Patent Grant
11555349
The invention relates to a device for winding a screen, and in particular a screen for closing off an opening in a building or a projection screen, and in particular, but not exclusively, a motorized winding device, and more specifically, but not exclusively, a motorized device having an onboard electrical energy reserve.
In order to facilitate the replacement of battery cells for a screen winder, it has been proposed in document U.S. Pat. No. 6,371,192 to provide, in the winder, a housing closed by an access hatch situated on a planar upper wall of the box of the winder. However, access to this wall is not always easy when the winding device is fastened at a small distance from the lintel in the upper part of an opening in a building. It is then necessary to completely disassemble the winder to access the access hatch.
To resolve this problem, it has been proposed in document US 2013/0153162 to fasten the box of the winder to the walls of the opening by attachments allowing the box to pivot around a pivot axis parallel to the rotation axis of the winder. Thus, it is possible to pivot the box around this pivot axis in order to access the access hatch of the battery cell housing without difficulty, which is located on a front face or an upper face of the box. However, these solutions are not transposable to a winder whose ceils are positioned inside the winding tube.
The invention seeks to resolve the drawbacks of the state of the art and propose means for facilitating access to one end of a screen winder, in particular for maintenance operations.
To that end, according to a first aspect of the invention, proposed is a device for winding a screen including:
Various embodiments of the screen winding device are defined by the dependent claims.
When the first wall attachment is fastened to a wall, the first hinge allows an operator to manipulate the tubular winder by its second end portion, while the first end portion remains supported and guided by the wall attachment in its pivoting movement around the first axis of articulation of the hinge. It is then easy for a single person to intervene on the winding device, for example for a maintenance operation requiring access to the second end portion of the tubular winder.
The expression “wall” is intended, in the context of the present invention, to include any type of wall in a building, and in particular any interior or exterior opening frame of the building, whether it involves a doorframe or an architrave, at the lintel or studs, or whether it involves a wall of a partition, a celling or drop celling, for the suspension of a sun protection or projection screen. The term “wall attachment” is intended to include any type of attachment allowing fastening to a wall within the general meaning given above. A hinge refers to any type of articulation with a degree of rotational freedom.
According to one embodiment, the tubular winder includes a winding tube, the screen winding device further including a first guide bearing to guide the rotation of the winding tube around the reference axis relative to the first wall attachment. Preferably, the winding device further includes a second guide bearing inserted between the winding tube and the second wall attachment. Each guide bearing can be integrated into the associated wall attachment, or positioned between the associated end portion of the tubular winder and the winding tube.
The invention is particularly suitable for an embodiment in which the tubular winder includes a motorized actuator for rotating the winding tube around the reference axis, the actuator preferably being at least partially housed inside the winding tube.
It is possible to provide that the second portion of the tubular winder is formed by an end of the actuator. The actuator, in particular an end part of the actuator such as the front face of the head, then becomes directly accessible at the end of the winder when the winder, maintained at the first wall by the first articulated attachment, has pivoted around the axis of articulation.
According to one embodiment, the tubular winder includes a guide bearing inserted between the winding tube and the actuator.
The invention is particularly suitable for an embodiment in which the tubular winder includes a housing for batteries or battery cells, the housing preferably being situated inside the winding tube, on the side of the second portion. Various alternatives can be considered. The removal of the batteries or battery cells may advantageously be done through the second portion of the winder, directly accessible once the winder has been pivoted around the first axis of articulation.
According to one embodiment, the housing for the batteries or battery cells is situated inside a case of the actuator. Preferably, the head of the actuator comprises a passage hatch for the batteries or battery cells.
According to one embodiment, the tubular winder has, at its second end, an end piece having a passage, preferably able to be closed by a hatch, and through which the batteries or battery cells can pass.
According to one embodiment, the screen winding device according to the invention further comprises a screen wound on the winding tube, the screen being provided with a load bar.
To prevent the pivoting of the winder around the first axis of articulation from damaging the screen, it is naturally of interest for the screen to be completely wound and the load bar to be in an extreme winding position before intervening on the device in order to pivot the winder, and for this position to be retained throughout the entire procedure. To that end, the extreme winding position is preferably defined by at least one stop secured to one of the first and second axial end portions of the tubular winder or the first wall attachment, and interfering with the load bar in the end of winding travel position. Preferably, two stops are positioned at the two axial ends of the tubular winder: a first stop positioned on the first wall attachment or the first axial end portion of the winder, and a second stop positioned on the second axial end portion of the winder. The stop(s) must be stationary relative to the reference axis, which requires, in the case of a stop positioned on the first wall attachment, that this stop be secured to a part of the wall attachment that is not movable relative to the first axial end portion when the tubular winder pivots around the first hinge. If applicable, the stop(s) can be positioned so as to press the load bar against the screen wound in the extreme winding position.
The extreme winding position in question here is a position which, if applicable, does not need to be reached in the usage sequences of the winding device, but rather during specific phases such as assembly, disassembly or maintenance operations. This means that it is in particular possible to provide that the screen winding device also includes means for defining an end of winding travel position, situated between the two extreme winding and unwinding positions, and if applicable an end of unwinding travel position situated between the end of winding travel position and the extreme unwinding position. In practice, it is possible, if applicable, to provide slight tensioning of the screen in the extreme winding position.
In the case of a nonmotorized device, the end of use travel position(s) can for example be defined by retractable stops and the extreme winding and unwinding position(s) by stationary stops. Alternatively, it is possible to provide a stop movable between one or several end of winding travel positions and the extreme winding position, and if applicable the same for unwinding.
In the case of a motorized winding device, the end of use travel position(s) can for example be defined by end of travel sensors or by position sensors connected to an actuator command. It is also possible to consider that the actuator command determines the end of use travel positions by counting time. One has the advantage of providing ergonomics of the man-machine control interface of the actuator command, which makes it possible to clearly distinguish the winding and unwinding commands in the normal operating range between the end of use travels, and the winding command to the extreme winding position, it is for example possible to provide that the man-machine interface requires the prior passage to a maintenance mode to next allow complete winding of the screen to the extreme winding position. It is also possible to provide a particular sequence with the man-machine interface corresponding to this command. The passage to maintenance mode may also be automatic, in particular in response to low residual energy level information of the batteries of the winding device.
Preferably, the second wall attachment is able to guide the second axial end portion of the tubular winder when the tubular winder pivots around the first axis of articulation, between an intermediate assembly position and the use position. To that end, the second wall attachment may in particular comprise a guideway, for example made by a groove, making it possible, while the first wall attachment is already fastened to the first wall and the first end portion of the tubular winder is already assembled on the first wall attachment, to engage the second portion of the winder in the intermediate mounting position, then to guide the second end portion of the winder to its final assembled position.
To allow greater travel of the winder, it is possible to provide that the winding device includes a retractable support link, providing the connection between the second wall attachment and the second end portion of the tubular winder, to support the second end portion of the winder in a suspended position. The retractable support link can advantageously be secured to the second wall attachment. This link allows an installer to suspend the second end of the tubular winder, before mounting the winding device in its use position or during disassembly of the winding device from its use position. This allows them to perform these assembly and disassembly manipulations, as well as to change the batteries or battery cells with one hand, without needing to support the second end, if the elements of the winding device are axially fastened to one another.
The fact that the first wall attachment includes a second hinge making it possible to guide the rotation of the orientation tab around at least one second axis of articulation not parallel to the first axis of articulation makes it possible to thus provide two degrees of rotational freedom to the first end portion of the tubular winder, which allows an installer to position the first end of the blind at the first wall attachment very easily, without being bothered by the elements of the surrounding frame, such as the wall or window, a window handle, from a position on the ground. Preferably, the first hinge has a large travel angle, preferably greater than 90°, and preferably greater than 120°. Likewise, the second hinge has a large travel angle, preferably greater than 90°, and preferably greater than 120°. Preferably, the second axis of articulation is orthogonal to the first axis of articulation.
According to one embodiment, the tubular winder includes a compensating spring.
According to one embodiment, the compensating spring is kinematically connected by one end to the first wall attachment or to the second wall attachment and by a second end to the winding tube. Preferably, the compensating spring is kinematically connected by a first end to the case of the actuator and by a second end to an output shaft of the actuator.
Other features and advantages of the Invention will emerge from reading the following description, in reference to the appended figures, which illustrate:
For greater clarity, identical or similar elements are identified using identical reference signs in all of the figures.
The tubular winder 12 defines a reference axis 100 and includes a winding tube 20, a motorized actuator 22 to rotate the winding tube 20 around the reference axis 100, a housing 24 for batteries or battery cells 26 powering the actuator 22, and a compensating spring 28, working by torsion around the reference axis 100 to return the winding tube 20 toward a wound position.
The actuator 22 and the housing 24 for the batteries or battery cells 26 are positioned at least partially inside the winding tube 20, closer to the second end portion 14B than the first end portion 14A. The first end portion 14A is opposite the end of the tubular winder receiving the actuator 22. The actuator 22 may for example and in a known manner comprise a generally cylindrical case 30 inserted into the winding tube 20. Housed in the case 30 are an electronic control unit (not shown), an electric motor of any type and a reducing gear (not shown), the motor having a stator that is stationary relative to the case 30, and a rotor driving, via the reducing gear, an output shaft 32. The output shaft 32 drives the winding lube 20 via a driving wheel 34 fastened in rotation on the output shaft 32 and on the winding tube 20. The housing 24 for the batteries or battery cells 26 may, if applicable, be integrated info the case 30 of the actuator 22. The electronic control unit sees to the operation of the motor by creating a connection, based on the received movement orders, between the power supply of the batteries or battery cells and the motor. In this embodiment, the actuator 22 includes a head 36, closing one end of the case 30, and which protrudes outside the winding tube 20 while making up part of the second portion 14B of the tubular winder 12. The head 36 of the actuator allows the support of the actuator 22 and consequently the winding tube 20 at the second end portion 14B. It additionally makes it possible to react torque at the output of the actuator and is therefore blocked in rotation relative to the second wall attachment 18B. It may be provided with a hatch 38 for accessing the housing 24. In particular, the hatch 38 assumes the form of a lid connected by a bayonet device to the head 38. Reliefs are provided on the outside of the hatch to make it possible to rotate the latter relative to the head 36 by hand or using a tool.
The first end portion 14A includes a shaft 40 fastened to the first wall attachment 16A and a first guide bearing 42, positioned between a wheel 43 secured to the winding tube 20 and the shaft 40. Advantageously, it is possible to provide axial fastening means (not shown) between the wheel 43 and the shaft 40 to ensure translational blocking between the wheel 43 and the shaft 40 and to keep the second end of the winding device fastened to the first wall attachment. The compensating spring 23, here shown schematically, can be made in a known manner by one or several resilient elements, such as torsion springs, positioned in series or in parallel, to obtain the desired elongation and stiffness characteristics. The spring 28 works between the shaft 40 and the drive wheel 34 of the winding tube 20, which is in turn secured to the winding tube 20.
A second bearing 44 is positioned between the case 30 of the actuator 22 and the winding tube 20, preferably at the second end portion 14B. According to one example embodiment, the head 36 of the actuator 22 is provided with an end piece made up of a slug 46, for example a square slug, intended to engage in a groove 48 provided to that end in the second wall attachment and illustrated in
According to one example embodiment, the first wall attachment 18A comprises at least one fastening tab 54 for fastening to the first wall 16A and an orientation tab 56 supported by the fastening tab 54 via at least a first hinge 58 to guide the first axial end portion 14A of the tubular winder 12 in a pivoting movement around a first axis of articulation 200 separated from the reference axis 100, the first axis of articulation 100 being stationary relative to the fastening tab 54. The shaft 40 of the first end portion 14A of the tubular winder 12 has a hexagonal section (or more generally a noncircular section) allowing it to be inserted forcibly into a hole with a corresponding section 60 formed on the orientation tab 56, so as to secure the first end portion 14A and the orientation tab 56 to one another in both rotation and translation. If applicable, positive fastening in translation can be considered, for example by adding a fastening screw. The fastening tab 54 further has fastening holes 62 to engage fastening screws (not shown) for fastening to the wall 16A. Alternatively, the shaft 40 is made integral with the orientation tab. According to another embodiment, the orientation tab 56 is U-shaped, able to be closed by an axis and in which the end of the shaft 40 of the first end portion 14A of the tubular winder 12, comprising flats, is inserted. Particularly advantageously, the shaft 40 of the first end portion 14A cooperates with the U shape of the orientation tab at a portion with a smaller diameter, the larger diameter at the end of the shaft 40 passing behind the U shape, thus ensuring the axial maintenance of the first end portion 14A at the first wall attachment 18A.
In the use position of
The first wall attachment 18A of the winding device 10 of
The structure of the first wall attachment may assume different forms. It is in particular possible for one of the articulation tabs to comprise a cutout making it possible to receive another tab when the latter is bent. In this case, the two tabs are coplanar and therefore the two axes of articulation may also be coplanar.
The support link 68 may in particular be made up of a guide rail or may be a simple detachable link retaining the second end portion 14B in the suspended position to replace the battery cells. The installer thus no longer needs to maintain this end portion and may very easily change the battery cells (opening the battery ceil hatch, receiving battery ceils to be changed, performing the replacement and closing the hatch).
According to a fifth embodiment illustrated in
The compensating spring 28 may have to be locked or simply relaxed during changing of the batteries or battery cells 26. Alternatively, the compensating spring 28 may be installed around the actuator, similarly to the embodiment of
In one of alternative embodiment illustrated in
According to the embodiment illustrated in
In this embodiment, the intermediate part 400, rotatably connected to the winding tube 12 by first guide bearing 42 and provided at its end oriented toward the intermediate tab 710 with a shaft 660, is articulated on the support 560 by the cooperation of the shaft 660 and the maintaining element 562. The maintaining surface 563 has a length greater than the diameter of the shaft 660, which allows the latter to move along the maintaining surface, but also to be positioned slanted relative to the longitudinal axis of the support 560. This therefore makes if possible to articulate the intermediate part 400 relative to the support 560 along a first degree of freedom, called horizontal degree of freedom. The articulation along the horizontal degree of freedom defined above corresponds to the first hinge 58, able to guide pivoting of the winding tube 12 around a first axis of articulation 200, the first axis of articulation 200 in this embodiment being an axis perpendicular to the maintaining surface 563 and passing substantially through the center of this maintaining surface 563.
Likewise, the shaft 660 can pivot along its own longitudinal axis relative to the maintaining element 562, in particular when the shaft 660 is situated near the opening between the lug 565 and the stop 564 of the maintaining element 562. This therefore makes it possible to articulate the intermediate part 400 relative to the support 560 along a second degree of freedom, called vertical degree of freedom. The articulation along the vertical degree of freedom defined above corresponds to the second hinge 66, able to guide pivoting of the tubular winder 12 around a second axis of articulation 300, the second axis of articulation in this embodiment being an axis parallel to the longitudinal axis of the shaft 660.
The assembly of the tubular winder is simplified, and comprises the following steps:
Preferably, when the shaft 660 is pushed back opposite the opening toward the other end of the maintaining surface 563, toward the intermediate tab 710, contact surfaces 402 of the intermediate part 400 cooperate with the maintaining element 562 to block the first degree of freedom and/or the second degree of freedom, i.e., to block the first hinge 53 and/or the second hinge 66 when the tubular winder 12 is in the extension of the support 560. The intermediate part 400 to that end in particular comprises a spring 440 intended to push back the shaft 660 toward the intermediate tab 710 when the tubular winder 12 is in the assembled position in the rigid frame 700. The assembly thus comprises an intermediate step in which the tubular winder is moved against the effect of the spring 404 toward the intermediate tab 710.
According to one particular aspect of the present invention, the screen winding device (10) includes one or more of the following elements:
According to this particular aspect, the tubular winder (12) of the winding device may include a housing (24) for batteries or battery cells (26), the housing (24) preferably being situated inside a winding tube (20) of the tubular winder (12), the winding tube being guided in rotation around the reference axis (100) relative to the first wall attachment (18A) preferably on the side of the second portion (14B).
The tubular winder (12) according to this same aspect of the invention may further include a motorized actuator (22) for rotating the winding tube (20) around the reference axis (100), the actuator (22) preferably being at least partially housed inside the winding tube (20), and where the housing (24) for the batteries or battery cells (26) is situated inside a case (30) of the actuator (22) or between the case (30) of the actuator and the second end (14B).
The actuator (22) according to this same aspect of the invention includes a head (36) comprising a passage hatch for batteries or battery cells (26).
The second axial end portion (14B) of the tubular winder (12) includes an end piece (47) having a passage, in particular able to be closed by a hatch (38), and through which the batteries or battery cells (26) can pass.
The screen winding device according to this same aspect may further comprise the following elements:
The second wall attachment (18B) may be able to guide the second axial end portion (14B) of the tubular winder (12) when the tubular winder (12) pivots around the first axis of articulation (200), between an intermediate assembly position and the use position.
The winding device according to this aspect may include a retractable support link (68) between the second wall attachment (16B) and the second portion (14B) of the tubular winder (12), to support the second portion of the winder in a suspended position.
The first wall attachment (18A) of the screen winding device according to this aspect may include a second hinge (66) or swivel, supported by the fastening tab (54) to guide the rotation of the orientation tab (56) around at least one second axis of articulation (300) not secant with the reference axis, and not parallel to the first axis of articulation (200).
The first axis of articulation (200) and the second axis of articulation (300), in the use position of the winding device (10), can be coplanar or situated in two planes perpendicular to the reference axis and separated from one another by a distance smaller than the thickness of the first wall attachment.
The second axis of articulation (300) can be orthogonal to the first axis of articulation (200).
The tubular winder (12) of the winding device according to this aspect may include a compensating spring (28).
The compensating spring (23) can be kinematically connected by one end to the first wall attachment (18A) or to the second wall attachment (18B) and by a second end to a winding tube (20) of the tubular winder (12), the winding tube (20) being guided in rotation around the reference axis (100) relative to the first wall attachment (18A). The compensating spring (28) may be kinematically connected by a first end to a case (30) of the actuator (22) and by a second end to an output shaft (32) of the actuator (22).
Naturally, the examples shown in the figures and discussed above are provided solely as an illustration and are not limiting. It is explicitly set out that one may combine the various illustrated or described embodiments with one another to propose other embodiments.
| Number | Date | Country | Kind |
|---|---|---|---|
| 1556873 | Jul 2015 | FR | national |
This application is a 371 of PCT/EP2016/067462 filed on Jul. 21, 2016, published on Jan. 26, 2017 under publication number WO 2017/013229, which claims priority benefits from French Patent Application No. 1556873 filed on Jul. 21, 2015, the disclosure of which is incorporated herein by reference, and which claims priority benefits as a continuation-in-part from International Patent Application No. PCT/EP2016/054805 filed on Mar. 7, 2016, the disclosure of which is incorporated herein by reference.
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/EP2016/067462 | 7/21/2016 | WO |
| Publishing Document | Publishing Date | Country | Kind |
|---|---|---|---|
| WO2017/013229 | 1/26/2017 | WO | A |
| Number | Name | Date | Kind |
|---|---|---|---|
| 1314358 | Overman | Aug 1919 | A |
| 1468167 | Pecora | Sep 1923 | A |
| 1782131 | Broberg | Nov 1930 | A |
| 2001864 | Benjinsohn | May 1935 | A |
| 2141095 | Tennant | Dec 1938 | A |
| 2198089 | Peckham | Apr 1940 | A |
| 2201787 | Peckham | May 1940 | A |
| 2277324 | Holwick | Mar 1942 | A |
| 2301863 | Forse | Nov 1942 | A |
| 2802523 | Anderle | Aug 1957 | A |
| 3389738 | Roth | Jun 1968 | A |
| 3946978 | Evans | Mar 1976 | A |
| 6371192 | Anderson et al. | Apr 2002 | B1 |
| 6499709 | Parent | Dec 2002 | B1 |
| 6688479 | Nei | Feb 2004 | B2 |
| 20040129850 | Kirby | Jul 2004 | A1 |
| 20040169490 | Heurtault | Sep 2004 | A1 |
| 20060278786 | Kirby | Dec 2006 | A1 |
| 20070199662 | Miller | Aug 2007 | A1 |
| 20080236763 | Kates | Oct 2008 | A1 |
| 20080289775 | Lukos | Nov 2008 | A1 |
| 20130153162 | Blair | Jun 2013 | A1 |
| 20150315843 | Lin | Nov 2015 | A1 |
| 20170074037 | Campagna | Mar 2017 | A1 |
| 20170247943 | Ng | Aug 2017 | A1 |
| 20180023340 | Goldberg | Jan 2018 | A1 |
| 20180128047 | Ng | May 2018 | A1 |
| 20180313082 | Klein | Nov 2018 | A1 |
| 20190085626 | Ng | Mar 2019 | A1 |
| 20190284875 | Ng | Sep 2019 | A1 |
| 20190316414 | Zhang | Oct 2019 | A1 |
| 20200115958 | Miroshnichenko | Apr 2020 | A1 |
| Number | Date | Country |
|---|---|---|
| 1518785 | Aug 2004 | CN |
| 1742150 | Mar 2006 | CN |
| 101160444 | Apr 2008 | CN |
| 201517341 | Jun 2010 | CN |
| 20005831 | Jul 2000 | DE |
| 2631411 | Aug 2013 | EP |
| 2842860 | Jan 2004 | FR |
| 2004074620 | Sep 2004 | WO |
| Entry |
|---|
| Office Action dated Nov. 14, 2018 issued in the parent application No. CN 2016800421972. |
| International Search Report and Written Opinion mailed in PCT/IB2016/067462 dated Oct. 20, 2016. |
| Number | Date | Country | |
|---|---|---|---|
| 20180202225 A1 | Jul 2018 | US |
| Number | Date | Country | |
|---|---|---|---|
| Parent | PCT/EP2016/054805 | Mar 2016 | US |
| Child | 15745985 | US |
