[0001] The present invention relates to a screening arrangement comprising, a top element
having a longitudinal direction, which is adapted to be positioned along a longitudinal
direction of a top piece of a frame in a condition of use, and a height direction,
which is adapted to be positioned along a longitudinal direction of a side piece of
a frame in a condition of use,
a screening device comprising a plurality of tiltable slats adapted to at least partly
screening an aperture of a frame, and a tilt cord connected to said slats and a tilt
assembly accommodated in said top element and being movable in the longitudinal direction
of said top element between a first and a second end position,
an operating cord extending in the longitudinal direction inside said top element
and connected to said tilt assembly for tilting said slats between a first and a second
predetermined position.
[0002] Screening arrangements such as Venetian blinds are widely used for screening an opening
of a building such as a window in order to screen the light directly penetrating into
the building or to prevent persons from being able to look directly into the building.
Hence, it is important to adjust the screening arrangement so that the visibility
into the building is kept at a minimum, while the amount of light entering the building
is suitable for the persons inside the building.
[0003] Therefore screening arrangements are designed with slats being tiltable in order
to provide the above-described flexibility. In such screening arrangements the tilts
can be tilted so that they fulfil the need for light penetration and visibility. Slats
of a screening arrangement can provide a light regulating effect by guiding the light
penetrating through the slats up in the ceiling or down towards the floor.
[0004] Different ways of tilting the slats in a Venetian blind are known. For example it
is well known to tilt the slats by rotating a rod, where the slats can be tilted between
a vertical position wherein the slats provides a maximum screening of the window aperture
and a horizontal position wherein the slats are oriented in a position allowing maximum
light to penetrate the building.
[0005] In typical Venetian blinds the slats are provided in at least two vertically-extending
slat-supporting cord ladders each comprising a first and a second vertical member
connected by a plurality of vertically-spaced cross-rungs. By pulling said first or
second said cord ladders the slats can be tilted according to the need of the user.
The cord ladders are typically connected to a relatively thin shaft extending in the
longitudinal direction of a top element of the screening arrangement, which shaft
is connected to a rod by a transmission such a as a worm gear. However, this design
has shown to be very prone to damage the slats and typically the rod is positioned
where it impairs the view of the window. When the slats are positioned in the vertical
position, an attempt to tilt them further by using a for instance a rod, will eventually
result in damaging of the slats or parts of the screening arrangement.
[0006] Several attempts has been made to provide a more easy operable and gentle way of
tilting slats of screening arrangements in a flexible way.
[0007] WO 2004/029397 discloses a screening arrangement for tilting slats of a screening device comprising
a plurality of slats. The screening arrangement comprises a rotatable shaft in connection
with tilt cords connected to the slats. The tilt cords and the shaft are connected
by a disconnecting mechanism comprising a spring wound around the shaft. When rotating
the shaft end portions of said spring is adapted to engage with end positions of the
disconnecting mechanism in order to release the spring from the shaft. Thereby it
is possible to rotate said shaft without tilting the slats and achieve different positions
of the handle with respect to the top element. The shaft is rotated by a cord loop
with a handle, which cord loop extends between an upper and a lower turning point
of the window where the screening arrangement is installed. In order to provide a
proper rotation of the shaft by moving the handle, the shaft and the cord loop is
connected by a geared transmission.
[0008] GB 2434824 discloses a mechanism for tilting slats of a Venetian blind by using a tilt assembly
comprising a base portion with an aperture and a slide portion attached to the base
portion. The base portion is fixed in relation to an aperture of a supporting bottom
portion of a top element of a screening device. The side portion is slidably movable
with respect to the base portion and a tilt cord in connection with slats of the blind
is connected to the slide portion. When the slide portion is moved in either longitudinal
direction of the top element the slats are tilted from one position to another. The
tilt portion is moved by means of cord loop, which is connected to the tilt assembly
by means of a geared transmission.
[0009] DE 27 32 171 discloses a screening arrangement with a top element comprising tilt assembly provided
with two lever arms. The tilt assembly is movable between two end positions and when
the operating cord of the screening arrangement is pulled in one direction of the
top element, a first lever arm locks the operating cord with respect to the tilt assembly,
and when the operating cord is pulled in the opposite direction a second lever arm
locks the operating cord to the tilt assembly, i.e. the operating cord is only locked
in one of the lever arms two positions.
[0010] In the light of the above it is the object of the present invention to provide a
flexible positioning of an operating handle for a slidably movable tilt assembly of
a screening arrangement.
[0011] These and further objects are met by a screening arrangement of the kind mentioned
in the opening paragraph, which is further characterized in said tilt assembly comprises
a locking mechanism adapted to connect said operating cord to said tilt assembly,
and in that said locking mechanism has a locking condition allowing said operating
cord to move said tilt assembly between said first and second end positions, and an
unlocking condition wherein said operating cord is movable in said longitudinal direction
of said top element without moving said tilt assembly.
[0012] The provided locking mechanism having two conditions of operation, can be used in
combination with different types of tilt assemblies and provide a flexible positioning
of the operating handle during use.
[0013] In a structurally simple preferred embodiment, said locking mechanism is a lever
arm being movable between two end positions and wherein said locking condition is
achieved in said end positions.
[0014] In this way it is possible to position the operating handle of the screening arrangement
when the slats has been tilted to their end position, which corresponds to the respective
end positions of the tilt assembly.
[0015] In a mechanically preferred embodiment, said first and second end positions of said
tilt assembly is adapted to move said lever arm to said unlocking condition.
[0016] In a further development of this embodiment, a longitudinal direction of said lever
arm in said unlocking condition is substantially perpendicular to the longitudinal
direction of said top element.
[0017] In an even further development of this embodiment, said lever arm comprises a pin
adapted to move said lever arm to the unlocking condition when said tilt assembly
is moved to said first and second end positions.
[0018] In a further mechanically simple embodiment, said locking mechanism comprises a recess
or a bore adapted to receive said operating cord and to provide a pull resistance
when pulling said operating cord.
[0019] In a further development of this embodiment, the pull resistance is increased when
said operating cord is pulled.
[0020] In an even further development of this embodiment, the recess comprises a substantially
sharp edge for squeezing the operating cord between a portion of the locking mechanism
and the tilt assembly.
[0021] In a preferred embodiment especially suitable for the adjusting the position of the
operating handle, the screening arrangement further comprises two side rails adapted
to be positioned on side pieces of a frame and wherein at least one of said side rails
comprises a operating handle in connection with said operating cord.
[0022] In the following the invention will be described in further detail by means of examples
of embodiments with reference to the schematic drawing, in which
Fig. 1 is a front view of a window provided with a screening arrangement in an embodiment
of the invention,
Fig. 2 is a front view of a screening arrangement according to Fig. 1,
Fig. 3 shows a perspective view of the screening arrangement of Fig. 1,
Fig. 4 shows a perspective view of the screening arrangement of Fig. 1 in another
position,
Fig. 5 is a perspective view of a top element of Fig. 1-4,
Fig. 5B schematically shows a cord loop for tilting the slats in a screening arrangement
according to the invention,
Fig. 6 shows a detail of a top element,
Fig. 6B shows a mechanically simple embodiment according to the invention,
Fig. 7 is a bottom view of a top element according to the invention,
Fig. 8 is a perspective view of a tilt assembly according to the invention,
Fig. 9 shows a detail of a the tilt assembly of Fig. 8,
Fig. 10 shows another detail of the tilt assembly of Fig. 8,
Fig. 11 is a top view of Fig. 9,
Fig. 11B is a top view of Fig. 8,
Fig. 12 is a perspective top view of Fig. 10,
Fig. 12B shows a detail of a preferred embodiment of the invention,
Fig. 13 is an example showing the use of the detail shown in Fig. 12B,
Fig. 14 is a further example showing the use of the detail shown in Fig. 12B,
Figs. 15A-15E show different positions of a tilt assembly according to the invention.
[0023] Figs. 1 to 4 show an embodiment of a screening arrangement generally designated 1.
As shown in Fig. 1, the screening arrangement 1 is adapted to be mounted on a frame
constituted by a sash 2 representing a window. The sash 2, in turn, is adapted to
be connected with a stationary frame (not shown), which in a mounted position of the
window lines an opening in a building. It is noted that the term "frame" is to be
understood as incorporating any structure positioned in any opening in a building,
whether in a wall or the roof, and surrounding an aperture to be screened. Although
the sash shown in Fig. 1 is the sash of a roof window and the screening arrangement
1 is mounted on the sash 2 of the window, a screening arrangement 1 according to the
invention may just as well be mounted on the stationary frame instead of the sash
and may also be utilized in connection with e.g. windows having a frame only, or in
doors. The sash 2 has a top piece 21, a bottom piece 22 and two side pieces 23 and
24 surrounding an aperture, which is covered by a suitable panel element such as a
glazing in the form of an insulating pane (not shown).
[0024] In the embodiment shown, the screening arrangement 1 is a Venetian blind comprising
a screening device 6 comprising a number of slats 80, tilt cords 81 and operating
cords (not shown). At its upper end edge, the screening device 6 is fastened to a
top element 4 by means of said tilt cords 81 and operating cords. Its opposed, lower
end edge is fastened to the operating element 71. The operating element 71 and the
slats 80 extend substantially in parallel to each other in a first longitudinal direction
defining a width direction. The first longitudinal direction is substantially perpendicular
to a second longitudinal direction defining a height direction. Thus, the width direction
is parallel to the top and bottom pieces 21 and 22 and the height direction to the
side pieces 23 and 24 of the sash 2.
[0025] The top element 4 is adapted to be positioned at the sash top piece 21 such that
a top rail 440 of the top element 4 extends in the first longitudinal of width direction.
Side rails 8, 9 are adapted to be positioned at the left-hand side piece 23 and right-hand
side piece 24, respectively, to extend in the second longitudinal or height direction.
The terms "left-hand" and "right-hand" refer to the orientation shown in for instance
Figs 1 and 2 and are utilized for reasons of convenience only. Similarly, the terms
"front" and "back" are utilized to denote the sides of the screening arrangement,
"front" being the side intended to face inwards into the room of the building, and
"back" the outwards facing side.
[0026] The top rail 440 has two ends, which in the embodiment shown are mitred, and of which
the left-hand mitred end 445 and the right-hand mitred end 446 are indicated in Fig.
5. The mitred ends 445, 446 are adapted to be joined to a respective mitred end of
the side rails 8, 9. The top rail 440 is joined to the side rails 8, 9 in joints by
means of angular brackets 85. Opposite ends of the operating element 71 are introduced
into these side rails 8 and 9. Furthermore, each end of the top element 4 has an end
piece 450 with a resilient portion 451, which end piece is adapted to engage with
respective bracket member (not shown) mounted on opposing sides of a sash or a frame.
[0027] In the embodiment shown, the operating element 71 is adapted to act as a handle during
operation of the screening arrangement 1, i.e. for moving the operating element 71
and hence the slats 80 between a non-screening position and a screening position corresponding
to the positions shown in Fig. 2 and Fig. 4, in which the screening device 6 covers
the sash aperture partly or fully. However, instead of being manually operated, the
screening arrangement may be operated by other means, e.g. by electrical operating
means.
[0028] In a typical embodiment the tilt cords 81 of the screening device 6 each comprises
a first and a second cord connected by a plurality of vertically-spaced cross-rungs,
which first and second cords in a condition of use extends in the above-mentioned
height direction. The slats 80 of the screening device 6 are each supported on one
of said cross-rungs between said first and second cords of the tilt cords 81. The
slats 80 may also be placed between two close-set cross-rungs or they may also be
mounted directly to the vertical portions of the tilt cords 81. The top element 4
comprises an adjusting mechanism in connection with the cords 81 for commonly pivoting
each of said slats 80 about their longitudinal direction, which in a condition of
use corresponds to the above-mentioned width direction. By moving said first and second
cords of the tilt cords in vertically opposite directions, respective first and second
screening surfaces of the slats 80 may be tilted to face either the front or back
as defined above. Hence, in typical embodiments of such screening arrangement 1 the
slats 80 may be tilted 180 degrees.
[0029] Fig. 5 is a perspective front view of a top element 4 comprising two tilt assemblies
460. Each tilt assembly 460 comprises a first tilt assembly 470 (cf. Fig. 6) and second
tilt assembly 480 (cf. Fig. 8), which are to be explained in more detail below. Furthermore
is shown a portion of a cord loop 90 connected to said tilt assemblies 460, which
cord loop 90 in a preferred embodiment is directly connected to a handle 10 positioned
on one of said side rails 8, 9. In the embodiment shown, a cord loop wheel 95 at the
left-hand side of the top element serves a turning point of the cord loop 90.
[0030] Fig. 5B shows the direct connection between the handle 10 and the tilt assemblies
460 accommodated in the top element 4. The loop wheel 95 in the upper left corner
of the screening arrangement 1 and a corresponding loop arrangement near the bottom
sash piece 22, constitute in a manner known per se, the turning points of the cord
loop 90. As shown in Fig. 5B the cord loop 90 is adapted to extend from the cord loop
wheel 95 at the left-hand upper corner of the top element 4, along the top element
4 and the side rail 9 to the right-hand lower corner of the sash. In the mounted position,
the cord loop 90 is hidden behind the side rails 8, 9. Alternatively, the cord loop
90 could be divided in two with first portion extending along the side rails 8, 9
to a transmission in the top element, which connects to a second portion of the cord
loop, which extends along the top element 4.
[0031] Fig. 6 shows a portion of the tilt assemblies 460 in a preferred embodiment of the
invention, wherein the first assembly member is a rotatory wheel 470. Each vertically
extending cord of the tilt cords 81 of the screening device 6 are connected (not shown)
to said rotatory wheels 470, respectively. The rotatory wheels 470 have an axis of
rotation, which is substantially parallel to the height direction of the top element
4. The tilt cords 81 of the screening device 6 are guided through respective elongate
apertures 486 of a supporting bottom portion 485 of the top element 4 and connected
to tilt assemblies 460 serving each tilt cord 81, respectively. The supporting bottom
portion 485 may be adapted to accommodate and form a support for said rotatory wheels
470 as shown in Fig. 6. However, as shown in Fig. 8 in another embodiment, each tilt
assembly 460 may further comprise a support portion 490 adapted to fit into the top
element 4. The support portion 490 comprises an elongate aperture 496 corresponding
to the elongate aperture of the bottom support portion 485 of the top element 4. The
support portion 490 is also adapted to receive and support a rotatory wheel 470 as
a first assembly member and a second assembly member 480, which second member 480
in the shown embodiment is a plate having a first upper side 481 and a second lower
side 482 comprising a first and a second track 483, 484. The support portion 490 is
provided with first and second sidewalls 495, 497, adapted to guide the second assembly
member 480 in the longitudinal direction of the top element 4. Evidently, the features
of the support portion 490 may be an integral part of the top element 4. Furthermore,
the second assembly member 480 is adapted to engage with and thereby rotate the first
assembly member when the second assembly member is moved in the longitudinal direction
of the top element 4. The apertures 486 and 491 of the top element and the tilt assembly
460, respectively, are rounded with a diameter that reduces wear and tear of the tilt
cords 81 during operation. Moreover, the size of the apertures 486, 491 are adapted
to make it possible to introduce the first assembly member 470 through the apertures
after the tilt cords 81 have been mounted to the first assembly member 470, which
further facilitates the assembling of the screening arrangement 1.
[0032] In a preferred embodiment the first assembly member is a rotatory wheel 470 comprising
an at least partly circumferential recess 471 for accommodating a portion of said
tilt cords 81. However, the tilt cord 81 may be connected directly to the first assembly
member without the use of a recess. The slats 80 are tilted by rotating the rotatory
wheels 470 connected to the tilt cords 81, which will pull the first and second cords
of the tilt cord 81, respectively. Hence, a rotation of 180 degrees of the first tilt
assembly 470 corresponds to a rotation of 180 degrees of the slats 80.
[0033] Fig. 6B shows another embodiment of the invention wherein the lever arm 20 is mounted
on a tilt assembly 460, which is slidable in the longitudinal direction of the top
element 4. The tilt assemblies 460 are directly connected to the tilt cords 81 (not
shown) in a manner known per se, and by sliding the tilt assembly 460 in the longitudinal
direction of the top element 4, the slats 80 of the screening device 6 may be tilted.
[0034] Fig. 9 is a view according to fig. 8 wherein the second assembly member 480 has been
removed. The rotatary wheel 470 comprises two pins 473, 474 on an upper surface 475
facing away from the bottom portion 485 of the support portion 490 of the tilt assembly
460. Said pins 473, 474 are adapted to engage with first and second tracks 483, 484
provided on the lower side 482 of a second assembly member 480. When the second assembly
member 480 is positioned between the side walls 495, 497 with the lower side 482 comprising
tracks 483, 484 facing towards the support portion 490 and the pins 473, 474 of the
rotatory wheel 470 engages with the tracks 483, 484, the rotatory wheel 470 is rotated
by moving the second assembly member 480 in the longitudinal direction of the tilt
assembly as indicated by the arrows A of Fig. 8. The tracks 483, 484 on the lower
side 482 of the second assembly member 480 are further illustrated in Fig. 10.
[0035] As shown in the embodiment of Fig. 5 the second assembly member 480 may be moved
in the longitudinal direction by means of a cord loop 90 connected to a handle 10
mounted to and slidable along a side rail 8, 9. However, instead of being manually
operated the tilt assembly 460 may be operated by other means, e.g. by electrical
operating means accommodated in the top element 4. In general the second assembly
member 480 may be moved between a first and a second end position corresponding to
the rotation of the slats 80.
[0036] Fig. 11 is a top view of Fig. 9 showing the position of the pins 473, 474 with respect
to the sidewalls 495, 497 in a preferred embodiment. The position of the pins 493,
494 in Fig. 11 corresponds to the end position of the second assembly member as shown
in Figs. 8 and 11B. The end positions of the second assembly member may be defined
by end stops in the top element or in the bottom portion 490 of the tilt assembly
460 such as protrusions 492, 494, which may engage with a portion of the second assembly
member 480. It is also possible to use either of the tracks as means for providing
an end position of the second assembly member 480. This could for instance be made
as shown in Fig. 15E, where the end point of the track 484 serves as a end stop for
pin 474. In an embodiment wherein the tilt assembly 460 is not an integral part of
the top element 4, the tilt assembly may be mounted in the top element 4 by means
of a snap connection, which provides for a facilitated production. In a preferred
embodiment, snap pins extending from each corner of the support portion 490 provide
the snap connection.
[0037] Fig. 12 is a perspective view of the second assembly member 480 having a lever arm
20 pivotally connected to the second assembly member 480. The lever arm 20 is pivotal
between two walls 485, 486 of the upper side 481 of the second assembly member 480
with respect to a pivot 30. In the illustrated embodiment the lever arm is U-shaped
and comprises a first arm 21 and a second arm 22, both extending from the pivot 30.
The first arm 21 extends on the upper surface 481 of the second assembly member 480,
whereas the second arm 22 extends through an aperture 487 to the lower side 482 of
the second assembly member 480. A pin 25 extends substantially perpendicular from
the second arm 20. As shown in Fig. 12B, which is a side view of a preferred embodiment
of a lever arm 20, the second arm 22 extends in a L-shaped fashion from the pivot
30 into the pin 25 and thereby forms a U-shaped recess 35 of the lever arm 20. As
shown in Fig. 13 the lever arm 20 is adapted to receive the cord in the recess 35,
which is adapted to squeeze said cord slightly when it has been positioned in the
recess 35. When pulling the cord, which preferably is a part of a cord loop 90, the
lever arm 20 will pivot from the position shown in Fig. 13 towards the position in
Fig. 12 and thereby the cord will be squeezed further between the either of the walls
485, 486 and the pivot 30, depending on the direction in which the cord is pulled.
Hence, due to the inherent friction between the recess 35 and the cord, which preferably
is a part of a cord loop 90, the second assembly member 480 is mounted in a top element
4 it can be moved with respect to the longitudinal direction of the top element 4
by pulling the cord. Preferably the wall of the U-shaped recess 35 facing the pivot
30 is substantially crescent with a substantially sharp edge on each side of the lever
arm 20. Hence, when pulling the cord and moving the lever arm 20 either of the sharp
edges will squeeze into the cord positioned in the recess 35 and fix it between a
portion of the upper side 481 of the second assembly member 480 and said sharp edges.
[0038] Basically, the locking mechanism of the second assembly member 48 must have a recess
or a bore adapted to receive a cord and provide a resistance to the cord when it is
pulled and preferably the pull resistance is increased when the cord is pulled.
[0039] In another embodiment the second assembly member 480 is provided with a tubular element
substantially extending in the longitudinal direction of the top element 4. A cord
is pulled through a through-going bore of the tubular element, which hole is slightly
smaller than the diameter of the cord in order to obtain a friction between the tubular
element and the cord.
[0040] In yet another embodiment the cord is connected to the second assembly member 480
by means of a ball bearing and a ball mounted on said assembly member 480. The ball
is pushed towards the ball bearing by a spring and the cord is guided between the
ball and the ball bearing in order to provide the friction required for moving the
assembly member 480.
[0041] When the second assembly member 480 reaches an end position, the cord may be pulled
through the through-going bore or between the ball bearing and the spring loaded ball,
which provides for a flexible positioning of the handle 10.
[0042] However, when the tilt assembly 460 of a screening arrangement 1 is operated by means
of handle 10 positioned on a side rail 8, 9 as shown in Figs. 1-4, it is desirable
with a flexible positioning of the handle 10 on the side rails 8, 9. This is especially
the case when a screening arrangement 1 is used in connection with a roof window and
users of different height must operate the handle 10.
[0043] As shown in Fig. 9 and 11 the support portion 490 comprises two end stop pins 492,
494 in connection with end walls 496 of the support portion 490. The end stop pins
492, 494 are adapted as respective end positions when moving the second assembly member
480 with respect to the longitudinal direction of a top element 4. As described above
the support portion 490 and said end stop pins 492, 494 may be an integral part of
the top element 4. In a preferred embodiment the cord connected to the second assembly
member is a part of a cord loop 90 as illustrated in Fig. 5. When the cord loop 90
of the is pulled and the second assembly member 480 moves, pin 25 of lever arm 20
will eventually reach one of said end stop pins 492, 494. As shown in Fig. 14 the
pin 25 of the lever arm 20 protrudes in a recess 30 on the lower side 482 of the second
assembly member 480. Therefore when the lever arm 20 reaches an end stop pin 492,
494 the second assembly member reaches an end position. Pulling the cord loop 90 further
towards an end stop pin 492, 494 will pivot the lever arm 20 to a position as shown
in Fig. 5 and 13. In this position the cord loop 90 is only slightly squeezed by the
lever arm 20 and the second assembly member 480 is stopped in an end position until
the cord loop 90 is pulled in another direction. Hence, the pins 492, 494 define respective
end positions for the movement of the second assembly member 480. If the cord 90 is
pulled further in the same direction after the second assembly member 480 reach an
end stop pin 492, 494, the cord loop 90 can be pulled further by means of the handle
10 without moving the second assembly member 480. Thereby it is possible to move the
handle 10 further in the same direction after the second assembly member 480 has reached
an end position and thereby adjust the position of the handle 10 in order to fit the
operating position to the individual user. In a typical embodiment the cord loop 90
is provided by a cord having its two end connected to the handle 10 of the screening
arrangement. The cord loop 90 may be divided in two parts having a first part extending
in the longitudinal direction of a side rail 8, 9 and having it ends connected to
the handle 10. The first part of the cord loop takes a turn in the top element 4 and
at the opposite end of the side rail 8, 9. In the top element 4 the first part of
the cord loop is connected to a transmission, which may comprise a gearing. A second
part of the cord loop connected to the tilt assembly 460 extends in the longitudinal
direction of the top element 4 and takes a turn at a cord loop wheel 95 and in said
transmission. The use of a cord loop 90 divided in two parts may provide for a facilitated
installation of the screening arrangement 1 and the use of a transmission with a gearing
makes it possible to further adjust the relation between a movement of the handle
10 and the rotation of the slats 80.
[0044] Normally, a screening arrangement 1 comprises two or more tilt assemblies 460, which
must operate on the tilt cords 81 simultaneously. When the tilt assemblies 460 are
connected with a cord loop 90, which on the other hand is connected to the tilt assemblies
460 with a lever arm 20 functioning as described above, the operating position of
the tilt assemblies 460 will automatically be synchronised as the handle 10 is moved
along the side rail 9. Hence, a screening arrangement according to the invention provides
a very stable operation of the tilt cords 81 and any possible adjustment of the tilt
mechanism of the screening arrangement 1 is made during normal operation, without
any special interaction on the user.
[0045] Figs. 15A-15E illustrate how the pins 473, 474 of the rotatory wheel 470 engage with
the tracks 483, 484 of the second assembly member 480 in a preferred embodiment. The
position of the tilt assembly shown in Fig. 15A corresponds to an end position wherein
the slats 81 of the screening device are tilted to an almost upright position wherein
a screening surface of the slats 80 substantially are facing the aperture to be screened.
In Fig. 15A the second pin 474 engages with the second track 484, but the rotatory
wheel 470 is in a position wherein the first pin 473 does not engage with the first
track 483. When moving the second assembly member 480 towards the left hand side of
Fig. 15A-15E, the walls of the tracks 483, 484 may in all positions apply a force
to a least one the pins 473, 474 and thereby a counter-clockwise rotation of the rotatory
wheel 470 is obtained.
[0046] In Fig. 15B both pins 473, 474 engage with the tracks 483, 484, respectively, and
the rotatory wheel 470 has been rotated 60 degrees, which provides a corresponding
rotation of the slats 80 of the screening device 6. In Fig. 15C the second assembly
member 480 has been further moved to the left-hand side and the rotatory wheel 470
has been rotated 90 degrees in the counter-clockwise direction. This corresponds to
a position of the slats 80 wherein the screening surfaces of the slats are substantially
perpendicular to the aperture of the aperture to be screened.
[0047] The position of the rotatory wheel 470 shown in Fig. 15D is of special interest with
respect to the preferred embodiment of the invention. In Fig. 15D the second pin 474
is in a position wherein the second track 484 alone cannot apply a force to the second
pin 474 in order to further rotate the rotatory wheel 470 in the counter-clockwise
direction. However, in this position the first track 483 can still apply a force to
the first pin 473 in order move the second pin 474 beyond the position of Fig. 15D,
which corresponds to a rotation of approximately 120 degrees. Experiments has shown
that it is impossible to design a single track in the second assembly member 480,
which can provide a 180 degree rotation of the rotatory wheel 470. Using two tracks
483, 484 is the preferred embodiment to overcome the above-mentioned dead point of
Fig. 15D and to achieve a full rotation of the rotatory wheel 470 and thereby the
slats 80 of 180 degrees, which is desirable for most screening arrangements. However,
the same result could be achieved with a second assembly member having only one track,
such as the second track 484, in combination a spring-loaded mechanism adapted to
overcome said dead point. At all positions between those shown in Fig. 15A and Fig.
15E the second assembly member 480 can be moved back towards the right hand side and
thereby rotate the rotatory wheel 470 in the clockwise direction.
[0048] In a preferred embodiment the tracks 483, 484 and the end positions of the tilt assembly
460 is adapted to provide a transmission between the handle 10 and the rotation of
the slats so that if the handle 10 is moved approximately 10 centimetre along the
side rail 9, the slats 80 are tilted 180 degrees.
[0049] Another advantage of the invention is that the tracks 483, 484 can take many other
shapes, which may provide for different angular velocities of the slats when moving
the handle 10 along the side rail 9. Hence, it is for example possible to design the
tracks 483, 484 so that the handle 10 more easily can be used for fine tuning the
tilt of the slats 80, when they are in a position as shown in Figs. 1-4, and when
the slats 80 are tilted to a full screening position even a relatively small movement
of the handle 10, will result is a relatively large rotation of the slats 80.
[0050] A further aspect of the preferred embodiment is the position of the first and second
pins 473, 474 of the rotatory member 470 with respect to each other and with respect
to how they are positioned in the end positions shown in Fig. 15A and 15E. In a preferred
embodiment the pins 473, 474 are positioned on the upper surface 475 of the rotatory
wheel 470 adjacent to the edge and they separated 90 degrees with respect to the axis
of rotation. In the preferred embodiment the tracks 483, 484 of the second assembly
member is designed so that the tracks 483, 484 do not cross each other. If the tracks
483, 484 cross each, the operation of the tilt assembly 460 may be less smooth, because
the pins 473, 474 may get stuck is such a cross-section of the tracks 483, 484. To
enable a design of the tracks 483, 484 where the tracks do not cross each other, the
position of the first pin 473 may for instance be rotated 15 degrees with respect
to the adjacent first and second sidewalls 495, 497, respectively, as shown in the
end positions of Fig. 15A and 15E, and the two pins 473, 474 are separated by 90 degrees.
This is further illustrated the angle a in Fig. 11, which corresponds to the end position
of Fig. 15A. The separation of the pins 473, 474 by 90 degrees provides for an more
even rotation of the first assembly member 470, because either of the tracks 483,
484 is able to contribute with a force to the pins 473, 474 in all positions of the
first assembly member 470, when the second assembly member 480 is moved between its
end positions corresponding to the end positions of the slats 81, and in most positions
both tracks 483, 484 will apply a force to the pins 473, 474 and thereby contribute
to a smooth rotation.
[0051] A similar transmission and engagement between the first assembly member 470 and the
second assembly member 480 may be achieved by providing the second assembly member
480 with a plurality of pins or protrusions and the rotatory wheel 470 with a plurality
of tracks or recesses adapted to engage with the pins or protrusions of the second
assembly member 480. In the embodiment of Fig. 15A-E the first assembly member is
shaped as a wheel. Evidently, the first assembly member 470 can take many other shapes
than a wheel in order to provide a connection between the tilt cords 81 and the second
assembly member 480. Furthermore, the invention is not limited to embodiments wherein
the axis of rotation corresponds to a symmetry axis of the wheel 470 or a symmetry
axis of any other suitable rotatory member 470.
[0052] In a further embodiment of the invention said first and second tracks 483, 484 are
provided as elongate tongues, which engage with corresponding grooves provided on
said pins 473, 474 and the pins are rotatable with respect to the rotatory member
470.
[0053] In yet a further embodiment of the invention the rotatory member 470 is provided
with two further pins facing the top element 4, which is provided with two tracks
for receiving said two further pins. Hence, the rotatory member 470 can be positioned
to be floating or freely embedded between the second assembly member 480 and the top
element 4. Evidently, this embodiment could also be achieved by using elongate tongues
and groves as described above.
[0054] The invention should not be regarded as limited to the embodiments shown and described
in the above, but several modifications and combinations may be carried out without
departing from the scope of the appended claims.
1. A screening arrangement (1) comprising:
a top element (4) having a longitudinal direction, which is adapted to be positioned
along a longitudinal direction of a top piece (21) of a frame in a condition of use,
and a height direction, which is adapted to be positioned along a longitudinal direction
of a side piece of a frame in a condition of use,
a screening device (6) comprising a plurality of tiltable slats (80) adapted to at
least partly screening an aperture of a frame, and a tilt cord (81) connected to said
slats (80) and a tilt assembly (460) accommodated in said top element (4) and being
movable in the longitudinal direction of said top element (4) between a first and
a second end position,
an operating cord (90) extending in the longitudinal direction inside said top element
(4) and connected to said tilt assembly (460) for tilting said slats (80) between
a first and a second predetermined position,
said tilt assembly (460) comprises a locking mechanism (20) adapted to connect said
operating cord (90) to said tilt assembly (460),
said locking mechanism (20) has a locking condition allowing said operating cord (90)
to move said tilt assembly between said first and second end positions, and an unlocking
condition wherein said operating cord (90) is movable in said longitudinal direction
of said top element (4) without moving said tilt assembly, characterized in that
said locking mechanism (20) is a lever arm (21) being movable between two end positions
and wherein said locking condition is achieved in said end positions, and in that
a longitudinal direction of said lever arm (21) in said unlocking condition is substantially
perpendicular to the longitudinal direction of said top element (4).
2. A screening arrangement (1) according to claim 1, wherein said first and second end
positions of said tilt assembly (460) is adapted to move said lever arm (21) to said
unlocking condition.
3. A screening arrangement (1) according to claim 1 or 2, wherein said lever arm (21)
comprises a pin (25) adapted to move said lever arm (21) to the unlocking condition
when said tilt assembly (460) is moved to said first and second end positions.
4. A screening arrangement (1) according to any previous claim, wherein said locking
mechanism (460) comprises a recess or a bore adapted to receive said operating cord
(90) and to provide a pull resistance when pulling said operating cord (90).
5. A screening arrangement according to claim 4, wherein the pull resistance is increased
when said operating cord (90) is pulled.
6. A screening arrangement (1) according to claim 4 or 5, wherein the recess comprises
a substantially sharp edge for squeezing the operating cord (90) between a portion
of the locking mechanism (20) and the tilt assembly (460).
7. A screening arrangement (1) according to any previous claim, further comprising two
side rails (8, 9) adapted to be positioned on side pieces of a frame and wherein at
least one of said side rails comprises an operating handle (10) in connection with
said operating cord (90).
1. Abschirmanordnung (1) mit
einem oberen Element (4) mit einer Längsrichtung, die angepasst ist, in einer Benutzungsstellung
entlang einer Längsrichtung eines oberen Teils (21) eines Rahmens angeordnet zu werden,
und mit einer Höhenrichtung, die angepasst ist, in einer Benutzungsstellung entlang
einer Längsrichtung eines Seitenteils eines Rahmens angeordnet zu werden,
einer Abschirmeinrichtung (6), die eine Vielzahl von verschwenkbaren Lamellen (80)
aufweist, die angepasst sind, zumindest teilweise eine Öffnung in einem Rahmen abzuschirmen,
und mit einer Schwenkschnur (81), die mit den Lamellen (80) verbunden ist, und einer
Schwenkanordnung (460), die in dem oberen Element (4) aufgenommen und in der Längsrichtung
des oberen Elements (4) zwischen einer ersten und einer zweiten Endstellung bewegbar
ist,
einer Betätigungsschnur (90), die sich in der Längsrichtung in dem oberen Element
(4) erstreckt und mit der Schwenkanordnung (460) zum Schwenken der Lamellen (80) zwischen
einer ersten und einer zweiten vorgegebenen Stellung verbunden ist,
wobei die Schwenkanordnung (460) einen Verriegelungsmechanismus (20) aufweist, der
angepasst ist, die Betätigungsschnur (90) mit der Schwenkanordnung (460) zu verbinden,
wobei der Verriegelungsmechanismus (20) eine Verriegelungsstellung hat, die der Betätigungsschnur
(90) ermöglicht, die Schwenkanordnung zwischen der ersten und der zweiten Endstellung
zu bewegen, und eine entriegelte Stellung, wobei die Betätigungsschnur (90) in der
Längsrichtung des oberen Elements (4), ohne die Schwenkanordnung zu bewegen, beweglich
ist, dadurch gekennzeichnet, dass
der Verriegelungsmechanismus (20) ein Hebelarm (21) ist, der zwischen zwei Endstellungen
beweglich ist, und wobei die Verriegelungsstellung in den Endstellungen erreicht wird,
und dass
eine Längsrichtung des Hebelarms (21) in der entriegelten Stellung im Wesentlichen
senkrecht zu der Längsrichtung des oberen Elements (4) ist.
2. Abschirmanordnung (1) nach Anspruch 1, wobei die erste und die zweite Endstellung
der Schwenkanordnung (460) angepasst sind, den Hebelarm (21) in die entriegelte Stellung
zu bewegen.
3. Abschirmanordnung (1) nach Anspruch 1 oder 2, wobei der Hebelarm (21) einen Stift
(25) aufweist, der angepasst ist, den Hebelarm (21) in die entriegelte Stellung zu
bewegen, wenn die Schwenkanordnung (460) in die erste und zweite Endstellung bewegt
wird.
4. Abschirmanordnung (1) nach einem der vorhergehenden Ansprüche, wobei der Verriegelungsmechanismus
(460) eine Aussparung oder eine Bohrung aufweist, die angepasst sind, die Betätigungsschnur
(90) aufzunehmen und einen Zugwiderstand vorzusehen, wenn die Betätigungsschnur (90)
gezogen wird.
5. Abschirmanordnung nach Anspruch 4, wobei der Zugwiderstand erhöht wird, wenn die Betätigungsschnur
(90) gezogen wird.
6. Abschirmanordnung (1) nach Anspruch 4 oder 5, wobei die Aussparung eine im Wesentlichen
scharfe Kante zum Quetschen der Betätigungsschnur (90) zwischen einem Abschnitt des
Verriegelungsmechanismus (20) und der Schwenkanordnung (460) aufweist.
7. Abschirmanordnung (1) nach einem der vorhergehenden Ansprüche, ferner mit zwei Seitenschienen
(8, 9), die angepasst sind, an Seitenteilen eines Rahmens angeordnet zu werden, wobei
wenigstens eine der Seitenschienen einen Betätigungshebel (10) in Verbindung mit der
Betätigungsschnur (90) aufweist.
1. Dispositif d'occultation (1) comprenant :
un élément supérieur (4) présentant une direction longitudinale, lequel est adapté
pour être positionné selon une direction longitudinale d'une partie supérieure (21)
d'un cadre dans une situation d'utilisation, et présentant une direction de hauteur,
lequel est adapté pour être positionné selon une direction longitudinale d'une partie
latérale d'un cadre dans une situation d'utilisation,
un dispositif d'occultation (6) comportant une pluralité de lames inclinables (80)
conçues pour occulter, au moins partiellement, l'ouverture d'un cadre, et un cordon
d'inclinaison (81) raccordé aux dites lames (80) et à un dispositif d'inclinaison
(460) logé dans ledit élément supérieur (4) et pouvant se déplacer dans la direction
longitudinale dudit élément supérieur (4) entre une première et une seconde positions
d'extrémité,
un cordon de manoeuvre (90) s'étendant dans la direction longitudinale à l'intérieur
dudit élément supérieur (4) et raccordé au dit dispositif d'inclinaison (460) pour
incliner lesdites lames (80) entre une première et une seconde positions prédéterminées,
ledit dispositif d'inclinaison (460) comporte un mécanisme de blocage (20) conçu pour
connecter ledit cordon de manoeuvre (90) au dit dispositif d'inclinaison (460),
ledit mécanisme de blocage (20) possède une situation de blocage permettant au dit
cordon de manoeuvre (90) de déplacer ledit dispositif d'inclinaison entre lesdites
première et seconde positions d'extrémité, et une situation de déblocage dans laquelle
ledit cordon de manoeuvre (90) peut se déplacer suivant ladite direction longitudinale
dudit élément supérieur (4) sans déplacer ledit dispositif d'inclinaison, caractérisé en ce que
ledit mécanisme de blocage (20) est un bras de levier (21) pouvant se déplacer entre
deux positions d'extrémité et dans lequel ladite situation de blocage est obtenue
dans lesdites positions d'extrémité, et en ce que
une direction longitudinale dudit bras de levier (21) dans ladite situation de déblocage
est essentiellement perpendiculaire à la direction longitudinale dudit élément supérieur
(4).
2. Dispositif d'occultation (1) selon la revendication 1, dans lequel lesdites première
et seconde positions d'extrémité dudit dispositif d'inclinaison (460) sont adaptées
pour déplacer ledit bras de levier (21) vers ladite situation de déblocage.
3. Dispositif d'occultation (1) selon la revendication 1 ou 2, dans lequel ledit bras
de levier (21) comporte une broche (25) conçue pour déplacer ledit bras de levier
(21) vers la situation de déblocage lorsque ledit dispositif d'inclinaison (460) est
déplacé vers lesdites première et seconde positions d'extrémité.
4. Dispositif d'occultation (1) selon l'une quelconque des revendications précédentes,
dans lequel ledit mécanisme de blocage (460) comporte un évidement ou un alésage adapté
pour recevoir ledit cordon de manoeuvre (90) et pour fournir une résistance au tirage
lorsqu'on tire ledit cordon de manoeuvre (90).
5. Dispositif d'occultation selon la revendication 4, dans lequel la résistance au tirage
est augmentée lorsque ledit cordon de manoeuvre (90) est tiré.
6. Dispositif d'occultation selon la revendication 4 ou 5, dans lequel l'évidement comporte
un bord essentiellement saillant pour comprimer le cordon de manoeuvre (90) entre
une partie du mécanisme de blocage (20) et le dispositif d'inclinaison (460).
7. Dispositif d'occultation (1) selon l'une quelconque des revendications précédentes,
comportant, de plus, deux rails latéraux (8, 9) adaptés pour être positionnés sur
des parties latérales d'un cadre et dans lequel au moins l'un desdits rails latéraux
comprend une poignée d'actionnement (10) en liaison avec ledit cordon de manoeuvre
(90).