FR2991533A1 - Home automation system for house, has home automation table, auxiliary case, and main case that is intended to manage automation functions that are suitable for each part of house independent of its category - Google Patents

Abstract

The system (2) has a home automation table and a predetermined number of control units, actuators, and information systems. The home automation table includes a main case (3) and three auxiliary cases (4c, 4e, 4v). Each of the three auxiliary cases is connected to the predetermined number of control units, actuators, and information systems. Each auxiliary case is intended to manage home automation functions of a given category. The main case is intended to manage the automation functions that are suitable for each part of a house independent of its category.

Description

The present invention relates to a home automation system for individual home, including new home. The domotic systems proposed today and managing with centralized intelligence all the essential functions of a dwelling 5 use a modular technological approach. This modular technology makes it possible to design a system tailored to meet a maximum of markets and possible needs (residential premises, commercial premises, commercial premises, public premises, new, renovation, ...). But these systems are complex to implement. In addition, they require a programming phase. The modular nature of these systems is not very efficient economically, and is particularly expensive compared to the overall cost of an average new home. One of the aims of the invention is to overcome one or more of these disadvantages. For this purpose, the object of the invention is a home automation system for a single-family house, in particular for a new house, the system being an integrated home automation system comprising a home automation panel and a predetermined number of control means, actuators and control systems. information, - the home automation panel comprising a main box and three auxiliary boxes chained together, each of the main and auxiliary boxes being connected to actuators, control means, and information systems, - each auxiliary box being intended to manage home automation functions of a given category of rooms of the house such as living rooms, rooms of water and rooms, and - the main housing being intended to manage domotic functions likely to s' apply to each room in the house regardless of their category. By the term "integrated home automation system" is meant a fixed, bounded, predetermined system, as opposed to the modular home automation system. By 'actuator' is meant any device that transforms an order into a work. The home automation panel is an electrical box and the main box 35 and each auxiliary box is an electronic box. Like the distribution and communication tables of a single house which are also electrical boxes, the home automation panel is intended to be placed in a Standard Housing Technical Sheath. The different categories of rooms in the house are differentiated between living rooms, bedrooms (including an associated room 5 with a staircase) and water features (including associated parts). Thus, the invention proposes a new approach using a fixed system, adapted for a limited and predetermined number of essential domotic functions and having interest in being centralized. This configuration significantly reduces the cost of the hardware to be implemented by use of simple elements, in limited number, which greatly facilitates the connectivity of the installation. The same cost of the home automation system is reduced by the fact that it is possible to manufacture the standard product in series. The standardized architecture of this system also avoids carrying out a preliminary study on a case-by-case basis of the installation. No programming phase of the system is needed after wiring. This system also has the advantage of being suitable for more than 90% of new homes today. This home automation system can thus be considered very upstream in the construction of individual houses and can therefore advantageously be provided by a real estate builder. In fact, 90% of the 20 new individual houses built today have a large number of common characteristics, including the number of rooms and household appliances. An example is reported in Table I below. Table I: lists of standard house rooms currently built and example of the maximum number of associated equipment such as shutters, blinds and lighting points Rooms Typical Use Number of Number Typical Building Roller Shutters Entry - - 1 1 x Ceiling Light Clearances Corridors, Landing, ... 2 2 x Ceiling lights (2 distinct) Staircase - - 1 1 x Ceiling or wall mounted Living Room 3 3 1 x Ceiling Light * 2 x Controlled Indirect Light Sockets Dining Room - 2 1 1 x Ceiling Light * Kitchen 2 2 1 x Ceiling Light 1 x Ceiling Spotlight * 1 x Spot / Mirror / Wall Sconce Bathroom 2 - _ 2 1 x Ceiling Light 1 x Spot / Mirror / Wall mounted WC 1 Ground floor - 1 1 x Ceiling lamp WC 2 Floor - 1 1 x Ceiling lamp Large Bedroom Master bedroom 2 3 1 x Ceiling lamp * 2 x Controlled socket for bedside lamp Small Bedroom 1 Guest bedroom with double bed 1 3 1 x Ceiling lamp * Child's room with single bed 2 x Controlled sockets for bedside lamp Small Bedroom 2 Children's room 1 2 1 x Ceiling lamp * 1 x Controlled socket for bedside lamp Small Room 3 Children's room 1 2 1 x Ceiling lamp * 1 x Controlled socket for bedside lamp Office - 1 1 1 x Ceiling lamp * Dressing room 2 1 x Ceiling lamp 1 x Cable run for wardrobes lighting Service area Technical, Laundry, Cellar, ... - 1 1 x Ceiling lamp (in habitable zone) Annexes Garage, Workshop, Laundry, Cellar, ... 2 2 x Ceiling lights (2 separate spaces in a non-habitable area) Terrace - 1 awning 1 1 x Exterior wall * = Inverter (clutch release possible) It is therefore possible to establish a current house standard equipped with rooms lives such as the entrance, the living room, the dining room, the office and the dressing room, a category comprising the bedrooms and the associated room comprising the staircase and a category of rooms of water and associated rooms such as the kitchen, the two bathrooms, the two toilets, the service room , the clearances, the outdoor terrace and the two annex rooms for which the integrated home automation system proposes the essential domotic functions. Advantageously, the home automation panel is connected according to a star topology to control means, actuators and information systems. The expression "star topology" means a wiring made according to a star architecture in which the home automation panel is wired with each of the control means and each of the actuators independently. This architecture is possible thanks to the fact that the home automation system is integrated, thereby limiting the number of connections to be made. The implementation is simplified and can be operated by an electrician without particular knowledge of home automation, so that the costs of installing the system are reduced. Moreover, this type of star architecture is particularly well suited to the construction of new homes today for which wiring can be provided upstream of the final installation. According to one provision of the invention, the auxiliary boxes and the main box each comprise an input connector and an output connector so as to ensure the chaining of the auxiliary boxes between them and between the auxiliary boxes and the main box. The resulting link allows in particular the communication between the different boxes and the conduction of the power supply supplied by the main box to the auxiliary boxes. According to a particular embodiment of the invention, the home automation panel also comprises: - three contactors connected to the main housing, each of the three contactors being intended to be respectively connected to a cumulus, two safety sockets and two washing machine sockets of the system, - two terminal blocks connected to the main housing, the two terminal blocks distributing pilot wires to respectively manage the operation of at least one heater in a night zone of the house comprising a first set of rooms and at least one heater in a day zone of the house comprising a second set of rooms, separate from the first set, - an information system connected to the main housing comprising a backup battery and the home automation system also comprises - means connected to the main box comprising two presence detectors, a detector of or opening of an entrance door, two water leak detectors, and a rain gauge, - actuators connected to the main housing comprising an interior siren, an outdoor siren, a watering solenoid valve, and - an information system connected to the main box including a touch screen.

The first set and the second set of parts respectively constituting the 'night zone' and the 'day zone' include parts left to the free choice of the user, which he can define according to his particular personal use. Thanks to this device, it is possible to regulate independently the temperature of the rooms of the housing according to the night area and the defined day zone.

Advantageously, the main housing is intended to be connected to a heater in respectively the first and second bathrooms, and two information systems such as an electricity meter and an internet access device and each of the auxiliary boxes is intended to be connected to lighting points, shutters, a blind and the respective associated control means such as push buttons. These push buttons are in particular traditional electric buttons without a particular electronic system (single contact). The internet access device allows communication with the main box so that the user can remotely manage for example the return to operation of the heating at the end of an absence, turn off an alarm that has triggered. The electricity meter, such as an EDF meter, can thus send information to the main box such as consumption, low rating (full time, off-peak time), electrical over-consumption that could trip the circuit breaker. In addition, the device makes it possible to centralize functions relating to the lighting, the shutters and the blind. Typically, the main box is connected to the heaters according to a standardized pilot wire interface according to the inter-professional group of manufacturers of appliances and household equipment 25 GIFAM. Advantageously, the main box and the three auxiliary boxes each comprise a microcontroller so in particular to allow the autonomous operation of each of the main and auxiliary boxes. Advantageously, each of the three auxiliary boxes and the main box 30 comprises first terminals receiving a strong current called BTA (low voltage level A) and second terminals receiving a low current said TBT (very low voltage), the first terminals being arranged to the opposite of the second terminals in each of the auxiliary boxes so as to physically separate the distribution of the high current BTA from the distribution of the low current TBT. This configuration facilitates the initial connections and avoids wiring errors in case of subsequent intervention on the installation. Advantageously, a marking is provided on each of the auxiliary boxes, the marking identifying each of the rooms of the house, indicating for each of the rooms the physical layout of the first terminals and the second terminals, and respectively illustrating each control means and each actuator. associated with the first and second terminals in respective separate columns so as to simplify the implementation of the home automation system and its maintenance without the need to refer to a notice. Similarly, a marking is provided on the main box, the marking indicating the physical layout of the first terminals and the second terminals, and respectively illustrating each control means and each actuator associated with the first and second terminals so as to simplify the process. implementation of the home automation system and its maintenance. Preferably, the main box is configured to transform the current BTA into a current TBT supplying each of the three auxiliary boxes, control means, actuators, information systems and providing a backup power supply to the home automation system via the battery 20. help. The TBT supply thus created is rescued by a battery in the event of a failure of the supply voltage of the AC power supply. In a particular embodiment, the home automation panel also comprises four wiring ducts each intended to conduct BTA current conductors respectively to each of the auxiliary boxes and to the main box, each wiring duct forming an electrical insulation compartment of the conductors. BTA high currents compared to low current TBT conductors. Conveniently, blanks are provided in each of the three auxiliary boxes including relays so that said relays 30 are accessible from outside the auxiliary box, which facilitates the replacement of the relays. Advantageously, each of the auxiliary boxes, the main box, the back-up battery, each of the wiring chutes, each of the contactors and each of the terminal blocks are designed and arranged for mounting in a standard household electric cabinet of four rows by ten. eight modules, the enclosure being designed to be integrated near a GTL Standard Technical Liner, and to the right of the GTL Standard Technical Liner, at the height of the distribution board, thus extending the standard GTL. In this way, the home automation system is easily integrated into a standard device, which avoids additional installation costs. This architecture also makes it possible to group the equipment in a single area of the house where the GTL is located, which in addition to allowing a favorable aesthetic aspect also allows the simplification of future maintenance. In a particular configuration, the home automation system comprises a standard home chute of thirteen modules with two compartments, the home chute being arranged on the upper side of the home automation board, so as to facilitate the BTA sector current conduction, at the output of the home automation board, and the conduction at the input of current TBT to the system. This arrangement avoids a very large space requirement of the home automation system, while making best use of the home automation chutes of the standard GTL so as to rationalize the junction of the home automation system with the standard GTL. Typically, the home automation system includes spring-type terminals for connection of the current conductors TBT to each of the housings, the spring type terminals being configured to receive wires having a diameter of less than 1 mm. In this way, the wiring is facilitated and made more reliable. The wiring is advantageously formed from conventional PTT 298 cable comprising four copper conductor pairs of a section of 0.5 mm 2.

In an advantageous configuration, the home automation system comprises PTT 298 type cables interconnected by 3M Scotchlock type connectors in order to optimize the number of pairs of wires available in the cable for the circulation of TBT currents. The wiring is thus facilitated which allows the control of time and implementation costs.

According to another possibility, the home automation system comprises Wago-type connection terminals so as to connect the current conductors BTA of at least one four-actuator sheath. It is thus possible to reduce the number of sheaths used to wire all the actuators (one sheath per four actuators) and thereby reduce the costs of hardware and installation.

Other aspects, objects and advantages of the present invention will appear better on reading the following description of an embodiment thereof, given by way of nonlimiting example and with reference to the accompanying drawings. The figures do not necessarily respect the scale of all the elements represented so as to improve their readability. In the remainder of the description, for the sake of simplification, identical, similar or equivalent elements bear the same numerical references. Figure 1 is a block diagram of a home automation system according to one embodiment of the invention. Figures 2 to 4 each illustrate an auxiliary housing according to one embodiment of the invention. Figure 5 illustrates a main case according to one embodiment of the invention. Figure 6 is a schematic illustration of a partial star topology of the home automation system according to one embodiment of the invention. Fig. 7 is a diagram illustrating a type of wiring for control means using 3M Scotchlock type connectors according to one embodiment of the invention. FIG. 8 is a diagram illustrating a type of actuator wiring using WAGO 2273 type connection terminals according to one embodiment of the invention. Fig. 9 is a diagram illustrating a home automation board integrated in a GTL Housing Technical Sheath of a house according to an embodiment of the invention. FIG. 10 is an enlargement of FIG. 9 illustrating a home automation switchboard according to one embodiment of the invention. FIG. 1 illustrates a home automation panel 1 of an integrated home automation system 2 connected to control means and to actuators. The home automation panel 1 comprises a main box 3 chained with three auxiliary boxes 4. Each of the boxes 3,4 is intended to manage a predetermined number of essential domotic functions for individual houses comprising a predetermined number of rooms such as a new house 35 previously described in Table I.

The main housing 3 is an electronic box connected to actuators and their corresponding control means, which provide domotic functions that can be applied to each of the rooms of the house, regardless of their category. In particular, the main box 3 can manage heating, cumulus 5, alarms 6,7, security sockets 8, overflow detection and outdoor watering. An interface with an internet access device 9 also allows remote management of certain functionalities. This interface can be done via Ethernet, via a standard network protocol.

The main housing 3 is in particular connected to two presence detectors 11 taking into account domestic animals and an opening detector 12 of an entrance door, an interior siren 6 and an external siren 7 in the event of intrusion with sending an SMS. The alarm of the indoor siren 6 is also used to alert the occupants of an anomaly, such as a water leak in the washing machine for example. It is also possible to put the house under alarm when one leaves the housing as well as to take in hand the device at a distance. The main box 3 is also connected to a rain gauge 13 and a watering solenoid valve 14. It is then possible to start watering automatically, on schedule, as to stop watering in case of rain. Likewise, when the rain gauge 13 detects a lack of rain for a certain number of consecutive days, the main box 3 can actuate the watering solenoid valve 14. Furthermore, the main box 3 is connected to two leakage detectors. water 15 or overflow, two sockets 16 washing machine / dishwasher and two safety sockets 8 each via a switch 17. This allows: - automatically cut some taken in case of absence, - cut out the taps 16 washing machine / dishwasher in case of detection of overflow, - alert by SMS in case of detection of water leak washing machine / dishwasher. The main housing 3 is also connected to a heater 18 for each of the bathrooms. Similarly, the housing 3 is wired 35 to the pilot wires, through two terminal blocks 19, at least one heater 18 respectively in each of the rooms of the day area and rooms of the night area. This allows a user to indicate on a touch screen 21 the different temperatures of the desired parts according to a schedule. The main box 3 connected to the touch screen 21 manages the heating of the rooms of rooms (including the room with the staircase) independently of the living rooms (living room, dining room, office, dressing room, entrance) and the two rooms bath. According to a possibility not shown, the touch screen 21 is preferably embedded in a wall at the entrance of the house. Another possible home automation function is to significantly reduce the heating and extinction of cumulus 5 during the holidays. The internet access device 9 also allows remote heating management. The main box 3 is also connected to an electricity meter 10, typically to an EDF meter as well as to a cumulus 5 by means of a contactor 17. This makes it possible to: - Automatically relieve in the event of a point overload . - Activate cumulus 5 in off-peak hours if the EDF contract is scheduled for peak / off-peak hours. - Indicate real-time power consumption according to the five five RT2012 stations relating to heating, cooling, domestic hot water production, the electrical outlet network, and others. Furthermore, in a non-visible arrangement on the block diagram of FIG. 1, the main box 3 receives a BTA (Low Voltage level A) mains current and transforms it into a second current TBT (Very Low Safety Voltage) to supply the power supply. all the control parts of the home automation system 2 including the auxiliary boxes 4. The housing 3 is also connected to a backup battery 22 for a power supply of the home automation panel 1 in the event of a power failure BTA sector so as to retain the essential functions 30 of alarms 6.7 long enough. Referring to Figure 1, the main housing is chained to three auxiliary boxes 4. These three boxes 4v; 4th; 4c manage the same domotic functions namely lighting points 23, shutters 24 and a blind 25, according to the categories of the rooms of the house i.e. the living rooms, 35 rooms of water and rooms. It is thus possible to use a variable dimmer for eight main rooms of the house, as well as intelligent management of lighting points 23 is possible with dimmer single button. It is also conceivable to promote a gentle awakening by a programmed opening of shutters 24 rooms. Figures 2 to 4 illustrate each of the three auxiliary boxes 4v; 5th; 4c respectively dedicated to living rooms, water features and bedrooms. Each auxiliary box 4v; 4th; 4c is connected to control means, such as switches, pushbutton type 26, via pairs of terminals 28, spring type. Each of the terminals 28 in the upper part of the boxes 4v; 4th; 4c has a shape adapted to receive a 0.5 mm PTT 298 diameter copper cabling wire so as to convey the TBT current supplied by the main case 3 at low cost. A relay or variator 29 then makes contact between each control means and an actuator illustrated in the lower part of the housing, such as a lighting point 23, a shutter 24 or a blind 25. input 'push button 26', corresponds to a power output 230VAC corresponding to a first terminal 27 carrying a current BTA. Each of these couples defines a path. For each channel, the output is switched according to the state of the corresponding input and internal logic defined by the type of channel concerned and the parameters of the user. As illustrated in FIGS. 2 to 4, in order to allow future wiring that does not mix wires carrying a voltage current BTA with wires carrying a current of voltage or a conducting current, the first terminals 27 of the functions operating in BTA are provided on the lower part 25 of the housing 4 while the second terminals 28 of the functions fed by current TBT are arranged on the upper part of the housing 4. All second terminals 28 of current TBT in the upper part are provided with insertion holes of the wire preventing accidental insertion of BTA current conduction leads of 1.5mm2 and above. Cutouts not visible in Figures 2 to 4 are provided on the front faces of the auxiliary boxes 4v; 4th; 4c, at relay 29, so as to facilitate access and their change. With reference to FIGS. 2 to 4, a marking 31 such as a silkscreen, colored or not, is provided on each of the auxiliary boxes 4 35 illustrating each of the parts, the actuators and the control means connected to the first and second terminals 27, 28, at the physical implantation of the latter. For a still easy registration, terminals 27,28 not present because of a phase transfer internally, are still represented symbolically by screen printing. The silkscreen 31 guides the eyes to prevent any wiring error. For this, strokes of different thicknesses are used to separate the channels as blocks: strong line for the parts, average line for the functions (lighting, shutters) and fine line for the sub-functions (up, down). Thanks to the channel representation and the symbolism of the output switches, the link between the control and the actuator is obvious.

The lighting functions 23 managed by these three auxiliary boxes 4v; 4th; 4c, can be combined by a group control allowing for example the extinction of the lights forgotten during the departure, just as it is possible to provide an 'anti-forgetful' group control of the light in the rooms of passage (toilets, technical room / laundry room ...).

It is also possible to provide a group control that provides lighting of all rooms of the house at the same time as the triggering of the outdoor siren 7 in case of intrusion detection. Similarly, a group control ensures the closure of all the shutters 24 and the raising of the awning 25 when one is away from home or when going to bed. These grouped controls are in particular possible thanks to links 32 (refer to FIG. 10) which notably allow the communication between the different auxiliary boxes 4 and the main box 3. The links 32 are also used for conduction of the supply current 25 TBT of the main box 3 to the auxiliary boxes 4v; 4th; 4c. According to a non-illustrated embodiment of the invention, the main box 3 and each of the auxiliary boxes 4v; 4th; 4c are equipped with a microcontroller so, inter alia, to allow fall operation of each of the boxes 3; 4v; 4th; 4c outside the grouped commands (control of a function assigned to the main box 3 grouped with functions assigned to the auxiliary boxes 4v; 4e; 4c or grouping of functions of several auxiliary boxes 4v; 4e; 4c), even in the absence of communication with the main box 3. As illustrated in FIG. 5, the main box 3 comprises a marking 31 such as a silkscreen, colored or not, illustrating the actuators and the control means at the level of the physical implantation of these elements. last. In the same way as for 4v auxiliary boxes; 4th; 4c, strokes of different thicknesses are used to separate the channels in the form of blocks so as to facilitate the installation of the device 2 and its maintenance. Figure 6 illustrates the home automation panel 1 connected to equipment 5 (partially shown) by a star architecture, made possible by the use of an integrated home automation system 2. Each control means is connected to the home automation panel 1 which connects it to one or more corresponding actuators. For example, the push button 26 of the shutter 24 of the living room is connected to the home automation panel 1 which is connected to the flap 24 and actuates opening or closing according to the order placed. In another example, the presence detector 11 signals an intrusion into the domotic board 1 which actuates the lighting points 23. FIG. 7 illustrates the implementation of optimized wiring between several control means. A PTT 298 cable used for the TBT 15 current carries 4 pairs of twisted wires. In order to limit the number of cables to be connected to the home automation panel 1, it is possible to optimize their use by the use of 3M Scotchlok connectors 33. This allows a twisted pair to pass through a recess box according to the The principle shown in FIG. 7. The optimization of the wiring is carried out by zone in the house: push buttons 26, for example, which are geographically close to one another, are connected to the home automation panel 1 by a PTT cable 298 As can be understood, this wiring does not need to distinguish that the push buttons 26 are intended for lighting 23, roller shutters 24 or blind 25. This significantly reduces hardware costs and the complexity of the installation of the home automation system 2. According to a similar wiring optimization, FIG. 8 illustrates the use of connection terminals 34 of the WAGO 2273 type, for example to limit the number of sheaths. used when wiring actuators of identical function (lighting 23 / actuating shutters 24 / store 25) and reduce the installation time of the installation. FIG. 9 illustrates a standard GTL Housing Technology Sheath associated with the home automation panel 1. The GTL technical duct typically comprises a conventional 18-width wide duct 35 for conducting current and TBT current conductors feeding from top to bottom. a control panel 36, a distribution board 37 and a communication board 38. The home-automation board 1 is disposed adjacent to the conventional trough 35 facing the distribution board 37. As illustrated in the enlargement of FIG. 10 , the domotic panel 1 comprises the main box 3 and the three auxiliary boxes 4v; 4th; 4c. Each of the housings 3,4 is mounted on a standard omega 35 mm DIN rail 39 so that it can be integrated into a standard domestic electrical box. The home automation panel 1 also comprises two terminal blocks 19 distributing pilot wires parts of life and rooms arranged on DIN rails 39, near the auxiliary boxes 4v; 4th; 4c. The contactors 10 17 of the washing machines, security sockets 8 and cumulus 5 are in turn arranged on a DIN rail 39 adjacent to the main box 3. Four orifices not visible in FIG. 9 are provided in the side wall of the GTL chute in the axis of the fixing rails of the distribution board 37, near the home automation panel 1, to provide a current BTA 15 to each of the main 3 and auxiliary 4v boxes; 4th; 4c of the home automation panel 1. As illustrated in FIG. 10, current conductors BTA are led by four lower wiring ducts 41, each forming an insulating compartment. The four wiring ducts 41 of current conductors BTA 20 feed the first terminals 27 disposed in the lower part of each of the housings 3; 4v; 4th; 4c and dedicated to the actuators. The connection is made through combs provided in the walls of the wiring ducts 41. Each chute 41 then joins a vertical passage 42 BTA for the outlet of the current BTA in a compartment provided for this purpose via a home automation chute 43. Ref. in Figure 9, the home chute 43 has 13 modules and is disposed on the upper side of the home automation panel 1 for conduction of the current conductors TBT to the second terminals 28 TBT disposed in the upper part of each housing 3; 4v; 4th; 4c 30 (FIGS. 2-4). The TBT current flowing in the home chute 43 under DIN rails 39, the four wiring trunking 41 for current conductors BTA provides a physical separation between current conductors BTA and TBT. As illustrated in FIG. 10, links 32 allow communication between the main box 3 and the auxiliary boxes 4. The main box 3 enabling the transformation of the current BTA into a current TBT, the connectors 32 are also used to convey the current TBT Auxiliary boxes 4. Thus, the home automation system 2 of the invention makes it possible to ensure the essential functions of interest to be centralized and adapts to 90% of new individual homes to date. This integrated 2 home automation system is simple to implement because of its star architecture and its systematic approach. It provides a partially bioelectric system limiting electromagnetic radiation.

This home automation system 2 is also fully compatible with the punctual installation of other products not particularly need to be centralized to meet specific wishes (such as lighting coupled to presence detectors for example). These other products will then be independent of the home automation system 2.

Moreover, it is quite possible to fill a gap in one room by using one resource that is not used in another (for example, a roller shutter in the living room in the dining room). Similarly, it is possible to divert a room from its original planned allocation (use of the office to manage a 5th room for example).

It goes without saying that the invention is not limited to the embodiment described above by way of example but that it includes all the technical equivalents and variants of the means described as well as their combinations.

Claims (10)

REVENDICATIONS1. Home automation system (2) for a single-family home, in particular 5 for a new home, the system being an integrated home automation system (2) comprising a home automation switchboard (1) and a predetermined number of control means, actuators and information systems the home automation switchboard (1) comprising a main box (3) and three auxiliary boxes (4v; 4e; 4c) chained together, each of the main (3) and auxiliary (4v; 4e; 4c) boxes being connected to actuators, control means, and information systems, each auxiliary box (4v; 4c; 4c) being intended to manage home automation functions of a given category of rooms of the house such as rooms of life, water features and rooms, and 15 - the main housing (3) is intended to manage home automation functions that can apply to each room of the house regardless of their category. 2. Home automation system (2) according to claim 1, characterized in that the home automation switchboard (1) is connected in a star topology to control means, actuators and information systems. 3. Home automation system (2) according to one of claims 1 to 2, characterized in that the home automation panel also comprises: - three contactors (17) connected to the main housing (3), each of the three contactors (17) being intended to be connected respectively to a cumulus (5), two safety sockets (8) and two washing machine sockets (16) of the system (2) - two terminal blocks (19) connected to the main box (3), the two terminal blocks (19) distributing pilot wires to respectively control the operation of at least one heater (18) in a night zone of the house comprising a first set of rooms and at least one heating (18) in a day zone of the house comprising a second set of rooms, distinct from the first set, - an information system connected to the main housing (3) comprising a backup battery (22), and in that the home automation system (2) also includes control means connected to the main housing (3) comprising two presence detectors (11), an opening detector (12) of an entrance door, two water leak detectors (15), and a rain gauge (13), - actuators connected to the main housing (3) comprising an inner siren (6), an external siren (7), a watering solenoid valve (14), and - an information system connected to the main housing (3) comprising a touch screen (21). 4. Home automation system (2) according to one of claims 1 to 3, characterized in that the main housing (3) is intended to be connected to a heater (18) in the first and second rooms respectively. two information systems such as an electricity meter (10) and an internet access device (9) and that each of the auxiliary boxes (4v; 4e; 4c) is intended for be connected to lighting points (23), shutters (24), a blind (25) and respective associated control means such as push buttons (26). 5. Home automation system (2) according to one of claims 1 to 4, characterized in that each of the three auxiliary boxes (4v, 4e, 4c) and the main housing (3) comprises first terminals (27) receiving a current strong said BTA (Low Voltage level A) and second terminals (28) receiving a low current said TBT (Very Low Voltage), the first terminals (27) being disposed opposite the second terminals (28) in each of the boxes auxiliary (4v; 4e; 4c) so as to physically separate the distribution of the strong current BTA from the low current distribution TBT. 6. Home automation system (2) according to claim 5, characterized in that a marking (31) is provided on each of the auxiliary boxes (4v; 4e; 4c), the marking (31) identifying each of the rooms of the house, indicating for each of the parts the physical location of the first terminals (27) and the second terminals (28), and respectively illustrating each control means and each actuator associated with the first and second terminals (27, 28) so as to simplify the implementation of home automation system (2) and its maintenance. 7. Home automation system (2) according to one of claims 5 to 6, characterized in that a marking (31) is provided on the main housing (3), the marking (31) indicating the physical implantation of the first terminals (27) and second terminals (28), and respectively illustrating each control means and actuator associated with the first and second terminals (27, 28) in respective respective columns so as to simplify the implementation of the home automation system (2). ) and its maintenance. 8. Home automation system (2) according to one of claims 1 to 7, characterized in that the home automation panel (1) also comprises four wiring ducts (41) each intended to conduct current conductors BTA respectively to each of the boxes auxiliary (4v; 4e; 4c) and to the main housing (3), each wiring channel forming a compartment of electrical insulation of high current conductors BTA compared to weak current conductors TBT. 9. Home automation system (2) according to one of claims 1 to 8, characterized in that cutouts are provided in each of the three auxiliary boxes (4v; 4e; 4c) comprising relays (29) so that said relays (29) are accessible from outside the auxiliary box (4v; 4e; 4c). 10. Home automation system (2) according to one of claims 1 to 9, characterized in that each of the auxiliary boxes (4v, 4e, 4c), the main housing, the battery backup (22), each of the cable ducts (41), each of the contactors (17) and each of the terminal blocks (19) are designed and arranged for mounting in a standard household electrical cabinet of four rows by eighteen modules, the cabinet being intended to be integrated close to each other. a standard GTL housing.