DEVICE AND A CONTROL AND / OR CONTROL SYSTEM

专利摘要:
The present invention relates to a device for controlling and / or controlling a visual or thermal comfort or safety element of a building, comprising a display screen (19) and an electronic control unit (21) provided with a communication module (25) arranged to receive data, according to a wireless communication protocol, from a complementary communication module of a central entity arranged to control and / or control the at least one element (3) for visual comfort or thermal or security, said central entity being arranged to arrange and send to the electronic control unit (21) representative data relating to visual or thermal comfort, power consumption or building safety. The electronic control unit (21) is configured to generate a display configuration according to at least one content data and at least one display descriptive data defining the display arrangement of the display. at least one content datum, the at least one content datum and the at least one descriptive display datum being included in the representative data relating to the visual or thermal comfort, the electrical consumption or the security of the building received via the communication module (25), the display screen (19) being configured to display said display configuration (A).
公开号:FR3020476A1
申请号:FR1453728
申请日:2014-04-25
公开日:2015-10-30
发明作者:Pierre Mignot；Pierre Emmanuel Cavarec
申请人:Somfy SA；
IPC主号:

专利说明:

[0001] The present invention relates to a device, a system and an installation for controlling and / or controlling at least one element of visual comfort or thermal or building safety. It is known to have a control and / or control system comprising a central entity and a plurality of control points of building equipment actuators. The central entity is arranged to control, that is to say at least collect a set of data relating to the visual or thermal comfort, the energy consumption or the safety of the building, and possibly to order, that is to say -develop and / or transmit a command order of an actuator. Each control point can also operate independently and develop control commands to the actuator with which said control point is associated or paired. Under these conditions, each control point may have a screen arranged to display the data available to the control point. Typically, these are control commands sent to the associated actuator, the response of the actuator to this control command sent to the control point and optionally a measurement value received from a sensor associated with the control point. These provisions are satisfactory in that the user can know the data relating to each control point. However, the user must move from control point control point to know all the data of interest or configure the complex associations between the different information sources and control point 25 having a screen. Another solution is to transmit all data relating to visual or thermal comfort, power consumption or building safety to a mobile communication terminal, such as a phone or tablet. This arrangement is satisfactory in that all data are accessible to the user. Equipping all the parts with a terminal arranged in a fixed and visible place in a room to display the information relating to this part also seems expensive and inappropriate. Alternatively, complex navigation functions may be provided on the terminal, so as to display all the recoverable data, but their use requires learning and can cause dissatisfaction.
[0002] The present invention aims to solve all or some of the disadvantages mentioned above. For this purpose, the present invention relates to a device for controlling and / or controlling a visual or thermal comfort or safety element of a building, comprising a display screen and an electronic control unit provided with a communication module arranged to receive data, according to a wireless communication protocol, from a complementary communication module of a central entity arranged to control and / or control the at least one visual comfort element or thermal or security, said central entity being arranged to dispose and transmit to the electronic control unit representative data relating to visual or thermal comfort, power consumption or building safety. The electronic control unit is configured to generate a display configuration according to at least one content data and at least one display descriptive data defining the display arrangement of the at least one content data, the at least one content datum and the at least one descriptive display datum being included in the representative data relating to the visual or thermal comfort, the electrical consumption or the security of the building received via the communication module, the display screen being configured to display said display configuration. It thus appears that the control and / or control device is a simple element. It is arranged to receive data, and then to generate a display configuration from the representative data. The content data DC corresponds, by way of example, to the values of physical quantities relating to visual or thermal comfort, to electrical consumption or safety, such as, for example, a value of temperature or relative humidity, of sunlight, of data. historical data relating to physical quantities, such as power consumption or data relating to the operation of various equipment for visual or thermal comfort or for building safety, such as, for example, the operating states of a heating equipment, the states of opening or closing of a door or gate, etc. Descriptive data of DD displays include data defining the arrangement of a display pattern and defining, for example, the division of the display pattern. in zones and the content data or data to be displayed in each zone, the representation format of the content data or data, pa For example, in the form of a digital display, an icon to be selected from a predefined list, or a graph, such as for example a histogram. The control and / or control device acts as a display device for the content data included in the representative data. The device must not perform expensive energy treatment because no complex calculation must be made for the display. The descriptive display data contains the parameters necessary to define the layout of the display of the content data on the screen. This makes it possible to minimize the energy consumption necessary for the operation of the control and / or control device.
[0003] According to one aspect of the invention, the electronic control unit is configured to generate a display configuration according to characteristic data of the display screen, in particular data characteristic of the dimensions of the display screen. These provisions make it possible in particular to adapt the display to the specificities and positioning of the screen. Thus, a screen disposed with its largest horizontally oriented dimension must have a different display configuration than a screen whose largest dimension is positioned vertically. According to one aspect of the invention, the orientation of the display screen is defined via an accelerometer. According to one aspect of the invention, the electronic control unit is arranged to elaborate and transmit a request to the central entity via the communication module, the request comprising a request for updating at least one representative datum or a request for action by the central entity. For the sake of limiting the energy consumption of the control and / or control device, it is possible for the central entity to send a representative data item only on the express request of the control and / or control device via the control device. a request. Providing data to the control and monitoring device only on request contributes to reducing the energy consumption of the control and / or control device, the communication module of which does not need to be maintained. in a message listening mode. According to one aspect of the invention, it is when sending the request 5 to ask the central entity to update at least a portion of the data to be displayed. The central entity proceeds with the development of the display configuration of the representative data according to the request. According to one aspect of the invention, queries are systematically issued at specific time intervals. These queries can be issued without the intervention of a user. The transmission frequency of these requests is provided by the central entity. According to one aspect of the invention, the control and / or control device further comprises an input module and a transfer module, the input module being arranged to detect a user's action and the transfer module. being arranged to transmit an input information corresponding to the detected action to the communication module of the electronic control unit. The input module and the transfer module provide an interface for the user that allows direct use of the control and / or control device for input rather than the central entity. According to one aspect of the invention, a request is sent via the communication module as soon as the input module detects an action of a user. The control and / or control device then acts as a control unit of the central entity. The information entered corresponding to the action of a user is transferred by the control device and / or control to the central entity, without further analysis. Simply transferring the captured information also contributes to reducing the power consumption of the control and / or control device, to the extent that the information processing resources can be reduced. According to one aspect of the invention, the input module comprises at least one detection zone of a mechanical support disposed opposite the screen, the detection zone being arranged to detect a support on the screen. This arrangement gives an impression of an instant feedback touchscreen. In reality, the information entered is transferred to the central entity and the return display is that of the content data of a representative data item from the central entity. According to one aspect of the invention, the input module comprises a mechanical switch. According to another aspect of the invention, the control unit 5 comprises a printed circuit substrate on which is disposed the input module provided with a tactile dome. According to one aspect of the invention, the screen comprises a bistable display element, in particular an electronic ink display element. The use of a bistable display element, especially an electronic ink display element, allows a low power consumption. According to one aspect of the invention the display is bistable, that is to say that the display can be modified only if new content is displayed. According to one aspect of the invention, the communication module comprises a passive member arranged to be detected and identified according to a near field communication protocol. This arrangement allows a pairing of the control device and / or control with the central entity for example. Indeed, the representative data identified by the control device and / or control have been developed for a particular control device and / or control. This pairing is necessary to establish communication between the central entity and the control and / or control device. No other pairing of the control device and / or control, especially with other equipment of the installation, is then necessary. Alternatively, a user having a portable communication terminal arranged to communicate according to the near field communication protocol, such as a telephone, is also able to detect and identify the passive organ. The pairing can thus also be achieved via a terminal also arranged to communicate with the central entity. According to one aspect of the invention, the electronic control unit is configured to present a first mode of operation, in which an update of the representative data, complete or partial, is performed according to a first refresh rate, and a second mode of operation, in which an update of the representative data 35 is performed according to a second refresh rate higher than the first refresh rate.
[0004] The first mode of operation corresponds to a normal operating mode, in which the first refresh rate corresponds for example to a refresh interval in the order of several minutes, in particular of 10 minutes. In particular, these periodic refreshments are made on request of the device, to avoid having to constantly scan the arrival of a message. The second mode of operation corresponds in particular to a startup mode of operation. It may be provided a second refresh rate greater to allow a quicker response of the display when the user takes control of the display. By way of example, the second refresh rate may correspond to a refresh interval of less than 1 s and in particular of the order of a few hundred ms. The second mode of startup operation may be initialized on the initiative of the customer. central entity. The transition from the second operating mode of starting to the first operating mode said normal can be triggered for example at the end of a predetermined time. The present invention also relates to a control system and / or control of at least one element of visual comfort or thermal or building safety comprising at least one element of visual comfort or thermal or safety, including an actuator of a mobile building equipment, a sensor for measuring a physical quantity or any other element relating to visual or thermal comfort or to the safety of the building. The system includes a central entity arranged to control and / or control the at least one visual comfort or thermal or safety element. The system comprises a control and / or control device as described above, arranged to receive data, according to a wireless communication protocol, from a complementary communication module of a central entity. According to one aspect of the invention, the central entity comprises a transmitter / receiver arranged to detect and identify a passive member of a control device and / or control. The present invention further relates to a method for controlling and / or controlling at least one visual or thermal comfort or building safety element, comprising the steps of: - issuing representative data relating to thermal or visual comfort , at the power consumption or building safety from a central entity arranged to control and / or control at least one element of visual comfort or thermal or security according to a wireless communication protocol, the representative data comprising at least one datum of content and at least one descriptive display data defining the arrangement of a display of the at least one piece of content data, - receiving, via a communication module of a control and / or control device, the data representative entities issued by the central entity, and generating a display configuration based on the at least one piece of content and the at least one descriptive display data included in the representative data, - display on a screen of the control device and / or control said display configuration. According to one aspect of the invention, the method further comprises a step of sending a request to the central entity, said request comprising a request for updating at least one representative data item to be displayed and / or an action request by the central entity, such as an actuator control command or an order to launch a visual comfort or thermal comfort or safety equipment control scenario. This arrangement makes it possible to use the control and / or control device as remote control of the central entity. The control and / or control device is limited to transferring said request to the central entity. Only the central entity processes the request. According to one aspect of the invention, the method previously comprises a pairing step between the control device and / or control and the central entity. According to one aspect of the invention, the pairing step comprises an identification of the control and / or control device consisting of detecting and identifying a passive member of said device according to a near field communication protocol. In any case, the invention will be better understood with the aid of the description which follows with reference to the appended diagrammatic drawings showing, by way of non-limiting example, an embodiment of this device and this control system and / or control.
[0005] Figure 1 is a schematic view of a building and its environment including a control system and / or control.
[0006] Figure 2 is a block diagram of the control system and / or control. Figure 3a and 3b are diagrams of two display configurations in two orientations of a display screen.
[0007] Figure 4 is a perspective view of the control device and / or control. Figure 5 is a perspective view of the interior of the control and / or control device. Figures 6 to 8 are exploded views of the control device and / or control. Figure 9 is a flowchart of the steps of a control and / or control method. As illustrated in FIG. 1, a building 1 comprises several pieces Pi, P2, P3 and a control and / or control system 2 of a plurality of elements 3 for visual or thermal comfort or for the safety of the building 1 and of his environment. The elements 3 of visual comfort or thermal or safety are, in the embodiment shown actuators 5, control points 7 of said actuators 5 or sensors 9. These elements are part of a home automation system. In the present text, the term actuator 5 refers to a device for acting on a piece of equipment of a building, such as a shutter, a gate, a garage door, a heater, a luminaire, an air conditioning unit. to modify its state, electrically and / or mechanically. The actuator comprises a control receiver enabling it to receive an automatic or manual control command, for example, from a sensor or a user command. According to one example, an actuator may comprise an electric motor arranged for the opening and closing of a mobile equipment 5 'of the building such as a shutter or a window, the control command corresponding to an operating instruction of said pane or window, for example an order of change of position or state. In another example, an actuator 5 may comprise a ventilation apparatus 5. Similarly, an actuator may comprise an electric motor, a pneumatic or hydraulic cylinder, a heating or heating resistor 6, a lamp or an electromagnet. other example, an actuator may comprise a garage door motor 5 "or a gate motor 5. Each control point 7 is arranged to transmit to at least one actuator 5 a control command following a 15 user action on the control point or following the detection of a passage of a predetermined threshold of a physical quantity measured by the control point or by a sensor associated with this control point. an operating instruction of said actuator 5. The associated or paired actuator at the control point from which the control command originates and receiving this control command reacts by modifying its state or its position of use. It thus appears that an associated actuator 5 and a control point 7 are able to operate independently of the other actuators 5. In the present text, the term sensor 9 refers to a device 25 for measuring a physical quantity, for example a quantity relative to a surrounding physical parameter, such as a temperature sensor 11. The control and / or control system 2 also comprises a central entity C arranged to exchange data with the elements 3 of visual or thermal comfort or of security according to a wireless communication protocol. In the embodiment presented, the protocol used is a radio communication protocol, in particular bidirectional. The central entity C comprises a processing unit arranged to collect and process the data coming from the elements 3 of visual comfort 35 or thermal or security. The collected data correspond to measurements of physical values, from the sensors 9, actuator control commands 5 from the control points 7. It can also be confirmation information, coming from actuators 5 following a control command, said feedback information signaling the receipt of the control command and / or the operating state or position of the actuator 5 reached in response to the command command. It may also be a command order of a user entered at the central entity C, the command order consisting for example of closing a shutter. The processing unit is arranged to, according to the data at its disposal, develop control or control commands for the elements 3 of visual comfort or thermal or security. Thus, although each control point 7 is able to operate independently, the central entity C acts as a global control and control system in order to ensure coherence to all building control orders. This consistency can be ensured by proposing to the user different driving scenarios elements of visual or thermal comfort or security, a scenario that can be "I leave the house" or "I close the shutters at dusk". For this purpose, the central entity stores information concerning the various elements of visual or thermal comfort or safety of the building, as well as pairing links with these elements and with the control and / or control system. The control and / or control system 2 further comprises at least one control and / or control device 13. The control and / or control device 13 is arranged to display information relating to the control system and / or control 2 and also for transmitting requests to the central entity C, as explained below. In FIG. 2, the data received by the central entity C from the elements 3 of visual or thermal comfort or of safety, in particular data of brightness sensors, control commands and feedback information of FIG. actuators 5. DR representative data relating to the visual or thermal comfort, the power consumption or security exchanged between the central entity and the control and / or control devices are also represented, the communication protocol used being the protocol radio communication.
[0008] The control and / or control device 13 comprises a screen 19 and an electronic control unit 21, the electronic control unit 21 being arranged to exchange data with the central entity C. The control device and / or control 13 comprises a power supply module 23 provided with batteries. The display configuration A visible in FIG. 2 is simple and presents the DC content data in the form of text and / or symbols. According to the example presented, the display configuration A is divided into several distinct zones. The number of these areas can of course be variable. According to an exemplary embodiment, the screen 19 is arranged to operate with electronic ink. The advantage of the electronic ink is to allow a bistable display: once a content is displayed, it remains displayed, even in the absence of power supply by the power supply module 23. According to other modes In other embodiments, other types of bistable displays may be used, for example using electromechanical microsystems (MEMS), based on interference modulations (IMoD). The electronic control unit 21 comprises a communication module 25 arranged to exchange data with an additional communication module 27 of the central entity C according to a radio wave communication protocol. In practice, the communication module 25 and the complementary communication module 27 each comprise a radio transceiver. The communication module 25 further comprises a passive member 25 'adapted to receive data according to a near field communication protocol. The complementary communication module 27 comprises a transmitter arranged to communicate according to this communication protocol in the near field. The advantage of having two communication modes between the central entity C and the control and / or control device 13 will be detailed below.
[0009] The electronic control unit 21 is configured to generate a display configuration A according to the content data DC and the display descriptive data DD defining the arrangement of a display of the at least one content data DC the at least one DC content data item and the at least one descriptive display data item DD being included in the representative data DR relating to the visual or thermal comfort, to the electrical consumption or security of the building 1 received via the module of communication 25. The display screen 19 is configured to display said display configuration A.
[0010] The electronic control unit 21 is also arranged to develop and transmit a request RQ to the central entity C. The elaborated request may include a request for updating a representative data item to be displayed. In practice the electronic control unit is arranged to ask the central entity C for content updates to display. This update is sent as needed. The central entity C determines a frequency information which is transmitted to the control device and / or control: can be taken into account for example the time, because it is not necessary for example to refresh too often the display during the night, or information of presence or absence in the building or its environment. The electronic control unit 21 comprises a gripping module 33 provided with several zones of detection of supports. To do this, the input module 33 comprises four mechanical switches 35 arranged under the screen 19, as illustrated in FIGS. 5 and 6. The zones thus correspond to portions of the surface of the screen: a pseudo-tactile effect is thus got. Figure 6 shows the interior of the control and / or control device 13 when the screen 19 is removed. The mechanical switches 35 are tactile domes mounted on a printed circuit 41 facing the screen. Each mechanical switch 35 is identified by a reference. It is also possible to press two mechanical switches 35 simultaneously. A touch dome may also be provided in the center of the printed circuit. According to the embodiment described in FIGS. 5 and 6, four switches 35 are positioned at the four corners of the screen, below it and it is thus possible to detect supports on the zones 17 located at the corners of the screen. screen. These areas 171, 172, 173, 174, are illustrated in Figure 3a. They are respectively disposed above the four switches 351, 352 353, 354, substantially correspond to four display zones Z1, Z2, Z3, Z4. The device thus makes it possible to detect a support of the user on a display area of a given display configuration A.
[0011] In FIG. 2, the screen 19 comprises four zones presenting different information: the instantaneous temperature in a room of the building 1, the relative humidity in said room, weather information and a view of the evolution of the set temperature. in said room over twenty-four hours. FIGS. 6 to 8 are exploded complete or partial views of the control and / or control device 13. As shown, the control and / or control device 13 further comprises a housing 42 composed of an upper part and a a lower part.
[0012] As illustrated in FIG. 2, the electronic control unit 21 comprises a transfer module 37 arranged to transmit the references of the mechanical switches 35 on which the user has pressed. The electronic control unit 21 further comprises an accelerometer for detecting whether the screen 19 is positioned rather vertically or rather horizontally. Furthermore, the electronic control unit 21 comprises a physical measurement sensor (not shown). The data provided by this physical measurement sensor can be displayed directly on the screen of the electronic control unit 21. They can also be supplied to the central unit C.
[0013] Finally, the electronic control unit 21 is arranged to coordinate the operation of the communication module 25, the capture module 33 and the transfer module 37. The electronic control unit 21 comprises in particular the printed circuit 41 mentioned above, a microprocessor and a memory.
[0014] The operation and more particularly the interaction between the central entity C and the control and / or control device 13 are shown schematically according to a flow chart detailing the various steps of the control and / or control method in FIG. preliminary step EO consists in pairing the control and / or control device 13 with the central entity C. The central entity C is designed to transmit data relating to the visual or thermal comfort, the electrical consumption or the security of the building 1. However, as long as the pairing is not performed, the central entity C can not send representative data for the control and / or control device 13.
[0015] The pairing thus consists in placing the communication module 25 in communication with the complementary element 27 so that the central entity C identifies the control and / or control device 13. This communication can be carried out according to the radio communication protocol. or in the near field. The advantage of the near-field communication mode is that it can detect the passive member 25 'when it is in the vicinity of the complementary communication module 27. Once the central entity C has identified the control device and / or check 13, the pairing step may optionally include a substep of configuration. The configuration consists of the central entity C sending data to the communication module 25 for the purpose of setting the feedback element 31. The feedback element 31 can then be parameterized so that he regularly sends requests to obtain certain information (temperature of a room, weather of the day course for example). The parameterization also includes the definition of the refreshing frequency of the display. Cooling may be more spaced during the night. The parameterization corresponds to the automation of the sending of requests by the feedback element 31. According to an example embodiment, in a first of normal operating mode, a refresh of the information can be provided according to a first refresh rate, corresponding for example to a refresh interval of 10 min. These periodic refreshments are made on request of the display, to avoid having to constantly scan the arrival of a message. In a second mode of operation, corresponding in particular to a start mode of operation, a second refresh rate higher than the first refresh rate may be provided, in order to allow a faster response of the display when it is taken. in hand of the display by the user. By way of example, the second refresh rate may correspond to a refreshing interval of less than 1 s and in particular of the order of a few hundred ms. The second start operating mode can be initialized on the initiative of the central entity C, for example following the creation of a new layout layout, or during a request for return of 'information. The transition from the second start operation mode to the first so-called normal operating mode can be triggered for example at the end of a predetermined time.
[0016] The preliminary step EO can be performed only once during the operation of the control / control system 2. The preliminary step EO can also be performed independently of the other steps of the method. Indeed, a change of settings is still possible. This step may also be performed by a communication terminal, such as a telephone, comprising a transmitter operating according to the near-field communication protocol. The terminal must first be paired with the central entity C, so that the received information can be transmitted according to the near field communication protocol to the central entity. Thus, the terminal is used as an intermediary: it only transmits data. It is also possible to store a parameterization profile in the processing unit of the central entity and to load this parameterization profile on several control and / or control devices 13. For this operation, a communication terminal can also be used. The first step E1 itself is to send from the central entity C according to the radio communication protocol representative data to the control device and / or control 13 paired. Each representative data includes content data and display information. The second step E2 consists for the control and / or control device 13 to receive, via the communication module 25, the representative data or data sent by the central entity C and then to generate a display configuration A as a function of the at least one DC content data and the at least one DD display descriptive data included in the DR representative data, The DD display descriptive data detail the layout of the display: The data processing by the control device and / or control is limited: the device generates the images according to the content 30 it receives and according to the specified arrangement. The content data DC corresponds to simple elements such as a text, a numerical value or a reference of a known element of the electronic control unit 21. The content corresponds for example to a value of temperature T or relative humidity HR measured in a room, the content may also include the number or name a, b of a scenario.
[0017] In a functional mode, the representative data DR sent are not images as a set of pixels. If icons are to be used, these are stored locally in a memory of the electronic control unit. The descriptive display data in this case contains a simple reference to the icon to be used in the display configuration AA from the DC content data and display descriptive data provided, the control device and / or control generates the images corresponding to the display configuration.
[0018] The third step E3 consists for the control and / or control device 13 to display on the screen 19 the content data DC of the representative data DR according to the display configuration A defined. It should be noted that this arrangement makes it possible to obtain a low power consumption from the control and / or control device 13. The transmitted data are small in comparison with images in the form of a set of pixels. . It does not need to include a complex processing unit for processing the content data for display to the extent that the arrangement is also provided by the central entity.
[0019] However, the electronic control unit 21 comprising the accelerometer is used during this step to define whether the display should be made vertically or horizontally, as shown in FIGS. 3a and 3b. FIG. 3a illustrates a horizontal display with 4 zones Z1, Z2, Z3, Z4 of the type of FIG. 2. FIG. 3b illustrates a vertical display with 3 high zones H, average M and low B distributed over the height In such a case either the control and / or control device requires an updating of the arrangement and / or content data of the representative data DR to be displayed and information during the positioning change, ie the descriptive data of displays DD contain data corresponding to both formats for each request. The control and / or control device then selects the applicable format during a change of vertical or horizontal positioning of the screen 19 of the device. The fourth step E4 consists for the control and / or control device 13 in sending a request RQ to the central entity C. As already mentioned, this request is intended to ask the central entity C to send at least one representative data item DR updated. The purpose of sending this request RQ is therefore to refresh the display of the screen 19. Again conditioning the refreshing of the screen 19 to the issuance of a request by the control device and / or control 13 participates in the low energy consumption of the device.
[0020] The fifth step E5 consists for the control and / or control device 13 in detecting an input of a user S at the level of the input areas and in transferring the references of the areas on which the user has supported the central entity C. The control and / or control device 13 does not carry out any data analysis during this step, it merely transmits the information to the central entity C. The fifth step E5 is optional and can be performed in parallel other steps. The control and / or control device 13 can thus also act as a remote control of the central unit C. This remote control can be used to transmit a choice of scenario or the increase / decrease of a setpoint value. temperature for example. The user may have pseudo-tactile printing, however, the user's command order is analyzed only by the central entity C. It thus appears that the control and / or control device 13 is a display point. dynamic at a lower cost. The control and / or control device 13 informs the user and enables him to act on the other elements 3 of visual or thermal comfort or security of the building 1 via the central entity C. According to an example embodiment of the control device and / or control 13 is included in a housing 42 on which is attached a magnet. It is thus easy to move the control and / or control device 13 and to place it on or against an interior element of the building 1. The reduced cost of the control and / or control device 13 makes it possible to provide for the use of several control and / or control devices 13 for the same building 1.
[0021] According to an example of embodiment not shown, the control and / or control device may also make it possible to display a code identifying an element of the installation, such as a two-dimensional code (barcode or QR-code) . This code can then be entered by an appropriate reader, for example a code reader integrated in a smartphone or tablet.
[0022] As goes without saying, the invention is not limited to the sole embodiment of this device and control system and / or control, described above as an example, it encompasses all the contrary the embodiments.5

权利要求:
Claims (12)
[0001]
REVENDICATIONS1. Control and / or control device (13) for an element (3) for visual or thermal comfort or for building safety (1), comprising: a display screen (19) and an electronic control unit control unit (21) provided with a communication module (25) arranged to receive data, according to a wireless communication protocol, from a complementary communication module (27) of a central entity (C) arranged for control and / or control the at least one element (3) of visual comfort or thermal or security, said central entity (C) being arranged to arrange and transmit to the electronic control unit (21) data representative devices (DR) relating to visual or thermal comfort, power consumption or building safety, the electronic control unit (21) being configured to generate a display configuration (A) according to at least one data item of content (DC) and at least u descriptive display data (DD) defining the layout of a display of the at least one content data (DC), the at least one content data (DC) and the at least one descriptive data of display (DD) being included in the representative data (DR) relating to the visual or thermal comfort, to the power consumption or to the security of the building (1) received via the communication module (25), the display screen (19) being configured to display said display pattern (A).
[0002]
The control and / or control device (13) according to claim 1, wherein the electronic control unit (21) is configured to generate a display configuration based on data characteristic of the display screen. (19), in particular characteristic data of the dimensions of the display screen (19).
[0003]
3. Control and / or control device (13) according to one of the preceding claims, wherein the electronic control unit (21) is arranged to develop and transmit a request (RQ) to the central entity (C). ) via the communication module (25), the request comprising a request to update at least one representative data item (DR) or a request for action by the central entity.
[0004]
4. Control and / or control device (13) according to one of the preceding claims, further comprising an input module (33) and a transfer module (37), the input module (33) being arranged to detect a user action and the transfer module (37) being arranged to transmit an input information corresponding to the detected action to the communication module (25) of the electronic control unit (21).
[0005]
5. Control and / or control device (13) according to the preceding claim, wherein the input module (33) comprises at least one detection zone of a mechanical support disposed opposite the screen (19), the detection zone being arranged to detect a support on the screen (19).
[0006]
6. Control and / or control device (13) according to one of the preceding claims, wherein the screen (19) comprises a bistable display element, in particular an electronic ink display element.
[0007]
7. Control and / or control device (13) according to one of the preceding claims, wherein the communication module (25) comprises a passive member (25 ') arranged to be detected and identified according to a communication protocol in the near field.
[0008]
The control and / or control device (13) according to one of the preceding claims, wherein the electronic control unit is configured to present a first mode of operation, wherein an update of the representative data (DR) is performed according to a first refresh rate, and a second operating mode, wherein a second representative data update (DR) is performed at a second refresh rate higher than the first refresh rate.
[0009]
9. Control and / or control system (2) for at least one element (3) for visual or thermal comfort or for building safety (1) comprising: at least one element (3) for visual comfort or thermal or safety device, in particular an actuator (5) of a mobile equipment of the building (5 '), a sensor (9) for measuring a physical quantity or any other element relating to the visual or thermal comfort or to the safety of the building (1), a central entity (C) arranged to control and / or control the at least one element (3) of visual comfort or thermal or security, - a control device and / or control (13) according to one of the preceding claims, arranged to receive data, according to a wireless communication protocol, from a complementary communication module (27) of a central entity (C).
[0010]
A method of controlling and / or controlling at least one visual or thermal comfort or building safety element (3), comprising the steps of: - (E1) transmitting representative data (DR) relating to the thermal or visual comfort of the building (1) from a central entity arranged to control and / or control at least one element (3) of visual or thermal comfort or security according to a wireless communication protocol, the representative data (DR) comprising at least one content data (DC) and at least one descriptive display data (DD) defining the arrangement of a display of the at least one content data (DC), - (E2) receiving, via a communication module (25) of a control and / or control device, the representative data transmitted by the central entity (C), and generating a display configuration (A) as a function of the at least one content data (DC) and at least one given e descriptive display (DD) included in the representative data (DR), - (E3) display on a screen (19) of the control device 30 and / or control (13) said display configuration (A).
[0011]
11. Control and / or control method according to the preceding claim, comprising previously a pairing step between the control device and / or control (13) and the central entity. 35
[0012]
12. Control and / or control method according to the preceding claim, wherein, the pairing step comprises an identification (EO) of the control and / or control device (13) consisting of detecting and identifying an organ. passive (25 ') of said device (13) according to a near field communication protocol.

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同族专利:

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公开号 | 公开日

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EP3134778A1|2017-03-01|

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FR3020476B1|2016-04-15|

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WO2015162360A1|2015-10-29|

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CN106233080B|2020-05-29|

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CN106233080A|2016-12-14|

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US10254000B2|2019-04-09|

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US20170059193A1|2017-03-02|

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EP3134778B1|2019-11-06|

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法律状态:
2015-03-30| PLFP| Fee payment|Year of fee payment: 2 |

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2015-10-30| PLSC| Publication of the preliminary search report|Effective date: 20151030 |

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2016-04-04| PLFP| Fee payment|Year of fee payment: 3 |

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2017-04-14| PLFP| Fee payment|Year of fee payment: 4 |

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2018-04-12| PLFP| Fee payment|Year of fee payment: 5 |

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2019-04-16| PLFP| Fee payment|Year of fee payment: 6 |

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2020-04-21| PLFP| Fee payment|Year of fee payment: 7 |

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2022-01-07| ST| Notification of lapse|Effective date: 20211205 |

优先权:

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申请号 | 申请日 | 专利标题

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FR1453728A|FR3020476B1|2014-04-25|2014-04-25|DEVICE AND A CONTROL AND / OR CONTROL SYSTEM|FR1453728A| FR3020476B1|2014-04-25|2014-04-25|DEVICE AND A CONTROL AND / OR CONTROL SYSTEM|

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US15/306,699| US10254000B2|2014-04-25|2015-04-16|Device and a system for control and/or command|

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CN201580021337.3A| CN106233080B|2014-04-25|2015-04-16|Command and/or control device and system|

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EP15725746.0A| EP3134778B1|2014-04-25|2015-04-16|Device and a system for control and/or command|

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PCT/FR2015/051030| WO2015162360A1|2014-04-25|2015-04-16|Device and a system for control and/or command|