FR2956238A1 - HIGHLY SECURED CENTRALIZED CONTROL AND MANAGEMENT SYSTEM FOR HABITAT - Google Patents

Abstract

The invention relates to a global control system and management of a habitat with in case of failure of this system having the heating lighting and roller shutter functionalities fully operational and independent of the control system. It consists of a central computer (1) connected with two wires to electronic boxes (2) (3) (4) providing the interfaces with the switches (6), lamps (7), temperature sensors (8), convectors (9) and shutters (10). The central computer ensures the automation, management and control of these different connected devices. In the event of a system failure, the electronics boxes (2) (3) and (4) automatically reconnect the various switches (6) with their respective lamps (7), by means of their internal electromechanical relaying, to the convectors (9) so that it is autonomous in each room of the habitat and releases the manual controls for raising and lowering the shutters (10). The device according to the invention is particularly intended for the modern management of a habitat to save energy, automation of all daily tasks by providing fallback functions allowing normal life in the habitat while the system is out of order.

Description

The present invention relates to a complete modular home automation system having a safety device allowing in case of failure or power off of the system to ensure a vital electrical operation of the habitat controlled by it. the overall architecture of the central system consists of a computer with its touch screen control. The computer that is the central system runs programs to monitor, control, regulate the various electrical organs of the habitat.

There are currently several home automation systems for intelligent home control. There are also different technologies for the connection of different sensors and actuators such as 'Active' type equipment with on-board electronics (sockets, sockets, etc.). The powerline system is also used to transport orders through the 220V or 110V network to the relevant device. There are also control bus systems such as EIB and KNX, which use dialogue protocols between the different devices. There are also systems based on radiofrequency control and control. These active systems are proprietary, expensive and installable only by specialists. The problem with these different techniques lies in the fact that if one of the active elements fails, the function with which it was associated is no longer assured. The subject of the patent completely solves this deficiency thus offering the same automation functionalities as the systems mentioned, but in the event of a breakdown, it is possible to have the vital functions still operational. The object of the invention makes it possible to have a system consisting of passive and non-imposed conventional electrical equipment, ie free choice for the user but on the other hand to benefit from all the home automation functions for the home, but especially to have a highly secure system that in case of failure continues to provide vital electrical functions for the occupants of the habitat. - 2 - The central system is connected to remote electronic modules to which is connected the electrical equipment used in the controlled habitat. The connected electrical equipment is of the switch type, lamp, electric convector, temperature sensor, flood or smoke detector, surveillance camera. These electronic connection modules are connected to the central system by a cable consisting simply of two wires. The modules connecting the electrical equipment through these two wires send the status of the sensors to the central system and receive its orders back. The system uses to operate the electrical equipment of a conventional home, in other words any switch, convector, lamp, push button and other equipment already mentioned is compatible with the object of this invention. The system does not impose on its user specific electrical equipment to operate and leaves the free choice to this one. The system is centralized intelligence that controls and manages all the electrical equipment of the habitat. The system may fail, the present invention aims in case of partial or total failure to reconnect electrically and automatically the various devices between them thus completely to overcome the home automation system out of service. In the event of a failure, the patented process connects the switches to the lamps for the lighting part but also directly supplies the convectors for the heating part, allowing the latter to heat the rooms and to self-regulate thanks to their own integrated thermostats, finally the shutters can be controlled by their manual controls already wired externally and in parallel with the system. The present invention thus makes it possible to secure and have instantaneously a functional installation in the event of failure of the home automation system. That is to say to return to the traditional wired mode of electrical equipment of a habitat. In addition to automatic fault detection integrated into the system, the user can put this safety device into service simply by cutting off the power supply of the home automation system by its circuit breaker on the electrical panel. DESCRIPTION OF THE INVENTION The accompanying drawings illustrate the invention. Figure 1 represents the overall and minimum architecture of the system. The central computer (l) contains the intelligence of the home automation system and the interface with its user, it sends its commands to the junction boxes (2) (3) and (4), through the two control wires (5). ). The housings ensure the recovery of information and the transmission of orders to the various electrical components connected. With reference to FIG. 1 (FIG. 1) and in centralized and automatic operating mode, the housing (2) recovers the states coming from the switches (6) and transmits the switching on or off commands to the connected lamps (7) this according to the programs executed in the central computer (1). The housing (3) retrieves the values of the temperature sensors (8) located in the rooms, the convectors (9) are connected to the housing (3) to be powered or de-energized according to the programs run in the computer central (1). The shutters (10) are connected to the housing (4) to be driven up and down according to the programs executed in the central computer (1). FIG. 2 (FIG. 2) represents the traditional wiring of a single switch (6) connected to its lamp (7). A terminal of the switch (6) is connected to the phase (P). A lamp terminal (7) is connected to the neutral. FIG. 3 (FIG. 3) represents the same switch (6) which will be connected to the housing (2) of the home automation system which is the subject of the invention and the lamp (7) which will also be connected to the home automation system which is the subject of the invention. Only one terminal of the switch (6) and the lamp (7) is deflected towards the connection box (2). In the case where the home automation system is in normal operation the switch (6) sends information to the central computer (1) through the housing (2) and then - 4 - the central computer (1) decides to turn on or turn off the lamp (7) according to the programs being executed. If the central computer (1) fails or if the housing (2) is off or on, the internal relay (11) lack of voltage automatically drops and closes its contact thereby connecting the switch and its respective lamp . This device object of the invention thus allows to return to the traditional wiring described in Figure 2 (FIG 2). The internal relay (11) is a closed contact relay at rest. When the home automation system is brought back into service, the control unit (2) reactivates the internal relay (11) which opens its contact, thereby releasing the electrical connection between the switch (6) and the lamp (7). There are as many internal relays (11) as there are pairs of switches (6) associated with the lamps (7).

FIG. 4 (FIG. 4) represents a traditional wiring called Va and Vient which implements two switches back and forth (13A) and (13B) connected to the lamp (7). FIG. 5 (FIG. 5) represents the same switches (13A) and (13B) connected to the electronic control unit (2) which is the subject of the invention and the lamp (7) which is also connected to the home automation system which is the subject of the invention. Only one terminal of the switching pair (13A) and (13B) and the lamp is diverted to the connection box (2). The operating mode remains entirely similar to that previously described in FIG. 2 (FIG. 2) and FIG. 3 (FIG. 3). Figure 6 (FIG. 6) represents a traditional wiring connection of electric convectors (radiators) (9). Powered by 220V or 110V (P) through its circuit breaker (12). The return is directly connected to the neutral (N).

Figure 7 (FIG 7) shows the convector (9) which will be connected through its circuit breaker (12) to the housing (3) of the home automation system object of the invention. The housing (3) receives the general phase (P) which is redistributed to each convector (9) through a closed contact relay at rest. In the case where the home automation system is in use and not faulty the central computer (1) decides whether or not to feed the convector (9) according to the temperature sensor (8) and programs running in the home automation system. If the central computer (1) fails or the housing (3) is off or on, the internal relay (111) under the lack of voltage automatically drops and closes its contact thus feeding the convector (9) allowing return to the traditional wiring described in Figure 6 (FIG 6). The internal relay (111) is a closed contact relay at rest. When the home automation system is brought back into service, the control unit (3) controls the convector (9) through this internal relay (111). There are as many internal relays (111) as there are convectors (9).

Figure 8 (FIG. 8) represents traditional wiring of electric shutter controls (10). A common (16) is distributed to a push up button (14) and a push down button (15). Figure 9 (FIG 9) shows the connection of the up and down commands of the electric shutter (10) to the housing (4) of the home automation system object of the invention. The common polarity (16) from the flap (10) is connected to the housing (4) to be sent in parallel to the outlets (17) and (18). The output (17) allows the upward control of the flap (10). The outlet (18) allows the descent control of the flap (10). If the central computer (1) fails or the housing (4) is off or on, the manual controls (14) and (15) of the electric shutter (10) are functional and present so that the user can climb or lower the flap (10).

Claims (6)

CLAIMS1) Complete home automation system for the management and electronic control of computer and electronic equipment and electrical devices for housing characterized in that it comprises a central computer (1) with its touch screen which is connected by a cable consisting of 2 wires connecting in parallel at least 3 housings (2) (3) and (4) to connect lighting equipment to housing (2), heating type to housing (3) and shutters to housing ( 4). The system in the event of a power failure or power failure allows the automatic reconnection of the lighting and heating devices for the normal use of the home by completely avoiding the home automation system. No specific electrical equipment is required to perform the automatic safety reconnection feature. 2) System according to claim 1 characterized in that electronic connection boxes (2) (3) and (4) having the task of collecting the so-called all-or-nothing information such as switches (6) and analog information such as the temperature sensors (8) in order to transmit them to the central computer (1) which will react according to the programs running in its memory and then return one or more commands to the housings (2) (3) or (4) ) for activation of the lamps (7), convector power supplies (9) or mounted or lowered electric roller shutters (10). 3) System according to claim 1 or claim 2 characterized in that the electronic lighting connection unit (2) allows in case of failure, power failure and no response or failure of the central computer to reconnect the switch (6) and its respective lamp (7) through its internal relay (11) closed contact at rest which will fall automatically under lack of voltage, so as to allow direct ignition by the user completely freeing of the home automation system.- 7 - 4) System according to claim 1 or claim 2 characterized in that the electronic heater connection unit (3) allows in case of failure or failure of its power supply or no response or failure of the central computer continuously supplying the convector (9) through its internal relay (111) closed contact at rest which will fall automatically under lack of voltage thus allowing the heating of the room in the habitat and its regulation with its internal thermostat . 5) System according to claim 1 or claim 2 characterized in that the electronic housing (4) for connecting electric shutters is placed in parallel with the manual controls (14) and (15) of the flap (10) allowing in case failure or failure of its power supply or no response or failure of the central computer to always control the rise or fall of these electric shutters (10). 6) System according to claim 3 or claim 4 uses any type of electrical equipment available on the market and does not impose any specific electrical equipment to offer the entire functionality of the home automation system that is the subject of the patent. No imposition of electrical equipment in the home is necessary to satisfy all the technical characteristics of the home automation system covered by the patent.