FR2968025A1 - Telescopic partition for folding screen that is utilized in sidewalk cafe, has set of panels, and sliding pivot provided with axis of rotation intersecting plane of set of panels, where axis of rotation is located at end of set of panels - Google Patents

Abstract

The partition has a set of panels (2) that is connected by a guiding unit (3). The set of panels is provided with a support unit i.e. wheel (4), on the ground. The guide unit is formed by a sliding pivot (100) that comprises an axis (3A) of translation parallel to a lower edge of the set of panels. The sliding pivot is provided with an axis (3B) of rotation intersecting a plane of the set of panels, where the axis of rotation is located at another end of the set of panels.

Description

The invention relates to a telescopic partition wall. A particular application of these partitions is the screen. In many cases, it is not possible to erect a fixed wall such as for example a terrace of coffee that encroaches on the public domain. There are removable partitions but it is useful to use a wall that is quickly removable or can move from a compact state to a rapidly deployed state. To obtain a partition of variable length, panels connected to each other are used so that in the compact state they are stacked. In the expanded state of the partition, the panels are placed side by side. We know the partitions consist of sliding panels suspended or guided each up and down by means of rails. This solution imposes the existence of a carrier structure for top guidance and ground guidance which is not always possible and requires significant work. Such partitions are often used to split a large space inside a building. The panels are independent of each other, a fraction of the guide means being carried by the supporting structure. To form a unitary partition, the panels are connected in pairs by a connecting means allowing one panel to be movable relative to the other. The binding mode often used is the hinge. Each panel is guided in rotation relative to the previous panel. Ground support members provide stability. These partitions are known as the screen.

Thus, by using panels connected by hinges, it is possible to modulate the length of the partition by tilting the panels relative to each other (sawtooth). There are also panels associated with slides. The operation is more delicate because the risk of jamming (drawer effect) is important if you do not move the panels exactly in the axis of the slides. In addition, performance slides are expensive and are not intended to be subjected to the weather. These panels require ground support especially when used as a screen. In addition, it is not possible, over a large length (for example 5 meters) to support the partition at one end. The various evoked solutions using a ground load recovery via a foot can only work if the ground is flat. Indeed, hinges or slides provide a strict guidance with little play of operation. 15 They are not suitable for old cobblestones. The invention proposes a solution to the problems mentioned. For this purpose, the subject of the invention is a telescopic partition consisting of panels connected two by two by translation guiding means and these panels have a support on the ground, this partition being characterized in that the translational guiding means is constituted by a sliding pivot having a translation axis generally parallel to the lower edge of the panel and at least one axis of rotation orthogonal to the plane of the panel. The invention will be better understood from the following description given by way of non-limiting example with reference to the drawing which represents: FIG. 1: An unfolded partition.

FIG. 2: An assembly variant FIG. 3 and 4: A section of assembly variants FIG. 5: another example of guidance FIG. 6 and 7: a locking part according to two embodiments FIG. 8: a guide piece using The thickness of the panel Referring to the drawing, there is shown a telescopic partition 1 composed of panels 2. These panels are connected in pairs by means of translation guide 3 allowing a panel to move relative to each other in a plane substantially parallel to said panels. The partition has means 4 for supporting the ground. In the compact position of the partition, the length of the partition is approximately that of a panel and in the extended position approximately the cumulative length of the panels. The panel has at one end a means 4 for supporting the ground or indirectly via a track provided on a neighboring panel. Advantageously, the guide in translation is formed by a sliding pivot having a translation axis 3A generally parallel to the lower edge of the panel and at least one axis 3B rotation secant to the plane of the panel. This axis 3B is substantially orthogonal to the plane of the panel. It is considered that the lower edge of the panel is substantially horizontal, each panel being rectangular. The translation guide axis 3A will therefore often be parallel to the lower edge. As seen in Figure 1 where has been shown a partition formed of two panels the panel on the left has a wheel 4 at the front and a slide 3C fixed on its face 2A facing the panel on the right. The second panel also has a wheel at the front and rear part 100 complementary to the slide adapted to form the pivot on the slide, this part 100 being carried by the other panel. s This solution allows the panels to move on non-level or sloping ground. The sliding pivot allows translational movement of the axis of the pivot along the slide and mobility in rotation. The panel can follow the slope of the ground. The sliding pivot is shown in the lower part of the panel but it can be located at another level and for example at the top. The sliding pivot comprises a bearing surface which extends over the width of the panel accompanied by a guide of the pivot on the bearing surface. A sliding pivot may consist of a slide sliding in a slide 3C presented by a panel said slide having a rotational guiding axis cooperating with a ring carried by the other panel. Also the slider can receive a ring guiding in rotation an axis integral with the other panel. A variant of this sliding pivot consists in providing on a panel a finger 30 whose end comprises a cylindrical head 33 which slides directly in a C-shaped rail (FIG. 3). The head then acts as a slider. The head 33 may be a wheel or a roller. The translation guide comprises a bearing surface 40 generally parallel to the lower edge of the panel and facing upwards to take up the load of the next panel and a lateral guide 41 parallel to the plane of the panel. This lateral guidance can be achieved in different ways. For example, we use a CE profile. The extreme wings of the Cé which determine the opening of Cé realize the guiding. We get a slide.

According to another embodiment of FIG. 5, a grooved wheel 50 is used which circulates on a rail 51 to obtain the translation guide. The lateral guidance is produced by the faces facing the groove on the rib. This guidance may be supplemented by another additional guide 52 provided by a side lug or a fork in which a wing of a profile slides. In a variant (FIG. 3, 4) the connection between two panels is made by a sliding ball joint 31 allowing the panel to move in translation along the slide 3C and in rotation in different planes by means of the ball joint 31. The previous assembly for the sliding pivot is here modified at the level of the head. The head 31 comes into an impression 32, here presented by the non-equipped panel of the slide (FIG. 4) and at the other end a slide slides in the slide 3c. In Figure 3 the right panel has a ball joint 31 which slides directly into the slide 3C. The ball joint provides more flexibility in the orientation of the panels. It is understood that the ground support placed at the front of the N-1 panel supports the rear panel N by the presence of the sliding connection.

This panel has sufficient degrees of freedom to move on a slope gradient soil. The axis of rotation of the sliding connection makes it possible to follow the slope of the ground (figure 1). Depending on the means used and in particular the dimensioning, the sliding pivot may be sufficient to provide a strong mechanical connection and good guidance but preferably this main guide will be completed by additional guidance. This lateral guidance will be complementary and remote guide pivot and allowing the pivoting of a panel in a plane parallel to said panel.

Incidentally for additional guidance, each panel may have one or two so-called stop faces 10 parallel to the face carrying the slide to define a corridor in which the adjacent panel moves or a slender piece. This arrangement limits the bringing together and the separation of the top of the panel n with respect to the panel n-1. A part 11 carries these so-called abutting faces. This piece 11 limits the efforts that can occur on the pivot link when the wind blows and tends to tilt the panels. It is necessary to provide sufficient clearance to allow pivoting within an acceptable angular range of the panel (Figure 5). Indeed, when the bearing point on the ground follows the slope of the ground, there is a tilting of the panel around its pivot axis and thus a vertical displacement of the rear edge The guide can be done with spans that extend the along the transverse dimension of the panel or with a span extending along a panel cooperates with a range of limited extent. The translational guidance of one panel relative to the other may be located at the bottom or mid-height or at the top of the panel.

By placing the guide in translation at half height, the amplitude of the spacing movement of the upper edges of the panels is distributed up and down, this amplitude depending on the length of the finger bearing the patella and the female part receiving the patella. . By embedding the slide in the thickness of the panel and limiting the length of the pin forming the axis, the spacing of the upper edges of the panels will be limited. Instead of this piece 11 carrying the abutments 10 which is secured to the panel and which serves for guidance, we can use a removable part 12 called locking to cap the two panels and incidentally pinch them. This removable piece will be put in place after maneuvering the panels. This piece is inverted U to cover the two panels (it allows a closer of the upper edges) or double U the middle branch 12 A having a thickness avoiding the movements of the upper edges. The ground support means may be a wheel or a skate with incidentally an additional lateral foot set up after maneuver for wind resistance. There is a particular application for terraces. Indeed, when the wind blows on the terrace, it is possible to deploy the partition easily even if the soil is a lawn or soil covered with gravel or irregular. In effect, the support wheel will follow the movements of the ground without constraint on the translation guide. The slides will be provided with stops to prevent the slide out of the said slide. The stops limiting the translation can be located elsewhere The operating clearance between the pivot and the slide may be important.

To withstand wind, the first panel is attached to a strong structure such as a wall or a post, for example in two points in the manner of a door so that said panel is vertical and holds the other vertical panels. It therefore has fastening means on a wall which may include a hinge to fold the assembly on the wall where the device is hung. The head board may also have means for securing it to a post which will be engaged in a hole previously made in the ground. The guide can be distributed differently to the example of Figure 2 where the second panel rests on the ground via two supports, the right panel and the left panel are guided in translation on the median panel.

The principle is based on the presence of a guide in translation along an axis of movement generally parallel to the ground allowing pivoting over an angular range sufficient to absorb the slope or the irregularities of the ground. This angular pivoting is obtained with an axis of rotation or a large game. This main guide may be accompanied by a secondary guide which comprises an elongated portion parallel to one side of the panel cooperating with one or two linear bearings with an axis perpendicular to the axis of the elongated portion. By slide and slide, it will be understood a guide means in translation with coupling complementary parts allowing the separation of said additional parts only voluntarily. 20

Claims (12)

REVENDICATIONS1. Telescopic partition consisting of panels 2 connected in pairs by means 3 for translational guidance, which panels have a support 4 on the ground, this partition being characterized in that the translational guiding means is constituted by a sliding pivot having an axis translation parallel to the lower edge of the panel and at least one axis 3B rotation secant to the plane of the panel, the axis of rotation being located at the other end of the panel. 2. Telescopic partition according to claim 1 characterized in that the guide means comprises a slide, a slide and a guide in rotation about an axis such as a wheel. 3. Telescopic partition according to claim 1 characterized in that the guide means comprises a slide, a slide and a ball joint. 4. Telescopic partition according to claim 1 characterized in that the translation guide means further comprises the guide of the sliding pivot, a complementary lateral guide remote guide pivot and allowing the pivoting of a panel in a plane parallel to said panel . 5. Telescopic partition according to claim 4 characterized in that the complementary guide is obtained by the two faces facing a U-shaped part cooperating with the wall or an attached guide. 6. Telescopic partition according to any one of claims 1 to 3 characterized in that a removable locking piece 12 inverted double U comes to cap the upper edges of two panels. 9 7. Telescopic partition according to any one of claims 2 to 3 characterized in that the slide is embedded in the thickness of the panel. 8. Telescopic partition according to any one of the preceding claims characterized in that the ground support means is a wheel located towards the front of the panel. 9. Telescopic partition according to any one of the preceding claims characterized in that one of the extreme edges of the partition comprises means for attachment to a wall. IO.Telescopic partition according to claim 9 characterized in that the wall fixing means comprise a hinge. Telescopic partition according to Claim 4 or 5, characterized in that the complementary guide is remote from the guide of the sliding pivot. 12. Telescopic partition according to any one of the preceding claims characterized in that it comprises an additional lateral foot.