FR3113207A1 - Emergency power supply unit for an electromechanical actuator of a closing, screening or solar protection installation, box comprising such a box and installation comprising such a box - Google Patents

Abstract

Emergency power supply unit for an electromechanical actuator of a closing, screening or solar protection installation, box comprising such a box and installation comprising such a box. An emergency power supply unit (25) of an electromechanical actuator of a closing, shading or solar protection installation (1) comprises a casing and an emergency power supply connector configured to be electrically connected to an electrical power source and to the electromechanical actuator. The housing further comprises a first housing, defining a first cavity arranged in the casing, so as to receive an electrical power cable connecting the connector to the actuator, and a second housing, defining a second cavity arranged in the housing, so as to receive a radio antenna connected to the actuator and communicating with a radio transmitter. The invention also relates to a box equipped with such a box, as well as an installation comprising such a box. Figure for abstract: Fig. 3

Description

Emergency power supply box for an electromechanical actuator of a closing, screening or solar protection installation, box comprising such a box and installation comprising such a box

The present invention relates to an emergency power supply unit for an electromechanical actuator of a closing, screening or solar protection installation, in other words for a closing, screening or solar protection installation. The invention also relates to a box comprising such a box, as well as a closing, screening or solar protection installation comprising such a box.

In general, the present invention relates to the field of closing, screening or solar protection installations, comprising a motorized drive device moving a screen between at least a first position and at least a second position.

In the rest of the description, the term "screen" designates a mobile element for closing, concealment or solar protection, such as a shutter, a door, a grille, a blind or any other equivalent material.

A closure, screening or solar protection installation is shown in Figures 1 and 2 illustrating respectively a cross-sectional view of a prior art installation and an isometric view of the installation of Figure 1.

The installation 1 is mounted in a building B comprising a wall M and an opening 3, window or door, equipped with a screen 5 belonging to a device for closing, screening or solar protection 7, in particular a rolling shutter , a roll-up blind, a pleated or slatted blind or even a rolling gate. The closing, screening or solar protection device 7 is hereinafter referred to as the “screening device”.

The screening device 7 comprises a winding tube 9 and a motorized drive device 11. The motorized drive device 11 comprises an electromechanical actuator 4. The electromechanical actuator 4 is mounted inside the winding 9.

The screen 5 of the concealment device 7 is rolled up on the winding tube 9, itself driven by the motorized drive device 11. Thus, the screen 5 is movable between a rolled up position and a low position. unfolded.

The concealment device 7 further comprises a box 13, generally metallic, in which are housed the winding tube 9 and the motorized drive device 11.

The electromechanical actuator 4 of the motorized drive device 11 is supplied with electrical energy by means of at least one electrical energy supply source, which can be, for example, a battery 10. The battery 10 can be housed at the inside the box 13. The battery 10 can be electrically connected to one or more solar panels 12, installed on the box 13 or near the screening device 7, for recharging the battery 10 with energy.

Advantageously, an emergency power connector, not shown, connected to the electromechanical actuator 4 directly or via the battery 10 and mounted on the casing 13, is used to provide a secondary electrical power supply to the electromechanical actuator 4 in insufficiency of the main electrical energy supply supplied by the solar panel(s) 12.

The electromechanical actuator 4 can be activated remotely, so as to allow the movement of the screen 5 of the concealment device 3.

To do this, an electronic control unit 15, as illustrated in FIG. 2, controls the supply of electrical energy to the electromechanical actuator 4. The electronic control unit 15 further comprises a communication module 17, connected to a radio antenna 19 mounted outside the casing 13, in particular in the rear part of the casing 13, and capable of receiving control commands transmitted by a command transmitter, in particular a remote control 21, in order to allow a user to operate on the electromechanical actuator 4. The radio antenna 19 is generally in the form of a flexible cable.

Thus, the screen 5 is operated remotely thanks to the radioelectric communication between the remote control 21 and the radioelectric antenna 19, which is connected to the communication module 17 of the electronic control unit 15.

The fact of mounting the radioelectric antenna 19 outside the casing 13 affects the general aesthetics of the installation 1.

Also, it has been found that some users move the radio antenna 19 relative to the box 13 so as to make it less visible. This reduces the quality of radio communication between the radio antenna 19 and the remote control 21.

In other situations, it has been found that some users cut the radio antenna 19, in order to make the installation 1 more aesthetic. The radioelectric communication between the radioelectric antenna 19 and the remote control 21 is in this case broken.

The remote activation of the electromechanical actuator 4 is then damaged, or even rendered impossible when the radio antenna 19 is cut off.

A solution consisting in integrating the radio antenna 19 directly into the box 13, in particular metal, is not satisfactory, because a Faraday cage effect occurs, impacting the range of the radio antenna 19 and thus making the radio communication bad between the radio antenna 19 and the remote control 21.

The present invention aims to overcome the above drawbacks and to do this relates to an emergency power supply box for an electromechanical actuator of a closing, concealment or solar protection installation,
the emergency power unit comprising at least:
- a casing, and
- an emergency power connector, the emergency power connector being configured to be electrically connected, on the one hand, to an external electric power supply source and, on the other hand, to the electromechanical actuator .
According to the invention, the emergency power unit further comprises at least:
- a first housing, the first housing defining a first cavity arranged in the casing, so as to receive a power supply cable configured to electrically connect the emergency power supply connector and the electromechanical actuator, and
- A second housing, the second housing defining a second cavity arranged in the housing, so as to receive a radio antenna configured to be connected to the electromechanical actuator and configured to communicate with a radio transmitter.

Thus, the emergency power supply unit, comprising an emergency power supply connector, comprises a housing configured to receive the radioelectric antenna, mounted in the prior art outside a casing of the installation.

In this way, the aesthetics of the installation comprising such an emergency power supply unit is no longer impacted and users are no longer tempted to move or remove the radio antenna.

Also, by planning to equip the emergency power supply box with a housing to receive the radio antenna, the configuration of the radio antenna in the installation can be more easily determined, in particular by an installer or a repairer. In addition, it is thus possible to more easily guarantee a transmission and/or reception range of the radioelectric antenna. Indeed, since the radio antenna is no longer free in the installation, the same transmission and/or reception range characteristics are obtained from one installation to another.

According to a variant embodiment, it is envisaged to provide a radioelectric antenna support box instead of the emergency power supply box according to the invention.

This radio antenna support box differs from the emergency power supply box of the invention in that it does not include any emergency power supply connector and in that it comprises a housing, of similar design to the second housing . Such a radio antenna support box thus lacks the first housing, as mentioned above.

For this purpose, the radio antenna support box of a closing, screening or solar protection installation comprises a casing.

According to the invention, the radio antenna support box further comprises a housing, defining a cavity arranged in the housing, so as to receive a radio antenna configured to be connected to the electromechanical actuator and configured to communicate with a radio transmitter. The radio antenna support box is configured to be inserted into a cutout of a casing of the installation, in particular a cutout on a rear wall of the casing, in which the electromechanical actuator is housed.

According to optional characteristics of the emergency power unit of the invention:
- The second housing extends straight in the housing;
- The second housing extends along a longitudinal axis of the emergency power unit;
- The second housing extends in a direction substantially parallel to that of the first housing;
- The second housing extends over a length of between about 8 centimeters and about 12 centimeters;
- the housing further comprises at least one access hatch, the access hatch being configured to access the emergency power supply connector, the access hatch comprising at least:
a closure member slidably mounted along a side wall of the backup power box between a closed position, in which the backup power connector is inaccessible from outside the backup power box , and an open position, in which the backup power connector is accessible from outside the backup power box, and
an operating pin of the closing member, the operating pin being secured to the closing member and being accessible from outside the emergency power supply unit. Thus, the access hatch can be opened in order to be able to access the emergency power supply connector and the access hatch can be closed after use. The fact of providing an access hatch makes it possible to hide the emergency power supply connector outside times of use. This protects the emergency power supply connector from insects and splashing water. By making the access hatch sliding, the risk of losing any removable cap, making it possible to hide the emergency power supply connector, is avoided. This makes it possible to obtain an easy-to-use, discreet and reliable closing system; And
- the access hatch further comprises an elastic return element, the elastic return element being configured to return the closure member to its closed position. This makes it possible to improve the ergonomics of use of the emergency power supply unit.

According to optional characteristics of the radio antenna support box of the invention:
- the housing extends along a longitudinal axis of the radio antenna support housing;
- the housing extends over a length of between about 8 centimeters and about 12 centimeters.

The invention also relates to a casing of a closing, screening or solar protection installation, in other words for a closing, screening or solar protection installation. The box includes at least:
- an electromechanical actuator, and
- an emergency power supply box according to the invention, as mentioned above, or a radio antenna support box, the radio antenna support box comprising a casing, the casing comprising a housing defining a cavity arranged in the housing, so as to receive a radio antenna configured to be connected to the electromechanical actuator and configured to communicate with a radio transmitter.

According to optional characteristics of the box of the invention:
- the casing is made of a plastic material and the box comprises at least one cutout, the cutout being configured to receive the emergency power supply unit. The fact of providing a cut-out of the box, in particular metal, and of mounting the radioelectric antenna in the emergency power supply box, made of a plastic material, makes it possible to limit the Faraday cage effect. A deterioration in the transmission and/or reception performance of the radio antenna is avoided compared to certain solutions of the prior art, where the radio antenna is mounted directly in the box, in particular metal, inducing a cage effect of Faraday in the box. The communication between the radio antenna and a radio transmitter, such as, for example, a remote control, is thus improved compared to the prior art; And
- The cutout is made in a rear wall of the box.

According to optional characteristics of the box of the invention:
- the housing is made of a plastic material and the box comprises at least one cutout, the cutout being configured to receive the radio antenna support box. The fact of providing a cut-out of the casing, in particular metallic, and of mounting the radioelectric antenna in the radioelectric antenna support box, made of a plastic material, makes it possible to limit the Faraday cage effect. A deterioration in the transmission and/or reception performance of the radio antenna is avoided compared to certain solutions of the prior art, where the radio antenna is mounted directly in the box, in particular metal, inducing a cage effect of Faraday in the box. In addition, the radio antenna is positioned in a predefined manner with respect to the box. The communication between the radio antenna and a radio transmitter, such as, for example, a remote control, is thus improved compared to the prior art; And
- The cutout is made in a rear wall of the box.

The invention also relates to a closing, screening or solar protection installation comprising at least:
- a box according to the invention, as mentioned above,
- a winding tube, the winding tube being mounted in the casing and being arranged so as to be driven in rotation by the electromechanical actuator, and
- A screen, the screen being arranged so as to be rolled up on the winding tube.

According to optional characteristics of the closure, concealment or solar protection installation of the invention, the installation further comprises a tulip, the tulip being mounted inside the box and being arranged to guide the screen relative to the winding tube. In addition, the radio antenna is mounted between the tulip and a rear wall of the box.

Other characteristics, objects and advantages of the invention will appear on reading the following detailed description for the understanding of which reference will be made to the appended drawings in which:

Figure 1 is a schematic cross-sectional view of an installation according to the prior art.

Figure 2 is a schematic perspective view of the installation illustrated in Figure 1.

FIG. 3 is a schematic perspective view of part of an installation, according to the invention, the installation comprising a box and an emergency power supply box, according to the invention.

Figure 4 is a schematic perspective view of the emergency power unit of the installation illustrated in Figure 3.

FIG. 5 is a schematic perspective view of the emergency power unit illustrated in FIG. 4, according to another angle of view.

FIG. 6 is a view similar to FIG. 5, the interior of the emergency power supply unit being shown in transparency.

Figure 7 is a schematic perspective view of the emergency power supply unit illustrated in Figures 4 to 6, in which an access hatch is in a closed position.

Figure 8 is a view similar to Figure 7, in which the access door is in an open position.

Figure 9 is a view similar to Figures 7 and 8, in which the access door is in the open position and in which an emergency power supply connector is visible.

FIG. 10 is a schematic perspective view of part of the installation illustrated in FIG. 3, according to another angle of view.

FIG. 11 is a schematic view in perspective and in section of the installation illustrated in FIGS. 3 and 10, according to another angle of view.

Reference is made to FIG. 3 illustrating in rear isometric view a box 23, according to the invention, configured to be mounted in a closing, screening or solar protection installation 1, according to the invention.

In general, the so-called autonomous electromechanical actuators 4 are supplied with electrical energy via one or more batteries 10 mounted in or near the box 23.

This or these batteries 10 are generally charged via one or more solar panels 12 arranged on the casing 23 of the installation 1 or near the casing 23.

When the energy accumulated in the battery or batteries 10 is insufficient to allow activation of the electromechanical actuator 4, for example in the event of prolonged bad weather, an emergency power unit 25 is provided to temporarily power the electromechanical actuator. 4 in electrical energy. The electromechanical actuator 4, the battery(ies) 10 and the solar panel(s) 12 are represented in figure 1.

Reference is now made to FIGS. 4 and 5 respectively illustrating the emergency power supply unit 25, according to the invention, in rear and front isometric view.

The emergency power supply unit 25 comprises a casing 27, of substantially parallelepipedal shape, comprising a rear wall 29 and a front wall 31. The casing 27 comprises a recess 33 for receiving one or more cables, in particular power cables. in electrical energy, not shown. The recess 33 is defined when the front 31 and rear 29 walls of the casing 27 are assembled together. The recess 33 makes it possible to accommodate part of the cable or cables, in particular electrical power supply intended to connect an emergency power supply connector 30, as illustrated in FIG. 6, to the electromechanical actuator 4 .

The emergency power supply box 25 includes the emergency power connector 30, which cooperates with an emergency power socket 35. The emergency power socket 35 is shown in Figures 4 to 6, 9 and 11 in position connected with the emergency power connector 30. The emergency power socket 35 is electrically connected with a charger or a mains power socket, not shown, so as to supply electrical energy to the electromechanical actuator 4 or the battery(ies) 10.

Thus, the emergency power supply connector 30 is configured to be electrically connected, on the one hand, to an external power supply source and, on the other hand, to the electromechanical actuator 4 by one or more cables. power supply.

Reference is now made to Figure 6, which is a view similar to that of Figure 5 but in which the interior of the emergency power supply box 25 is shown in transparency.

The emergency power supply unit 25 comprises a housing 37, referred to in the following description as the “first housing”.

The first housing 37 defines a cavity arranged in the casing 27, so as to receive one or more power supply cables, not shown, electrically connecting the emergency power supply connector 30 and the electromechanical actuator 4.

The first housing 37 emerges at the level of an orifice 39 made in a side edge 41 of the casing 27, so as to allow a passage between the first housing 37 and the recess 33.

When the electrical energy supplied by the solar panel(s) 12 and/or by the battery(ies) 10 is insufficient to allow activation of the electromechanical actuator 4, it is still possible to use the installation 1 by connecting the connector emergency power supply 30 to the external electrical energy supply source.

The emergency power unit 25 further comprises a second housing 43.

The second housing 43 defines a cavity arranged in the casing 27, so as to receive a radio antenna 40, as illustrated in FIG. 6. The radio antenna 40 is configured to be electrically connected to the electromechanical actuator 4 and is configured to communicate with a radio transmitter, such as, for example, a remote control 21, shown in Figure 2.

The second housing 43 emerges at the level of an orifice 45 provided at the level of the side edge 41 of the casing 27, so as to allow a passage between the second housing 43 and the recess 33.

Thus, the emergency power supply unit 25 comprises a first housing 37 configured to receive one or more power supply cables, so as to electrically connect the emergency power supply connector 30 to the electromechanical actuator 4, either directly or via the battery or batteries 10, and a second housing 43 configured to integrate the radio antenna 40. One end of the radio antenna 40, connected in particular to the electromechanical actuator 4, can thus be inserted by the orifice 45 in the second housing 43, in which it is held in a predefined position.

Thus, the aesthetics of the installation 1 comprising the emergency power supply unit 25 is no longer impacted, the radioelectric antenna 40 no longer being visible from the outside of the installation 1. are thus more tempted to move or remove the radio antenna 40 from the installation 1. Also, by planning to equip the emergency power supply unit 25 of the second housing 43 to receive the radio antenna 40, the configuration of the The radio antenna 40 in the installation 1 can be more easily determined, in particular by an installer or a repairman. Furthermore, a transmission and/or reception range of the radio antenna 40 is guaranteed more easily. Indeed, since the radio antenna 40 is no longer free in the installation 1, the same transmission and/or reception range characteristics are obtained from one installation 1 to another.

Advantageously, the second housing 43 extends straight in the housing 27. This makes it possible to further improve the transmission and/or reception performance of the radio antenna 40, when the radio antenna 40 for transmission and /or reception is mounted in the emergency power box 25.

Advantageously, the second housing 43 extends along a longitudinal axis 47 of the emergency power supply unit 25, as illustrated in FIG. 6. Also, in order to simplify the manufacture of the emergency power supply unit 25 , it is envisaged that the first housing 37 and the second housing 43 extend parallel to each other.

By way of example, the second housing 43 extends over a predefined length, between about 8 centimeters and about 12 centimeters, preferably about 10 centimeters, greater than an active length of the radio antenna 40 for a frequency given radio frequency. This prevents one end of the radio antenna 40 inserted in the second housing 43 from being too close to a metal part of the box 23 or of the installation 1.

Advantageously, the casing 27 further comprises an access hatch 49. The access hatch 49 is configured to allow, according to a closed position illustrated in FIG. 7 representing the emergency power supply box 25 in isometric view rear, to close access to the emergency power connector 30, when there is no need to access it. For this purpose, the casing 27 has an opening 50 made in a side wall 51 of the casing 27.

In the closed position, the emergency power supply connector 30 is inaccessible, in other words is not accessible, from the exterior of the emergency power supply box 25.

Thus, the access hatch 49 makes it possible to hide the emergency power supply connector 30 outside times of use, so as to protect the emergency power supply connector 30 against insects and splashing water.

To do this, the access hatch 49 is provided at the level of the side wall 51 of the casing 27, opposite the emergency power supply connector 30 of the emergency power supply box 25.

The access hatch 49 comprises a closure member 53, as illustrated in FIG. 7, in particular of flat shape, mounted to slide along the casing 27, in particular the side wall 51 of the casing 27.

The closure member 53 slides, in other words is configured to slide, between the closed position, illustrated in Figure 7, and an open position, illustrated in Figure 8, in which the opening 50 is released.

The alternating passage between the closed position and the open position is facilitated thanks to an operating pin 57 secured to the closing member 53. The operating pin 57 is accessible from outside the emergency power supply unit 25 by a user.

In this open position, the backup power connector 30 is made accessible from outside the backup power box 25. Figure 8 illustrates the access door 49 in the open position, the power socket backup 35 not yet connected to the backup power connector 30.

According to a variant embodiment not shown in Figures 3 to 11, the access hatch 49 comprises at least one elastic return element, such as, for example, a spring, configured to return the closure member 53 to its closed position. . This variant makes it possible to improve the ergonomics of use of the emergency power supply unit 25.

Reference is now made to Figure 9 illustrating the emergency power supply box 25, where the access door 49 is in the open position and the emergency power socket 35 is connected to the emergency power connector 30. The emergency power supply socket 35 then partially penetrates the emergency power supply box 25, when the closure member 53 is in the open position.

According to a variant not shown, the emergency power supply connector 30 can be mounted in the emergency power supply box 25 with an ejection device, for example by means of a spring-loaded pusher system. When the access door 49 is in the open position, the user wishing to access the emergency power supply connector 30 exerts pressure on it so as to deploy it outside the emergency power supply box 25, in particular the housing 27, under the effect of the ejection device. After using the emergency power supply connector, the closing of the access hatch 49 is obtained by shifting the emergency power supply connector 30 inside the emergency power supply box 25, in particular the casing 27, against the effect of the ejection device and by causing the closure member 53 to slide in the opposite direction until it reaches the closed position.

By making the access hatch 49 slide, there is no risk of losing any removable cap allowing the emergency power supply connector 30 of the emergency power supply unit 25 to be hidden. obtain an easy-to-use, discreet and reliable locking system.

We now refer to Figure 10 partially showing the box 23, in particular metal, according to the invention, in rear isometric view.

Advantageously, the box 23 comprises at least one cutout 59. The cutout 59 is configured to receive the emergency power supply unit 25. The emergency power supply unit 25 is integrated into the cutout 59 and is fixed to the box 23, in particular thanks to a fixing plate 61 comprising a fixing lug 63. The emergency power supply unit 25 can be fixed to the casing 23 by screwing a screw into the casing 23, through a hole 64 provided in the fixing lug 63.

According to the non-limiting example of Figure 10, the cutout 59 is made in a rear wall 65 of the box 23.

Thus, when the emergency power supply box 25 is made of a plastic material and is integrated into the cutout 59 of the casing 23, the Faraday cage effect is limited due to the casing 23, in particular metal. A deterioration of the transmission and/or reception performance of the radio antenna 40 is then avoided compared to certain solutions of the prior art where the radio antenna is mounted directly in the casing, in particular metal. The communication between the radio antenna 40 and a radio transmitter, such as, for example, a remote control is thus improved compared to the prior art.

Alternatively, the box 23 does not include a cutout and the emergency power supply unit 25 is mounted on the rear wall 65 of the box 23, for example on the outside of the box 23.

We now refer to Figure 11 illustrating the installation 1 of the invention, the figure being centered on an interior space 67 of the box 23, a side portion of which has been truncated for better visibility.

The box 23 further comprises a tulip 69. The tulip 69 is arranged in the interior space 67 of the box 23 to guide the screen 5 on the winding tube 9. The screen 5 and the winding tube 9 are not shown in Figure 11.

The emergency power unit 25 is mounted at the rear of the tulip 69 on the side of the rear wall 65 of the casing 23. The rear wall 29 of the casing 27 faces the inside of the casing 23.

According to another advantageous arrangement of the invention, the recess 33 is accessible from inside the casing 23. This allows an installer or a repairer to easily handle the electrical supply cable(s) for the power supply. backup and the radio antenna 40, when the emergency power unit 25 is mounted on the casing 23 and the casing 23 is mounted in the installation 1.

According to a variant embodiment not shown in Figures 3 to 11, it is envisaged to provide a radio antenna support box instead of the emergency power supply box 25 of the invention.

This radio antenna support box differs from the emergency power supply box 25 of the invention in that it does not include any emergency power supply connector 30 and in that it includes a housing, of identical design to the second housing 43 of emergency power unit 25.

To this end, the radio antenna support box of a closing, screening or solar protection installation 1, in other words for a closing, screening or solar protection installation, comprises a casing of design substantially identical to that of the housing 27, except that it comprises only one housing, of similar design to that of the second housing 43 of the housing 27 of the emergency power unit 25.

Thus, the housing defines a cavity arranged in the housing 27, so as to receive a radio antenna 40 configured to be connected to the electromechanical actuator 4 and configured to communicate with a radio transmitter.

The housing 27 of the radio antenna support box is made of a plastic material and the box 23 has the cutout 59 configured to receive the radio antenna support box. The fact of installing the radio antenna support box in the cutout 59 of the casing 23, in particular metal, and of mounting the radio antenna 40 in the radio antenna support box made of a plastic material makes it possible to limit the Faraday cage effect. A deterioration of the transmission and/or reception performance of the radio antenna 40 is then avoided compared to certain solutions of the prior art where the radio antenna 40 is left free with respect to the box 23, in particular metallic. The communication between the radio antenna 40 and a radio transmitter, such as, for example, the remote control 21 is thus improved compared to the prior art.

Advantageously, the cutout 59 of the box 23 is made in the rear wall 65 of the box 23.

It goes without saying that the present invention is not limited to the sole embodiments of this emergency power supply box, of this radioelectric antenna support box, of this box and of this closing, concealment or sun protection, described above solely by way of illustrative examples, but on the contrary it embraces all the variants involving the technical equivalents of the means described as well as their combinations if these fall within the scope of the invention.

Claims (12)

Emergency power supply box (25) for an electromechanical actuator (4) of a closing, concealment or solar protection installation (1),
the emergency power unit (25) comprising at least:
- a casing (27), and
- an emergency power connector (30), the emergency power connector (30) being configured to be electrically connected, on the one hand, to an external electrical power supply source and, on the other hand , to the electromechanical actuator (4),
characterized in that the backup power unit (25) further comprises at least:
- a first housing (37), the first housing (37) defining a first cavity arranged in the casing (27), so as to receive a power supply cable configured to electrically connect the emergency power connector (30) to the electromechanical actuator (4), and
- a second housing (43), the second housing (43) defining a second cavity arranged in the housing (27), so as to receive a radioelectric antenna (40) configured to be connected to the electromechanical actuator (4) and configured to communicate with a radio transmitter. Emergency power unit (25) for an electromechanical actuator (4) of a closing, screening or solar protection installation (1) according to Claim 1, characterized in that the second housing (43) is extends straight in the housing (27). Emergency power unit (25) for an electromechanical actuator (4) of a closing, screening or solar protection installation (1) according to Claim 1 or according to Claim 2, characterized in that the second housing (43) extends along a longitudinal axis (47) of the emergency power box (25). Emergency power unit (25) for an electromechanical actuator (4) of a closing, screening or solar protection installation (1) according to any one of Claims 1 to 3, characterized in that the second housing (43) extends in a direction substantially parallel to that of the first housing (37). Emergency power unit (25) for an electromechanical actuator (4) of a closing, screening or solar protection installation (1) according to any one of Claims 1 to 4, characterized in that the second housing (43) extends over a length of between about 8 centimeters and about 12 centimeters. Emergency power unit (25) for an electromechanical actuator (4) of a closing, screening or solar protection installation (1) according to any one of Claims 1 to 5, characterized in that the housing (27) includes at least one access hatch (49), the access hatch (49) being configured to access the backup power connector (30), the access hatch (49) including at least :
- a closure member (53), the closure member (53) being slidably mounted along a side wall (51) of the emergency power supply unit (25), between a closed position, in which the connector backup power connector (30) is inaccessible from outside the backup power box (25), and an open position, wherein the backup power connector (30) is accessible from the exterior of the backup power box (25), and
- an operating pin (57) of the closing member (53), the operating pin (57) being integral with the closing member (53) and being accessible from outside the power supply box backup (25). Emergency power unit (25) for an electromechanical actuator (4) of a closing, screening or solar protection installation (1) according to claim 6, characterized in that the access hatch (49 ) further comprises at least one elastic return element, the elastic return element being configured to return the closure member (53) to its closed position. Casing (23) of an installation (1) for closure, screening or solar protection, comprising at least:
- an electromechanical actuator (4), and
- an emergency power box (25) of the electromechanical actuator (4), the emergency power box (25) being according to any one of claims 1 to 7, or an antenna support box radio antenna, the radio antenna support box comprising a housing, the housing comprising a housing defining a cavity arranged in the housing, so as to receive a radio antenna (40) configured to be connected to the electromechanical actuator (4) and configured to communicate with a radio transmitter. Casing (23) of an installation (1) for closure, screening or solar protection according to Claim 8, characterized in that the casing (27) is made of a plastic material, and in that the casing (23 ) comprises at least one cutout (59), the cutout (59) being configured to receive the emergency power supply box (25) or the radio antenna support box. Box (23) of a closure, screening or solar protection installation (1) according to claim 9, characterized in that the cutout (59) is made in a rear wall (65) of the box (23). Installation (1) for closure, screening or solar protection, characterized in that the installation (1) comprises at least:
- a box (23) according to any one of claims 8 to 10,
- a winding tube (9), the winding tube (9) being mounted in the casing (23) and being arranged so as to be driven in rotation by the electromechanical actuator (4), and
- a screen (5), the screen (5) being arranged so as to be rolled up on the winding tube (9). Installation (1) for closure, screening or solar protection according to Claim 11, characterized in that the installation (1) further comprises a socket (69), the socket (69) being mounted at the inside the box (23) and being arranged to guide the screen (5) with respect to the winding tube (9), the radioelectric antenna (40) being mounted between the tulip (69) and a rear wall (65) of the box (23).