EP1577607A1 - Modular lighting balloon - Google Patents

Abstract

The balloon has a standard module (1) having an inflatable envelope of less thickness containing a lighting device. The envelope of the module has external connection units (7a, 7b) intended to cooperate, by juxtaposition, with external complementary connection units of another identical standard module for forming the balloon. The balloon has volume and lighting power proportional to number of modules.

Description

Technical field of the invention

The invention relates to an illuminating balloon comprising at least one module standard having an inflatable envelope of flexible material of small thickness, containing a lighting device, means for supporting and feeding the lighting device and means for filling the envelope with a fluid.

State of the art

An illuminating balloon is constituted by a standard module comprising generally an inflatable envelope of flexible material of small thickness, containing a lighting device, means for supporting and feeding the lighting device and means for filling the envelope with a fluid. In the case of a non-waterproof lighting balloon, the fluid is generally air, as described in FR-A-2754040. In the case of a balloon illuminant described, for example, in document FR-A-2719228, the balloon is filled by a lift gas, including helium. Such illuminating balloon may be, for example, spherical, elliptical or tubular.

The power of the illumination ball lighting depends on the power of the bulb and internal volume. Depending on the applications sought, it is necessary to vary the power of the lighting balloon. A first solution is to change the size of the illuminating balloon, but this requires the purchase of several types of balloons, larger or smaller, which generates significant costs. Another solution is to modify the capacity of the lighting device of the balloon, but this causes problems of handling, adjustment and especially safety.

Object of the invention

The object of the invention is to remedy these drawbacks and is intended to realization of an illuminating balloon of modular structure with variable power.

According to the invention, this object is achieved by the fact that the envelope of each module standard comprises external connection means intended to cooperate, by juxtaposition, with additional external connection means of at least one identical standard module, to form an illuminating balloon having volume and lighting power proportional to the number of modules juxtaposed standards, said external connection means making it possible to juxtaposing the standard modules according to a plurality of form assemblies different.

According to a development of the invention, each standard module is constituted by two adjacent flat lateral faces, defining a first angle of assembly, and by a transverse surface, connecting the two lateral faces planes on their entire outline and defining with them second and third assembly angles.

According to another development of the invention, the connection means external parts of each standard module include connection sides, fixed on the contour of the flat lateral faces, and means of transverse connections, fixed on the transverse surface.

According to a preferred embodiment, the two plane lateral faces are substantially elliptical in shape, the transverse surface being a surface curve of revolution.

Brief description of the drawings

Les figures 1 et 2 sont des vues, respectivement de dessus et en perspective, du mode particulier de réalisation d'un module standard d'un ballon éclairant selon l'invention.

Les figures 3a à 11a représentent, en perspective, différentes formes d'un ballon éclairant comportant plusieurs modules standards selon les figures 1 et 2. Les figures 3b à 11 b représentent, en vue de dessus, les différentes formes du ballon éclairant selon les figures 3a à 11a.

Other advantages and features will emerge more clearly from the following description of the particular embodiment of the invention given by way of non-limiting example and shown in the accompanying drawings, in which:

Figures 1 and 2 are views, respectively from above and in perspective, of the particular embodiment of a standard module of an illuminating balloon according to the invention.

FIGS. 3a to 11a show, in perspective, different forms of an illuminating balloon comprising several standard modules according to FIGS. 1 and 2. FIGS. 3b to 11b show, in plan view, the different shapes of the illuminating balloon according to FIGS. 3a to 11a.

Description of the particular embodiment

In FIGS. 1 and 2, a standard module 1 of an illuminating balloon comprises two flat side faces 2a, 2b adjacent defining a first angle The two lateral faces 2a, 2b are connected, on the set of their outline, by a transverse surface 4, which defines, with both sides 2a, 2b, a second 5a and a third 5b assembly angles.

The angle between the two plane lateral faces 2a, 2b is chosen so that that the standard module 1 has substantially the shape of a hexagon quarter.

The first assembly angle 3 preferably comprises a chamfer 6 forming a flat surface at this first assembly angle 3. flat surface has the main function of promoting the assembly of several standard modules 1, in the case of an illuminating balloon represented in FIGS. at 11.

The two lateral faces 2a, 2b have substantially the shape of an ellipse and the transverse surface 4 is a curved surface of revolution, which follows the contour plane faces 2a, 2b. For example, the length 1 of the minor axis of the ellipse is of the order of 2.2m and the length 2 of the major axis of the ellipse is the order of 2.5m (Figure 2).

The standard module 1 comprises external external connection means 7a and transverse external connection means 7b, intended to cooperate with external connecting means 7a, 7b complementary one or a plurality of identical standard modules 1 associated with the first. All standard modules 1 are then assembled according to a predefined form, for example those shown in Figures 3 to 11 to form a illuminating balloon with a greater or lesser overall volume. For exemple, the external connection means 7a, 7b may be composed of zipper chains.

The lateral connection means 7a are fixed on the entire contour lateral faces 2a, 2b and the transverse connection means 7b are fixed on the curved surface 4, preferably at the ends of the small axis and the major axis of the lateral faces 2a, 2b. Standard module 1 comprises thus three zones of transversal connection, namely on both sides of the small axis of the lateral faces 2a, 2b and at the end opposite the chamfer 6 of the large axis of the lateral faces 2a, 2b.

In FIGS. 3a to 7a and 3b to 7b, various examples of assembly of the balloon illuminating are represented. Standard modules 1 are connected to each other following others by their plane faces 2a, 2b, the flat face 2a of a module standard 1 coming into contact with the plane face 2a of the standard module 1 next. The standard modules 1 are therefore aligned in a quincunx, in order to forming a substantially cylindrical lighting balloon. These are the means 7a which are used to make the connection between the different standard modules 1.

It is possible to associate two illuminating balloons according to FIGS. 6a and 6b for constitute an illuminating balloon according to Figures 7a and 7b. The connection is then performed by the transverse connection means 7b surfaces curves 4, located at the major axis of the planar faces 2a, 2b.

In FIGS. 9a and 9b, six standard modules 1 are connected to form a lighting balloon hexagonal shape. Standard modules 1 are connected by their plane faces 2a, 2b, the plane face 2a of a standard module 1 coming from in contact with the flat face 2b of the following standard module 1. Modules standards 1 are thus connected by their lateral connection means 7a.

As shown in FIGS. 10a, 10b and 11a, 11b, it is possible to create a illuminating balloon with a more complex shape, to increase its power lighting. For example, we associate two assemblies according to the figures 9a and 9b, to form a double lighting balloon with hexagons superposed and connected by their transverse connection means 7b, located at the minor axis of the planar faces 2a, 2b (Figures 10a, 10b). It is thus possible to superpose several hexagons according to the same principle, for to obtain an illuminating balloon of high power, with a relatively high important.

In FIGS. 11a and 11b, an assembly according to FIGS. 9a, 9b is inserted at heart of another assembly done beforehand, in order to form a balloon still illuminating substantially hexagonal shape, with a width relatively important. The two assemblies are then connected by their transverse connecting means 7b, located at the major axis of the side faces 2a, 2b.

In all cases, the internal volume of a standard module 1 being constant, the juxtaposition of all standard modules 1 allows you to increase the volume overall illumination balloon and, therefore, its lighting power. grace external connection means 7a, 7b present on each face of a standard module 1, the different configurations of the standard modules 1 juxtaposed thus make it possible to optimize the modularity of the illuminating balloon, know its volume and lighting power, offering a multitude of possibilities of assemblies of different forms. The main advantage of this illuminating balloon therefore resides in the fact that the power of the flashing balloon is proportional, for each application, to the number of standard modules 1 choose.

The invention is not limited to the embodiment described above. In particular, the zippers may be replaced by other quick-closing means, in particular with eyelets or ribbons detachable hooking. The size of the standard module 1 may vary depending on the applications and the side faces 2a, 2b of the standard module 1 can take another shape, for example, square, rectangular or round.

Moreover, each standard module 1 may comprise means fluid exhaust, especially in the case of a standard module 1 hermetic. It is also possible to provide a standard module 1 with a reflective sheeting of light, in order to orient the lighting and adjust the lighting power of each standard module 1.

Claims (9)

Illuminating balloon comprising at least one standard module (1) having an inflatable envelope of flexible material of small thickness, enclosing a lighting device, means for supporting and supplying the lighting device and filling means for the lighting device. fluid envelope, illuminating balloon characterized in that the envelope of each standard module (1) comprises external connecting means (7a, 7b) intended to cooperate, by juxtaposition, with the external connection means (7a, 7b) complementary of at least one standard module (1) identical, to form an illuminating balloon having a volume and a lighting power proportional to the number of juxtaposed standard modules (1), said external connection means (7a, 7b) allowing juxtaposing the standard modules (1) according to a plurality of assemblies of different shapes. Illuminating balloon according to claim 1, characterized in that each standard module (1) consists of two adjacent plane lateral faces (2a, 2b), defining a first assembly angle (3), and a transverse surface (4). , connecting the two plane lateral faces (2a, 2b) over their entire contour and defining with them second (5a) and third (5b) assembly angles. An illuminating balloon according to claim 2, characterized in that the first joint angle (3) of each standard module (1) has a chamfer (6) so as to form a planar surface at the first joint angle ( 3). Illuminating balloon according to one of Claims 2 and 3, characterized in that the external connection means (7a, 7b) of each standard module (1) comprise lateral connection means (7a), fixed on the contour of the lateral faces. planes (2a, 2b), and transverse connecting means (7b), fixed on the transverse surface (4). Illuminating balloon according to any one of claims 2 to 4, characterized in that the two plane lateral faces (2a, 2b) are substantially elliptical in shape, the transverse surface (4) being a curved surface of revolution. Illuminating balloon according to claim 5, characterized in that the length (1) of the minor axis of the ellipse is of the order of 2.2m and the length (2) of the major axis of the ellipse is order of 2.5m. Illuminating balloon according to claim 6, characterized in that the transverse connecting means (7b) are fixed on the curved surface (4) of each standard module (1), at the minor axis and the major axis of the flat lateral faces ( 2a, 2b). Lighting balloon according to any one of claims 1 to 7, characterized in that the external connecting means (7a, 7b) are composed of zipper chains. Illuminating balloon according to any one of claims 1 to 8, characterized in that each standard module (1) comprises means for exhausting the fluid.

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