head of the stud, it is moved relative to the head of the stud to adjust its position with respect to a wall or a wall.
If necessary, it will then be fixed on the head of the stud.
The floor covering (not shown in this figure 1) is then placed by placing at least a fraction, for example a corner or a segment, of this floor covering on the support element 1. Figures 24, b and c , as well as FIG. 1, show an embodiment of a support element according to the invention.
Support element 1 is preferably made of a plastic material, such as polypropylene, but of course other materials, such as epoxy
-7- reinforced with glass fibers, or even natural materials,
like wood, can be used.
The support element 1 comprises a base 2 arranged to be mounted on the elevation stud 3. The base comprises an upper face, visible in Figures 1 and 2a and b and a lower face, visible in Figure 3. This base comprises at a first longitudinal end 4 a stop member 5 which extends substantially perpendicular to the base.
The stop member is formed by at least one flap 6-1 provided with a notch 7-1, which extends over the height of the flap.
In the embodiment illustrated in Figures 1 to 3, the stop member comprises two flaps 6-1 and 6-2, each provided with a notch 7-1, 7-2. The two flaps are separated by a distance between them, one flap being located to the right and the other to the left with respect to a center line of the support member.
The notch has a depth such as to allow bending and / or removal by rupture of a first section of the bib located between the notch and a distal end 6d of the bib.
This notch is for example made by leaving a recess in the flap during its manufacture, for example by molding.
Preferably the notch extends over the entire height of the flap.
Preferably the notch 7-1,7-2 is located in a part of the flap located between one third (1/3) and two thirds (2/3), in particular between 4/9 and 5/9, of the length of the bib.
This makes it possible, on the one hand, to always keep a second section of the bib which will be in contact with the wall or the wall, as will be described below, and on the other hand to be able to flex the first section of the bib sufficiently. or remove this first section, and be able to adapt the support element to a wide variety of wall or wall geometry.
Preferably, the bib also comprises reinforcing ribs 15, one of which is placed at the distal end 6d of the bib and at least one other in each section of the bib.
As their name suggests, they serve to stiffen the bib.
The ribs of
-8- reinforcement are placed on the face of the bib oriented towards the base, while the front face of the bib is preferably smooth to facilitate its installation against the wall or the wall. Preferably the bib has a thickness of 3mm and the reinforcing rib has a thickness of 2mm, which makes a total thickness of 5mm at the height of the rib. This 2mm thickness creates a distance between the bib and the floor covering which will be placed against the bib and these reinforcing ribs, thus leaving a space of 2mm which can be used for drainage, for example rainwater.
Preferably, the flap (s) is or are placed on a third foot 8-1, 8-2, which is offset from the base 2. This allows to be able to break part of the flap , or remove one of the flaps, without denaturing the base of the support element. The bib is connected to the third foot at the height of its second section, so as not to interfere with the bending or removal of the first section.
Preferably the base comprises a series of perforations 9 passing through this base. These perforations are aligned in at least one row and placed equidistant from each other. This makes it possible to fix the support element, for example using screws, on the elevation stud by using the perforations to introduce the screws and thus fix the support element on the stud after having it correctly. positioned. The presence of the series of perforations makes it possible to choose one or more fixing points according to the orientation of the support element relative to the head of the stud 3. Preferably each perforation comprises at the level of the upper face of the base a conical recess for housing the head of the screw which fixes the support element to the stud.
According to a preferred embodiment, each perforation is extended by a tube 9 ′, as illustrated in FIG. 2c, which shows a sectional view along line A-A 'of FIG. 2b. This tube extends to
-9- from the underside of the base. This base is preferably provided with a skirt 19 which extends over the entire periphery of the base and encircles the underside of the base. The tubes have the same height as the skirt in order to remain within the enclosure delimited by this skirt.
The support element 1 according to the invention comprises at least one window. The embodiment of the support member 1 illustrated in Figures 1 to 3 has three first windows 10-1, 10-2 and 10-3, which extend for at least 70% of the length of the base and longitudinally in the base 2. These first windows extend in parallel with one another and pass through the base. One of the first windows 10-2 extends between two rows of perforations 9. These first windows serve to introduce therein intermediate pieces 12 which will then extend between the flooring elements, as will be described in more detail below. below, to keep them away from each other. Preferably, the window or windows is or are arranged in a recess 16 provided in the upper face of the base. This recess extends each time over the entire periphery of the first window and forms a platform which serves as a guide and support for the intermediate piece 12 which will be housed in the first window.
In addition to the first windows, the support member preferably also comprises a second window 11, which has a curved geometry, which second window extends at the height of a second longitudinal end 17 of the base, which second end is opposite. at the first end. This second end preferably also has a curved geometry, which matches that of the second window. This second window is also used to introduce intermediate pieces 12 therein and thus to be able to use different geometries in the choice of the covering elements. The second window also has a recess 16.
The support member is also provided with a hole 13 which extends from the upper face of the base and passes through this base. This hole is located
- 10 - at the height of the first longitudinal end 4. The hole is dimensioned to fix an intermediate piece 12 therein and preferably comprises a recess similar to that applied for the windows.
Figure 3 shows a view of the underside of the embodiment of a support member according to the invention. This lower face is provided with a set of attachment strips 14 which extend over at least 70% of the length of the base. The latter are used to apply thereon, for example, a connection tab, which itself will be fixed to the head of the stud, as will be described below. The fastening strips preferably have an L-shaped geometry which extends from the underside. Of course, other geometries such as J or V can also be considered. The fastening strips are preferably applied discontinuously to facilitate mold release during manufacture of the support member and to maintain the rigidity of the support member. Preferably, as illustrated in Figures 2c and 3, the attachment strips extend in parallel on either side of the first window 10-2. They are located between the first window 10-2 and the series of perforations 9. Preferably the fastening strips are aligned in two rows and placed in each row equidistant from each other. The slats of the two rows are arranged face to face. Thus these fastening strips will, so to speak, form a slide which will help guide the support element during its movement relative to the connection tab and the head of the stud. By this combination of the connection tab and the attachment strips it is possible to impose a translational movement on the support element so that it can move on the head of the stud.
The connection between the head of the stud and the embodiment of the support element according to the invention will be made by making use of the connection tab 30, one embodiment of which is illustrated in FIG. 4. The connection tab is preferably made of the same material as that from which the support member is made. This
-11-
connection tab 30 comprises a set of first fastening members having at least one pair of first fastening members 31. Preferably the set of first fastening members comprises four fastening members 31-1 to 31- 4. The first fasteners being so arranged that each time two first fasteners are arranged opposite to each other.
Thus in the example illustrated in Figure 4 the first attachment members being arranged so that they each form an angle of substantially 90 ° between them.
One of the pairs being housed between the attachment strips and the other pair enters the first window located between the attachment strips of the first set when the connection tab is connected to the support element. 'clip being arranged and dimensioned so as to be able to fit between the strips of fasteners 14 of the first set and to be in contact with them when the connection tab is connected to the support member.
When the set of first fasteners has four fasteners two of them, which are opposed to each other, are in contact with the lamellae and the other two enter the first window 10-1. Preferably, the set of first attachment members is disposed on a first face 33 of a disc 32 around a center of the disc which forms part of the connection tab.
The first four attachment members 31-1 to 31-4 are arranged so as to leave around a center of the disc sufficient space to introduce therein a third attachment member 22 which is part of an intermediate piece 12 , as will be described below.
The use of the disc will facilitate the rotation of the connection tab when it is placed on the head of the stud.
Each first attachment member comprises a first segment 34, as illustrated in FIG. 5, which extends in a direction substantially perpendicular to the first face 33 of the disc.
Each first attachment member also comprises a second segment 35 which extends substantially perpendicular to the first segment 34 and
-12- in a direction away from the center of the disc. A third segment 36 of the first attachment member being connected to the second segment 35 and forms an angle a located between 15 ° and 35 ° with the first segment 34. The fact that the first and third segment form an angle between them and that they are interconnected by the second segment, will give this first attachment member a certain elasticity which will facilitate its engagement with the set of strips 14 of the support element.
The first attachment members are placed on a plate 37, itself placed on the first face of the disc 32. This plate will serve, so to speak, as a track for the strips when the connection tab is engaged with the strips, which will facilitate the translational movement that the support element can perform relative to the connection lug. The first attachment members extend relative to the notches 39 provided in the plate, which notches open into an opening 38 in the first face. This facilitates demoulding during manufacture by molding of the fixing tab. To connect the connection tab 30 to the pad 3, a second face 40 of the disc 32, opposite to the first face 33, is provided with a second fastening member 41 arranged around the center of the disc, as illustrated in FIGS. 4 and 5. The second attachment member preferably comprises four first legs 42 arranged between them so as to form a circle. Each of the first legs preferably being provided with a first foot 43 applied to one end of the leg. Each first leg comprises a fin 44 which extends substantially perpendicularly on a rear face of this first leg. The first legs are arranged in a circle the center of which corresponds to that of the disc 32. The first legs are arranged in such a way as to leave a space between them and thus form a central channel 46 which begins with a perforation 45 in the center of the disc.
-13- Thus a fixing screw can be, if necessary, engaged in this channel 46 to fix the connection tab to the pad.
The connection tab will be introduced into the head of the stud 3 by engaging the first legs in a central opening on the head of the stud.
When the first legs are engaged in the stud, their first feet 43 will be able to take hold under the head of the stud and retain the fixing tab on the head of the stud.
The engagement of the first legs in the opening on the head of the stud does not prevent the connection tab from rotating with respect to the head of the stud, since the first legs and their first feet hold the connection tab by friction and by the elasticity of the material from which they are made.
If necessary, a fixing screw can be engaged in the channel 46. This screw can take hold in the fins 44 provided on the first legs.
When the fixing lug is connected to the stud, the first fastening members 31 will extend from the head of the stud, as illustrated in FIG. 7. It is then possible to connect the support element by engaging the strips 14 on the first attachments.
Since two of the first attachment members will then be housed between two rows of slats, it will be possible to slide the support element along the first attachment members thus imposing a translational movement on the support element with respect to the head of the stud.
If, moreover, the connection lug is not blocked by a screw on the head of the stud, it will also be able to rotate relative to the head of the stud.
Thus it will be possible not only to impose a translational movement on the support element, but also a rotational movement.
Being able to impose both a translation and a rotation on the support element will allow a wide possibility of positioning the support element relative to a wall or a wall.
As previously described the support element can be provided with a set of spacer pieces 12, where each spacer piece is arranged to be placed in the first 10 or the second 11.
- 14 - windows, as well as in the hole 13. FIG. 8 shows an embodiment of such an insert 12. The latter comprises a wing 20 which extends in height from a base 21. Under this base is a third attachment member 22, arranged to take hold of the support member.
The wing 20 extends for example over a height of 17mm, so as to be able to extend sufficiently in height, and thus maintain a distance, between two adjacent coating elements, without however exceeding the thickness of these elements. coating. The wing preferably has a rectangular geometry with the top corners rounded. The base preferably has a circular shape in order to be able to allow the rotation of the intermediate piece when it is mounted in a window 10, 11 or in the hole 13. The third attachment member 22 is preferably formed by four second legs. 23 arranged between them so as to form a circle. The four second legs being arranged equidistant from each other. Each of the second legs ends with a second leg 24 having a trapezoidal geometry over its width and being conical in shape over its height. The second foot forms a protuberance from the second leg of which it is part.
The length of the second legs being less than the length of the skirt 19 so as not to disturb the installation of the support element on the head of the stud. The second legs being sized so as to fit under the edge of the window or the hole on the underside of the base. Thus when the intermediate piece is housed in one of the windows or in the hole, the base 21 will be in the recess 16 and its lower face will rest on the platform formed by the recess. The third attachment member will pass through the window or the hole and its second foot, via the protuberance that it forms, will be lodged under the lower edge of the window or the hole to thus retain the spacer in the window or hole. The fact that
The second legs are spaced apart from each other will allow them to be flexible, making it easier to insert the second legs into the window or hole. This introduction is also facilitated by the conical shape of the second leg.
The spacer is not rigidly retained in the window, nor in the hole, to allow this spacer to slide and rotate in the window and to rotate in the hole. This ease of being able to rotate and slide the intermediate piece in the support element will allow a wide possibility of arranging the intermediate piece which will allow the use of the support element for a very large number of elements of the support. flooring with the most diverse geometric shapes.
FIG. 9 shows a support element mounted by means of the connection tab on the head of the stud. Since the connection tab can rotate on the stud head 3, the support element 1 attached to this connection tab will be able to rotate 360 ° both clockwise and counterclockwise, as indicated by the arrows 50 and 51. As moreover the support element can slide on the connection tab, this makes it possible to combine the rotational movement with a translational movement and thus apply the flaps against the wall or the wall. Finally the fact that the spacers can rotate and slide in the first and the second window as well as in the hole will allow a wide range of adjustment to correctly place the spacers between the flooring elements and this for a wide range of geometry of these flooring elements.
Figure 10a illustrates the use of the support member according to the invention when the wall or the wall 25 is straight. The support element 1 is placed on the head of the elevation stud 3. The flaps 6-1 and 6-2 are placed against the wall or the wall 25. As the wall or the wall is straight the flaps extend in a straight line. The floor covering 26 is laid so as to be supported by the support elements and the stud. The
- 16 - presence of the first windows 10 and of the spacers 12 housed in these first windows, allows by imposing a translational and rotational movement to the spacers to place them in such a way that they can extend between two elements of adjacent flooring 26-1 and 26-2, even if these are not rectangular.
FIG. 10b illustrates the use of the support element according to the invention when the wall or the wall 25 forms an angle. Thanks to the presence of the notch 7-1 it is possible to bend the first section of the flap 6-1 so that it matches the angle in the wall or the wall 25. In this figure 10b we also see that the stud d elevation 3 is away from the wall and thanks to the fact that the support element can be moved on the head of the pedestal, it is possible to slide it on the head of the pedestal until the flaps are in contact with the wall or the wall. In a manner analogous to what has been described for FIG. 10a, the flooring element will be supported by the support element and the stud. To adjust the covering element 26-1 to the geometry of the wall or the wall, it will suffice to cut an angle of this flooring element so that it too follows the geometry of the wall or the wall. Thanks to the fact that the support element can be moved on the head of the pedestal and thus come into contact with the wall or the wall, the flooring element will be partly supported by the support element up to the wall or the wall thus reducing the risk of it being overhanging. The presence of the spacers in the first and second windows will allow the spacers to be placed correctly between the adjacent flooring elements.
FIG. 10c illustrates the use of the support element according to the invention when the wall or the wall 25 forms a corner at 90 °. It can be seen that the bib 6-1 has been removed to accommodate the support member to the wedge geometry of the wall or wall. For that it was enough to break or cut in the bib 6-1 at the height of its foot 8-1. In case
-17 - we would need to still have a section of one of the bibs before reaching the corner of the wall or the wall, it will be enough to remove one section of the bib using notch 7 as a line cutting.
When the support element is correctly positioned relative to the wall or to the wall, it will be possible to fix it on the head of the pedestal using screws which will be aimed in one or more of the perforations.

权利要求:
Claims (23)
[1]
1. A set of a connection lug and a supporting element (1) of a floor covering element, which supporting element comprises a base (2) arranged to be placed on an elevation stud (3 ) of a surface, which base comprises at a first longitudinal end (4) a stop member (5) which extends substantially perpendicular to the base, which connection tab is arranged to connect the support element to the elevation stud, characterized in that the base of the support element comprises a set of attachment strips (14) which extend over at least 70% of the length of the base, which connection tab comprises a set of first fastening members (31-1 to 31-4), the first fastening members being dimensioned and arranged so as to be able to engage between the fastening strips (14) of the set of strips of attaches and come into contact with them in order to allow a translational movement between the support element and the connection tab, lacquered it connection tab comprises a set of second attachment members arranged to take hold in the elevation stud and allow rotation of the connection tab relative to the elevation stud.
[2]
2. Assembly according to claim 1, characterized in that the base is provided with at least a first window (10-1,10-2,10- 3) which extends longitudinally in the base.
[3]
3. Assembly according to claim 2, characterized in that the set of first fastening members comprises two pairs of first fastening members, the first fastening members being arranged so that they form each time an angle of substantially 90 ° between them, one of the pairs being housed between the attachment strips and the other pair enters the first window located between the attachment strips of the first set when the connection tab is connected to the support element.
-19-
[4]
4. Assembly according to one of claims 1 to 3, characterized in that the base also comprises a second window (11) which has a curved geometry, which second window extends at the height of a second longitudinal end of the base. , which second end is located on the opposite side from that of the first longitudinal end.
[5]
5. Assembly according to one of claims 2, 3, or 4, characterized in that the window or windows is or are arranged in a recess (16) provided in the base.
[6]
6. Assembly according to one of claims 2 to 5, characterized in that it comprises a set of intermediate pieces (12), each intermediate piece being arranged to be placed in one of the windows so as to be able to turn in the window.
[7]
7. Assembly according to claim 6, characterized in that each intermediate piece is arranged to be placed in the window so as to be able to also perform a translational movement in the window.
[8]
8. Assembly according to one of claims 1 to 7, characterized in that the base has a series of perforations (9) passing through this base.
[9]
9. An assembly according to claim 2 and 8, characterized in that the perforations of the series of perforations extend in two rows and in that one (10-2) of the first windows extends between the two rows of perforations .
[10]
10. An assembly according to one of claims 1 to 9, characterized in that the attachment strips have an L-shaped geometry which extends from a lower face of the base.
[11]
11. Assembly according to one of claims 1 to 10, characterized in that the set of first attachment members is arranged on a first face (33) of a disc (32) around a center of this disc.
- 20 -
[12]
12. An assembly according to claim 11, characterized in that each first fastening member comprises a first (34) segment which extends in a direction substantially perpendicular to the first face of the disc and a second segment (35) substantially perpendicular to the first segment and in a direction away from the center of the disc, a third segment (36) of the first attachment member being connected to the second segment and forming an angle between 15 ° and 35 ° with the first segment.
[13]
13. An assembly according to claim 11 or 12, characterized in that the first attachment members are placed on a plate (37), itself placed on the first face of the disc.
[14]
14. Assembly according to one of claims 11 to 13, characterized in that the second fastening member (41,42) is applied to a second face (40) of the disc, opposite to the first, the second member of fastener being disposed around the center of the disc.
[15]
15. Assembly according to claim 14, characterized in that the second attachment member comprises four first legs (42) arranged between them so as to form a circle, each of the first legs being provided with a first foot (43).
[16]
16. Assembly according to claim 15, characterized in that each first leg (42) comprises a fin (44) which extends substantially perpendicularly on a rear face of this first foot.
[17]
17. Assembly according to one of claims 1 to 16, characterized in that the stop member is formed by at least one flap (6-1,6-2) provided with a notch (7-1,7 -2) which extends over the height of the bib, the notch having a depth such as to allow bending and / or removal of a section of the bib located between the notch and a distal end of the bib.
[18]
18. Assembly according to claim 17, characterized in that the notch (7-1,7-2) is located in a part of the flap located
-21- between 1/3 and 2/3, in particular between 4/9 and 5/9, of the length of the bib.
[19]
19. The assembly of claim 17 or 18, characterized in that the flap (s) is or are placed on a third foot (8-1,8-2) and offset from the base.
[20]
20. Assembly according to one of claims 1 to 19, characterized in that it is provided with a hole (13) located at the height of the first longitudinal end, which hole is sized to fix an intermediate piece therein.
[21]
21. Assembly according to one of claims 1 to 20, characterized in that the base is provided with drainage grooves (18).
[22]
22. A support member for use in an assembly according to one of claims 1 to 21.
[23]
23. Connection tab for use in an assembly according to one of claims 1 to 21.

类似技术:

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公开号 | 公开日 | 专利标题

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同族专利:

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公开号 | 公开日

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BE1026939A1|2020-07-28|

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CA3123029A1|2020-06-25|

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EP3899163A1|2021-10-27|

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KR20210099597A|2021-08-12|

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KR20210104052A|2021-08-24|

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BE1026914B1|2020-07-22|

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BE1026914A1|2020-07-15|

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EP3899162A1|2021-10-27|

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BE1026829A1|2020-06-29|

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AU2019409819A1|2021-07-01|

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WO2020127396A1|2020-06-25|

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CN113195848A|2021-07-30|

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CN113195847A|2021-07-30|

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AU2019400759A1|2021-07-01|

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US20220025660A1|2022-01-27|

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BE1026939B1|2020-08-04|

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SG11202106563VA|2021-07-29|

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US20220056707A1|2022-02-24|

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WO2020127397A1|2020-06-25|

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SG11202106202QA|2021-07-29|

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CA3123752A1|2020-06-25|

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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EP1566503A2|2004-02-23|2005-08-24|Bernd Fuchs|Support for tiles|

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DE202013010315U1|2013-11-14|2014-01-22|Markus Rensburg|Sub-frame of a mounting system for the terrace construction|

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DE102013113267A1|2013-11-29|2015-06-03|Alexander Knoll sen.|fastening device|

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DE102014115272A1|2014-10-20|2016-04-21|Achim Stiehler Gmbh & Co. Kg|Bearings, in particular terrace storage, for a floor fixing part|

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DE202016001842U1|2015-04-01|2016-04-21|Markus Rensburg|Mounting kit for the terrace construction|

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EP3279405A1|2016-08-01|2018-02-07|Soprema |Support pad with integrated shims|

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US685745A|1901-06-26|1901-11-05|Bescherrer Algernon Crisman|Automatic fire-alarm.|

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BE1013067A4|1997-10-31|2001-09-04|Buzon Scril Atel|Adjusting device tilt surface construction on plot.|

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AU344710S|2012-08-22|2012-10-05|Elmich Pte Ltd|Spacer element|

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BE1023695B1|2015-12-14|2017-06-16|Buzon Pedestal International S.A.|DEVICE FOR COMPENSATING THE INCLINATION OF A BUILDING SURFACE|

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DE102016110212B4|2016-06-02|2018-02-22|Achim Stiehler Gmbh & Co. Kg|Support device for the construction of elevated accessible surfaces, for example, terraces or other floors|

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法律状态:
2020-10-23| FG| Patent granted|Effective date: 20200925 |

优先权:

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申请号 | 申请日 | 专利标题

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BE20180157A|BE1026914B1|2018-12-20|2018-12-20|Support element of a floor covering element and assembly of a support element and a connecting lug|

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