FR3036129A1 - SOLAR BUILDING AND / OR SOLAR OCCULTATION DEVICE AND METHOD FOR SUPPLYING ELECTRICAL ENERGY - Google Patents

Abstract

The invention relates to a device for closing a building and/or for solar shading (1, 2, 3), of the rolling or swinging shutter, sunshade, blind, awning or similar type comprising an electric motor (4) with low voltage direct current less than 30 volts and main power supply means (5) of said motor (4) comprising at least one battery (6) connected to said motor (4), characterized in that it further comprises means recharging of the battery or batteries (6) provided with connection means (7) to the power supply (8) of a building. The invention also relates to a method for supplying electrical energy to a device for closing a building and/or for solar shading (1, 2, 3), such as a rolling or swinging shutter, sunscreen, blind, awning or similar, comprising a low voltage direct current electric motor (4) of less than 30 volts and main electrical supply means (5) of said motor (4) comprising at least one battery (6) connected to said motor (4), characterized by the fact that the said electric motor (4) is supplied with direct current via the battery or batteries (6) and the said battery or batteries are recharged through the power supply sector (8) of a building .

Description

The invention relates to a building closure and / or concealment device of the shutter or swing shutter type, brise soleil, blinds, awning, etc ..., comprising drive means comprising a low DC electric motor. voltage, less than 30 volts, and main power supply means of said motor, these power supply means comprising at least one battery connected to the motor and means for recharging the battery or batteries. The invention also relates to a method of supplying electrical energy to such a device. The present invention relates to the field of building closure devices, such as shutters or shutters, but also that of shading devices such as solar shading, awning, awning, etc.

In order to facilitate the understanding of the present invention, reference will more particularly be made to roller shutters, in particular for the presentation of the problem posed. Thus, it is more and more common to equip buildings with closing devices such as roller shutters provided with drive means with an electric motor. In this respect, it is very common to use a single-phase asynchronous motor, whose power is provided by its connection to the general power supply network of the building.

The problem usually posed by such electric roller shutters lies in the impossibility of ensuring their maneuver in case of failure of the general power network. The solution to this problem is to equip these roller shutters with a manual emergency control. In short, the user has a crank through which it is possible for him to open or close a shutter. Generally such a crank is not permanently on the flap, so that the user must first find his crank before being able to control the opening or closing of the shutter blocked for lack of power. In addition, this manual control proves to be very often laborious, because it is not optimized with regard to the reduction of movement, in particular because of the interposition of the motor and its gearbox acting on the winding shaft of the rolling shutter. . Moreover, some manual emergency controls require, beforehand, a disengagement operation to separate the motor from the winding tube before being able to act manually on the latter. The assembly is, therefore, very complex and not optimized as already indicated above. The solution to this problem has been to equip such roller shutters with an autonomous power supply in the form of a battery, which itself is powered by a photovoltaic panel type autonomous current generator 15. A photovoltaic panel can pre equip a roller shutter box for the renovation of placing this box in the frame of a door or window, outside the house. In this case, this rolling shutter box 20 and its associated photovoltaic panel are visible externally and therefore exposed to solar radiation. Conversely, in the case of a new construction, the installation of such a solar panel in the case of shutter box integrated into the masonry or reported on the internal side against the latter poses more problems. In this case, it is necessary to install this photovoltaic panel in facade, even on the roof of the building, besides it must be ensured its connection to the electrical equipment of the shutter.

In addition, whether associated with roller shutter boxes or reported externally to the construction, these photovoltaic panels are very often an aesthetic discomfort. Moreover, such autonomous shutters require the use of sufficiently sized batteries to respond to rolling shutter controls over a long period of time, of the order of 30 days without power supply. Indeed, it is necessary to ensure the operation of these roller shutters, especially in winter where, depending on the region, the periods of sunshine are widely spaced, limiting or preventing recharging of these 5 batteries through solar photovoltaic panels. Moreover, during this season, the shutters exposed to the north are only very rarely exposed to the sun. To this, it should be added that only roller shutters of certain dimensions, that is to say requiring a motor of reduced power, can be designed with such an autonomous power supply. It is within the framework of a first inventive step that we have sought to combine the advantages of a power supply by the network of these shutters, that is to say independently of any photovoltaic electric generator and those resulting from autonomous operation, namely a shutter or other closure device and / or occultation whose motorized control is possible even in case of failure of the network supply.

Thus, it has been realized that such a break in the general supply network of a dwelling is often only of short duration: from one to two hours, or even at most of 2 or 3 days. Finally, this duration has nothing to do with that to which the autonomy of batteries powered by solar panels must satisfy. Remembering that this autonomy must be of the order of one month, because of the risk of lack of sunshine and therefore exposure of these panels to solar radiation in winter. It is in the continuity of this inventive step that we have thought to ensure the operation of a motor for rolling shutter or other closure device and / or occultation by battery making it possible to maneuver this device even in the event of a break in the general power supply network of a building, but the recharging of this or these batteries is provided by this network.

In short, being fed by the network, the recharging of the batteries is totally independent of the sunlight conditions, but, knowing that a power supply failure of a dwelling can only be of short duration, battery life can be very low eventually. Especially, if we take into account that the duration of control opening or closing of a shutter is of the order of 30 seconds, while the charging time of these batteries can extend over several hours because of the spacing of the opening or closing commands, the invention makes it possible to ensure the operation of occultation and / or closure devices of larger size, requiring more power. It should be remembered that, to date, it is usual to equip only shutters with a power of up to 30 watts with autonomous power supply means of battery type plus solar panel. The solution according to the invention also responds favorably to the problem of supplying a DC motor which these building and / or occultation closing devices can be equipped with. Indeed, to connect such a DC motor to the general voltage supply network of the order of 220-230 volts requires the use of electronic components sized to convert the mains voltage into a useful voltage for the motor whose Nominal operating current is between 10 and 100 times greater than the battery charging current. This recharging can be done over a period between 10 and 100 longer compared to the operating time of a motor 30 of a closure device. In contrast, these batteries are quite capable of delivering a current of a high intensity over the very short time of the operation of a shutter, for example, or other closure device and / or occultation.

Finally, the invention resides in the fact of having imagined that the main power supply of such a closure device 3036129 and / or occultation is provided by batteries themselves powered by the power supply network. general of the house, so that this solution allows, at the same time, to address the following issues: 5 Guarantee the operation of the closure device and / or occultation in case of temporary interruption of the network supply; Guarantee the operation of this closure device and / or occultation even in case of lack of prolonged sunshine; - Avoid the usually complex means of emergency control whether mechanical or electrical; - Ensure the operation of closing device and / or occultation of greater power, even in case of mains failure; Allow the use of less expensive electronic components for feeding a DC drive motor.

It will also be noted that the interposition of batteries between the network and the motor means makes the operation of the closure device and / or the concealment of the characteristics of the power supply of the network somewhat independent. More particularly, assuming this 12 or 24 volt low voltage network power supply, a direct supply by the network of the motor means of such a closure and / or occultation device, without going through batteries, would require wiring with a large section of copper to be able to deliver a current of sufficient intensity, taking into account line losses and the rated operating current of the engine, during maneuvers of this closure device and / or occultation. In contrast, since the batteries are likely to be charged over a relatively long period of time, their power supply can be reduced allowing electrical connection with a cable of smaller section. Thus, the invention relates to a building closure device and / or solar concealment type shutter or shutter, sunbreaker, awning, awning or the like comprising a low voltage direct current electric motor less than 30 volts and main power supply means of said motor comprising at least one battery connected to said motor, characterized in that it also comprises means for recharging the battery or batteries provided with means for connecting the power supply sector of a battery. building. The invention also relates to a method for supplying electrical energy to a building closure and / or solar concealment device, such as a rolling shutter, a sunshade, a blind, a blind or the like, comprising an electric motor. a low voltage direct current device of less than 30 volts and main power supply means of said motor comprising at least one battery connected to said motor, characterized in that said DC electric motor is supplied via the batteries and recharge the battery or batteries through the power supply of a building. The present invention will be better understood on reading the following description relating to the attached single figure schematically illustrating a number of building closure and / or solar occultation devices according to the invention and implementing the method according to the latter. Thus, in this single figure, there is shown diagrammatically, a shutter 1, a pivoting gate 2, an awning 3, all equipped with a motor 4 of continuous motor current type and low voltage, less than 30 volts, for, as appropriate, the winding or deployment of the shutter 1, the opening or closing of the gate 2, the deployment and folding of the awning 3. In this regard, a motor 4 acts at through appropriate driving means, as appropriate on the 3036129 7 winding tube of the shutter 1, the actuating arm of the gate 2 and the winding tube of the blind 3. Whatever the closure device and / or occultation 1, 2, 3, it comprises main electrical supply means 5 of the engine 4, which main power supply means 5 consist of one or more batteries 6, knowing that this device 1, 2, 3 further comprises means for recharging the battery or batteries 6 provided connecting means 7 to the power supply sector 8 of the building which is equipped with said device 1, 2, 3 Thus, if the mains network 8 is 220-230 volts, alternating, the supply means 5, beyond Means of connection to the sector 7, may be in the form of a transformer and a current rectifier for a direct current supply low voltage batteries. More simply, the power supply means may take the form of a reducing bridge consisting of simple electronic components, known to those skilled in the art, to ensure a power supply and recharging at reduced power of the battery or batteries. Assuming that the mains supply network of a housing or any one of any type of low voltage 12 or 24 volts, alternating, these supply means, connected to the sector will consist, for example, of a simple current rectifier. Obviously, in view of the foregoing, it is understood that by connecting, on the one hand, the battery or batteries to the power supply sector 8 of a building, by means of said supply means 5 and on the other hand, by supplying electrical power to the engine exclusively through this or these batteries, not only is it ensured that the batteries are constantly recharged, regardless of the conditions of external sunlight, but also , sufficient autonomy to ensure the operation of a motor during the duration of a possible power failure 3036129 8 network, which, we must remember, is systematically short. The solution and the method according to the invention also make it possible to ensure a greater autonomy of operation of building closure and / or concealment devices of greater power compared to the past, without this being necessary. to equip such additional emergency maneuvering devices. Moreover, the supply of a DC motor 10 by batteries, themselves connected to the mains, makes it possible to dispense with electronic components sized to convert the mains voltage into a useful voltage for the motor whose rated current operating is between 10 and 100 times greater than battery charging current. This reloading is likely to be done over a much longer period (several hours) compared to the time of control or maneuvering a building closure device and / or occultation. Although the invention has been described with respect to a particular embodiment, it will be understood that it is in no way limited thereto and that various modifications of shapes, materials and combinations thereof may be made. without departing from the scope and spirit of the invention. 25

Claims (3)

CLAIMS1.Solar closure and / or concealment device 5 (1, 2, 3), of the shutter or shutter type, solar shading, awning, awning or the like comprising, a DC electric motor (4) low voltage less than 30 volts and main power supply means (5) of said motor (4) comprising at least one battery (6) connected to said motor (4), characterized in that it further comprises means for recharging the battery or batteries (6) provided with connection means (7) to the power supply sector (8) of a building. 2.A method of supplying electrical energy to a building closure and / or solar occultation device (1, 2, 3), such as shutter or shutter, sunblind, awning, awning or the like, comprising a low voltage DC electric motor (4) of less than 30 volts and main power supply means (5) of said motor (4) comprising at least one battery (6) connected to said motor (4), characterized in that said DC electric motor (4) is supplied via the battery (s) (6) and recharged this or these latter through the sector (8) supply of a building. 25