FR2914983A1 - Decoration system for e.g. decoration of facade of building, has controlling circuit for automatically connecting light sources to electrical network, while battery does not provide sufficient voltage for supplying light sources - Google Patents

Abstract

The system has a wind energy unit (2) for transforming the wind kinetic energy into the electrical energy permitting charging of a battery (3), where the battery supplies light sources (11) e.g. incandescent lamp or LED. A controlling circuit is used for automatically connecting the light sources to the battery, while the battery provides the sufficient voltage for supplying the light sources. The controlling circuit is used for automatically connecting the light sources to an electrical network, while the battery does not provide the sufficient voltage for supplying the light sources.

Description

Description The present invention relates to a decoration system

  having a luminous decor able to be fed alternately by the voltage of the electrical network and by a battery recharged by a wind device.

  It relates to the technical field of power supply devices of luminous decorations. The invention applies particularly, but not exclusively, to luminous decorations that can be used day and night, temporarily or permanently, such as those traditionally installed for parties or other events. It can however find many applications, for example in the field of advertising, for the animation of commercial windows, or for the decoration of building facades.

  During end-of-year celebrations or other celebrations, it is common practice to employ luminous decorations consisting of a succession of light sources spaced apart on a power supply cable. These luminous decorations are commonly used in crossing streets (in festoons), in highlighting buildings, or in dressing candelabra, columns or trees. The light sources must in principle be lit every night for several hours in a row.

  In general, these decorations comprise a power supply device equipped with an electrical connection connected to the electrical network and able to power the light sources. Depending on the number of light sources and the power needed to illuminate them, a direct power supply can quickly become expensive. In addition, if for any reason the power grid is damaged (damage in a central - 2

  electric, network cut, maintenance, ...), the light sources are extinguished so that the aesthetic appearance of the decor deteriorates.

  In view of the disadvantages of the prior art, the main technical problem that the invention aims to solve is to be able to supply the light sources of a luminous decoration in a less expensive and more reliable way than the solution using exclusively the energy of the electrical network. . Another object of the invention is to provide a luminous decoration system equipped with a power supply device that can be easily installed on poles and / or facades type supports.

  The technical solution proposed by the invention is a decoration system comprising a luminous decoration on which several light sources are arranged, the latter being arranged with a power supply device equipped with an electrical connection connected to the electrical network. This decorative system is remarkable in that the power supply device further comprises: a wind device configured to convert the kinetic energy of the wind into electrical energy for recharging a battery capable of supplying said light sources; a control circuit configured to automatically connect said light sources to said battery as long as the latter supplies a voltage sufficient to power said light sources, and to automatically connect said light sources to said electrical network as said battery does not deliver a voltage of sufficient nutrition. These technical characteristics make it possible to connect the light sources simply and efficiently, alternately on the battery and on the electrical network.

  Other advantages and features of the invention will become more apparent upon reading the description of a preferred embodiment which follows, in

  reference to the accompanying drawings, carried out as indicative and non-limiting examples and in which: - Figure la is a schematic front view of the decoration system object of the invention, - Figure 1b is a schematic sectional view according to the invention, the light sources being fed by the battery, - Figure 2b is a schematic diagram. the power supply device of Figure 2a, the light sources being powered by the power grid.

  With reference to FIGS. 1a and 1b, the decoration system which is the subject of the invention comprises a luminous decoration 1 on which several light sources 11 are arranged. The luminous decoration 1 is advantageously formed by a metal or plastic structure 10, whose contours can represent a tree, a star, a bell, a character, an advertising message, etc. The shape of the luminous decoration 1 is advantageously defined according to the place where it is installed and / or the event to be celebrated. The structure 10 is advantageously equipped with fastening elements 12 for holding it in position on a post 7 and / or a facade. The pole fastener is advantageously made by strapping. It is also possible to use a fixing device of the type described in patent FR 2 781 258 filed by the Applicant and comprising a fixed element forming a slide permanently mounted on a post 7 or a frontage and on which slides, and may be immobilized by screwing, a removable element consisting of a jaw fixed on the structure 10 by means of a locking plate. The fixing on facade can also be carried out by means of carabiners or special nails arranged on the facade and in which

  Positioning rings or cables arranged on the structure 10 are positioned.

  The light sources 11 may be of the firedamp garlands type formed by a series of small light bulbs interconnected by power supply wires. Depending on the geometry of the contours of the structure 10, it is also possible to use rigid tubes of the neon tube type. It is also possible to use light tubes consisting of flexible and transparent conduits, and containing many light sources of small dimensions. The light sources 11 used may be incandescent lamps or light-emitting diodes (LEDs). The latter operate at very low voltage, typically at 12 volts, 24 volts, but also at 230 volts, which allows for mounting directly on the power grid. The light sources 11 are arranged with a power supply device equipped with an electrical connection connected to the electrical network 9. In a manner known to those skilled in the art, in the case where the light sources 11 operate at 12 volts or 24 volts, a transformer 90 is used downstream of the electrical network 9 (FIGS. 2a and 2b). For example, the transformer 90 makes it possible to deliver a voltage of 12 volts when the electrical network 9 delivers a voltage of 230 volts. The characteristics of the voltage source (current / power) depend on the supply voltage of the light sources 11. The voltage source can also be coupled with a programmer to animate the illumination of the light sources 11.

  With reference to the appended figures, the power supply device also comprises a wind generator 2 configured to recharge a battery 3 able to power the light sources 11.

  Aeolian device 2 makes it possible to transform a wind energy -typically the kinetic energy of the wind - into electrical energy. It is composed of one or more wind turbines of the type known to those skilled in the art. In practice, a wind turbine with blades having a diameter of between 10 cm and 100 cm is used, which makes it possible to recharge a battery of 12 volts / 18 Ah. However, these quantitative characteristics are not limiting and depend on the type and number of wind turbines employed and the characteristics of the battery 3. The wind turbine device 2 makes it possible to generate free electric energy.

  In addition, this solution is completely independent of the operation of the electricity network 9, the power supply of the light sources 11 can depend only on the voltage delivered by the battery 3.

  A control circuit 4 is provided for controlling the supply of the light sources 11 and automatically selecting the battery 3 or the electrical network 9 as a voltage source. This control circuit 4 is shown schematically in Figures 2a and 2b and described in more detail in the following description.

  According to an advantageous characteristic of the invention shown in FIGS. 1a and 1b, the various components of the power supply device are arranged on an independent support 5. Preferably, the autonomous support 5 is a rigid structure made of metal elements plastics or wood assembled by welding, gluing or any other method suitable for the skilled person. The wind turbine device 2 is preferably fixed on a panel 20 integral with the autonomous support 5. Positioning elements 52 are advantageously provided in such a way as to be able to position said autonomous support 5 on a post 7 and / or a facade and to optimize the holding in position. of said autonomous support. In the case where the autonomous support 5 is fixed on a post 7, the positioning elements 52 advantageously have a concave shape -6

  complementary to the shape of said post. In the case where the stand-alone support 5 is fixed against a facade, the positioning elements 52 advantageously have a flat shape.

  The autonomous support 5 is preferably equipped with fasteners on post 7 and / or on the facade. The pole fastener is advantageously made by strapping. As represented in FIGS. 1a and 1b, arches 50 are fixed to the independent support 5, metal strips 51 passing in said arches and encircling the post 7. It is also possible to use a fixing device of the type described in the patent FR 2.781.258 and comprising a fixed element forming a slide permanently mounted on a post 7 ù or a facade ù and on which slides, and can be immobilized by screwing, a removable element consisting of a jaw fixed on the independent support 5 to by means of a locking plate.

  The fixing on the facade can also be carried out by means of carabiners or special nails arranged on the facade and in which are positioned fastening rings or cables arranged on the independent support 5.

  The wind turbine device 2 can be mounted movably on the autonomous support 5, a motorization device arranged with said wind turbine device being configured to move the latter according to the wind direction. In this way, the wind device 2 will be permanently oriented in the wind direction, which optimizes the energy efficiency of the whole.

  Referring to Figures 1a and 1b, the control circuit 4 and the battery 3 are advantageously arranged in a housing 8 so as to protect them against external aggressions (rain, dust, ...). The casing 8 is fixed temporarily or permanently on the autonomous support 5, preferably under the panel 20 so that it does not interfere with wind uptake by the wind device 2.

  Referring now to FIGS. 2a and 2b, the control circuit 4 advantageously comprises: a first relay 41 having a contact 410 at two positions 410a and 410b, one of the positions 410a being connected to the battery 3. The control 411 of the first relay 41 is permanently connected to the electrical network 9 so that the contact 410 is always connected to the position 410a connected to the battery 3, • a second relay 42 having a contact 420 at two positions 420a and 420b. The position 420a is connected to the battery 3 and the position 420b is connected to the electrical network 9. The control 421 of the second relay 42 is connected to the output 412 of the first relay 41 so that the contact 420 can switch from one position to the other according to the voltage of said battery, the output 412 of said second relay being connected to the light sources 11. When the kinetic energy of the wind is sufficient, the wind device 2 recharges the battery 3 (dashed arrows in Figure 2a) . As long as the voltage delivered by the battery 3 is sufficient, the control 421 of the second relay 42 is energized via the first relay 41, which has the effect of orienting the contact 420 to the position 420a (FIG. 2a). The light sources 11 are then powered by the battery 3. When the voltage delivered by the battery 3 becomes insufficient or zero, the control 421 of the second relay 42, via the first relay 41, is no longer energized, which has effect of orienting the contact 420 to the second position 420d (Figure 2b). The light sources 11 are then powered by the electrical network 9. Indicator lights can be provided at the relays 41 and 42 so as to indicate to the operator which energy source is used. For example, it is possible to provide a green diode to indicate that the energy used comes from the battery 3 and a red diode in the case where the energy used comes from the electrical network 9.

  The control circuit advantageously comprises a regulator 43 disposed between the battery 3 and the first relay 41. This regulator 43 is configured

  to cut off the power supply of the first relay 41 when the voltage delivered by the battery 3 is no longer sufficient to power the light sources 11. For light sources 11 operating at 12 volts, the cutoff threshold value is between 11 volts and 12 Volts. The regulator 43 thus avoids a deep discharge of the battery 3. In practice, when the battery 3 delivers a voltage lower than the threshold value, the regulator 43 automatically cuts the link connecting said battery to the first position 410a of the first relay 41. then, the control 421 of the second relay 42 is no longer energized, which has the effect of orienting the contact 420 to the second position 420d (Figure 2b). The light sources 11 are then powered by the electrical network 9. The regulator 43 is also connected to the position 420a of the second relay 42 so that the battery 3 can supply the light sources 11 when the control 421 of said relay is energized (Figure 2a). The regulator 43 is configured to deliver a supply voltage from the battery 3 which is almost constant. The regulator 43 also serves to regulate the charge of the battery 3 in low and high values. In this way, regardless of the amount of electrical energy produced by the wind turbine device 2, the battery 3 is recharged substantially at a constant voltage. When the wind turbine device 2 does not produce a sufficient amount of energy to recharge the battery 3, the regulator 43 cuts the connection between said battery and the wind turbine device.

  Referring to FIGS. 2a and 2b, a bipolar relay 44 (for example 230 Volts) arranged at the output 422 of the second relay 42. This relay 44 makes it possible to cut off the power supply of the light sources 11 via a control by clock 45 (for example 230 Volts) or other. The clock control 45 makes it possible to control the supply time of the light sources 11 independently of the voltage source used and makes it possible to avoid, for example, the illumination of the luminous decoration during the day.

Claims (7)

claims   1. Decoration system comprising a luminous decoration (1) on which several light sources (11) are arranged, the latter being arranged with a power supply device equipped with an electrical connection connected to the electrical network (9), characterized in that said feed device further comprises: • a wind turbine device (2) configured to convert the kinetic energy of the wind into electrical energy for recharging a battery (3) capable of supplying said light sources, • a a control circuit (4) configured to automatically connect said light sources to said battery as long as said battery provides sufficient voltage to power said light sources, and to automatically connect said light sources to said power grid as long as said battery does not provide sufficient voltage for supplying said light sources.   2. Decorating system according to claim 1, comprising an independent support (5) configured to receive the various constituent elements of the power supply device, said support being equipped with fixing elements (50, 51) on a pole (7). and / or on facade.   3. Decoration system according to claim 2, wherein the wind turbine device (2) is arranged on a panel (20) movably mounted on the independent support (5), a drive device arranged with said wind turbine device being configured from to move it according to the direction of the wind.   4. Decoration system according to one of the preceding claims, wherein the control circuit comprises: a first relay (41) having a contact (410) at two positions (410a, 410b), one of the positions (410a) being connected to the battery (3), the control (411) of said first relay (41) being permanently connected to the electrical network (9) so that said contact (410) is always connected to the position (410a) connected to said battery (3), • a second relay (42) having a two-position contact (420) (420a, 420b), one of said positions (420a) being connected to the battery (3) and the other position (420b) being connected to the power grid (9), the control (421) of said second relay (42) being connected to the output (412) of the first relay (41) so that said contact (420) can switch from a position (420a) to the other (420b) according to the voltage of said battery, the output (412) of said second relay being connected to the light sources (11).   5. Decoration system according to claim 4, wherein the control circuit (4) comprises a regulator (43) disposed between the battery (3) and the first relay (41), said regulator (43) being configured to cut the supplying said first relay when the voltage delivered by said battery is no longer sufficient to power the light sources (11).   6. Decorating system according to one of the preceding claims, wherein the light sources (11) are of the firefly garlands type formed by a series of small light bulbs interconnected by supply son or tube-type tubes neon or luminous tubes consisting of flexible and transparent conduits, and containing numerous light sources of small dimensions.   7. Decoration system according to one of the preceding claims, wherein the light sources (11) are incandescent lamps or light emitting diodes (LEDs).