DOMOTIC CLOSURE OR SOLAR PROTECTION INSTALLATION AND METHOD FOR RECHARGING A BATTERY FOR SUCH A INST

专利摘要:
A home automation installation comprises a shading device comprising a screen, a device for holding (9) the screen, a first motorized drive device and an autonomous electric power supply device (26). The first device comprises an electromechanical actuator for raising and lowering the screen. The power supply device (26) comprises a battery (24) disposed at the screen holding device (9), a power supply cable (28) and an electrical connection element (27) electrically connected to the battery (24) by the cable (28), the element (27) being configured to be connected to an external power source, so as to recharge the battery (24). The concealment device includes a second motorized drive device (29) comprising an electromechanical actuator for winding and unwinding the cable (28) on a winding spool.
公开号:FR3040420A1
申请号:FR1558008
申请日:2015-08-28
公开日:2017-03-03
发明作者:Eric Lagarde；Norbert Dupielet
申请人:Somfy SA；
IPC主号:

专利说明:

Home automation system for closing or sun protection and method for recharging a battery for such an installation
The present invention relates to a home automation system for closing or sun protection.
The present invention also relates to a method of recharging a battery for such a home automation closure or sun protection system.
In general, the present invention relates to the field of occultation devices comprising a motorized drive device moving a screen between at least a first position and a second position.
A motorized drive device comprises an electromechanical actuator of a movable closure, occultation or sun protection element, such as a blind or any other equivalent equipment, hereafter called a screen.
Document WO 2006/091303 A1 is already known which describes a home automation system for closing or sun protection comprising an occulting device.
The concealment device comprises a box, a winding tube, a screen, a load bar, a motorized drive device and an independent electrical power supply device.
A first end of the screen is disposed at the box. And a second end of the screen is attached to the load bar.
The motorized driving device comprises an electromechanical actuator for raising and lowering the screen, between a high position and a low position, and more particularly to wind and unwind the screen, between a wound position and a unwound position. . The electromechanical actuator is electrically connected to the autonomous electric power supply device.
The autonomous electric power supply device comprises a battery. The battery is disposed at the box of the concealment device and, more particularly, inside a winding tube of the screen. The battery includes several rechargeable energy storage elements.
The autonomous electric power supply device comprises a first electrical connection element and a second electrical connection element.
The first electrical connection element is electrically connected to the battery by an electrical connection. The electrical connection between the first electrical connection element and the battery is implemented by means of a power supply cable extending along the screen and, more particularly, integrated into the screen fabric.
The first electrical connection element is disposed at the charge bar of the concealment device and configured to be connected to an external power source, so as to recharge the battery.
The first electrical connection element is either an electrical connector or a coil cooperating with another coil disposed at a threshold of an opening.
In this way, the first electrical connection element can be electrically connected to a wall socket of a power supply network.
The second electrical connection element is disposed at the box of the concealment device. The electrical connection between the first electrical connection element and the battery is implemented through the second electrical connection element electrically connecting the power supply cable to the battery.
The power supply cable includes a first portion extending between the first electrical connection member and the second electrical connection member, and a second portion extending between the second electrical connection member and the battery.
However, this home automation system has the disadvantage of electrically connecting the first electrical connection element, arranged at the load bar of the concealment device, to the battery, disposed at the level of the box of the concealment device, by means of a power supply cable extending along the roll-up screen fabric.
The power supply cable electrically connecting the first electrical connection element to the battery is wound with the screen around the winding tube, when the screen is moved towards the wound position.
Thus, the winding and the unwinding of the power supply cable are dependent on the displacements of the screen controlled by the motorized drive device.
In addition, the second electrical connection element, connecting the power supply cable to the battery, is subjected to stresses exerted during the unwinding and during the winding of the screen.
Therefore, the electrical connection between the first electrical connection element and the battery can be damaged during the use of the home automation system.
Furthermore, the electrical connection between the power supply cable and the battery is complex to implement, since the power supply cable is wrapped around the winding tube of the screen. The integration of the power supply cable into the roll-up fabric of the screen can also cause damage to it during unwinding and winding of the screen around the winding tube.
In addition, the integration of the power supply cable into the curtain screen fabric impairs the aesthetics of the screen.
The object of the present invention is to solve the aforementioned drawbacks and to propose a home automation system for closing or solar protection making it possible to simplify an electrical connection between an electrical connection element and a battery arranged at a holding device of a screen of a concealment device, in order to recharge the battery from an external power source, while ensuring the reliability of this electrical connection and minimizing the costs of obtaining the home automation system. In this regard, the present invention aims, according to a first aspect, a home automation system for closing or sun protection comprising an occulting device, the occulting device comprising at least: - a screen, - a device for maintaining the screen, - a first motorized drive device, and - an autonomous electric power supply device, the first motorized drive device comprising at least: - an electromechanical actuator for moving up and down the screen, between a high position and a low position, the electromechanical actuator being electrically connected to the autonomous electrical power supply device, the autonomous electrical energy supply device comprising at least: a battery, the battery being disposed at the device for maintaining the screen, - a power supply cable, and - an electrical connection element The electrical connection element is electrically connected to the battery by the power supply cable, the electrical connection element being configured to be connected to an external power source so as to recharge the battery.
According to the invention, the concealment device comprises a second motorized drive device, the second motorized drive device comprising at least: an electromechanical actuator for winding and unrolling the electrical supply cable, electrically connecting the electrical connection element to the battery, on a winding coil, between a wound position and an unwound position.
Thus, the concealment device comprises two independent motorized drive devices respectively comprising an electromechanical actuator, where the first motorized drive device is used to move the screen, between a high position and a low position, and where the second device motorized drive means for winding and unwinding the power supply cable around the winding spool, between a wound position and an unwound position, so that the electrical connection element can be accessed for charging the battery disposed at the screen holding device.
In this way, the electrical connection between the electrical connection element and the battery arranged at the screen holding device is implemented through a power cable rollable by the second drive device. motorized, independently of the motorized drive device for moving the screen, between a high position and a low position, so as to ensure the reliability of this electrical connection and to minimize the costs of obtaining the home automation system.
In addition, the positioning of the electrical connection element at one end of the power supply cable facilitates for the user the electrical connection of the external power source to the electrical connection element, since this connection The electrical connection between the electrical connection element and the external power source can be implemented when the power supply cable is in the unwound position or between the wound position and the unrolled position.
Moreover, the battery can be recharged without having to disassemble part of the home automation system and, in particular, the device for maintaining the screen.
In a first exemplary embodiment, the second motorized drive device is disposed outside a box of the concealment device, the box being an integral part of the screen holding device.
In a second exemplary embodiment, the second motorized drive device is disposed inside a box of the concealment device, the box being an integral part of the device for holding the screen.
In practice, the electromechanical actuator of the second motorized drive device comprises at least one electric motor whose output shaft is kinematically connected to the winding coil of the power supply cable.
According to a preferred feature of the invention, the first motorized drive device comprises an electronic control unit, the electronic control unit controlling, on the one hand, the electromechanical actuator of the first motorized drive device and, on the other hand, the electromechanical actuator of the second motorized drive device.
According to another preferred feature of the invention, the second motorized driving device comprises a plate, the plate being mounted on the device for holding the screen by means of fastening elements.
Preferably, the winding coil of the power supply cable is rotatably mounted on the plate, about an axis of rotation defined by a rotation shaft, the winding shaft of the winding coil also comprising a electrical connection element.
In one embodiment, the battery of the stand-alone electric power supply device that can be recharged through the electrical connection element and the power supply cable is configured to supply electrical energy to the second motorized drive device. .
In another embodiment, the autonomous electric power supply device comprises another battery, so as to supply electrical energy to the second motorized drive device.
The present invention aims, according to a second aspect, a method of recharging a battery for a home automation system closing or sun protection as mentioned above.
According to the invention, this method comprises at least the following steps: - lowering of the electrical connection element connected to the power supply cable towards the unwound position by means of the second motorized drive device, and - connection of an external power source on the electrical connection element disposed at the end of the power supply cable.
This method of recharging a battery has characteristics and advantages similar to those described above, in connection with the home automation system according to the invention.
In a first embodiment, prior to the step of lowering the electrical connection element, the method of recharging the battery comprises at least the following steps: - determination of the charge level of the battery, - comparison of the determined value of the charge level of the battery at a predetermined threshold value, and - control of the electromechanical actuator of the second motorized drive device, when the determined value of the charge level of the battery is lower than the predetermined threshold value.
In a second embodiment, prior to the step of lowering the electrical connection element, the method of recharging the battery comprises at least the following steps: activation of a selection element of a control unit local, the local control unit cooperating with an electronic control unit controlling the second motorized drive device, and - controlling the electromechanical actuator of the second motorized drive device. Other features and advantages of the invention will become apparent in the description below, made with reference to the accompanying drawings, given as non-limiting examples:
In the accompanying drawings, given by way of non-limiting example: FIG. 1 is a diagrammatic cross-sectional view of a home automation installation according to one embodiment of the invention; Figure 2 is a schematic perspective view of the home automation system shown in Figure 1; Figure 3 is a schematic sectional axial and partial view of the home automation system illustrated in Figures 1 and 2 showing an electromechanical actuator of this installation; FIG. 4 is a partial schematic perspective view of an occulting device belonging to the home automation installation illustrated in FIGS. 1 to 3 and including a second motorized drive device, where a power supply cable electrically connecting a electrical connection element to a battery, is in wound position; Figure 5 is a view similar to Figure 4, wherein the power supply cable is in the unrolled position; Figure 6 is a view similar to Figure 4 and at another angle, where a hood of the second motorized drive device has been removed; Figure 7 is a schematic cross-sectional view of the second motorized driving device illustrated in Figures 4 to 6; and FIG. 8 is an exploded schematic view of the second motorized driving device illustrated in FIGS. 4 to 7.
We will first describe, with reference to FIGS. 1 and 2, a home automation installation in accordance with the invention and installed in a building comprising an opening 1, window or door, equipped with a screen 2 belonging to a device. occultation 3, in particular a motorized blind.
The occulting device 3 may be a blind, in particular cloth, rollable, pleated or blades.
The concealment device 3 comprises a holding device 9, 23 of the screen 2.
With reference to FIGS. 1 and 2, a roll-up blind according to one embodiment of the invention will be described. The screen 2 of the occulting device 3 is wound on a winding tube 4 driven by a first motorized drive device 5 and movable between a wound position, particularly high, and a unwound position, particularly low. The movable screen 2 of the concealment device 3 is a closure, concealment and / or sun protection screen, winding on the winding tube 4, the internal diameter of which is substantially greater than the external diameter of a electromechanical actuator 11, so that the electromechanical actuator 11 can be inserted into the winding tube 4, during assembly of the occulting device 3.
The first motorized drive device 5 comprises the electromechanical actuator 11, in particular of the tubular type, making it possible to rotate the winding tube 4, so as to unroll or wind up 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 concealment device 3 also comprises a charge bar 8 for exerting a voltage on the screen 2.
In known manner, the roller blind, which forms the occulting device 3, comprises a fabric, forming the screen 2 of the roller blind 3. A first end of the screen 2, in particular the upper end of the screen 2 in the assembled configuration of the occulting device 3 in the home automation system, is attached to the winding tube 4. And a second end of the screen 2, in particular the lower end of the screen 2 in the configuration assembly of the concealment device 3 in the home automation system, is fixed to the load bar 8.
Here, the screen forming fabric 2 is made from a textile material.
In an exemplary embodiment not shown, the first end of the screen 2 has a hem through which is disposed a rod, in particular plastic. This hem made at the first end of the screen 2 is obtained by means of a seam of the fabric forming the screen 2. When assembling the screen 2 on the winding tube 4, the hem and the rod located at the first end of the screen 2 are slidably inserted into a groove on the outer face of the winding tube 4, in particular over the entire length of the winding tube 4, so as to be able to wind and unwind the screen 2 around the winding tube 4.
In the case of a roll-up blind, the wound up position corresponds to a predetermined high end-of-travel position, or else to the support of the load bar 8 of the screen 2 against an edge of a box 9 of the roll-up awning 3, and the lowered unwound position corresponds to a predetermined low end-of-travel position, or to the support of the load bar 8 of the screen 2 against a threshold 7 of the opening 1, or to the complete progress of the screen 2.
The winding tube 4 is disposed inside the box 9 of the roll-up awning 3. The screen 2 of the roll-up awning 3 wraps around the winding tube 4 and is housed at least partly in the inside the box 9.
In general, the box 9 is disposed above the opening 1, or in the upper part of the opening 1.
The box 9 is an integral part of the holding device 9, 23 of the screen 2.
In an embodiment illustrated in Figure 2, the screen 2 also comprises at each of its lateral edges a strip-shaped attachment piece 10. The attachment pieces 10 form an extra thickness at each lateral edge of the screen 2. The home automation installation comprises two lateral rails 6 arranged along two lateral edges of the opening 1. And the lateral rails 6 respectively comprise a groove inside which is retained a fastener 10 of the screen 2, and a lateral end of the load bar 8 attached to the second end of the screen 2.
Thus, during winding or unwinding of the screen 2, the fastening pieces 10 fixed on the lateral edges of the screen 2 and the lateral ends of the load bar 8 fixed to the second end of the screen screen 2 are retained in the side rails 6, so as to ensure lateral guidance of the screen 2.
Each groove in a lateral slide 6 makes it possible to prevent the removal of a fastener piece 10 fixed on one of the lateral edges of the screen 2, during the displacement of the screen 2 between the wound position and the unrolled position.
Preferably, each attachment piece 10 extends along the entire length of one of the two lateral edges of the screen 2.
In an exemplary embodiment, the fasteners 10 are fixed respectively at a side edge of the screen 2 by gluing, welding or overmolding. And the fasteners 10 may be made of plastic material and, in particular, overmolded on the lateral edges of the screen 2.
Here, the side rails 6 disposed respectively along a lateral edge of the opening 1 extend in a vertical direction. The lateral slides 6 extend from the threshold 7 of the opening 1 to the box 9 of the roller blind 3.
Advantageously, packing elements, not shown, are arranged inside the lateral slides 6 and cooperate with the fastening pieces 10 fixed respectively at a lateral edge of the screen 2, so as to maintain the screen 2 in tension by the application of a force on each fastener 10 against a wall of the lateral slide 6.
For example and in no way limiting, the packing elements arranged inside the side rails 6 are elastic elements, in particular plastic. The packing elements may also be provided in the form of foam or comprise a down.
Thus, the packing elements arranged inside the lateral slides 6 make it possible to guarantee the application of a frictional resistance on the fastening pieces 10 of the screen 2, so as to keep the screen 2 taut, when moving the screen 2 or when the screen 2 is kept at a standstill.
Advantageously, the box 9 of the roller blind 3 and the side rails 6 form a frame inside which the screen 2 can be moved. This frame can be closed by an additional bar connecting the two side rails 6 at the threshold 7 of the opening 1.
The first motorized drive device 5 is controlled by a control unit. The control unit may be, for example, a local control unit 12, where the local control unit 12 may be wired or wirelessly connected to a central control unit 13. The central control unit 13 controls the local control unit 12, as well as other similar local control units distributed throughout the building. The central control unit 13 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 speed Wind.
A remote control 14, which may be a type of local control unit, and provided with a control keyboard, which comprises means of selection and display, further allows a user to intervene on the actuator electromechanical 11 and / or the central control unit 13.
The first motorized drive device 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 unit 14.
The electromechanical actuator 11 of the first motorized drive device 5 belonging to the home automation system of FIGS. 1 and 2 will now be described in greater detail and with reference to FIG. 3. The electromechanical actuator 11 comprises a motor 16. The electric motor 16 comprises a rotor and a stator, not shown and positioned coaxially about an axis of rotation X, which is also the axis of rotation of the winding tube 4 in the mounted configuration of the device. motorized drive 5.
Control means of the electromechanical actuator 11, allowing the displacement of the screen 2 of the concealment device 3, comprise at least one electronic control unit 15. This electronic control unit 15 is able to put into operation the engine 16 of the electromechanical actuator 11, and, in particular, allow the electrical power supply of the electric motor 16.
Thus, the electronic control unit 15 controls, in particular, the electric motor 16, so as to open or close the screen 2, as described above. The electronic control unit 15 also comprises a command command receiving module, the command commands being issued by a command transmitter, such as the remote control 14 intended to control the electromechanical actuator 11 or one of the local control units 12 or central 13.
Preferably, the control command receiving module of the electronic control unit 15 is of wireless type. In particular, the control command receiving module is configured to receive radio control commands.
The command order receiving module may also allow the reception of control commands transmitted by wire means.
The control means 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. The electromechanical actuator 11 of the first motorized drive device 5 is supplied with electrical energy by means of a battery 24. The electromechanical actuator 11 makes it possible to move the screen 2 of the occulting device 3.
Here, the electromechanical actuator 11 comprises a power supply cable 18 allowing its supply of electrical energy from the battery 24.
The housing 17 of the electromechanical actuator 11 is preferably of cylindrical shape.
In one embodiment, the housing 17 is made of a metallic material.
The housing material of the electromechanical actuator is not limiting and may be different and, in particular, plastic. The electromechanical actuator 11 also comprises a gear reduction device 19 and an output shaft 20. The electromechanical actuator 11 may also include a limit and / or obstacle detection device, which may be mechanical or electronic.
Advantageously, the electric motor 16 and the gear reduction device 19 are disposed inside the casing 17 of the electromechanical actuator 11. The output shaft 20 of the electromechanical actuator 11 is disposed inside the tube 4, and at least partly outside the housing 17 of the electromechanical actuator 11. The output shaft 20 of the electromechanical actuator 11 is coupled, by a connecting means 22, to the tube of the electromechanical actuator 11. winding 4, in particular a wheel-shaped connection means. The electromechanical actuator 11 also comprises a shutter element 21 at one end of the casing 17.
Here, the casing 17 of the electromechanical actuator 11 is fixed to a support 23, in particular a cheek, of the casing 9 of the concealment device 3 by means of the closure element 21 forming a torque support, in particular a shutter head and torque recovery. In such a case where the closure element 21 forms a torque support, the closure element 21 is also called a fixed point of the electromechanical actuator 11.
The support 23 is also an integral part of the holding device 9, 23 of the screen 2.
Here, and as illustrated in FIG. 3, the electronic control unit 15 is disposed inside the casing 17 of the electromechanical actuator 11.
Thus, the electronic control unit 15 is integrated inside the housing 17 of the electromechanical actuator 11.
In another embodiment, the electronic control unit 15 is disposed outside the casing 17 of the electromechanical actuator 11 and, in particular, mounted on the support 23, in the closure element 21 or in the box 9.
We will now describe, with reference to FIGS. 4 to 8, certain parts of the occulting device 3.
The box 9 of the concealment device 3 comprises a bottom wall 36, an upper wall, not shown in FIGS. 4 to 6 but visible in FIG. 2, and two side walls 37, in the assembled configuration of the concealment device 3. The bottom wall 36 is omitted in Figure 2 for the sake of clarity.
The concealment device 3 comprises an autonomous electric power supply device 26, in that it enables the electromechanical actuator 11 to be powered without being itself connected to the mains network. The electromechanical actuator 11 is electrically connected to the autonomous electric power supply device 26.
The autonomous electric power supply device 26 comprises the battery 24. The battery 24 is disposed at the level of the holding device 9, 23 of the screen 2 and, more particularly, of the box 9 of the concealment device 3.
Here, the battery 24 is disposed inside the box 9.
Alternatively, the battery 24 is disposed outside the box 9.
Here and as illustrated in FIGS. 4 and 5, the battery 24 is electrically connected directly to the electronic control unit 15 by the power supply cable 18.
Advantageously, the first motorized drive device 5 and, in particular, the electronic control unit 15, comprises loading elements configured to charge the battery 24 from the electrical energy supplied by an external power source. 25.
Here, the battery 24 is of rechargeable type and supplies electrical energy to the electromechanical actuator 11 of the first motorized drive device 5.
The battery 24 includes one or more energy storage elements. The energy storage elements of the battery 24 may be, in particular, rechargeable batteries.
The autonomous electric power supply device 26 comprises a power supply cable 28.
Here, the power supply cable 28 is a flat electrical cable, as can be seen in FIGS. 5 and 8.
The autonomous electric power supply device 26 comprises a first electrical connection element 27.
The first electrical connection element 27 is electrically connected to the battery 24, in particular by the power supply cable 28.
The first electrical connection element 27 is configured to be connected to the external power supply 25, so as to recharge the battery 24. By way of non-limiting example, the external power supply 25 is a charger which can to be connected to a wall socket, so as to recharge the battery 24 from a power supply network.
The first electrical connection element 27 is disposed at a free end 282 of the power supply cable 28.
In practice, the first electrical connection element 27 comprises an electrical connector.
Here, the electrical connector of the first electrical connection element 27 is configured to cooperate, when the power supply cable 28 is unwound, as can be seen in FIG. 5, with an electrical connector 64 connected by a power supply cable 65 to the external power supply 25.
The concealment device 3 comprises a second motorized drive device 29.
The second motorized drive device 29 will be described in more detail with reference to FIGS. 4 to 8.
The second motorized drive device 29 comprises at least one electromechanical actuator 30 for winding and unrolling the power supply cable 28 on a winding coil 31, between a wound position and an unwound position.
The second motorized drive device 29 makes it possible to establish an electrical connection between the first electrical connection element 27 disposed at one end of the power supply cable 28 and the battery 24 disposed at the level of the holding device 9, 23 of the screen 2, in particular at the level of the box 9.
The power supply cable 28 electrically connects the first electrical connection element 27 to the battery 24. The electromechanical actuator 30 of the second motorized drive device 29 is electrically connected to the autonomous electrical energy supply device 26.
Thus, the concealment device 3 comprises two independent motorized drive devices 5, 29 respectively comprising an electromechanical actuator 11, 30, where the first motorized drive device 5 makes it possible to move the screen 2, between a high position and a low position, and where the second motorized driving device 29 can wind and unwind the power supply cable 28 around the winding coil 31, between a wound position and a unwound position, so as to be able to have access to the first electrical connection element 27 for recharging the battery 24 disposed at the level of the holding device 9, 23 of the screen 2, in particular at the level of the box 9.
In this way, the electrical connection between the first electrical connection element 27 and the battery 24 disposed at the level of the holding device 9, 23 of the screen 2 is implemented through the electric power cable 28 which can be rolled up by the second motorized driving device 29, independently of the first motorized drive device 5 for moving the screen 2, between a high position and a low position, so as to guarantee the reliability of this electrical connection and to minimize the costs of obtaining the home automation system.
In addition, the positioning of the first electrical connection element 27 at one end of the power supply cable 28 facilitates for the user the electrical connection of the external power supply source 25 to the first electrical connection element 27, since this electrical connection between the first electrical connection element 27 and the external power supply source 25 can be implemented when the power supply cable 28 is in the unwound position with respect to the winding coil 31, or between the wound position on the winding spool 31 and the unrolled position.
Moreover, the battery 24 can be recharged without having to dismount part of the home automation system and, in particular, the holding device 9, 23 of the screen 2, in particular the box 9. The electromechanical actuator 30 of the second motorized drive device 29 is distinct from the electromechanical actuator 11 of the first motorized drive device 5. The electromechanical actuator 11 of the first motorized drive device 5 may be called the first electromechanical actuator and the electromechanical actuator 30 of the second motorized drive device 29 may be called the second electromechanical actuator.
The second electromechanical actuator 30 is supplied with electrical energy by means of the battery 24. This second electromechanical actuator 30 makes it possible to move the first electrical connection element 27 during the winding or during the unwinding of the power supply cable 28 around of the winding spool 31.
Here, the second electromechanical actuator 30 also comprises a power supply cable 32, allowing its electrical power supply from the battery 24.
In practice, the electromechanical actuator 30 of the second motorized drive device 29 comprises at least one electric motor 33, whose output shaft 34 is connected to the winding coil 31 of the power supply cable 28.
Advantageously, the electromechanical actuator 30 also comprises a gear reduction device 35.
In one embodiment, the electromechanical actuator 30 may also include a limit and / or obstacle detection device, which may be mechanical or electronic.
As mentioned above, the first electrical connection element 27 is disposed at the free end 282 of the power supply cable 28. This free end 282 of the power supply cable 28 is opposite the end of the cable power supply 28 fixed on the winding coil 31.
In practice, the power supply cable 28 comprises a ballast 58, so as to keep this power supply cable 28 in tension. The ballast 58 is fixed to the free end 282 of the power supply cable 28.
Thus, during winding and unwinding of the power supply cable 28 by means of the second motorized drive device 29, the power supply cable 28 is held in tension by the ballast 58, so as to guarantee the winding and unwinding of this power supply cable 28 around the winding coil 31.
Advantageously, the weight of the ballast 58 disposed at the free end 282 of the power supply cable 28 is dependent on the stiffness of the power supply cable 28, during the winding of the latter around the winding coil 31 .
Here, the first electrical connection element 27 is formed in the ballast 58 fixed to the free end of the power supply cable 28.
The second motorized drive device 29 comprises a plate 38. The plate 38 is mounted on the holding device 9, 23 of the screen 2, in particular on the box 9, by means of fastening elements 38a, 39.
The fastening elements of the second motorized drive device 29 on the box 9 may be, in particular, fastening elements snap elastic, by interlocking or by screwing.
In a first case, as illustrated in FIGS. 4 to 8, the second motorized drive device 29 is disposed outside the holding device 9, 23 of the screen 2, and in particular of the box 9.
In such a case, the box 9 of the occulting device 3 comprises grooves 39 cooperating with edges 38a, in particular longitudinal, of the plate 38 of the second motorized drive device 29, so as to slide the plate 38 on along a wall 37 of the box 9.
Here and as illustrated in FIGS. 4 to 6, the grooves 39 of the box 9 are formed on an external face of a lateral wall 37 of the box 9.
Thus, the plate 38 can slide along the side wall 37 of the box 9 by means of the grooves 39, during the assembly of the second motorized drive device 29 on the box 9 and, in particular, the mounting of the plate 38 on the box 9.
The grooves 39 of the box 9 and the edges 38a of the plate 38 form the fastening elements of the plate 38 on the box 9.
Preferably, the second motorized drive device 29 is held in position on the holding device 9, 23 of the screen 2, in particular the box 9, by locking elements, not shown.
Thus, the blocking elements of the second motorized drive device 29, in particular of the plate 38, on the holding device 9, 23 of the screen 2, in particular the box 9, make it possible to guarantee the positioning of the second device motorized drive 29 relative to the holding device 9, 23 of the screen 2.
In the exemplary embodiment illustrated in FIGS. 4 to 8, the locking elements of the second motorized drive device 29, in particular of the plate 38, on the casing 9 comprise at least one pressure screw bearing on the lateral wall. 37 of the box 9, in particular the side wall 37 of the box 9 disposed opposite the plate 38. The pressure screw cooperates with a fixing hole formed in the plate 38, then with the side wall 37 of the box 9, so as to immobilize the second motorized drive device 29 relative to the box 9 and, in particular, to guarantee the longitudinal positioning of the second motorized drive device 29 with respect to the box 9.
The locking elements, in particular of the plate 38, on the holding device 9, 23 of the screen 2, in particular the box 9, may be different and, in particular, be screwing elements, snap elastic or still collage.
In a second case, not shown, the second motorized drive device 29 is disposed inside the holding device 9, 23 of the screen 2, and in particular the box 9.
The winding coil 31 of the power supply cable 28 is rotatable about an axis X52 with respect to the plate 38, this axis X52 being defined by means of a rotation shaft 52. The rotation shaft 52 of the winding coil 31 also comprises an electrical connection element, in particular a second electrical connection element 57 of the autonomous electric power supply device 26.
Here, the second electrical connection element 57 is formed by the rotation shaft 52 of the winding coil 31.
In practice, the second electrical connection element 57 is electrically connected, on the one hand, to the power supply cable 28 and, on the other hand, to the battery 24 by means of electrical supply wires, not shown.
The second electrical connection element 57 is thus disposed at the level of the holding device 9, 23 of the screen 2 and, more particularly, of the box 9 of the concealment device 3.
Here, the power supply cable 28 comprises a plurality of electrical plugs, in particular two in number, cooperating respectively with a notch formed in the winding coil 31.
In addition, the electrical connection between the power supply cable 28 and the second electrical connection element 57 is implemented by an elastic return element 59, as illustrated in FIGS. 7 and 8.
Advantageously, the box 9 comprises an opening, not shown, so as to allow the passage of the rotation shaft 52 through it and, more particularly the passage of the power supply son connecting the second electrical connection element 57 to the battery 24.
Here, the opening is formed in the side wall 37 of the box 9, along which is disposed the second motorized drive device 29.
Furthermore, the plate 38 of the second motorized drive device 29 also comprises an opening, not shown, so as to allow the passage of the rotation shaft 52 through the latter and, more particularly the passage of the son of power supply connecting the second electrical connection element 57 to the battery 24.
In practice, the gear reduction device 35 and the electric motor 33 of the second motorized drive device 29 are mounted on a support 40, as illustrated in FIGS. 6 to 8.
Advantageously, the winding coil 31 is mounted in free rotation relative to the support 40 by means of a bearing 62.
Here, the bearing 62 passes through an opening 63 formed in the wall 43 of the support 40.
In addition, the bearing 62 is an integral part of the winding coil 31, so as to form a single piece. The electromechanical actuator 30 is mounted on the plate 38 by means of fasteners 54.
Advantageously, the support 40 is fixed on the plate 38 by means of fixing elements 41, 54, in particular by screwing.
Here, the plate 38 comprises studs 41. The studs 41 of the plate 38 cooperate with fastening screws 54, so as to assemble the support 40 on the plate 38. The fastening screws 54 pass through through holes 42 formed in a wall 43 of the support 40.
The studs 41 and the fastening screws 54 form, at least in part, the fastening elements of the support 40 on the plate 38.
The support 40 is positioned on the plate 38 by means of stops 45.
Here, the stops 45 are formed by the studs 41 of the plate 38, in particular by a face of the studs 41 placed against the wall 43 of the support 40.
Advantageously, the distance between the support 40 and the plate 38 is a function of the length of the studs 41. By way of non-limiting example, the plate 38 comprises five studs 41 cooperating respectively with a fastening screw 54. And each fastening screw 54 cooperates with a through hole 42 of the support 40.
As illustrated in Figures 6 and 8, the electric motor 33 of the second motorized drive device 29 is fixed on the support 40 by means of fasteners 60, in particular by screwing.
Here, the electric motor 33 of the second motorized drive device 29 comprises a body 33a in which there are provided fixing holes 33b. The fixing holes 33b formed in the body 33a of the electric motor 33 cooperate with fixing screws 60, so as to assemble the electric motor 33 of the second motorized drive device 29 on the support 40. The fastening screws 60 pass through passage holes 61 formed in the wall 43 of the support 40.
The fixing holes 33b formed in the body 33a of the electric motor 33 and the fixing screws 60 form at least in part the fixing elements of the electric motor 33 of the second motorized drive device 29 on the support 40. output 34 of the electromechanical actuator 30 of the second motorized drive device 29 is coupled to the winding spool 31, in particular by means of the gear reduction device 35.
In practice, the electric motor 33 of the second motorized drive device 29 is electrically connected to the battery 24 by means of the power supply cable 32. The box 9 and the plate 38 respectively comprise a passage opening of the power cable. electric 32.
In the exemplary embodiment illustrated in FIGS. 6 to 8, the output shaft 34 of the electric motor 33 comprises a gear 46.
The gear reduction device 35 further comprises a plurality of gears 47, 48, 49. The gears 47, 48, 49 of the gear reduction device 35 are mounted on the carrier 40 by means of rotation shafts. 50, 51.
Here, the rotation shafts 50, 51 supporting the gears 47, 48, 49 of the gear reduction device 35 extend between the support 40 and the plate 38. The rotation shafts 50, 51 are respectively maintained by means of an opening 38b formed in the plate 38 and a fixing screw 55 passing through a passage opening 44 formed in the support 40. The gear 48 of the gear reduction device 35 has been removed in FIG. 7 , so as to facilitate the reading of this figure and, in particular, to display the rotation shaft 50. In Figure 8, this gear 48 is masked by the gear 47. In contrast, this gear 48 is visible at Figure 6. The gear 46 mounted on the output shaft 34 of the electric motor 33 cooperates with the gear 47 of the gear reduction device 35. The gear 47 is the first gear of the gear reduction device 35.
Here, the gear 46 and the gear 47 form a wheel and worm link.
The winding coil 31 of the power supply cable 28 has a gear 53. The gear 53 is mounted on the rotation shaft 52.
Here, the gear 53 and the winding spool 31 form a single piece mounted on the rotation shaft 52.
Alternatively, the gear 53 and the winding spool 31 are two separate parts mounted on the rotation shaft 52. The gear 53 cooperates with the gear 49 of the gear reduction device 35. The gear 49 is the last gear of the gear reduction device 35.
Advantageously, the second motorized drive device 29 comprises a cover 55. The cover 55 is mounted on the holding device 9, 23 of the screen 2, in particular on the casing 9 of the concealment device 3, by means of FIG. fixing elements 56.
Preferably, the fastening elements 56 of the second motorized drive device 29 on the casing 9 of the concealment device 3 are elastic snap-fastening elements.
In practice, the elastic snap-fastening elements 56 of the second motorized drive device 29 cooperate with a side wall 37 of the box 9 and, more particularly, bear against an upper edge of the side wall 37 of the box 9 and a border bottom of the side wall 37 of the box 9.
Here, the snap fastening of the second motorized drive device 29 on the side wall 37 of the box 9 is implemented by an elastic deformation of the cover 55 of the second motorized drive device 29 and by the establishment of legs 56 of the cover 55, on the one hand, against the upper edge of the side wall 37 of the box 9 and, on the other hand, against the lower edge of the side wall 37 of the box 9.
In practice, the snap fastening of the second motorized drive device 29 on the side wall 37 of the box 9 is implemented by an elastic deformation of the tabs 56 of the cover 55. The electromechanical actuator 11 of the first drive device motorized 5 comprises the electronic control unit 15.
Preferably, the electronic control unit 15 controls, on the one hand, the electromechanical actuator 11 of the first motorized drive device 5, in particular the electric motor 16, and, on the other hand, the electromechanical actuator 30 of the second motorized drive device 29, in particular the electric motor 33.
Thus, the first and second motorized drive devices 5, 29 are controlled by means of the same electronic control unit 15, so as to simplify the concealment device 3 and to minimize the costs of obtaining it. .
A method of recharging the battery 24 according to one embodiment of the invention will now be described.
The charging method of the battery 24 comprises at least the following steps, preferably performed in the order mentioned: - lowering of the electrical connection element 27 connected to the power supply cable 28 towards the unwound position by means of of the second motorized drive device 29, and - connection of an external power supply source 25 to the electrical connection element 27 disposed at the end of the power supply cable 28.
Advantageously, the unwinding of the power supply cable 28 is implemented by means of the second motorized drive device 29 to a predetermined charging position of the battery 24.
Preferably, the predetermined charging position of the battery 24 is defined so as to be inaccessible for children, for example at a height of the order of one meter and fifty centimeters from the floor of a room where the room is located. home automation system, so as to ensure safety and to prevent a child from accessing the first electrical connection element 27 located at the free end of the power supply cable 28.
In a first embodiment, prior to the step of lowering the electrical connection element 27, the charging method of the battery 24 comprises at least the following steps: - determination of the charge level of the battery 24, - comparing the determined value of the charge level of the battery 24 with a predetermined threshold value, and - controlling the electromechanical actuator 30 of the second motorized driving device 29, when the determined value of the charge level of the battery 24 is less than the predetermined threshold value.
Thus, the second motorized drive device 29 unwinds the power supply cable 28 when the charge level of the battery 24 is below the predetermined threshold value, so that the electrical connection element 27 is at an accessible height. by the user to recharge the battery 24 from the external power supply 25.
In this way, the unwinding of the power supply cable 28 is automatically implemented by the second motorized drive device 29, in particular by the electronic control unit 15 controlling the second motorized drive device 29, so that to warn the user that the battery 24 needs to be recharged from the external power supply 25.
In addition, the unwinding of the power supply cable 28 by means of the second motorized drive device 29 to the predetermined charging position of the battery 24 makes it possible to visually warn the user of the need to recharge the battery 24. from the external power source 25 and, in particular, without resorting to a specific lighting device or to a particular movement of the second motorized drive device 29.
In a second embodiment, prior to the step of lowering the electrical connection element 27, the charging method of the battery 24 comprises at least the following steps: activation of a selection element of a unit local control unit 12, 14, the local control unit 12, 14 cooperating with the electronic control unit 15 controlling the second motorized drive device 29, and - controlling the electromechanical actuator 30 of the second drive device motorized 29.
Thus, the second motorized drive device 29 unwinds the power supply cable 28 when a selection element of the local control unit 12, 14 has been activated, so that the electrical connection element 27 is a height accessible by the user to recharge the battery 24 from the external power supply source 25. By way of non-limiting example, the activation of a selection element of the local control unit 12, 14 may correspond to a long press, that is to say for a period of time greater than a predetermined threshold value, which may be for example of the order of several seconds. The activation of a selection element of the local control unit 12, 14 for controlling the second motorized drive device 29 can be implemented differently and, in particular, through a specific menu of the local control unit 12, 14, a specific button of the local control unit 12, 14, or by a specific activation sequence of one or more buttons of the local control unit 12, 14 .
Thanks to the present invention, the concealment device comprises two independent motorized drive devices respectively comprising an electromechanical actuator, where the first motorized drive device makes it possible to move the screen, between a high position and a low position, and wherein the second motorized driving device is used to wind and unwind the power supply cable around the winding spool, between a wound position and an unwound position, so that the connection element can be accessed electric battery charging arranged at the screen holding device.
Of course, many modifications can be made to the embodiments described above without departing from the scope of the invention defined by the claims.
In particular, the second motorized drive device 29 can be fixed at the end of the power supply cable 28 comprising the electrical connection element 27, instead of being fixed at the level of the casing 9 of the device. occultation 3.
Thus, the second motorized drive device 29 can be movable relative to the holding device 9, 23 of the screen 2 and moved according to the winding and unwinding of the power supply cable 28 connecting the electrical connection element 27 to the battery 24.
In one embodiment, the autonomous electric power supply device 26 comprises another battery, not shown, so as to supply electrical energy to the second motorized drive device 29, in particular when the battery charge level 24 main power supply of the first motorized drive device 5 has reached a predetermined threshold value.
Thus, the power supply of the second motorized drive device 29 by an auxiliary battery makes it possible to unwind the power supply cable 28 and to level the first electrical connection element 27, so that the battery can be recharged. 24 from the external power source 25, especially when the charge level of the main battery 24 is less than or equal to the predetermined threshold value.
Furthermore, the second motorized drive device 29 may also comprise an electronic control unit, not shown. The electronic control unit of the second motorized drive device 29 can be configured to cooperate with the electronic control unit 15 of the electromechanical actuator 11 of the first motorized drive device 5, so as to exchange data between them. .
In addition, the contemplated embodiments and alternatives may be combined to generate new embodiments of the invention.

权利要求:
Claims (11)
[1" id="c-fr-0001]
A home automation closure or sun protection system comprising a concealment device (3), the concealment device (3) comprising at least: a screen (2), a holding device (9, 23), the screen (2), - a first motorized drive device (5), and - an autonomous electric power supply device (26), the first motorized drive device (5) comprising at least: - a electromechanical actuator (11) for raising and lowering the screen (2) between a high position and a low position, the electromechanical actuator (11) being electrically connected to the autonomous electrical energy supply device (26), the autonomous electric power supply device (26) comprising at least: - a battery (24), the battery (24) being arranged at the level of the holding device (9, 23) of the screen (2), - a power supply cable (28), and - an element electrical connection (27), the electrical connection element (27) being electrically connected to the battery (24) by the power supply cable (28), the electrical connection element (27) being configured to be connected to an external power supply (25), so as to recharge the battery (24), characterized in that the concealment device (3) comprises a second motorized drive device (29), the second motor device motorized drive (29) comprising at least: - an electromechanical actuator (30) for winding and unwinding the power supply cable (28), electrically connecting the electrical connection element (27) to the battery (24); ), on a winding spool (31), between a wound position and an unwound position.
[2" id="c-fr-0002]
2- home automation closure or sunscreen according to claim 1, characterized in that the second motorized drive device (29) is disposed outside a box (9) of the concealment device (3) , the box (9) forming an integral part of the holding device (9, 23) of the screen (2).
[3" id="c-fr-0003]
3- home automation system for closing or sunscreen according to claim 1, characterized in that the second motorized drive device (29) is disposed inside a box (9) of the concealment device (3) , the box (9) forming an integral part of the holding device (9, 23) of the screen (2).
[4" id="c-fr-0004]
4- Home automation closure or sun protection system according to any one of claims 1 to 3, characterized in that the electromechanical actuator (30) of the second motorized drive device (29) comprises at least one electric motor (33 ), whose output shaft (34) is kinematically connected to the winding coil (31) of the power supply cable (28).
[5" id="c-fr-0005]
Domestic home closure or sun protection system according to any one of claims 1 to 4, characterized in that the first motorized drive device (5) comprises an electronic control unit (15), the electronic control unit control (15) controlling, on the one hand, the electromechanical actuator (11) of the first motorized drive device (5) and, on the other hand, the electromechanical actuator (30) of the second motorized drive device ( 29).
[6" id="c-fr-0006]
6- home automation system for closure or sun protection according to any one of claims 1 to 5, characterized in that the second motorized drive device (29) comprises a plate (38), the plate (38) being mounted on the holding device (9, 23) of the screen (2) by means of fixing elements (38a, 39).
[7" id="c-fr-0007]
7- home automation system for closing or sun protection according to claim 6, characterized in that the winding coil (31) of the power supply cable (28) is mounted free to rotate on the plate (38), around an axis of rotation (X52) defined by a rotation shaft (52), the rotation shaft (52) of the winding coil (31) also comprising an electrical connection element (57).
[8" id="c-fr-0008]
8- home automation system for closing or sunscreen according to any one of claims 1 to 7, characterized in that the autonomous electric power supply device (26) comprises another battery, so as to supply electrical energy to the second motorized driving device (29).
[9" id="c-fr-0009]
9- A method of recharging a battery (24) for a home automation closure or sun protection system according to any one of claims 1 to 8, characterized in that said method comprises at least the following steps: - descent of the electrical connection element (27) connected to the power supply cable (28) towards the uncoiled position by means of the second motorized drive device (29), and - connection of an external power supply ( 25) on the electrical connection element (27) disposed at the end of the power supply cable (28).
[10" id="c-fr-0010]
10- A method of recharging a battery (24) for a home automation closure or sun protection system according to claim 9, characterized in that, prior to the step of lowering the electrical connection element (27), said method comprises at least the following steps: - determining the charge level of the battery (24), - comparing the determined value of the charge level of the battery (24) with a predetermined threshold value, and - controlling the electromechanical actuator (30) of the second motorized driving device (29), when the determined value of the charge level of the battery (24) is lower than the predetermined threshold value.
[11" id="c-fr-0011]
11- A method of recharging a battery (24) for a home automation closure or sun protection system according to claim 9, characterized in that, prior to the step of lowering the electrical connection element (27), said method comprises at least the following steps: - activation of a selection element of a local control unit (12, 14), the local control unit (12, 14) cooperating with an electronic control unit (15) ) controlling the second motorized driving device (29), and - controlling the electromechanical actuator (30) of the second motorized drive device (29).

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同族专利:

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公开号 | 公开日

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CN107923220B|2019-03-05|

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US10227822B2|2019-03-12|

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US20180202227A1|2018-07-19|

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WO2017036947A1|2017-03-09|

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FR3040420B1|2017-10-06|

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EP3341551B1|2019-08-21|

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CN107923220A|2018-04-17|

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EP3341551A1|2018-07-04|

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法律状态:
2016-07-27| PLFP| Fee payment|Year of fee payment: 2 |

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2017-03-03| PLSC| Search report ready|Effective date: 20170303 |

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2017-07-25| PLFP| Fee payment|Year of fee payment: 3 |

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2018-08-01| PLFP| Fee payment|Year of fee payment: 4 |

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2019-07-24| PLFP| Fee payment|Year of fee payment: 5 |

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2021-05-07| ST| Notification of lapse|Effective date: 20210405 |

优先权:

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申请号 | 申请日 | 专利标题

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FR1558008A|FR3040420B1|2015-08-28|2015-08-28|DOMOTIC CLOSURE OR SOLAR PROTECTION INSTALLATION AND METHOD FOR RECHARGING A BATTERY FOR SUCH A INSTALLATION|FR1558008A| FR3040420B1|2015-08-28|2015-08-28|DOMOTIC CLOSURE OR SOLAR PROTECTION INSTALLATION AND METHOD FOR RECHARGING A BATTERY FOR SUCH A INSTALLATION|

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CN201680050286.1A| CN107923220B|2015-08-28|2016-08-26|The accumulator charging method of closing or sunshade home automation installation and this equipment|

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PCT/EP2016/070170| WO2017036947A1|2015-08-28|2016-08-26|Home-automation equipment for closure or solar protection and method for recharging a battery for such equipment|

---

EP16757644.6A| EP3341551B1|2015-08-28|2016-08-26|Home-automation equipment for closure or solar protection and method for recharging a battery for such equipment|

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US15/744,292| US10227822B2|2015-08-28|2016-08-26|Home-automation equipment for closure or solar protection and method for recharging a battery for such equipment|