[0001] This invention relates to a sunshade apparatus. Sunshade apparatuses are used to
control the brightness of a room interior by screening the light rays which filter
through windows.
[0002] Sunshade apparatuses comprise a plurality of slats which are guided by a first and
a second guide to slide along a direction of movement, generally parallel to the vertical
direction. The plurality of slats is also orientable about a tilt axis parallel to
a longitudinal direction along which they have their maximum extension. Varying the
slat tilt also varies the level of screening from the light rays. In particular, the
slats can be oriented between a first limit position (fully open position), where
they are parallel to each other and perpendicular to the vertical direction, and a
second limit position (closed position) where they are substantially parallel to each
other and parallel to the vertical direction. At the second limit position, the slats
are also in contact with each other.
[0003] In sunshade apparatuses, a single lifting shaft is used to transmit the rotation
responsible for lowering the sunshade and tilting the slats. However, since the rotation
needed to tilt the slats is much smaller than that needed to completely lower the
sunshade, a clutch has to be provided to disengage the motion of the lifting shaft
from the slat tilting system when the slats have reached the first or the second limit
position.
[0004] In sunshade apparatuses of this kind, when the sunshade apparatus is lowered to an
intermediate position, slat tilt can be varied by rotating the lifting shaft in a
rotation direction for retracting the sunshade through an angle of rotation of the
lifting shaft corresponding to the desired variation of tilt (the variation along
the vertical direction is negligible). Thus, the closer the slats are to the second
limit position, the more the adjustment range at intermediate positions increases.
[0005] These solutions, however, lead to damage to the slats due to scraping while they
are being lowered, particularly on account of dust and abrasive dirt.
[0006] In some prior art sunshade apparatuses, such as, for example, the one described in
document
EP2224091A2, to prevent the slats from rubbing against each other, the clutch is disengaged when
slat tilt is less than the second limit position. In these solutions, a disengagement
lever which contributes to disengaging the lifting shaft from the tilting system is
moved by a spring tab which is tripped when the sunshade is at a certain vertical
height.
[0007] This solution is, however, very complex to make and to assemble. Moreover, the presence
of movable components increases the probability of wear and the need for maintenance.
[0008] The aim of this disclosure is to provide a sunshade apparatus and a method for tilting
a plurality of slats to overcome the above mentioned disadvantages of the prior art.
[0009] This aim is fully achieved by the sunshade apparatus and the method for tilting a
plurality of slats of this disclosure as characterized in the appended claims.
[0010] According to an aspect of it, this disclosure provides a sunshade apparatus.
[0011] The sunshade apparatus comprises a plurality of slats. Each slat of the plurality
of slats tilts about a tilt axis parallel to a longitudinal direction. Each slat of
the plurality of slats has a first and a second end. The first and the second end
are operatively coupled to a first and a second lateral guide, respectively. The first
and second lateral guides are configured to guide the slats along a direction of movement.
In an embodiment, the direction of movement is transverse to the longitudinal direction.
[0012] The sunshade apparatus comprises a motor. The apparatus comprises a lifting shaft.
The lifting shaft is coupled to the motor.
[0013] In an embodiment, the sunshade apparatus comprises a tilt pulley. The tilt pulley
is connected to the slats to rotate them about the respective tilt axes.
[0014] In an embodiment, the apparatus comprises a clutch.
[0015] The term "clutch" (or coupling, or rotary connector) is used to extend the scope
of protection to any mechanical component capable of connecting in rotation with each
other two mechanical parts, be they coaxial or one surrounding the other.
[0016] In an embodiment, the apparatus comprises a spring clutch.
[0017] The spring clutch surrounds the lifting shaft. The spring clutch is interposed between
the lifting shaft and the tilt pulley along a radial direction perpendicular to an
axis of rotation of the lifting shaft.
[0018] The spring clutch includes a first locking end. The spring clutch includes a second
locking end. The first and second locking ends are each movable along a respective
working trajectory. The working trajectory is the trajectory in space defined by the
respective locking end when the lifting shaft is set in rotation.
[0019] In an embodiment, the spring clutch is fixed to the tilt pulley to constrain it in
rotation to the lifting shaft. In an embodiment, the spring clutch is selectively
fixable to the shaft to constrain it in rotation to the lifting pulley. In an embodiment,
the apparatus comprises a detent system.
[0020] The detent system comprises a first detent. The first detent is configured to intercept
the first locking end of the spring clutch (in a first rotation direction of the lifting
shaft). The detent system comprises a second detent. The second detent is configured
to intercept the second locking end of the spring clutch. The second detent is configured
to intercept the second locking end of the spring clutch in a second rotation direction
of the lifting shaft. The second rotation direction is opposite to the first rotation
direction. The detent system comprises a third detent. The third detent is configured
to intercept the first locking end. The third detent is configured to intercept the
first locking end at an intermediate position. In an embodiment, the intermediate
position is located along the working trajectory of the first locking end, upstream
of the first detent in the first rotation direction of the lifting shaft.
[0021] In an embodiment, the sunshade apparatus comprises a release element. The release
element is movable between an activated position and a deactivated position. At the
activated position, the release element is in contact with the first locking end of
the spring clutch to move it. At the deactivated position, the release element is
clear of the first locking end. The presence of the release element allows the first
locking end to move out of alignment with the detents so that the clutch can be engaged
as required.
[0022] In an embodiment, the release element is configured to cause the first locking end
to move away from the third detent.
[0023] The movement away from the third detent allows the first locking end to continue
turning in the first rotation direction towards the first detent along the respective
working trajectory. That means the slats are kept in a safe tilted condition so that
they do not damage each other while they are being lowered, until they reach a predetermined
vertical height where the first locking end starts turning with the lifting shaft
again to tilt the slats until they are completely closed.
[0024] In an embodiment, the release element is configured to cause the first locking end
to move longitudinally.
[0025] In an embodiment, the apparatus comprises a control unit, configured to control the
sunshade. In an embodiment, the control unit is configured to instruct the release
element to move from the deactivated position to the activated position, and vice
versa.
[0026] In an embodiment, the apparatus comprises a transmission element. The transmission
element is connected to the plurality of slats. The transmission element may be a
chord or a belt or, preferably, a chain. In an embodiment, the apparatus comprises
a lifting pulley. The lifting pulley may be a sprocket, a friction drum or any gear
capable of transmitting a torque received from the lifting shaft to the transmission
element. The lifting pulley is connected to the lifting shaft. The lifting pulley
is connected to the transmission element to allow driving the slats along the direction
of movement.
[0027] In an embodiment, the release element is connected to the transmission element. The
term "connected" is not intended as limited to a direct connection where the release
element is positioned on the transmission element. In an embodiment, for example,
the release element might be located at a fixed position relative to the transmission
element. In such an embodiment, the transmission element might comprise an activating
element configured to come into contact with the release element to trip it so it
changes from the activated position to the deactivated position.
[0028] In an embodiment, the release element is positioned on the transmission element.
In an embodiment, the release element is positioned on the transmission element at
a release position. That way, the release element is configured to intercept the first
locking end at a limit position of the slats along the direction of movement. In this
document, the term "total unwinding length" is used to mean the distance between the
last slat when the apparatus is fully retracted and the last slat when the apparatus
is fully extended. The unwinding length may also be defined in relation to a specific
position of the slats along the direction of movement: that is to say, as the distance
between the last slat when the apparatus is fully retracted and the last slat is at
the specific position along the direction of movement.
[0029] In an embodiment, the limit position of the slats is the position along the direction
of movement corresponding to an unwinding length greater than half the total unwinding
length. In an embodiment, the limit position of the slats is the position along the
direction of movement corresponding to an unwinding length whose ratio to the total
unwinding length is greater than 7:10. In an embodiment, the limit position of the
slats is the position along the direction of movement corresponding to an unwinding
length whose ratio to the total unwinding length is greater than 8:10. That way, it
is possible to prevent contact between the slats for a large part of the downstroke
of the apparatus.
[0030] In an embodiment, the release element is a wedge.
[0031] In an embodiment, the first locking end is at a locked position, in contact with
the first detent, when the second locking end is at a free position, where the second
locking end is free to move along the respective working trajectory. In other words,
when the first locking end is in contact with the first detent or with the third detent,
the second locking end is detached from (or, in any case, does not strike) the second
detent. In an embodiment, the second locking end is at a locked position, in contact
with the second detent, when the first locking end is at a free position, where the
first locking end is free to move along the respective working trajectory. In other
words, when the second locking end is in contact with the second detent, the first
locking end is detached from (or, in any case, does not strike) the third detent.
[0032] In an embodiment, the detent system comprises a locking wall. The locking wall surrounds
the lifting shaft. In an embodiment, the locking wall comprises a first guide. In
an embodiment, the first locking end is slidable on the first guide to define the
respective working trajectory. In an embodiment, the locking wall comprises a second
guide. In an embodiment, the second locking end is slidable on the second guide to
define the respective working trajectory.
[0033] In an embodiment, the first guide comprises a first limit stop, defining the first
detent. In an embodiment, the second guide comprises a second limit stop, defining
the second detent. In other words, the first and the second limit stops are defined
by an end piece (limit stop) of the first and second guides, respectively. In an embodiment,
the working trajectory of the first locking end comprises a first circular stretch.
In an embodiment, the working trajectory of the first locking end comprises a second
circular stretch. In an embodiment the working trajectory comprises a third stretch,
extending in a longitudinal direction. In an embodiment, the second circular stretch
is longitudinally offset relative to the first circular stretch. The first circular
stretch is connected to the second circular stretch by the third stretch.
[0034] In an embodiment, the clutch comprises a first spring. The first spring has a respective
first end piece which defines the first locking end. The first spring has a respective
second end piece which is connected to the tilt pulley. The clutch comprises a second
spring. The second spring has a respective first end piece which is connected to the
tilt pulley. The second spring has a respective second end piece which defines the
second locking end.
[0035] In an embodiment, the tilt pulley is disposed along the longitudinal direction, at
an intermediate position between the first spring and the second spring.
[0036] In an embodiment, the apparatus comprises a connecting mechanism, configured to connect
the tilt pulley to the slats. In an embodiment, the connecting mechanism comprises
a cord. The cord has a first branch and a second branch. In an embodiment, the connecting
mechanism comprises a plurality of rockers. The rockers of the plurality each include
a fixing profile. Each fixing profile is connected to a respective slat. The rockers
of the plurality each include a first end, connected to the first branch of the cord.
The rockers of the plurality each include a second end, connected to the second branch
of the cord.
[0037] According to an aspect of it, this disclosure also provides a method for adjusting
the tilt of a plurality of slats in a sunshade apparatus.
[0038] The method comprises a step of moving the plurality of slats along a direction of
movement. The step of moving comprises a step of moving downwards, in which the slats
are unwound from a closed position to a fully open position. The step of moving comprises
a step of retracting, in which the slats are retracted from the fully open position
to the closed position.
[0039] The method comprises a step of firstly rotating a lifting shaft, connected to a motor,
in a first rotation direction. The rotation in the first rotation direction allows
moving the plurality of slats along the direction of movement in an unwinding direction.
In other words, the step of firstly rotating allows performing the step of moving
the slats downwards.
[0040] The method comprises a step of secondly rotating a lifting shaft, connected to a
motor, in a second rotation direction, to move the plurality of slats along the direction
of movement in a retracting direction. In other words, the step of secondly rotating
allows performing the step of retracting the slats.
[0041] The method comprises a step of (selectively) coupling a tilt pulley to the lifting
shaft through a clutch. In other words, the method comprises a step of providing a
tilt pulley coupled to the lifting shaft through a clutch. The clutch may be a spring
clutch which includes a first locking end and a second locking end which move along
respective working trajectories by effect of a rotation of the lifting shaft.
[0042] The method comprises a step of rotating the tilt pulley.
[0043] The method comprises a step of first disengaging of the spring clutch. In the step
of first disengaging of the spring clutch, when the lifting shaft rotates in the first
rotation direction and a first detent intercepts the first locking end.
[0044] The method comprises a step of second disengaging of the spring clutch. In the step
of second disengaging of the spring clutch, when the lifting shaft rotates in the
second rotation direction and a second detent intercepts the second locking end.
[0045] The method comprises a step of third disengaging of the spring clutch, when the lifting
shaft rotates in the first rotation direction and a third detent intercepts the first
locking end at an intermediate position along the working trajectory of the first
locking end upstream of the first detent in the first rotation direction. The step
of third disengaging allows the slats to not reach the fully closed position as soon
as they start moving downwards.
[0046] In an embodiment, the method comprises a step of releasing. In the step of releasing,
a release element is moved from a deactivated position, where it is clear of the first
locking end, to an activated position, where it moves the first locking end of the
spring clutch to set the tilt pulley in rotation again.
[0047] The step of releasing allows the slats to delay their being fully closed.
[0048] In an embodiment, the release element, in the step of releasing, touches the first
locking end and causes it to move longitudinally.
[0049] In an embodiment, the second locking end, in the step of first disengaging, is free
to move along a second guide. In an embodiment, the first locking end, in the step
of second disengaging, is free to move along a first guide. In an embodiment, the
spring clutch comprises a spring assembly, including a first spring, defining the
first locking end, and a second spring, defining the second locking end and connected
in series to the first spring. In this embodiment, when the first spring strikes the
first detent or the third detent, the first spring and the second spring are released
and disengage the tilt pulley from the lifting shaft. In this embodiment, when the
second spring strikes the second detent, the first spring and the second spring are
released and disengage the tilt pulley from the lifting shaft.
[0050] This and other features will become more apparent from the following description
of a preferred embodiment, illustrated purely by way of nonlimiting example in the
accompanying drawings, in which:
- Figure 1 is a schematic perspective view of a part of a sunshade apparatus;
- Figure 2 is a schematic perspective view of an internal part of the sunshade apparatus
of Figure 1;
- Figure 3 is another schematic perspective view of the internal part of the sunshade
apparatus of Figure 1;
- Figure 4 is a schematic cross section of the sunshade apparatus of Figure 1;
- Figure 5 is a perspective view of internal components of the sunshade apparatus of
Figure 1.
[0051] With reference to the accompanying drawings, the numeral 1 denotes a sunshade apparatus.
The apparatus 1 comprises a housing. The housing 2 comprises a base support 21. The
housing comprises a cover 22. The cover 22 is coupled to the base support 21. In an
embodiment, the cover 22 has a circular shape. In an embodiment, the cover 22 has
a prismatic shape. The cover 22 comprises a first guide 22A. The cover 22 comprises
a second guide 22B. The first guide 22A and the second guide 22B on the cover 22 are
spaced from each other along a longitudinal direction L.
[0052] The apparatus comprises a plurality of slats 100. The plurality of slats 100 is configured
to move along a direction of movement S, perpendicular to the longitudinal direction
L and parallel to the direction of the weight force. Each slat of the plurality of
slats 100 is configured to rotate about a respective tilt axis I, parallel to the
longitudinal direction L, in such a way as to vary its orientation. Each slat of the
plurality of slats 100 comprises a first end 100A and a second end (not illustrated).
[0053] The apparatus comprises a lifting shaft 3. The apparatus comprises a motor 4. The
motor 4 is connected to the lifting shaft 3 to set it in rotation. The apparatus comprises
a lifting pulley 5. In an embodiment, the lifting pulley 5 is connected to the lifting
shaft 3 to rotate as one therewith. In an embodiment, the lifting pulley 5 is connected
to the lifting shaft 3 by a grooved profile 51. The grooved profile 51 engages a matching
groove 31 on the lifting shaft 3.
[0054] In an embodiment, the lifting pulley 5 comprises a toothed portion 52.
[0055] The apparatus 1 comprises a transmission element 6. In an embodiment, the transmission
element 6 is a chain.
[0056] The toothed portion 52 of the lifting pulley 5 is coupled to the transmission element
6 to transmit a drive torque which it receives from the motor 4.
[0057] In an embodiment, the transmission element 6 is connected to the plurality of slats
100 to move them along the direction of movement S. Preferably, the plurality of slats
100 is movable along the direction of movement S with the first end 100A and the second
end engaged in a first and a second guide which are, respectively, parallel to the
direction of movement S.
[0058] In an embodiment, the apparatus comprises a tilt pulley 7. In an embodiment, the
lifting pulley is coaxial with the lifting shaft 3. In an embodiment, the lifting
pulley 7 is selectively constrained to the lifting shaft 3 in rotation.
[0059] In an embodiment, the lifting pulley 7 comprises a plurality of teeth 71, extending
along the radial direction relative to the axis of rotation of the lifting shaft 3.
In an embodiment, the plurality of teeth 71 is disposed on a first circular crown
71A of the tilt pulley 7 and on a second circular crown 71B of the tilt pulley 7,
spaced from each other along the longitudinal direction L. In an embodiment, the first
circular crown 71A and the second circular crown 71B are angularly offset about the
axis of rotation of the lifting shaft 3. This offset between the first circular crown
71A and the second circular crown 71B defines catch zones 72 which are spaced along
the circumference of the tilt pulley 7.
[0060] In an embodiment, the apparatus comprises a connecting mechanism 8. The connecting
mechanism 8 is configured to connect the plurality of slats 100 to the tilt pulley
7.
[0061] In an embodiment, the connecting mechanism 8 comprises a cord 81. The cord is trained
around the tilt pulley 7. The cord comprises a first branch 81A and a second branch
81B.
[0062] In an embodiment, the cord 81 comprises a plurality of detents 82 connected thereto
and spaced from each other along the cord 81.
[0063] In an embodiment, each catch zone 72 of the tilt pulley 7 is coupled to a respective
detent 82 of the plurality to engage the cord 81 and transmit a torque supplied by
the motor 4.
[0064] In an embodiment, the connecting mechanism 8 comprises a plurality of rockers 83.
Each rocker 83 of the plurality is connected to a respective slat 100 of the plurality.
[0065] In an embodiment, each rocker 83 comprises a respective fixing profile 83A, a respective
first connecting end 83B and a respective second connecting end 83C.
[0066] The fixing profile 83A is connected to the respective slat 100. The first connecting
end 83B is connected to a respective detent 82, which is disposed on the first branch
81A of the cord 81. The second connecting end 83C is connected to a respective detent
82, which is disposed on the second branch 81B of the cord 81.
[0067] In an embodiment, each rocker 83 is configured to rotate the respective slat 100
about the respective tilt axis I when the tilt pulley 7 rotates.
[0068] As regards the connection of the slat 100 (that is, of each slat of the plurality
of slats 100) to the fixing profiles 83A of the rockers 83 (disposed at the opposite
ends of the slat 100, which act as elements for moving the slat 100), different technical
solutions are possible.
[0069] In a possible embodiment, a fixing system is used whereby sliders that are slidably
coupled to the slat are moved, as described, for example, in patent document
WO2016/103123A1, in the name of this Applicant and incorporated herein by reference.
[0070] In another embodiment, the slat 100 (each slat 100) is provided with a pair of through
holes at each end of it. The pair of through holes is located in a zone of the slat
which, in use, is superposed on the respective fixing profile 83A (or supporting foot,
or movement element).
[0071] Also, the apparatus 1 (or the system for fixing the slats 100 to the respective fixing
profiles 83A) comprises, for each slat 100, a first and a second locking element which
are removably connectable to the slat 100 and to the respective fixing profile 83A
to lock the slat 100 and the respective fixing profile 83A securely (but removably)
to each other. The first and second locking elements each include a pair of pins connected
to a bridge; the bridge extends along a first direction and the pins are spaced from
each other along the first direction; the pins protrude from the bridge in the same
direction, transversely to the first direction. Preferably, the pins are connected
to opposite ends of the bridge. The pins (of each locking element) are configured
to be inserted (preferably snugly or, if necessary, pressure fitted) into a respective
pair of through holes on the slat 100 (that is to say, they are configured to be engaged
in a respective pair of through holes in the slat 100). In a possible embodiment,
the apparatus 1 (or the system for fixing the slats 100 to the respective fixing profiles
83A) might also comprise, for each slat 100, a first and a second locking counter-element,
configured to be removably connected to a respective locking element; in use, when
the locking counter-element is coupled to the respective locking element, a portion
of the slat 100 and a portion of the fixing profile 83A are interposed between the
(bridge of the) locking element and the respective locking element. In an embodiment,
the locking counter-element includes a plate defining two hollows (or holes, either
through holes or blind holes). The hollows are shaped to receive the pins of the locking
element (by slotting or pressure fitting). The hollows of the locking counter-element
are spaced at the same spacing as the pins of the locking element. Preferably, the
spacing is at least 5 mm and, still more preferably, is at least 10 mm.
[0072] The embodiment for connecting the slat 100 to the fixing profiles 83A of the rockers
83 (through a locking element provided with spaced pins) is advantageous because it
allows the slats 100 to be connected to the fixing profiles 83A quickly and easily,
securing the slats 100 particularly firmly to the respective fixing profiles 83A.
[0073] Hence, this disclosure also provides a system for fixing the slats 100 to the respective
fixing profiles 83A in a sunshade apparatus and a sunshade apparatus provided with
this fixing system, according to one or more of the features described above.
[0074] More specifically, this disclosure provides a sunshade apparatus comprising: at least
one slat 100 having two pairs of through holes at the opposite ends of it; at least
one fixing profile 83A configured to be coupled to one end of the slat (to constitute
a movement element for moving the slat 100); (at least) a first and a second locking
element, configured to engage respective pairs of holes of the slat 100 to lock the
slat securely and removably to the respective fixing profile 83A. Preferably, the
locking counter-elements and, if necessary, one or more of the features described
above are also used.
[0075] This disclosure provides a method for assembling a slat 100 in a sunshade apparatus
1 having at least one movement element for moving a fixing profile 83A and a locking
element for removably connecting the slat 100 to the fixing profile 83A.
[0076] The method comprises the following steps: preparing two pairs of through holes at
opposite ends of each slat 100; positioning the slat 100 to rest on a first and a
second fixing profile 83A in such a way that each pair of holes is superposed on a
portion of the respective fixing profile 83A; coupling a first and a second locking
element to the slat 100 by engaging each first and second locking element to a respective
pair of holes of the slat 100 to lock the slat securely and removably to the respective
fixing profile 83A. Preferably, the locking counter-elements and, if necessary, one
or more of the features described above are also used.
[0077] In an embodiment, the apparatus 1 comprises a detent system. In an exemplary embodiment,
the detent system 9 is defined by a cover 22 of the housing 2.
[0078] In an embodiment, the detent system 9 comprises a first detent 91 and/or a second
detent 92 and/or a third detent 93.
[0079] In an embodiment, the first guide 22A is defined by a first groove on the cover 22
having a respective perimeter. The perimeter of the first groove comprises a first
longitudinal stretch, a second longitudinal stretch and a third longitudinal stretch.
The first longitudinal stretch of the first groove defines the first detent 91. The
third longitudinal stretch of the first groove defines the third detent 93.
[0080] In an embodiment, the second guide 22B is defined by a second groove on the cover
22 having a respective perimeter. The perimeter of the second groove comprises a respective
first longitudinal stretch and a respective second longitudinal stretch. The first
longitudinal stretch of the second groove defines the second detent 92.
[0081] In an embodiment, the apparatus comprises a clutch. The clutch comprises a first
locking end and a second locking end.
[0082] The clutch may be a spring clutch 10. In an embodiment, the spring clutch 10 is connected
to the tilt pulley 7. In an embodiment, the spring clutch 10 is connected to the lifting
shaft 3. In an embodiment, the spring clutch 10 is pre-compressed. In an embodiment,
the spring clutch 10 comprises a first spring 11 and a second spring 12. The first
spring 11 and/or the second spring 12 are preloaded. In an embodiment, the first spring
11 and/or the second spring 12 are torsion springs and are fitted round the lifting
shaft 3. The first spring 11 and the second spring 12 are smaller in diameter than
the lifting shaft 3 so that when they are fitted on it they exert a radial force on
it which increases a frictional force between the spring clutch and the lifting shaft
3.
[0083] In an embodiment, the first spring 11 and the second spring 12 each comprise a respective
first end piece 11A, 12A and second end piece 11B, 12B.
[0084] In an embodiment, the first end piece 11A of the first spring 11 defines the first
locking end of the spring clutch 10.
[0085] In an embodiment, the second end piece 12B of the first spring 12 defines the second
locking end of the spring clutch 10.
[0086] The second end piece 11B of the first spring 11 is connected to the tilt pulley 7.
The first end piece 12A of the second spring 12 is connected to the tilt pulley 7.
[0087] In an embodiment, the first end piece 11A of the first spring 11 is configured to
move on the first guide 22A along a respective working trajectory defined by the rotation
of the lifting shaft 3.
[0088] In an embodiment, the second end piece 12B of the second spring 12 is configured
to move on the second guide 22B along a respective working trajectory defined by the
rotation of the lifting shaft 3.
[0089] Thus, the first detent 91 is configured to intercept the first end piece 11A of the
first spring 11 when the lifting shaft rotates in a first rotation direction V1. The
third detent 93 is configured to intercept the first end piece 11A of the first spring
11 when the lifting shaft rotates in a first rotation direction V1 at a position upstream
of the first detent 91 along the working trajectory in the first rotation direction
V1.
[0090] The second detent is configured to intercept the second end piece 12B of the second
spring 12 when the lifting shaft rotates in a second rotation direction V2.
[0091] In an embodiment, the apparatus 1 comprises a release element 60. The release element
60 is movable between an activated position, where it is in contact with the first
end piece 11A of the first spring 11, and a deactivated position, where it is clear
of the first end piece 11A of the first spring 11.
[0092] The release element 60 is configured to move the first end piece 11A of the first
spring 11. The release element is configured to move the first end piece 11A of the
first spring 11 longitudinally to allow the first end piece 11A of the first spring
11 to bypass the third detent 93 and continue along the working trajectory as far
as the first detent 91.
[0093] In an embodiment, the release element is a wedge 61. In an embodiment, the wedge
61 is connected to the transmission element 6. In such a case, the wedge is connected
to the side of the transmission element which faces the first end piece 11A of the
first spring 11.
[0094] In other embodiments, the wedge 61 is connected to the cover 22 and/or to the base
support 21. In this embodiment, the wedge may be activated by the transmission element
6.
[0095] In an embodiment, the wedge 61 is positioned on the transmission element 6 at a predetermined
position so that it comes into contact with (moves, preferably along the longitudinal
direction L) the first end piece 11A of the first spring 11 at position along the
direction of movement S where the slats 100 are almost fully extended.
[0096] In an embodiment, the apparatus comprises a tongue. The tongue is coupled to the
fixing profile 83A to allow the slat 100 to be connected to the respective rocker
83.
[0097] In an embodiment, the fixing profile 83A comprises two openings. In an embodiment,
the tongue comprises two tabs. In an embodiment, each of the two tabs is configured
to be coupled to a respective opening of the fixing profile 83A.
[0098] According to an aspect of it, this disclosure also provides a method for tilting
a plurality of slats in a sunshade apparatus.
[0099] The method comprises a step of moving a plurality of slats 100 along a direction
of movement S. The step of moving comprises a step of moving the plurality of slats
100 downwards. In the step of moving downwards, the slats 100 are extended from an
upper limit position, where the slats 100 are closely packed together, to a lower
limit position, where the slats 100 are fully extended. The step of moving comprises
a step of retracting the plurality of slats 100. In the step of retracting, the slats
100 are retracted from the lower limit position to the upper limit position.
[0100] In an embodiment, the method comprises a step of guiding, in which a first and a
second end of each slat of the plurality 100 are guided, as they move downwards and/or
are retracted, by a first and a second lateral guide, respectively.
[0101] The method comprises a step of rotating a lifting shaft 3. The step of rotating comprises
a first step of rotating and a second step of rotating. In the first step of rotating,
the lifting shaft 3 rotates in a first rotation direction V1. In the second step of
rotating, the lifting shaft 3 rotates in a second rotation direction V2.
[0102] The rotation of the lifting shaft 3 is functional to the downward movement and retraction
of the slats 100. The first step of rotating contributes to the step of moving the
slats 100 downwards. The second step of rotating contributes to the step of retracting
the slats 100.
[0103] In an embodiment, the method comprises a step of interlocking, in which the lifting
shaft is constrained in rotation to a lifting pulley 5, responsible for the movement
along the direction of movement S.
[0104] In the step of moving, the lifting shaft 3 is moved by a motor 4. The lifting pulley
5 rotates as one with the lifting shaft 3. The lifting pulley 5 entrains in rotation
a transmission element 6 which is connected to the plurality of slats 100 to move
them along the direction of movement S.
[0105] In an embodiment, the method comprises a step of engaging (coupling) the lifting
shaft 3 to a tilt pulley 7. The tilt pulley 7 is responsible for tilting the plurality
of slats 100 about a tilt axis I which is parallel to the axis of rotation of the
lifting shaft 3. In the step of engaging, a clutch - preferably a spring clutch 10
- surrounds the lifting shaft 3. In the step of engaging, the spring clutch 10 exerts
a force on the lateral surface of the lifting shaft 3, in practice creating a coupling
by pressure (by friction).
[0106] In the step of engaging, the spring clutch is constrained to the tilt pulley 7, which
is coaxial with the lifting shaft 3.
[0107] In an embodiment, the spring clutch 10 comprises a first spring 11 and a second spring
12. The first spring 11 and the second spring 12 are constrained to the tilt pulley
7.
[0108] In the step of engaging, a second end piece 11B of the first spring 11 is connected
to the tilt pulley 7. In the step of engaging, a first end piece 12A of the second
spring 12 is connected to the tilt pulley 7.
[0109] The step of engaging (the method) comprises a step of preloading the spring clutch
10. In an embodiment, in the step of engaging, the first spring 11 and the second
spring 12 are preloaded.
[0110] Thus, in the step of moving downwards and in the step of retracting, the tilt pulley
7, the lifting shaft 3 and the spring clutch 10 rotate as one for at least an angle
of rotation of the lifting shaft 3.
[0111] The method comprises a step of tilting. In the step of tilting, the tilt pulley 7
rotates to tilt the slats 100 about the tilt axis I.
[0112] In the step of tilting, a cord 81 is entrained by the tilt pulley 7. In the step
of tilting, the cord 81 is connected to the tilt pulley 7 by a plurality of detents
82, coupled to respective catch zones 72 of the tilt pulley 7.
[0113] In the step of tilting, a first branch 81A and a second branch 81B slide on the tilt
pulley 7 to tilt the slats 100.
[0114] In the step of tilting, a plurality of rockers 83 rotates to tilt the plurality of
slats 100. In the step of tilting, each rocker of the plurality of rockers 83 is connected
to the first branch 81A of the cord 81 at a first connecting end 83B and to the second
branch 81B of the cord 81 at a second connecting end 83C. In the step of tilting,
each rocker of the plurality of rockers 83 also entrains in rotation the corresponding
slat 100 to which it is connected by a fixing profile 83A.
[0115] In an embodiment, the method comprises a first step of disengaging. In the first
step of disengaging, a first locking end of the clutch strikes a first detent 91 of
a detent system 9. In the first step of disengaging, a first end piece 11A of the
first spring 11 of the spring clutch 10 strikes the first detent 91. In the first
step of disengaging, the first locking end of the clutch strikes the first detent
91 of the detent system 9 when the lifting shaft 3 rotates in the first rotation direction
V1.
[0116] In an embodiment, the method comprises a second step of disengaging. In the second
step of disengaging, a second locking end of the clutch strikes a second detent 92
of a detent system 9. In the second step of disengaging, a second end piece 12B of
the second spring 12 of the spring clutch 10 strikes the second detent 92. In the
second step of disengaging, the second locking end of the clutch strikes the second
detent 92 of the detent system 9 when the lifting shaft 3 rotates in the second rotation
direction V2.
[0117] In an embodiment, the method comprises a third step of disengaging. In the third
step of disengaging, the first locking end of the clutch strikes a third detent 93
of the detent system 9. In the third step of disengaging, a first end piece 11A of
the first spring 11 of the spring clutch 10 strikes the third detent 93. In the third
step of disengaging, the first locking end of the clutch strikes the third detent
93 of the detent system 9 when the lifting shaft 3 rotates in the first rotation direction
V1 and at a position upstream of the first detent along a working trajectory of the
first locking end in the rotation direction V1.
[0118] In other words, in the step of moving downwards, the tilt pulley 7 rotates as one
with the lifting shaft 3 until the first locking end (the first end piece 11A of the
first spring 11 of the spring clutch 10) of the clutch meets the third detent 93.
When the first locking end of the clutch meets the third detent 93, the spring clutch
10 is released, thus disengaging the lifting shaft 3 from the tilt pulley 7.
[0119] In an embodiment, the method comprises a step of re-engaging. In the step of re-engaging,
a release element 60 moves the first locking end (the first end piece 11A of the first
spring 11 of the spring clutch 10) to allow it to bypass the third detent 93. In the
step of re-engaging, the release element 60 moves the first locking end along the
longitudinal direction L. In an embodiment, in the step of re-engaging, a wedge 61
(release element 60) located on the transmission element 6 moves the first locking
end (the first end piece 11A of the first spring 11 of the spring clutch 10) longitudinally.
[0120] Thus, after the step of re-engaging, the clutch is once again engaged with the lifting
shaft 3, thereby setting the tilt pulley 7 in rotation again to continue the tilting
of the slats 100 to completion, until it strikes the first detent 91.
[0121] When the first locking end (the first end piece 11A of the first spring 11 of the
spring clutch 10) meets the first detent 91, the spring clutch 10 is released and
disengages the tilt pulley 7 from the lifting shaft 3. In effect, the slats 100 are
tilted as much as possible and further rotation would damage the slats 100.
[0122] When the lifting shaft 3 reverses its rotation and starts rotating in the second
rotation direction V2, the step of retracting is started. At the start of the step
of retracting, the second locking end (the second end piece 12B of the second spring
12 of the spring clutch 10) is not in contact with the second detent and thus the
tilt pulley 7 rotates as one with the lifting shaft 3 until the second locking end
(the second end piece 12B of the second spring 12 of the spring clutch 10) meets the
second detent 92. The second locking end (the second end piece 12B of the second spring
12 of the spring clutch 10) meets the second detent 92 when the slats have already
reached their minimum tilt, necessary to retract and gather up all the slats 100.
The step of retracting continues with the slats kept at constant tilt.
1. A sunshade apparatus (1) comprising:
- a plurality of slats (100), each tilting about a tilt axis (I) parallel to a longitudinal
direction (L) and having a first and a second end operatively coupled to a first and
a second lateral guide, respectively, configured to guide the slats (100) along a
direction of movement (S), the direction of movement (S) being transverse to the longitudinal
direction (L);
- a motor (4);
- a lifting shaft (3), coupled to the motor (4);
- a tilt pulley (7) connected to the slats (100) to rotate them about the respective
tilt axes (I);
- a spring clutch (10) surrounding the lifting shaft (3) and including a first locking
end (11 A) and a second locking end (12B), each movable along a respective working
trajectory, wherein the spring clutch (10) is fixed to the tilt pulley (7) to constrain
it in rotation to the lifting shaft (3);
- a detent system (9), including a first detent (91), configured to intercept the
first locking end (11A) of the spring clutch (10) in a first rotation direction (V1)
of the lifting shaft (3), a second detent (92), configured to intercept the second
locking end (12B) of the spring clutch (10) in a second rotation direction (V2) of
the lifting shaft (3), opposite to the first rotation direction (V1), and a third
detent (93) configured to intercept the first locking end (11A) at an intermediate
position along the working trajectory of the first locking end (11A), upstream of
the first detent (91) in the first rotation direction (V1) of the lifting shaft (3),
characterized in that it comprises a release element (60), movable between an activated position, where
it is in contact with the first locking end (11A) of the spring clutch (10) to move
it, and a deactivated position, where it is clear of the first locking end (11A).
2. The apparatus (1) according to claim 1, wherein the release element (60) is configured
to cause the first locking end (11A) to move away from the third detent (93) to allow
the first locking end (11A) to continue turning in the first rotation direction (V1)
towards the first detent (91) along the respective working trajectory.
3. The apparatus (1) according to claim 2, wherein the release element (60) is configured
to cause the first locking end (11A) to move longitudinally.
4. The apparatus (1) according to any of the preceding claims, comprising a transmission
element (6), connected to the plurality of slats (100), and a lifting pulley (5),
connected to the lifting shaft (3) and to the transmission element (6) to allow the
slats (100) to move along the direction of movement (S).
5. The apparatus (1) according to claim 4, wherein the release element (60) is connected
to the transmission element (6).
6. The apparatus (1) according to claim 5, wherein the release element (60) is positioned
on the transmission element (6) at a release position to intercept the first locking
end (11A) at a limit position of the slats (100) along the direction of movement (S),
avoiding contact between the slats (100) during the downward movement of the apparatus
(1).
7. The apparatus (1) according to any one of the preceding claims, wherein the first
locking end (11A) is at a locked position, in contact with the first detent (91) or
with the third detent (93), when the second locking end (12B) is at a free position,
where the second locking end (12B) is free to move along the respective working trajectory,
and wherein the second locking end (12B) is at a locked position, in contact with
the second detent (92), when the first locking end (11A) is at a free position, where
the first locking end (11A) is free to move along the respective working trajectory.
8. The apparatus (1) according to any one of the preceding claims, wherein the detent
system (9) comprises a locking wall (22) surrounding the lifting shaft (3), and wherein
the locking wall (22) comprises a first guide (22A), in which the first locking end
(11A) is slidable to define the respective working trajectory, and a second guide
(22B) in which the second locking end (12B) is slidable to define the respective working
trajectory.
9. The apparatus (1) according to claim 8, wherein the first guide (22A) comprises a
perimeter having a respective first longitudinal stretch, defining the first detent
(91), and wherein the second guide (22B) comprises a perimeter having a respective
first longitudinal stretch, defining the second detent (92), and wherein the working
trajectory of the first locking end (11A) comprises a first circular stretch and second
circular stretch, offset longitudinally relative to the first circular stretch.
10. The apparatus (1) according to any one of the preceding claims, wherein the spring
clutch (10) comprises a first spring (11), having a respective first end piece (11A),
defining the first locking end (11A), and a respective second end piece (11B), connected
to the tilt pulley (7), and wherein the clutch comprises a second spring (12) having
a respective first end piece (12A), connected to the tilt pulley (7), and a respective
second end piece (12B), defining the second locking end (12B).
11. The apparatus (1) according to claim 8, wherein the tilt pulley (7) is disposed along
the longitudinal direction (L), at an intermediate position between the first spring
(11) and the second spring (12).
12. A method for adjusting the tilt of a plurality of slats (100) in a sunshade apparatus
(1), comprising the following steps:
- moving the plurality of slats (100) along a direction of movement (S);
- firstly rotating a lifting shaft (3), connected to a motor (4), in a first rotation
direction (V1), to move the plurality of slats (100) along the direction of movement
(S) in an unwinding direction;
- secondly rotating a lifting shaft (3), connected to a motor (4), in a second rotation
direction (V2), to move the plurality of slats (100) along the direction of movement
(S) in a retracting direction;
- coupling a tilt pulley (7) to the lifting shaft (3) through a spring clutch (10)
which includes a first locking end (11A) and a second locking end (12B) which move
along respective working trajectories by effect of a rotation of the lifting shaft
(3);
- rotating the tilt pulley (7);
- firstly disengaging the spring clutch (10), when the lifting shaft (3) rotates in
the first rotation direction (V1) and a first detent (91) intercepts the first locking
end (11A);
- secondly disengaging the spring clutch (10), when the lifting shaft (3) rotates
in the second rotation direction (V2) and a second detent (92) intercepts the second
locking end (12B);
- thirdly disengaging the spring clutch (10), when the lifting shaft (3) rotates in
the first rotation direction (V1) and a third detent (93) intercepts the first locking
end (11A) at an intermediate position along the working trajectory of the first locking
end (11A) upstream of the first detent (91) in the first rotation direction (V1);
characterized in that the method comprises a step of releasing, where a release element (60) is moved from
a deactivated position, where it is clear of the first locking end (11A), to an activated
position, where it moves the first locking end (11A) of the spring clutch (10) to
set the tilt pulley (7) in rotation again.
13. The method according to claim 12, wherein the release element (60) moves away the
first locking end (11A) from the third detent (93) to allow the first locking end
(11A) to continue turning in the first rotation direction (V1) towards the first detent
(91) along the respective working trajectory.
14. The method according to claim 12 or 13, wherein a transmission element (6), connected
to the plurality of slats (100) and to a lifting pulley (5), which is connected to
the lifting shaft (3), transmits a movement along the direction of movement (S) to
the plurality of slats (100).
15. The method according to any of the claim from 12 to 14, wherein the release element
(60), in the step of releasing, touches the first locking end (11A) and causes it
to move longitudinally.