[0001] The present invention relates to a self-locking coupling particularly for profiled
elements of casements, door-and window-frames and the like, and to accessories provided
with said self-locking coupling.
[0002] As is known, in the production of frameworks for casements, door- and window-frames
and the like, effected by means of profiled elements in aluminum and the like, it
is currently necessary, to apply the so-called accessories of the framework, to execute
a whole series of successive operations which require long times and specific equipment.
[0003] In particular, according to a currently very widespread method, it is necessary to
form perforations in the profiled elements to connect, by means of screws, possible
counterplates, or to attach, by means of fixing dowels, the various particular accessories
to be added.
[0004] This fact, besides making the operations of production of the various frameworks
particularly long and laborious, in many cases compels said operations to be effected
with poor versatility and flexibility in use and assembly, and the execution of said
operations directly in the factory, their execution not being generally possible at
the installation site.
[0005] The aim proposed by the invention is indeed to eliminate the above described disadvantages
by providing a self-locking coupling designed specifically for profiled elements of
casings, door- and window-frames and the like, which can be applied to a profiled
element without having to resort to screws or to perforations in the profiled element
itself, by simply using recesses which are already usually provided on said profiled
elements.
[0006] Within this aim, a particular object of the invention is to provide a coupling which
is rapidly and simply applicable to the profiled element, not requiring for its installation
laborious operations, but simply a rotation of a quarter turn executable with an ordinary
tool such as a spanner.
[0007] Still another object of the present invention is to provide a self-locking coupling
which is usable for the provision of an entire range of accessories produced specifically
according to the type of connected or to the element which must be connected.
[0008] Not least object of the present invention is to provide a self-locking coupling which
is easily manufacturable from commercially readily available materials and which is
competitive from a merely economical standpoint of view.
[0009] The above described aim, as well as the objects mentioned and others which will be
come apparent hereinafter, are achieved by a self-locking coupling particularly for
profiled elements of casements, door- and window-frames and the like, according to
the invention, characterized in that it comprises a coupling tang extending from an
abutment body and ending in coupling protuberances, said coupling protuberances having
a smaller width and a greater length than the distance between the opposite wings
delimiting the coupling seat defined on a profiled element, said protuberances, on
the face directed towards said abutment body, defining at least one inclined-plane
portion engageable with said wings to generate a movement of said couplings in the
direction defined by said tang upon rotation of the coupling about said direction,
said wings, with said coupling applied to said profiled element, being clamped between
said coupling protuberances and said abutment body.
[0010] Further characteristics and advantages will become apparent from the description
of a preferred but not exclusive embodiment of a self-locking coupling particularly
for profiled elements of casements, door- and window-frames and the like, illustrated
only by way of non-limitative example in the accompanying drawings, wherein the various
accessories employing the coupling are also illustrated; in the drawings:
figure 1 is a schematic perspective view of the self-locking coupling, according
to the invention, and a seat of a profiled element for the insertion of said coupling;
figure 2 is a front view of the coupling;
figure 3 is a cross section view of the coupling taken at the level of the coupling
tang, to highlight the configuration of the coupling protuberances;
figure 4 is a sectional view taken along the line IV-IV of figure 1 at the moment
of the introduction of the coupling tang of the body into the seat;
figure 5 is a sectional view taken along the line IV-IV of figure 1 with the self-locking
coupling in a locking position;
figure 6 is a sectional view taken along the line VI-VI of figure 4;
figure 7 is a sectional view taken along the line VII-VII of figure 5;
figure 8 is a sectional view taken along the line VIII-VIII of figure 5;
figure 9 is a schematic exploded perspective view of an abutment block and of a profiled
element on which the abutment block is applicable;
figure 10 is a front view of the abutment block seen from the part bearing the tang;
figure 11 is a front elevation view of the abutment block;
figure 12 is a lateral elevation view of the abutment block;
figure 13 is a sectional view of the abutment block during the initial step of insertion
into the profiled element;
figure 14 is a view of the abutment block connected to the profiled element;
figure 15 is a schematic exploded perspective view of a fixing pin with the coupling
according to the invention seen in relation to a profiled element;
figure 16 is a perspective view of the fixing pin;
figure 17 is a schematic view of an element to be coupled, seen from its face directed
towards the profiled element;
figures 18 and 19 are lateral elevation views, illustrating both sides of the fixing
pin;
figure 20 is a schematic view of the fixing dowel in the initial step of insertion;
figure 21 is a partially sectional view of the fixing pin with the element fixed to
the profiled element;
figure 22 is an exploded perspective view of a different embodiment of the fixing
pin and related coupling seat;
figure 23 is a sectional view of the fixing pin of figure 22 applied to a profiled
element;
figure 24 is a bottom plan view of the fixing pin;
figures 25, 26 and 27 are views, respectively in lateral elevation from one side,
in lateral elevation from the other side and in top plan, of the fixing pin;
figure 28 is a plan view of the coupling seat;
figure 29 is a sectional view taken along the line XXIX-XXIX of figure 28;
figure 30 is a sectional view taken along the line XXX-XXX of figure 28;
figure 31 is a schematic perspective view of a joint for connecting profiled elements,
with the self-locking coupling illustrated exploded with respect to an upright profiled
element;
figure 32 is an view of the joint connected to the upright profiled element and of
exploded transverse profiled element;
figure 33 is a sectional view of the joint with the tang inserted into the hole before
locking is performed;
figure 34 is a transverse sectional view at the level of the coupling tang;
figure 35 is a schematic sectional view of the joint, once the coupling between the
upright profiled element and the transverse profiled element is performed;
figure 36 is a schematic exploded perspective exploded view of a block for connecting
to the self-locking coupling, according to the invention, used in a device for the
connection of reclining members;
figure 37 is a perspective view of the slider;
figure 38 is a front view of the slider;
figure 39 is a sectional view along the line XXXIX-XXXIX of figure 38;
figure 40 is a view of the slider from one end thereof;
figure 41 is a view of the slider from the other end thereof;
figure 42 is a perspective view of the connecting block;
figure 43 is a front view of the connecting block;
figure 44 is a sectional view along the line XLIV-XLIV of figure 43,;
figure 45 is a lateral view of the connecting block;
figure 46 is a view of the connecting block from the end provided with the self-locking
coupling element.
[0011] With reference to the above described figures, and in particular to figures 1 to
8, the self-locking coupling particularly for profiled elements of casings, door-
and window-frames and the like, which is generally indicated by the reference numeral
1, comprises a coupling tang 2 extending from an abutment body, which may have various
configurations, as will become apparent hereinafter, according to the type of specific
use.
[0012] The coupling tang 2, as illustrated in figure 3, preferably has, in cross section,
a configuration which is determined by rectilinear portions indicated at 2a, which
extend parallel to each other which, at two opposite corners, preferably have rounded
portions 2b; the tang 2 may possibly have, in transverse cross section, a substantially
circular configuration.
[0013] The tang 2 ends, at its free end, with coupling protuberances, generally indicated
by the reference numeral 10, which, when seen in plan view have an approximately rectangular
configuration with a width which is smaller that the distance present between the
opposite wings 11 which delimit a coupling seat 12 provided on a profiled element
13.
[0014] The protuberances 10 have a length which is greater than the distance between the
wings 11 and substantially equal to the inner width of the seat 12 which is defined
between the arms 14 which extend from the profiled element 13 and terminate at the
opposite wings 11.
[0015] As pointed out in the figures, the opposite sides 10a, placed at the longitudinal
ends of the protuberances 10, at two opposite corners, are radiused to the transverse
counterposed sides 10b by means of arc-like portions 10c, also configured according
to a portion of circumference having its center in the axis of rotation of the tang
2.
[0016] The protuberances 10, on the side directed towards the abutment body, which is generally
indicated at 3, define two opposite inclined planes, indicated at 20, which have their
lower level defining a distance from the free end of the protuberances, in the axial
direction with respect to the tang, which is smaller than the distance between the
inner edge of the wings 11 and the bottom of the seat 12.
[0017] The abutment body 3, in the region where the tang 2 extends, may be provided with
a recess 30 the function whereof will become apparent hereinafter.
[0018] To complete the coupling, at the front face of the lateral protuberances 10, there
may be provided a centering and penetration cone, indicated at 40, which abuts against
the bottom of the seat 12.
[0019] In practical use, the self-locking coupling, according to the invention, is simply
inserted by introducing the lateral flaps 10 arranged so that their longitudinal extension
coincides with the longitudinal extension of the tabs 11; in these conditions, as
already previously mentioned, the lateral flaps may be inserted within the seat 12.
[0020] Once the protuberances are inserted, it is sufficient to execute a rotation through
90° in the direction defined by the inclined planes 20, so as to insert the inclined
planes 20 below the wings 11.
[0021] During this rotation step, due to the presence of the inclined planes, a translatory
component is generated in the direction defined by the axis of the tang 2, with insertion
and locking of the lateral protuberances 10 within the seat 12.
[0022] The longitudinal ends 10a of the protuberances may act as stop elements for the rotation,
since they abut against the inner surface of the arms 14, effecting locking or the
continuation of rotation.
[0023] The wings 11, once the rotation is performed, are locked, as pointed out in figure
8, between the abutment body 3 and the lateral protuberances 10; a recess on the abutment
body, generally indicated at 3, is furthermore provided in the coupling region of
the tang 2, a deformation of the wings being obtained so as to create in practice
a curve, indicated at 50 in the drawing, which prevents the possibility of sliding
the coupling with respect to the seat.
[0024] Furthermore, the possible presence of the centering cone 40, which in practice produces
a notch in the bottom of the seat 12, besides acting as centering element, further
increases the locking action in the direction of longitudinal sliding with respect
to the seat 12.
[0025] With reference to figures 9 to 14, the above described insertion element is used
for the provision of an abutment block for accessories of profiled elements for casements
in which the abutment body, indicated at 51, has a substantially elongated configuration
and has, in transverse cross section, a trapezoidal shape.
[0026] From the abutment body 51 there extends the insertion tang 2 which ends with the
protuberances 10, similarly to what has been described above. Said abutment block
has radiused thereto at an inclined angle a locking tooth 52, located at a point spaced
from the region where the tang 2 is provided.
[0027] With reference to figures 15 to 21, a fixing pin particularly suitable for the coupling
of accessories to profiled elements in general is illustrated. Said fixing pin, which
is generally indicated by the reference numeral 60, has an abutment body which is
constituted by a head 61 of a substantially cylindrical configuration which, on its
outer face, has a polygonal depression 62 for engagement with a tool. From the other
base with respect to the face having the polygonal depression 62 there extends the
coupling tang which is similar to the one previously described to obtain the coupling
element.
[0028] The coupling seat, indicated at 63, defines means which prevent rotation of the fixing
pin with respect to the seat. Said means, in a preferred embodiment, are constituted
by radial protrusions 64 provided on the face of the head 61 which engages with the
bottom of the coupling seat 63 and which are accommodatable in complementarily shaped
recesses 65 defined on said bottom, so as to obtain a coupling which opposes the rotation
in the uncoupling direction.
[0029] With reference to figures 22 to 30, a different embodiment of the fixing dowel, generally
indicated at 70, is illustrated, having an abutment body constituted by a frusto-conical
head 71, capable of facilitating centering in the conical coupling seat indicated
at 72.
[0030] More in detail, a tooth 74 with different inclinations, ending with a portion 75
which is arranged substantially on a plane perpendicular to the axis, is provided
on the lower surface of the head 71.
[0031] The seat 72 in turn has a complementarily shaped recess 76 which extends substantially
for 90° and ends with a terminal depression 77.
[0032] The walls which delimit the end of the depression act as stroke limiters for the
tooth 74 which, upon the insertion of the locking body, only allow a rotation through
90°.
[0033] At the end of the locking rotation, the portion 75, being stressed in compression,
enters in the terminal recess 77, executing a precise locking with no possibility
of return.
[0034] With reference to figures 31 to 35, a connection joint is illustrated, provided with
the above described coupling, which has an abutment body constituted by a small block,
generally indicated by the reference numeral 81, which advantageously has a substantially
parallelepipedal configuration which is complementary to the configuration of the
central body 82 of a transverse profiled element 83. Said small block 81 is insertable
in said profiled element and has a through hole 86 for fixing to said profiled element.
[0035] At an end of said small block 81 there extends a coupling tang with protuberances
of the above described type.
[0036] In practical use, to perform the coupling of the upright profiled element, indicated
at 85, to the transverse profiled element, it is sufficient to insert the small block
in the transverse profiled element and perform the locking by means of a rotation
in a manner similar to what has been described previously.
[0037] With reference to figures 36 to 46, a connecting block advantageously usable for
reclinable shutters is illustrated.
[0038] In a form of application of s aid connecting block, a slider 91 is provided which
is slidably engageable with the lateral edge of the profiled element 92 of a reclinable
shutter. The slider 91 has expansion 93 which slideably engage with guiding edges
94, defined by the usual seats provided on the profiled element 92.
[0039] The slider 91 defines in its middle portion a pivot 95 for the articulated coupling
of a rod 96.
[0040] The slider, at the end of connection to the rod, furthermore has inclined abutment
edges 97 which, in practice, act as an excursion-limiting element for the inclination
of the rod 96, engaging by contact with said rod.
[0041] At its other end, the rod 96 engages with a connecting block generally indicated
by the reference numeral 98, which has an abutment body constituted by a cylindrical
body 99 which, at an axial end thereof, has a polygonal head 100, while at the other
end it has the above described quick coupling means, indicated in the drawings with
the same reference numerals.
[0042] Also in this form of application, to effect assembly it is sufficient to rotate the
connecting block through 90°, to performe its fixing. A spacer 101 is advantageously
provided.
[0043] From what has been described it can thus be seen that the invention achieves the
intended aims and in particular the fact is stressed that a self-locking coupling
is provided which is applicable on the seat already normally provided on a profiled
element, with a simple rotation through 90°, without having to resort to the use of
screws, fixing pins, screws with counterplates or to the advance perforation of said
profiled element.
[0044] Further, another important feature of the invention resides in the fact that the
presence of the inclined planes executes a abutment action of the coupling which tightly
locks onto the profiled element, both in the direction of approach and in the direction
of longitudinal sliding, due to the plastic deformation which is imparted to the tabs
delimiting the seat.
[0045] Furthermore, by using the above described coupling it is possible to provide a wide
range of accessories so as to complete the entire series of elements which are usually
required for the production of casements, door- and window-frames and the like.
[0046] The invention thus conceived is susceptible to numerous modifications and variations,
all of which are within the scope of the inventive concept.
[0047] Furthermore, all the details may be replaced with other technically equivalent elements.
[0048] In practice, the materials employed, though the best results have been obtained with
aluminum profiled elements, as well as the contingent shapes and dimensions, may be
any according to the requirements.
[0049] Where technical features mentioned in any claim are followed by reference signs,
those reference signs have been included for the sole purpose of increasing the intelligibility
of the claims and accordingly, such reference signs do not have any limiting effect
on the scope of each element identified by way of example by such reference signs.
1. Self-locking coupling particularly for profiled elements of casements, door- and
window-frames and the like, characterized in that it comprises a coupling tang (2)
extending from an abutment body (3,51,61,71,81,99) and ending with coupling protuberances
(10), said coupling protuberances (10) having a smaller width and a greater length
than the distance between the opposite wings (11) delimiting the coupling seat (12)
defined on a profiled element (13), said protuberances (10), on the face directed
towards said abutment body (3,51,61,71,81,99), defining at least one inclined-plane
portion (20) engageable with said wings (11) to generate a movement of said coupling
(1) in the direction defined by said tang (2) upon rotation of the coupling (1) about
said direction, said wings (11), with said coupling (1) applied to said profiled element,
being clamped between the coupling protuberances (10) and said abutment body (3,51,61,71,81,99).
2. Self-locking coupling, according to claim 1, characterized in that said protuberances
(10) have a distance, between their longitudinal ends (10a), substantially equal to
the width of said seat (12) defined between the inner surfaces of the supporting branches
(14) of said wings (11).
3. Self-locking coupling, according to the preceding claims, characterized in that
said longitudinal ends (10a), at two opposite corners, are radiused to longitudinal
edges (10b) of said protuberances (10) by means of rounded portions (10c) in the shape
of a part of circumference having its center substantially on the axis of rotation
of said tang (2).
4. Self-locking couplings, according to one or more of the preceding claims, characterized
in that said longitudinal ends (10a), with said coupling (1) in locking position on
the profiled element (13), abut against the inner surfaces of said branches (14).
5. Coupling, according to one or more of the preceding claims, characterized in that
it comprises two portions in the shape of an inclined plane (20) positioned mutually
diametrally with respect to said tang (2).
6. Self-locking coupling, according to one or more of the preceding claims, characterized
in that it comprises a depression (30) on said abutment body (3), in the region of
extension of said tang (2).
7. Self-locking coupling, according to one or more of the preceding claims, characterized
in that in locking position said wings (11) undergo plastic deformation with a curved
portion (50) accommodated between the ends of said portion in the shape of an inclined
plane (20) and said depression (30).
8. Self-locking coupling, according to one or more of the preceding claims, characterized
in that it comprises a cone-like protrusion (40) extending on the front face of said
protuberances (10), substantially at the axis of rotation of said tang (2).
9. Accessory of the abutment block type with the self-locking coupling, according
to the preceding claims, characterized in that said abutment body (51) has, on the
face directed towards said profiled element (13), a locking tooth (52) arranged spaced
from the axis of rotation of said coupling and being adapted to engage with the edge
of one of said wings (11) to prevent the rotation of said abutment body (51) in the
direction of uncoupling of said profiled element (13).
10. Accessory, according to the preceding claim, characterized in that said abutment
body (51) has, in transverse cross section, a substantially trapezoidal configuration.
11. Accessory of the fixing pin type with the self-locking coupling according to
the preceding claims, characterized in that said abutment body is constituted by a
substantially cylindrical head (61) engaging in abutment against the bottom of a coupling
seat (63), stop means being furthermore provided interacting between said head (61)
and said coupling seat (63) adapted to oppose uncoupling rotation of said coupling.
12. Accessory, according to the preceding claim, characterized in that it comprises
on the outer face of said head a polygonal impression (62) engageable with a tool.
13. Accessory, according to claim 11, characterized in that said stop means are constituted
by at least one protrusion (64) provided on the face of said head (61) directed towards
said coupling tang (2) and adapted to couple in a corresponding recess (65) defined
on the bottom of said coupling seat (63).
14. Accessory, according to claim 11, characterized in that said head has a substantially
frusto-conical configuration (71) and said coupling seat (72) has a substantially
complementary configuration.
15. Accessory, according to claim 11, characterized in that said stop means are constituted
by a tooth (74) with different inclination with respect to said frusto-conical head
(71), ending with a portion (75) arranged substantially perpendicular to the axis
of said abutment body, having correspondingly to said coupling seat (72), a frusto-conical
depression (76) ending with a terminal depression (77) for the accommodation of said
section.
16. Accessory according to the preceding claim, characterized in that said depression
(76) extends substantially through 90° to act as stroke limiter element for the rotation
of said head (71).
17. Accessory of the type of a joint for the connection of profiled elements with
the self-locking coupling, according to the preceding claims, characterized in that
said abutment block is constituted by a small block (81) insertable in the body (82)
of a profiled element (83) and defining, at one end, said tang (2) ending in said
coupling protuberances (10), said block (81) defining a through hole (84) for coupling
to the transverse profiled element (83) in which said block (81) is insertable.
18. Accessory of the type of a small connecting block for reclinable shutters, characterized
in that said abutment body (99) is constituted by a cylindrical body defining, at
an axial end, said self-locking coupling (10) and, at the other end, a polygonal head
(10) for engagement with a tool.
19. Accessory for the connection of reclinable shutters, characterized in that it
comprises a slider (91) slideably connected to the edge (92) of a reclinable shutter
and articulating with an end of a rod (96) articulated, at the other end, to said
cylindrical body (99) of the connecting block (98).
20. Accessory, according to claim 18, characterized in that said slider (91) has one
one of its faces expansions (93) slideably engageable with guiding edges (94) defined
by the profiled element (92) of the reclinable shutter, in a middle portion said slider
(91) having a pivot (95) articulating with said rod.
21. Accessory, according to claim 18, characterized in that it comprises, at the ends
of said slider (91) connected to said rod (96), inclined planes (97) engageable in
abutment with said rod (96) to limit rotation of said rod with respect to said slider
(91).