EP2937505B1 - Home-automation installation comprising a device for attaching a motorised drive mechanism of a tube for winding a screen in a casing - Google Patents

Description

The present invention relates to a home automation installation comprising a device for fixing a motorized drive mechanism of a winding tube of a screen in a trunk, this fixing device comprising a mounting bracket mounted on an inner face of a a side wall of the trunk, where an electromechanical actuator comprises a torque support held on the mounting bracket.

In general, the present invention relates to the field of occultation installations comprising a motorized drive mechanism moving a screen between at least a first position and a second position.

A motorized drive mechanism comprises an electromechanical actuator of a movable closure, concealment or sun protection element such as a shutter, a door, a grating, a blind, or any other equivalent material, hereafter called screen.

We already know FR-A-2 801 632 a home automation system according to the preamble of claim 1, and in particular a device for fixing a motorized drive mechanism of a winding tube of a screen in a trunk of a home automation system. The powered drive mechanism includes an electromechanical actuator. The home automation system comprises a winding tube for unwinding or winding the screen, wherein in the mounted state, the electromechanical actuator is inserted into the winding tube. The electromechanical actuator comprises an electric motor, a torque support. The fastening device comprises a mounting bracket. The mounting bracket is disposed inside the trunk. The mounting bracket is mounted on an inner face of a side wall of the trunk. The mounting bracket includes elements for maintaining the torque support of the electric motor.

Such a motorized drive mechanism may also include electrical power supply elements provided with a photovoltaic panel and a battery. In this case, the photovoltaic panel is mounted on an outer face of a front wall of the trunk of the home automation system. The photovoltaic panel is electrically connected to the battery, and the battery is electrically connected to the electromechanical actuator. Such a motorized drive mechanism of a winding tube has the disadvantage of positioning the battery outside the trunk of the home automation system, and to fix it against a lateral slide guiding the screen .

Thus, the positioning of the battery outside the trunk of the home automation system and against a side guide slide of the screen harms the aesthetics of the home automation system.

In addition, the attachment of the battery against a side guide rail of the screen requires to make mounting holes in the side guide guide of the screen to mount the battery on the side guide rail of the screen.

Consequently, these fixing holes can cause thermal losses and moisture infiltration through the lateral guiding slide of the screen, and consequently degradations of the performance of the concealment device of the home automation system.

The present invention aims to solve the aforementioned drawbacks and to propose a home automation system whose aesthetics is improved and whose assembly is simplified.

For this purpose, the present invention is directed to a home automation installation which comprises a motorized drive mechanism itself comprising an electromechanical actuator. The home automation system also comprises a screen, a box and a winding tube for unrolling or winding the screen, wherein in the mounted state, said electromechanical actuator is inserted into said winding tube, said electromechanical actuator comprising an engine electric and a torque support. The home automation installation also comprises a device for fixing said motorized drive mechanism of said winding tube in said trunk, this fixing device comprising a mounting support, the mounting support being disposed inside the trunk, the support mounting bracket being mounted on an inner face of a side wall of the trunk, the mounting bracket comprising holding elements of the torque support of the electromechanical actuator.

According to the invention, the home automation installation comprises at least one battery supplying electrical energy to said electromechanical actuator, whereas said mounting support comprises elements for fixing said at least one battery.

Thus, the fixing device makes it possible to mount at least one battery inside the trunk of the home automation installation and to fix said at least one battery on a mounting support disposed inside the trunk, also making it possible to maintain a torque support of the electromechanical actuator.

In this way, the fixing device improves the aesthetics of the home automation system by integrating said at least one battery inside the trunk of the home automation system.

Such a fixing device avoids fixing said at least one battery on an external element of the home automation system, and in particular to create a specific housing visible from outside the trunk of the home automation system.

In addition, such a fixing device makes it possible to avoid generating thermal losses and infiltrations of humidity inside an element of the home automation installation by openings allowing said at least one battery to be fixed on the home automation system.

Furthermore, the integration of said at least one battery inside the trunk of the home automation system and its assembly on the mounting bracket disposed inside the trunk make it possible to avoid creating a passage opening in the trunk. trunk of the home automation system for a power supply cable between said at least one battery and the electric actuator.

According to a preferred characteristic of the invention, said at least one battery is supplied with electrical energy by at least one photovoltaic cell.

Thus, the recharging of said at least one battery is implemented by solar energy by means of at least one photovoltaic cell.

In this way, said at least one battery can be recharged without having to dismount part of the trunk of the home automation system.

Advantageously, said at least one photovoltaic cell and said at least one battery fixed on the mounting support are electrically connected by magnetic coupling.

According to another preferred feature of the invention, said mounting bracket also comprises elements for fixing a printed circuit board.

Advantageously, said printed circuit board comprises conversion elements of a power supply.

According to another preferred feature of the invention, said mounting support comprises elements for fixing at least one sensor.

According to another preferred feature of the invention, the motorized drive mechanism comprises an electronic control unit configured to determine an attempted break-in by said at least one sensor.

Advantageously, the mounting bracket is equipped with at least one location for receiving a battery, while the battery attachment elements immobilize the battery in this location.

It can further be provided that the fastening elements and receiving locations of a battery are arranged at lateral portions of the support of mounting or at a housing connected to a central portion of the mounting bracket.

Other features and advantages of the invention will become apparent in the description below.

• la figure 1 est une vue schématique en coupe d'une installation domotique conforme à un mode de réalisation de l'invention ;
• la figure 2 est une vue schématique en perspective de l'installation domotique illustrée à la figure 1 ;
• la figure 3 est une vue schématique éclatée d'un dispositif de fixation d'un mécanisme d'entraînement motorisé d'un tube d'enroulement d'un écran dans un coffre de l'installation domotique illustrée aux figures 1 et 2 ;
• la figure 4 est une vue schématique en perspective d'un support de montage appartenant au dispositif de fixation de la figure 3 ; la figure 5 est une vue schématique en perspective d'un support de montage appartenant à un dispositif de fixation conforme à un deuxième mode de réalisation de l'invention ;
• la figure 6 est une coupe partielle de principe d'un dispositif de fixation conforme à un troisième mode de réalisation de l'invention ;
• la figure 7 est une vue d'extrémité d'un support de couple utilisé dans le dispositif de la figure 6 ; et
• la figure 8 est une vue en perspective d'un support de couple utilisé dans un quatrième mode de réalisation de l'invention.

In the accompanying drawings, given as non-limiting examples:

• the figure 1 is a schematic sectional view of a home automation system according to one embodiment of the invention;
• the figure 2 is a schematic perspective view of the home automation system illustrated in the figure 1 ;
• the figure 3 is an exploded schematic view of a device for fastening a motorized drive mechanism of a winding tube of a screen in a trunk of the home automation system illustrated in FIGS. figures 1 and 2 ;
• the figure 4 is a schematic perspective view of a mounting bracket belonging to the fixing device of the figure 3 ; the figure 5 is a schematic perspective view of a mounting bracket belonging to a fastening device according to a second embodiment of the invention;
• the figure 6 is a partial sectional view of a fastening device according to a third embodiment of the invention;
• the figure 7 is an end view of a torque support used in the device of the figure 6 ; and
• the figure 8 is a perspective view of a torque support used in a fourth embodiment of the invention.

We will first describe, with reference to figures 1 and 2 , a home automation system according to the invention and installed in a building having an opening 1, window or door, equipped with a screen 2 belonging to a concealment device 3, in particular a motorized roller shutter.

The concealment device 3 may be a rolling shutter, a fabric blind or with adjustable blades, or a rolling gate. Of course, the present invention applies to all types of occulting device.

We will describe, with reference to figures 1 and 2 , a home automation system comprising a shutter according to one embodiment of the invention.

The screen 2 of the concealment device 3 is wound on a winding tube 4 driven by a motorized drive mechanism 5 and movable between a wound position, particularly high, and a unwound position, particularly low.

The motorized drive mechanism 5 comprises an actuator electromechanical 11, in particular tubular type, for rotating the winding tube 4 so as to unwind or wind the screen 2 of the occulting device 3.

The concealment device 3 comprises the winding tube 4 for winding the screen 2, where, in the mounted state, the electromechanical actuator 11 is inserted into the winding tube 4.

The electromechanical actuator 11 comprises an electric motor, a torque support 12 and, in addition, in particular a gear reduction device and an output shaft.

The electromechanical actuator 11 also comprises a housing 13, preferably of cylindrical shape.

In known manner, a shutter 3 comprises an apron comprising horizontal blades articulated to each other, forming the screen 2 of the shutter 3, and guided by two lateral rails 6. These blades are contiguous when the apron 2 of the shutter 3 reaches its low position unrolled.

In the case of a shutter, the wound up position corresponds to the support of a final L-shaped end plate 8 of the deck 2 of the shutter 3 against an edge of a box 9 of the shutter 3, and the lowered low position corresponds to the support of the final end blade 8 of the deck 2 of the shutter 3 against a threshold 7 of the opening 1.

The first blade of the shutter 3, opposite to the end plate, is connected to the winding tube 4 by means of at least one hinge 10.

The winding tube 4 is disposed inside the trunk 9 of the roller shutter 3. The apron 2 of the roller shutter 3 winds and unwinds around the winding tube 4 and is housed at least in part at the inside the trunk 9.

The motorized drive mechanism 5 is controlled by a control unit. The control unit may be for example a local control unit 30, where the local control unit 30 may be connected in a wired or wireless connection with a central control unit 31. The central control unit 31 controls the central control unit 30. local control unit 30, as well as other similar local control units distributed throughout the building.

The central control unit 31 may be in communication with a remote weather station outside the building, including in particular one or more sensors that can be configured to determine, for example, a temperature, a brightness, or a wind speed .

A remote control 32, which may be a type of local control unit, and provided with a control keyboard, which includes selection and display elements, also allows a user to intervene on the electromechanical actuator 11. and / or the central control unit 31.

The motorized drive mechanism 5 is preferably configured to execute the unwinding or winding commands of the screen 2 of the concealment device 3, which can be transmitted in particular by the remote control 32.

Control elements of the electromechanical actuator 11 according to the invention, allowing the displacement of the screen 2 of the occulting device 3, are constituted by at least one electronic control unit 33. This electronic control unit 33 is adapted to operate the electric motor of the electromechanical actuator 11, and in particular to allow the electrical power supply of the electric motor.

Thus, the electronic control unit 33 controls, in particular the electric motor, so as to open or close the screen 2, as described above.

The electronic control unit 33 controls in particular an electric motor of the electromechanical actuator 11 so as to wind or unwind a screen 2 of the occulting device 3, and to detect the presence of an obstacle and / or an end stop. when moving the screen 2 of the concealment device 3.

The electronic control unit 33 also comprises an order receiving module, in particular of radio orders issued by a command transmitter, such as the remote control 32 intended to control the electromechanical actuator 11.

Of course, the order receiving module can also allow the reception of orders transmitted by wire elements.

Here, and as illustrated in figure 2 , the electronic control unit 33 is disposed inside the casing 13 of the electromechanical actuator 11.

The control elements of the electromechanical actuator 11 comprise hardware and / or software means.

By way of non-limiting example, the hardware means may comprise at least one microcontroller.

Here, the electromechanical actuator 11 is disposed inside the trunk 9 of the concealment device 3. The trunk 9 of the concealment device 3 comprises a body, where the body of the trunk 9 is closed at both ends by a side wall 16.

In one embodiment as illustrated in figure 3 , the interior volume of the trunk 9 comprises a winding zone 18 of the screen 2 around the winding tube 4, and an attachment zone 19 of the motorized drive mechanism 5

The fastening zone 19 is separated from the winding zone 18 by a partition wall 20. The partition wall 20 comprises an opening 21 for passage of the winding tube 4 and the electromechanical actuator 11.

We will now describe, with reference to Figures 3 to 5 , a device for fixing a motorized drive mechanism of a winding tube of a screen in a trunk of the home automation installation according to one embodiment of the invention.

The fixing device 14 comprises a mounting support 15.

The mounting support 15 is disposed inside the trunk 9.

The mounting bracket 15 is mounted on an inner face of a side wall 16 of the box 9.

Here, the mounting support 15 comprises a central portion 15a and two lateral portions 15b, where the two lateral portions 15b are disposed respectively on either side of the central portion 15a.

Advantageously, the mounting support 15 is made of plastic.

The mounting support 15 comprises holding elements 17 of the torque support 12 of the electromechanical actuator 11.

Advantageously, the holding elements 17 of the mounting support 15 comprise elastic detent elements cooperating with the torque support 12 of the electromechanical actuator 11.

Here, the holding elements 17 of the mounting support 15 are arranged at the central portion 15a of the mounting bracket 15.

Here, the casing 13 of the tubular electromechanical actuator 11 is fixed to the mounting support 15 by means of the torque support 12, in particular of a head, disposed at one end of the electromechanical actuator 11 opposite to that comprising the output shaft.

The mounting support 15 comprises fastening elements 22 of at least one battery 23 supplying electrical energy to the electromechanical actuator 11.

Thus, the fixing device 14 of the motorized drive mechanism 5 of the winding tube 4 of the screen 2 in the trunk 9 of the concealment device 3 makes it possible to mount at least one battery 23 inside the trunk 9 of the concealment device 3, and to fix said at least one battery 23 on the mounting support 15 disposed inside the trunk 9 also to maintain the torque support 12 of the electromechanical actuator 11.

In this way, the fixing device 14 makes it possible to improve the aesthetics of the home automation installation by the integration of said at least one battery 23 inside the trunk 9 of the occulting device 3.

Such a fixing device 14 makes it possible to avoid fixing said at least one battery 23 on an external element of the home automation installation, and in particular to create a specific housing visible from outside the trunk 9 of the concealment device 3 .

In addition, such a fixing device 14 makes it possible to avoid generating thermal losses and moisture infiltration inside an element of the home automation system by openings allowing the fixing of said at least one battery 23 on the home automation system.

Furthermore, the integration of said at least one battery 23 inside the trunk 9 of the concealment device 3 and its assembly on the mounting support 15 disposed inside the trunk 9 make it possible to avoid creating a passage opening in the trunk 9 of the concealment device 3 for a power supply cable between the at least one battery 23 and the electromechanical actuator 11.

Said at least one battery 23, which can be of rechargeable type, supplies electrical energy to the electromechanical actuator 11.

Preferably, said at least one battery 23 is supplied with electrical energy by at least one photovoltaic cell 25.

Thus, the recharging of said at least one battery 23 is implemented by solar energy by means of at least one photovoltaic cell 25.

In this way, said at least one battery 23 can be recharged without having to dismount part of the box 9 of the concealment device 3.

Advantageously, the motorized drive mechanism 5 comprises loading elements configured to charge said at least one battery 23 from the solar energy recovered by said at least one photovoltaic cell 25.

Thus, the charging elements configured to charge said at least one battery 23 from solar energy make it possible to convert the solar energy recovered by said at least one photovoltaic cell into electrical energy.

In one embodiment, the powered drive mechanism 5 comprises a plurality of photovoltaic cells 25 constituting a photovoltaic panel.

In one embodiment, the supply of electrical energy to the electromechanical actuator 11 by at least one battery 23 makes it possible to substitute for an electric power supply of the electromechanical actuator 11 by an electric power supply network.

Thus, the electrical power supply of the electromechanical actuator 11 by at least one battery 23 eliminates a connection to the power supply network.

In another embodiment, the electrical power supply of the electromechanical actuator 11 is implemented, on the one hand, by an electrical power supply network and, on the other hand, by at least one battery 23.

Thus, the supply of electrical energy to the electromechanical actuator 11 by at least one battery 23 makes it possible to provide for a break in the supply of electrical energy to the electromechanical actuator 11 via an electrical power supply network.

In this case, the electromechanical actuator 11 is supplied with electrical energy on the one hand by means of a power supply cable (not shown), and on the other hand by at least one battery 23.

In addition, the electric power supply of the electromechanical actuator 11 via an electrical energy supply network makes it possible to recharge said at least one battery 23, in particular when said at least one battery 23 is insufficiently recharged by said at least one battery 23. a photovoltaic cell 25.

In one embodiment, said at least one photovoltaic cell 25 and said at least one battery 23 fixed on the mounting support 15 are electrically connected by magnetic coupling.

Thus, the power supply of said at least one battery 23 by said at least one photovoltaic cell 25 is made without power supply cable.

Practically, the magnetic coupling between said at least one photovoltaic cell 25 and said at least one battery 23 fixed on the mounting support 15 is made as in a transformer, where a primary winding is located at said at least one photovoltaic cell 25 , and a secondary winding is located on the mounting support 15, so as to allow the recovery of energy picked up by said at least one photovoltaic cell 25.

In this way, the magnetic coupling between said at least one photovoltaic cell 25 and said at least one battery 23 fixed on the mounting support 15 makes it possible to simplify the home automation installation, and in particular to get rid of electric cables and connecting elements between said at least one photovoltaic cell 25 and said at least one battery 2.

In another embodiment, said at least one photovoltaic cell 25 and said at least one battery 23 fixed on the mounting support 15 are connected to each other. electrically by electric cables.

In one embodiment, said at least one battery 23 fixed on the mounting bracket 15 and the electromechanical actuator 11 are electrically connected by means of the mounting bracket 15 incorporating electric conduction tracks.

Preferably, the electrical conduction tracks are disposed on the face of the mounting support 15 facing the torque support 12 of the electromechanical actuator 11.

For example, the electrical conduction tracks can be made by physical tracks formed in the mounting support 15, or by a deposition of conductive material in zones provided for this purpose in the mounting bracket 15, in particular by an electrochemical deposit.

In addition, the electrical conduction tracks integrated in the mounting support 15 are electrically connected to the at least one battery 23 by means of the fastening elements 22, the fastening elements 22 being metal elastic tabs fixed in the mounting bracket 15. .

In a case corresponding to the third embodiment shown in Figures 6 and 7 , the electric conduction tracks 41 integrated in the mounting support 15 can be electrically connected to the electromechanical actuator 11 by means of inserts 42 conductors formed in the torque support 12 of the electromechanical actuator 11 and fixing screws 43 respectively through an opening 44 of the mounting bracket 15 and being respectively screwed into one of the inserts 42. The inserts 42 formed in the torque support 12 of the electromechanical actuator 11 comprise a first insert 42A corresponding to a positive pole and a second insert 42B corresponding to a negative pole. The inserts provided in the torque support 12 of the electromechanical actuator 11 are electrically connected to the electronic control unit 33 of the electromechanical actuator 11 by means of electrical connectors 45. The electrical connectors 45 can be fixed by welding to a printed circuit board 46 belonging to the electronic control unit 33.

In another case corresponding to the fourth embodiment shown in FIG. figure 8 , the electric conduction tracks integrated in the mounting support 15 can be electrically connected to the electromechanical actuator 11 by means of metal conduction elements 52 being fixed on electrical connectors 53 passing through the torque support 12 of the electromechanical actuator 11. The metal conduction elements 52 may be resilient snap elements. The electrical connectors 53 passing through the torque support 12 of the actuator electromechanical 11 comprise a first electrical connector 53A corresponding to a positive pole and a second electrical connector 53B corresponding to a negative pole. The electrical connectors passing through the torque support 12 of the electromechanical actuator 11 are electrically connected to the electronic control unit 33 of the electromechanical actuator 11, in particular by welding on a printed circuit board belonging to the electronic control unit 33.

In another embodiment, said at least one battery 23 fixed on the mounting bracket 15 and the electromechanical actuator 11 are electrically connected by electric cables.

With reference to the figure 4 , mounting bracket 15 includes four battery locations 23 and associated fasteners 22. One of the batteries 23 is shown outside of its location 35, to facilitate viewing of this location.

In this embodiment, the fastening elements 22 of the batteries 23 on the mounting bracket 15 and the receiving locations 35 of a battery 23 are disposed at the side portions 15b of the mounting bracket 15.

With reference to the figure 5 the mounting bracket 15 comprises two battery locations 23 and associated fasteners 22.

In this embodiment, the fasteners 22 of the batteries 23 on the mounting bracket 15 and the receiving locations 35 of a battery 23 are disposed at a housing 24 of the mounting bracket 15.

Here, the housing 24 of the mounting bracket 15 is disposed above the central portion 15a of the mounting bracket 15.

Of course, the housing 24 of the mounting bracket 15 may also be disposed below the central portion 15a of the mounting bracket 15.

By way of non-limiting example, the housing 24 is directly integrated in the mounting bracket 15 so as to form a single piece, as visible in FIG. figure 5 .

In another embodiment, the housing 24 of the mounting bracket 15 may be attached to the mounting bracket 15 by resilient snap elements.

To the figure 5 , one of the batteries 23 is shown out of its location 35 to facilitate its viewing.

Of course, the number and positioning of the locations 35 of the batteries 23 and associated fasteners 22 are in no way limiting and may be different. In particular, the locations 35 of the batteries 23 can be arranged in any point on the periphery of the mounting bracket 15.

Here, the fastening elements 22 of said at least one battery 23 on the mounting bracket 15 are resilient snap elements.

Advantageously, the mounting support 15 comprises on a rear face, that is to say a face facing the side wall 16 of the box 9, at least one pin cooperating with at least one housing formed on an inner face of the side wall 16 of the trunk 9.

Thus, the mounting bracket 15 is held on the side wall 16 of the box 9 by the cooperation of the shapes of said at least one pin of the mounting bracket 15 and said at least one housing of the side wall 16 of the box 9.

In one embodiment, the mounting bracket 15 also includes fasteners 28 of a printed circuit board 26.

Thus, the mounting support 15 makes it possible to integrate fixing elements 22 of at least one battery 23 so as to supply electrical energy to the electromechanical actuator 11 and other fastening elements 28 of a printed circuit board. 26 so as to control the electromechanical actuator 11.

In this way, the mounting bracket 15 comprises a plurality of fastening elements of different elements of the motorized drive mechanism 5 so as to minimize the costs of obtaining it.

Advantageously, the printed circuit board 26 comprises conversion elements of a power supply.

Thus, the conversion elements of the printed circuit board 26 make it possible to lower the supply voltage of the electromechanical actuator 11 and / or to modify an AC supply voltage into a DC supply voltage.

In this way, the printed circuit board 26 can be used to supply electrical energy to the electromechanical actuator 11 on the one hand from said at least one battery 23 and on the other hand from an electric power supply network, or still to supply electrical energy to the electromechanical actuator 11 from said at least one battery 23 and to adapt the voltage delivered to the electromechanical actuator 11, in particular in the case where the supply of electrical energy is a DC voltage.

In the embodiment shown at figure 5 , the mounting support 15 comprises fixing elements 29 of at least one sensor 27.

Thus, the mounting support 15 makes it possible to integrate fixing elements 22 of at least one battery 23 so as to supply the actuator with electrical energy. electromechanical 11 and other fasteners 29 of at least one sensor 27.

In this way, the mounting bracket 15 comprises a plurality of fastening elements of different elements of the motorized drive mechanism 5 so as to minimize the costs of obtaining it.

Advantageously, the motorized drive mechanism 5 comprises an electronic control unit, in practice the electronic control unit 33, configured to determine an attempted break-in by said at least one sensor 27.

Thus, said at least one sensor 27 mounted on the mounting support 15 makes it possible to determine an attempted break-in, in particular by a vibratory movement, or by a rotation of the mounting support 15 with respect to the electromechanical actuator 11, in particular with respect to the torque support 12.

In one embodiment, said at least one sensor 27 detects a displacement of the torque support 12 inside the housing formed by the fastening elements 17 in the mounting bracket 15, a displacement tolerance of the torque support 12 to the interior of the housing formed by the fastening elements 17 in the mounting bracket 15 being predetermined so as to ensure the assembly of the torque support 12 on the mounting bracket 15, for example of the order of 2 °. And the control elements of the motorized drive mechanism 5 determine a break-in attempt in the case where the displacement is greater than a threshold value.

Here, said at least one sensor 27 is an accelerometer.

Of course, the type of sensor is in no way limiting and may be different, in particular a displacement sensor.

Advantageously, following the determination of an attempted break-in, the electronic control unit 33 of the electromechanical actuator 11 triggers a control movement of the screen 2 of the occulting device 3.

In one embodiment, following the determination of an attempted break-in, the electronic control unit 33 of the electromechanical actuator 11 triggers an opening command of the screen 2 of the occulting device 3, then a closing command of the screen 2 of the occulting device 3.

Thanks to the present invention, the device for fixing the motorized drive mechanism of a winding tube of a screen in a trunk of a home automation installation makes it possible to mount at least one battery inside the trunk of the home. home automation system, and fix said at least one battery on a mounting bracket disposed within the trunk also to maintain a torque support of the electromechanical actuator.

In this way, the fixing device improves the aesthetics of the concealment device by integrating the at least one battery inside the trunk of the home automation system.

Such a fixing device avoids fixing said at least one battery on an external element of the home automation system, and in particular to create a specific housing visible from outside the trunk of the home automation system.

In addition, such a fixing device makes it possible to avoid generating thermal losses and infiltrations of humidity inside an element of the home automation installation by openings allowing said at least one battery to be fixed on the home automation system.

In addition, said at least one battery may be a unitary battery or a group of batteries connected by means of an electrical insulator.

In addition, the concealment device may be a roll-up roller blind for a terrace or camper.

Claims (9)

1. Home automation system comprising:

   • a motorised drive mechanism (5) comprising an electromechanical actuator (11),

   • a screen (2),

   • a box (9),

   • a roll tube (4) for unrolling or rolling up the screen (2),

   o where in the mounted state said electromechanical actuator (11) is inserted into said roll tube (4),

   o said electromechanical actuator (11) comprising an electric motor, a torque support (12),

   • a fastening device (14) of the motorised drive mechanism (5) of the roll tube (4) of the screen (2) in the box (9), wherein the fastening device (14) comprises an assembly support (15), wherein

   o the assembly support (15) is arranged inside the box (9),

   o the assembly support (15) is mounted on an inside face of a side wall (16) of the box (9),

   o the assembly support (15) comprises holding elements (17) of the torque support (12) of the electromechanical actuator (11),

   characterised in that

   • the home automation system comprises at least one battery (23) supplying said electromechanical actuator (11) with electric power, and

   • said assembly support (15) comprises fastening elements (22) for said at least one battery (23).
2. Home automation system according to claim 1, characterised in that said at least one battery (23) is supplied with electric power by at least one photovoltaic cell (25).
3. Home automation system according to claim 2, characterised in that said at least one photovoltaic cell (25) and said at least one battery (23) fastened to the assembly support (15) are electrically connected by a magnetic coupling.
4. Home automation system according to any one of claims 1 to 3, characterised in that said assembly support (15) also comprises fastening elements (28) for a printed circuit board (26).
5. Home automation system according to claim 4, characterised in that said printed circuit board (26) comprises elements for converting an electric power supply.
6. Home automation system according to any one of claims 1 to 5, characterised in that said assembly support (15) comprises fastening elements (29) for at least one sensor (27).
7. Home automation system according to claim 6, characterised in that the motorised drive mechanism (5) comprises an electronic control unit (33) configured to determine an intrusion attempt by said at least one sensor (27).
8. Home automation system according to any one of the preceding claims, characterised in that the assembly support (15) is equipped with at least one space (35) for receiving a battery (23) and in that the fastening elements (22) of the battery (23) hold the battery (23) in place in this space (35).
9. Home automation system according to claim 8, characterised in that the fastening elements (22) and spaces (35) for receiving a battery (23) are arranged at the level of side portions (15b) of the assembly support (15) or at the level of a case (24) connected to a central portion (15a) of the assembly support (15).

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