FR2899775A1 - Electrical device for distributing light below solar parasol, has case with branches intercalated between ribs of parasol during closing of parasol and including ends on which orifices corresponding to light sources are located - Google Patents

Abstract

The device (1) has a case (4) including branches intercalated between ribs (7) of a parasol (2) during closing of the parasol. The case is fixed along a mast (5) of the parasol, and has a battery recharged using solar energy or power grid. The branches have light sources e.g. LED, triggered by a switch, and the branches have ends on which orifices corresponding to the light sources are located. A plate (3) has a solar sensor fixed above summit of the parasol.

Description

1 ELECTRICAL DEVICE FOR UMBRELLA

  The present invention relates to an electrical device for being adapted to an umbrella.

  This electrical device is mainly intended to ensure the lighting of the underside of the umbrella and its direct environment when the level of darkness requires. This electrical device also offers the particularity of being able to operate thanks to a solar energy making it possible to accumulate energy thanks to an accumulator present in the device. Thus, this type of sunshade called solar parasol offers the particularity of not requiring an electrical outlet providing 220 V and close to the immediate environment of the sunshade. The simple fact of not requiring an electrical outlet, brings a technical and aesthetic simplicity because, in this case, no wire is dragged between the top of the umbrella where the lighting is located, the table where the occupants are, the foot of the umbrella and the immediate surroundings of the parasol. A solar parasol also offers additional security, especially for all parasols close to a body of water such as, for example, a pond, a pond, a river, a pool or a seaside. In the state of the art, the lighting systems proposed under the current umbrellas are essentially arranged under the umbrella fixed for example to the mast 5 after the sunshade is open. However, if the umbrella must be folded on itself along the mast 5 during the day for a climatic reason such as the wind for example, or at the end of a party it must also be folded to be stored or to avoid a deposit of moisture, there is in these cases necessary to dismantle the lighting which prevents the correct folding of the parasol. However, this operation can prove to be cumbersome and tedious for an individual and also for a professional (restaurant owner, hotelier, cafe maker) who often has many umbrellas and wishes to set them up with the utmost speed. In addition, there is the problem of storage in acceptable conditions of these lights. In the state of the art, the patent FR2678811 presents a solar parasol multi-functions. This patent teaches, in addition to a conventional power supply type 220 V, the ability to provide electrical energy by a multitude of solar collectors located on the cover of the umbrella.

  The light source of the parasol is, in this case, located in the very heart of the mast. The center of the mast 5 is hollow and offers free light rays through its circumference in the form of a perforated grid. The lighting is then rather like a mast 5 diffusing a halo of light under an umbrella and not as a light source oriented towards occupants located under this umbrella and wanting to obtain sufficient clarity. In addition, solar energy is recovered by sensors built into the umbrella fabric. These sensors are stored on accumulators present in a specific foot of this same umbrella. The foot of the parasol is imposed. A wired connection is required between the base of the parasol and the lighting located at the masthead of the parasol. The solar umbrella thus designed is complex to manufacture and to implement and imposes a high manufacturing cost. This is a high investment, individually, for an individual and also for a professional for several umbrellas.

  In addition, there is another problem: most potential users of umbrellas already have it. It seems hardly acceptable for users to have to invest in a second umbrella for night lighting. The invention proposes to solve all of these problems.

  The electrical device of the invention makes it possible to set a traditional umbrella. This electrical device is simple to implement and it allows more, to adapt to different models of existing umbrellas. These models vary in fact mainly according to the diameters of the mast 5 of the umbrella and the number of whales ensuring the support of the fabric. It also adapts according to whether the umbrella poles are full or hollow. The electric device of the invention allows to go from one umbrella to another while ensuring deployment and folding of the umbrella without requiring, at each maneuver, the user to disassemble the electrical device. 3 However, the orientation of the light rays is mainly in the direction of the foot of the umbrella, so to the possible seated. The installation of the electrical device of the invention requires no technical particularity on the parasol apart from those present on the electrical device itself, and therefore no modification of the same umbrella does not survive once the device removed. As for the accumulators of the electrical device of the invention, they are rechargeable by solar energy but also in a traditional way on 220 V. For this the batteries are extracted from the electrical device and load on a traditional housing independently of the device of the invention. It is therefore possible, in the absence of solar rays, to charge these same accumulators without the device and / or the sunshade being necessarily close to a traditional electrical source. The electrical device of the invention as we have seen previously is easy to implement is broken down into two parts: a part with a solar disc 3 placed at the top of the umbrella cloth and a second part in the form of a box attached to the mast. Fixing the device does not require any more specific tool for its installation. The invention therefore relates to an electric device for an umbrella characterized in that it comprises a housing with branches, branches interspersed between whales of the umbrella when closing the umbrella. The invention will be better understood on reading the description which follows and on examining the figures which accompany it. These are presented only as an indication and in no way limitative of the invention.

  Figure 1 shows an umbrella with the electrical device of the invention. Figure 2 shows a portion of the electrical device of the invention corresponding to the housing attached to the mast 5 of the umbrella. Figure 2b shows the housing of the electrical device, seen from above. Figure 3 shows a variant of the housing of the electrical device, seen from above. Figure 3b shows the housing of the electrical device seen from below. 4 Figures 3 c and 3 d: are shown the housing of the electrical device in line with the parasol's whales. Figure 4: is shown the portion of the solar disc 3 above the umbrella cloth.

  In Figure 1 is shown the electrical device of the invention 1 on a parasol 2. The electrical device 1 consists of two parts, a part 3 comprising a disc provided with at least one solar sensor, and a second part composed of a housing 4 attached to the mast 5 of the umbrella 2. The umbrella 2 has at the top of the mast 5 an upper nut 6 connecting all the whales 7 of the umbrella. Each of the whales 7 pivot about an axis 8 present on the upper nut 6. This pivot is exerted by the action of a first end of a counterwhale 9 each associated with a whale 7. Each against whale 9 has a second end connected to a lower sliding crown 10 along the mast 5.

  This lower crown 10 thus has a high position (H) along the mast 5 of the sunshade 2, this position corresponding to a maximum opening of the sunshade and a low position (B), this position corresponding to a folded position of the sunshade. Possibly depending on the inclination given to the fabric, intermediate positions are possible between these two extremes. The casing 4 of the electrical device of the invention takes place, meanwhile, on the mast 5 and above the lower ring 10 and, preferably, above its upper position (H). The counter-whales 9 thus pivot in two axes: an axis 11 present between the lower crown 10 and the end of a counter-whale 9, an axis 12 present between the junction of a whale 7 and a counter- whale 9. In Figure 1, the disc 3 is placed on the upper nut 6 so that an axis (A) centered on the mast 5 passes in its center and the cap 13 at the top of the umbrella, previously unscrewed , can be screwed up to keep the whole together. Connecting the first portion of the disc 3 of the electrical device 1 to the second portion of the housing 4 of the device, an electric wire 14 runs along the mast 5. This wire 14 passes below the web 15 located on the whales 12 by the gap available when the plug 13 is removed. The wire 14 passes under the fabric 15 and indifferently above or below the upper nut 6 to follow the mast 5 to the housing 4 of the electrical device. In Figure 2a, appears the entire housing 4 of the electrical device consisting of two half-shells respectively 4a and 4b associated with two half-bottoms respectively 16a and 16b. An electronic printed circuit 17 and rechargeable accumulators 18 are each respectively in a half-shell 4a and 4b. The housing 4 composed of the two half-shells 4a and 4b generally has a shape corresponding to a half-sphere whose apex is oriented towards the mast head 5 and whose cut portion, corresponding to the diameter of the corresponding sphere, is oriented towards the foot of the parasol. The axis of the umbrella mast 5 passes from the top of this half-sphere to the center of the surface corresponding to the diametrical section of the half-sphere.

  A volume corresponding to a cylinder whose axis coincides with that of the umbrella mast 5 is removed on the volume represented by the half-sphere. Thus, by cutting along the axis of this cylinder, the half-sphere still in two, we obtain two volumes corresponding, as an indication, to the two 20 half-shells 4a and 4b. In Fig. 2a, the surfaces corresponding to the portions leaning against the umbrella mast 19a and 19b of the two half-shells 4a and 4b each conform to the inner shape of a half-cylinder. Inside a half-shell against the inner wall of these surfaces 19a and 19b is slid longitudinally the printed circuit 17 in one of the half-shells and the rechargeable accumulators 18 in the other half-shell . The height of each half-shell corresponding to a quarter of a sphere is thus at least greater than the length of the printed circuit 17 or that of the rechargeable accumulators 18. The electric wire 14 corresponding to the connection of the solar disk 3 arrives by a hole drilled in the half-shell 4b where the rechargeable accumulators 18 are located. A second electrical wire 20 associates the printed circuit board 17 with the rechargeable accumulators 18, passing from one half-shell to the other, once the two half-hours have elapsed. 4a and 4b shells assembled around the mast 5, from below the housing 4 of the electrical device 1. This connection is achieved 6 through a male plug. The walls of the longitudinal sections 21a and 21b of the two half-shells 4a and 4b are assembled against each other by a system of magnets or of clips with a triangular portion ficha in a light of the half-shell associated thus allowing a disassembly and a simplified assembly. The casing 4 thus constituted is possibly applied more strongly to the mast 5 thanks to the presence of a screw (V) in a half-shell, this screw (V) bearing against the surface of the mast and thus avoiding the case possibly to slide along the mast. A screw using a non-metallic material makes it possible not to damage the surface of the mast. By a similar arrangement, the two half-bottoms 16a and 16b are clipped on the two half-shells once they are assembled. Indeed, as we have seen previously, it is necessary, beforehand to connect the printed circuit 17 rechargeable batteries 18. The two half-bottoms 16a and 16b precisely match the bottom surface of the device housing. Each half-bottom has openings 22a and 22b which allow the rays of the light sources to pass through. The light sources are therefore preferably fixed on the top of a semi-bottom so that it takes place inside a half-shell once the half-bottom attached to the half-shell. A small switch 23 fixed along the half-shell corresponding to the printed circuit will turn on or off all or only part of the light sources. In Figure 2b the two half-shells 4a and 4b are assembled.

  Thus, the complete casing 4 of the electrical device 1 is obtained. In order to obtain the branches 24 between which the ribs 7 are inserted, notches such as half-sphere quarters 25 are made all around this half-sphere shape. These cuts 25 are made such that they preserve a ring around the volume removed and symbolized by a cylinder and intended to receive the mast foot. The thickness of the ring is sufficient to receive both the printed circuit board and the rechargeable accumulators. FIG. 2b shows a housing 4 of the electrical device 1 corresponding to 6 branches 24 and 6 notches 25. In projection, the angular sector of each section is 60 for a branch and for a notch 25. This housing 4 is preferably fixed on an umbrella comprising 6 whales 7. Indeed each whale 7 takes place between each of the branches 24 at a notch 25. The inner diameter of the open cylinder formed by the housing 4 corresponds to the diameter of the mast 5 of the parasol. The most commonly used diameter is 38 mm. Nevertheless, according to a variant of the invention, half-collars creating an extra thickness inside the diameter of the half-shells slip inside each half-shell and make it possible to tighten the space available for the mast. 5 of parasol. In order to adapt to the different sections of parasol foot respectively of 38mm, 48mm and 56mm, the half-shells alone, then offers an initial fixing diameter for a parasol of 56mm. For the fixing of the housing 4 and the correct location of the projection of the axis of a whale 7 on the umbrella mast 5, a small ink pad, stuck on any whale and proposed with the electrical device 1 of the invention allows, beforehand, to mark the mast. Thus, thanks to this temporary mark applied to the umbrella mast, there is a half-shell so that the center of a notch 25 comes on this mark. However, the whales 7 of an umbrella are uniformly distributed throughout the circumference of a parasol in a given angular direction as the notches 25 and the branches 24 along the housing 4. Thus, a whale 7 taking place in a notch 25, all the other whales 7 take place in their respective notch when the umbrella is folded.

  In addition, each of the branches 25 of the casing 4 has an angle of inclination with respect to the mast 5 vis-a-vis the axis of the parasol substantially corresponding to that formed by a whale 7 closing along the sunshade mast 5. Thus, even a slight game of the upper nut 6 articulating each of the ribs 7 does not affect the good positioning of the ribs 7 between the legs 24 of the casing 4. In Figure 3a is shown a variant of the invention. This variant corresponds to a housing of the device comprising 3 branches 25. It allows the housing 4 of the electrical device to attach umbrellas with 4, 6 or 8 whales. The three branches 25 of the casing 4 are distributed in such a way that, regardless of the number of whales, they can all take their place between the branches of the casing 4. In addition, the width of a branch 24 must be sufficient in order to include a light source. A half-shell then has two branches and the other half-shell a single branch. A correct distribution of the whales between the branches, that is to say without a single whale comes hitting a branch of the housing 4 when closing the umbrella, imposes an angle of 105 between the two radial directions of the two branches located on a single and even half-hull. Each of these branches then has a radial direction forming an angle of 127.5 with the radial direction of the third branch located on the second half-shell. Figure 3b is shown below the housing of the device showing two half-bottoms 16a and 16b and the three locations 22 of the light sources. The orifices 22 corresponding to the light sources are all preferably located at the end of the branches 24, under the housing 4 and towards the masthead of the umbrella. Thus, the ray beam of the light source, eccentric with respect to the axis (A) of the umbrella mast, provides uniformly distributed illumination below the umbrella. This uniform distribution of all the light rays is further favored by the presence of the housing 4 of the electrical device at the mast head, near the top of the umbrella. In Figure 3b, alternatively, there is a separation 27 between two half-funds different from the separation 26 of the two half-shells. In Figure 3c, there is shown a top view of the projection of a casing 4 with 3 branches above 8 whales 7 of an open umbrella.

  In this case, the trace carried by the marker on the umbrella mast corresponds to a predetermined mark 28 located on the half-shell having two branches. This mark 28 is located between the two branches of the half-shell, so that an angle of 30 between a radial direction of one of the two branches is formed with the radial direction of the axis passing through the center of the casing 4 and the mark 28. In this way, a whale is placed logically at an angle of 30 relative to one of the branches and all others take place in naturally designated places. The same mark 28 is valid for positioning a whale 25 of an umbrella comprising a total of 4 whales. In Figure 3d, there is shown a top view of the projection of a casing 4 with 3 branches above 6 whales 7 of an open umbrella. In this case, the trace carried by the marker on the umbrella mast corresponds to a predetermined mark 29 located on the half-shell comprising two branches. This mark 29 is located between the two branches of the half-shell, so that an angle of 22.5 between a radial direction of one of the two branches is formed with the radial direction of the axis passing through the center of the housing 4 and the mark 29. In this way, a whale is logically placed at an angle of 22.5 relative to one of the branches and all the others take place in naturally designated places. The marks 28 and 29 for umbrellas respectively of 8 and 6 whales 7 are etched, beforehand, on a half-shell and are identifiable, for example, by type B8 and B6 inscriptions.

  Note that in both cases, 8 or 6 whales, two whales 7 take place between the two branches 25 located on a single half-shell. In these two cases, each of the whales forms an angle of respectively 30 and 22.5 with the radial direction of the nearest branch.

  The block formed by the two half-shells 4a and 4b and the two half-bottoms 16a and 16b is fixed on the mast by means of one or more hexagonal screwdrivers. FIG. 4 shows the second part of the electrical device, in this case the solar disc 3. At the center of this solar disc 3 3 is shown an opening 30 corresponding to the average diameter of a threaded rod situated at the top of the mast 5 and passing along the axis (A) in the heart of the mast. Thus, once the cap 13, located above the apex of the umbrella, unscrewed, the disc is inserted on this through the opening 30. Then, the cap 13 is screwed over the solar disc 3.

  FIG. 4 also shows, in projection, the circumference 31 of the plug 13. The diameter of this circumference is smaller than the diameter of the circumference 32 of the upper nut 6 located below the apex of the umbrella and on which the disc rests. 33. All around the solar disk 3, there are sensors 33 in the form of photocells for capturing solar energy. These cells are uniformly distributed throughout the circumference of the solar disc 3. The solar disc 3 with its photovoltaic cells can recharge the accumulators and produce a voltage of 12 V with an amperage of 1500 mA. The rechargeable accumulators then correspond to rechargeable batteries of type R6 also in 1500 MA / H. This solar energy is coupled with the housing 4 of the electrical device with a light source, preferably used in the invention, in the form of light-emitting diodes (LEDs).

  Thus, each light-emitting diode is placed at the level of the opening 22 present in the bottom of the housing 4. These light-emitting diodes make it possible to offer a long life expectancy and also have a high resistance to vibrations as well as to shear stresses. In fact, they respond, by their qualities, advantageously to the device of the invention. In addition, the light-emitting diodes consume very little energy and give off little heat which is very useful in the context of the invention. A light-emitting diode also has the advantage of offering a lighting efficiency higher than that of a normal incandescent lamp for which the luminous intensity is of the order of 12 to 20 Im / W, by providing a luminous intensity. in the order of 50 to 120 Lm / w or even up to 200 Im / w for the latest and most powerful light-emitting diodes.

  This intensity is amply sufficient to ensure perfect lighting for people under the umbrella. In addition, in a variant of the invention, the printed circuit may allow through a switch 35 with several notches to ignite a portion or all of the light emitting diodes.

  A variant of the invention may also provide for high openings 22h above the half-shells ce, to ensure not lighting people at the foot of the umbrella but a mood lighting on the canvas of the parasol . This type of lighting may be of a different intensity or color than that which illuminates the underside of the umbrella.

In addition, in one of the half-hulls, preferably the one comprising the electronic card 17, a mosquito-proof diffuser supplied with the electrical energy of the device can be adapted and allows the introduction of corresponding lemon platelets.

Claims (6)

  1 - Electric device (1) for an umbrella characterized in that it comprises a housing (4) with branches (24), the branches (24) being interposed between whales (7) of the umbrella during the closing of the Beach umbrella. 2 - electrical device (1) according to claim 1, characterized in that it comprises a solar disc (3) provided with a solar collector fixed above the top of the umbrella, and a housing (4) fixed along a mast (5) of the parasol. 3 - Electrical device according to claim 2, characterized in that the housing comprises means (4a, 4b, 16a, 16b) to be fixed on the mast (5), under an upper nut (6) of a mast head and above a lower crown (10) sliding on the mast (5) and connecting against the whales (9) of the umbrella. 4 - Electrical device according to one of claims 2 to 3, characterized in that the housing of the device comprises two half-shells (4a, 4b) nested one inside the other, the assembly obtained is blocked against the mast (5) umbrella. 5 - Electrical device according to claim 4, characterized in that the half-shells (4a, 4b) are closed around the mast (5) for mast diameters of 38mm, 48mm or 56mm. 6 -Dispositif electrical according to one of claims 2 to 5, characterized in that the housing comprises rechargeable accumulators (18) by solar energy and or by sector. 7 - Electrical device according to one of claims 1 to 6, characterized in that a branch (24) comprises a light source, for example composed of a light emitting diode. 8 - Electrical device according to one of claims 1 to 7 characterized in that it comprises a switch (23) for triggering the ignition of a light source. 9 - Electrical device according to one of claims 1 to 8 characterized in that it is removable. 10- Electrical device according to one of claims 1 to 9 characterized in that it comprises a mosquito repellent plate.11-Electrical device according to one of claims 1 to 10 characterized in that it comprises three branches for itself. to fix indifferently on parasols containing 4, 6 or 8 whales.