EP1790785A1 - Abdeckung mit mindestens zwei in einander verschiebbaren Abdeckmodulen - Google Patents

Abstract

The structure (1) has covering modules (M1, M2) overlapping each other and linearly deployed to totally/partially cover an area to be sheltered. Connection units are mounted between the modules for automatic linear deployment of the modules after releasing a retaining unit of the modules in overlapped position. The retaining unit has a traction rope (13) wound using a manual or motorized winch (14). The connection units have articulated arms (7, 8) in combination with an elastic unit (9) e.g. spring, chosen to exert a pushing force for deployment of the arms.

Description

The invention relates to the technical field of telescopic shelters especially for swimming pools and more generally for all types of areas to be covered and uncovered at will.

Essentially, this type of telescopic shelter is made from a structure comprising at least two cover modules mounted with linear sliding capacity to be nested within each other, in whole or in part, and to be deployed linearly to completely or partially cover the pool or other shelter.

Various technical solutions have been proposed to achieve this structure. For example, each cover module comprises at least two arches arranged for mounting panels, generally transparent or translucent. The arches of each module are generally secured to their base of straight profiles disposed substantially parallel to the ground. These straight profiles can be equipped themselves with running gear on the ground. Or, these rectilinear profiles can cooperate with guide rails fixed to the ground.

Most often, the deployment of the various modules from a folded position, corresponding to the release of the area to be housed, to a total or partial recovery position of said area, is performed manually by exercising a tensile force on the end module. This manual deployment operation is often painful to perform if we consider the weight of each module. It is also observed that, in the case of a swimming pool in particular, the traction force exerted manually from the end module can only be achieved from one of the edges of the pool, so that this tensile force is not directed in the axis of the whole structure, which can generate additional constraints.

In order to remedy these drawbacks, technical solutions have proposed motorizing the entire structure to allow the different modules to be moved. In addition to the fact that these solutions require a source of energy, the implementation means are complicated significantly increasing the costs of the entire structure. Risks of breakdowns can also appear. A solution of this kind emerges from the teaching of the patent FR 2.727.710 .
Operating problems can also occur under extreme weather conditions as the drive system is often outside the shelter and the rack and pinion systems required to allow the engine-driven modules to slide. It is therefore necessary to provide a special infrastructure.

The object of the invention is to remedy these disadvantages in a simple, safe, effective and rational manner.

The technical problem to be solved by the invention is to allow the automatic deployment of the various modules constituting the structure of a telescopic shelter of the type defined in the first part of claim 1, without being obliged to use means motorized and the resulting disadvantages.

This problem is solved by the features defined in the second part of claim 1.

Given the characteristics underlying the invention, it therefore appears that when the retaining means in the nested position of the different modules is released, the latter are automatically deployed under a thrust force exerted by the connecting means. It suffices to act on the retaining means to block, in the desired deployed position, the different modules.

The arms are hingedly mounted between two modules at two opposite ends.

In one embodiment, the elastic member or members may be integrated in the section of the arms, and consist either of jacks or springs.

To solve the problem posed to ensure the retention in the nested or partially deployed position of the various modules, the retaining means is a traction cable wound by means of a manual or motorized winch.

To solve the problem posed to perfectly integrate the various means to the structure, the connecting means between the different modules are arranged at their top, substantially in their middle part. Each cover module comprises at least two arches arranged for mounting panels, the connecting means being mounted between the arches of the two consecutive modules, inside the panels.

• la figure 1 est une vue en perspective d'une forme de réalisation donnée à titre indicatif nullement limitatif d'un abri télescopique ;
• la figure 2 est une vue en coupe longitudinale à caractère schématique de l'abri en position déployée des différents modules de la structure, selon une première forme de réalisation des moyens de liaison entre les modules ;
• la figure 3 est une vue correspondant à la figure 2 en position repliée des différents modules qui sont imbriqués les uns dans les autres ;
• la figure 4 est une vue semblable à la figure 2 montrant une autre forme de réalisation des moyens de liaison entre les différents modules ;
• la figure 5 est une vue correspondant à la figure 4 en position repliée des différents modules ;
• la figure 6 est, à une échelle plus importante, une vue en coupe partielle correspondant à la forme de réalisation illustrée figures 2 et 3 ;
• la figure 7 est une vue semblable à la figure 6 correspondant à la forme de réalisation illustrée aux figures 4 et 5 ;
• la figure 8 est, à plus grande échelle, une vue partielle en coupe longitudinale de l'extrémité d'un module ;
• la figure 9 est une vue partielle en perspective des moyens de liaison entre les différents modules selon la forme de réalisation illustrée aux figures 2 et 3.

The invention is described below in more detail with reference to the figures of the accompanying drawings, in which:

• Figure 1 is a perspective view of an embodiment given by way of non-limiting indication of a telescopic shelter;
• Figure 2 is a schematic longitudinal sectional view of the shelter in the deployed position of the various modules of the structure, according to a first embodiment of the connecting means between the modules;
• Figure 3 is a view corresponding to Figure 2 in the folded position of the various modules which are nested in each other;
• Figure 4 is a view similar to Figure 2 showing another embodiment of the connecting means between the different modules;
• Figure 5 is a view corresponding to Figure 4 in the folded position of the different modules;
• Figure 6 is, on a larger scale, a partial sectional view corresponding to the embodiment illustrated in Figures 2 and 3;
• Figure 7 is a view similar to Figure 6 corresponding to the embodiment illustrated in Figures 4 and 5;
• Figure 8 is, on a larger scale, a partial view in longitudinal section of the end of a module;
• Figure 9 is a partial perspective view of the connecting means between the different modules according to the embodiment illustrated in Figures 2 and 3.

In a manner perfectly known to those skilled in the art, the telescopic shelter is made from a structure (1) comprising a plurality of covering modules (M1), (M2), .... The various modules (M1) , (M2), ...., are mounted with linear sliding capacity guided to be nested in one another, in whole or in part, and deployed linearly to allow the total or partial recovery of a pool (P) for example. Of course, this telescopic shelter can be used for covering any type of area.

According to an illustrated embodiment, each module (M1), (M2), .... comprises at least two arches (2) and (3) arranged for mounting panels (4) of any material, in particular transparent or translucent . The arches (2) and (3) of each module are secured at their base, straight rectilinear profiles (5) very substantially parallel to the ground. These profiles (5) can receive ground rolling means (6) for the linear sliding of the various modules (M1), (M2), etc. It should also be noted that the different modules can cooperate with guide means as far as possible. and as linear sliding. Advantageously, the entire structure is of the type defined in the patent application FR 05.50980 not yet published.

According to a characteristic at the base of the invention, the different modules (M1), (M2), ... are connected in pairs by connecting means able to exert a thrust force to cause concomitantly, the automatic deployment of the different modules. This automatic deployment is performed after releasing a means for retaining the modules in the nested position. To achieve this function, various embodiments can be envisaged.

In FIGS. 2, 3, 6 and 9 in particular, the connecting means of the various modules (M1), (M2), ... are constituted by articulated arms (7) and (8) in combination with at least one elastic member (9). The elastic member (s) (9) are selected to exert the thrust force necessary for the deployment of the arms (7) and (8) and consequently the modules (M1), (M2), .... For example these elastic means (9) may consist of gas cylinders, springs, etc.

One end (7a) of the arm (7) is articulated at one end of the module (M1), at the arch (2) for example, while its other end (7b) is hinged to one of the ends (8a) of the arm (8). In the same way, the other end (8b) of the arm (8) is articulated to the other end of the module (M2), for example at the arch (2). Referring to Figure 6 which shows in more detail the articulation of the arm (8) of the module (M1) for example on a yoke (10) integral with the hoop (2), and the articulation of the arm (7) the other module (M2) on another yoke (11) integral with the same arch (2). Advantageously, the elastic member (s) (9) are mounted substantially in the middle part of the arms (7) and (8) and can be integrated in the cross section of the latter. Note that the yokes (10) and (11) are advantageously arranged substantially at the top of the arches (2) for example in their middle part and inside the panels (4).

According to the embodiment illustrated in FIGS. 4 and 5, the thrust force necessary for the automatic deployment of the modules (M1), (M2),..., Is obtained by means of elastic straps (12). The elastic straps (12) are mounted between two modules in the tension position corresponding to their deployment. For example, the straps (12) are mounted between the hoops of two consecutive modules, as is apparent from the mounting example illustrated in FIG. 7.

As indicated above, the automatic deployment of the various modules is performed when the retaining means in the nested position of these modules is released. The retaining means may consist of a traction cable (13) wound by means of a winch (14), manual or motorized, as shown schematically in FIGS. 2 and 3.

In the case of a motorized winch, the power supply of the latter can be achieved, for example, by means of a solar panel.

The advantages are apparent from the description.

Claims (8)

Structure (1) constituting a shelter and comprising at least two covering modules (M1), (M2), ...., capable of being nested within each other, in whole or in part, and deployed linearly, to allow the total or partial covering of an area to be housed, the sliding module or modules (M1), (M2), .... cooperating with the ground by means of rolling or sliding elements,
characterized in that connecting means are mounted between the different modules to allow their automatic linear deployment in the release position of a retaining means (13) - (14) of said modules in a nested position, said connecting means being constituted by articulated arms (7) and (8) in combination with at least one elastic member (9) selected to exert a thrust force for the deployment of said arms (7) and (8). Structure according to claim 1, characterized in that the arms (7) and (8) are mounted in an articulated manner between two modules at two opposite ends. Structure according to claim 1, characterized in that the elastic member (s) (9) are integrated in the section of the arm (7) and (8). Structure according to any one of claims 1 to 3, characterized in that the elastic member (s) (9) consist of cylinders. Structure according to any one of claims 1 to 3, characterized in that the elastic member (s) (9) consist of springs. Structure according to claim 1, characterized in that the retaining means is a traction cable (13) wound by means of a winch (14) manual or motorized. Structure according to claim 1, characterized in that the connecting means between the different modules are arranged at their vertex, substantially in their middle part. Structure according to claim 1, characterized in that each covering module comprises at least two arches (2) and (3) arranged for mounting panels (4), connecting means (7) - (8) or (12) ) being mounted between the arches of the two consecutive modules, inside the panels.

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