CLOSURE SYSTEM OF MOBILE PANELS WITH A MOBILE DOOR PANEL

Description

[0001] The present invention consists of a windbreak system comprising a mobile door panel that functions like a normal panel but comprises specific anchoring parts that enable it to open when all the other panels are closed. These windbreak systems are manufactured from glass and aluminium, and are used to delimit, insulate and close spaces, both in homes and businesses.

[0002] The present invention falls under the sector of the art of construction materials.

State of the art

[0003] WO 2010/136615 A1 and WO 2012/175754 A1 disclose a windbreak system. In this type of windbreak system, the panels must be moved to the side where the door panel is located in order to be opened, since the shafts do not have any support along the guide rail to pivot. In order to pass to the other side, the door panel must be opened on one of the ends of the installation, and said opening is not possible at an intermediate point between the ends of the installation. In very long installations, this represents a problem since in public places like restaurants or shops, the door is usually located at an intermediate point of one side and not at an end, due to which, in order to create an access door in the middle of the installation, a permanent door must be installed, with the drawback that it cannot be moved to the end of the installation, thereby disrupting the aesthetics of the glazed hollow.

[0004] Unlike other windbreak systems as US 2005/015925 A1 and EP 1 085 156 A1, the present invention does not have rollers and the entire weight of the panels rests on two strips of self-lubricating polymer inserted in the lower rail (6). Locking systems are not the purposes of this invention but can be added to the door panels as described in WO 2014/008906 A1.

[0005] The system of the present invention consists of a series of elements that are added to the system disclosed in WO 2010/136615 A1 and WO 2012/175754 A1, which makes it possible to open the mobile door panel when the other panels are closed. In order to open the system, the mobile door panel can be moved to the end of the installation and opened like the other panels, freeing the glazed hollow.

Explanation of the invention

[0006] The panel called mobile door is composed of a pane joined to two aluminium profiles, a lower profile and an upper profile. Two shafts are anchored to these profiles, a lower shaft and an upper shaft, called rotating assemblies. These shafts allow the door to pivot in the two positions in which it can do so. In order to always maintain the panel longitudinal to the guide rail when not wanting to open the panel and be able to slide it therealong, guides shall be installed on the side of the profile opposite to that of the rotating assemblies.

[0007] The object of the invention is a windbreak system with a mobile door panel for a mobile panel closure system that moves along a lower rail and is guided by an upper rail.

[0008] The mobile door panel comprises a pane between 6 and 12 mm thick, an upper profile with a cross-section such that it envelopes the pane on one side and offers a hollow on the opposite side, a lower profile with a cross-section such that it envelopes the pane on one side and offers a hollow on the opposite side, a lower rotating assembly and a lower guide fixed to the lower profile, an upper rotating assembly and an upper guide fixed to the upper profile.

[0009] The lower rail and the upper rail have a cross-section that comprises a base, two inner faces perpendicular to the base and parallel therebetween, a side opposite the base that comprises an opening in the centre and two recesses on both sides of the opening, such that strips of a homogeneous polymer blend are located in the two recesses.

[0010] The lower rotating assembly of the mobile door panel that is the object of the invention comprises a first strip, a first shaft perpendicular to the first strip and fixed thereto, a bushing on the first shaft and a metallic rectangular block screwed to the first shaft at the end opposite that of the fixation to the first strip.

[0011] The first strip is configured at two heights, where side walls can be observed, a first level that comprises transversal protuberances that fix the lower rotating assembly to the lower profile and a second level with a width corresponding to the hollow of the lower profile.

[0012] The upper rotating assembly of the mobile door panel that is the object of the invention comprises a second strip, a second shaft perpendicular to the second strip and fixed thereto, a bushing on the second shaft and a rectangular protuberance with rounded sides that forms part of the second shaft at an end opposite that of fixation to the second strip.

[0013] The second strip of the mobile door panel that is the object of the invention has a configuration at two heights, where side faces can be observed, a first level that comprises protuberances of up to 0.5 mm that fix the upper rotating assembly to the upper profile and a second level with a width equal to the hollow of the upper profile.

[0014] The second shaft of the upper rotating assembly of the mobile door panel that is the object of the invention comprises a first section with a first diameter and a second section with a second diameter, wherein the diameter of the first section is smaller than the diameter of the second section, in order to pass through the opening of the upper rail, wherein the rectangular protuberance comprises a transversal hole to fix a circular segment-shaped part.

[0015] The lower guide comprises a base with a two-level structure and a protuberance, such that the protuberance projects from the lower profile and comes into contact with one side of the strips of homogeneous polymer blend.

[0016] The mobile door panel that is the object of the invention comprises an upper strip fixed to the internal base of the upper rail and a lower strip fixed to the base of the lower rail.

[0017] The lower strip has the same width as the interior of the lower rail and a first longitudinal groove formed by two opposing faces that comprise the following sections:

• a first section wherein the two faces disposed in straight opposition to each other areinclined therebetween,
• a second section with the two faces disposed in straight and parallel opposition to each other,
• a third section with two faces disposed in circular opposition to each other, and
• a fourth section with two faces disposed in straight and parallel opposition to each other.

[0018] The first longitudinal groove comprises a passthrough slot at its base in the first section, a drill hole in the third section and a step in the fourth section.

[0019] The upper strip comprises a second longitudinal groove formed by a first side wall and a second side wall, wherein the first side wall comprises a first straight section, followed by a first circular section until reaching a second straight section that reaches up to a second circular section oriented in the direction opposite to the first circular section, wherein the second circular section is symmetrical to the first circular section and ends in a third straight section symmetrical to the first straight section, and wherein the second side wall comprises a first straight section, followed by a first circular section that ends in a second straight section having the same dimensions as the second straight section of the first side wall, followed by a second circular section that is symmetrical to the first circular section and, finally, a third straight section that is symmetrical to the first straight section.

[0020] In the mobile door panel of the windbreak system that is the object of the invention, the upper rotating assembly is in contact with the upper strip while the lower rotating assembly is in contact with the lower strip.

[0021] In the mobile door panel of the windbreak system that is the object of the invention, the circular segment-shaped parts of the upper rotating assembly, when said upper rotating assembly reaches the upper strip, block a movement of the upper rotating assembly along the upper rail, whereupon the circular sections of the first wall of the upper strip come into contact with the circular segment-shaped part and because, with the upper rotating assembly in this position, the mobile door panel rotates, resting on one of the circular sections of the first wall of the upper strip.

[0022] The bushing is T-shaped, wherefrom two perpendicular arms emerge, with two flat side faces and a front face and a rounded rear face, such that the length of the two arms is identical to that of the rectangular block.

[0023] The lower rotating assembly is inserted in the lower strip until it is stopped by the step wherein the first shaft of the lower rotating assembly is located centered between the circular faces of the lower strip and the bushing rests on the parallel flat faces of the lower strip.

[0024] The lower rail comprises an exit part wherethrough the lower guide comes out of the lower rail in the opening movement of the mobile door panel.

[0025] The exit part of the mobile door panel comprises a rectangular base and two trapezoidal protuberances at the ends of the rectangular base, wherein each protuberance comprises a countersunk drill hole and have two opposing faces.

[0026] In the mobile door panel of the windbreak system that is the object of the invention, the first strip of the lower rotating assembly comprises a first wedge opposite the first shaft.

[0027] The first shaft of the lower rotating assembly comprises a square cross-section at its end part with a slot in the interior wherein the rectangular block is screwed.

[0028] The second strip of the upper rotating assembly of the mobile door panel comprises a second wedge opposite the second shaft. In the mobile door panel of the windbreak system that is the object of the invention, the bushing introduced in the second section of the second shaft has a shaft with a greater diameter than the rest of the bushing to be in contact with the inner walls of the upper rail.

[0029] The bushing in a preferred embodiment is made of polyamide.

[0030] The protuberance of the lower guide has a semicircular shape and comprises a flat face that interrupts the semicircular shape.

[0031] The bushing of the mobile door panel comprises a smaller width than the opening of the cross-section of the lower rail.

[0032] The bushing of the mobile door panel is centered with respect to the first axis and is capable of moving to maintain the parallelism between the side faces of the bushing and the lower rail.

[0033] In the mobile door panel of the windbreak system that is the object of the invention, the radius of the circular shape of the circular segment-shaped part is equal to the radius of the rounded outer sides of the protuberance of the second shaft and said radii are concentric, wherein the circular segment-shaped part together with the rounded external sides of the protuberance of the second shaft form a continuous circular surface.

Brief description of the drawings

[0034] 

Figure 1 shows the mobile door panel with its elements.

Figure 2 shows the lower strip on which the lower rotating assembly of the mobile door panel pivots.

Figure 3 shows the lower rotating assembly of the mobile door panel.

Figure 4 shows the upper strip on which the upper rotating assembly of the mobile door panel pivots.

Figure 5 shows the upper rotating assembly of the mobile door panel.

Figure 6 shows the exit of the lower guide of the mobile door panel.

Figure 7 shows the lower guide of the mobile door panel.

Figure 8 shows the tongue-shaped stop of the mobile door panel.

Figure 9 shows the cross-section of the guide rail.

Figure 10 shows the arrangement of the exit of the lower guide on the guide rail.

Explanation of an embodiment of the invention

[0035] The object of the invention is a windbreak system with a mobile door panel (1), which acts as a door in an intermediate position of one side which is closed by means of the aforementioned glass panel closure system. In the glass panel closure systems known to date, the doors were always positioned at the ends of the side to be closed and, once the panels were installed, there was no panel with an intermediate securing system along the length of the closure that would allow a rotation movement for opening.

[0036] A glass panel closure system is formed by a series of panels that move along a lower rail (65) and guided by an upper rail (65) with an identical cross-section. The lower rail (65) is positioned with the cross-section in a position such as that observed in figure 9 and the upper rail (65) is positioned with the cross-section rotated 180º with respect to the position of figure 9, although the cross-section of the lower and upper rails (65) is identical and comprises the same elements.

[0037] The cross-section of the rails (65) is a section that comprises:

• a base (67),
• two inner faces (68) perpendicular to the base (67) and parallel therebetween,
• a side opposite the base (67) that comprises an opening (64) in the centre and two recesses (66) on both sides of the opening (64).

[0038] Figure 1 shows the mobile door panel (1) of the windbreak system that is the object of the invention. This mobile door panel (1) comprises:

• a pane (7) between 6 and 12 mm thick,
• an upper profile (2a),
• a lower profile (2b),
• a lower rotating assembly (4) and a lower guide (6) fixed to the lower profile (2b),
• an upper rotating assembly (3) and an upper guide (5) fixed to the upper profile (2a).

[0039] Both the upper profile (2a) and the lower profile (2b) comprise a section with a shape such that it envelopes the pane (7) on one side and leaves a free hollow to envelope another element on the opposite side. The two profiles (2a, 2b) are manufactured from aluminium.

[0040] The mobile door panel (1) performs three possible movements:

• a first longitudinal movement by sliding over strips of a homogeneous polymer blend (70), disposed in the two recesses (66) of the lower rail (65). This movement may be made provided that any of the panels are open, as described in WO 2012/175754 A1 and WO 2010/136615 A1.
• a second rotating movement in the position where the permanent door is located as described in WO 2012/175754 A1 and WO 2010/136615 A1.
• a third opening movement, once all the panels are longitudinally disposed on the lower and upper rails (65).

[0041] In the two first movements, the mobile door panel (1) behaves like a normal panel as described in WO 2012/175754 A1 and WO 2010/136615 A1, while for the third movement the mobile door panel (1) requires the specific elements that allow it to perform the rotating movement in the chosen position.

[0042] The mobile door panel (1) for performing the third rotating movement in an intermediate position between the two ends of the side to be closed with a closing system requires a lower strip (8) fixed to the base (67) of the lower rail (65) disposed in the lower position and an upper strip (28) fixed to the base (67) of the upper rail (65) disposed in the upper position. Therefore, the windbreak system comprises of one lower strip (8) and one upper strip (28) forthe mobile door panel (1) and both are located along the rails where we want the mobile door panel (1) to open in an intermediate position. The rest of the panels can slide and/or rotate as described in WO 2012/175754 A1 and WO 2010/136615 A1

[0043] The lower strip (8) has the same width as the interior of the lower rail (65) and a first longitudinal groove (72) formed by two opposing faces that comprises the following sections:

• a first section wherein the two faces disposed in straight opposition to each other are inclined therebetween (9),
• a second section with the two faces disposed in straight and parallel opposition to each other (14a),
• a third section with the two faces disposed in circular opposition to each other (10), and
• a fourth section with the two exit faces disposed in straight and parallel opposition to each other (14b).

[0044] As regards the base of the first longitudinal groove (72), a passthrough slot (12) is disposed in the section of the flat faces inclined therebetween (9), a drill hole (13) is disposed in the third section and a step (11) is disposed in the fourth section. The lower strip (8) is fixed to the lower rail (65) by means of two screws disposed in the passthrough slot (12) and in the drill hole (13).

[0045] The lower rotating assembly (4) (observable in figure 3) comprises:

• a first strip (18),
• a first shaft (19) perpendicular to the first strip (18) and fixed thereto,
• a bushing (20) that is pressed onto the first shaft (19),
• a metallic rectangular block (23) screwed to the first shaft (19)

at the end opposite that of the fixation of the first strip (18).

[0046] The first strip (18) of the lower rotating assembly (4) has a configuration at two heights, where the following can be observed:

• side walls (15) that guarantee the longitudinal position of the lower rotating assembly (4) of the mobile door panel (1) with respect to the lower profile (2b);
• a first level (16) that comprises protuberances (26) that fix the lower rotating assembly (4) to the lower profile (2b); and
• a second level (17) with a width corresponding to the hollow of the lower profile (2b), thereby guaranteeing the centering of the lower rotating assembly (4) with the lower profile (2b).

[0047] The first strip (18) of the lower rotating assembly (4) of the mobile door panel (1) is inserted in the interior of the lower profile (2b).

[0048] A first wedge (27) is disposed on the lower part of the first strip (18), on which the lower rotating assembly (4) rests and guarantees that the first shaft (19) is in a vertical position once the lower rotating assembly (4) is fixed. The first shaft (19) is mostly cylindrical and at the end of the first shaft (19) it has a square cross-section part with a slot in the interior wherein a metallic rectangular block (23) is screwed.

[0049] The bushing (20) is T-shaped, wherefrom two perpendicular arms (21) emerge, with two flat side faces (22) and a rounded front face (24a) and rear face (24b). The width of the bushing (20) is smaller than the opening of the cross-section of the lower rail (65), which enables the panels to be assembled and disassembled without need to open a hole in said lower rail (65).The bushing (20) is centered with respect to the first shaft (19) and is capable of movement to maintain the parallelism between the side faces (22) of the bushing (20) and the lower rail (65). The two arms (21) of the bushing (20) have the same length as the rectangular block (23).

[0050] The rectangular block (23) is disposed at the end of the first shaft (19), whose ends are rounded. This rectangular block (23) is fixed by means of a screw (25) to the first shaft (19), which has previously been drilled to house said screw (25). In this manner, the lower rotating assembly (4) of the mobile door panel (1) is longer than the lower rotating assemblies of the other panels. This enables the other panels to pass above the lower strip (8) without interference but the lower rotating assembly (4) of the mobile door panel (1) is stopped by the step (11) of the lower strip (8). When the mobile door panel (1) is opened, it is this rectangular block (23) which rests on the circular faces (10) of the lower strip (8) by means of its rounded faces (24a, 24b).

[0051] Upon sliding the mobile door panel (1) to a position in which a door will be established, the lower rotating assembly (4) of the mobile door panel (1) is inserted in the lower strip (8). This lower strip (8), upon having the same width as the interior of the lower rail (65), is wedged between the inner faces (68) of said lower rail (65). The lower rotating assembly (4) is guided by means of the two flat faces inclined therebetween (9) of the lower strip (8). The lower rotating assembly (4) of the mobile door panel (1) continues to move until it is stopped by the step (11). In this position, the first shaft (19) of the lower rotating assembly (4) is disposed centered between the circular faces (10) of the lower strip (88), while the arms (21) of the bushing (20) of the lower rotating assembly (4) of the mobile door panel (1) rest on the parallel flat faces (14a) of the lower strip (8).

[0052] The upper rotating assembly (3) (observable in figure 5) comes into contact with the upper strip (28) at the same time that the lower rotating assembly (4) comes into contact with the lower strip (8). The function of the upper strip (28) is the same as that of the lower strip (8): to hold the mobile door panel (1) in the opening process to prevent it from moving longitudinally along the upper rail (65).

[0053] The upper strip (28) is fixed to the internal base (67) of the upper rail (65) and is wedged between the inner faces of the rail (68). The upper strip (28) comprises a slot (31) that allows adjustment in the fixation process and a drill hole (32) for fixing to the base (67) of the upper rail (65).

[0054] The upper strip (28) comprises a second longitudinal groove (73), said second longitudinal groove (73) being symmetrical with respect to a shaft that passes through the centre of the upper strip (28) in a transversal direction to the second longitudinal groove (73). Said second longitudinal groove (73) is defined by side walls. Next, the second longitudinal groove (73) is defined along the length of each side wall. The first side wall comprises a first straight section (74), followed by a first circular section (29a) until reaching a second straight section (30a) that reaches a second circular section (29b) oriented in a direction opposite to the first circular section (29) (which is symmetrical to the first circular section (29a)) and that ends in a third straight section (75) (which is symmetrical to the first straight section (74)). The second side wall comprises a first straight section (76), followed by a first circular section (28a) that ends in a second straight section (30b) having the same dimensions as the second straight section (30a) of the first side wall, followed by a second circular section (28b) (symmetrical to the first circular section (28a)) and finally a third straight section (77) (which is symmetrical to the first straight section (76)).

[0055] The first straight section (74) of the first side wall is disposed facing the first straight section (76) of the second side wall, configuring the entrance/exit of the rotating assemblies. The first straight section (76) of the second side wall is shorter in length than the first straight section (74) of the first side wall. The first circular section (29a) of the first side wall is shorter in length than the first circular section (28a) of the second side wall, since the end of the two first circular sections (28a, 29a) of the two walls is opposed, and the two first circular sections (28a, 29a) configure a first semicircular hollow (78), which is where the upper rotating assembly (3) of the mobile door panel (1) rests in the third rotating movement of the mobile door panel (1).

[0056] The two second straight sections (30a, 30b) of the two side walls are disposed facing each other and have identical length.

[0057] Equally symmetrical to the first semicircular hollow (78) and configured by the second circular sections (28, 29b) of the two side walls, the upper strip (28) comprises a second semicircular hollow (79).

[0058] In the centre of the upper strip (28), longitudinally, there is sufficient space between the two second straight sections (30a, 30b) of the two side walls for the upper rotating assemblies of the normal panels to pass.

[0059] The upper rotating assembly (3) observable in figure 5) of the mobile door panel (1) comprises:

• a second strip (80),
• a second shaft (38) perpendicular to the second strip (80) and fixed thereto by a rectangular protuberance (44) on the end opposite that of fixation to the second strip (80), wherein said rectangular protuberance has rounded sides (45), and
• a bushing (39) that is pressed onto the second shaft (38).

[0060] The upper rotating assembly (3) (observable in figure 5) is inserted in the interior of the upper profile (2a) and is fixed by means of a screw (37) housed in a threaded drill hole of the second strip (80).

[0061] The second strip (80) comprises a second wedge (46) which, together with the screw (37), maintains the second shaft (38) vertical with respect to the upper profile (2a).

[0062] The second strip (80) of the upper rotating assembly (3) has a configuration at two heights, wherein the following can be observed:

• side faces (34) that guarantee the longitudinal position of the upper rotating assembly (3) with respect to the upper profile (2a),
• a first level (35) that comprises protuberances (43) of up to 0.5 mm that completely fix the upper rotating assembly (3) to the upper profile (2a), and
• a second level (36) with a width equal to the upper profile (2a), thereby guaranteeing the centering of the upper rotating assembly (3) on the upper profile (2a).

[0063] The second shaft (38) has a first section (81) with a first diameter and a second section (82) with a second diameter, wherein the diameter of the first section (81) is smaller than the diameter of the second section (82), in order to pass through the openings (64) of the upper rail (65). The plastic bushing (39) is press-fitted into the second section (82). The second section (82) is followed by the rectangular protuberance (44), which comprises a transversal hole for fixing a metallic circular-shaped segment (41).

[0064] In the mobile door panel (1) opening process, the rounded sides (45) come into contact either with the first circular section (28a) or with the second circular section (28b) of the second wall of the upper strip (28).

[0065] The upper rotating assembly (3) of the mobile door panel (1) stops when it reaches the upper strip (28) by means of the circular segment-shaped part (41). The radius of the circular shape of the circular segment-shaped part (41) is equal to the radius of the rounded sides (45) of the protuberance (44) of the second shaft (38) and said radii are concentric. In this manner, the circular segment-shaped part (41) together with the rounded outer sides (45) of the protuberance (44) of the second shaft (38) forms a continuous circular surface.

[0066] The circular segment-shaped part (41) causes the width of the upper rotating assembly (3) of the mobile door panel (1) is greater than the rotating assemblies of the other panels of the closure system and, therefore, when said upper rotating assembly (3) reaches the upper strip (28) in a movement along an upper rail (65) it stops, because the circular sections (29a, 29b) of the first wall of the upper strip (28) come into contact with the circular segment-shaped part (41). With the upper rotating assembly (3) of the mobile door panel (1) in this position, said mobile door panel (1) can be rotated, resting on one of the circular sections (29a, 29b) of the first wall of the upper strip (28), thereby impeding the longitudinal movement of the mobile door panel (1) on the upper rail (65).

[0067] The bushing (39) introduced in the second section (82) of the second shaft (38) is manufactured from polyamide in order to prevent noise and vibrations in the movement of the mobile door panel (1) on the upper rail (65). The bushing (39) has a section (40) with a larger diameter than the rest of the bushing (39), such that with the bushing (39) introduced in the upper rail (65), the section with a larger diameter (40) than the bushing (39) is in contact with the inner walls (68) of the upper rail (65), which also guarantees the centering of the mobile door panel (1).

[0068] The lower guide (6) of the mobile door panel (1) serves to guide the panel along the lower rail (65).

[0069] The lower guide (6) comprises:

• a base (33) with a structure of a first level (55) and a second level (56), and
• a semicircular-shaped protuberance (57), which comprises a flat face (58) that cuts the semicircular shape.

[0070] The protuberance (57) of the lower guide (6) that projects from the lower profile (2b) and comes into contact with the side (71) of the strips of a homogeneous polymer blend (70), preventing the mobile door panel (1) from opening in an incorrect position.

[0071] The lower guide (6) is inserted in the lower profile (2b) by means of the base (33). The first level (55) of the base prevents the lower guide (6) from coming out of the lower profile (2b), and the width of the second level (56) coincides with the hollow of the lower profile (2b), due to which the lower guide (69 is completely centered on the lower profile (2b). In order to fix the lower guide 86) to the lower profile (2b), said lower guide (6) comprises two threaded holes (59, 60), through which two headless screws are screwed.

[0072] In order for the lower guide (6) to come out from the lower rail (65) during the opening movement of the mobile door panel (1), an exit part (47) is installed on said lower rail (65), where we want the mobile door panel (1) to open while the rest of the panels are closed. The windbreak system comprises one exit part (47) for the mobile door panel (1).

[0073] The exit part (47) comprises:

• a rectangular base (48) that comprises two hollows (49) in its lower zone,
• two trapezoidal protuberances (50) at the ends of the rectangular base (48), each protuberance (50) comprising a drill hole (53) with countersinking (54) and having two opposing faces (52).

[0074] In order to position this exit part (47) in the lower rail (65), the rectangular base (48) is inserted in the recess (66) disposed in the upper part of the lower rail (65), which is fixed by means of two screws (69). The two hollows (49) of the rectangular base (48) allow the passage of the screws (69). Once the exit (47) of the lower guide (6) has been fixed to the lower rail (65), the two protuberances (50) leave sufficient space between their opposing faces (52) for the protuberance (57) of the lower guide (6) to pass. The trapezoidal shape helps the lower guide (6) to pass between the opposing faces (52) of the protuberances (50). The countersinking (54) of the drill holes (53) houses the head of the screws (69) so that they do not protrude.

[0075] The upper guide (5) of the mobile door panel (1) guides the mobile door panel (1) along the length of the upper rail (65). In the position in which we want the mobile door panel (1) to open when the rest of the panels are closed, a cut is made on the side of the upper rail (65) to allow the upper guide (5) to come out from the interior of the upper rail (65). The windbreak system comprises one upper cut-outs for the mobile door panel (1).

[0076] In order to open the mobile door panel (1) on the side of the opening of the normal panels, the mobile door panel (1) is moved towards the end of the system. In order to position the mobile door panel (1) in the corresponding rotation mechanism, a tongue-shaped stop (61) that comprises a base (62) and a protuberance (63) is positioned. The protuberance (63) acts like a stop for the mobile door panel (1), coming into contact with the lower rotating assembly (4). This is necessary since the rotating assemblies (3, 4) of the mobile door panel (1) are moved towards the centre of the mobile door panel (1), creating a protuberance with respect to the rotating assembly (3, 4) that would make the panel profile (2a, 2b) of the mobile door panel (1) impact against the profile of the previous panel.

List of elements mentioned in the figures

[0077] 

1.

mobile door panel,

2a.

upper profile,

2b.

lower profile,

3.

upper rotational assembly,

4.

lower rotational assembly,

5.

upper guide,

6.

lower guide,

7.

pane,

8.

lower strip,

9.

flat faces inclined therebetween,

10.

circular faces,

11.

step,

12.

passthrough slot,

13.

drill hole,

14a.

parallel flat faces,

14b.

exit parallel flat faces,

15.

side walls of the first strip level of the first strip,

16.

first level of the first strip,

17.

second level of the first strip,

18.

first strip,

19.

first shaft,

20.

shaft,

21.

bushing arms,

22.

side faces,

23.

rectangular block,

24a.

front face,

24b.

rear face,

25.

screw,

26.

protuberances of the first level of the first strip,

27.

first wedge,

28.

upper strip,

28a.

first circular section of the second wall of the second groove,

28b.

second circular section of the second wall of the second groove,

29a.

first circular section of the first wall of the second groove,

29b.

second circular section of the first wall of the second groove,

30a.

second straight section of the first wall of the second groove,

30b.

second straight section of the second wall of the second groove,

31.

groove of the upper strip,

32.

drill hole of the upper strip,

33.

base of the upper guide,

34.

side faces of the second strip,

35.

first level of the second strip,

36.

second level of the second strip,

37.

screw,

38.

second shaft,

39.

bushing,

40.

section with the largest bushing diameter,

41.

circular segment-shaped part,

43.

protuberances of the second level of the second strip,

44.

rectangular protuberance,

45.

rounded sides,

46.

second wedge,

47.

exit part,

48.

rectangular base,

49.

hollow,

50.

protuberance,

52.

opposing faces,

53.

drill hole,

54.

countersinking,

55.

first level,

56.

second level of the base of the lower guide,

57.

protuberance of the lower guide,

58.

flat face of the protuberance,

59.

threaded hole of the lower guide,

60.

threaded hole of the lower guide,

61.

stop,

62.

stop base,

63.

stop protuberance,

64.

rail opening,

65.

lower rail,

66.

recess,

67.

rail base,

68.

inner face,

69.

screws,

70.

strip of homogeneous polymer blend,

71.

side of the strips of homogeneous polymer blend,

72.

first longitudinal groove,

73.

second longitudinal groove.

74.

first straight section of the first wall of the second groove,

75.

third straight section of the first wall of the second groove,

76.

first straight section of the second wall of the second groove,

77.

third straight section of the second wall of the second groove,

78.

first semicircular hollow,

79.

second semicircular hollow,

80.

second strip of the upper rotating assembly,

81.

first section of the second shaft,

82.

second section of the second shaft.

Claims

1. A windbreak system comprising mobile panels, a mobile door panel (1), a lower rail (65) and an upper rail (65), wherein the mobile door panel (1) comprises:

- a pane (7) between 6 and 12 mm thick,

- an upper profile (2a) with a cross-section such that it envelopes the pane (7) on one side and offer a hollow on the opposite side,

- a lower profile (2b) with a cross-section such that it envelopes the pane (7) on one side and offers a hollow on the opposite side,

- a lower rotating assembly (4) and a lower guide (6) fixed to the lower profile (2b),

- an upper rotating assembly (3) and an upper guide (5) fixed to the upper profile (2a),

where the lower rail (65) and the upper rail (65) have a cross-section that comprises:

- a base (67),

- two inner faces (68) perpendicular to the base (67) and parallel therebetween,

- a side opposite the base (67), which comprises an opening (64) in the centre and two recesses (66) on both sides of the opening (64), such that strips of a homogeneous polymer blend (70) are located in the two recesses (66);

where the lower rotating assembly (4) comprises:

- a first strip (18),

- a first shaft (19) perpendicular to the first strip (18) and fixed thereto,

- a bushing (20) on the first shaft (19),

- a metallic rectangular block (23) screwed to the first shaft (19) on the end opposite that of fixation to the first strip (18),

where the first strip (18) has a configuration at two heights, wherein side walls(15) can be observed, a first level (16) that comprises transversal protuberances (26) that fix the lower rotating assembly (4) to the lower profile (2b) and a second level (17) having a width that corresponds to the hollow of the lower profile (2b), and where the upper rotating assembly (3) comprises:

- a second strip (80),

- a second shaft (38) perpendicular to the second strip and fixed thereto that comprises a rectangular protuberance (44) with rounded sides (45) at an end opposite that of the fixation to the second strip,

- a bushing (39) on the second shaft (38),

where the second strip (80) has a configuration at two heights, where side faces (34) can be observed, a first level (35) that comprises protuberances (43) of up to 0.5 mm that fix the upper rotating assembly (3) to the upper profile (2a), and a second level (36) with a width equal to the hollow of the upper profile (2a),
characterised in that the second shaft (38) comprises a first section (81) with a first diameter and a second section (82) with a second diameter, wherein the diameter of the first section (81) is smaller than the diameter of the second section (82), in order to pass through the opening (64) of the upper rail (65), where the rectangular protuberance (44) comprises a transversal hole for fixing a circular segment-shaped part (41),
and the lower guide (6) comprises a base (33) having a two-level structure (55, 56) and a protuberance (57), such that the protuberance (57) of the lower guide (6) projects from the lower profile (2b) and comes into contact with one side (71) of the strips of homogeneous polymer blend (70);
and comprises an upper strip (28) fixed to the internal base (67) of the upper rail (65) and a lower strip (8) fixed to the base (67) of the lower rail (65);
and the lower strip (8) has the same width as the interior of the lower rail (65)and a first longitudinal groove (72) formed by two opposing faces that comprises the following sections:

- a first section wherein the two faces disposed in straight opposition to each other are inclined therebetween (9),

- a second section with the two faces disposed in straight and parallel opposition to each other (14a),

- a third section with the two faces disposed in circular opposition to each other (10), and

- a fourth section with the two exit faces disposed in straight and parallel opposition to each other (14b),

where the first longitudinal groove comprises, at its base, a passthrough slot (12) in the first section, a drill hole (13) in the third section and a step (11) in the fourth section.
and the upper strip (28) comprises a second longitudinal groove (73) formed by a first side wall and a second side wall, where the first side wall comprises a first straight section (74), followed by a first circular section (29a) until reaching a second straight section (30a) that reaches up to a second circular section (29b) oriented in the opposite direction to the first circular section (29a), wherein the second circular section (29b) is symmetrical to the first circular section (29a), and wherein the second side wall comprises a first straight section (76), followed by a first circular section (28a) ending in a second straight section (30b) having the same dimensions as the second straight section (30a) of the first side wall, followed by a second circular section (28b) that is symmetrical to the first circular section (28a) and finally a third straight section (77) that is symmetrical to the first straight section (76),
and the upper rotating assembly (3) comes into contact with the upper strip (28) at the same time that the lower rotating assembly (4) comes into contact with the lower strip (8),
and the circular segment-shaped part (41) of the upper rotating assembly (3) blocks a movement of the upper rotating assembly (3) along the upper rail (65) when said upper rotating assembly (3) reaches the upper strip (28), wherein the circular sections (29a, 29b) of the first wall of the upper strip (28) comes into contact with the circular segment-shaped part (41) and because, with the upper rotating assembly (3) in this position, the mobile door panel (1) rotates, resting on one of the circular sections (29a, 29b) of the first wall of the upper strip (28),
and the bushing (20) is T-shaped, wherefrom two perpendicular arms (21) emerge, with two rounded flat side walls (22) and a front face (24a) and a rear side (24b), such that the two arms (21) of the bushing (20) have the same length as the rectangular block (23),
and the lower rotating assembly (4) is inserted in the lower strip (8) until it is stopped by the step (11), wherein the first shaft (19) of the lower rotating assembly (4) is arranged centered between the circular faces (10) of the lower strip (8) and the bushing (20) rests on the parallel flat faces (14a) of the lower strip (8),
and the lower rail (65) comprises an exit part (47), through which the lower guide (6) comes out of the lower rail (65) during the opening movement of the mobile door panel (1).

2. A windbreak system comprising mobile panels, a mobile door panel (1), a lower rail (65) and an upper rail (65), according to claim 1, characterised in that the exit part (47) comprises:

- a rectangular base (48),

- two trapezoidal protuberances (50) at the ends of the rectangular base (48).

3. A windbreak system comprising mobile panels, a mobile door panel (1), a lower rail (65) and an upper rail (65), according to claim 2, characterised in that each protuberance (50) comprises a drill hole (53) with countersinking (54) and has two opposing faces (52).

4. A windbreak system comprising mobile panels, a mobile door panel (1), a lower rail (65) and an upper rail (65), according to any of the preceding claims, characterised in that the first strip (18) of the lower rotating assembly (4) comprises a first wedge (27) opposite to the first shaft (19).

5. A windbreak system comprising mobile panels, a mobile door panel (1), a lower rail (65) and an upper rail (65), according to any of the preceding claims, characterised in that the first shaft (19) comprises a square section on its final end with a slot in the interior wherein the rectangular block (23) is screwed.

6. A windbreak system comprising mobile panels, a mobile door panel (1), a lower rail (65) and an upper rail (65), according to any of the preceding claims, characterised in that the second strip (80) of the upper rotating assembly (3) comprises a second wedge (46) opposite the second shaft (38).

7. A windbreak system comprising mobile panels, a mobile door panel (1), a lower rail (65) and an upper rail (65), according to the preceding claims, characterised in that the bushing (39) introduced in the second section (82) of the second shaft (38) has a section with a larger diameter (40) than the rest of the bushing (39) in order to be in contact with the internal walls of the upper rail (65).

8. A windbreak system comprising mobile panels, a mobile door panel (1), a lower rail (65) and an upper rail (65), according to any of the preceding claims, characterised in that the bushing (39) is manufactured from polyamide.

9. A windbreak system comprising mobile panels, a mobile door panel (1), a lower rail (65) and an upper rail (65), according to any of the preceding claims, characterised in that the protuberance (57) of the lower guide (6) has a semicircular shape and comprises a flat face (58) that interrupts the semicircular shape.

10. A windbreak system comprising mobile panels, a mobile door panel (1), a lower rail (65) and an upper rail (65), according to any of the preceding claims, characterised in that the bushing (20) comprises a smaller width than the opening (64) of the cross-section of the lower rail (65).

11. A windbreak system comprising mobile panels, a mobile door panel (1), a lower rail (65) and an upper rail (65), according to any of the preceding claims, characterised in that the bushing (20) is centered with respect to the first shaft (19) and is capable of moving to maintain the parallelism between the side faces (22) of the bushing (20) and the lower rail (65).

12. A windbreak system comprising mobile panels, a mobile door panel (1), a lower rail (65) and an upper rail (65), according to any of the preceding claims, characterised in that the radius of the circular shape of the circular segment-shaped part (41) is equal to the radius of the rounded outer sides (45) of the protuberance (44) of the second shaft (38) and said radii are concentric, wherein the circular segment-shaped part (41), together with the rounded outer sides (45) of the protuberance (44) of the second shaft (38), forms a continuous circular surface.

Ansprüche

1. Windschutzsystem, umfassend bewegliche Platten, eine bewegliche Türplatte (1), eine untere Schiene (65) und eine obere Schiene (65), wobei die bewegliche Türplatte (1) Folgendes umfasst:

- eine Scheibe (7) mit einer Dicke zwischen 6 und 12 mm,

- ein oberes Profil (2a) mit einem solchen Querschnitt, dass es die Scheibe (7) auf der einen Seite umhüllt und auf der gegenüberliegenden Seite eine Mulde aufweist,

- ein unteres Profil (2b) mit einem solchen Querschnitt, dass es die Scheibe (7) auf einer Seite umhüllt und auf der gegenüberliegenden Seite eine Mulde aufweist,

- eine untere rotierende Baugruppe (4) und eine untere Führung (6), die an dem unteren Profil (2b) befestigt ist,

- eine obere rotierende Baugruppe (3) und eine obere Führung (5), die an dem oberen Profil (2a) befestigt ist,

wobei die untere Schiene (65) und die obere Schiene (65) einen Querschnitt aufweisen, der Folgendes umfasst:

- eine Basis (67),

- zwei Innenflächen (68), die senkrecht zur Basis (67) und parallel dazwischen sind,

- eine Seite gegenüber der Basis (67), die eine Öffnung (64) in der Mitte und zwei Aussparungen (66) auf beiden Seiten der Öffnung (64) umfasst, sodass Streifen einer homogenen Polymermischung (70) in den zwei Aussparungen (66) angeordnet sind;

wobei die untere rotierende Baugruppe (4) Folgendes umfasst:

- einen ersten Streifen (18),

- einen ersten Schaft (19), der senkrecht zu dem ersten Streifen (18) und daran befestigt ist,

- eine Buchse (20) auf dem ersten Schaft (19),

- einen metallischen rechteckigen Block (23), der am Ende mit dem ersten Schaft (19) verschraubt ist gegenüber der Befestigung an dem ersten Streifen (18),

wobei der erste Streifen (18) eine Konfiguration in zwei Höhen aufweist, wobei Seitenwände (15) beobachtet werden können, eine erste Ebene (16), die quer verlaufende Vorsprünge (26) umfasst, die die untere Drehbaugruppe (4) an dem unteren Profil (2b) befestigen, und eine zweite Ebene (17), die eine Breite aufweist, die der Mulde des unteren Profils (2b) entspricht, und wobei die obere rotierende Baugruppe (3) Folgendes umfasst:

- einen zweiten Streifen (80),

- einen zweiten Schaft (38), der senkrecht zu dem zweiten Streifen und daran befestigt ist und ein rechteckiger Vorsprung (44) mit abgerundeten Seiten (45) an einem Ende umfasst, das dem der Befestigung an dem zweiten Streifen gegenüberliegt,

- eine Buchse (39) auf dem zweiten Schaft (38),

wobei der zweite Streifen (80) eine Konfiguration in zwei Höhen aufweist, wobei Seitenflächen (34), eine erste Ebene (35), die Vorsprünge (43) von bis zu 0,5 mm umfasst, die die obere rotierende Baugruppe (3) an dem oberen Profil (2a) befestigen, und eine zweite Ebene (36) mit einer Breite gleich der Mulde des oberen Profils (2a),
dadurch gekennzeichnet, dass der zweite Schaft (38) einen ersten Abschnitt (81) mit einem ersten Durchmesser und einen zweiten Abschnitt (82) mit einem zweiten Durchmesser umfasst, wobei der Durchmesser des ersten Abschnitts (81) kleiner als der Durchmesser des zweiten Abschnitts (82) ist, um durch die Öffnung (64) der oberen Schiene (65) hindurchzugehen, wobei der rechteckige Vorsprung (44) ein Querloch zum Befestigen eines kreissegmentförmigen Teils (41) umfasst,
und die untere Führung (6) eine Basis (33) mit einer zweistufigen Struktur (55, 56) und einen Vorsprung (57) umfasst, sodass der Vorsprung (57) der unteren Führung (6) von dem unteren Profil (2b) vorsteht und mit einer Seite (71) der Streifen aus homogener Polymermischung (70) in Kontakt kommt;
und einen oberen Streifen (28) umfasst, der an der inneren Basis (67) der oberen Schiene (65) befestigt ist, und einen unteren Streifen (8), der an der Basis (67) der unteren Schiene (65) befestigt ist;
und die untere Leiste (8) die gleiche Breite wie das Innere der unteren Schiene (65) hat und eine erste Längsnut (72) aufweist, die durch zwei gegenüberliegende Flächen gebildet wird, die die folgenden Abschnitte umfasst:

- einen ersten Abschnitt, wobei die beiden Flächen, die in gerader Gegenüberstellung zueinander angeordnet sind, dazwischen geneigt sind (9),

- einen zweiten Abschnitt, wobei die beiden Flächen gerade und parallel gegenüberliegend angeordnet sind (14a),

- einen dritten Abschnitt, wobei die beiden Flächen einander kreisförmig gegenüberliegend angeordnet sind (10), und

- einen vierten Abschnitt, wobei die beiden Austrittsflächen gerade und parallel gegenüberliegend angeordnet sind (14b),

wobei die erste Längsnut an ihrer Basis einen Durchgangsschlitz (12) in dem ersten Abschnitt, eine Bohrung (13) in dem dritten Abschnitt und eine Stufe (11) in dem vierten Abschnitt umfasst.
und der obere Streifen (28) eine zweite Längsnut (73) umfasst, die durch eine erste Seitenwand und eine zweite Seitenwand gebildet ist, wobei die erste Seitenwand einen ersten geraden Abschnitt (74) umfasst, gefolgt von einem ersten kreisförmigen Abschnitt (29a), bis zu einem zweiten geraden Abschnitt (30a), der bis zu einem zweiten kreisförmigen Abschnitt (29b) reicht, der in der entgegengesetzten Richtung zu dem ersten kreisförmigen Abschnitt (29a) ausgerichtet ist, wobei der zweite kreisförmige Abschnitt (29b) symmetrisch zu dem ersten kreisförmigen Abschnitt (29a) ist, und wobei die zweite Seitenwand einen ersten geraden Abschnitt (76) umfasst, gefolgt von einem ersten kreisförmigen Abschnitt (28a), der in einem zweiten geraden Abschnitt (30b) endet, der die gleichen Abmessungen wie der zweite gerade Abschnitt (30a) der ersten Seitenwand aufweist, gefolgt von einem zweiten kreisförmigen Abschnitt (28b), der symmetrisch zu dem ersten kreisförmigen Abschnitt (28a) ist, und schließlich einem dritten geraden Abschnitt (77), der symmetrisch zu dem ersten geraden Abschnitt (76) ist,
und die obere rotierende Baugruppe (3) in Kontakt mit dem oberen Streifen (28) kommt, während die untere rotierende Baugruppe (4) in Kontakt mit dem unteren Streifen (8) kommt,
und der kreissegmentförmige Teil (41) der oberen rotierenden Baugruppe (3) eine Bewegung der oberen rotierenden Baugruppe (3) entlang der oberen Schiene (65) blockiert, wenn die obere rotierende Baugruppe (3) den oberen Streifen (28) erreicht, wobei die kreisförmigen Abschnitte (29a, 29b) der ersten Wand des oberen Streifens (28) mit dem kreissegmentförmigen Teil (41) in Kontakt kommen und weil sich die bewegliche Türplatte (1) dreht, wenn sich die obere rotierende Baugruppe (3) in dieser Position befindet, und auf einem der kreisförmigen Abschnitte (29a, 29b) der ersten Wand des oberen Streifens (28) aufliegt, und die Buchse (20) T-förmig ist, von dem zwei senkrechte Arme (21) ausgehen, mit zwei abgerundeten flachen Seitenwänden (22) und einer Vorderseite (24a) und einer Rückseite (24b), so dass die zwei Arme (21) der Buchse (20) die gleiche Länge wie der rechteckige Block (23) aufweisen,
und die untere rotierende Baugruppe (4) in den unteren Streifen (8) eingeführt wird, bis sie durch die Stufe (11) angehalten wird, wobei der erste Schaft (19) der unteren rotierenden Baugruppe (4) mittig zwischen den kreisförmigen Flächen (10) des unteren Streifens (8) angeordnet ist und die Buchse (20) auf den parallelen ebenen Flächen (14a) des unteren Streifens (8) aufliegt,
und die Unterschiene (65) einen Austrittsteil (47) aufweist, durch den die Unterführung (6) während der Öffnungsbewegung der mobilen Türplatte (1) aus der Unterschiene (65) austritt.

2. Windschutzsystem, umfassend bewegliche Platten, eine bewegliche Türplatte (1), eine untere Schiene (65) und eine obere Schiene (65), nach Anspruch 1, dadurch gekennzeichnet, dass das Ausgangsteil (47) umfasst:

- eine rechteckige Basis (48),

- zwei trapezförmige Vorsprünge (50) an den Enden der rechteckigen Basis (48).

3. Windschutzsystem mit beweglichen Platten, einer beweglichen Türplatte (1), einer unteren Schiene (65) und einer oberen Schiene (65) nach Anspruch 2, dadurch gekennzeichnet, dass jeder Vorsprung (50) ein Bohrloch (53) mit einer Senkung (54) aufweist und zwei gegenüberliegende Flächen (52) hat.

4. Windschutzsystem mit beweglichen Platten, einer beweglichen Türplatte (1), einer unteren Schiene (65) und einer oberen Schiene (65) nach einem der vorhergehenden Ansprüche, dadurch gekennzeichnet, dass der erste Streifen (18) der unteren rotierenden Baugruppe (4) einen ersten Keil (27) gegenüber dem ersten Schaft (19) aufweist.

5. Windschutzsystem mit beweglichen Platten, einer beweglichen Türplatte (1), einer unteren Schiene (65) und einer oberen Schiene (65) nach einem der vorhergehenden Ansprüche, dadurch gekennzeichnet, dass der erste Schaft (19) an seinem letzten Ende einen quadratischen Querschnitt mit einem Schlitz im Inneren aufweist, in den der rechteckige Block (23) eingeschraubt ist.

6. Windschutzsystem mit beweglichen Platten, einer beweglichen Türplatte (1), einer unteren Schiene (65) und einer oberen Schiene (65) nach einem der vorhergehenden Ansprüche, dadurch gekennzeichnet, dass der zweite Streifen (80) der oberen rotierenden Baugruppe (3) einen zweiten Keil (46) gegenüber dem zweiten Schaft (38) aufweist.

7. Windschutzsystem mit beweglichen Platten, einer beweglichen Türplatte (1), einer unteren Schiene (65) und einer oberen Schiene (65) nach den vorhergehenden Ansprüchen, dadurch gekennzeichnet, dass die Buchse (39), die in den zweiten Abschnitt (82) des zweiten Schafts (38) eingeführt ist, einen Abschnitt mit einem größeren Durchmesser (40) als der Rest der Buchse (39) aufweist, um mit den Innenwänden der oberen Schiene (65) in Kontakt zu sein.

8. Windschutzsystem mit beweglichen Platten, einer beweglichen Türplatte (1), einer unteren Schiene (65) und einer oberen Schiene (65) nach einem der vorhergehenden Ansprüche, dadurch gekennzeichnet, dass die Buchse (39) aus Polyamid hergestellt ist.

9. Windschutzsystem mit beweglichen Platten, einer beweglichen Türplatte (1), einer unteren Schiene (65) und einer oberen Schiene (65) nach einem der vorhergehenden Ansprüche, dadurch gekennzeichnet, dass der Vorsprung (57) der unteren Führung (6) eine halbkreisförmige Gestalt aufweist und eine flache Fläche (58) hat, die die halbkreisförmige Gestalt unterbricht.

10. Windschutzsystem mit beweglichen Platten, einer beweglichen Türplatte (1), einer unteren Schiene (65) und einer oberen Schiene (65) nach einem der vorhergehenden Ansprüche, dadurch gekennzeichnet, dass die Buchse (20) eine geringere Breite als die Öffnung (64) des Querschnitts der unteren Schiene (65) aufweist.

11. Windschutzsystem mit beweglichen Platten, einer beweglichen Türplatte (1), einer unteren Schiene (65) und einer oberen Schiene (65) nach einem der vorhergehenden Ansprüche, dadurch gekennzeichnet, dass die Buchse (20) in Bezug auf den ersten Schaft (19) zentriert ist und sich bewegen kann, um die Parallelität zwischen den Seitenflächen (22) der Buchse (20) und der unteren Schiene (65) aufrechtzuerhalten.

12. Windschutzsystem mit beweglichen Platten, einer beweglichen Türplatte (1), einer unteren Schiene (65) und einer oberen Schiene (65) nach einem der vorhergehenden Ansprüche, dadurch gekennzeichnet, dass der Radius der kreisförmigen Form des kreissegmentförmigen Teils (41) gleich dem Radius der abgerundeten Außenseiten (45) des Vorsprungs (44) des zweiten Schafts (38) ist und die Radien konzentrisch sind, wobei der kreissegmentförmige Teil (41) zusammen mit den abgerundeten Außenseiten (45) des Vorsprungs (44) des zweiten Schafts (38) eine kontinuierliche kreisförmige Oberfläche bildet.

Revendications

1. Un système coupe-vent comprenant des panneaux mobiles, un panneau de porte mobile (1), un rail inférieur (65) et un rail supérieur (65), dans lequel le panneau de porte mobile (1) comprend :

- une vitre (7) d'une épaisseur comprise entre 6 et 12 mm,

- un profilé supérieur (2a) de section telle qu'il enveloppe la vitre (7) d'un côté et offrent un creux du côté opposé,

- un profilé inférieur (2b) de section telle qu'il enveloppe la vitre (7) d'un côté et offre un creux du côté opposé,

- un ensemble rotatif inférieur (4) et un guide inférieur (6) fixés au profilé inférieur (2b),

- un ensemble rotatif supérieur (3) et un guide supérieur (5) fixés au profilé supérieur (2a),

où le rail inférieur (65) et le rail supérieur (65) ont une section transversale qui comprend :

- une base (67),

- deux faces intérieures (68) perpendiculaires à la base (67) et parallèles entre elles,

- un côté opposé à la base (67), qui comprend une ouverture (64) au centre et deux encoches (66) sur les deux côtés de l'ouverture (64), de telle sorte que des bandes d'un mélange polymère homogène (70) sont situées dans les deux encoches (66) ;

où l'ensemble rotatif inférieur (4) comprend :

- une première bande (18),

- un premier arbre (19) perpendiculaire à la première bande (18) et fixé à celle-ci,

- une douille (20) sur le premier arbre (19),

- un bloc rectangulaire métallique (23) vissé au premier arbre (19) sur l'extrémité opposée à celle de la fixation à la première bande (18),

où la première bande (18) a une configuration à deux hauteurs, dans laquelle des parois latérales (15) peuvent être observées, un premier niveau (16) qui comprend des protubérances transversales (26) qui fixent l'ensemble rotatif inférieur (4) au profilé inférieur (2b) et un second niveau (17) ayant une largeur qui correspond au creux du profilé inférieur (2b),
et où l'ensemble rotatif supérieur (3) comprend :

- une deuxième bande (80),

- un second arbre (38) perpendiculaire à la seconde bande et fixé à celle-ci qui comprend une protubérance rectangulaire (44) avec des côtés arrondis (45) à une extrémité opposée à celle de la fixation à la seconde bande,

- une douille (39) sur le second arbre (38),

où la seconde bande (80) a une configuration à deux hauteurs, où des faces latérales (34), un premier niveau (35) qui comprend des protubérances (43) allant jusqu'à 0,5 mm qui fixent l'ensemble rotatif supérieur (3) au profil supérieur (2a), et un second niveau (36) avec une largeur égale au creux du profil supérieur (2a),
caractérisé parce que le second arbre (38) comprend une première section (81) avec un premier diamètre et une seconde section (82) avec un second diamètre, dans lequel le diamètre de la première section (81) est inférieur au diamètre de la seconde section (82), afin de passer à travers l'ouverture (64) du rail supérieur (65), où la protubérance rectangulaire (44) comprend un trou transversal pour fixer une partie en forme de segment circulaire (41),
et le guide inférieur (6) comprend une base (33) ayant une structure à deux niveaux (55, 56) et une protubérance (57), de telle sorte que la protubérance (57) du guide inférieur (6) dépasse du profil inférieur (2b) et entre en contact avec un côté (71) des bandes de mélange polymère homogène (70) ;
et comprend une bande supérieure (28) fixée à la base interne (67) du rail supérieur (65) et une bande inférieure (8) fixée à la base (67) du rail inférieur (65) ;
et la bande inférieure (8) a la même largeur que l'intérieur du rail inférieur (65) et une première rainure longitudinale (72) formée par deux faces opposées qui comprend les sections suivantes :

- une première section dans laquelle les deux faces disposées en opposition droite l'une par rapport à l'autre sont inclinées entre elles (9),

- une deuxième section avec les deux faces disposées en opposition droite et parallèle l'une par rapport à l'autre (14a

- une troisième section avec les deux faces disposées en opposition circulaire l'une par rapport à l'autre (10), et

- une quatrième section avec les deux faces de sortie disposées en opposition droite et parallèle l'une par rapport à l'autre (14b),

où la première rainure longitudinale comprend, à sa base, une fente de passage (12) dans la première section, un trou de forage (13) dans la troisième section et un gradin (11) dans la quatrième section.
et la bande supérieure (28) comprend une seconde rainure longitudinale (73) formée par une première paroi latérale et une seconde paroi latérale, la première paroi latérale comprenant une première section droite (74), suivie d'une première section circulaire (29a) jusqu'à atteindre une seconde section droite (30a) qui atteint une seconde section circulaire (29b) orientée dans la direction opposée à la première section circulaire (29a), la seconde section circulaire (29b) étant symétrique par rapport à la première section circulaire (29a), et la seconde paroi latérale comprenant une première section droite (76), suivie d'une première section circulaire (28a) se terminant par une seconde section droite (30b) ayant les mêmes dimensions que la seconde section droite (30a) de la première paroi latérale, suivie d'une seconde section circulaire (28b) qui est symétrique par rapport à la première section circulaire (28a) et enfin une troisième section droite (77) qui est symétrique par rapport à la première section droite (76),
et l'ensemble rotatif supérieur (3) vient en contact avec la bande supérieure (28) en même temps que l'ensemble rotatif inférieur (4) vient en contact avec la bande inférieure (8),
et la partie en forme de segment circulaire (41) de l'ensemble rotatif supérieur (3) bloque un mouvement de l'ensemble rotatif supérieur (3) le long du rail supérieur (65) lorsque ledit ensemble rotatif supérieur (3) atteint la bande supérieure (28), dans lequel les sections circulaires (29a, 29b) de la première paroi de la bande supérieure (28) viennent en contact avec la partie en forme de segment circulaire (41) et parce que, avec l'ensemble rotatif supérieur (3) dans cette position, le panneau de porte mobile (1) tourne, reposant sur l'une des sections circulaires (29a, 29b) de la première paroi de la bande supérieure (28),
et la douille (20) est en forme de T, de laquelle émergent deux bras perpendiculaires (21), avec deux parois latérales plates arrondies (22) et une face avant (24a) et un côté arrière (24b), de sorte que les deux bras (21) de la douille (20) ont la même longueur que le bloc rectangulaire (23),
et l'ensemble rotatif inférieur (4) est inséré dans la bande inférieure (8) jusqu'à ce qu'il soit arrêté par le gradin (11), dans lequel le premier arbre (19) de l'ensemble rotatif inférieur (4) est disposé de manière centrée entre les faces circulaires (10) de la bande inférieure (8) et la douille (20) repose sur les faces plates parallèles (14a) de la bande inférieure (8),
et le rail inférieur (65) comprend une partie de sortie (47), à travers laquelle le guide inférieur (6) sort du rail inférieur (65) pendant le mouvement d'ouverture du panneau de porte mobile (1).

2. Système coupe-vent comprenant des panneaux mobiles, un panneau de porte mobile (1), un rail inférieur (65) et un rail supérieur (65), selon la revendication 1, caractérisé parce que la partie de sortie (47) comprend :

- une base rectangulaire (48),

- deux protubérances trapézoïdales (50) aux extrémités de la base rectangulaire (48).

3. Système coupe-vent comprenant des panneaux mobiles, un panneau de porte mobile (1), un rail inférieur (65) et un rail supérieur (65), selon la revendication 2, caractérisé parce que chaque protubérance (50) comprend un trou de forage (53) avec fraisage (54) et présente deux faces opposées (52).

4. Système coupe-vent comprenant des panneaux mobiles, un panneau de porte mobile (1), un rail inférieur (65) et un rail supérieur (65), selon l'une quelconque des revendications précédentes, caractérisé parce que la première bande (18) de l'ensemble rotatif inférieur (4) comprend un premier coin (27) opposé au premier arbre (19).

5. Système coupe-vent comprenant des panneaux mobiles, un panneau de porte mobile (1), un rail inférieur (65) et un rail supérieur (65), selon l'une quelconque des revendications précédentes, caractérisé parce que le premier arbre (19) comprend une section carrée à son extrémité finale avec une fente à l'intérieur dans laquelle le bloc rectangulaire (23) est vissé.

6. Système coupe-vent comprenant des panneaux mobiles, un panneau de porte mobile (1), un rail inférieur (65) et un rail supérieur (65), selon l'une quelconque des revendications précédentes, caractérisé parce que la seconde bande (80) de l'ensemble rotatif supérieur (3) comprend un second coin (46) opposé au second arbre (38).

7. Système coupe-vent comprenant des panneaux mobiles, un panneau de porte mobile (1), un rail inférieur (65) et un rail supérieur (65), selon les revendications précédentes, caractérisé parce que la douille (39) introduite dans la seconde section (82) du second arbre (38) a une section de plus grand diamètre (40) que le reste de la douille (39) afin d'être en contact avec les parois internes du rail supérieur (65).

8. Système coupe-vent comprenant des panneaux mobiles, un panneau de porte mobile (1), un rail inférieur (65) et un rail supérieur (65), selon l'une quelconque des revendications précédentes, caractérisé parce que la douille (39) est fabriquée en polyamide.

9. Système coupe-vent comprenant des panneaux mobiles, un panneau de porte mobile (1), un rail inférieur (65) et un rail supérieur (65), selon l'une quelconque des revendications précédentes, caractérisé parce que la protubérance (57) du guide inférieur (6) a une forme semi-circulaire et comprend une face plate (58) qui interrompt la forme semi-circulaire.

10. Système coupe-vent comprenant des panneaux mobiles, un panneau de porte mobile (1), un rail inférieur (65) et un rail supérieur (65), selon l'une quelconque des revendications précédentes, caractérisé parce que la douille (20) comprend une largeur inférieure à l'ouverture (64) de la section transversale du rail inférieur (65).

11. Système coupe-vent comprenant des panneaux mobiles, un panneau de porte mobile (1), un rail inférieur (65) et un rail supérieur (65), selon l'une quelconque des revendications précédentes, caractérisé parce que la douille (20) est centrée par rapport au premier arbre (19) et est capable de se déplacer pour maintenir le parallélisme entre les faces latérales (22) de la douille (20) et le rail inférieur (65).

12. Système coupe-vent comprenant des panneaux mobiles, un panneau de porte mobile (1), un rail inférieur (65) et un rail supérieur (65), selon l'une quelconque des revendications précédentes, caractérisé parce que le rayon de la forme circulaire de la partie en forme de segment circulaire (41) est égal au rayon des côtés extérieurs arrondis (45) de la protubérance (44) du second arbre (38) et lesdits rayons sont concentriques, dans lequel la partie en forme de segment circulaire (41), conjointement avec les côtés extérieurs arrondis (45) de la protubérance (44) du second arbre (38), forme une surface circulaire continue.

Drawing