ROLLER AWNING WITH LIGHTS

Abstract

A roller awning, with lights, includes: a sheet; a shaft for winding/unwinding it; a structure supporting the shaft; a crosspiece for constraining an edge of the sheet; pairs of articulated arms for supporting and moving the crosspiece with respect to the support structure; and a plurality of LED lights fixed at least to the articulated arms. Articulation is obtained through disks fixed to cooperating ends of the arms, the disks being intercalated between them and being crossed by an articulation pin, forming an articulation joint with the discs. The pin being hollow and has its upper end opening into an upper cavity which is obtained in the upper disc of the joint and which also houses a printed circuit board. At least one LED is mounted thereon facing an axial cavity of the pin, within which, a light guide is housed opening at the lower end of the axial cavity.

Claims

1. A roller awning, with lights, the roller awning comprising: a sheet (6), a shaft (2) for winding or unwinding said sheet (6), a structure (4) to support said shaft (2), a crosspiece (8) for constraining an edge of said sheet (6) opposite to that constrained to said shaft (2), pairs of articulated arms (10,10) for supporting and moving said crosspiece (8) with respect to said support structure (4), and a plurality of LED lights (16) fixed at least to said articulated arms (10,10), wherein articulation between said arms (10,10) is obtained through disks (24,24) which are fixed to cooperating ends of said arms (10,10), said disks (24, 24) being intercalated between them and being crossed by an articulation pin (26), which forms an articulation joint with said discs (24,24), and wherein said pin (26) is hollow and has its upper end opening into an upper cavity (28) which is obtained in the upper disc (24) of the joint and which also houses a printed circuit board (30), at least one LED is mounted on said card (30) in a position facing an axial cavity (37) of said pin (26), within said axial cavity (37) a light guide (36) is housed which opens at a lower end of the axial cavity (37) of said pin (26).

2. The roller awning according to claim 1, further comprising a light diffuser (38) at the lower end of said light guide (36).

3. The roller awning according to claim 2, wherein said light diffuser (38) has the shape of a spherical cap.

4. The roller awning according to claim 1, wherein the upper cavity (28) of said disc (24) is closed by a plug (34) which is removable.

5. The roller awning according to claim 4, wherein said plug (34) has the shape of a spherical cap.

6. The roller awning according to claim 1, further comprising a light diffuser (38) at the lower end of said light guide (36) and a plug (34) closing said upper cavity (28), wherein said light diffuser (38) has a shape substantially similar to the shape of said plug (34).

7. The roller awning according to claim 1, wherein said hollow pin (26) is fastened to at least one of the disks (24) integral with one (10) of the two articulated arms (10,10) and is idle compared to each of the discs (24) integral with the other articulated arm (10).

8. The roller awning according to claim 1, wherein said printed circuit board (30) is powered via a cable (32) which runs along the upper edge of the articulated arm (10), to which said upper disk (24) is restricted.

9. The roller awning according to claim 1, wherein said printed circuit board (30) is powered by a cable (32) which runs along the upper edge of one of the two articulated arms (10, 10).

10. The roller awning according to claim 1, wherein said plurality of LED lights (16) includes LED strips.

11. The roller awning according to claim 1, wherein at least two discs (24) are attached to one arm (10) while at least three discs (24) are attached to the other arm (10).

12. The roller awning according to claim 1, wherein said discs (24, 24) are rounded.

13. The roller awning according to claim 1, wherein the longitudinal edges of the arms (10,10) are rounded.

14. The roller awning according to claim 1, wherein LED lights are fixed to the rigid crosspiece (8) and/or to the support structure (4).

15. The roller awning according to claim 1, wherein a tubular motor (12) is housed inside the tubular shaft (2) for rotating the winding/unwinding shaft (2) of said sheet (6).

16. The roller awning according to claim 1, wherein a device (14) for powering and controlling said LED lights is housed inside the tubular shaft (2).

17. The roller awning according to claim 1, wherein said crosspiece (8) and said support structure (4) are configured so that, when the crosspiece (8) adheres to the support structure (4), they define a closed container, which houses inside, the sheet (6) completely wrapped around the tubular shaft (2) and the two pairs of articulated arms (10, 10) completely folded.

18. The roller awning according to claim 1, wherein the ends of the hollow pin (26) stop in correspondence with the two external disks (24) of the same arm (10).

19. The roller awning according to claim 1, wherein said light diffuser (38) is in a single body with the light guide (36).

20. The roller awning according to claim 1, wherein said light diffuser (38) is removably fastened to at least one of the light guide (36) or the axial cavity (37) of the pin (26).

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0024] The present invention is further clarified below in some of its preferred practical embodiments reported for purely illustrative and non-limiting purposes with reference to the attached drawings, in which:

[0025] FIG. 1 shows a perspective view of a roller awning according to the invention in the unfolded condition,

[0026] FIG. 2 shows a partially sectioned perspective view of the enlarged detail of an articulation joint of two arms, and

[0027] FIG. 3 shows it in a different perspective view with some details removed.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0028] As can be seen from the figures, the roller awning according to the invention is traditional in itself and includes a tubular shaft 2, a support structure 4 of the tubular shaft 2, a sheet 6 (or similar/equivalent covering element) which can be wrapped around the tubular shaft 2 and unrolled from this, a rigid crosspiece 8, to which the edge of the sheet 6 is applied opposite to that constrained by the tubular shaft 2, and two pairs of articulated arms 10,10 which connect the rigid crosspiece 8 to the support structure 4 and they guide its translational movements with respect to it.

[0029] The tubular shaft 2 can advantageously be a metal shaft, or made of other material, with a hexagonal or octagonal section or similar, of the type traditionally used for curtains and/or roller shutters.

[0030] The tubular shaft 2 can house inside it a traditional tubular motor 12 for rotating the awning, and also the shaft 2 for winding/unwinding the said sheet 6.

[0031] The tubular shaft 2 can house inside it a traditional device 14 for powering and controlling a plurality of light sources, in particular LED lights.

[0032] Preferably, inside the tubular shaft 2 there is housed a radio receiver or a radio transceiver with driver for controlling the LED outputs, which, in addition to receiving commands for activating/adjusting the LED outputs, can transmit signals on the status of the LEDs themselves, in so that the user can remotely control, via a radio control or even via smartphone or similar, the switching on, off and adjustment of the LEDs and can receive, again with the smartphone or similar, information on the current status of these.

[0033] Preferably, said LED lights are made up of LED strips 16 applied to the support structure 4 and/or to the crosspiece 8 and/or to the articulated arms 10.

[0034] Preferably, the support structure 4 is essentially made up of a C-shaped bracket, with a central wing 18, at which the structure 4 is fixed to a wall and with two lateral wings 20, which protrude outwards and they are configured to support the tubular shaft 2 and everything contained therein.

[0035] Preferably, the crosspiece 8 is made up of a profile with an arched section. Preferably, the crosspiece 8 is provided at the ends with two closing elements 22 having a shape complementary to the shape of the lateral wings 20 of the support structure 4, so that when the crosspiece adheres to this it defines with it a closed container which is housed in its inside the sheet 6 completely wrapped around the tubular shaft 2 and the two pairs of articulated arms 10, 10 completely folded.

[0036] Preferably, the articulation joint between the two articulated arms 10,10 of each pair provides that one end of each arm is provided with discs 24,24 centrally perforated and configured so that they can be inserted between them to be crossed by a single pin 26, internally hollow, around which they can articulate. Conveniently, as can be seen from the figures, the pin 26 extends longitudinally and is open at its mutually opposite longitudinal ends; conveniently, as can be seen from the figures, the pin 26 is hollow and, in particular, includes an axial cavity 37 inside it.

[0037] In particular, the disks 24,24 are integral with/fixed respectively to the arms 10, 10.

[0038] Preferably, in a possible embodiment illustrated in the figures, two disks 24 are integral with the arm 10 while three disks 24 are integral with the arm 10, which in the joint formed are arranged one between the two disks 24 of the arm 10 and two externally to these two discs 24. Preferably, a number of disks are attached to one arm which is one unit greater than the disks of the other arm.

[0039] Preferably, the discs 24, 24 are rounded, in particular at their outermost edge, similarly to the longitudinal edges of the arms 10, 10, to give the whole a linear and aesthetically pleasing appearance.

[0040] The ends of the hollow pin 26 stop at the two external disks 24. Preferably, the pin 26 is mounted neutrally with respect to all the disks 24 and is instead made integral with at least one of the disks 24 by any traditional means, and in particular by means of screws.

[0041] Inside an upper cavity 28, preferably cylindrical shape, obtained in the upper disk 24, at the upper end of the pin 26, a printed circuit board 30 is applied, on which one or more LEDs are mounted, which face the axial cavity 37 of the pin itself.

[0042] The printed circuit board 30 is powered via a cable 32, which is fixed or associated with the upper edge of the arm 10 and enters the cylindrical cavity 28. Conveniently, the cable 32 can run along the upper edge of one of the two articulated arms 10 or 10 (which can be the arm to which the upper disc is attached or the other one).

[0043] Conveniently, in a possible embodiment not shown, the printed circuit board 30 is provided with a power battery for said at least one LED mounted on the board itself.

[0044] Preferably, the cavity 28 is then closed by a removable plug 34 preferably having the shape of a spherical cap, more preferably a flattened spherical cap. Preferably, the plug 34 can be crossed by the cable 32.

[0045] Inside the axial cavity 37 of the pin 26 there is a light guide 36, which has the upper end facing the LED fixed to the printed circuit board 30 and the lower end opening at the lower end of the axial cavity 37 of said pin 26.

[0046] Preferably, a light diffuser 38 is associated with the lower end of said light guide 36. Preferably, the lower end of the light guide 36 extends into a light diffuser 38. Conveniently, the light diffuser 38 can be single body with the light guide 36 or it can be removably fastened to the light guide 36 and/or to the axial cavity 37 of the pin 26.

[0047] Preferably, said light diffuser 38 has the shape of a spherical cap. Preferably, the shape of the light diffuser 38 is similar to the shape of the plug 34 closing the cavity 28.

[0048] Advantageously in this way, when the awning is unfolded, the light generated by the LED mounted on the printed circuit board 30 and preferably diffused by the light diffuser 38 creates substantial continuity with the light strips generated by the LEDs 16 applied to the lower edge of the arms 10,10, thus eliminating the inconvenience found in roller blinds with arms equipped with LED strips.

[0049] Furthermore, advantageously, the elimination of this drawback is achieved without substantially modifying the traditional conformation of the articulation joints of the arms 10,10 of a traditional roller awning, but simply by replacing the articulation pin of the latter with the hollow pin 26 provided with board 30 provided with LEDs, with light guide 36 and, preferably, with diffuser 38.

[0050] This allows you to modify the articulation joint of the arms of a traditional awning with a rather simple operation, which can also be carried out in existing awnings but not provided with this functionality.

[0051] Finally, advantageously, the power supply of the LED, which allows the articulation joint between the two arms 10, 10 to perform this new function, is obtained with a cable 32 which runs above one of the arms 10 and that is in position not visible as it is located on the opposite side to that intended for users of the tent.

[0052] The present invention has been illustrated and described in some of its preferred embodiments, but it is understood that executive variations may be made to them in practice, without however departing from the scope of protection of the present patent for industrial invention.