[0001] The present invention relates to an assembly system, by means of wall-brackets hooked
to respective plates, of a wall-cupboard to a supporting structure.
[0002] More specifically, the present invention relates to an assembly system of a wall-cupboard
to a supporting structure consisting of two walls: a first rear load-bearing wall
and a second front wall, interspaced with respect to said first wall, so as to form
an interspace for housing elements for the rigid connection between said first rear
load-bearing wall and said plates.
[0003] The meaning intended to be given to the words used herein, is the following.
[0004] The term wall-cupboard refers to any type of furniture which cantilever-extends from
a supporting structure, at any height from the floor.
[0005] The term wall refers to any type of wall or panel, framework or similar, made of
any material, on which a wall-cupboard can be assembled.
[0006] The term wall-bracket refers to any type of device, visible or hidden, which, fixed
to the wall-cupboard, is destined to be hooked to a plate attached to a supporting
structure.
[0007] Wall-brackets of the known type are described, for example, in European patents
EP2219495,
EP2303068,
EP2299873,
EP2421406, to which reference should be made for further clarifications, and which should be
considered as being an integral part of the present description.
[0008] The term plate to which the wall-bracket is hooked, refers to any type of support
(plate, bar, or similar) made of metal or other material, fixed to the supporting
structure to which a wall-bracket can be fixed to the wall-cupboard.
[0009] Considering the above, as is well-known to skilled persons in the field, the current
tendency of interior designers - above all for kitchen projects - is to furnish kitchens
entirely with wall-cupboards, whether they be actual "suspended wall-cabinets" at
a greater height, or so-called "bases" at a lower height, both cantilever-extending
from a supporting wall.
[0010] In addition to this tendency, it is now fashionable, mainly for aesthetical reasons,
to furnish kitchens with a front wall, interspaced from the load-bearing wall, or
rear wall, so as to form an interspace destined for housing connection elements between
said rear and front walls.
[0011] The supporting structure described above, consisting of two walls: a first rear load-bearing
wall and a second front wall, interspaced with respect to the first wall, has raised
the technical problem of how to safely assemble the wall-cupboards; in other words,
how to unload the entire weight of the wall-cupboards on the rear load-bearing wall
alone, leaving the front wall virtually load-free.
[0012] The general objective of the present invention is to solve the above technical problem
and, according to the present invention, said technical problem has been solved by
preparing an assembly system, by means of wall-brackets hooked to respective plates,
of a wall-cupboard to a supporting structure consisting of two walls: a first rear
load-bearing wall and a second front wall, interspaced with respect to said first
wall, so as to form, with the same, an interspace, characterized in that rigid connection
elements are housed in said interspace, between said first rear load-bearing wall
and said plates which are assembled outside said second front wall, whereby said second
front wall is assembled between said connection means and said plates without being
affected by the load of the wall-cupboard.
[0013] This objective is also achieved by a system according to the combination of the main
claim described above, with one or more of the dependent claims.
[0014] The structural and functional characteristics of the present invention and its advantages
with respect to the known art will appear even more evident from the following description,
referring to the enclosed drawings, which show examples of assembly systems produced
according to the innovative principles of the invention itself.
- figures 1, 2 and 3 are perspective and sectional views for illustrating the technical
problem the invention proposes to solve;
- figures 4, 5 and 6 are views similar to 1, 2 and 3, illustrating an embodiment of
an assembly system produced according to the present invention;
- figure 7 is a perspective view illustrating part of the assembly system of figures
4, 5 and 6;
- figure 8 is a plan section of the assembly system illustrated in figure 7;
- figures 9 and 10 are two sectional views, vertical and plan, respectively, illustrating
the assembly system of a so-called "base" wall-cupboard;
- figures 11 and 12 are two views similar to figures 9 and 10, but illustrating the
assembly system of a wall-cupboard above a "base" wall-cupboard;
- figure 13 is a perspective view illustrating another possible embodiment of connection
elements between rear wall and front wall of the structure of supporting the wall-cupboards;
- figures 14 and 15 are two views, raised and plan, respectively, of the connection
elements of figure 13;
- figures 16 and 17 are two sectional views, vertical and plan, respectively, illustrating
the assembly system of a "base" wall-cupboard, using the connection elements of figures
13-15; and
- figures 18 and 19 are two sectional views, in vertical and plan, respectively, illustrating
a further embodiment of an assembly system according to the invention.
[0015] With reference to figures 1-3 of the drawings, 20 and 21 respectively indicate a
rear and a front wall of a structure supporting so-called "base" wall-cupboards 22,
assembled at a lower height with respect to a floor P, and wall-cupboards 23 assembled
at a greater height.
[0016] The rear wall 20 can consist, for example, of a wall, whereas the front wall 21 can
consist, for example, of panels made of wood, plasterboard, plastic or other materials.
The rear wall 20 has a load-bearing function, whereas the front wall 21 has a purely
aesthetical function, and also for supporting shelves, and is supported by means of
an autonomous supporting system which can be of any type (not shown), independent
with respect to the assembly system of the wall-cupboard according to the invention.
[0017] Said walls 20, 21 are interspaced between each other, usually parallel to each other,
so as to form an interspace 24.
[0018] Connection elements C between said supporting wall 20 and supporting plates 25, 26
of the wall-cupboards 22, 23, are housed in said interspace 24.
[0019] Wall-brackets 27, 28 fixed to the cupboards 22, 23, must, in fact, be hooked to said
plates 25, 26, respectively lower and upper (or to other equivalent supporting means)
assembled against the front wall 21. Said plates 25, 26 can also be of the type described
and illustrated in European Patent
EP2510833, or of another known type.
[0020] In this way, opposite forces are generated F1, F2, F3 which,
if not adequately counteracted, tend to tilt the wall-cupboards towards the outside.
[0021] The objective of the invention, as already mentioned, is to provide an assembly system
capable of resisting said forces F1, F2 and F3 when the cupboard is loaded, and also,
above all with respect to "base" wall-cupboards, when the cupboard is subjected to
stress by anomalous loads, such as, for example, by the weight of a person who is
forcefully leaning against the cupboard itself.
[0022] With reference to figures 4-12, the technical problem indicated above is solved,
according to the invention, by rigidly connecting the rear load-bearing wall 20 to
the plates 25, 26 by means of rigid connection elements C.
[0023] According to a preferred embodiment of the invention, the position of said rigid
connection elements C can be regulated with respect to depth.
[0024] For this purpose, the rigid connection elements C comprise a first part P1 fixed
to the rear load-bearing wall 20 and a second part P2 fixed to the plates 25, 26.
[0025] According to a possible embodiment of the invention, more specifically, said rigid
connection elements C can consist of a tubular upright 29 (first part P1) and a plurality
of "U"-shaped brackets 30 (second part P2) fixed to said upright 29, interspaced at
different heights, corresponding to the height of the plates 25, 26.
[0026] As can be clearly seen from the drawings, in the example shown, said tubular upright
29 has a square section, but it can have also different sections. Preferably, but
not necessarily, the upright 29 rests on the floor P by means of an adjustable foot
31, and is securely fastened to the rear load-bearing wall 20 by means of dowels 32
(figure 8).
[0027] As can be clearly seen from figures 9-12, the brackets 30 are fixed to the upright
29 in an adjustable position, in depth (as indicated by the arrows of figure 8), by
means of registration means comprising pairs of bolts 33 passing through elongated
slots 34 of the bracket 30 and circular holes 35 of the upright 29. A telescopic coupling
is thus formed between the upright 29 and the brackets 30.
[0028] As can be clearly seen from figures 9-12 of the drawings, according to the invention,
the plates 25, 26 are fixed to the respective brackets 30 by means of screws 36. The
screws 36 pass freely through holes 37 of the front wall 21 and are screwed into threaded
holes 38 of the bracket 30, thus pushing the respective plates 25, 26 against the
front wall 21 which is consequently abutted against the brackets 30, as illustrated
in the drawings.
[0029] Self-perforating and self-threading crews of the known type can also be used, which
do not require the preparation of the pass-through holes 37 and threaded holes 38,
through the wall 21 and the upright 29, respectively.
[0030] The brackets 30 may also be lacking, and the plates 25, 26 can be directly fixed
to the upright 29.
[0031] It appears evident how the forces F1, F2 and F3 mentioned above are completely transmitted
to the rear load-bearing wall 20, through the kinematic chain consisting of: the plates
25, 26, the screws 36, the bracket 30 and the upright 29, completely releasing the
front non-load-bearing wall 21, which is simply abutted against the brackets 30, and
which is equipped with its own supporting system (not shown), independent of the assembly
system of the wall-cupboards.
[0032] The wall-cupboards 22, 23 are hooked to the respective plates 25, 26 in a completely
known way, through hooks 39, 40 of the hanging-brackets 27, 28.
[0033] Figures 14-17 illustrate a possible alternative embodiment of the invention, in which
the rigid connection elements C consist of (instead of the tubular upright 29) a plurality
of profiled sections 41, for example, omega-shaped, fixed by means of dowels 42 to
the rear wall 20, interspaced at different heights.
[0034] As can be clearly seen from the drawings, the brackets 30 are fixed to said profiled
section 41 substantially in the same way used for fixing them to the upright 29.
[0035] Figures 18 and 19 illustrate a further embodiment of the invention, in which the
front wall 21 is not abutted against the brackets 30, but is slightly interspaced
from the same by a space S. Also in this way, said front wall 21 is not affected by
the forces F1, F2 and F3 which subject the wall-brackets 22, 23 to stress.
[0036] For this purpose, distancing bushings are envisaged, or spacers 43, coaxial to the
screws 36. As can be clearly seen from the drawings, said spacers 43 act between the
brackets 30 and the plates 25, 26 when the latter are fixed to the same brackets 30.
[0037] The term rigid connection elements refers to any structural element, also composite,
made of metal or other material, capable of rigidly interconnecting the rear load-bearing
wall to the plates on which the panels are hooked.
[0038] The objective mentioned in the preamble of the description has therefore been achieved.
[0039] The protection scope of the patent is defined by the enclosed claims.
1. An assembly system, by means of wall-brackets (27,28) hooked to respective plates
(25,26), of a wall-cupboard (22,23) to a supporting structure consisting of two walls
(20,21): a first rear load-bearing wall (20) and a second front wall (21), interspaced
with respect to said first wall (20) so as to form an interspace (24), characterized in that rigid connection elements (C) are housed in said interspace (24) between said first
rear load-bearing wall (20) and said plates (25,26) which are assembled outside said
second front wall (21).
2. The system according to claim 1, characterized in that the position of said rigid connection elements (C) can be regulated in depth.
3. The system according to claim 2, characterized in that said rigid connection elements (C) comprise a first part (P1) fixed to said rear
wall (20) and a second part (P2) fixed to said plates (25,26), said first and second
parts (P1,P2) being interconnected so that the position can be telescopically regulated
in depth, by means of regulation means.
4. The system according to claim 1, characterized in that said rigid connection elements (C) comprise a tubular upright (29) fixed to the rear
wall (20) and to said plates (25,26).
5. The system according to claim 1, characterized in that said rigid connection elements (C) consist of a tubular upright (29) fixed to the
rear wall (20) and a plurality of "U"-shaped brackets (30) fixed to said upright (29),
interspaced at different heights, corresponding to the height of the plates (25,26).
6. The system according to claim 5, characterized in that said plates (25,26) are fixed to respective brackets (30) by means of screws (36)
that pass freely through pass-through holes (37) of the front wall (21) and are screwed
inside threaded holes (38) of the bracket (30).
7. The system according to claim 5, characterized in that said brackets (30) are fixed to the upright (29) so that the position can be regulated
in depth.
8. The system according to claim 1, characterized in that said rigid connection elements (C) consist of a plurality of omega-shaped sections
(41) fixed to the rear wall (20) interspaced at different heights and anchored to
the front wall (21).
9. The system according to claim 1, characterized in that said rigid connection elements (C) consist of a plurality of omega-shaped sections
(41) fixed to the rear wall (20) interspaced at different heights, brackets (30) being
fixed to said sections (41), so that the position can be regulated in depth, to which
said plates (25,26) are fixed.
10. The system according to claim 4, characterized in that said upright (29) rests on a floor (P) by means of an adjustable foot (31).
11. The system according to claim 4, characterized in that said upright (29) has a substantially square section.
12. The system according to claim 1, characterized in that said front wall (21) is assembled interspaced by a space (S) with respect to said
connection elements (C).
13. The system according to claim 6, characterized in that spacers (43) acting between said bracket (30) and said plates (25,26), cooperate
with said screws (36).