FR3022660A1 - DEVICE FOR DISPLAYING ENERGY INFORMATION CONCERNING AT LEAST ONE BUILDING - Google Patents

Abstract

The invention relates to an energy information display device for at least one building, characterized in that it comprises a model (2) of said building, provided with a plurality of light elements (3) in different parts ( 4) and / or installations (5), a reader (6) of media (7) of identifiers (ID1) of consumption scenarios, a console (10) having a human-machine interface (11) for sending a signal comprising a selection of at least one part (4) and / or installation (5), a control unit comprising a scenario memory and a means for calculating a total energy consumption value (Vt) and / or energy production and / or energy loss of parts (4) and / or installations (5), means (16) for displaying information (I3) representative of the value (Vt), a screen (17) means for controlling the display on the screen (17) of an image of the building.

Description

BACKGROUND OF THE INVENTION The present invention relates to an energy information display device for at least one building.

STATE OF THE ART It is already known in the state of the art, for example in a museum, a device comprising on the one hand, a model provided at different points of light bulbs or light-emitting diodes (LEDs) and other on the other hand, a manual control panel comprising a series of legends each of which is associated with a control button for switching on or off one of said bulbs or diodes. The user can thus, by pressing one of said command buttons, locate, on the model, the element corresponding to the legend located next to said command button. However, such a device simply makes it possible to match a legend and a location point on a model but does not display the energy information of a building. The object of the invention is to obtain a device that allows such a display of energy information for educational or educational purposes. OBJECT OF THE INVENTION To this end, an object of the invention is an energy information display device relating to at least one building, characterized in that it comprises: a model of said building, provided with a a plurality of light elements capable of being at least lit or extinguished and positioned in a plurality of locations of the model representative of different consuming and / or energy-producing parts within the building and / or of energy losses of the building and and / or consuming and / or generating energy installations within the building, 3022660 2 - a reader, able to read a first identifier of a scenario of energy consumption of the building and / or of energy production of the building and / or of energy losses of the building and / or energy performance of the building and / or animation of said model, present on at least one support, when the reader and the support are p laced in a reading position relative to each other, a multiplicity of first identifiers representative of a corresponding multiplicity of different scenarios of energy consumption of the building and / or energy production of the building and / or energy losses of the building. building and / or energy performance of the building and / or animation of said model being respectively present on a corresponding multiplicity of supports, - a desk with a human-machine interface for sending a second signal comprising a selection of at least one piece and / or at least one of said building parts and / or installations; - a control unit, which is connected to the light elements, to the reader and to the interface, which comprises a memory in which is recorded the multiplicity of scenarios and which is configured to cause at least the ignition or extinction of each light element, according to the scenario corresponding to the first identifier read by the reader and / or according to the second signal received from the interface, the control unit comprising means for calculating a value of energy consumption. total and / or total energy production and / or total energy losses of the parts and / or installations 25 for which the corresponding light element is lit, from a database in which energy consumption data are recorded and and / or energy production and / or energy losses of each room of the building and / or installation of the building, - first means for displaying at least a third piece of information representative of said value calculated by the calculating means, a second display screen; - the control unit comprising means for controlling the display of an image of the building on the second floor; notch. Thanks to the invention, it is possible to trigger energy scenarios 35 controlling the building, the device being provided with means establishing a correlation of the energy consumption and / or energy production 3022660 3 and / or energy losses of the building and its buildings. parts or installations with the scenario chosen, several types of scenarios that can be chosen. There is thus a coupling between the physical model and a three-dimensional model on the screen. According to one embodiment of the invention, the control unit is configured to display in the image on the second screen, in addition to the building, at least a fourth piece of information representative of the scenario corresponding to the first identifier that has been read. According to one embodiment of the invention, the model is placed on a plate able to be rotated on itself by at least one drive device, at least one sensor of a first angle of rotation of the device. of entrainennent being connected to the control unit for controlling the image representing the building seen in three dimensions according to a second perspective angle of view, equal to the first angle.

According to one embodiment of the invention, the control unit is connected to the drive device and is configured to cause the rotation of the plate according to a rotation instruction contained in the scenario corresponding to the first identifier that has been read. by the reader.

According to one embodiment of the invention, the rotation instruction may include starts, stops and positions at a certain angle. According to one embodiment of the invention, the control unit is connected to the drive device and is configured to cause the rotation of the plate according to a rotation setpoint determined according to the second signal. According to one embodiment of the invention, the control unit is configured to display 3D images on the screen, to send commands to the training device and / or to play sounds on at least one loudspeaker. According to one embodiment of the invention, the plate comprises a metal ring mounted on a rotor of the drive device, this ring being in contact during rotation and stopping the rotation with fixed conductive brushes connected to the elements. bright for their 35 power supply. According to one embodiment of the invention, the man-machine interface comprises at least one adjusting member for setting a simulated parameter of energy consumption and / or energy production of at least one specific part of the building and / or at least one specific installation of the building, the control unit is provided to individually adjust the intensity of the illumination provided by the at least one luminous element corresponding to this determined part of the building and / or to this installation determined the building according to the parameter. According to one embodiment of the invention, the device 10 comprises a scenario generation module, capable of being connected to the control unit for recording and / or modifying at least one scenario in the memory and / or in the base of data. PRESENTATION OF THE FIGURES Other features and advantages of the invention will appear from the description which will now be made with reference to the accompanying drawings, which show, by way of indication but without limitation, possible embodiments. In these drawings: - Figure 1 is a schematic perspective view of the energy information display device for at least one building, according to one embodiment of the invention, - Figure 2 is a schematic perspective view. a console of the energy information display device relating to at least one building, according to one embodiment of the invention; - FIG. 3 is a schematic perspective view of a reader and a screen forming part of the energy information display device relating to at least one building according to one embodiment of the invention, and - Figure 4 is a modular block diagram of the energy information display device for at least one building, following a embodiment of the invention.

DETAILED DESCRIPTION OF EMBODIMENTS OF THE INVENTION 3022660 In FIGS. 1 to 4, the device 1 for displaying energy information concerning at least one building comprises a model 2 of the building, representing, by a miniature object 2a, and in three dimensions, a real building B of unreduced dimensions, which can consume or produce energy or have energy losses. This real building B may be, for example, a detached house, an individual dwelling, an apartment, an apartment building, office space in individual houses or apartments, an office building, but also a factory, a building a power station, a nuclear power plant, a nuclear dam plant, a neighborhood, a city, a transport vehicle that can be, for example, an airplane, a car, or an engine, a pump, heat or whatever. It can be one or more buildings or a set of buildings. Energy information can be for example energy consumption, energy production, energy losses, energy performance figures, energy advice. The device 1 for displaying energy information concerning at least one building makes it possible to simulate the energy consumption and / or the energy production and / or the energy loss of one or more buildings or a group of buildings. The device 1 can therefore also be a device 1 for simulating at least one building. Therefore, it is possible to replace the term - device 1 for displaying energy information concerning at least one building "by - a device 25 for simulating energy consumption and / or energy production and / or energy loss and / or the energy performance of at least one building. Below, the device 1 for displaying energy information concerning at least one building is called simulation device 1. The model 2 of the building is provided with a plurality of luminous elements 3 able to be at least lit or individually extinguished. The luminous elements 3 are respectively positioned in a plurality of locations of the model 2, these locations being representative of different building energy consuming and energy-producing rooms 4 within the building and / or energy losses of the building. building, hereinafter referred to as 35 rooms 4, and / or being representative of different energy consuming building and / or energy production facilities within the building 3022660 6, hereinafter referred to as facilities 5. Below , which is indicated for the energy consumption by the parts 4 and / or installations 5 can also concern the energy production by the parts 4 and / or installations 5 and / or the energetic losses by the parts 4.

Thus, the various rooms 4 can be a living room, a kitchen, a bedroom, a bathroom, a laundry room, an office or other. The energy-consuming installations of the building may be or include one or more installations consuming electricity or electrical apparatus (s). The energy consuming installations of the building can be for example a building heating device or a heating device of one or more rooms of the building, a washing machine, a dishwasher, a television building lighting or a building ceiling light, a dryer, an oven, a fridge-freezer, a water heater, or other. The energy-consuming installations of the building may be or include one or more facilities consuming a fluid or a gas, for example a combustible gas. The energy generating installations of the building may comprise or comprise components of an installation that may be, for example, a tank, a primary circuit, a secondary circuit, a steam generator, an alternator, a turbine, for example in the case of a nuclear power plant. The device 1 comprises a reader 6, designed to select a scenario S from several scenarios S. A multiplicity of supports 7, on which are a corresponding multiplicity of first identifiers ID1 of scenarios S, representative of a corresponding multiplicity of scenarios S 25 different energy consumption of building B and / or energy production of building B and / or energy loss of building B and / or energy performance of building B and / or animation of the model 2 are provided. Therefore, the first identifiers ID1 are different from each other, to identify different scenarios S. Each support 7 is, for example, removable from the reader 6. Each support 7 is, for example, a card. Each identifier ID1 is, for example, a code, such as for example a barcode present on an outer face of the support 7. The reader 6 and the model 2 are, for example, arranged on a frame 8, while the supports 7 removable can be arranged in one or more receptacle (s) 9 integral (s) of the frame 8. The frame 8 can be fixed or movable being for example mounted on wheels.

The reader 6 is able to read a first identifier ID1 of a scenario S of energy consumption of building B and / or energy production of building B and / or energy loss of building B and / or energy performance of the building. B and / or animation of the model 2, present on at least one support 7, when the reader 6 and the support 7 are placed in a reading position relative to each other. For example, this reading position may correspond to the fact that the user takes one of the removable media 7 to place the identifier ID1 carried by this support 7 in front of the reader 6, so that the reader 6 reads the identifier ID1 . Of course, it can also be provided that the reader 6 comprises a movable reading head, which can be moved by the user in front of each support 7, each support 7 can in this case be removable, or fixed relative to the 8. The simulation device 1 comprises a first desk 10, 15 having a human-machine interface 11 for sending a second signal S2 for switching on or off the light elements 3 of at least one room 4 of the building. B and / or at least one installation 5 of the building B among said parts 4 and / or installations 5. The desk 10 is for example part of the frame 8. The interface 11 20 comprises, for example, a first control member manual 111 for each piece 4 and / or a manual control member 112 for each installation 5. According to one embodiment, the control of the switching on and off of the light elements 3 and / or the control of the intensity of 25 crazy lighting 3 can be carried out individually from the interface 11 and / or from the reader 6. The device 1 comprises a control unit 12, which is connected to the light elements 3, to the reader 6 and to the 11 man-machine interface. The control unit 12 comprises a memory 13, or a database 15, in which the multiplicity of scenarios S is recorded in association with the multiplicity of first identifiers ID1 of scenario S, respectively. The control unit 12 is configured. to cause at least the switching on or off of each light element 3 according to the scenario S corresponding to the first identifier ID1 having been read by the reader 6 and / or as a function of the second signal S2 received from the human interface 11 -machine.

Thus, the manual selection by the interface 11 of a workpiece 4 and / or an installation 5 causes, by means of the control unit 12, the lighting of the light element 3 positioned in or close to this piece 4 of the model 2 or positioned on or in the installation 5 of the model 5 2. The lighting of a light element corresponds to the activation of the part 4 and / or the installation 5 where this light element 3 is positioned in the model 2, and is a simulation information of energy consumption and / or energy production and / or energy loss of this part 4 and / or installation 5.

According to one embodiment, each scenario S recorded in the memory 13 and / or in the data base 15 comprises for each light element 3, identified by a second individual identifier 1D3 of light element, a PA ignition or an individual PE prescription of extinction. The selection of a scenario S via the reader 6 reading the corresponding identifier ID1 on one of the supports 7 causes the selection of the scenario S associated with this first identifier ID1 in the memory 13 or the database 15, and switching on or off of the light elements 3 according to the recorded prescriptions of this selected scenario S. Each PA lighting requirement of a luminous element 3 in the scenario S is a simulation information of energy consumption and / or energy production and / or energy loss of the room 4 and / or installation 5 where this luminous element 3 is positioned in the model 2. Thus, according to one embodiment, the lighting of each light element 3 corresponds to the state PA of activation of energy consumption and / or energy production and / or energy loss of energy. the piece 4 and / or installation 5 where this light element 3 is positioned in the model 2. According to one embodiment, the simulation device 1 comprises a means 14 for calculating a total energy consumption value Vt and / or total energy production and / or total energy losses of parts 4 and / or installations 5 for which the corresponding light element 3 is turned on. This calculation means 14 uses a database 15 in which energy consumption and / or energy production and / or energy loss data 35 of each room 4 of building B and / or each installation 5 of building B are recorded.

According to one embodiment, in the memory 13 and / or the data base 15 is recorded, in association with each PA lighting requirement of at least one light element 3 and / or in association with each state of light. PA activation of at least one light element 3, a second value V 5 of energy consumption and / or energy production and / or energy losses of the room 4 and / or installation 5 where this light element 3 is positioned in the model 2. This value V is actual energy consumption and / or actual energy production and / or actual energy loss of this part 4 and / or installation 5 in the real building B. According to one embodiment, the means 14 calculates the value Vt as a function of the activation state PA of the light elements 3 and / or of the light source lighting prescription PA 3. According to one embodiment, the means 14 calculates the value Vt by summing the values V of the parts 4 and / or installations 5 associated in the scenario S with the identifiers 1D3 of the luminous elements 3, associated with an activation state PA and / or an ignition PA prescription. According to one embodiment, the calculation means 14 is part of the first control unit 12.

This value Vt, calculated by the calculation means 14, is sent to first display means 16 for displaying at least a third piece of information 13 representative of this value Vt. This third piece of information 13 can indicate a power (expressed for example in W) or an energy (for example in kWh). These first display means 16 may comprise, for example, a display 161 displaying, as third information 13, the value Vt, which may be an energy power, for example a watt, and / or a device 162 with light bars aligned on the along a determined direction, which are lit along a length proportional to the value Vt in this direction (for example of the vumeter type) or more generally a display device having luminous elements aligned in a determined direction (horizontal to the Figure 2) lit proportionally to the value Vt or increasing with the value Vt. According to one embodiment, the means 16 display the third piece of information 13 as a function of the activation state PA of the luminous elements 3. The display 161 may comprise several digits, for example six digits, for example several digit digits. such as five digits in FIG. 2, followed on the right by a digit indicating the unit, which may be the power in W. The third piece of information 13 may be a power which may be in W or a quantity of energy in kWh (kilowatt hour), or a value of money sum converted at the energy price, for example in euro, or any unit 5 characteristic of the operation (number of revolutions per minute, frequency, voltage, or other) according to the the part (s) 4 and / or installation (s) 5 shown. The simulation device 1 comprises a second display screen 17. The control unit 12 comprises means 170 for controlling the display on the second screen 17 of an image IB of the building B. The screen 17, the reader 6 and the receptacle (s) 9 can be provided in a second desk 24 separate from the first desk 10, and for example by being rotated relative to each other around the model 2. According to one embodiment, the image IB displayed on the second screen 17 comprises, in addition to the building B, at least a fourth information item 14 representative of the scenario S corresponding to the first identifier ID1 having been read, that is to say the scenario S having been selected. According to one embodiment, the scenarios S are a set of instructions for displaying 3D images on the screen, instructions for rotating the training device, sound instructions, and activation instructions. luminous elements. They can be of different types. According to one embodiment, each scenario S recorded in the memory 13 and / or in the data base 15 comprises instructions for displaying 3D images on the screen, instructions for rotation of the training device, instructions of sounds. Information 14 may be information that varies depending on the type of scenario S, such as for example the following types. A first type of scenario S can vary, in the information 14, the energy losses depending on the year of construction of the building B, for example by color effects on the building. A second type of scenario S can vary, in the information 14, the energy performance characterized by the letter of the energy label of the building according to the year of construction of the building B, depending on the heating equipment and according to the domestic hot water production equipment. A third type of scenario S displays, in the information 14, the consumption of the installations 5 according to their energy class, for example by consumption figures in kWh, CO2 emission figures in kg, costs in kg. EUR, for each installation 5: eg oven, washing machine, dryer, TV, lamp, ceiling lamp, wall lamp, fridge-freezer or other. A fourth type of scenario S may comprise, in the information 14, additional information to be displayed on the screen 17, such as, for example, energy saving or other advice, which may take the form of animated films. . A fifth type of scenario S may include, in information 14, explanations on the new tariff offers related to the smart 10 grid (which can be translated as intelligent energy grid and which may concern the self-production of energy, communicating meters), which can take the form of animated films. Each scenario S may comprise at least one animation identifier IA, which may cause a corresponding animation on the screen 17, 15 this animation can be visual and / or sound. According to one embodiment, the model 2 of the building B is disposed on a plate 18 (shown in Figures 2 and 4), this plate 18 being for example substantially horizontal. This plate 18 is adapted to be rotated on itself about an axis 20 by at least one drive device 19 20 being a motor. According to one embodiment, a synchronization device is provided between the image IB of the building B displayed on the second screen 17 and the rotating position of the plate 18. For this purpose, at least one sensor 21 can be provided for 25 to measure a first angle ANG1 of rotation of the driving device 19. This sensor 21 may be or include, for example, an encoder wheel coupled to the driving device 19. In addition, a fixed optocoupler may be provided which sends a signal of zero at each passage of a marker placed on the rotating plate 18, in order to avoid angular offsets.

According to one embodiment, the first control unit 12 is connected to the drive device 19 to rotate the drive device 19 and the plate 18 about the axis of rotation according to a CR setpoint of rotation contained in the scenario S corresponding to the first identifier 101, having been read by the reader 6, that is to say the scenario S 35 having been selected. This causes rotation of the plate 18, either for a certain number of revolutions, or for a prescribed period of time, or up to a prescribed stopping position. The set point CR is therefore a reference for rotation and positioning of the plate 18 and the model 2. According to one embodiment, the first control unit 12 is connected to the drive device 19 and is configured to cause the rotation of the plate 18 according to a rotation setpoint determined according to the second signal S2. This causes rotation of the plate 18 to a prescribed stop position. The set point is therefore an instruction of rotation and positioning of the plate 18 and the model 2. For example, the operation of the interface 11 or a member 111, 112 or 23 by a user 10 causes the rotation of the plate 18 according to a determined rotational stroke to a specific stop position of the plate 18 so that the light element 3 selected by this actuation of the interface 11 is in front of the panel 10 or visible from the panel 10. In general, the rotation instruction may be a number of revolutions of the plate 18, or a rotation time, or a prescribed rotation angle of the plate 18 until it stops at a prescribed position, a sequence of several instructions for rotation. In one embodiment, a rotating electrical collector device is provided between the driver 19 and the elements 3. In one embodiment, the tray 18 includes a metal ring mounted on the rotor of the driver 19 , this ring being in contact during rotation and stopping rotation with fixed conductive brushes, connected to the elements 3 for their power supply. This prevents electrical supply wires of the elements 3 from becoming entangled and interfering with rotation. Thus, the rotation of the plate 18 can be infinite, in the sense that it can have any number of successive turns, without being hindered by the electrical power supply system of the elements 3. According to one embodiment, the sensor 21 of the first angle ANG1 of rotation of the driving device 19 is connected to the control means 170 for controlling the image IB representing the building B seen in three dimensions according to a second angle ANG2 perspective view equal to the first angle ANG1 of the model 2 The angle of view ANG2 on the screen 17 thus corresponds to the viewing angle that a user would have of the model 2 when it is in front of the screen 17 while looking at this model 2. The rotation 35 of the plateau 18 changes the first angle ANG1 of the model 2 and, in real time, the angle ANG2 on the screen 17.

The first control unit 12 may be implemented by a computer or a computer connected to an electronic card 22 connected to the interface 11, to the first display means 16, to the light elements 3, to the training device. 19 (and possibly to the encoder wheel 21), and possibly to the adjusting member 23 described below. This computer can be equipped with USB ports, input / output ports, a communication port with a network, for example of the local network type such as Ethernet for example, and a slot for a memory card , for example micro SD type, containing the operating system and the programs necessary for the operation of the device. The reader 6, which can be a barcode reader, is for example connected to a USB port of this computer. This computer may, for example, be a nano-computer, the electronic card 22 may include one or more microcontroller (s). It may be provided on this electronic card 22 a microcontroller which drives the drive device 19, via a power stage, the microcontroller receiving the first angle information ANG1 of the model 2. This microcontroller sends speed instructions, of direction of rotation, starting and stopping the drive device 19, and receives in real time the angular position ANG1 of the axis 20 of the drive device 19, as well as angular registration signals (for example resetting tops). This servo loop ensures the precise positioning of the plate 18 at a defined angle. According to one embodiment, the drive device 19 is a DC motor. This type of motor has the advantage of being inexpensive, of having a sufficient torque, of not overheating and of being able to rotate to infinity, and not more or less 180 °. The electronic card 22 may comprise a second microcontroller, which controls the lights of the model 2, namely the light elements 3, for example by a serial peripheral interface (SPI for English: Serial Peripheral Interface). Each scenario S may comprise a sequence of elementary orders concerning the luminous elements 3 (switching on, off, flashing, sequencing thereof, chosen colors, ignition intensity), the driving device 19 (starting, stopping, number of turns 35 to a prescribed angular position of the driving device 19), sounds emitted by the elements 27, the animation of the image IB on the screen 17. A scenario may comprise several sequences succeeding each other in time for the control of the aforementioned elements 3, 19, 27, 17. According to one embodiment, this second microcontroller or, more generally, the control unit 12, allows: 5 - the fixed or moving lighting of the desired color of one or more strip (s) 31 of light elements 3 (this or these strip (s) can be provided on the front of the model 2) surrounding (s) each room 4 or building B complete in the model 2, these bands 31 being for example with red and / or green and / or blue or other lighting, a large number of lighting colors being possible (for example at least 256), - the fixed or flashing lighting of the desired color of elements luminous 3 placed in the ceilings of the rooms 4 of the model 2 and / or in the facilities 5 of the model 2, these elements 3 15 may be for example red and / or green and / or blue or other lights, a large number lighting colors being possible (for example at least 256), - the fixed and / or flashing ignition of the second console 24 where the screen 17 and the reader 6 are located, when these are activated or are used - Ignition of the organs 111 and / or 112, and / or more generally the interface 11 of the desk 11, - to trigger a different scenario S with each support on a member 111 or 112 of the desk 11.

According to one embodiment, the screen 17 makes it possible to read 2D or 3D animations, films and sounds when the interface 11 is actuated and / or when a support 7 is read by the reader 6 and / or during a sleep mode. There can be provided a standby scenario S, which is activated by the control unit 12 as long as the interface 11 is not actuated and as long as a medium 7 is not read by the reader 6. This Standby scenario S is replaced by the scenario S selected by the reader 6 reading the identifier ID1 of scenario on a support 7 or by the signal S2 received following the operation of the interface 11. According to one embodiment, the reading an identifier ID1 of scenario S by the reader 6 causes the extinction of the first display means 16. It is for example provided in the control unit 12 means for inactivating the interface 11 during the execution of a scenario S, so that the operation of the interface 11 by a user does not interfere with the control of the elements 3 and / or 19 and / or 17 and / or 27 by the control unit 12 taking place according to the scenario S corresponding to the identifier ID1 having been read on the reader 6.

According to one embodiment, a scenario S is a series of elementary actions acting on different hardware or software such as the training device 19 and / or the luminous elements 3 and / or the image IB of the building B and / or screen animations and / or sounds. A scenario S may be recorded, for example, in the form of a JSON file transmitted to the electronic card 22 via a serial peripheral interface (SPI) when a scenario S is called, that is to say selected. The memory 13 may comprise the database 15 in which the scenarios S are stored, this database 15 being able to be of the SQLite type. According to one embodiment, the device 1 comprises a means 26 for recording in the memory 13 and / or the data base 15, one or more scenarios S. According to one embodiment, the device 1 comprises a generation module 26 of scenario S, adapted to be connected to the control unit 12, 22 for recording and / or modifying one or more scenarios S in the memory 13 and / or in the data base 15.

This means 26 may be connected to the control unit 12, for example by a second wireless communication means 33 of the unit 12. This means 33 could also be a means 33 of wired communication with the unit 12. The scenarios S can be edited for example via a web scenario editor 26 served by a web server hosted on the unit 12. The editor 26 of 25 scenario makes it possible to describe the scenarios S in a very modular way and to modify them in very different ways. little time if necessary. The device 1 is therefore evolutionary. The screen 17 may be a digital tablet, or other. The screen 17 may be connected to the control means 170 and / or to the unit 12 by a third wireless communication means, which may comprise a router 25 providing, for example, a two-way wireless communication in real time between 12 and the screen 17. This router uses for example the protocol called WEBSOCKET. This third means of communication could also be a third wired communication means between the screen 17 and the control unit 12 and / or the means 170.

It can thus be provided a synchronization between the physical building B of the model 2 and the three-dimensional building of the image IB.

According to one embodiment, the image IB is synchronized with the state of the model 2 of the building B, the image IB being displayed in real time and in three dimensions on the screen 17. According to one embodiment , the device 25 can communicate 5 for example, in real time, the first angle ANG1 of the driving device 19, having been measured, the (or) identifier (s) IA animation according to the types of scenario indicated below. above and sound (can be a sound of the actual operation of an installation when pressed on a control member 112) to launch and also the PA or PE state of the lighting of the light elements 3.

The screen 17 may be associated with one (or more) speaker (s) 27 for transmitting the sounds of the selected scenario S. The control unit 12 can thus send to the screen 17 IA identifiers animation or events to launch in the image IB or the (or) speaker (s) 27. Finally, the screen 17 may be connected to a video transmission device 28, able to communicate via a wireless link 29 (or alternatively via a wired link) with a video receiver 30 connected to another screen 31, which may for example be a large one. screen, larger than the screen 17, and located remote from the frame 8. Thus, according to one embodiment, the control unit 12 of the electronic card 22 allows monitoring and control of the scenario S in real time .

According to one embodiment, the human-machine interface 11 comprises at least one adjusting member 23 for setting a simulated parameter of the energy consumption and / or the energy production of at least one determined part 4 of the real building B and / or at least one specific installation 5 of the actual building B. This particular installation of the building 25 may for example be a heating installation of the building. This specific piece 4 of the building may be for example the heating device of a specific piece 4 of the building. The adjustment member 23 allows, for example, to adjust, as a parameter, the heating temperature sent to the determined installation 5 formed by the heater, in the manner of a thermostat. This adjustment member 23 may comprise a slider 231 movable between graduations 232, for example temperature. According to one embodiment, the first control unit 12 is configured to individually adjust the intensity of the illumination provided by at least one luminous element 3 corresponding to this determined part 4 and / or to this determined installation 5, depending on the the consumption and / or production parameter having been set by the organ 23.

According to one embodiment, there is provided an activation device of the light elements 3 (the activation corresponding to the switching on, the extinction or the variation of the intensity of the illumination of the luminous elements 3), comprising the interface 11 and the reader 6.

According to one embodiment, the unit 12, the electronic board 22 and the driving device 19 are on-board electronic components. According to one embodiment, the first display means 16 make it possible to display the third information 13 characteristic of the use of the installations 5 and / or the rooms 4, this use being symbolized by the activation of the corresponding light elements 3 According to one embodiment, the screen 17 makes it possible to display in real time a three-dimensional modeling of the building B with automatic synchronization of the angle of rotation ANG2 of the image IB with the physical model 2. It can be provided a periodic automatic registration process of the zero angle, to avoid a drift between the physical model and the image IB, for example with the aforementioned optocoupler. According to one embodiment, the reader 6 makes it possible to launch animation scenarios S of the model 2 from the reading of the identifier ID1, this reader 6 being connected via a central computer to the activation means 20 of the model 2 (rotation and light elements 3) and the display on the screen 17. 25

Claims (9)

REVENDICATIONS1. Device for displaying energy information relating to at least one building, characterized in that it comprises: - a model (2) of said building (B), provided with a plurality of light elements (3) able to be at less switched on or off and positioned in a plurality of representative parts of the model representative of different energy-consuming and / or energy-producing rooms (4) within the building (B) and / or energy losses of the building (B) and / or installations (5) consuming and / or producing energy within the building (B), - a reader (6), able to read a first identifier (ID1) of a scenario (S) of energy consumption of the building (B) and / or energy production of the building and / or energy losses of the building and / or building energy performance (B) and / or animation of said model (2), present on at least one support (7), when the reader (6) and the support (7) are placed in a reading position relative to each other, a multiplicity of first identifiers (ID1) representative of a corresponding multiplicity of different scenarios (S) of building energy consumption (B) and / or energy production of the building and / or energy losses of the building and / or energy performance of the building (B) and / or animation of said model (2) being respectively present on a corresponding multiplicity of supports (7), - a desk (10) comprising a human-machine interface (11) for sending a second signal (S2) comprising a selection of at least one part (4) and / or at least one installation (5) among said parts (4) and and / or installations (5) of the building (B), - a control unit (12, 22), which is connected to the light elements (3), to the reader (6) and to the interface (11), which comprises a memory (13) in which is recorded the multiplicity of scenarii (S) and which is c configured to cause at least the switching on or off of each light element (3), according to the scenario (S) corresponding to the first identifier (ID1), having been read by the reader (6) and / or depending on the second signal (S2) received from the interface (11), the control unit (12, 22) comprising means (14) for calculating a total energy consumption value (Vt) and / or 3022660 total energy production and / or total energy losses of the parts (4) and / or installations (5) for which the corresponding light element (3) is lit, from a data base (15) in which are recorded energy consumption and / or energy production and / or energy loss data of each room (4) of the building (B) and / or installation (5) of the building (B), - first means (16) of displaying at least a third piece of information (13) representative of said value (Vt) calculated by r the calculating means (14), - a second display screen (17), - the control unit (12, 22) comprising means (170) for controlling the display of an image (IB). of the building (B) on the second screen (17). 2. Device according to claim 1, characterized in that the control unit (12, 22) is configured to display in the image (IB) on the second screen (17), in addition to the building (B), at least a fourth piece of information (14) representative of the scenario corresponding to the first identifier (ID1) having been read. 3. Device according to any one of the preceding claims, characterized in that the model (2) is disposed on a plate (18) adapted to be rotated on itself by at least one drive device (19). ), at least one sensor (21) of a first angle (ANG1) of rotation of the driving device (19) being connected to the control unit (12, 22) for controlling the image (IB) representing the building (B) seen in three dimensions according to a second perspective angle (ANG2) equal to the first angle (ANG1). 4. Device according to claim 3, characterized in that the control unit (12, 22) is connected to the drive device (19) and is configured to cause the plate (18) to rotate in accordance with a rotation instruction contained in the scenario corresponding to the first identifier (ID1), having been read by the reader (6). 5. Device according to claim 3 or 4, characterized in that the control unit (12, 22) is connected to the drive device (19) and is configured to cause rotation of the plate (18) by according to a rotation setpoint determined according to the second signal (S2). 6. Device according to any one of claims 3 to 5, characterized in that the control unit (12, 22) is configured to display 3D images on the screen (17), send commands to the device ( 19) and / or play sounds on at least one loudspeaker (27). 7. Device according to any one of claims 3 to 6, characterized in that the plate (18) comprises a metal ring mounted on a rotor of the device (19) for driving, this ring being in contact during the rotation and stopping the rotation with fixed conductive brushes, connected to the light elements (3) for their power supply. 8. Device according to any one of the preceding claims, characterized in that the interface (11) man-machine comprises at least one member (23) 15 setting to adjust a simulated parameter of energy consumption and / or energy production of at least one determined part (4) of the building (B) and / or at least one specific installation (5) of the building (B), the control unit (12, 22) is provided to individually adjust the intensity of the illumination provided by the at least one luminous element (3) corresponding to this determined part (4) of the building (B) and / or to this particular installation (5) of the building (B) according to the parameter . 9. Device according to any one of the preceding claims, characterized in that it comprises a module (26) for generating scenarios (S), adapted to be connected to the control unit (12, 22) for recording. and / or modifying at least one scenario (S) in the memory (13) and / or in the data base (15).